Download Haier ESA412K User's Manual
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MQJ@ INM?IIK NHDM,3:222j82222=MN1Y- CRZVb >_]]VbTZR\ <Zb >_^UZdZ_^Vb Version: 200703 >_]]VbTZR\ <Zb >_^UZdZ_^Vb >IHM@HML 30 BV^VbR\ Z^W_b]RdZ_^ 303 G_UV\ T_UV UVcTbZ`dZ_^ 304 LVbZVc \Z^V e` 305 I`VbRdZ_^ dV]`VbRdebV bR^XV 306 Jb_UeTdc WVRdebVc 40 L`VTZWZTRdZ_^c 403 L`VTZWZTRdZ_^c W_b Z^fVbdVb e^Zdc 404 L`VTZWZTRdZ_^c W_b WZh WbVaeV^Ti e^Zdc 50?Z]V^cZ_^c 503 IedU__b e^Zd UZ]V^cZ_^ 504 D^U__b e^Zd UZ]V^cZ_^ 60 JRbdc ^R]V 70 KVWbZXVbR^d TZbTeZd 8 D^cdR\\RdZ_^ Z^cdbeTdZ_^ 803 >RccVddV Z^U__b e^Zd ,<=3:j<=82804 >_^fVbdZS\V Z^U__b e^Zd ,<>3:j<>46805 >_^fVbdZS\V Z^U__b e^Zd ,<>4:j<>82806 >VZ\Z^X T_^TVR\VU UeTd di`V ,<?3:j<?46807 GVU @LJ UeTd Z^U__b e^Zd ,<?3:j<?6:808 CZXY @LJ UeTd Z^U__b e^Zd ,<?4:j<?82809 >RSZ^Vd Z^U__b e^Zd ,<J64j<J6:80: PR\\ ]_e^dVU Z^U__b e^Zd ,<L3:4<O@K<80; IedU__b e^Zd ,<N3:j<N82- 90 @\VTdbZT T_^db_\ We^TdZ_^c 903 AZhVU WbVaeV^Ti e^Zd 904 D^fVbdVb e^Zd :0 @\VTdbZTR\ gZbZ^X UZRXbR]c R^U J>= `Y_d_ :03 D^fVbdVb _edU__b e^Zd :04 AZhVU WbVaeV^Ti _edU__b e^Zd :05 D^U__b e^Zdc :06 LV^c_b TYRbRTdVbZcdZT ; ARZ\ebV T_UV R^U db_eS\VcY__dZ^X 5 5 5 6 7 ; ; 3: 59 59 62 69 77 79 79 89 96 :6 :; ;7 324 327 333 342 342 348 357 357 358 363 37 7 37 9 ;03 ARZ\ebV T_UV ;04 Mb_eS\VcY__dZ^X W_b Z^fVbdVb e^Zdc ;05 Mb_eS\VcY__dZ^X W_b WZhVU WbVaeV^Ti e^Zdc 37 9 38 4 39 2 Appendix - Controllers 179 >_]]VbTZR\ <Zb >_^UZdZ_^Vb 30BV^VbR\ Z^W_b]RdZ_^ vsv 7SHIP GSHI HIWGVMTXMSR T_UV < L 3: 4 v w xq y z TVSHYGX X]TI EMV GSRHMXMSRIV GSHI ERH QIERMRK + GEWWIXXI X]TI , GSRZIVXMFPI X]TI - TVSHYGX WTIGMJMGEXMSR ZSPXEKI GSSPMRK XLI ZEPMH RYQFIV QSVI GETEGMX] XLER XLSYWERH HMKMXEP vvurvvz@tzur{u2^ HILYQMHMJM mPMXVI SV TMRXnXLI JMVWX wwurwyu@tzu2^ IV X[S RYQFIV EMV VIJVIWL vvzrwwu@tzur{u2^ XLI JMVWX X[S RYQFIV GETEGMX] < { GSQFMREXMSR X]TI WMRKPI WTPMX YRMX SV TEGOEKIH YRMX + w X[S F] SRI , . v HYGX X]TI . x XLVII F] SRI GIMPMRK GSRGIEPIH X]TI / wwurwyu@t{u2^ y JSYV F] SRI [MRHS[ X]TI 0 vvu@tzur{u2^ { JVII GSQFMREXMSR m7<@ WIVMIWn 0 GEFMRIX X]TI : wwu@tzu2^ } QYPXM WIVMIW B [EPP X]TI = x}uryuu@tzu2^ 8 KEW LIEX TYQT 1 x}uryuu@t{u2^ 3 yvz@tzu2^ 7 9YXHSSV ?RMX ? O @ K < | } ~ vu ETTIEVERGI VIJVMKIVERX HIWMKR WIVMIW RYQFIV LIEXMRK ERH GSSPMRK GSSPMRK SRP] ERH HILYQMJMIV xrTMTI GPMQEXI X]TI <ww + JM\IH JVIUYIRG] ERH PMXXPI ETTPMERGI +r1 >v + <yu|- , +- MRZIVXIV X]TI 2r; >x , <vwx - .- MRZIVXIV X]TI <rD <vxyE . - <yvuE / >vqWYMXEFPI JSV EX rvz GSSPMRK mGSSPMRKq LIEX TYQTn SV EX rwu LIEXMRKmLIEX TYQTn <ww 7 <yu|- 8 <vwx 9 <vxyE : <yvuE ; <yvu+ ? vsw ?RMXEV] =QEVX WIVMIW PMRI YT mo/++ FIPSRKW XS <yvu+ 9Rr9JJq o/<+ FIPSRKW XS <yvu+ .- 3RZIVXIVn +?v}w+//++ +?wyw+1/++ +?w}w+2/++ +?w}8+2/++ +?v}w+0/<+ +?wyw+1/<+ +?x{w+2/<+ -3- +?yw8+6/++ +?x{w+3/++ +?x{8+3/++ +?y}8+3/++ +?{u8+3/++ >a__WcU[S^ <[c >a`V[e[a`Wc +,v}w+-/++ +,wyw+-/++ +,w}w+-/++ +,x{w+-/++ +,v}w+-/<+ +,wyw+-/<+ +,y}w+-/++ +,{uw+-/++ +,x{w+-/<+ +.wyw+7/++ +.w}w+7/++ +.x{w+7/++ +.v}w+7/<+ +.wyw+7/<+ +.x{w+7/<+ +.v}w+6/++ +.wyw+6/++ +.wyw+6/<+ +.y}w+2/++ +.{uw+2/++ +-v}w+-/++ +-wyw+-/++ +-v}w+-/<+ +-wyw+-/<+ +.w}w+2/++ +.x{w+2/++ +.y}w+7/++ +=v}w+@/<+ +:y}w+5/++ +:yww+-/++ +.x{w+2/<+ vsx 9TIVEXMSR XIQTIVEXYVI VERKI JM\IH JVIUYIRG] WMRKPI YRMXqQYPXM WTPMX YRMX -SSPMRK 3RHSSV 9YXHSSV 2IEXMRK 3RHSSV 9YXHSSV ., A, ., A, ., A, - ., A, - <EXIH w| v~ xz wy wu vysz | { -4- 7E\MQYQ xw wx yx w{ w| rr wy v} +-w}w+0/++ +-x{w+0/++ +-y}w+0/++ +-{uw+0/++ +-x{w+0/<+ 7MRMQYQ v} vy vu { vz rr r| rr >a__WcU[S^ <[c >a`V[e[a`Wc NS[JWYJW XNSLQJ ZSNYr XZUJW QT\ FRGNJSY YJRUt HTTQNSL .TTQNSL 4SITTW TZYITTW 3JFYNSL 4SITTW TZYITTW =FYJI 8F]NRZR /- . x} yx 8NSNRZR w~ B- . /- . w* xy wz y{ zy s{ B- . /- . B- . xz x| ss xv x} w{ wzt{ ss ss /- . } xz s} B- . | w~ ss wtz ;WTIZHY KJFYZWJX wtztw :ZYITTW KJFYZWJX 3060303<V`ae eZW ^fUZ Xc[W_V][Wc cWXc[YWcS_e K632S ?MJ FNW HTSINYNTSJW X^XYJR FITUYX YMJ LWJFYQ^ KWNJSIQ^ WJKWNLJWFSY =zwvFr \MNHM NX UWTYJHYN[J KTW YMJ T_TSJ QF^JW FSI NX LTTI YT F[TNI YMJ JFWYM LJYYNSL \FWRJWt -JSJKNY KTW YMJ JS[NWTSRJSY 0 3060304 MZW f_[gWcdS] `feV``c US_ ^SeUZ h[eZ ^f]e[a]W ejaWd [_V``c f_[e ?MJ ZSN[JWXFQ TZYITTW HFS HTSSJHY YMJ HFXXJYYJ Y^UJuHTS[JWYNGQJ Y^UJuIZHY Y^UJuHJNQNSL HTSHJFQJI Y^UJ NSITTW ZSNYXt .TS[JSNJSY YT IJXNLS FSI STY FKKJHY YMJ NSITTW IaHTWt 3060305 A]Wi[T]W S_V WSdj [_deS]]Se[`_ ?MJ TZYITTW HFS RJJY YMJ MNLMJW WJVZJXY TK NSXYFQQFYNTSt 1WTR YMJ XUJHNKNHFYNTSXr ^TZ \NQQ KNSI KTW JFHM ZSNYr MT\ QTSL FSI MT\ MNLM YMJ UNUNSL \NQQ GJr \MNHM \NQQ GJ HTS[JSNJSY KTW IJXNLS FSI NSXYFQQFYNTSt 3060306 Iae[`_S] dSXWej VWg[UWd S_V ^fUZ ^`cW acWU[d[`_ U`_ec`] VWg[UW Ft ,RGNJSY eW^aWcSefcW dW_d`cr HTNQ YJRUJWFYZWJ XJSXTW FSI HTRUWJXXTW YJRUJWFYZWJ RFPJ YMJ YJRUJWFYZWJ HTSYWTQ FSI IJKWTXYNSL HTSYWTQ RTWJ UWJHNXJt T0 C[YZ1]`h acWddfcW dh[eUZ HFS KJJQ YMJ INXHMFWLNSL UNUJ UWJXXZWJ FSI XZHYNTS UNUJ UWJXXZWJ TS YNRJ FSI UWJHNXJQ^t 4K YMJ UWJXXZWJ NX YTT MNLM TW YTT QT\r NY \NQQ XYTU YMJ HTRUWJXXTW YT UWJ[JSY NY GJNSL IFRFLJI KTW YMJ XFPJ TK UWJXXZWJt U0 F`h S^T[W_e U``][_Y \[e+ 4Y NX FS TUYNTSFQ UFWY KTW YMJ X^XYJRt 4K ^TZ \FSY YT WJFQN_J HTTQNSL RTIJ \MJS YMJ J]YJWNTW FRGNJSY YJRUJWFYZWJ NX YTT QT\r ^TZ HFS HMTTXJ NYt V0 >M ac`eWUe[`_+ KTW YMJ NS[JWYJW ZSNYr YMJWJ NX .? UWTYJHYNTSt 4K YMJ X^XYJR HZWWJSY NX YTT MNLMr YMJ JQJHYWNH X^XYJR \NQQ WJIZHJ YMJ KWJVZJSH^ TW XYTU YMJ ZSNY FZYTRFYNHFQQ^t 3060307 L[]W_e `aWcSe[`_ 4S YMJ TZYITTW ZSNYr ^TZ \NQQ KNSIr FRTSL YMJ UNUJ TW TZY TK YMJ HTRUWJXXTWr YMJWJ FWJ YMJ XTKY RFYJWNFQ YT WJIZHJ YMJ STNXJ QJ[JQt -JXNIJXr KTW XTRJ ZSNYXr YMJ JQJHYWNH HTSYWTQ X^XYJR HFS FIOZXY YMJ STNXJ G^ KN]NSL YMJ KWJVZJSH^t -5- >a__WcU[S^ <[c >a`V[e[a`Wc vsysw 3RHSSV JIEXYVIW 3060403 H_S\Vcd TRccVddV Z^U__b e^Zd Es 8I[ HIWMKRIH TERIP |uuo|uu [MXL XLI {uuo{uu GEWWIXXI YRMX 8I[ HIWMKRIH W[MRK PSYZIV [MXL XLI RSR WQSSXL WYVJEGIq [LMGL GER LSPH FEGO XLI GSRHIRWERX [EXIVs 8I[ HIWMKRIH JMPXIV PSGOq [LMGL [MPP JM\ XLI JMPXIV QSVI JMVQP] XLER FIJSVIs +HSTXW XLI WXITTMRK QSXSVq KMZI XLI PSYZIV E PEVKIV W[MRK ERKIPs 8I[ JER [MXL FMKKIV HMEQIXIV JER FPEHIq WIRHMRK SYX PEVKIV EMV JPS[s /PIGXVMG GSRXVSP FS\ MW PSGEXIH MR XLI YRMXq GSRZIRMIRX XS QEMRXEMRs >LI GEWWIXXI MRHSSV YRMX EHSTXW XLI TERIP [LSWI HMQIRWMSR MW MHIRXMGEP XS XLEX SJ GIMPMRKq EJXIV MRWXEPPEXMSRq XLI YRMX [MPP FI EGGSVHERX [MXL XLI HIGSVEXMSR HIGSVs Fs 0VII IPIZEXMRK TERIPq IEW] XS GPIER >LI TERIP GER FI IPIZEXIH JVIIP] MJ XLI JMPXIV MW RIGIWWEV] XS FI GPIERIHq ]SY GER QEOI XLI TERIP KS HS[R XS XLI EHQMVIH TSWMXMSRq XLIR STIR XLI TERIP ERH HVE[ SYX XLI JMPXIV XS GPIERs Gs 0VIWL EMV SYXPIX HIWMKR >LI YRMX MW IUYMTTIH [MXL XLI TVITEVIH JVIWL EMV SYXPIX mJSV +,u~_+,x{ YRMXWnq WS XLEX XLI GYWXSQIV GER WIX XLI JVIWL EMV JYRGXMSR XS XLI YRMX EGGSVHMRK XS XLIMV S[R VIUYMVIQIRXs 1VIEXP] MQTVSZI XLI VSSQ EMV UYEPMX]s Hs ,YMPXrMR LMKL LIEH HVEMR [EXIV TYQT .YI XS XLI MRXIVREP JPSEX W[MXGLq FYMPXrMR HVEMR TYQT GER HVEMR [EXIV EYXSQEXMGEPP] [LIR XLI GSRHIRWEXMSR MW JYPP IRSYKL ERH RIGIWWEV] XS FI GPIERIHs >LI WXERHEVH LIEH LIMKLX GER FI YT XS {uuQQq VIEPM^MRK XLI QSWX IJJIGXMZI [EXIV HVEMREKIs Is 0VII WIXXMRK SJ XLI y JPETW >LI yr[E] GEWWIXXI YRMX LEW y W[MRK JPETW MR EPPs CSY GER WIX ER] SJ JPETW EGGSVHMRK XS XLI VIUYMVIQIRXs /sKs ]SY GER WIX SRI SV X[S JPET MR W[MXGLrSJJ TSWMXMSRs ,YX XLI RSMWI PIZIP [MPP FI EJJIGXIHs Js ;YMIX STIVEXMSR >LI YRMX MW IUYMTTIH [MXL XLI KVIEXP] TS[IVJYPq WQSSXLq ERH YPXVE UYMIX QYPXMrFPEHI JERq [LMGL LEW XLI MVVIKYPEV LIPM\q ERH GER VYR MR WMPIRGIs 3060404 ?VTV^d T_^fVbdZS\V e^Zd Es 9TXMSREP MRWXEPPEXMSR QSHI >LI GSRZIVXMFPI YRMX GER FI MRWXEPPIH RSX SRP] SR XLI JPSSV FYX EPWS XS XLI GIMPMRKq [LMGL GER FI HIXIVQMRIH F] XLI LSWX JEZSV ERH XLI VSSQ H`GSVs 3X MW QSVI GSRZIRMIRX XS WIVZMGI ERH MRWXEPPEXMSRs Fs =MPIRX STIVEXMSR >LI GSRZIVXMFPI YRMX MW IUYMTTIH [MXL E LMKL IJJMGMIRXq WQSSXLq QYPXMrFPEHI GIRXVMJYKEP JERq [LMGL KIRIVEXIW E TS[IVJYP FYX KIRXPI EMVJPS[ XS ER] GSVRIV MR XLI VSSQs Gs =TEGIrWEZMRK HIWMKR +R MRRSZEXMZI JER ERH XLI YPXVE XLMR LIEX I\GLERKIV VIWYPX MR XLI YPXVE XLMR GSRZIVXMFPI YRMXs 0YPP] EHNYWXEFPI QSYRXMRK FVEGOIXW QEOI MX TSWWMFPI XS MRWXEPP XLI YRMX IZIR MR XLI XMKLXIWX TPEGIWs 6IWW XLER v~~QQ mJSV +-u~_+-wyn SJ ZIVXMGEP HMVIGXMSR EVI VIUYMVIH JSV MRWXEPPEXMSRs Hs+YXSQEXMGEPP] GSRXVSP SJ EMVJPS[ HMVIGXMSR 3R SVHIV XS VIEPM^I XLI GSQJSVXEFPI WTEGI [MXL WXIEH] XIQTIVEXYVIq XLI EMV GSRHMXMSRIV EHSTXW X[S WXITTMRK QSXSVW XS EHNYWX XLI EMVJPS[ EYXSQEXMGEPP] JSV WIRHMRK XLI EMV XS IZIV] GSVRIV SJ XLI VSSQs ALIR LIEXMRKq MX [MPP WIRH HS[RPSEH PEVKI UYERXMX] SJ LSX EMV MR SVHIV XS UYMGOP] ERH IJJIGXMZIP] [EVQ YT XLI JPSSVq ERH MX [MPP WIRH XLI EMVJPS[ JVSQ XST XS FSXXSQ JVSQ XLI ZIV] FIKMRRMRK [LIR GSSPMRK XS WIRH XLI GSSP EMV XS IZIV] GSVRIV SJ XLI VSSQs Is 6EVKI ERKPI EMV WYTTP]MRK vuu [MHI ERKPI PSYZIVW ERH |u [MHIrERKPI FPEHIW HIWMKR XS QEOI E TVIGMWI GSRXVSP SJ XLI EMVJPS[q MX IUYEFP] HMWXVMFYXIW XLI GSQJSVXEFPI EMV XS IZIV] GSVRIV SJ XLI VSSQs -6- >a__WcU[S^ <[c >a`V[e[a`Wc 3060405 @\VXR^d UeTd e^Zd Es =TEGI WEZMRK HIWMKR AMXL XLI QMRMQYQ XLMGORIWW SJ SRP] wwzQQq XLI YRMX EPQSWX GER FI MRWXEPPIH MRXS ER] HYGXIH WTEGIs 3X RIIHW RSX XLI ZIV] FMK WTEGIq ERH [MPP RSX IJJIGX XLI I\XIVMSV HIGSVEXMSRq SRP] PIEZI TISTPI GSQJSVXEFPI EMV RSX JIIPMRK MXW I\MWXIRGIs Fs 0PI\MFPI LERKMRK OMXW >LI HYGX YRMXW EVI IUYMTTIH [MXL JPI\MFPI LERKMRK OMXWq [LMGL GER VIEPM^I XLI JVII TSWMXMSR XS MRWXEPP MX MR ER] HMVIGXMSR* PIJXq VMKLXq YT SV HS[Rs Gs 2MKL IJJMGMIRG] JMPXIV >LI YRMX EHSTXW 1x KVEHI JMPXIVq GER IJJMGMIRXP] JMPXIV XLI HMVX IXGq ERH MQTVSZI XLI VSSQ EMV UYEPMX]q EX XLI WEQI XMQIq XLI JMPXIV GER TYPP SYX JVSQ HS[RWMHIq GSRZIRMIRX JSV QEMRXIRERGI ERH GPIERMRKs Hs 7YPXMrQSHI JSV MRWXEPPEXMSR >LI MRHSSV YRMX GER FI MRWXEPPIH [MXL ER EMV VIXYVR HYGX SV [MXLSYX ER EMV VIXYVR HYGX EGGSVHMRK XS XLI MRWXE rPPEXMSR RIIHs Is @EVMEFPI GSRXVSP QSHI >LI MRHSSV YRMX GER FI GSRXVSPPIH F] VIQSXI GSRXVSPPIV SV [MVIH GSRXVSPPIVs +FSYX XLI GSRRIGXMSR QIXLSHq TPIEWI VIJIV XS FIPS[ JMKYVIW* Js 0VII WIXXMRK SJ EMV HMWGLEVKMRK HYGX >LI RYQFIV SJ XLI EMVJPS[ SYXPIX ERH MXW MRWXEPPEXMSR TSWMXMSR GER FI JVIIP] WIPIGXIH EGGSVHMRK XS XLI IRZMV rSRQIRX SJ XLI VSSQq WYJJMGMIRXP] GSRWMHIVMRK XLI PSEH SJ XLI VSSQ ERH XLI YRMJSVQ XIQTIVEXYVI SJ XLI VSSQ XS VIEPM^I QSVI TIVJIGX GSQJSVXs Ks 2MKL IWT HIWMKR 7E\s I\XIVREP WXEXMG TVIWWYVI SJ v~{ :E FVMRKW XLI UYMGO XIQTIVEXYVI EHNYWXQIRX XS XLI VSSQs +HSTXW LMKL TVIWWYVI JER XS TVSZMHI UYMGO WTIIH SJ EMV FPS[MRK [LMPI OIITMRK E PS[ WSYRH PIZIP ERH IRWYVMRK E KSSH EMV GMVGYPEXMSR SJ XLI [LSPI MRHSSV WTEGIs >LI WXEXMG TVIWWYVI JVSQ u XS v~{ :E GER FI EHNYWXIH WXITPIWWP] EGGSVHMRK XS XLI IRZMVSRQIRXs Ls ?PXVE LMKL LIEH [EXIV HVEMR YT >LI HYGX YRMXW [MXL GSSPMRK GETEGMX] JVSQ wyuuu_ywuuu,>?tL EHSTX XLI [EXIV TYQT q [LMGL GER FI YT XS {uuQQs 3060406 CVR\dYi gR\\ ]_e^dVU e^Zdc Es 8I[P] HIWMKRIH @r ETTIEVERGI MRHSSV YRMX >LI [EPP QSYRXIH X]TI MRHSSV YRMX EHSTXW XLI RI[P] HIWMKRIH @ ETTIEVERGIq QSVI JEWLMSRq QSVI FIEYXMJYPs -7- >a__WcU[S^ <[c >a`V[e[a`Wc Gt 9JLFYN[J NTS KZSHYNTS ?MJ ZSNY HFS WJFQN_J YMJ SJLFYN[J NTS LJSJWFYNTS KZSHYNTSr WJQJFXNSL YMJ MJFQYM^ SJLFYN[J NTS NSYT YMJ NSITTW WTTRt DTZ \NQQ KJJQ RTWJ HTRKTWYFGQJr OZXY QNPJ NS YMJ SFYZWJt Ht ,ZYTsWJXYFWY KZSHYNTS nTUYNTSFQo ,QQ NSITTW ZSNYX MF[J FZYTsWJXYFWY KZSHYNTSt BMJS YMJ UT\JW XZUUQ^ HZY TKK XZIIJSQ^r YMJ ZSNY \NQQ FZYTRFYNHFQQ^ WJHT[JW YMJ UWJ[NTZX WZSSNSL RTIJ TSHJ YMJ UT\JW XZUUQ^ NX TSt It >RFWY SJ\Q^ IJXNLSJI NSKWFWJI WJRTYJ HTSYWTQQJW ?MJ ZSNY HFS GJ HTSYWTQQJI G^ YMJ SJ\Q^ IJXNLSJI NSKWFWJI WJRTYJ HTSYWTQQJW D=s3z*r \MNHM HFS WJFQN_J RFS^ KZSHYNTSX XZHM FX MJFYNSLr HTTQNSLr KFSr X\NSLr KWJXMr MJFQYMr JYHt 1ZWYMJWRTWJr YMJ WJRTYJ HTSYWTQQJW HFS GJ KN]JI TS YMJ SJHJXXFW^ UQFHJX \NYM F WJRTYJ HTSYWTQQJW MTQIJWt Jt 3JFQYM^ FNW KQT\ y/ FNWKQT\r KJJQ RTWJ HTRKTWYFGQJr RTWJ MJFQYM^t Kt 7T\ FRGNJSY HTTQNSL PNY nTUYNTSFQot Lt 8ZQYNUQJ HTSYWTQ Y^UJX nTUYNTSFQot 3060407 LeWSVj >ST[_We f_[ed Ft >YWTSL FNW KQT\ FSI [NXNGQJ TUJWFYNTS INXUQF^ TS YMJ TUJWFYNTS UFSJQ ?MJ ZSNY MF[J XYWTSL H^HQJ FNW KQT\r HFS RJJY YMJ HTTQNSL FSI MJFYNSL WJVZNWJRJSY XTTSr FSI FQXT NY MF[Jt FIOZXY YMJ YJRUt J[JSQ^ FSI NRRJINFYJQ^ FSI UWJHNXJQ^ FSI HTRKTWYFGQ^r RJJY YMJ HZXZRJW WJVZJXYRJSYt Gt 8ZQYNUQJ HTSYWTQ Y^UJ GJY\JJS G^ MFSI FSI YMJ WJRTYJ HTSYWTQ Ht AJWYNHFQ FSI MTWN_TSYFQ FNW GQT\ INWJHYNTS HFS GJ FIOZXYJI KWJJQ^ FX \NQQ It 70/ INXUQF^ 1TW ,;z~xr |vx,60,,r =ZSSNSL XYFYZX HFS GJ INXUQF^JI TS YMJ XHWJJSt Jt ,ZYTsHMJHP KZSHYNTS ?MJ ZSNY HFS INXUQF^ YMJ RFQKZSHYNTS HTIJX TS YMJ HTSYWTQ GTFWI G^ ZXNSL FI[FSHJI FZYTsHMJHP YJHMSTQTL^r HTS[JSNJSY KTW ZXJW KNSI FSI I\JQQ \NYM YMJ FGSTWRFQ WZSSNSLt Kt AFWNFGQJ .TSYWTQ RTIJX 2WTZU HTSYWTQ FSI HJSYWFQ HTSYWTQ NK HTSSJHYJI YT F LWTZU HTSYWTQQJW TW F HJSYWFQ HTSYWTQQJWt -8- >a__WcU[S^ <[c >a`V[e[a`Wc 2. Specifications 2.1 Specifications for inverter units item Function Capacity Sensible heat ratio Total power input Max. power input EER or COP Dehumidifying capacity Model Running /Max.Running current Unit model (color) Type × Number Speed(H-M-L) r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Total Area m² Temp. scope ć External ˄L×W×H˅mm×mm×mm Dimension Package ˄L×W×H˅mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired) Fresh air hole dimension mm Outlet distribution hole dimension mm Electricity Heater kW Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg External ˄L×W×H˅mm×mm×mm Dimension Package ˄L×W×H˅mm×mm×mm Weight (Net / Shipping) kg / kg AB182ACERA cooling heating 5.0˄1.8--5.8˅ 5.2˄2.0---6.2˅ 0.71 / 1660˄550---2400˅ 1730˄600---2300˅ 2650 2650 3.01 3.01 2.1 7.8(3.0---10.5˅/12.0 8.0˄3.2---10˅/12.0 AB182ACERA(WHITE) centrifugal*1 760/650/520 0.05 700/----inner grooved pipe/ij7 1.23 2-7 570×570×260 718×680×380 PVC 26/32 Remote 95 / 0 44/---25/27 700×700×60 740×750×115 3.5/4.5 item Model Function Capacity kW Sensible heat ratio Total power input W Max. power input W W/W EER or COP Dehumidifying capacity 10ϋ³×m³/h A/A Running /Max.Running current Unit model (color) Type × Number Speed(H-M-L) r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Total Area m² Temp. scope ć External ˄L×W×H˅mm×mm×mm Dimension Package ˄L×W×H˅mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired) Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg AC182ACERA cooling heating 5.1(1.8--5.8) 6.0(2.0---7.1) 0.71 1690(550---2650) 1650(600---2650) 2650 2650 3.01 3.63 1.8 8.0(3.0--12.0˅A 7.8(3.2--12.0˅A AC182ACERA(WHITE) CENTRIFUGALX2 1150/1050/850 0.05 750/650/550 inner grooved pipe/ij7 0.45 2-7 1090×655×199 1150×750×300 PVC 18/20 Remote 50/45/40 30/39 kW Indoor unit Panel Indoor unit W W W/W 10ϋ³×m³/h A/A -9- >a__WcU[S^ <[c >a`V[e[a`Wc Indoor unit item Function Capacity Sensible heat ratio Total power input Max. power input EER or COP Unit model (color) Model AD182AMERA cooling heating kW 5.1˄1.8---6.0˅ 6.0˄2.0---7.1˅ 0.75 W 1580˄550---2650˅ 1650˄600---2650˅ 2650 2650 W 3.23 3.64 W/W AD182AMERA(WHITE) cross flow*1 Type × Number 1150/1050/860/680R/MIN Speed(H-M-L) r/min Fan 0.05 Fan motor output power kW 850/770/680/600(30PA) Air-flow(H-M-L) m³/h inner grooved pipe/ij9.52 Type / Diameter mm Heat exchanger Total Area 0.59 m² 2-7 Temp. scope ć 1190*450*220 External ˄L×W×H˅mm×mm×mm Dimension 1281*526*305 Package ˄L×W×H˅mm×mm×mm PVC 16/12 Drainage pipe (material , I.D./O.D.) mm wired Control type (Remote /wired) Electricity Heater 0 kW Noise level (H-M-L) 50/48/45 dB(A) Weight (Net / Shipping) 24/27 kg / kg Indoor unit item Model AS182AVERA cooling heating Function Capacity kW 5.1˄1.8---6.0˅ 6.0˄2.0---7.1˅ 0.75 Sensible heat ratio Total power input W 1580˄550---2650˅ 1650˄600---2650˅ Max. power input 2650 2650 W 3.23 3.64 W/W EER or COP A/A 7.5˄3.0---12.0˅/12.0 7.8˄3.2---12.0˅/12 Running /Max.Running current AS182AVERA(WHITE) Unit model (color) cross flow*1 Type × Number 1250/1150/1050 Speed(H-M-L) r/min Fan 0.05 Fan motor output power kW 760/----Air-flow(H-M-L) m³/h inner grooved pipe/ij7 Type / Diameter mm Heat exchanger Total Area 0.868 m² 2-7 Temp. scope ć 870*305*225 External ˄L×W×H˅mm×mm×mm Dimension 962*312*365 Package ˄L×W×H˅mm×mm×mm PVC 16/12 Drainage pipe (material , I.D./O.D.) mm Remote Control type (Remote /wired) Noise level (H-M-L) 44/---dB(A) Weight (Net / Shipping) 12/15 kg / kg -10- >a__WcU[S^ <[c >a`V[e[a`Wc PIPING Outdoor unit item Power cable Power source Start Current Circuit breaker Unit model (color) Model N, V, Hz A A AU182AFERA 3G 4.0mm2 1, 220--230, 50 3A 25A 3A 25A WHITE TNB175FLBM1/MITSUBISHI ELECTRIC Model / Manufacture MEL56 Oil model Compressor 670ML Oil charging scroll type Type axial×1 Type × Number 860±30 Speed r/min Fan 0.08 Fan motor output power kW 2500 Air-flow(H-M-L) m³/h hydrophilic finned Aluminum foil /ij7 Type / Diameter mm Heat exchanger Row / Fin pitch 3/1.55 43-60 Temp. scope ć 810*288*680 External ˄L×W×H˅mm×mm×mm Dimension 960*406*760 Package ˄L×W×H˅mm×mm×mm / Drainage pipe (material , I.D./O.D.) mm main capillary ij1.6*400mm, sub capillary ij Refrigerant control method mm/mm Defrosting AUTO 2.5 Volume of Accumulator L 56 Noise level dB(A) Type of Four way valve STF-0218G 30 crankcase heater power W Weight (Net / Shipping) 59/66 kg / kg R410A/1850 Type / Charge g Refrigerant 35 Recharge quantity g/m 6.35 Liquid mm Pipe 12.7 Gas mm flared Connecting Method MAX.Drop 15 m Between I.D &O.D MAX.Piping length 40 m -11- >a__WcU[S^ <[c >a`V[e[a`Wc item Function Capacity Sensible heat ratio Total power input Max. power input EER or COP Dehumidifying capacity Model kW W W W/W 10ϋ³×m³/h A/A Panel Indoor unit Running /Max.Running current Unit model (color) Type × Number Speed(H-M-L) r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Total Area m² Temp. scope ć External ˄L×W×H˅mm×mm×mm Dimension Package ˄L×W×H˅mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired) Fresh air hole dimension mm Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg mm×mm×mm External ˄L×W×H˅ Dimension Package ˄L×W×H˅mm×mm×mm kg / kg Weight (Net / Shipping) Indoor unit item Model Function Capacity kW Sensible heat ratio Total power input W Max. power input W W/W EER or COP Dehumidifying capacity 10ϋ³×m³/h A/A Running /Max.Running current Unit model (color) Type × Number Speed(H-M-L) r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Total Area m² Temp. scope ć External ˄L×W×H˅mm×mm×mm Dimension Package ˄L×W×H˅mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired) Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg -12- AB242ACERA cooling heating 7.0˄2.0---8.0˅ 7.8˄2.5--8.5˅ 0.72 2300(500---3250)W 2.25(500---2750)W 3300W 3300W 3.04 3.46 1.8 11.0(2.5--14.5˅ 10.0(2.5--12.0˅ AB242ACERA(black) Centrifugal × 1 670±40/550±50/460±50 0.16 1300/-/- Inner grooved type /¶7 0.49 2-7 840*840*240 910*910*300 PVC 26/32 Remote or wired 130 48/44/39 26.8/32.6 950*950*80 980*980*100 / AC242ACERA cooling heating 6.5(2.0-8.0) 7.5(2.5-8.5) 0.72 2240W(500-3250) 2550(500-3250) 3300W 3300W 2.90˄C˅ 2.94˄E˅ 2.0 10(2.5-14.5)A/15A 11.5(2.5-14.5)A/15A AC242ACERA(WHITE) Centrifugal h 2 1220±40/1190±50/1050±50/980±50r/min 0.10 800/-/- Inner grooved type /¶7 0.49 2-7 990*665*199 1150*750*300 PVC 18/20 Remote or wired 48/46/44 28.3/34.3 >a__WcU[S^ <[c >a`V[e[a`Wc Indoor unit item Function Capacity Sensible heat ratio Total power input Max. power input EER or COP Running /Max.Running current Unit model (color) Model kW W W W/W A/A Type × Number Speed(H-M-L) r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Total Area m² Temp. scope ć External ˄L×W×H˅mm×mm×mm Dimension Package ˄L×W×H˅mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired) Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg AD242ALERA cooling heating 7.35˄2.0---8.2˅ 8.15˄3.0---9.0˅ 0.72 / 2280(600---3250)W 2250(600---3250)W 3300W 3300W 2.0 10.0(2.5--14.5)A / 10.0(2.5--14.5)A / 15.0A 15.0A AD242ALERA(grey) Centrifugal h 2 1250±40/1130±40/1000±50/850±50 0.05 1200/1050/850˄white port, 0Pa static Inner grooved type /¶7 0.51 2-7 1090*500*220 1174*549*294 PVC 16/12 Remote or wired 49/45/41/37 25.2/28.4 Indoor unit item Model AD242AMERA cooling heating Function Capacity kW 7.35˄2.0---8.2˅ 8.15˄2.5-9.0˅ 0.72 Sensible heat ratio Total power input 2280(600---3250)W 2250(600---3250)W W Max. power input 3300W 3300W W 3.22 3.62 W/W EER or COP 2.1 Dehumidifying capacity 10ϋ³×m³/h 10.5(2.5--14.5)A / 15A 10.0(2.5--14.5)A /1 5A A/A Running /Max.Running current AD242AMERA(grey) Unit model (color) Type × Number Centrifugal h 2 1000±40/940±40/860±40/780±50 Speed(H-M-L) r/min Fan 0.18 Fan motor output power kW 1200/1050/850 Air-flow(H-M-L) m³/h Type / Diameter mm Inner grooved type /¶7 Heat exchanger Total Area 0.49 m² 2-7 Temp. scope ć mm×mm×mm 990*650*300 External ˄L×W×H˅ Dimension 1170*860*340 Package ˄L×W×H˅mm×mm×mm PVC 32/26 Drainage pipe (material , I.D./O.D.) mm Remote or wired Control type (Remote /wired) 150 Fresh air hole dimension mm Noise level (H-M-L) 47/43/39 dB(A) Weight (Net / Shipping) 39/40.4 kg / kg -13- >a__WcU[S^ <[c >a`V[e[a`Wc PIPING Outdoor unit item Power cable Power source Start Current Unit model (color) AU242AGERA Model 3G 4.0mm2 N, V, Hz A Model / Manufacture Oil model Compressor Oil charging Type Type × Number Speed r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Row / Fin pitch Temp. scope ć External ˄L×W×H˅mm×mm×mm Dimension Package ˄L×W×H˅mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Refrigerant control method mm/mm Defrosting Volume of Accumulator L Noise level dB(A) Type of Four way valve crankcase heater power W Weight (Net / Shipping) kg / kg Type / Charge g Refrigerant Recharge quantity g/m Liquid mm Pipe Gas mm Connecting Method m MAX.Drop Between I.D &O.D m MAX.Piping length -14- 1PH,220-230VAC,50HZ 3 3 WHITE TNB175FLBM1˄MITSUBISHI˅ MEL56 670ML Rotary axial×1 910±30 0.06 3000 ¶7 3/1.46 43-60 865*335*732 995*420*815 / 2.4mm EEV AUTO 3 56 SHF-4-10A 37 57/60.5 R410A/2300 50 9.52 15.88 Flare cnnection 15 30 >a__WcU[S^ <[c >a`V[e[a`Wc AB362ACERA cooling heating 33800 38200 9.9(2.2~11.6) 11.2(2.5~12.0) 0.73 3290(650---3800) 3280(650---3800) 4300 4300 3.01 3.09 B D 3.8 14.3(2.9-17.0)/19.3 14.3(2.9-17.0)/19.3 AB362ACERA˄BLACK) Centrifugal fan * 1 620/450/390±40 1850/1600/1350 inner grooved type/¶7 0.583 2-7 1230/840/280 1325/920/370 PVC 26/32 remote/wired 50/46/42 46/53 1340/950/80 1400/995/115 8.4/12 Panel Indoor unit item Model Function Capacity Btu/h Capacity kW Sensible heat ratio Total power input W Max. power input W W/W EER or COP Energy efficiency stage Dehumidifying capacity 10ϋ³×m³/h A/A Running /Max.Running current Unit model (color) Type × Number Fan Speed(H-M-L) r/min Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Total Area m² Temp. scope ć External ˄L×W×H˅mm×mm×mm Dimension Package ˄L×W×H˅mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired) Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg External ˄L×W×H˅mm×mm×mm Dimension Package ˄L×W×H˅mm×mm×mm kg / kg Weight (Net / Shipping) item Function Capacity Capacity Sensible heat ratio Total power input Max. power input AC362AFERA Model Btu/h kW W W W/W Indoor unit EER or COP Energy efficiency stage Dehumidifying capacity 10ϋ³×m³/h A/A Running /Max.Running current Unit model (color) Type × Number Fan Speed(H-M-L) r/min Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Total Area m² Temp. scope ć External ˄L×W×H˅mm×mm×mm Dimension Package ˄L×W×H˅mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired) Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg -15- cooling 35000 heating 39000 10.3(2.2~11.5) 0.73 11.4(2.5~12.0) 3200(500---3900) 4300 3.22 3250(500---3900) 4300 3.51 A B 4.0 14.3(2.3-17.5)/19.3 14.3(2.3-17.5)/19.3 AC362AFERA˄WHITE) Centrifugal fan * 4 1150/1100/950 1800/1600/1400 inner grooved type/¶7 0.340 2-7 1580/700/240 1710/790/315 PP20/25 remote/wired 51/49/47 54/61 >a__WcU[S^ <[c >a`V[e[a`Wc item AD362AMERA Model Function Capacity Capacity Sensible heat ratio Total power input Max. power input EER or COP Energy efficiency stage Dehumidifying capacity Running /Max.Running current Unit model (color) cooling heating BTU/h kW 32400 9.5(2.2~10.8) 0.73 38000 11.0(2.5~12.0) W W W/W 3280(500---3900) 4300 2.9 C 3430(500---3900) 4300 3.21 C 10ϋ³×m³/h A/A Type × Number Speed(H-M-L) r/min Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Total Area m² Temp. scope ć mm×mm×mm External ˄L×W×H˅ Dimension Package ˄L×W×H˅mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired) Fresh air hole dimension mm Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg Indoor unit Fan item Function Capacity Capacity Sensible heat ratio Total power input Max. power input EER or COP 3.6 14.3(2.3-17.5)/19.3 15.0(2.3-17.5)/19.3 AD362AMERA(grey) Centrifugal fan * 2 1110±50/ 1060±40 / 950±40 / 790±50r/min 1470/1300/1100/950 inner grooved type/¶7 0.328 2-7 990*650*300 1152*860*325 PVC 26/32 wired 150 50/47/43/41 40/46.4 Model BTU/h kW W W W/W AD362AHERA cooling heating 36000 39000 10.5(2.2~11.3) 11.5(2.5~12.5) 0.73 3.40(0.50---4.00) 3.15(0.50---4.00) 4300 4300 3.09 3.65 B Energy efficiency stage A Indoor unit 4.1 Dehumidifying capacity 10ϋ³×m³/h A / A 15.2 ˄2.3-17.9˅/19.3 14.1˄2.3-17.9˅/19.3 Running /Max.Running current AD362AHERA (grey) Unit model (color) centrifugal X2 Type × Number 1090+30/-/930+50 Speed(H-M-L) r/min Fan 0.15 Fan motor output power kW 2580/-/1560 Air-flow(H-M-L) m³/h TP2M/9.52 Type / Diameter mm Heat exchanger 2-7 Temp. scope ć 1197×828×355 External ˄L×W×H˅mm×mm×mm Dimension 1430×940×420 Package ˄L×W×H˅mm×mm×mm PVC 26/32 Drainage pipe (material , I.D./O.D.) mm wired Control type (Remote /wired) Noise level (H-M-L) 48/-/44 dB(A) Weight (Net / Shipping) 62/77 kg / kg -16- >a__WcU[S^ <[c >a`V[e[a`Wc Item Model Outdoor unit Power cable Power source Start Current Unit model (color) N, V, Hz A Model / Manufacture Compressor Type Type × Number Speed r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Total area m² Temp. scope ć External ˄L×W×H˅mm×mm×mm Dimension Package ˄L×W×H˅mm×mm×mm Refrigerant control method mm/mm Defrosting Type / Charge Recharge quantity Liquid Gas L dB(A) W kg / kg g g/m mm mm MAX.Drop MAX.Piping length m m Volume of Accumulator Noise level crankcase heater power Weight(Net / Shipping) PIPING Refrigerant Pipe Connecting Method Between I.D &O.D AU362AHERA 3*4.0 1, 220-230, 50 3 AU362AHERA˄WHITE˅ TNB220FLBM/MITSUBISHI Rotary axial*1 950r/min±50 0.06 4000/-/TP2M/7 0.776 43-60 948*340*830 1050*440*979 electrical expansion valve 2.2mm auto 3.5 60 37 74/80 R410A 2650 65 9.52 15.88 flared 30 50 Norminal condition: indoor temperature (cooling): 27ćDB/19ćWB, indoor temperature (heating): 20ć DB/14.5ćWB Outdoor temperature(cooling): 35ćDB/24ćWB, outdoor temperature(heating): 7ćDB/6ćWB The noise level will be measured in the third octave band limited values, using a Real Time Analyser calibrated sound intensity meter. It is a sound pressure noise level. -17- >a__WcU[S^ <[c >a`V[e[a`Wc 2.2 Specifications for fix frequency unit AB182ACEAA cooling heating 17000 18000 5.0 5.3 1780 1550 2050 1950 2.81 3.41 cooling: 7.5A /10.5A -18- Grey 750±20 / 650±30/ 520±30 50 700/640/480 TP2M/7X0.5 0.441 2-7 570x570x260 718x680x380 PVC 14/16 remote / 0010451255 ɮ100 45/42/40 19/23.5 700×700×60 Panel Indoor unit item Model Function Capacity BTU/h Capacity kW Total power input W Max. power input W W/W EER or COP Running /Max.Running current A/A Unit model (color) Type × Number Speed(H-M-L) r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Total Area m² Temp. scope ć External ˄L×W×H˅ mm×mm×mm Dimension Package ˄L×W×H˅ mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired /model) Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg heating: 7.0A /10.0A AB182ACEAA axial fan X 1 Indoor unit item Model Function Capacity BTU/h Capacity kW Total power input W Max. power input W W/W EER or COP Running /Max.Running current A/A Unit model (color) Type × Number Speed(H-M-L) r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Total Area m² Temp. scope ć External ˄L×W×H˅ mm×mm×mm Dimension Package ˄L×W×H˅ mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired /model) Fresh air hole dimension mm Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg External ˄L×W×H˅ mm×mm×mm Dimension Package ˄L×W×H˅ mm×mm×mm kg / kg Weight (Net / Shipping) 740×740×115 3.5/4.5 AC182ACEAA cooling heating 17500 18600 5.1 5.45 1690 1650 2000 1950 3.02 3.3 cooling: 7.6A /10.5A heating: 7.5A /10.0A WHITE centrifugal fan X 2 1190±50 / 1050±50/980±50 100 800 TP2M/7X0.5 0.49 2-7 990x665x199 1150x750x300 PVC 18/20 Remote /wired 48/46/44 28.3/34.3 >a__WcU[S^ <[c >a`V[e[a`Wc AD182ALEAA cooling heating 18000 18500 5.17 5.38 1720 1580 2000 1950 3.01 PIPING Outdoor unit item Model Dehumidifying capacity 10ϋ³×m³/h Signal cable section Connecting cable section Power source N, V, Hz Start Current A Max. operating pressure of heat side Mpa Max. operating pressure of cold side Mpa Unit model (color) Model / Manufacture Compressor Type Type × Number Speed r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Temp. scope ć External ˄L×W×H˅ mm×mm×mm Dimension Package ˄L×W×H˅ mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Refrigerant control method mm/mm Defrosting Noise level dB(A) material of reduce noise Weight (Net / Shipping) kg / kg Type / Charge g Refrigerant Recharge quantity g/m Liquid mm Pipe Gas mm Connecting Method MAX.Drop m Between I.D &O.D MAX.Piping length m -19- 3.41 cooling: 7.8A /9.5A heating 7.3A /9.3A Class 1 AD182ALEAA centrifugal fan X 2 Grey 700±30 / 540±30 / 400±30 50 780 TP2M/7X0.5 Indoor unit item Model Function Capacity BTU/h Capacity kW Total power input W Max. power input W W/W EER or COP Running /Max.Running current A/A Class of anti electric shock Unit model (color) Type × Number Speed(H-M-L) r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Total Area m² Temp. scope ć External ˄L×W×H˅ mm×mm×mm Dimension Package ˄L×W×H˅ mm×mm×mm Air sending angle Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired /model) Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg 0.34 2-7 1090×500×220 1174×549×294 PVC 16/12 wired control 45/41/37 23/26.5 AU182AEEAA 1.8 3 2.5 4 0.75 1 PH 220-230 V 50 Hz 50 4.5 4.5 AU182AEEAA (WHITE) PA200X2CS-4KU1/Meizhi Rotary Axial X 1 860±40 35 2300 TP2M/7X0.5 43-60 775x640x245 901x341x712 / Capillary tube controlled by coil temp. 56 XPE 42/45 R410A/1500 20 6.35 12.7 flared 10 20 >a__WcU[S^ <[c >a`V[e[a`Wc item Function Capacity Sensible heat ratio Total power input Max. power input EER or COP Dehumidifying capacity AB242ACEAA Model kW W W W/W 10ϋ³×m³/h A/A Panel Indoor unit Running /Max.Running current Unit model (color) Type × Number Speed(H-M-L) r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Total Area m² Temp. scope ć External ˄L×W×H˅ mm×mm×mm Dimension Package ˄L×W×H˅ mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired) Fresh air hole dimension mm Electricity Heater kW Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg External ˄L×W×H˅ mm×mm×mm Dimension Package ˄L×W×H˅ mm×mm×mm kg / kg Weight (Net / Shipping) Indoor unit item Model Function Capacity kW Sensible heat ratio Total power input W Max. power input W W/W EER or COP Dehumidifying capacity 10ϋ³×m³/h A/A Running /Max.Running current Unit model (color) Type × Number Speed(H-M-L) r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Total Area m² Temp. scope ć External ˄L×W×H˅ mm×mm×mm Dimension Package ˄L×W×H˅ mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired) Fresh air hole dimension mm Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg -20- cooling 7.25 0.72 2400 3100W 3.02 heating 7.4 / 2300 3000W 3.22 2.5 11.0A/13.9A 10.5A/13.4A grey centrifugal fan*1 670±40/550±50/460±50 0.16 1300/-/- inner grooved pipe/ij7 0.49 2-7 840*840*240 910*910*300 PVC 26/32 Remote /wired (optional) 130 0 48/44/39 26.8/32.6 950*950*80 980*980*100 / AC242ACEAA cooling 6.8 0.72 2400 3100W 2.83 heating 7.4 / 2450 3000W 3.02 2.5 10.5A/13.9A 11.2A/13.4A WHITE centrifugal fan*2 1220±40/1190±50/1050±50/980±50r/min 0.10 800/-/- inner grooved pipe/ij7 0.49 2-7 990*665*199 1150*750*300 PVC 18/20 Remote /wired (optional) / 48/46/44 28.3/34.3 >a__WcU[S^ <[c >a`V[e[a`Wc Indoor unit item Model Function Capacity kW Sensible heat ratio Total power input W Max. power input W W/W EER or COP Dehumidifying capacity 10ϋ³×m³/h A/A Running /Max.Running current Unit model (color) Type × Number Speed(H-M-L) r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Total Area m² Temp. scope ć External ˄L×W×H˅ mm×mm×mm Dimension Package ˄L×W×H˅ mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired) Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg Indoor unit item Model Function Capacity kW Sensible heat ratio Total power input W Max. power input W W/W EER or COP Dehumidifying capacity 10ϋ³×m³/h A/A Running /Max.Running current Unit model (color) Type × Number Speed(H-M-L) r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Total Area m² Temp. scope ć External ˄L×W×H˅ mm×mm×mm Dimension Package ˄L×W×H˅ mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired) Fresh air hole dimension mm Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg -21- AD242ALEAA cooling 7.25 0.72 2400 3100W 3.02 heating 7.6 / 2300 3000W 3.30 1.8 11.0A/13.9A 10.5A/13.4A grey centrifugal fan*2 1250±40/1130±40/1000±50/850±50 0.05 1200/1050/850 (white port: 0Pa) inner grooved pipe/ij7 0.51 2-7 1090*500*220 1174*549*294 PVC 16/12 wired control 49/45/41/37 25.2/28.4 AD242AMEAA cooling 7.25 0.72 2400 3100W 3.02 heating 7.6 / 2300 3000W 3.30 2.5 11.0A/13.9A 10.5A/13.4A grey centrifugal fan*2 1000±40/940±40/860±40/780±50 0.18 1200/1050/850 inner grooved pipe/ij7 0.49 2-7 990*650*300 1170*860*340 PVC 32/26 wired control 150 47/43/39 39/40.4 >a__WcU[S^ <[c >a`V[e[a`Wc PIPING Outdoor unit item Power cable Power source Unit model (color) AU242AGEAA Model H05RN-F 3G 4.0mm2 N, V, Hz Model / Manufacture Oil model Compressor Oil charging Type Type × Number Speed r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Row / Fin pitch Temp. scope ć External ˄L×W×H˅ mm×mm×mm Dimension Package ˄L×W×H˅ mm×mm×mm Refrigerant control method mm/mm Defrosting Volume of Accumulator L Noise level dB(A) Type of Four way valve crankcase heater power W Weight (Net / Shipping) kg / kg Type / Charge g Refrigerant Recharge quantity g/m Liquid mm Pipe Gas mm Connecting Method MAX.Drop m Between I.D &O.D MAX.Piping length m -22- 1PH,220-230VAC,50HZ WHITE PA290X3CS-4MU1˄TOSHIBA˅ VG74 950ML Rotary axial×1 1000±50 0.06 3000 TP2M/ij7 3/1.46 43-60 865*335*732 995*420*815 ĭ1.8*300 capillary AUTO 3 57 SHF-4-10A 37 57/60.5 R410A/2100 50 9.52 15.88 flare 15 30 >a__WcU[S^ <[c >a`V[e[a`Wc AU282AHEAA/AB282ACEAA heating cooling 28000 30000 8.2 8.8 0.72 / 2700 2740 3400W 3500W 3.04 3.21 2.5 12.0A/15.0A 12.2A/15.5A AB282ACEAA(grey) Centrifugal fan * 1 670±40/600±50/460±50 0.16 1300/1100/870 inner grooved type/¶7 0.49 2-7 840*840*240 910*910*300 PVC 26/32 remote/wired (optional) 130 0 48/44/39 26.8/32.6 950*950*280 980*980*100 6/9 item Model Function Capacity BTU/h Capacity kW Sensible heat ratio Total power input W Max. power input W W/W EER or COP Dehumidifying capacity 10ϋ³×m³/h Running /Max.Running current A/A Unit model (color) Type × Number Speed(H-M-L) r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Total Area m² Temp. scope ć External ˄L×W×H˅mm×mm×mm Dimension Package ˄L×W×H˅mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired) Electricity Heater kW Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg AU282AHEAA/AC282AFEAA cooling heating 28000 32500 8.6 9.5 0.72 / 2680 2630 3400W 3500W 3.21 3.61 2.5 12.0A/15.0A 11.7A/15.0A AC282AFEAA(WHITE) Centrifugal fan*4 950±40/850±40/750±40r/min 0.10 1550/1300/1000 inner grooved type/¶7 0.53 2-7 1580*700*240 1710*790*315 PVC 18/20 remote/wired (optional) 0 50/48/46 50/57 Indoor unit Panel Indoor unit item Model Function Capacity BTU/h Capacity kW Sensible heat ratio W Total power input Max. power input W W/W EER or COP Dehumidifying capacity 10ϋ³×m³/h Running /Max.Running current A/A Unit model (color) Type × Number Speed(H-M-L) r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Total Area m² Temp. scope ć External ˄L×W×H˅mm×mm×mm Dimension Package ˄L×W×H˅mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired) Fresh air hole dimension mm Electricity Heater kW Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg External ˄L×W×H˅mm×mm×mm Dimension Package ˄L×W×H˅mm×mm×mm Weight (Net / Shipping) kg / kg 6 -23- >a__WcU[S^ <[c >a`V[e[a`Wc Indoor unit item Model Function Capacity BTU/h Capacity kW Sensible heat ratio Total power input W Max. power input W W/W EER or COP Dehumidifying capacity 10ϋ³×m³/h Running /Max.Running current A/A Unit model (color) Type × Number Speed(H-M-L) r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Total Area m² Temp. scope ć External ˄L×W×H˅mm×mm×mm Dimension Package ˄L×W×H˅mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired) Fresh air hole dimension mm Electricity Heater kW Noise level (H-M-L) dB(A) Static pressure Pa Weight (Net / Shipping) kg / kg AU282AHEAA/AD282AMEAA cooling heating 28000 31000 8.5 9.1 0.72 / 2820 2800 3500W 3500W 3.01 3.25 2.5 12.0A/15.5A 12.0A/15.5A AD282AMEAA(grey) Centrifugal fan*2 (1070±40/)970±40/900±40/820±50r/min 0.18 1470/1300/1100 inner grooved type/¶7 0.49 2-7 990*650*300 1170*860*340 PVC 32/26 wired 150 0 (47)43/40/38 50 39/40.4 Indoor unit item Model AU282AHEAA/AD282AHEAA cooling heating Function Capacity BTU/h 28000 31000 8.5 9.1 Capacity kW 0.72 / Sensible heat ratio Total power input 2950 2830 W Max. power input 3500W 3500W W 2.88 3.22 W/W EER or COP 1.8 Dehumidifying capacity 10ϋ³×m³/h Running /Max.Running current 12.7A/15.5A 12.3A/15.5A A/A AD282AHEAA(grey) Unit model (color) Centrifugal fan*2 Type × Number 1270+30/1130+40/970+50 Speed(H-M-L) r/min Fan 0.15 Fan motor output power kW Air-flow(H-M-L) m³/h 1470/1300/1100(100 Pa Static pressure˅ Type / Diameter mm inner grooved type/¶9.52 Heat exchanger Total Area 0.45 m² 2-7 Temp. scope ć 820*830*360 External ˄L×W×H˅mm×mm×mm Dimension 940*1051*510 Package ˄L×W×H˅mm×mm×mm PVC 32/26 Drainage pipe (material , I.D./O.D.) mm wired Control type (Remote /wired) Electricity Heater 0 kW Noise level (H-M-L) 53/51/49 dB(A) Static pressure 100 Pa Weight (Net / Shipping) 48/58 kg / kg -24- >a__WcU[S^ <[c >a`V[e[a`Wc PIPING Outdoor unit item color Power cable Power source Model N, V, Hz Model / Manufacture Oil model Compressor Oil charging Type Type × Number Speed r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Row / Fin pitch Temp. scope ć External ˄L×W×H˅mm×mm×mm Dimension Package ˄L×W×H˅mm×mm×mm RefrigEAAnt control method mm/mm Defrosting Volume of Accumulator L Noise level dB(A) Type of Four way valve crankcase heater power W Weight (Net / Shipping) kg / kg Type / Charge g RefrigEAAnt Recharge quantity g/m Liquid mm Pipe Gas mm Connecting Method MAX.Drop m Between I.D &O. MAX.Piping length m -25- AU282AHEAA WHITE H05RN-F 3G 4.0mm2 1PH,220-230VAC,50HZ NN33VAAMT(MITSUBISHI˅ FV50S 1300CC. Rotary axial×1 920±50 0.06 4000 hlydrophilic Al slit fin/¶7.94 2/1.7 43-60 948*340*840 1050*440*979 Capillary Automatic 3.5 58 SHF-4-10A 40 74/89 R410A/2450 50 9.52 15.88 Flare connection 15/10 30 >a__WcU[S^ <[c >a`V[e[a`Wc AU28NAHEAA/AB282ACEAA cooling heating 28000 29000 8.2 8.4 0.72 2800 2600 3500 3500 2.93 3.23 2.5 4.7A/5.6A 4.6A/5.5A AB282ACEAA(grey) Centrifugal fan*1 670±40/600±50/460±50 0.16 1300/1100/870 item Model Function apacity BTU/h Capacity kW Sensible heat ratio Total power input W Max. power input W W/W EER or COP Dehumidifying capacity 10ϋ³×m³/h Running /Max.Running current A/A Unit model (color) Type × Number Speed(H-M-L) r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Total Area m² Temp. scope ć External ˄L×W×H˅mm×mm×mm Dimension Package ˄L×W×H˅mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired) Electricity Heater kW Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg AU28NAHEAA/AC282AFEAA cooling heating 28000.00 28600.00 8.2 8.4 0.72 2600 2800 3500 3500 2.93 3.23 2.5 4.7A/5.6A 4.6A/5.5A AC282AFEAA(WHITE) Centrifugal fan*4 950±40/850±40/750±40r/min 0.10 1550/1300/1000 Indoor unit Panel Indoor unit item Model Function Capacity BTU/h Capacity kW Sensible heat ratio Total power input W Max. power input W W/W EER or COP Dehumidifying capacity 10ϋ³×m³/h Running /Max.Running current A/A Unit model (color) Type × Number Speed(H-M-L) r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Total Area m² Temp. scope ć External ˄L×W×H˅mm×mm×mm Dimension Package ˄L×W×H˅mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired) Fresh air hole dimension mm Electricity Heater kW Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg External ˄L×W×H˅mm×mm×mm Dimension Package ˄L×W×H˅mm×mm×mm Weight (Net / Shipping) kg / kg -26- inner grooved type/¶7 0.49 2-7 840*840*240 910*910*300 PVC 26/32 remote/wired (optional) 130 0 48/44/39 26.8/32.6 950*950*280 980*980*100 6/9 inner grooved type/¶7 0.53 2-7 1580*700*240 1710*790*315 PVC 18/20 remote/wired (optional) 0 50/48/46 50/57 >a__WcU[S^ <[c >a`V[e[a`Wc Indoor unit item Model Function Capacity BTU/h Capacity kW Sensible heat ratio Total power input W Max. power input W W/W EER or COP Dehumidifying capacity 10ϋ³×m³/h Running /Max.Running current A/A Unit model (color) Type × Number Speed(H-M-L) r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Total Area m² Temp. scope ć External ˄L×W×H˅mm×mm×mm Dimension Package ˄L×W×H˅mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired) Fresh air hole dimension mm Electricity Heater kW Noise level (H-M-L) dB(A) Static pressure Pa Weight (Net / Shipping) kg / kg AU28NAHEAA/AD282AMEAA cooling heating 28000 31000 9 8.5 0.72 2800 2650 3500 3500 3.04 3.40 2.5 4.7A/5.6A 4.6A/5.5A AD282AMEAA(grey) Centrifugal fan*2 (1070±40/)970±40/900±40/820±50r/min 0.18 1470/1300/1100 inner grooved type/¶7 0.49 2-7 990*650*300 1170*860*340 PVC 32/26 wired 150 0 (47)43/40/38 50 39/40.4 Indoor unit item Model AU28NAHEAA/AD282AHEAA cooling heating Function Capacity BTU/h 27500 29000 8 8.5 Capacity kW 0.72 Sensible heat ratio Total power input 2950 2820 W Max. power input 3500 3500 W 2.71 3.01 W/W EER or COP 1.8 Dehumidifying capacity 10ϋ³×m³/h Running /Max.Running current 4.8A/5.6A 4.8A/5.6A A/A AD282AHEAA(grey) Unit model (color) Centrifugal fan*2 Type × Number 1270+30/1130+40/970+50 Speed(H-M-L) r/min Fan 0.15 Fan motor output power kW Air-flow(H-M-L) m³/h 1470/1300/1100(100 Pa Static pressure˅ Type / Diameter mm inner grooved type/¶9.52 Heat exchanger Total Area m² 0.45 2-7 Temp. scope ć External 820*830*360 ˄L×W×H˅mm×mm×mm Dimension Package 940*1051*510 ˄L×W×H˅mm×mm×mm Drainage pipe (material , I.D./O.D.) mm PVC 32/26 wired Control type (Remote /wired) Electricity Heater 0 kW Noise level (H-M-L) dB(A) 53/51/49 Static pressure Pa 100 Weight (Net / Shipping) kg / kg 48/58 -27- >a__WcU[S^ <[c >a`V[e[a`Wc PIPING Outdoor unit item Power cable Power source Start Current Unit model (color) Model N, V, Hz A Model / Manufacture Oil model Compressor Oil charging Type Type × Number Speed r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Row / Fin pitch Temp. scope ć External ˄L×W×H˅mm×mm×mm Dimension Package ˄L×W×H˅mm×mm×mm Refrigerant control method mm/mm Defrosting Volume of Accumulator L Noise level dB(A) Type of Four way valve crankcase heater power W Weight (Net / Shipping) kg / kg Type / Charge g Refrigerant Recharge quantity g/m Liquid mm Pipe Gas mm Connecting Method m MAX.Drop Between I.D &O.D m MAX.Piping length -28- AU28NAHEAA H05RN-F 3G 4.0mm2 3PH,380-400VAC,50HZ 33A/36A AU28NAHEAA(WHITE) NN33YCAMT˄MITSUBISHI˅ FV50S 1300CC. Rotary axial×1 920±50 0.06 4000 hlydrophilic Al slit fin/¶7.94 2/1.7 43-60 948*340*840 1050*440*979 Capillary Automatic 3.5 58 SHF-4-10A 40 74/89 R410A/2450 50 9.52 15.88 Flare connection 15/10 30 33A/36A >a__WcU[S^ <[c >a`V[e[a`Wc AU362AIEAA/AB362ACEAA cooling heating 10 10.5 0.72 3300 3500 3900 3950 3.03˄B˅ 3.00˄B˅ 15.8A/18.5A 16.5A/18.7A AB362ACEAA Centrifugal fan*1 700/600/550 0.1 1600/1450/1300 inner grooved type/¶7 0.53 2-7 840/840/290 910/910/370 PVC 26/32 remote/wired (optional) 0 51 38/45 950×950×80 980×980×100 6/9 item Model Function Capacity kW Sensible heat ratio Total power input W Max. power input W W/W EER or COP Running /Max.Running current A/A Unit model (color) Type × Number Fan Speed(H-M-L) r/min Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Total Area m² Temp. scope ć External ˄L×W×H˅mm×mm×mm Dimension Package ˄L×W×H˅mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired) Electricity Heater kW Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg AU362AIEAA/AC362AFEAA cooling heating 11 12 0.72 3400 3500 3950 3950 3.24 3.43 16.0A/18.7A 16.5A/18.7A AC362AFEAA Centrifugal fan*4 1150/-/1800/-/inner grooved type/¶7 0.53 2-7 1580/700/240 1710/790/315 PVC 18/20 remote/wired (optional) 0 51 54/61 Indoor unit Panel Indoor unit item Model Function Capacity kW Sensible heat ratio Total power input W Max. power input W W/W EER or COP Running /Max.Running current A/A Unit model (color) Type × Number Speed(H-M-L) r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Total Area m² Temp. scope ć External ˄L×W×H˅mm×mm×mm Dimension Package ˄L×W×H˅mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired) Electricity Heater kW Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg mm×mm×mm External ˄L×W×H˅ Dimension Package ˄L×W×H˅mm×mm×mm Weight (Net / Shipping) kg / kg -29- >a__WcU[S^ <[c >a`V[e[a`Wc AU362AIEAA/AB362ACEAA cooling heating 10 10.5 0.72 3300 3500 3900 3950 3.03˄B˅ 3.00˄B˅ 15.8A/18.5A 16.5A/18.7A AB362ACEAA Centrifugal fan*1 700/600/550 0.1 1600/1450/1300 inner grooved type/¶7 0.53 2-7 840/840/290 910/910/370 PVC 26/32 remote/wired (optional) 0 51 38/45 950×950×80 980×980×100 6/9 item Model Function Capacity kW Sensible heat ratio Total power input W Max. power input W W/W EER or COP Running /Max.Running current A/A Unit model (color) Type × Number Fan Speed(H-M-L) r/min Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Total Area m² Temp. scope ć External ˄L×W×H˅mm×mm×mm Dimension Package ˄L×W×H˅mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired) Electricity Heater kW Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg AU362AIEAA/AC362AFEAA cooling heating 11 12 0.72 3400 3500 3950 3950 3.24 3.43 16.0A/18.7A 16.5A/18.7A AC362AFEAA Centrifugal fan*4 1150/-/1800/-/inner grooved type/¶7 0.53 2-7 1580/700/240 1710/790/315 PVC 18/20 remote/wired (optional) 0 51 54/61 Indoor unit Panel Indoor unit item Model Function Capacity kW Sensible heat ratio Total power input W Max. power input W W/W EER or COP Running /Max.Running current A/A Unit model (color) Type × Number Speed(H-M-L) r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Total Area m² Temp. scope ć External ˄L×W×H˅mm×mm×mm Dimension Package ˄L×W×H˅mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired) Electricity Heater kW Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg External ˄L×W×H˅mm×mm×mm Dimension Package ˄L×W×H˅mm×mm×mm kg / kg Weight (Net / Shipping) -30- >a__WcU[S^ <[c >a`V[e[a`Wc AU362AIEAA/AD362AMEAA cooling heating 10.5 11 0.72 3400 3500 3900 3950 3.09 3.15 16.0A/18.5A 16.5A/18.7A AD362AMEAA Centrifugal fan*2 1200/1100/1000 0.16 1500/1350/1200 inner grooved type/¶7 0.53 2-7 990/650/300 1137/800/320 PVC 26/32 wired 0 47/45/43 40/57 item Model Function Capacity kW Sensible heat ratio Total power input W Max. power input W W/W EER or COP Running /Max.Running current A/A Unit model (color) Type × Number Speed(H-M-L) r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Total Area m² Temp. scope ć External ˄L×W×H˅mm×mm×mm Dimension Package ˄L×W×H˅mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired) Electricity Heater kW Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg AU362AIEAA/AD362AHEAA cooling heating 10 11 0.72 3550 3650 3900 3950 2.8 3.01 16.8A/18.5A 17.5A/18.7A AD362AHEAA Centrifugal fan*2 1350/1250/1050 0.2 1500/1350/1200 inner grooved type/¶7 0.53 2-7 820/830/360 940/1051/420 PVC 32/26 wired 0 53 48/58 Indoor unit Indoor unit item Model Function Capacity kW Sensible heat ratio Total power input W Max. power input W W/W EER or COP Running /Max.Running current A/A Unit model (color) Type × Number Speed(H-M-L) r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Total Area m² Temp. scope ć mm×mm×mm External ˄L×W×H˅ Dimension Package ˄L×W×H˅mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired) Electricity Heater kW Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg -31- >a__WcU[S^ <[c >a`V[e[a`Wc PIPING item Dehumidifying capacity Power cable Power source Start Current Model 10ϋ³×m³/h N, V, Hz A Model / Manufacture Oil model Compressor Oil charging Type Type × Number Speed r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Row / Fin pitch Temp. scope ć mm×mm×mm External ˄L×W×H˅ Dimension Package ˄L×W×H˅mm×mm×mm Refrigerant control method mm/mm Defrosting Volume of Accumulator L Noise level dB(A) Type of Four way valve crankcase heater power W Weight (Net / Shipping) kg / kg Type / Charge g Refrigerant Recharge quantity g/m Liquid mm Pipe Gas mm Connecting Method m MAX.Drop Between I.D &O.D m MAX.Piping length -32- AU362AIEAA 2.5 H05RN-F 3G 4.0mm2 1PH,220-230AC,50HZ 88/96 88/96 NN40VAAMT FV50S 1300cc Rotary axial×2 860±40 0.08 7000 hlydrophilic Al slit fin ¶ / 7.94 2/1.7 43-60 948*340*1250 1050*440*1375 Capillary Automatic 3.5 60 SHF-4-10A 40 96/101 R410A/3300 65 9.52 19.05 Flare connection 30 50 >a__WcU[S^ <[c >a`V[e[a`Wc AU36NAIEAA/AB362ACEAA cooling heating 11.5 12 0.72 3800 3900 4700 4800 3.03 3.08 6.4A/8.0A 6.5A/8.0A AB362ACEAA Centrifugal fan*1 700/600/550 0.1 1600/1450/1300 inner grooved type/¶7 0.53 2-7 840/840/290 910/910/370 PVC 26/32 remote/wired (optional) 0 51 38/45 950×950×80 980×980×100 6/9 item Model Function Capacity kW Sensible heat ratio Total power input W Max. power input W W/W EER or COP Running /Max.Running current A/A Unit model (color) Type × Number Fan Speed(H-M-L) r/min Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Total Area m² Temp. scope ć External ˄L×W×H˅mm×mm×mm Dimension Package ˄L×W×H˅mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired) Electricity Heater kW Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg AU36NAIEAA/AC362AFEAA cooling heating 11.5 13 0.72 3900 3900 4700 4500 2.95 3.33 6.6A/8.0A 6.5A/7.8A AC362AFEAA Centrifugal fan*4 1150/-/1800/-/inner grooved type/¶7 0.53 2-7 1580/700/240 1710/790/315 PVC 18/20 remote/wired (optional) 0 51 54/61 Indoor unit Panel Indoor unit item Model Function Capacity kW Sensible heat ratio Total power input W Max. power input W W/W EER or COP Running /Max.Running current A/A Unit model (color) Type × Number Speed(H-M-L) r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Total Area m² Temp. scope ć External ˄L×W×H˅mm×mm×mm Dimension Package ˄L×W×H˅mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired) Electricity Heater kW Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg External ˄L×W×H˅mm×mm×mm Dimension Package ˄L×W×H˅mm×mm×mm Weight (Net / Shipping) kg / kg -33- >a__WcU[S^ <[c >a`V[e[a`Wc AU36NAIEAA/AD362AMEAA cooling heating 11 12.5 0.72 3650 4300 4700 4800 3.01 2.91 6.4A/8.0A 7.3A/8.0A AD362AMEAA Centrifugal fan*2 1200/1100/1000 0.16 1500/1350/1200 inner grooved type/¶7 0.53 2-7 990/650/300 1137/800/320 PVC 26/32 wired 0 47/45/43 40/57 item Model Function Capacity kW Sensible heat ratio Total power input W Max. power input W W/W EER or COP Running /Max.Running current A/A Unit model (color) Type × Number Speed(H-M-L) r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Total Area m² Temp. scope ć External ˄L×W×H˅mm×mm×mm Dimension Package ˄L×W×H˅mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired) Electricity Heater kW Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg AU36NAIEAA/AD362AHEAA cooling heating 10.5 12 0.72 3880 4200 4700 4800 2.71 2.86 6.7A/8.0A 6.8A/8.0A AD362AHEAA Centrifugal fan*2 1350/1250/1050 0.2 1500/1350/1200 inner grooved type/¶7 0.53 2-7 820/830/360 940/1051/420 PVC 32/26 wired 0 53 48/58 Indoor unit Indoor unit item Model Function Capacity kW Sensible heat ratio Total power input W Max. power input W W/W EER or COP Running /Max.Running current A/A Unit model (color) Type × Number Speed(H-M-L) r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Total Area m² Temp. scope ć External ˄L×W×H˅mm×mm×mm Dimension Package ˄L×W×H˅mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired) Electricity Heater kW Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg -34- >a__WcU[S^ <[c >a`V[e[a`Wc PIPING Outdoor unit item Model Dehumidifying capacity 10ϋ³×m³/h Power cable Power source N, V, Hz Start Current A Unit model (color) Model / Manufacture Oil model Compressor Oil charging Type Type × Number Speed r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Row / Fin pitch Temp. scope ć External ˄L×W×H˅mm×mm×mm Dimension Package ˄L×W×H˅mm×mm×mm Refrigerant control method mm/mm Defrosting Volume of Accumulator L Noise level dB(A) Type of Four way valve crankcase heater power W Weight (Net / Shipping) kg / kg Type / Charge g Refrigerant Recharge quantity g/m Liquid mm Pipe Gas mm Connecting Method MAX.Drop m Between I.D &O MAX.Piping length m -35- AU36NAIEAA 2.5 H05RN-F 3G 4.0mm2 3PH,380-400AC,50HZ 46.3/48.2/50.0 46.3/48.2/50.0 AU36NAIEAA JT125G-P8Y1 DAPHNE FVC68D 1500cm³ Scroll axial×2 860±40 0.08 7000 hlydrophilic Al slit fin/¶7.94 2/1.7 43-60 948*340*1250 1050*440*1375 Capillary Automatic 3.5 60 SHF-4-10A 40 103/108 R410A/3300 65 9.52 19.05 Flare connection 30 50 >a__WcU[S^ <[c >a`V[e[a`Wc item Function Capacity Capacity Sensible heat ratio Total power input Max. power input EER or COP Dehumidifying capacity Power cable Signal cable Connecting cable Power source Running /Max.Running current Model AU42NALEAA/AP422ACEAA cooling heating 42000 47800 12.3 14.0 70% 4800 5050 6550 5650 2.55 2.7 5.0 BTU/h kW W W W/W 10ϋ³×m³/h section section section N, V, Hz 5G×2.5mm2 4G×0.75mm2 OUTDOOR UNIT: 3N, 380-400V, 50HZ INDOOR UNIT: 1PH, 220-230AC, 50HZ A/A A &/$66, Outdoor unit PIPING -36- &/$66, 20 4.15 4.15 4.15 4.15 AP422ACEAA(WHITE) centrifugal 540/380/320 0.1 1560 inner grooved/¶7 Indoor unit Start Current Class of anti electric shock Circuit breaker A Max. operating pressure of heat side Mpa Max. operating pressure of cold side Mpa Unit model (color) Type × Number Speed(H-M-L) r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Temp. scope ć External ˄L×W×H˅ mm×mm×mm Dimension Package ˄L×W×H˅ mm×mm×mm Air sending angle Control type (Remote /wired /model) Outlet distribution hole dimension mm Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg Unit model (color) Model / Manufacture Oil model Oil type Compressor Oil charging Type Protection type Starting method Type × Number Speed r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Row / Fin pitch Temp. scope ć External ˄L×W×H˅ mm×mm×mm Dimension Package ˄L×W×H˅ mm×mm×mm Refrigerant control method mm/mm Defrosting Volume of Accumulator L Noise level dB(A) Type of Four way valve crankcase heater power W Weight (Net / Shipping) kg / kg Type / Charge g Refrigerant Recharge quantity g/m Liquid mm Pipe Gas mm Connecting Method MAX.Drop m Between I.D &O. MAX.Piping length m Cooling 8.4A/9.9A Heating 8.8/11.5A 50 2ˉ7 1820× 530× 310 1905×625×415 160 160 Remote 70 56/46/40 52/61 AU42NALEAA(WHITE) JT160G-P8Y1(R410A) /DAKIN DAPHNE FVC68D 1500L SCROLL Inner thermal protection hard startup Axial*1 740 0.15*1 5500 inner grooved/¶9.52 2/1.6 43ˉ60 1008×447×830 1130×490×930 Capillary tube Automatic 2.5 59 SHF 55 91/102 R410A/3100 65 ¶9.52 ¶19.05 Flared 30 50 >a__WcU[S^ <[c >a`V[e[a`Wc AB482ACEAA cooling 13.6 0.72 4500 5500 3.02˄B˅ Indoor unit item Model Function Capacity kW Sensible heat ratio Total power input W Max. power input W W/W EER or COP Dehumidifying capacity 10ϋ³×m³/h Running /Max.Running current A/A Start Current A Unit model (color) Type × Number Speed(H-M-L) r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Total Area m² Temp. scope ć External ˄L×W×H˅ mm×mm×mm Dimension Package ˄L×W×H˅ mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired) Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg -37- heating 16.5 5000 6000 3.3˄C˅ 5.0 8.0A/9.5A 9.0A/10.5A 65 65 AB482ACEAA˄BLACK) centrifugal fan*1 1980/-/- inner grooved pipe/ij7 2-7 1230/840/280 1325/920/370 PVC 32/26 Remote /wired (optional) 51/47/43 46/53 1340/950/80 1400/995/115 Panel Indoor unit item Model Function Capacity kW Sensible heat ratio Total power input W Max. power input W W/W EER or COP Dehumidifying capacity 10ϋ³×m³/h Running /Max.Running current A/A Start Current A Unit model (color) Type × Number Fan Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Temp. scope ć External ˄L×W×H˅ mm×mm×mm Dimension Package ˄L×W×H˅ mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired) Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg External ˄L×W×H˅ mm×mm×mm Dimension Package ˄L×W×H˅ mm×mm×mm kg / kg Weight (Net / Shipping) 8.4/12.0 AC482AFEAA cooling 14.06 0.72 4600 5500 3.06˄B˅ heating 17.0 4950 6000 3.43˄B˅ 5.3 8.0A/9.5A 9.0A/10.5A 65 65 AC482AFEAA˄WHITE) centrifugal fan*4 1250/1150/1100 0.09 2000/1800/1400 inner grooved pipe/ij7 0.10 2-7 1580/700/240 1710/790/315 PVC Remote 53/51/49 54/61 >a__WcU[S^ <[c >a`V[e[a`Wc AD482AMEAA cooling 14.06 0.72 4600 5500 3.06˄B˅ Indoor unit item Model Function Capacity kW Sensible heat ratio Total power input W Max. power input W W/W EER or COP Dehumidifying capacity 10ϋ³×m³/h Running /Max.Running current A/A Start Current A Unit model (color) Type × Number Speed(H-M-L) r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Total Area m² Temp. scope ć External ˄L×W×H˅ mm×mm×mm Dimension Package ˄L×W×H˅ mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired) Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg -38- heating 17.5 4800 6000 3.65˄A˅ 4.8 8.0A/9.5A 65 8.5A/10.5A 65 grey centrifugal fanX3 0.06 2040/1800/1600m³/h TP2M/9.52 0.10 Indoor unit item Model Function Capacity kW Sensible heat ratio Total power input W Max. power input W W/W EER or COP Dehumidifying capacity 10ϋ³×m³/h Running /Max.Running current A/A Start Current A Unit model (color) Type × Number Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Total Area m² Temp. scope ć External ˄L×W×H˅ mm×mm×mm Dimension Package ˄L×W×H˅ mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired) Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg 2-7 1410/635/350 1557/800/370 PVC 26/32 wired 48/-/44 55/60 AD482AHEAA cooling 13.5 0.72 4600 5500 2.96˄C˅ heating 17.5 4700 6000 3.72˄A˅ 4.2 8.0A/9.5A 8.5A/10.5A 65 65 AD482AHEAA˄grey) centrifugal fan X2 1090+30/-/930+50 0.06 2580/-/1560 TP2M/9.52 0.10 2-7 1197×830×350 1430×940×420 PVC 26/32 wired 50/46/42 62/70 >a__WcU[S^ <[c >a`V[e[a`Wc Indoor unit item Model Function Capacity kW Sensible heat ratio Total power input W Max. power input W W/W EER or COP Dehumidifying capacity 10ϋ³×m³/h Running /Max.Running current A/A Start Current A Unit model (color) Type × Number Speed(H-M-L) r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Temp. scope ć External ˄L×W×H˅ mm×mm×mm Dimension Package ˄L×W×H˅ mm×mm×mm Control type (Remote /wired) Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg item Power cable Power source Model Outdoor unit heating 16.0 5250 6000 3.05˄D˅ 5.5 8.0A/9.5A 9.0A/10.5A 65 65 AP482AKEAA˄white) centrifugal fan X1 460/430/400±40 0.06 1750/-/-m³/h TP2M/7.0 2-7 1850×600×350 1980×660×420 Remote 51/48/44 59/70 AU48NAIEAA H07RN-F 5G 4.0mm2 N, V, Hz Unit model (color) PIPING AP482AKEAA cooling 13.6 0.72 4500 5500 3.02˄B˅ Model / Manufacture Oil model Compressor Oil type Oil charging Type Type × Number Speed r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Row / Fin pitch Temp. scope ć External ˄L×W×H˅ mm×mm×mm Dimension Package ˄L×W×H˅ mm×mm×mm Refrigerant control method mm/mm Defrosting Volume of Accumulator L Noise level dB(A) Type of Four way valve crankcase heater power W Weight (Net / Shipping) kg / kg Type / Charge g Refrigerant Recharge quantity g/m Liquid mm Pipe Gas mm Connecting Method MAX.Drop m Between I.D &O.D MAX.Piping length m -39- OU:380-400V,3N,50HZ IU:1PH,220230V,50HZ WHITE JT160G-P8Y1˄DAIKIN˅ DAPHNE FVC68D 1500CM3 Rotary axial×2 860±40 0.08 7000 TP2M/9.52 3/1.55 43-60 948*340*1250 1050*440*1375 capillary 2.4*150 AUTO 3 60 SHF-4-10A 55 106/111 R410A/3700 65 9.52 19.05 flare 30 50 >a__WcU[S^ <[c >a`V[e[a`Wc AB602ACEAA cooling 15.5 0.72 5100W 6200W 3.02˄B˅ Indoor unit item Model Function Capacity kW Sensible heat ratio Total power input W Max. power input W W/W EER or COP Dehumidifying capacity 10ϋ³×m³/h A/A Running /Max.Running current Start Current A Unit model (color) Type × Number Speed(H-M-L) r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Total Area m² Temp. scope ć External ˄L×W×H˅ mm×mm×mm Dimension Package ˄L×W×H˅ mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired) Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg -40- heating 18.5 5350W 6200W 3.44˄B˅ 5.0 9.0A/10.5A 9.5A/10.5A 65 65 AB602ACEAA˄black) centrifugal fan*1 1980/-/inner grooved pipe/ij7 2-7 1230/840/280 1325/920/370 PVC 32/26 Remote /wired (optional) 51/47/43 46/53 1340/950/80 1400/995/115 Panel Indoor unit item Model Function Capacity kW Sensible heat ratio Total power input W Max. power input W W/W EER or COP Dehumidifying capacity 10ϋ³×m³/h A/A Running /Max.Running current Start Current A Unit model (color) Type × Number Fan Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Temp. scope ć External ˄L×W×H˅ mm×mm×mm Dimension Package ˄L×W×H˅ mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired) Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg External ˄L×W×H˅ mm×mm×mm Dimension Package ˄L×W×H˅ mm×mm×mm kg / kg Weight (Net / Shipping) 8.4/12.0 AC602AFEAA cooling 16.1 0.72 5100W 6200W 3.16(B) heating 18.5 5350W 6200W 3.46(B) 5.5 9.0A/10.5A 9.5A/10.5A 65 65 AC602AFEAA˄WHITE) centrifugal fan*4 1250/1150/1100 0.09 2000/1800/1400 inner grooved pipe/ij7 0.10 2-7 1580/700/240 1710/790/315 PVC Remote /wired (optional) 53/51/49 54/61 >a__WcU[S^ <[c >a`V[e[a`Wc item Function Capacity Sensible heat ratio Total power input Max. power input EER or COP Dehumidifying capacity AD602AHEAA Model kW W W W/W 10ϋ³×m³/h A/A A Model Power source Unit model (color) N, V, Hz PIPING Outdoor unit item Power cable connectting cable Model / Manufacture Oil model Compressor Oil type Oil charging Type Type × Number Speed r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Row / Fin pitch Temp. scope ć External ˄L×W×H˅ mm×mm×mm Dimension Package ˄L×W×H˅ mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Refrigerant control method mm/mm Defrosting Volume of Accumulator L Noise level dB(A) Type of Four way valve crankcase heater power W Weight (Net / Shipping) kg / kg Type / Charge g Refrigerant Recharge quantity g/m Liquid mm Pipe Gas mm Connecting Method MAX.Drop m Between I.D &O.D MAX.Piping length m -41- heating 18.7 5100W 6000W 3.67(A) 4.8 9.5A/10.5A 9.0A/10 65 65 AD602AHEAA˄grey) centrifugal X2 1090+30/-/930+50 0.06 2580/2070/1560 TP2M/9.52 0.10 2-7 1197×830×350 1430×940×420 PVC 26/32 wired control 50/46/42 62/70 Indoor unit Running /Max.Running current Start Current Unit model (color) Type × Number Speed(H-M-L) r/min Fan Fan motor output power kW Air-flow(H-M-L) m³/h Type / Diameter mm Heat exchanger Total Area m² Temp. scope ć External ˄L×W×H˅ mm×mm×mm Dimension Package ˄L×W×H˅ mm×mm×mm Drainage pipe (material , I.D./O.D.) mm Control type (Remote /wired) Noise level (H-M-L) dB(A) Weight (Net / Shipping) kg / kg cooling 16.1 0.72 5350W 6200W 3.01(B) AU60NAIEAA H07RN-F 5G 4.0mm2 H05RN-F 4G 0.75mm2 OU: 380-400V, 3N, 50HZ IU:1PH, 220-230V, 50HZ WHITE JT170G-P8Y1˄DAIKIN˅ DAPHNE FVC68D 1500CM3 Rotary axial×2 860±40 0.08 7000 TP2M/9.52 3/1.5 43-60 948*340*1250 1050*440*1375 / capillary ĭ2.4*150 AUTO 3 60 SHF-4-10A 55 106/111 R410A/4050 65 9.52 19.05 flare 30 50 >a__WcU[S^ <[c >a`V[e[a`Wc Installation state: the unit should be placed on the flat floor or be mounted in horizontal direction. Testing method: standing-on-floor unit: If the unit cooling capacity is over 28000W, the noise level should be measured at the front, left, right directions respectively. mounting-on-ceiling unit: 1m 1m 1m 1m mounting-on-wall unit: built-in-ceiling unit: 1.4m 0.8m 1m duct unit without auxiliary duct: duct unit with auxiliary duct: 2m duct 2m 1m auxiliary duct auxiliary duct 1.4m 1.4m -42- >a__WcU[S^ <[c >a`V[e[a`Wc 1m outdoor unit: 1.air outlet from side: the noise level is the average sound pressure level measured from front, left, right directions. 2.air outlet from top: the noise level is the average sound pressure level measured from front, back, left, right directions. measured point: H ( height to the ground) = (h (unit height) + 1m) /2 and, it is 1m to each side. 1m 1m 1m h Note: Ĵ is the real time analyser position Note: All the data in the specifications for 28, 36, 42 series is only for reference, the information is subject to change without notice. -43- >a__WcU[S^ <[c >a`V[e[a`Wc 3. Dimension 3.1 Outdoor unit dimension AU182AEAA 23+ 6AF;B 8=B=@< 7;B?=@9> -2+ -0 1/+ 6AF;B 8=B=@< 4=CDB=:ED=A@ 5A>; 0++ AU242AGEAA, AU242AGERA -44- >a__WcU[S^ <[c >a`V[e[a`Wc AU282AHEAA, AU28NAHEAA, AU362AHERA 948 Power wiring terminal ! 840 25 70 55 ! 70 ! 18 ! 340 ! 380 184 580 184 AU42NALEAA 1006 Power wiring terminal ! 20 825 60 70 410 20 ! ! ! ! (4xM10) 180 -45- 646 180 447 >a__WcU[S^ <[c >a`V[e[a`Wc AU362AIEAA, AU36NAIEAA, AU48NAIEAA, AU60NAIEAA 948 Power wiring Terminal 184 580 184 18 70 18 380 340 1250 55 25 Screw Hole (4xM10) AU182AFERA 480 110 265 170 30 190 220 680 200 75 150 400 65 100 810 580 288 100 -46- >a__WcU[S^ <[c >a`V[e[a`Wc 3.2 Indoor unit dimension Model: AB182 (Panel: PB-700IA) (used for all 700x700 cassette type units) :;9 B9 A9 @99SS 7VITMR LQSMTYQUT8 OIY VQVM >@9SS 7QTLUUX [TQZ LQSMTYQUT8 RQW[QL VQVM ?>9SS 7KMQRQTO UVMTQTO LQSMTYQUT8 LXIQTIOM VQVM B> :A9 NXMYP IQX PURM :=9 ><>SS 7JMZ]MMT Y[YVMTYQUT VURMY8 (mm) VIEW A >@9SS 7QTLUUX [TQZ LQSMTYQUT8 ?>9SS 7KMQRQTO UVMTQTO LQSMTYQUT8 @99SS 7VITMR LQSMTYQUT8 GFEH D Model: AB24, AB28 (Panel: PB-950IA) 950 860-890 (ceiling hole) 680 (hang position) 680 air discharge hole 30 345 57 80 200 860-890 950 840 295 57 260 270 315 35 106 85 85 103 35 155 180 20 30 50 260 160 135 180 240 140 (mm) -47- >a__WcU[S^ <[c >a`V[e[a`Wc Model: AB362ACEAA (Panel: PB-950JA) 860-890(ceiling hole) (Hanging position) 950 790 690 35 150 149 164 35 Wall or barrier ov er below 3000 15 0 0 over 1000 60 134 287 149 ? 80 88 85 35 840 346 35 840 346 860-890 950 Barrier 15 00 ov er 15 00 Ground ov er 15 00 Model: AB362ACERA, AB48, AB60 (Panel: PB-1340IA) 1250~1280 (ceiling hole) 1340 1070 (hanging position) 535 950 780 860-890 615 295 55 840 1230 55 120 155 90 220 20 300 160 135 220 280 170 30 50 260 270 315 -48- (mm) >a__WcU[S^ <[c >a`V[e[a`Wc Model: AC18, AC24 620 605 600 880 100 655 40 35 35 30 240 200 199 900 990 (mm) Model: AC28, AC36, AC48, AC60 1580 700 598 495 285 36 114 55 240 570 640 90 D=25 D = 47 440 300 150 D=200 D = 47 D = 47 D = 47 95 40 60 D = 50 D=200 D = 47 224 D = 47 D = 47 155 D = 47 90 -49- (mm) >a__WcU[S^ <[c >a`V[e[a`Wc b e f a h g i d c Unit model AD182ALEAA AD242ALEAA AD242ALERA a b c d e f g h i 1002 483.5 131 1105 255 105 880 970 220 D K M 44 G F H * I L J <PRSCNNCSKQP FKOGPRKQP8 ,APKS8 OO@B>; 9:/609=;?9 C D E F G H I J K L M /.40 //02 23. 0/6 26 005 /01 00 75 00. /.75 -50- >a__WcU[S^ <[c >a`V[e[a`Wc Model: AD242AMEAA, AD282AMEAA, AD362AMEAA, AD242AMERA, AD362AMERA Medium static pressure duct type 35 275 260 10 85 235 165 gas pipe A liquid pipe drainage pipe 265 300 R100 150 100 120 A-A 986 960 890 200 200 200 170 130 635 545 20 890 70 (mm) Model: AD482AMEAA Medium static pressure 35 275 260 235 85 165 liquid pipe R100 drainage pipe 265 350 260 275 gas pipe 120 100 150 A-A 1406 1370 655 545 240 1280 85 (mm) -51- >a__WcU[S^ <[c >a`V[e[a`Wc Model: AD282AHEAA, AD362AHEAA High static pressure 60 30 250 130 365 205 185 170 750 120 840 800 830 960 Model: AD482AHEAA, AD602AHEAA, AD362AHERA High static pressure 1105 270 250 365 185 170 60 45 250 1200 800 830 1320 (mm) Model: AS182AVERA 225 305 870 -52- >a__WcU[S^ <[c >a`V[e[a`Wc Model: AP422ACEAA 530 01- MNPOQ F=@9D 7?B7> E9F F=@9 5@ 4 E9F F9@C F=@9 E?99C ?BG @=8 <=;< 7 F9@C @B89 F9@C EG=A; :5A EC998 BA B:: .- - .3/- .-- 1- Model: AP482AKEAA 350 600 1851 350 336 500 -53- >`^^WcU[S] <[c >`_V[e[`_Wc 60JSced _S^W AB182ACEAA, AB362ACEAA, AB182ACERA >\NSL QTZ[JW n,NW KQT\ INWJHYNTS HFS GJ FIOZXYJI G^ ZXNSL YMJ >B492 GZYYTS TS YMJ WJRTYJ HTSYWTQQJWo :UJWFYNSL .TSYWTQ ;FSJQ ,NW 4SQJY 2WNQQJ ,NW 1NQYJW n4SXNIJ TK YMJ 4SQJY 2WNQQJo :UJWFYNSL .TSYWTQ ;FSJQ . / 0 5<:=>6??<> @9:6> 1 2 >A; =<B6> 3 .- >GNPTG RGEGKVGR /- 5<:=>6??<> MCNQ 0-@9:6> MCNQ 1- >A; MCNQ 2- =<B6> MCNQ 3- 6NGRIGOEX SWKTEJ AB242ACEAA, AB282ACEAA, AB242ACERA \FYJW UZRU nGZNQY NSo IWFNS 3TXJ XZXUJSXNTS GWFHPJY X\NSL QTZ[JW TZYQJY FNW NSQJY LWNQQ FNW KNQYJW nNSXNIJ YMJ LWNQQo -54- WJKWNLJWFSY UNUJ HFGQJ QNSJ JFWYMNSL QNSJ >`^^WcU[S] <[c >`_V[e[`_Wc AB482ACEAA, AB602ACEAA, AB362ACERA XZXUJSXNTS GWFHPJY FNW NSQJY LWNQQ X\NSL QTZ[JW FNW KNQYJW nNSXNIJ YMJ LWNQQo AC182ACEAA, AC242ACEAA, AC182ACERA, AC242ACERA, wv ww w e f g ;:B0= :;0= ?480= y .:8; h 080= c d * ~ w :UJWFYNSL .TSYWTQ ;FSJQ x 0RJWLJSH^ X\NYHM y =JRTYJ .TSYWTQ >NLSFQ =JHJN[JW z ;T\JW 4SINHFYTW 7FRU { :;0=,?4:9 4SINHFYTW 7FRU | ?480= 4SINHFYTW 7FRU } .TRUWJXXTW =ZS 7FRU ~ 4SYFPJ 2WNQQ * ,NW 1NQYJW wv @Uu/T\S ,NW /NWJHYNTS 1QFUX ww =NLMYu7JKY ,NW /NWJHYNTS 7TZ[JWX nGJMNSI @Uu/T\S ,NW /NWJHYNTS 1QFUXo AC282AFEAA, AC362AFEAA, AC482AFEAA, AC602AFEAA, AC362AFERA * b 080= ;:B0= :;0= ?480= c .:8; ~ d e f g h 1 Operating Control Panel 6 Compressor Lamp 2 Emergency switch 7 Remote receiver 3 Power Indicator Lamp 8 Inlet Grill ( Filter inside ) 4 OPERATION Indicator Lamp 9 Front panel 5 TIMER Indicator Lamp -55- >`^^WcU[S] <[c >`_V[e[`_Wc AD182ALEAA, AD242ALEAA, AD242ALERA Electrical components Case Air outlet frame Evaporator Drain pan AD182AMERA LGToOTYOJKp SUZUXoOTYOJKp GOX U[ZRKZ MORRK JXGOTGMK VOVK MGY VOVK ROW[OJ VOVK K\GVUXGZUX AD242AMEAA, AD282AMEAA, AD362AMEAA, AD242AMERA, AD362AMERA FNW TZYQJY JQJHYWNH HTSYWTQ FXXJRGQ^ FNW NSQJY -56- >`^^WcU[S] <[c >`_V[e[`_Wc AD482AMEAA FNW TZYQJY IZHY JQJHYWNH HTSYWTQ FXXJRGQ^ FNW NSQJY AD282AHEAA, AD362AHEAA, AD482AHEAA, AD602AHEAA, AD362AHERA XZXUJSINSL UTQJ J[FUTWFYTWnNSXNIJo LZFWINSL UQFYJ XYTU [FQ[J IZHY JQJHYWNH GT] XZXUJSINSL GTQY IWFNS UNUJ AS182AVERA Air inlet grille Front panel Air inlet grille Louver Display board -57- >`^^WcU[S] <[c >`_V[e[`_Wc AP422ACEAA GOX U[ZRKZ MXORRK UVKXGZOUT VGTKR LXUTZ VGTKR GOX OTRKZ MXORRK GOX LORZKX oOTYOJK ZNK [TOZp AP482AKEAA 1 ON/OFF ON/OFF MODE FAN SET HEALTH HUMI TIMER TEMP SLEEP **+ **- * * MODE FAN SET HUMI HEALTH TEMP SLEEP TIMER TEMP + TEMP - HEALTH 2 SET HUMI TEMP 3 Indoor unit 1 2 4 HEALTH TIMER SLEEP 3 4 -58- Outlet grill Operation panel Inlet grill Air filter [inside the unit] 2 >`^^WcU[S] <[c >`_V[e[`_Wc AU242AGEAA, AU182AFERA, AU242AGERA FNW NSQJY YTU HT[JW KWTSY UFSJQ \NWNSL GT] HT[JW HTRUWJXXTWnNSXNIJ TK ZSNYo XYTU [FQ[J GTYYTR UQFYJ FNW TZYQJY FNW TZYQJY LWNQQJ AU182AEEAA, AU282AHEAA, AU28NAHEAA, AU42NALEAA, AU362AHERA FNW NSQJY FNW TZYQJY LWNQQJ HTRUWJXXTWnNSXNIJ TK ZSNYo XYTU [FQ[J AU362AIEAA, AU36NAIEAA, AU48NAIEAA, AU60NAIEAA FNW NSQJY FNW TZYQJY HTRUWJXXTWnNSXNIJ TK ZSNYo XYTU [FQ[J -59- -60- R410A On-Off (fix frequency unit) 60 48 42 36 28 24 18 0010452442E(2 PH) 0010452378E(3 PH) / AU42NALEAA 0010452378E / AU48NAIEAA 0010452378E / AU60NAIEAA 0010452378E / PCB code Controller Model PCB code Controller Model PCB code Controller Model PCB code Controller Model Controller PCB code Model / AU242AGEAA 0010452442E / AU282AHEAA AU28NAHEAA 0010452442E(2 PH) 0010452378E(3 PH) / AU362AIEAA AU36NAIEAA Controller Model PCB code Controller AU182AEEAA 0010451870E Model OUTDOOR UNIT PCB code Item AB482ACEAA 0010451167E 0010451255 AB602ACEAA 0010451167E 0010451255 0010451255 0010452478E AB362ACEAA 0010451255 0010451167E AB282ACEAA 0010451255 AB242ACEAA 0010451167E 0010451255 0010452478E AB182ACEAA cassette type 0010451521E AD242ALEAA 0010451167E 0010451521E 0010451167E AD182ALEAA ceiling concealed duct type high static pressure duct type 0010451521E 0010451167E 0010451521E 0010451167E 0010451167E AC362AFEAA 0010452300 0010451167E AC282AFEAA 0010451255 AC242ACEAA 0010451167E 0010451255 0010451167E AC182ACEAA cabinet type convertible type 0010452300 AP422ACEAA 0010451432 0010451255 AD482AMEAA AD482AHEAA AP482AKEAA AC482AFEAA 0010451167E 0010451167E 0010452322 0010451167E 0010451521E 0010451521E 0010451047 0010452300 AD602AHEAA AC602AFEAA 0010451167E 0010451167E 0010451521E 0010452300 0010451521E 0010451167E AD362AMEAA AD362AHEAA 0010451521E 0010451167E AD282AMEAA AD282AHEAA AD242AMEAA 0010451167E 0010451521E midium static pressure duct type INDOOR UNIT wall mounted type >a__WcU[S^ <[c >a`V[e[a`Wc -61- Model PCB code Controller Model PCB code Controller Model PCB code Controller 0010452929 AU182AFERA 0010452040 / AU242AGERA 0010452040 / AU362AHERA YR-H71 with haier logo 0010451255 YR-H49 with haier logo with elevating function, for 700*700 panel PB-700IA applicable unit single split fixed frequency&inverter AB24~28, R407C multi split 21~28, R22 multi split 21~42, R410A multi split 21, MRV 18~28 New design cassette unit single split fixed frequency AB36~60, R407C free multi 42, MRV 32~45 for 950*950 panel, universal for wired control type and infrared control type for 950*950 panel, universal for wired control type and infrared control type for 1340*1340 panel, universal for wired control type and infrared control type PB-950JA PB-1340IA multi split& MRV AB07~18 PB-950IA PB-700IB without elevating function, for 700*700 panel model function description panel model AC182ACERA AS182AVERA 0010451690E 0010452042E 0010451255 0010451047 AC242ACERA 0010451690E 0010451255 AC362AFERA 0010451690E 0010452300 single split fixed frequency&inverter AB09~18 AD182AMERA 0010451690E 0010451521E AD242ALERA AD242AMERA 0010451690E 0010451690E 0010451521E 0010451521E AD362AMERA AD362AHERA 0010451690E 0010451690E 0010451521E 0010451521E Panel types features: AB182ACERA 0010452325E 0010451255 AB242ACERA 0010451690E 0010451255 AB362ACERA 0010451690E 0010451255 0010451874 YR-H49 without haier logo 0010451047 0010451521E YR-E12 0010451451 YR-H71 without haier logo Controller 0010452300 YR-H50 Type Code For cassette type, duct type, convertible type, single split indoor units can use YR-E12 wired controller, or remote controller (YR-H71 is used for AC09-24, while YR-H50 is used for AC2860), for cabinet type and wall mounted type, the indoor units only can be controlled by remote controller. YR-E12 can be used as group controller, single split indoor units can be connected with central controller YCZ-A001 and weekly timer YCS-A001. Please see controller part to know operation and installation details. Controller functions 36 R410A DC 24 Inverter 18 >a__WcU[S^ <[c >a`V[e[a`Wc >a__WcU[S^ <[c >a`V[e[a`Wc 5. Refrigerant Diagram Fixed frequency units For AU182AEEAA main sub-capillary capillary cooling single check valve heating stop valve defrost temp. sensor condenser evaporator indoor coil temp. sensor maintenance valve suction temp. sensor discharging temp. sensor 4-way valve compressor 3-way stop valve For AU242AGEAA, AU282/28NAHEAA, AU362/36NAIEAA, AU42NALEAA, AU48N/60NAIEAA capillary cooling heating 3-way stop valve (liquid side) condenser evaporator 4-way valve defrost temp. sensor coil temp. sensor check valve 1 discharging temp. sensor muffle check valve 2 compressor air-liquid segregator heater 3-way stop valve (air side) 1. high pressure switch : 2. low pressure switch -62- >`^^WcU[S] <[c >`_V[e[`_Wc Inverter units 4 electrical expansion valve filter cooling 5 filter heating 3 3-way stop valve (liquid side) condenser 4-way valve defrost temp. sensor evaporator coil temp. sensor check valve suction temp. sensor discharging temp. sensor 1 check valve muffle 2 compressor air-liquid segregator 3-way stop valve (air side) 1. high pressure switch 2. low pressure switch 3. for AU182AFERA, is 2-way stop valve 4. for AU182AFERA, is main capillary 5. for AU182AFERA, is sub-capillary and single check valve for AU182AFERA, No. 1 and 2 are avaliable For AU362AHERA electrical expansion valve filter filter cooling defrost temp. sensor Te heating way stop valve (liquid side) condenser way valve check valve outdoor ambient temp. sensor Tao evaporator indoor coil temp. sensor Tc high pressure switch dischange suction temp. temp. sensor sensor Td Ts muffle low pressure switch oil return capillary compressor condenser air-inlet temp. sensor Tci air-liquid separator way stop valve (air side) -63- indoor ambient temp. sensor Tai >a__WcU[S^ <[c >a`V[e[a`Wc 6. Installation instruction 6.1 Cassette indoor unit (AB18-AB60) Eg fgl \YeY_] Yfq hYjlk g^ l`] Yaj [gf\alagf]j l`Yl [Yjjq j]^ja_]jYfl Zq ha]j[af_ gj h]j^gjYlaf_ l`] Yaj [gf\alagf]j+k lmZ]k oal` k`Yjh gj hgafl]\ al]ek0 [jmk`af_ gj loaklaf_ Yfq lmZ]k0 gj k[jYhaf_ l`] [gYlaf_k g^^ l`] kmj^Y[]k2 J^ l`] j]^ja_]jYfl khmjlk gml Yf\ _]lk aflg ]q]k0 al eYq j]kmdl af k]jagmk ]q] afbmja]k2 Eg fgl gZkljm[l gj [gn]j l`] n]fladYlagf _jadd] g^ l`] Yaj [gf\alagf]j2 Eg fgl hml ^af_]jk gj Yfq gl`]j l`af_k aflg l`] afd]l3gmld]l Yf\ koaf_ dgmn]j2 Eg fgl Yddgo [`ad\j]f lg hdYq oal` l`] Yaj [gf\alagf]j2 Jf fg [Yk] k`gmd\ [`ad\j]f Z] Yddgo]\ lg kal gf l`] gml\ggj mfal2 u}xwzyzwv*z|{~ T`] j]^ja_]jYlaf_ [aj[mal ak d]Yc1hjgg^2 5<9 ?67<=@9 =D 686BE=G9 =@ :A>>AH=@; D=EF6E=A@ 52 Bhhda[YZd] YeZa]fl l]eh]jYlmj] jYf_]> Ggj .2FBB > RYl]\ NYpaeme Nafaeme 6; 76 5< 5= 67 58 79 87 54 68 6: : 64 6; 59 5829 11 11 ; 68 1; : 5< 11 EC WC gml\ggj EC WC Jf\ggj EC I]Ylaf_ WC gml\ggj EC WC D D D D D D D D EC Jf\ggj WC Dggdaf_ gml\ggj EC WC Jf\ggj EC I]Ylaf_ WC EC gml\ggj WC RYl]\ NYpaeme Nafaeme 76 5< D 6; 67 58 D 5= D 79 87 19 D 68 6: 11 6; 59 D 64 11 11 D 5829 ; 68 1; D 5< 11 D : Dggdaf_ Jf\ggj Ggj .2FRB > 62 J^ l`] kmhhdq [gj\ ak \YeY_]\0 al emkl Z] j]hdY[]\ Zq l`] eYfm^Y[lmj]j gj alk k]jna[] Y_]flgj Y kaeadYj imYda^a]\ h]jkgf2 72 J^ l`] ^mk] gf QD ZgYj\ ak Zjgc]f hd]Yk] [`Yf_] al oal` l`] lqh] g^ T 7259B 3694VBD2 82 T`] oajaf_ e]l`g\ k`gmd\ Z] af daf] oal` / l`] dg[Yd oajaf_ klYf\Yj\2 92 T`] hgo]j [YZd] Yf\ [gff][laf_ [YZd] Yj] k]d^1hjgna\]\2 T`] j]imaj]e]fl g^ l`] hgo]j [YZd]> Ng\]d Qgo]j [YZd] Ggj k]ja]k 5<6 I49RO1G 7H 629ee6 Ggj k]ja]k 686 I49RO1G 7H 824ee6 Ggj k]ja]k 6<60 7:6 I49RO1G 7H :24ee6 Ggj k]ja]k 6<O0 7:O I4;RO1G 9H 629ee6 Ggj k]ja]k 8<O0 :4O I4;RO1G 9H 824ee6 T`] j]imaj]e]fl g^ l`] [gff][laf_ [YZd]> Ggj k]ja]k AB182ACEAA I49RO1G 7H 62 4ee6/I49RO1G 5p42;9ee6? Ggj gl`]j k]ja]k I49RO1G 8H 42;9ee62 Bdd l`] [YZd]k k`Ydd `Yn] _gl l`] Fmjgh]Yf Yml`]fla[Ylagf []jla^a[Yl]2 :2 T`] Zj]Yc]j g^ l`] Yaj [gf\alagf]j k`gmd\ Z] Ydd1hgd] koal[`? Yf\ l`] \aklYf[] Z]lo]]f alk log [gflY[lk k`gmd\ Z] fg d]kk 7ee2 Sm[` e]Yfk ^gj \ak[gff][lagf emkl Z] af[gjhgjYlagf af l`] ^ap]\ oajaf_2 ;2 T`] oYkl] ZYll]jq k`Ydd Z] \akhgk]\ hjgh]jdq2 <2 T`] af\ggj mfal afklYddYlagf `]a_`l ak Yl d]Ykl 629e2 =2 T`] Yaj Zj]Yc]j Yf\ l`] hgo]j koal[` k`gmd\ afklYdd]\ l`] [gfn]fa]fldq j]Y[`YZd] hd]Y[] ^gj mk]j2 -64- >a__WcU[S^ <[c >a`V[e[a`Wc Installation tools The installation tools listed in the following sheet can be used as required. 1. Screw driver 8. Knife 2. Hacksaw 9. Pincers / 3. Drill with a diameter of 60mm 4. Inner hexagon spanner,shifting 10. Leakage detector or soapy water 11. Band tape spanner 12. Scraper 5. Spanner (14, 17, 19,24,27mm) 13. Refrigerant oil 6. Pipe cutter 7. Pipe expander Selection of installation place (1) Installation place shall meet the following and agreed by customers: Place where proper air flow can be ensured. No block to air flow. Water drainage is smpoth. Place strong enough to support unit weight. Place where inclination is not evident on ceiling. Enough space for mainenance. Indoor and outdoor unit piping length is within limit. (Refer to Installation Manual for outdoor unit.) Indoor and outdoor unit, power cable, inter unit cable are at least 1 m away fromT.V. radop. This is helpful to avoid picture disturbance and noise. (Even if 1 m iskept, noise can still appear if radio wave is strong) (2) Ceiling height Indoor unit can be installed on ceiling of 2.5-3m in height. (Refer to Foeld setting and Installation Manual of ornament panel.) (3) Install suspending bolt. Check if the installation place is strong enough to hold weight. Take necessary measures in case it is not safe. (Distance between holes are marked on paper pattern. Refer to paper pattern for place need be reinforced) Installation space H 310 For series 182 Air outlet Air inlet 1500 Air outlet 1500 260 260 For series 242,282,362,482,602 Air inlet Air outlet 1500 Over -65- Air inlet 1500 Over >a__WcU[S^ <[c >a`V[e[a`Wc Preparation for the installtion 3 Suspending bolts Distance between suspending bolts 535mm Ceiling Ornament panel Indoor unit 570mm 60mm 150mm Overlap between ceiling and ornament panel shall be 25mm 320mm Ornament panel 700mm Indoor unit 570mm Ceiling opening 650mm (1) Position of ceiling opening between unit and suspending bolt. (For series 182) Ceiling opening 650mm Ornament panel 700mm For series 482,602 and AB362ACERA Suspending A (Distance between suspending 840(Indoor 860(Ceiling 78 (Distance between suspending 78 1280(Ceiling opening) 127 (Distance between suspending 51 (Distance between suspending 840(Indoor 890(Ceiling 950(Ornament and AB362ACEAA) 51 890(Ceiling 950(Ornament Suspending bracket (160) A Ceiling (2) Cut an opening in ceiling for installation if necessary. (when ceiling already exists.) Refer to paper pattern for dimension of ceiling hole. Connect all pipings (refrigerant, water drainage), wirings (inter unit cable) to indoor unit, before installation. Cut a hole in ceiling, may be a frame should be used to ensure a smooth surface and to prevent vibration. Contact your real estate dealer (3) Install a suspending bolt. (Use a M10 bolt) To support the unit weight, anchor bolt shall be used in the case of already exists ceiling. For new ceiling, use built-in type bolt or parts prepared in the field. Before going on installing adjust space between ceiling. 50~100 <Installation example> Roof Anchor bolt Long nut Suspending bolt Ceiling Note: All the above mentioned parts shall be prepared in field. -66- >a__WcU[S^ <[c >a`V[e[a`Wc 4Installation of indoor unit In the case of new ceiling (1) Install unit temporally Put suspending bracket on the suspending bolt. Be sure to use nut and washer at both ends of the bracket. (2) As for the dimensions of ceiling hole, see paper pattern. Ask your real estate dealer for details. Center of the hole is marked on the paper pattern. Center of the unit is marked on the card in the unit and on the paper pattern. Mount paper pattern 5 onto unit using 3 screws 6 . Fix the corner of the drain pan at piping outlet. < After installation on the ceiling > (3) Adjust unit to its right position. (Refer to preparation for the installation-(1)) (4) Check unit's horizontal level. Watert pump and flating switch is installed inside indoor unit, check four corners of the unit for its level using horizontal compartor or PVC tube with water. (If unit is tilting against the direction of water drainage, problem may occur on floating switch, causing water leakage.) (5) Remove the washer mounlting 2 , and tighten the nut above. (6) Remove the paper pattern. Nut (Prepare in feild) Washer (Prepared in feild) In the case of ceiling already exists (1) Install unit temporally Put suspending bracket on the suspending bolt. Be sure to use nut and washer at both ends of the bracket. Fix the bracket firmly. (2) Adjust the height and position of the unit. (Refer to preparation for the installation (1) ). (3) Proceed with 3 and 4 of "In the case of new ceiling". Suspending bolts Fasten (double nuts) Insert Washer fixing pad (prepared in feild) [ secure the washer firmly] Level Polythene pipe Screws at the piping outlet is fixed at the corner of drain pan. Center of ceiling hole Paper pattern Screw (accessory) [Fix the paper pattern] -67- Paper pattern 5 Screw (accessory) >a__WcU[S^ <[c >a`V[e[a`Wc Refrigerant piping (As for outdoor piping, please refer to installation Manual of outdoor unit.) Outdoor is precharged with refrigerant. Be sure to see the Fig.1, when connecting and removing piping from unit. For the size of the flare nut, please refer to Table 1. Apply refrigerant oil at both inside and outsid of lflare nut. Tighten it band tight 3-4 turns then tighten it. Use torque specified in Table 1. (Too much force may damage flare nut, causing gas leakage). Check piping joints for gas leakage. Insulate piping as shown in Fig. below. Cover joint of gas piping and insulator 7 with seal. Table 1 Pipe size Medium size seal pad 11 (accessory) (Cover the piping joint with seal pad.) Torque spanner 9.52 3270~3990N.cm 12.0~12.4 (333~407kgf.cm) 8 (accessory) Insulator (For liquid pipe) 7 Insulator (accessory) Gas pipe (For gas pipe) Liquid pipe Piping joing Flare nut Flare shape A(mm) . 6.35 1420~1720N cm 8.3~8.7 (144~176kgf.cm) Clamp 3 spanner Tighten torque 15.88 6180~7540N.cm 18.6~19.0 (630~770kgf.cm) 19.05 9720~11860N.cm 22.9~23.3 (990~1210kgf.cm) 90 0.5 45 2 A Apple refrigerant oil R0.4 ~ 0.8 Installation of water drainage pipe (1) Install water drainage pipe Pipe dia, shall be equal or larger than that of unit piping.(pipe of polyethylent; size: 25mm; O.D:32mm) Drain pipe should be short, with a downward slope at least 1/100 to prevent air bag from happening. If downward slope can't be made, take other measures to lift it up. Keep a distance of 1-1.5m between suspending brackets, to make water hose straight. 1-1.5m Slope over 1/100 Use the self-provided stiff pipe and clamp 1 with unit. Insert water pipe into water plug until it reaches the white tape. Tighten the clip until head of the screw is less than 4mm from hose. Wind the drain hose to the clip using seal pad 9 . Large size seal pad 10 Insulate drain hose in the room. (accessory) Clamp Clamp (accessory) Tape (White) Self-provided stiff pipe <Cautions for the drain water lifting pipe> Installation height shall be less than 280mm. There should be a right angle with unit, 300mm from unit. 500 below drain water lifting pipe Self-provided stiff pipe (accessory) 75 below Suspending bracket 500 below 1~1.5m 220 280 below 300mm below Drain hose (accessory) 4mm below Clamp (accessory) (Note) Over 100 The slope of water drain hose (1) shall be within 75mm, don't apply too much force on it. If several water hoses join together, do as per following proceedures. Connect water hoses with a T joint. Specifieations of the water hoses shall meet the requirements for the unit running. -68- >a__WcU[S^ <[c >a`V[e[a`Wc A_a bVaZVb 283 >YVT[ fYVcYVa Z^U__a d^Zc Zb Y_aZi_^cR\ fZcY \VeV\Va _a `_\hcYV^V `Z`V WZ\\VU fZcY fRcVa - R^U TYVT[ cYRc cYV UZ]V^bZ_^ _W cYV TVZ\Z^X _`V^Z^X Zb T_aaVTc/ MR[V _WW cYV \VeVa XRdXV SVW_aV Z^bcR\\ cYV _a^R]V^c `R^V\/ ARbcV^ cYV bTaVfb c_ ]R[V cYV YVZXYc UZWWVaV^TV SVcfVV^ cYV cf_ bZUVb _W Z^U__a d^Zc \Vbb cYR^ 6]]/ AZabc WZg Zc fZcY bTaVfb cV]`_aR\\h/ ARbcV^ cYV cf_ cV]`_aR\\h WZgZ^X bTaVfb R^U _cYVa cf_- R^U cZXYcV^ cYV W_da bTaVfb/ >_^^VTc cYV fZaVb _W bh^TYa_.]_c_a/ >_^^VTc cYV fZaV _W bZX^R\/ DW ^_ aVb`_^bV _W aV]_cV T_^ca_\\VaTYVT[ fYVcYVa cYV fZaZ^X Zb T_aaVTcaVbcRac aV]_cV T_^ca_\\Va 21 bVT_^Ub RWcVa bYdc _WW `_fVa bd``\h/ @\VTcaZT T_^ca_\ S_g A_a <=283<>@<< JIP@K LNJJFQ9 2JC-331.341Oj-61Ci DH?IIK NHDM M@KGDH<F =FI>E INM?IIK NHDM M@KGDH<F =FI>E 2 3 4 Q0B 2 3 4 Q0B F :FZ]Zcb _W `R^V\ S_RaU Z^bcR\\RcZ_^; D^bcR\\ cYV `R^V\ S_RaU Z^ cYV UZaVTcZ_^ bY_f^ Z^ cYV WZXdaV/ MYV Z^T_aaVTc UZaVTcZ_^ fZ\\ aVbd\c Z^ fRcVa \VR[RXV- ]VR^fYZ\V bfZ^X R^U bZX^R\ aVTVZeZ^X RaV UZb`\RhVU cYRc TR^^_c SV T_^^VTcVU/ -69- H >a__WcU[S^ <[c >a`V[e[a`Wc (2) Check if water drainage is smooth after installation. For series 242, 282, 362, 482, 602 Charge, through air outlet or inspecting hole, 1200ccd water to see water drainage. After wiring Check water drainage in cooling operation. When wiring is not complete Remove cover of control box, connect 1PH power to terminal 1 and 2 on terminal block.,use remote controller to operate the unit. Note, in this operation, fan will be running. Upon confirmation of a smooth water drainage, be sure to cut off power supply. 1 D Water drainage port for maintenance Maintenance 3 Self-provided stiff pipe Connect with outdoor unit 2 Method of water charging Terminal block Inspecting hole PCB on indoor unit (Drain water from this hole) Terminal block 100mm Watering can of plastic pipe should be about 100 mm long Charge water from inspecting hole Charge water from air outlet Cover of controll box +A_a bVaZVb 353- 383-473 R^U <=283<>@K< , DH?IIK NHDM M@KGDH<F =FI>E FH 2 3 4 2 3 4 Q0B Q0B [email protected] +A_a bVaZVb 473- 583- 713 , DH?IIK NHDM M@KGDH<F =FI>E INM?IIK NHDM M@KGDH<F =FI>E 2 3 4 KL M H 2 3 4 JIP@K LNJJFQ9 481.511O-4Hj-61Ci -70- Q0B Q0B >a__WcU[S^ <[c >a`V[e[a`Wc Wiring All supplied parts. materials and wiring operation must in appliance with local code and regulations. Use copper wire only. When make wiring, please refer to wiring diagram also. All wiring work must be done by qualified electricians. A circuit breaker must be installed, which can cut power supply to all system. See Installation Manual of outdoor unit for specifications of wires, circuit breaker, switches and wiring etc. Connecting of unit Remove cover of switch box (1) , drag wires into rubber tube A, then, after proper wiring with other wires, tighten clamp A. Connect wires of correct pole to the terminal block inside. Wind seal 12 around wires. (Be sure to do that, or, dew may occur). Upon connecting, replace control box cover (1) and (2). Terminal block Cover of control box(2) Grounding lead Rubber tube A Cover of control box(1) Fkj-p b]eh pk oa]h ep1 kn s]pan i]u _kia ej3 Sq^^an pq^a Okpa? J]ra ep oa]ha`1 ha]rejc jk ol]_a3 Ta]h l]` .oi]hh oeva ^_ / .Xej` ]nkqj` sena/ is jxw Cpp]_d oa]h l]` Heah` senejc Inatallation of ornament panel Cautions for the installation Be sure to show customers Operation Manual and guide them how to operate unit correctly. Before installation. read also the Installation Manual of indoor unit. Bar With this ornament , 2 or 3 air flow direction is not available. Suitable height is 3 m. Accessory Pad Fig. 1 Pad 1. Prepare ornament panel Handling of ornament panel Ornament panel shall not be placed face down or against wall, neither on an uneven object. Don' t bend carelessly the swing flap, or, problem may occur. (1) Remove air inlet grill from ornament panel * 1 Push in the bar on inlet grill and lift it up. (Refer to Fig. 1) 2 Lift it up for about 45 degree and remove it from ornament. Tear off adhesive tape fixing air filter on the back of the air inlet grill. (Refer to Fig. 2) (2) Remove cover plate at corner Tear off the adhesive tape, and slide it off. (Refer to Fig. 3) -71- Adbesive tape 45 Fig. 2 Slide Fig. 3 >a__WcU[S^ <[c >a`V[e[a`Wc 2. Mounting on high ceiling (1) Ornament panel can be mounted on ceiling as high as 3 m. (2) Please install pad as accessary. 1 Cut open the pad along cutting ling. Use part a only and discard part b . (Refer to Fig. 4) 2 Install part a of the pad on the place shown in Fig. 5. Refer to Fig. 6. Cutting line Leave no space Place it on the frame. a 50 b 100 Part a of the pad Fig. 4 Fig. 6 Part a of the pad Swing flap motor Side of ornament panel Fig. 5 (3)Wiring on ornament panel Connecting of wiring of the swing flap motor on ornament panel. (2 places) (Refer to Fit . 10) If connecting is not made, error code (A7) appears on remote controller. So, make proper connecting. Fig. 10 Side of indoor unit Wiring diagram 3. Install ornament panel on indoor unit. For indoor unit installation, please refer to Installation Manual. (1) As shown in Fig . 7, match the position of swing 1 Holding ring flap motor with that of the indoor unit piping hole , 2 Piping hole position so that ormament panel can be placed on to indoor unit. (2) Installation of ornament panel 1 Place the holding ring on swing flao motor side teporarily on hooks of the indoor unit. (2 pcs) 2 Put the other two holding rings on the hooks at both Swing flap motor side of the indoor unit. (Care should be taken not to 3 push wiring of swing flap motor into seals). 3 Screw in all 4 screws under holding ring for about 15mm. (Pancl will rise). 4 4 Adjust the ornament panel as per Fig. 7 to cover Fig. 7 opening on the ceiling. Seal Indoor unit 5 Tighten screws to redrce the thickness of seals between ornament and indoor unit to 5-8mm. Ceiling material Hook 2 5 _ 8mm If screws are not tighten tight, problems in Fig, 8 might occur. Tighten screws properly. Gas leakage. Gas leakage from roof. Contamination If there are still space after tightening of screws, please readjust the height of indoor unit. (Refer to Fig. 9) Mist exists and drop down. Fig. 8 Ornament panel Caution Leave no space. Fig. 9 -72- If indoor unit is at horizontal level and water drainage is smooth, then, indoor unit height can be adjusted throrgh holes at corners of ornament panel. >a__WcU[S^ <[c >a`V[e[a`Wc 4. Installation of inlet grill and cover plate (1) Installation of inlet grill Install in reversed order of "Prepare ornament pandl". Inlet grill can be adjusted into four directions by turning inlet grill. Inlet grill position can be adjusted as per customers request. When installing inlet grill, take care not to twist wiring of swing flap motor. (2) Install cover plate on the corner 1 As shown in Fig. 11 tie the 2 cover plate onto the bolt on ornament plate. Install cover plate onto ornament plate. (Refer to Fig. 12) Slide all five hold rings to let them drop in holes Fig. 11 on ornament plate, Fig. 12 Pay special care to the following and check after installation Item to the checked Unproper installation may cause Check Is indoor unit firmly installed? Unit might fall down, make vibration or noise. Is gas leakage check performed? This may lead to gas shortage. Is unit properly insulated? Dew or water drop may occur. Is water drainage smooth? Dew or water drop may occur. Is power voltage meet that stipulated on the nameplate? Problem may occur or parts got burned. Is wiring and piping correctly arranged? Problem may occur or parts got burned. Is unit safely grounded? There might be a danger of electric shock. Is wire size correct? Problem may occur or parts got burned. Are there any obstacles on air inlet and outlet grill of indoor and outdoor unit? This may cause poor cooling. Is record made for piping length and refrigerant charging amount? It is hard to control refrigerant charging amount. -73- >a__WcU[S^ <[c >a`V[e[a`Wc 6.2 Convertible indoor unit (AC18-AC24) Standard accessories: No. The following installation parts are furnished. Accessory parts Qty. Use them as required. 1 1 Remote controller 2 2 Battery 3 Wire clamp 4 Heat insulation sheathing 1+1 5 Screw 2+2 6 Screw cap 1+1 7 Remote controller bracket 1 4 Pipe connection requirement Please refer to the specification to confirm the stop valve diameter and the permitted pipe drop and pipe length. INSTALLATION PROCEDURE (Fig. 1) Install the room air conditioner as follows: PREPARING INDOOR UNIT INSTALLATION 1. REMOVE THE INTAKE GRILL Open the intake grill and remove the three or four or six screws.(Fig. 1) Machine screw Tapping screw Tapping screw Remark: The main unit can be wired before the indoor unit is installed. Select the most appropriate installation order. Intake grill A. FLOOR CONSOLE TYPE (Fig. 2) 1. DRILLING FOR PIPING rear Select piping and drain directions.(Fig.2) (Series14,18,24) The piping and drain can be made in three directions as shown below. right down (Fig.3) When the directions are selected, drill a 7 cm dia. hole on the wall so that the hole is tilted downward toward the outdoor for smooth water flow. When the pipe is led out from the rear, make a hole in Fig.6, at the position shown. Drain hose (Left side) Drain hose (Right side) -74- >a__WcU[S^ <[c >a`V[e[a`Wc (Fig. 4) (Fig. 5) 99cm 50cm Wall 24.5cm 6mm 10cm Wall bracket Side of set 6.5cm For series 14,18,24 when installing set to wall, install the accessory wall bracket at the position shown in Fig.5,and mount the set to it. 7cm hole 6.5cm 65.5cm outdoor unit 53cm 4.5cm Indoor unit 3.5cm hole 12.5cm 10cm 2. INSTALLING DRAIN HOSE drain hose with a nylon fastener. (Fig.6) (Fig. 6) (Fig. 7) Drain pan Drain pan Nylon fastener Drain hose Insulation (Drain hose) Drain hose Wrap the insulation (drain hose) around the drain hose connection.(Fig.7) Be sure to arrange the drain hose correctly so that it is leveled lower than the drain hose connecting port of the indoor unit. (Fig. 8) OK NO Arrange the drain hose lower than this portion. NO Drain hose Drain hose CAUTION Do not install the unit drain hose side is too high. Height A should be less than 5 mm.(Fig.9) (Fig. 9) Drain hose A A B. UNDER CEILING TYPE Using the installation template, drill holes for piping and anchor bolts(for holes).(Fig.10) (Fig. 10) 200mm 900mm Drilling position for anchor bolt Installation template Ceilling Wall Drilling position for piping For series 18,24 -75- >a__WcU[S^ <[c >a`V[e[a`Wc 1. DRILLING FOR PIPING Select piping and drain directions. (Fig.11) (Fig. 11) Rear (Install the drain hose in the direction.) Right CAUTION Install the drain hose at the rear; it should not be installed on the top or right side. 2. DRILLING HOLES FOR ANCHOR BOLTS AND INSTALLING THE ANCHOR BOLTS When the directions are selected, drill 80mm and 50mm or 150mm dia. hole on the wall so that the hole is tilted downward toward the outdoor for smooth water flow. (Fig. 12) Wall 6mm With a concrete drill, drill four 12.7 mm dia. Holes.(Fig.12) 60 to 70mm (Fig. 13) 12.7mm Insert the anchor bolts into the drilled holes, and drive the pins completely into the anchor bolts with a hammer. (Fig. 13) 3. INSTALLING BRACKETS Install the brackets with nuts, washers and spring washers.(Fig. 14) Bracket (Left) (Fig. 14) Bracket (Right) For series 14,18,24 381 26.5 2-R2.5 18 5 10 Bracket 16 21 28 4-R Special nut 68 7.5 Spring washer 26.5 232 10 5 4-R 2-R2.5 7.5 18 232 26.5 26.5 4. INSTALLING INDOOR UNIT Reset the hex bolts as shown in Fig.15. -76- 381 28 21 16 68 >a__WcU[S^ <[c >a`V[e[a`Wc (Fig. 15) Hex bolt Indoor unit 8 to 13mm (Fig. 16) Apply the indoor unit to the brackets.(Fig.16) Bolt Bracket Indoor unit Now, securely tighten the hex bolts in both sides. 5. INSTALL THE DRAIN HOSE Select whether the drain hose will be connected to the left or right side.(Fig.3) Insert the drain hose into the drain pan, then secure the drain hose with a nylon fastener.(Fig.6) Wrap the insulation (drain hose)around the drain hose connection.(Fig.7) Be sure to arrange the drain hose correctly so that it is leveled lower than the drain hose connecting port of the indoor unit.(Fig.8) (Fig. 17) Remove the hole cover. Arrange the drain hose lower than this portion Drain hose OK NO When drain hose is arranged backward. Secure the drain hose with the VT wire. (Fig. 18) (Fig. 18) Piping hole Base (Bottom) VT wire hole Intake grill Pass the drain hose through here For series 14,18,24 Cut the grill GAS LEAKAGE INSPECTION CAUTION After connecting the piping, check the joints for gas leakage with leakage detector. HOW TO CONNECT WIRING TO THE TERMINALS A. For solid core wiring (or F-cable)(Fig.19A) (1) Cut the wire with a wire cutter or wire-cutting pliers, then strip the insulation to about 25mm of the exposed solid wire. (2) Using a screwdriver, remove the terminal screw(s) on the terminal board. (3) Using pliers, bend the solid wire to form a loop suitable for the terminal screw. (4) Shape the loop wire properly, place it on the terminal board and tighten securely with the terminal screw using a screw driver. -77- >a__WcU[S^ <[c >a`V[e[a`Wc B. For strand wiring(Fig.19B) (1) Cut the wire with a wire cutter or wire-cutting pliers, then strip the insulation to about 10mm of the exposed strand wiring. (2) Using a screwdriver, remove the terminal screw(s)on the terminal board. (3) Using a round terminal fastener or pliers, securely clamp a round terminal to each stripped wire end. (4) Position the round terminal wire, and replace and tighten the terminal screw using a screw driver. Strip 25mm A. Solid wire B. Strand wire Loop Insulation Strip 10mm (Fig. 19) Screw with special washer Round terminal Terminal board Wire Round terminal Screw with special washer Round terminal Wire HOW TO FIXED CONNECTION CORD AND POWER CABLE AT THE CORD CLAMP After passing the connection cord and power cable through the insulation tube, fasten it with the cord clamp, as shown in Fig.20 (Fig. 20) Insulation tube Cord clamp Use VW-1, 0.5 to 1.0 mm thick, PVC tube as the insulation tube. ELECTRICAL WIRING CAUTION (1) Match the terminal block numbers and connection cord colors with those of the outdoor unit. Erroneous wiring may cause burning of the electric parts. (2) Connect the connection cords firmly to the terminal block. Imperfect installation may cause a fire. (3) Always fasten the outside covering of the connection cord with the cord clamp. (If the insulator is chafed, electric leakage may occur.) (4) Always connect the ground wire. -78- >a__WcU[S^ <[c >a`V[e[a`Wc ELECTRICAL REQUIREMENT Electric wire size and fuse capacity: Type (3) Remove the electric component box cover. Fig. 24 For series 182 For series 242 Connection cord (mm2) 0.75 0.75 Power supply 2.5 4.0 Fuse capacity(A) 30 40 cord (mm2) Base Electric component box cover 1. INDOOR UNIT SIDE Remove the three tapping screws. (1) Remove the electric component box. CAUTION Fig. 21 Be careful not to pinch the lead wires between the electric component box and base. Electric component box Fig. 22 Electric component box (4) Wiring (1) Remove the cord clamp. (2) Process the end of the connection cords to the dimensions shown in Fig.34. (3) Connect the end of the connection cord fully into the terminal block. (4) Fasten the connection cord with a cord clamp. (5) Fasten the end of the connection cord with the screw. Remove the four tapping screws. <>283<>@<< CAUTION Do not remove the screws. If the screws are removed, the electric component box will fall. J_fVa bd``\h9 2JC- 331.341Oj- 61Ci DH?IIK NHDM M@KGDH<F =FI>E INM?IIK NHDM M@KGDH<F =FI>E (2) Pull out the electric component box. Fig.23 Q0B 2 3 4 H F 2 3 4 Q0B <>283<>@K< <>353<>@<< <>353<>@K< J_fVa bd``\h9 2JC- 331.341Oj- 61Ci DH?IIK NHDM M@KGDH<F =FI>E Electric component box INM?IIK NHDM M@KGDH<F =FI>E -79- Q0B 2 3 4 H F 2 3 4 Q0B F H Q0B >a__WcU[S^ <[c >a`V[e[a`Wc ELECTRICAL WIRING (2) Air filter removal and cleaning, and how to use air louvers. (3) Give the operating and installation manuals to the customer. WARNING (1) Always use a special branch circuit and install a special receptacle to supply power to the room air conditioner. MOUNT THE COVER PLATE AND THE INTAKE GRILL (2) Use a circuit breaker and receptacle matched to the capacity of the room air conditioner. (3) The circuit breaker is installed in the permanent wiring. Always use a circuit that can trip all the poles of the wiring and has an isolation distance of at least 3mm between the contacts of each pole. 1.Mount the cover plate. (Right) (1) Cut a pipe exit hole in the right plate. This is only when the pipe exits from the right side. (This operation is not required when the protrusion is on the top or rear.) (4) Perform wiring work in accordance with standards so that the room air conditioner can be operated safely and positively. (5) Install a leakage circuit breaker in accordance with the related laws and regulations and electric company standards. Fig. 25 Cover plate (Right) CAUTION (1) The power source capacity must be the sum of the room air conditioner current and the current of other electrical appliances. When the current contracted capacity is insufficient, change the contracted capacity. (2) Join the cover plates (right) and mount with screws. Fig. 26 (2) When the voltage is too low and the air conditioner is difficult to start, contact the power company the voltage raised. TEST RUNNING 1. CHECK ITEMS (1) INDOOR UNIT (1) Is operation of each button on the remote control unit normal? (2) Does each lamp light normally? (3) Do not air flow direction louvers operate normally? (4) Is the drain normal? 2. Mount the cover plate.(Left) (1) Join the cover plate (left) and mount with screws. Fig. 27 (2) OUTDOOR UNIT (1) Is there any abnormal noise and vibration during operation? (2) Will noise, wind, or drain water from the unit disturb the neighbors? (3) Is there any gas leakage? CUSTOMER GUIDANCE Explain the following to the customer in accordance with the operating manual: (1) Starting and stopping method, operation switching, temperature adjustment, timer, air flow switching, and other remote control unit operations. -80- >a__WcU[S^ <[c >a`V[e[a`Wc 6.3 Convertible indoor unit (AC28-AC60) Please ask the dealer or specialist to install, never try by the users themselves. After the installation please be sure of the following conditions. WARNING ! Please call dealer to install the air-conditioner. Incorrect installation may cause water leaking, shock and fire hazard. CAUTION ! Air-conditioner can't be installed in the envi-ronment with inflammable gases because the inflammable gases near to air-conditioner may cause fire hazard. Installed electrical-leaking circuit breaker. It easily cause electrical shock without circuit breaker. Connect earthing wire. Earthing wire should not be connected to the gas pipe, water pipe, lightning rod or phone line, incorrect earthing may cause Earthing Use discharge pipe correctly to ensure efficient discharge. Incorrect pipe use may cause water leaking. [Location] Air-conditioner should be located in well-vented and easily-accessible place. Air-conditioner should not be located in the following places: (a) Places with machine oils or other oil vapours. (b) Seaside with high salt content in the air. (c) Near to hot spring with high content of sulfide gases. (d) Area with frequent fluctuation of voltage e.g. factory, etc. (e) In vehicles or ships. (f) Kitchen with heavy oil vapour or humidity. (g) Near to the machine emitting electricmagnetic waves. (h) Places with acid, alkali vapuor. TV, radio, acoustic appliances etc are at least supply wire, connecting wire, pipes, otherwise images may be disturbed or noises be created. As required, take measures against heavy snow. [Wiring] Air-conditioner should be equipped with special power supply wire. [Operating noise] Choose the following locations: (a) Capable of supporting air-conditioner weight,don't increase operating noise and vibration. (b) Hot vapour from outdoor unit outlet and operating noise don't disturb neighbour. No obstacles around the outdoor unit outlet. For authorized service personnel only WARNING (1) For the room air conditioner to operate satisfactorily, install it as outlined in this installation manual. (2) Connect the indoor unit and outdoor unit with the room air conditioner piping and cords available from our standard parts. This in stallation manual describes for the correct connections so that the installation set available from our standard parts should be used. (3) Installation work must be performed in accordance with national wiring standardsby authorized personnel only. (4) Never cut the power cord, lengthen or shorten the cord, or change the plug. -81- >a__WcU[S^ <[c >a`V[e[a`Wc (5) Also, do not use an extension cord. (6) Plug in the power cord plug firmly. If the receptacle is loose, repair it before using the air conditioner. (7) Do not turn on the power until all installation work is done. Be careful not to scratch the room air conditioner when handing it. After installation, explain correct operation to the customer, according to the operating manual. Let the customer keep this installation manual because it will be used when the room air conditioner is serviced or moved. SELECTING THE MOUNTING POSITION WARNING Install at a place that can withstand the weight of the indoor units and install positively so that the units will not topple or fall. CAUTION Do not install where there is the danger of combustible gas leakage. Do not install near heat sources. If children under 10 years old may approach the unit, take preventive measures so that they cannot reach the unit. (1) Install the indoor unit level on a strong wall which is not subject to vibration. (2) The inlet and outlet ports should not be obstructed : the air should be able to blow all over the room. (3) Do not install the unit where it will be exposed to direct sunlight , (4) Install the unit where connection to the outdoor unit is easy. (5) Install the unit where the drain pipe can be easily installed. (6) Take servicing , etc.into consideration and leave the spaces shown in (Fig.1 or 2) . Also install the unit where the filter can be removed . For mounted on the ceiling: Fig. 1 Ceiling INDOOR UNIT 3"(80mm) over 6"(150mm) over 0.4"(10mm) over For half concealed installation: Ceiling panel Fig. 2 INDOOR UNIT 3"(80mm) over 6"(150mm) over -82- >a__WcU[S^ <[c >a`V[e[a`Wc Ceiling panel 0.4"(10mm) over ACCESSORIES Optional parts Standard accessories: Accessory parts No. 1 Remote controller Battery 2 Qty. 4 1+1 5 Screw 2+2 Screw cap Adhesive tape 4 Heat insulation sheathing 7 A 2 Wire clamp Drain hose Parts name 1 3 6 Remarks Ceiling panel Mark B Saddle (L.S) with screws C Drain hose D Heat insulation material E Piping hole cover F Putty G Plastic clamp 1 1+1 8 Flat washer 8 9 Remote controller bracket 1 CONNECTION PIPE REQUIREMENT Table 1 Model Diameter Liquid side Gas side Maximum length Maximum height (between indoor and outdoor) For series 362, 482 9.52 mm 19.05mm 50 m 30 m 9.52 mm 15.88mm 30 m 20 m 602 For series 282 INSTALLATION PROCEDURE Install the room air conditioner as follows: 1) REMOVE THE INTAKE GRILL AND SIDE COVER (1) Remove the two Air filters (2) Remove the two intake grilles (3) Remove the Side cover A (Right and left side) (4) This air conditioner can be set up to intake fresh air . For information about how to install for fresh-air intake, refer to page 22 "FRESH-AIR INTAKE". -83- Air filter Intake grille Side cover A (Left side) Side cover A (Right side) >a__WcU[S^ <[c >a`V[e[a`Wc 2) LOCATION OF CEILING SUSPENSION BOLTS Fig. 3 30mm 30mm Dimensions (Space Required for installation) Suspension bolt pitch 1530mm 10mm 155mm INDOOR UNIT (TOP VIEW) Suspension bolt should extend outward 30 to 50mm. 300mm For half-concealed installation Supension-bolt pitch should be as shown in Fig.4. Fig. 4 40mm 40mm Ceiling Opening:1530mm Ceiling panel Ceiling Opening:640mm Suspension bolt should extend outward 30 to 50mm. 15mm Ceiling panel DRILLING THE HOLES AND ATTACHING THE SUAPENSION BOLTS (1) Drill 25mm-diameter holes at the suspension-bolt locations. (The two special nuts are provided with the unit. The M10 nut must be obtained locally.) Refer to Fig.5. (2) Install the bolts, then temporarily attach Special nuts A and B and a normal M10 nut to each bolt. Fig. 5 Bolt Strength 980 to 1470 N (100 TO 150 kgf) Special nut A (included) Ceiling panel 10 to 15 mm Special nut B (included) M10 nut (Obtained locally) IF USING ANCHOR BOLTS (1) Drill holes for anchor bolts at the locations at which you will set the suspension bolts.Note that anchor bolts (to be obtained locally). (2) Install the anchor bolts ,then temporarily attach special nut "B" (included) and a locally-procurde M10 nut to each of the bolts. (See Fig.6.) Anchor-Bolt Strength 980 to 1470 N (100 TO 150 kgf) 10 to 15 mm Fig. 6 M10 Nut (Obtaied locally) -84- Special nut B (included) M10 Nut (Obtaied locally) >a__WcU[S^ <[c >a`V[e[a`Wc INSTALLING THE INDOOR UNIT (1) Lift unit so that suspension bolts pass through suspension fittings at the sides (four places),and slide the unit back.(See Fig.8.) Fig. 7 Fig. 8 Ceiling Ceiling panel Wall Wall (2) Fasten the indoor unit into place by tightening-up the special "B",blots and the M10 nuts. Make sure that unit is secure and willl not shift back and forth. FOR HALF-CONCESLED INSTALLATION When installing the indoor unit in a semi-concesled orientation, make sure to reinforce the insulation of the unit on all sides. Drops of water may fall from the unit if it is not thoroughly insulated. Fig. 9 Glass wool insulate (10 to 20mm thick ) INDOOR UNIT (Top view) Wall Ceiling pannel CAUTION In order to check the drainage, be sure to use a level during installation of the indoor unit. If the installation site of the indoor unit is not level, water leskage may occur INSTALLING THE COUPLER HEAT INSULATION After checking for gas leaks, insulate by wrapping insulation around the two parts (large and small) of the indoor unit coupling, using the coupler hest insulation. After installling the coupler heat insulation, wrap both ends with vinyl tape so that there is no gap. Secure both ends of the heat insulation material using nylon fasteners. -85- >a__WcU[S^ <[c >a`V[e[a`Wc Coupler heat insulation(large) Fig. 10 Coupler pipe (large) Indoor unit Coupler pipe (small) Coupler heat insulation(small) Nylon fastner (large) No gap Indoor unit Coupler heat insulation Nylon fastner (small) When using an auxiliary pipe, make sure that the fastener used is insulated in the sane way. DRAIN PIPING Install the drain pipe with downward gradient (1/50 to 1/100) and so there are no rises or traps in the pipe. Use general hard polyvinyl chloride pipe (VP25)[outside diameter 38 mm.] During installation of the drain pipe,be careful to avoid applying pressure to the drain point of the unit. When the pipe is long,install supporters(Fig 11). Do not perform air bleeding. Always heat insulate (8mm or over thick) the indoor side of the drain pipe. Fig. 11 GOOD BAD BAD Bracket 5 to 6.5 ft (1.5 to 2m) -86- >a__WcU[S^ <[c >a`V[e[a`Wc (1) Install insulation for the drain pipe.(See Fig.12 and 13) Cut the included insulation material to an appropriate size and adhere it to the pipe. Fig. 12 Drain pipe Insulation for Drain pipe (To be obtained locally.Length shoud be at least 8mm) Indoor unit(drain port) Drain pipe insulation Fig. 13 Drain pipe insulation Indoor unit Drain pipe No gap 10mm or over (2) If "Right rear piping ":fasten the drain pipe with VT wires so that the pipe slopes correctly within the indoor unit. Fig. 14 VT wire Drain hose Indoor unit (rear view) ELECTRICAL WIRING HOW TO CONNECT WIRING TO THE TERMINALS A.For solid core wiring (or F-cable) (1)Cut the wire and with a wire cutter or wire-cutting pliers,then strip the insulation to about 15/16"(25mm) of expose the solid wire. (2)Using a screwdriver ,remove the terminal screw(s) on the terminal board. (3)Using pliers,bend the solid wire to form a loop suitable for the terminal screw. B.For strand wiring (1)Cut the wire and with a wire cutter or wire-cutting pliers,then strip the insulation to about 3/8"(10mm) of expose the solid wire. (2)Using a screwdriver ,remove the terminal screw(s) on the terminal board. -87- >a__WcU[S^ <[c >a`V[e[a`Wc B. Strand wire Strip 15/16"(25mm) A. Solid wire Strip 15/16"(25mm) Fig. 15 Loop Insulation Screw with special washer Screw with special washer Round terminal Round terminal Terminal block Wire Round terminal Wire HOW TO FIX CONNECTION CORD AND POWER CABLE AT THE CORD CLAMP After passing the connection cord and power cable through the insulation tube, fasten it with the cord clamp, as shown in Fig.16 ELECTRICAL REQUIREMENT Electric wire size and fuse capacity: Fig. 16 Insulation tube Cord clamp Use VW-1, 0.5 to 1.0 mm thick, PVC tube as the insulation tube. CAUTION (1) Match the terminal block numbers and connection cord colors with those of the outdoor unit. Erroneous wiring may cause burning of the electric parts. (2) Connect the connection cords firmly to the terminal block. Imperfect installation may cause a fire. (3) Always fasten the outside covering of the connection cord with the cord clamp. (If the insulator is chafed, electric leakage may occur.) (4) Always connect the ground wire. -88- >a__WcU[S^ <[c >a`V[e[a`Wc FRESH-AIR INTAKE (1)Take away the knockout hole for the fresh-air intake,as shown in Fig.17.(If using half-concealed installation ,take down the top knockout hole instead) Fig. 17 For half-concealed CAUTION (1)When removing the cabinet(iron plate),be careful not to damage the indoor unit internal parts and surrounding area(outer case). (2)When processing the cabinet(iron plate),be careful not to injury yourself with burrs,etc. (2)Fasten the round flange (optional) to the fresh air intake,as shown in Fig.18.(If using half-concealed installation, attach to the top.) Fig. 18 Round duct (option parts) [After completing "INDOOR UNIT INSTALLATION"....] (3)Connect the duct to the round flange. (4)Seal with a band and vinyl tape,etc.so that air does not leak from the connection. Fig. 19 Duct CONNECTION CORDS (1) Remove the cord clamp. (2) Put the end of the connection cords to the positions shown in Fig.20. (3) Connect the end of the connection cord fully into the terminal block. (4) Fasten the connection cord with a cord clamp. (5) Fasten the end of the connection cord with the screw. (6) For series 28,36,42,52, the power cable and connecting cable are self-provided. -89- >a__WcU[S^ <[c >a`V[e[a`Wc Fig. 20 For three phase (380-400V, 3N~, 50Hz),outdoor unit. INDOOR UNIT TERMINAL BLOCK OUTDOOR UNIT TERMINAL BLOCK Y/G 1 2 3 R S TN 1 2 3 Y/G POWER SUPPLY: 380-400V, 3N~,50Hz For single phase (1PH, 220-230V~, 50Hz),outdoor unit. INDOOR UNIT TERMINAL BLOCK OUTDOOR UNIT TERMINAL BLOCK LN 1 2 3 Y/G 1 2 3 Y/G POWER SUPPLY: 1PH,220-230V~,50Hz -90- >a__WcU[S^ <[c >a`V[e[a`Wc 6.4 Ceiling concealed duct indoor unit (AD18-AD24) 9KOP?II?PGLK OM?AC T`] af\ggj mfal k`Ydd Z] afklYdd]\ Yl dg[Ylagfk o`]j] [gd\ Yf\ `gl Yaj [gmd\ ]n]fdq [aj[mdYl]\4 T`] ^gddgoaf_ dg[Ylagfk k`gmd\ Z] Ynga\]\@ PdY[]k oal` ja[` kYdl /k]Yka\] Yj]Y04 PdY[]k oal` hd]flq g^ _Yk kmd^a\]k /eYafdq af oYje khjaf_ Yj]Yk o`]j] l`] [ghh]j lmZ] Yf\ ZjYr] o]d\ ak ]Ykq lg [gjjgkagf04 Lg[Ylagfk oal` em[` gad /af[dm\af_ e][`Yfa[Yd gad0 Yf\ kl]Ye4 Lg[Ylagfk mkaf_ gj_Yfa[ kgdn]flk4 PdY[]k o`]j] l`]j] Yj] eY[`af]k _]f]jYlaf_ HF ]d][ljgeY_f]la[ oYn]k4 Pgkalagfk Y\bY[]fl lg \ggj gj oaf\go af [gflY[l oal` `a_`3`mea\alq ]pl]jfYd Yaj4 /EYkq lg _]f]jYl] \]o04 Lg[Ylagfk ^j]im]fldq mkaf_ kh][aYd Y]jgkgdk4 <FC DLIILRGKE MLGKPO OFLQIB @C P?HCK A?NC LD1 74 S]d][l kmalYZd] hdY[]k l`] gmld]l Yaj [Yf Z] k]fl lg l`] ]flaj] jgge2 Yf\ [gfn]fa]fl lg dYq gml l`] [gff][lagf hah]2 [gff][lagf oaj] Yf\ l`] \jYafY_] hah] lg gml\ggj4 84 T`] []adaf_ kljm[lmj] emkl Z] kljgf_ ]fgm_` lg kmhhgjl l`] mfal o]a_`l4 94 T`] [gff][laf_ hah]2 \jYaf hah] Yf\ [gff][lagf oaj] Fa_ 7 k`Ydd Z] YZd] lg _g l`gm_` l`] Zmad\af_ oYdd lg [gff][l Z]lo]]f l`] af\ggj Yf\ gml\ggj mfalk4 :4 T`] [gff][laf_ hah] Z]lo]]f l`] af\ggj Yf\ gml\ggj mfalk Yk o]dd Yk l`] \jYaf hah] k`Ydd Z] Yk k`gjl Yk hgkkaZd]4 /S]] Fa_mj] 70 ;4 I^ alk f][]kkYjq lg Y\bmkl l`] ^addaf_ Yegmfl g^ l`] j]^ja_]jYfl2 hd]Yk] j]^]j lg l`] afklYddYlagf eYfmYd YllY[`]\ oal` l`] gml\ggj mfal4 <4 T`] [gff][laf_ ^dYf_] k`gmd\ Z] hjgna\]\ Zq l`] mk]j `aek]d^4 =4 T`] af\ggj mfal `Yk log oYl]j gmld]lk gf] g^ o`a[` ak gZkljm[l]\ Yl l`] ^Y[lgjq /oal` Y jmZZ]j [Yh04 Ofdq l`] gmld]l fgl gZkljm[l]\ /daima\ afd]l Yf\ gmld]l ka\]0 oadd Z] _]f]jYddq mk]\ \mjaf_ afklYddYlagf4 I^ Yhhda[YZd]2 Zgl` l`] gmld]lk k`gmd\ Z] mk]\ lg_]l`]j4 Ngl]@ T`] Y[[]kk `gd] emkl Z] hjgna\]\ \mjaf_ afklYddYlagf g^ af\ggj mfal ^gj eYafl]fYf[]4 2DPCN OCICAPGKE PFC GKOP?II?PGLK OM?AC| MNLACCB PFC DLIILRGKE OPCMO1 74 Djadd Y `gd] af l`] oYdd Yf\ afk]jl l`] [gff][laf_ hah] Yf\ oaj] l`jgm_` Y PVC oYdd3 l`jgm_` lmZ] hmj[`Yk]\ dg[Yddq4 T`] oYdd `gd] k`Ydd Z] oal` Y gmloYj\ \gof kdgh] g^ Yl d]Ykl 757664 /S]] Fa_mj] 80 84 B]^gj] \jaddaf_ [`][c l`Yl l`]j] ak fg hah] gj j]af^gj[af_ ZYj bmkl Z]`af\ l`] \jaddaf_ hgkalagf4 Djaddaf_ k`Ydd Ynga\ Yl hgkalagfk oal` ]d][lja[ oaj] gj hah]4 94 Mgmfl l`] mfal gf Y kljgf_ Yf\ `gjargflYd Zmad\af_ jgg^4 I^ l`] ZYk] ak fgl ^aje2 al oadd [Ymk] fgak]2 naZjYlagf gj d]YcY_]4 Fa_ 8 :4 Smhhgjl l`] mfal ^ajedq4 ;4 C`Yf_] l`] ^gje g^ l`] [gff][lagf hah]2 [gff][lagf oaj] Yf\ \jYaf hah] kg l`Yl l`]q [Yf _g l`jgm_` l`] oYdd `gd] ]Ykadq4 EY[` g^ l`] Yaj k]f\af_ \m[l Yf\ Yaj j]lmjf \m[l k`Ydd Z] ^ap]\ gf l`] hj]^YZja[Yl]\ hYf]d g^ l`] ^dggj Zq l`] ajgf ZjY[c]l4 T`] j][gee]f\]\ \aklYf[] Z]lo]]f l`] ]\_] g^ l`] Yaj j]lmjf \m[l Yf\ l`] oYdd ak gn]j 7;6ee4 T`] _jY\a]fl g^ l`] [gf\]fkYl] oYl]j hah] k`Ydd c]]h gn]j 7.4 T`] [gf\]fkYl] oYl]j hah] k`Ydd Z] l`]jeYd afkmdYl]\4 W`]f afklYddaf_ l`] []adaf_ Cgf[]Yd]\ lqh] af\ggj mfal2 l`] Yaj j]lmjf \m[l emkl Z] \]ka_f]\ Yf\ afklYdd]\ /Yk ^a_mj] k`gof04 -91- >a__WcU[S^ <[c >a`V[e[a`Wc Bmad\af_ jgg^ g^ afklYddYlagf Yaj j]lmjf Zgp Aaj gmld]l _jadd] 746e /mk] o`al] eglgj hdm_0 ;46e/mk] j]\ eglgj hdm_0 Aaj kmhhdq + []adaf_ mfal Yaj j]lmjf Zgp Yaj j]lmjf Yaj kmhhdq T`]j] k`gmd\ Z] fg gZklY[d]k oal`af 7e mfal Yaj j]lmjf Ngl]@ W`]f [gff][laf_ l`] k`gjl \m[lk2 mk] l`] dgo klYla[ l]jeafYdk2 o`a[` [gdgj ak o`al]4 T`] \aklYf[] L ^jge l`] Yaj gmld]l g^ l`] \m[l lg l`] Yaj gmld]l g^ l`] kaj [gf\alagf]j k`Ydd Z] fg egj] l`Yf 7 e4 Smkh]f\af_ `ggc DjYaf hah] Aaj gml \m[l Aaj j]lmjf \m[l Aaj j]lmjf Zdaf\ TjYfkalagf \m[l Aaj \akljaZmlYjq Ta]3af g^ Yaj \akljaZmlYjq T`] kc]l[` eYh g^ dgf_ \m[l Ngl]@ W`]f [gff][laf_ l`] dgf_ \m[lk2 mk] l`] ea\\d] klYla[ l]jeafYdk2 o`a[` [gdgj ak j]\4 T`] \aklYf[] L ^jge l`] Yaj gmld]l g^ l`] \m[l lg l`] Yaj gmld]l g^ l`] kaj [gf\alagf]j k`Yd Z] fg egj] l`Yf ; e4 M> oa\] ]phYfkagf Zgdl M> kmkh]f\]j k[j]o Aaj [gf\alagf]j M> oa\] dg[c oYk`]j M> k[j]o fml IfklYddYlagf g^ af\ggj mfal \m[l 74 IfklYddYlagf g^ Yaj k]f\af_ \m[l T`ak mfal mk]k jgmf\]\ \m[l2 l`] \aYe]l]j g^ l`] \m[l ak 7>6ee4 T`] jgmf\ \m[l f]]\k lg Y\\ Y ljYfkalagf \m[l lg [gff][l oal` l`] Yaj3k]f\af_ \m[l g^ af\ggj mfal2l`]f [gff][l oal` j]kh][lan] k]hYjYlgj4 Ak Fa_4 7 k`gof2 Ydd l`] ^Yf kh]]\ g^ Yfq g^ l`] k]hYjYlgjvk Yaj gmld]l k`Ydd Z] Y\bmkl]\ YhhjgpaeYl]dq l`] kYe] lg e]]l l`] j]imaj]e]fl ^gj l`] jgge Yaj [gf\alagf]j4 If\ggj mfal ^d]paZd] bgafl TjYfkalagf \m[l Rgmf\]\ \m[l Ta]3af g^ Yaj \akljaZmlYjq Aaj \akljaZmlYjq Fa_4 7 Ufal@ ee 84 IfklYddYlagf g^ Yaj j]lmjf \m[l Uk] jan]l lg [gff][l l`] Yaj j]lmjf \m[l gf l`] Yaj j]lmjf afd]l g^ l`] af\ggj mfal2 l`]f [gff][l l`] gl`]j ]f\ oal` l`] Yaj j]lmjf Zdaf\4 Ak Fa_4 8 k`gof4 -92- >a__WcU[S^ <[c >a`V[e[a`Wc Aaj j]lmjf Zdaf\ Aaj j]lmjf \m[l If\ggj mfal jan]l Fa_4 8 9 T`]jeYd afkmdYlagf g^ \m[l Aaj3k]f\af_ \m[l Yf\ Yaj j]lmjf \m[l k`Ydd Z] l`]jeYddq afkmdYl]\4 Fajkl kla[c l`] _dm]q fYad gf l`] \m[l2 l`]f YllY[` l`] `]Yl hj]k]jnYlagf [gllgf oal` Y dYq]j g^ laf^gad hYh]j Yf\ mk] l`] _dm]q fYad [Yh lg ^ap4 FafYddq mk] l`] laf^gad Y\`]kan] lYh] lg k]Yd l`] [gff][l]\ hYjl4 Ak Fa_4 9 k`gof4 _dm]q _dm]q `]Yl hj]k]jnYlagf laf^gad fYad [Yh [gllgf fYad Y\`]kan] lYh] Fa_4 9 IfklYddaf_ l`] kmkh]fkagf k[j]o@ Uk] M> gj M76 kmkh]fkagf k[j]ok /:2hj]hYj]\ af l`] ^a]d\0/o`]f l`] kmkh]fkagf k[j]o`]a_`l ]p[]]\k 64?e2 M76 kar] ak l`] gfdq [`ga[]04T`]k] k[j]ok k`Ydd Z] afklYdd]\ Yk ^gddgok oal` khY[] Y\Yhlaf_ lg Yaj [gf\alagf]j gn]jYdd \ae]fkagfk Y[[gj\af_ lg l`] gja_afYd Zmad\af_ kljm[lmj]k4 Wgg\]f kljm[lmj] A kimYj] ogg\ k`Ydd Z] kmhhgjl]\ Zq l`] Z]Yek Yf\ l`]f k]l l`] kmkh]fkagf k[j]ok4 B]Ye SimYj] ogg\ N]o [gf[j]l] kdYZ Tg k]l oal` ]eZ]\\]\ hYjlk2^gmf\Ylagf Zgdlk ]l[4 Smkh]fkagf k[j]o Ijgf j]af^gj[]e]fl Fgmf\Ylagf Zgdl Kfa^] ]eZ]\\]\ hYjl Gma\] hdYl] ]eZ]\\]\ hYjl Pah] kmkh]fkagf ^gmf\Ylagf Zgdl Oja_afYd [gf[j]l] kdY\ HYf_af_ Zgdl Uk] `gd] `af_]2`gd] hdmf_]j gj `gd] Zgdl4 Sl]]d j]af^gj[]e]fl kljm[lmj] Uk] kl]]d Yf_d] gj f]o kmhhgjl kl]]d Yf_d] \aj][ldq4 Smkh]fkagf k[j]o HYf_af_ g^ l`] af\ggj mfal Smhhgjl kl]]d Yf_d] FYkl]f l`] fml gf l`] kmkh]fkagf k[j]o Yf\ l`]f `Yf_ l`] kmkh]fkagf k[j]o af l`] T kdgl g^ l`] kmkh]fkagf hYjl g^ l`] mfal4 Aa\]\ oal` Y d]n]d e]l]j2Y\bmkl d]n]d g^ l`] mfal oal`af ;ee4 x 4?QPGLK If gj\]j lg \jYaf oYl]j fgjeYddq2 l`] \jYaf hah] k`Ydd Z] hjg[]kk]\ Yk kh][a^a]\ af l`] afklYddYlagf eYfmYd Yf\ k`Ydd Z] `]Yl afkmdYl]\ lg Ynga\ \]o _]f]jYlagf4 Iehjgh]j `gk] [gff][lagf eYq [Ymk] af\ggj oYl]j d]YcY_]4 -93- >a__WcU[S^ <[c >a`V[e[a`Wc Pipe material and size Pipe material Phosphorus deoxidized copper seamless Type pipe (TP2M) for air conditioner For series 182 Pipe size (mm) Gas side Liquid side 12.70 For series 242 Pipe size (mm) Gas side Liquid side 15.88 9.52 6.35 Supplementary refrigerant The refrigerant supplementation shall be as specified in the installation instructions attached with the outdoor unit. The adding procedure shall be aided with a measuring meter for a specified amount of supplemented refrigerant. Requirement Overfilling or underfilling of refrigerant will cause compressor fault. The amount of the added refrigerant shall be as specified in the instructions. Connection of refrigerant pipe Conduct flared connection work to connect all refrigerant pipes. The connection of indoor unit pipes must use double spanners. The installing torque shall be as given in the following table. Wall thicknessof connection pipe * 0.8mm Connecting pipe Installing torque O.D.(mm) (N-m) 6.35 11.8 (1.2kgf-m) 9.52 24.5 (2.5 kgf-m) 12.70 49.0 (5.0 kgf-m) 15.88 78.4 (8.0 kgf-m) Double-spanner operation Vacuum pumping With a vacuum pump,create vacuum from the stop valve of the outdoor unit. Emptying with refrigerant sealed in the outdoor unit is absolutely forbidden. Open all valves Open all the valves on the outdoor unit. Gas leakage detection Check with a leakage detector or soap water that if there is gas leakage at the pipe connections and bonnets. Insulation treatment Conduct insulation treatment on both the gas side and liquid side of pipes respectively During cooling operation,both the liquid and gas sides are cold and thus shall be insulated so as to avoid dew generation. The insulating material at gas side shall be resistant to a temperature above 120 C The indoor unit pipe connection part shall be insulated. -94- >a__WcU[S^ <[c >a`V[e[a`Wc The notch upward(Attached detail view) . Field piping side Indoor unit Subsidiary insulation tube Electric wiring WARNING DANGER OF BODILY INJURY OR DEATH TURN OFF ELECTRIC POWER AT CIRCUIT BREAKER OR POWER SOURCE BEFORE MAKING ANY ELECTRIC CONNECTIONS. GROUND CONNECTIONS MUST BE COMPLETED BEFORE MAKING LINE VOLTAGE CONNECTIONS. (1) Selection of size of power supply and interconnecting Precautions for Electric wiring Electric wiring work should be conducted only by authorized personnel. Do not connect more than three wires to the terminal block. Always use round type crimped terminal lugs with insulated grip on the ends of the wires. Use copper conductor only. Select wire sizes and circuit protection from table below. (This table shows 20 m length wires with less than 2% voltage drop.) Circuit breaker Phase Switch breaker (A) Item Earth leakage breaker Power source wire Leak Switch size curren break Overcurrent protector For series 182 1 40 26 2.5mm2 40A 30mA For series 242 1 40 26 4.0mm2 40A 30mA (2) Wiring connection Make wiring to supply power to the outdoor unit, so that the power for the indoor unit is supplied by terminals. <?353<F@K< <?353<F@<< DH?IIK NHDM M@KGDH<F =FI>E INM?IIK NHDM M@KGDH<F =FI>E 2 3 4 Q0B 2 3 4 Q0B F H JIP@K LNJJFQ9 2JC- 331.341Oj- 61Ci <?283<F@<< INM?IIK NHDM M@KGDH<F =FI>E DH?IIK NHDM M@KGDH<F =FI>E 2 3 4 2 3 4 Q0B H F JIP@K LNJJFQ9 2JC- 331.341Oj- 61Ci -95- Q0B >a__WcU[S^ <[c >a`V[e[a`Wc 6.5 Med ESP duct indoor unit (AD18-AD48) Safety precautions of indoor unit Please read these "Safety Precautions" firstly when performing the installation work. Though the precautionary points indicated herein are divided under two headings, those points which are related to the strong possibility of an installation done in error resulting in death or serious injury CAUTION are listed in the section. However, there is also a possibility of serious consequences WARNING in relationship to the points listed in the section as well. In either case, important safety related information is indicated, so by all means, properly observe all that is mentioned. After completing the installation, along with confirming that no abnormalities were seen from the operation tests, please explain operating methods as well as maintenance methods to the user (customer) of this equipment, based on the owner's manual. Moreover, ask the customer to keep this sheet together with the owner's manual. WARNING This system should be applied to places as office, restaurant, residence and the like. Application to inferior environment such as engineering shop could cause equipment malfunction. Please entrust installation to either the company which sold you the equipment or to a professional contractor. Defects from improper installations can be the cause of water leakage, electric shocks and fires. Execute the installation accurately, based on following the installation manual. Again, improper installations can result in water leakage, electric shocks and fires. When a large air-conditioning system is installed to a small room, it is necessary to have a prior planned countermeasure for the rare case of a refrigerant leakage, to prevent the exceeding of threshold concentration. In regards to preparing this countermeasure, consult with the company from which you perchased the equipment, and make the installation accordingly. In the rare event that a refrigerant leakage and exceeding of threshold concentration does occur, there is the danger of a resultant oxygen deficiency accident. For installation, confirm that the installation site can sufficiently support heavy weight. When strength is insufficient, injury can result from a falling of the unit. Execute the prescribed installation construction to prepare for earthquakes and the strong winds of typhoons and hurricanes, etc. Improper installations can result in accidents due to a violent falling over of the unit. For electrical work, please see that a licensed electrician executes the work while following the safety standards related to electrical equipment, and local regulations as well as the installation instructions, and that only exclusive use circuits are used. Insufficient power source circuit capacity and defective installation execution can be the cause of electric shocks and fires. Accurately connect wiring using the proper cable, and insure that the external force of the cable is not conducted to the terminal connection part, through properly securing it. Improper connection or securing can result in heat generation or fire. Take care that wiring does not rise upward, and accurately install the lid/service panel. Its improper installation can also result in heat generation or fire. When setting up or moving the location of the air conditioner, do not mix air etc. or anything other than the designated refrigerant (R407C) within the refrigeration cycle. Rupture and injury caused by abnormal high pressure can result from such mixing. Always use accessory parts and authorized parts for installation construction. Using parts not authorized by this company can result in water leakage, electric shock, fire and refrigerant leakage. CAUTION Execute proper grounding. Do not connect the ground wire to a gas pipe, water pipe, lightning rod or a telephone ground wire. Improper placement of ground wires can result in electric shock. The installation of an earth leakage breaker is necessary depending on the established location of the unit. Not installing an earth leakage breaker may result in electric shock. Do not install the unit where there is a concern about leakage of combustible gas. The rare event of leaked gas collecting around the unit could result in an outbreak of fire. For the drain pipe, follow the installation manual to insure that it allows proper drainage and thermally insulate it to prevent condensation. Inadequate plumbing can result in water leakage and water damage to interior items. -96- >a__WcU[S^ <[c >a`V[e[a`Wc NOTICE All Wiring of this installation must comply with NATIONAL, STATE AND LOCAL REGULATIONS. These instructions do not cover all variations for every kind of installation circumstance. Should further WARNING BE SURE TO READ THESE INSTRUCTIONS CAREFULLY BEFORE BEGINNING INSTALLATION. FAI-LURE TO FOLLOW THESE INSTRUCTIONS COULD CAUSE SERIOUS INJURY OR DEATH, EQUIPMENT (1) Preparation of indoor Before or during the installation of the unit, assemble necessary optional panel etc. depending on the specific type. (2) Select places for installation satisfying following conditions and at the same time obtain the consent on the part of your client user. (a) Places where chilled or heated air circulates freely. When the installation height exceeds 3m warmed air stays close to the ceiling. In such cases, suggest your client users to install air circulators. (b) Places where perfect drainage can be prepared and sufficient drainage. (c) Places free from air disturbances to the suction port and blowout hole of the indoor unit, places where the fire alarm may not malfunction or short-circuit. (d) Places with the environmental dew-point temperature is lower than 28 C and the relative humidity is less than 80 %. (When installing at a place under a high humidity environment, pay sufficient attention to the prevention of dewing such as thermal insulation of the unit. ) (e) Ceiling height shall have the following height. Installation space 1000 or more 100 or more Combination with silent panel 416mm 100 or more 50 or more Obstacle Unit: mm (3) Avoid installation and use at those places (a) Places exposed to oil splashes or steam (e.g. kitchens and machine plants). Installation and use at such places incur deteriorations in the performance or corrosion with the heat exchanger or damage in molded synthetic resin parts. (b) Places where corrosive gas (such as sulfurous acid gas) or inflammable gas (thinner, gasoline,etc) in generated or remains. Installation and use at such places cause corrosion in the heat exchanger and damage in molded synthetic resin parts. (c) Places adjacent to equipment generating electromagnetic waves or high-frequency waves such as in hospitals. Generated noise may cause malfunctioning of the controller. B (Ceiling hole size) C (Panel dimensions) -97- 137 30 (Ceiling ~ panel wrap dimensions) 750 (Panel dimensions) 690 (Ceiling hole size) 30 A (Hanging bolt position) (Ceiling ~ panel wrap dimensions) 70 545 75 57 (Hanging bolt position) (Pipe connection side) (4) Preparation for suspending the (a) Size of hole at ceiling and position of <Combination with silent panel> >a__WcU[S^ <[c >a`V[e[a`Wc Dimensions A B C 1406 1600 1660 (b) Hanger bolts installation Use care of the piping direction when the unit is installed. Insert Hole-in anchor Hole-in plug Concrete Hanging bolt M10 Hanging bolt M10 nut M10 washer (5) Installation of indoor unit Fix the indoor unit to the hanger bolts. M10 spring washer Main unit Note When the dimensions of main unit and ceiling holes does not match, it can be adjusted with the slot holes of hanging bracket. Adjusting to the levelness Piping side (a) Adjust the out-of levelness using a level or by the following Supply water method. Water level Make adjustment so that the relation between the lower surface PVC hose of the unit proper and water level in the hose becomes as given 0~5 mm (0~0.2") below. Bring the piping side slightly lower. (b) Unless the adjustment to the levelness is made properly, malfunctioning or failure of the float switch may occur. Tap selection on blower (When the high performance filter is used.) Taps of blower unit are set at the standard selection at the shipping from factory. Where the static pressure is raised by employing such option as the high performance filter, etc., change the connection of connectors provided at the flank of control box as shown below. Red Yellow Red Black White Red Yellow Blue Blue Red Moter side Red White Connector white Yellow Blue High speed tap Moter side Blue White White White Connector white Control box side Standard tap (at shipping) (6) Drain (a) Drain piping should always be in a downhill grade (1/50~1/100) and avoid riding across an elevation Good piping Inproper piping Suspension 1.5m ~ 2m bolts Avoid riding across an elevation Air vent Keep free from traps Do not pipe under water A downhill grade Heat insulation of 1/100 or more -98- >a__WcU[S^ <[c >a`V[e[a`Wc (b) When connecting the drain pipe to unit, pay suffcient attention not to apply excess force to the piping on the unit side. Also, fix the piping at a point as close as possible to the unit. Stage difference Drain hose Drain socket part Drain socket (c) For drain pipe, use hard PVC general purpose pipe VP-25(I.D.1") which can be purchased locally. When connecting, insert a PVC Main unit pipe end securely into the drain socket before tightening securely using the attached drain hose and clamp. Adhesive must not be used connection of the drain socket and drain hose (accessory). VP 25 joint Pipe cover(large) (field purchased) [for insulation] (accessory) Drain hose Clamp (accessory) (accessory) Adhesion Pipe cover(small) [for insulation] (accessory) VP 25 (field purchased) Pipe cover [for insulation] (field purchased) (d) When constructing drain piping for several units, position the Secure the elevation as high as possible (approx. 100 mm) A downhill grade of 1/100 or more 290~325mm 600 Drain hose (Maximum local drain up dimension) common pipe about 100 mm below the drain outlet of each unit as shown in the sketch. Use VP-30(11/4") or thicker pipe for this purpose. (e) Be sure to provide heat insulation to hard PVC pipes of indoor placement. (f) Do not ever provide an air vent. (g) The height of the drain head can be elevated up to a point 500 mm above the ceiling, and when an obstacle exists in the ceiling space, elevate the piping to avoid the obstacle using an elbow or corresponding gadget. When doing this, if the stretch for the needed height is higher than 500 mm, the back-flow quantity of drain at the event of interruption of the operation gets too much and it may cause overflow at the drain pan. Therefore, make the height of the drain pipe within the distance given in the sketch below. (h) Avoid positioning the drain piping outlet at a place where generation of odor may be stimulated. Do not lead the drain piping direct into a sewer from where sulfur gas may generate. VP 30 Right overhead Joint for VP 25 (Local procurement) Drainage 1 2 3 4 Conduct a drainage test after completion of the electrical work. During the trial, make sure that drain flows properly through the piping and that no water leaks from connections. In case of a new building, conduct the test before it is furnished with the ceiling. Be sure to conduct this test even when the unit is installed in the heating season. Procedures 1 2 Supply about 1000 cc of water to the unit through the air outlet using a feed water pump. Check the drain while cooling operation. Pour water into a convex joint. Insert water supply hose for 20 mm ~ 30 mm to supply water. (Insert hose facing toward bottom.) (In the electrical work has not been completed, connect a convex joint in the drain pipe connection to provide a water inlet. Then, check if water leaks from the piping system and that drain flows through the drain pipe normally.) Attached drain hose clamp Remove grommet. Make sure to install it back after test. Main unit Drain piping Drain situation can be checked with transparent socket -99- >a__WcU[S^ <[c >a`V[e[a`Wc (7) Installation work for air outlet ducts Air conditioner main unit Heat insulation Ceiling surface inlet duct (optional or marketat item) Suction panel (Silent panel) B Special blowout A Blowout duct C special inlet (option) (Optional or marketed item) (with air filter) (Option) Hole for check Calculate the draft and external static pressure and select the length, shape and blowout. A Blowout duct 2-spot, 3-spot and 4-spot with 200 type duct are the standard specifications. Determine the number of spots based on following table. Note (1) Shield the central blowout hole for 2-spot. (2) Shield the blowout hole around the center for 3-spot. Limit the difference in length between spots at less than 2:1. Reduce the length of duct as much as possible. Reduce the number of bends as much as possible. (Corner R should be as larger as possible.) Bad example Bad example Good example Use a band. etc. to connect the main unit and the blowout duct flange. Conduct the duct installation work before finishing the ceiling. (8) Connection of suction, exhaust ducts State seeing from top of unit Exhaust hole Side fresh air inlet Rear fresh air inlet Fig.2 Fig.1 (a) Duct connection position i) Fresh air inlet Inlet can be selected from the side or rear faces depending on the working conditions. Use the rear fresh air inlet when the simultaneous intake and exhaust is conducted. (Side inlet cannot be used.) ii) Exhaust (Make sure to use also the suction.) Use the side exhaust port. Electric wiring WARNING DANGER OF BODILY INJURY OR DEATH TURN OFF ELECTRIC POWER AT CIRCUIT BREAKER OR POWER SOURCE BEFORE MAKING ANY ELECTRIC CONNECTIONS. GROUND CONNECTIONS MUST BE COMPLETED BEFORE MAKING LINE VOLTAGE CONNECTIONS. (1) Selection of size of power supply and interconnecting Precautions for Electric wiring Electric wiring work should be conducted only by authorized personnel. Do not connect more than three wires to the terminal block. Always use round type crimped terminal lugs with insulated grip on the ends of the wires. Use copper conductor only. -100- >a__WcU[S^ <[c >a`V[e[a`Wc Select wire sizes and circuit protection from table below. (This table shows 20 m length wires with less than 2% voltage drop.) Power Earth leakage breaker Circuit breaker Item source wire Leak Switch Overcurrent Phase Switch breaker size Model current(mA) breaker(A) protector (A) (minimum) For series 182 1 40 26 2.5 40 30 For series 242 1 40 26 4.0 40 30 For series 282 362 1 40 26 6.0 40 30 For series 282 362 482 3 30 20 2.5 30 30 (2) Wiring connection Make wiring to supply power to the indoor unit, so that the power for the outdoor unit is supplied by terminals. For AD182AMEAA POWERSUPPLY:1PH, 220-230V~, 50Hz INDOOR UNIT TERMINAL BLOCK 1 2 3 N L OUTDOOR UNIT TERMINAL BLOCK 1 2 3 Y/G Y/G Make wiring to supply power to the outdoor unit, so that the power for the indoor unit is supplied by terminals. For series 242 282 362 and AD182AMERA For series 282 362 422 482 INDOOR UNIT TERMINAL BLOCK OUTDOOR UNIT TERMINAL BLOCK LN 1 2 3 1 2 3 Y/G Y/G INDOOR UNIT TERMINAL BLOCK OUTDOOR UNIT TERMINAL BLOCK 1 2 3 R S TN 1 2 3 POWER SUPPLY:380-400V, 3N~, 50Hz POWERSUPPLY:1PH, 220-230V~, 50Hz -101- Y/G Y/G >a__WcU[S^ <[c >a`V[e[a`Wc 6.6 High ESP duct indoor unit (AD28-AD60) 1. Before installation [Before finishing installation, do not throw the attached parts installation needs] Confirm the way to move the unit to the installation place. Before moving the unit to the installation place, do not remove their packages. When have to remove the package, use a soft material or protection board with rope to lift the unit assembly to avoid unit damage or bumping a scrape. 2. Choose installation place (1) The chosen installation place should meet the following requirements and get the users consent. Place ensures ideal airflow distribution. The passage of airflow has no obstacles. When importing outside air, it should be imported directly from outdoors. (if the pipe can not be extended, it also can not be imported from top) Place ensures enough space for maintenance. The pipe length between indoor and outdoor unit is in the permitted limit (referring to outdoor unit installation part). The indoor unit, outdoor unit, electric wire and connection wire is at least 1m away from television and radio. This is to avoid the image disturbance and noise caused by the above-mentioned home appliance. (Even if 1m away, if the electromagnetic wave is too strong, it can also cause noise.) (2) The height of ceiling The indoor unit can install on the ceiling, which height is no more than 3m. (3) Install and use the hoisting screw. Check if the installation place can bear the weight of unit assembly. If not certain, strengthen it before install the unit. Over 300 Air out Over 900 Checking meatus (600x600) Over 200 Over 100 Air in Ceiling 3. Preparation before installation (1) The position relation among hoisting screw (unit: mm) 360 890 600 794 250 Down side Up side 360 250 AD282AHEAA AD362AHEAA 750 1270 853 794 AD362AHERA AD482AHEAA AD602AHEAA Down side Up side 1103 -102- >a__WcU[S^ <[c >a`V[e[a`Wc (2) If necessary, cut the opening installation and checking needed on the ceiling. (If has ceiling) Before installation, finish the preparation work of all the pipes (refrigerant, drainage) and wire (wire controller connection wire, indoor and outdoor unit connection wire) of indoor unit, so that after installation, they can be immediately connected with outdoor unit. Cut the opening on the ceiling. Maybe it needs to strengthen the ceiling to keep the ceiling even and flat and prevent the ceiling from vibration. For details, please consult to the builder. (3) Hanger bolts installation Use care of the piping direction when the unit is installed. (Use M10 screw bolt) In order to bear the weight of the unit, for existed ceiling, using foundation screw bolt, for new ceiling, using burying embedded screw bolt, burying screw bolt or spot supplied other parts. Before going on installation, adjust the gaps with ceiling. 4. Installation of indoor unit Fix the indoor unit to the hanger bolts. If required, it is possible to suspend the unit to the beam, etc. Directly by use of the bolts without using the hanger bolts. Insert Hole-in anchor Hole-in plug Concrete Hanging bolt M10 Hanging bolt M10 nut M10 washer M10 spring washer Main unit Note When the dimensions of main unit and ceiling holes does not match, it can be adjusted with the slot holes of hanging bracket. Adjusting to the levelness (a) Adjust the out-of levelness using a level or by the following method. Make adjustment so that the relation between the lower surface of the unit proper and water level in the hose becomes as given below. Piping side Supply water Water level 0~5 mm (0~0.2") PVC hose Bring the piping side slightly lower. (b) Unless the adjustment to the levelness is made properly, malfunctioning or failure of the float switch may occur. 5. Drain Piping (a) Drain piping should always be in a downhill grade (1/50~1/100) and avoid riding across an elevation or making traps. Good piping Inproper piping Suspension 1.5m ~ 2m bolts Avoid riding across an elevation Keep free from traps Air vent Do not pipe under water A downhill grade Heat insulation of 1/100 or more (b) When connecting the drain pipe to unit, pay suffcient attention not to apply excess force to the piping on the unit side. Also, fix the piping at a point as close as possible to the unit. (c) For drain pipe, use hard PVC general purpose pipe VP-25(I.D.1") which can be purchased locally. When connecting, insert a PVC pipe end securely into the drain socket before tightening securely using the attached drain hose and clamp. Adhesive must not be used connection of the drain socket and drain hose (accessory). Stage difference Drain hose Drain socket part Drain socket VP 25 joint Pipe cover(large) (field purchased) [for insulation] (accessory) Main unit Drain hose Clamp (accessory) (accessory) Adhesion Pipe cover(small) [for insulation] (accessory) -103- VP 25 (field purchased) Pipe cover [for insulation] (field purchased) >a__WcU[S^ <[c >a`V[e[a`Wc (d) When constructing drain piping for several units, position the common pipe about 100 mm below the drain outlet of each unit as shown in the sketch. Use VP-30(11/4") or thicker pipe for this purpose. (e) The stiff PVC pipe put indoor side should be heat insulated. Secure the elevation as high as possible (approx. 100 mm) A downhill grade of 1/100 or more VP 30 H2 H1 (f) Avoid putting the outlet of drain hose in the places with irritant gas generated. Do not insert the drain hose directly into drainage, where the gas with sulfur may be generated. (g) Backwater bend Because the drain spout is at the position, which negative pressure may occur. So with the rise of water level in the drain pan, water leakage may occur. In order to prevent water leakage, we designed a backwater bend. The structure of backwater bend should be able to be cleaned. As the below figure shown, use T type joint. The backwater bend is set near the air conditioner. As figure shown, set a backwater bend in the middle of drain hose. H1=100mm or the static pressure of air sending motor H2=1/2H1 (or between 50~100mm) Drainage Test 1 2 3 4 Conduct a drainage test after completion of the electrical work. During the trial, make sure that drain flows properly through the piping and that no water leaks from connections. In case of a new building, conduct the test before it is furnished with the ceiling. Be sure to conduct this test even when the unit is installed in the heating season. Procedures 1 2 Supply about 1000 cc of water to the unit through the air outlet using a feed water pump. Check the drain while cooling operation. 6. Installation of air suction and discharging duct muffler cavity (air sending) Enlarging chart of profile chart A Vibration resistance hook Sacking joint Insulation A Air outlet Air volume adjuster Air conditioner main unit Ceiling Air suction grille with air filter Checking meatus Please consult the after-sales service worker of Haier Air Conditioner for the choosing and installation of suction inlet, suction duct, discharging outlet and discharging duct. Calculating the design drawing and outer static pressure, and choose the discharging duct with proper length and shape. The length difference among every duct is limited below 2:1. Reduce the length of duct as possible as can. Reduce the amount of bend as possible as can. Use heat insulation material to bind and seal the part connecting main unit and the flare part of air discharging duct. Perform duct installation work, before the ceiling fit. Bad example Bad example Good example -104- >a__WcU[S^ <[c >a`V[e[a`Wc 7. Calculation method of the dimension of the simple quadrate air duct Presuming the unit length friction impedance of the duct is 1Pa/m, when the dimension of one side of the air duct is fixed as 250mm, as shown below: AD362AHEAA AD482AHEAA AD602AHEAA Air conditioner A AD282AHEAA Air volume Duct(mmxmm) Air volume Duct(mmxmm) B 2400m3/h A (40m 3 /min) 600m3/h B (10m 3 /min) A Static pressure box Equipped with air filter (bought) A 250x560 250x190 1200m3/h (20m3/min) 300m3/h (5m3/min) 250x310 250x120 The calculation of duct resistance (the simple calculation is as follow table) Straight part Calculate as per 1m length 1Pa, 1Pa/m Bend part Each bend takes as a3~4m long straight duct Air out part Calculate as 25Pa Static pressure box Calculate as 50Pa/each Air inlet grille (with air filter) Calculate as 40Pa/each The chosen chart of simple duct Note:1Pa/m=0.1mmAg/m Shape Item Air volume 3 3 m /h(m /n) 100 200 300 400 500 600(10) 800 1,000 1,200(20) 1,400 1,600 Square duct Shape Dimension Item Air volume (mmxmm) m /h(m /n) 250 250 250 250 250 250 250 250 250 250 250 x x x x x x x x x x x 60 90 120 140 170 190 230 270 310 350 390 3 3 1,800(30) 2000 2400 3,000(50) 3,500 4,000 4,500 5,000 5,500 6,000(100) Square duct Dimension (mmxmm) 250 250 250 250 250 250 250 250 250 250 x 430 x 470 x 560 x 650 x 740 x 830 x 920 x 1000 x 1090 x 1180 8. The attentive matters in installation of air suction and discharging duct Recommend to use anti-frost and sound-absorbing duct. (locally bought) The duct installation work should be finished before the fitment of ceiling. The duct must be heat insulated. The specific air-discharging outlet should be installed at the place where the airflow can be reasonably distributed. The surface should leave a checking meatus for checking and maintenance. Special air discharging outlet Use screw bolt to fix Duct Air Air 9. The examples of improper installation Do not use air in duct and take the ceiling inner side instead. The result is because of the irregular outer air mass, strong wind and sunshine, the humidity is increased. There may be water drop on the outside of duct. For cement and other new constructions, even if not taking ceiling inner side as duct, the humidity will also be so high. At this time, use glass fiber to perform heat preservation to the whole. (use iron net to bind the glass fiber) Maybe exceeding the unit operation limit (for example: when indoor dry bulb temperature is 35degree, web bulb temperature is 24degree), it may lead to overload of compressor. Affected by the capacity of air discharging fan, the strong wind in the outer duct and wind direction, when unit air sending volume exceeds the limit, the discharged water of heat exchanger will overflow, leading to water leakage. -105- >a__WcU[S^ <[c >a`V[e[a`Wc Air discharging fan Improper example 10. The operation method of fan controller Through the fan controller switch in the electric box, the air volume of this unit can be continuously adjusted. It is unnecessary to adjust air volume through the duct side wind level (unit outside static adjustment). The air volume set should be in the operation air volume range. Figure I shows the position of fan controller in the electric box and operation method. After finishing the electric work, perform test run. According to the main points in Figure II making the chosen switch No. accordant. And confirm if it reaches the needed air volume. Note: 1) When operating the fan controller, it is possible to touch the electric charging part, so do cut off the power supply. 2) Do not set the dial at the position less than 1. 3) The figure circled in Figure II indicate the capacity number of fan controller. The non-listed capacity number may exceed the permitted operation capacity range, so it is impossible to operate. 4) When delivering from factory, the capacity number of fan controller is set at No.5. Rotate this switch 200 * Outer static pressure Pa * Once the fan controller has trouble, this linker can perform emergency assistant control. When this linker is connected to the linker from the PCB, it can operate with total load. When this linker is connected to the linker from the PCB, through the fan speed adjustment panel to adjust speed. Condition of standard air volume (air volume 100Pa) High Low (capacity number setting: No. 1 ~ No. 8) * * * Example of duct * * * 150 * * * * 100 * 50 0 26 Lower limit Figure 1 * 30 34 35 40 43 Upper limit Standard air volume(m3/min) Figure 2 The example of the method of choosing capacity number: 1) If the unit is in high-speed operation, needing take outer static pressure is 180Pa in capacity air volume 34m3/min as working condition point, according to Figure II The characteristic chart of air volume, the capacity number of fan controller is No. 2. 2) If the unit is in low speed operation, needing take outer static pressure is 60Pa in capacity air volume 32m3/min as working condition point, according to Figure II The characteristic chart of air volume, the capacity number of fan controller is No. 4. 11. Refrigerant pipe [The air side pipe, liquid side pipe must be faithfully heat insulated, if no heat insulation, it may cause water leakage.] The outdoor unit has been charged with refrigerant. -106- >a__WcU[S^ <[c >a`V[e[a`Wc When connect the pipe to the unit or dismantling the pipe from the unit, please follow the figure shown, use spanner and torque spanner together. When connect cone nut, the inner side and outside of cone nut should paste with refrigerant oil. Use hand to twist 3-4 rings, then fasten with spanner. Referring to Table I to confirm the fasten torque. (too tight may damage nut leading to leakage) Check if the connection pipe leaks, then do heat insulation treatment, as below figure shown. Only use seal cushion to bind the joint part of air pipe and heat insulation parts. Middle size seal cushion (accessory) (Use seal cushion to bind the pipe joint) Paste the refrigerant oil here Torque spanner Clamp Heat insulation (accessory) (for liquid pipe) Heat insulation (accessory) (for gas pipe) Gas pipe Liquid pipe Spanner Pipe joint Cone nut Liquid pipe 80 510 Gas pipe Electric box Upper 310 Air inlet Specification of pipe Tighten torque (mm) 9.52 3270~3990 N.cm (333~407 kgf.cm) 530 Down side 30 Drain hose connection hole VP25 PVC pipe Cone dimension A (mm) 12.0~12.4 Air outlet Cone 45 2 R0.4~0.8 90 0.5 A 15.88 6180~7540 N.cm (630~770 kgf.cm) 18.6~19.0 19.05 9720~11860 N.cm (990~1210 kgf.cm) 22.9~23.3 5. Electric wiring WARNING DANGER OF BODILY INJURY OR DEATH TURN OFF ELECTRIC POWER AT CIRCUIT BREAKER OR POWER SOURCE BEFORE MAKING ANY ELECTRIC CONNECTIONS. GROUND CONNECTIONS MUST BE COMPLETED BEFORE MAKING LINE VOLTAGE CONNECTIONS. (1) Selection of size of power supply and interconnecting wires. Precautions for Electric wiring Electric wiring work should be conducted only by authorized personnel. Do not connect more than three wires to the terminal block. Always use round type crimped terminal lugs with insulated grip on the ends of the wires. Use copper conductor only. Select wire sizes and circuit protection from table below. (This table shows 20 m length wires with less than 2% voltage drop.) -107- >a__WcU[S^ <[c >a`V[e[a`Wc PhaseSwitch breaker (A) Model Power source Earth leakage breaker wire size Leak Switch (minimum) breaker(A) current(mA) 2 (mm ) Circuit breaker Item Overcurrent protector AD282AHEAA AD362AHEAA 3 30 20 2.5 30 30 AD482AHEAA AD602AHEAA 3 30 20 4.0 30 30 1 40 30 6.0 40 30 AD282AHEAA AD362AHEAA (2) Wiring connection Make wiring to supply power to the outdoor unit, so that the power for the indoor unit is supplied by terminals. Y/G INDOOR UNIT TERMINAL BLOCK AD282AHEAA AD362AHEAA AD362AHERA OUTDOOR UNIT TERMINAL BLOCK LN 1 2 3 1 2 3 Y/G POWER SUPPLY: 1PH,220-230V~,50Hz INDOOR UNIT TERMINAL BLOCK AD282AHEAA AD362AHEAA AD482AHEAA AD602AHEAA OUTDOOR UNIT TERMINAL BLOCK 1 2 3 R S T N 1 2 3 POWER SUPPLY: 380-400V, 3N~,50Hz -108- Y/G Y/G >a__WcU[S^ <[c >a`V[e[a`Wc 6.7 Cabinet indoor unit (AP42-AP60) A\fc_Tl bY j[b_X ha\g Oel gb Ue\aZ g[X cTV^XW ha\g gb g[X \afgT__Tg\ba c_TVX1 R[Xa \g \f aXVXffTel gb hacTV^ g[X ha\g/ UX VTeXYh_ abg gb WT`TZX g[X ha\g1 ReTc \g j\g[ al_ba XgV1 >YgXe hacTV^\aZ/ UX fheX gb c_TVX g[X ha\g j\g[ g[X Yebag f\WX gb UX hc1 AX_\iXel JbgX= R[Xa WX_\iXe\aZ/ Wba,g [b_W c_Tfg\V CTV\aZ hc cTegf fhV[ Tf \a_Xg be bhg_Xg Ze\__ XgV1 C\k\aZ bY g[X ha\g Lbf\g\ba bY g[X jT__ [b_X RT__ [b_X f[bh_W UX WXV\WXW TVVbeW\aZ gb \afgT__g\ba c_TVX TaW c\c\aZ W\eXVg\ba1 -eXYXe gb \afgT__Tg\ba WeTj\aZf. 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The precautionary points indicated herein are divided under two headings: WARNING and CAUTION those points which are related to the strong possibility of an installation done in error resulting in death or serious injury are listed in the WARNING section. However, there is also a possibility of serious consequences in relationship to the points listed in the CAUTION section as well. In either case, important safety related information is indicated, so by all means, properly observe all that is mentioned. After completing the installation, along with confirming that no abnormalities were seen from the operation tests, please explain operating methods as well as maintenance methods to the user of this equipment, based on the owner's manual. Moreover, ask the customer to keep this sheet together with the owner's manual. WARNING Please entrust installation to either the company which sold you the equipment or to a professional contractor. Defects from improper installations can be the cause of water leakage electric shocks and fires. Execute the installation accurately, based on following the installation manual. Again improper installations can result in water leakage, electric shocks and fires. Please install your air conditioner on a wall or any place which can holder the weight of the air conditioner. And it cannot be installed on a non-professional metal structure (such as a burglary-resisting net). Otherwise injury would occur due to a falling of the unit. Execute the prescribed installation construction to prepare for earthquakes and the strong airs of typhoons and hurricanes, etc. Improper installations can result in accidents due to a violent falling over of the unit. Wiring shall be done with the specified cable and the connection shall be firm and reliable. And the terminal connector shall be fixed firmly and reliably not to let external force exercise on the cables. Any improper connection or fixing would cause heat, fire, and other accidents. Wiring shall be done in a correct shape not to make any section rise upward, and accurately install the air conditioner. The cable shall not be clamped by the lid or outer plate. Any improper installation would lead to fire, heat, or other accidents. When setting up or moving the location of the air conditioner, do not mix air etc, or anything other than the designated refrigerant (R407C) within the refrigeration cycle, for such mixing would result in rupture and injury caused by abnormal high pressure. Always use accessory parts and authorized parts for installation construction. Using parts not authorized by this company can result in water leakage, electric shock, fire and refrigerant leakage. The drain pipe must not be placed or connected into the sewage tank where harmful gas such as sulphurous gas and etc would exist, otherwise the harmful gas would enter the room. During installation, if the refrigerant is leaked, please immediately take measures of ventilation, otherwise a harmful gas would be generated whenever the refrigerant meets fire. After installation, please ensure that the refrigerant is not leaked, because the leakage of refrigerant would produce a harmful gas if it meets fire or heating stoves. Don't install the air conditioner where a flammable gas would be probably produced, otherwise in case the flammable gas is leaked and exists around the unit, fire would be caused. For the drain pipe, follow the installation manual to insure that it allows proper drainage and thermally insulate it to prevent condensation. Inadequate plumbing can result in water leakage and water damage to interior items. The refrigerant gas pipe and liquid pipe shall all be thermally insulated to preserve the temperature. Any improper insulation would make the unit moist and the water would drop onto the floor or wet the indoor items. -112- >a__WcU[S^ <[c >a`V[e[a`Wc INSTRUCTIONS TO INSTALLATION PRECAUTION Execute proper grounding. Do not connect the earth wire to a gas pipe, water pipe, lightening rod, or a telephone ground wire. Improper placement of earth wires can result in electric shock. An electric leakage breaker must be installed, otherwise electric shock or other accidents would occur. After completion of the installation, the air conditioner shall be electrified to check for electric leakage. Preparation for installation Installation Tools 1. Screw Driver (slotted head, cross head, triangle) 2. Steel Saw 3. 60mm Drill 4. Inner Hexagon Spanner 5. Shifting Spanner 6. Spanner 7. Pipe Cutter 8. Pipe Expander 9. Knives 10. Clippers 11. Leakage Checker or Soap Liquid 12. Measuring Tape 13. Scraper or File 14. Refrigeration Oil Self-contained Accessories No. A B Name of Non-adhesive Adhesive Parts Tape tape C D Connecting Heat insulation Hose material E Gypsum powder F Drain hose Electrical Requirements Power supply voltage: Single Phase 1PH, 220-230V~, 50Hz. A specialized power supply wire, which shall be installed by a competent person as per the rules of the national standard. Power supply must be grounded effectively. An electric leakage breaker shall be installed. Layout of power supply wiring shall be Y connection. If the power supply wire is damaged, it must be replaced by the manufacturer or its service center or professional person (the power supply wire shall be self-contained). For connection of the power supply plug, L shall be connected with the live wire, N shall be connected with neutral line, shall be connected with earth wire. Power supply wire parameters:H05RN-F,3 G(1.0-1.5)mm2; Signal wire parameters:H05RN-F,2 X (0.75-1.5)mm 2. (User shall self-provide signal wire ) Note:The signal wire and connection wire should be provided by oneself. The signal wire must be shielded wire -113- >a__WcU[S^ <[c >a`V[e[a`Wc INSTRUCTIONS TO INSTALLATION WARNING ! BE SURE TO READ THESE INSTRUCTIONS CAREFULLY BEFORE BEGINNING INSTALLATION. FAILURE TO FOLLOW THESE INSTRUCTIONS COULD CAUSE SERIOUS INJURY OR DEATH, EQUIPMENT MALFUNCTION AND/OR PROPERTY DAMAGE. BE SURE TO READ INSTALLATION MANUAL FOR INDOOR UNIT WITH THIS MANUAL. 1.Accessories Confirm accessories shown below are attached in the bag with this Installation manual. Accessories Delivered with Your Air Conditioner Please check if your unit is delivered with the following accessories. No. Name 1 2 Remote controller 3 Mounting plate Batteries 4 5 6 7 Drain hose 4x25 screw Expansion bushing 8 9 Cement Piping hole steel nail cover and 10 Screw Plastic supporting plate shape Qty 1 2 1 1 6 6 8 1 2 1 Indoor Unit Install the indoor unit where the weight of the unit can be supported. Install the indoor unit where the heat source and steam source are not close and the unit inlet and outlet are not blocked. Install the indoor unit where the drainage is easy and the outdoor unit can be easily connected. Install the indoor unit where its cold air and hot air can be easily sent to all the comers of the room. Install the indoor unit where the power socket is near and there is sufficient space around the indoor unit. Install the indoor unit where there is no T.V set, radio set, and wireless appliance underneath, and the sunlight lamp is over one meter away. If the remote controller is installed on the wall, the indoor unit shall be ensured to receive the signal while the sunlight lamp is on. Method for Cutting and Expanding Pipes. When the pipe is too long or the mouth is damaged, the pipe needs to cut or expanded. 3.Put on nut 4.Expand Hose 1.cutting hose 2.Removing burr Expansion Size A Hose dia. 6.35 mm(1/4) Size (mm)A 0.8-1.5 12.7 mm(1/2) 1.0-2.0 Hose Expander Correct Not Correct Tilting cracks on expanded mouth burr -114- incomplete too long >a__WcU[S^ <[c >a`V[e[a`Wc INSTALLATION PROCEDURE When the mounting plate is first fixed 1. Carry out, based on the neighboring pillars or lintels, a proper leveling for the plate to be fixed against the wall, then temporarily fasten the plate with one steel nail. 2. Make sure once more the proper level of the plate, by hanging a thread with a weight from the central top of the plate, then fasten securely the plate with the attachment steel nail. 3. Making a Hole on the wall and Fitting the piping Hole cover Make a hole of 60mm in diameter, slightly descending to outside the wall. Indoor side Install piping hole cover and seal it off with putty after installation. Wall hole Outdoor side Thickness of wall 60mm 4. Drawing of pipe (Section of wall hole) Piping hole pipe Rear piping Draw pipes and the drain hose, then fasten them with the adhesive tape. Left Left-rear, piping In case of left side piping, cut away, with a nipper, the lid for left piping. In case of left-rear piping, bend the pipes according to the piping direction to the mark of hole for left-rear piping which is marked on heat insulation materials. a. Insert the drain hose into the dent of heat insulation materials of indoor unit. b. Insert the indoor/outdoor electric cord from backside of indoor unit, and pull it out on the front side, then connect them. c. Coat the flaring seal face with refrigerant oil and connect pipes. Cover the connection part with heat insulation materials closely, and make sure fixing with adhesive tape. Heat insulation material Piping Pipe supporting plate Drain hose Lid for right piping Indoor/Outdoor Electric cable Lid for left piping Lid for under piping pipe Fix with adhesive tape Indoor/outdoor electric cord and drain hose must be bound with refrigerant piping by protecting tape. -115- >a__WcU[S^ <[c >a`V[e[a`Wc INSTALLATION PROCEDURE Other direction piping Cut away, with a nipper, the lid for piping according to the piping direction and then bend the pipe according to the position of wall hole. When bending, be careful not to crash pipes. Connect beforehand the indoor/outdoor electric cable, and then pull out the connected to the heat insulation of connecting part specially. 5.Fixing the indoor unit body Hang surely the unit body onto the upper notches of the mounting plate. Move the body from side to verify its secure fixing. In order to fix the body onto the mounting plate, hold up the body aslant from the underside and then put it down perpendicularly. Putty ELECTRICAL WIRING When connecting the cord before installing the indoor unit Insert the cord from the back side of the unit, then pull it out on the front side. Loosen the screws and insert the cord ends fully into terminal block, then tighten the screws. Pull the cord slightly to make sure the cords have been properly inserted and tightened. After the cord connection, never fail to fasten the connected cord with the wiring cover. Note: when connecting the cord, confirm the terminal number of indoor and outdoor units carefully. If wiring is not correct, proper operation can not be carried out and will cause defect. ! CAUTION After connecting the piping, check the joints for gas leakage with gas leakage detector. HOW TO CONNECT WIRING TO THE TERMINALS A. For solid core wiring (or F-cable)(Fig.17A) (1) Cut the wire with a wire cutter or wire-cutting pliers, then strip the insulation to about 25mm of the exposed solid wire. (2) Using a screwdriver, remove the terminal screw (s) on the terminal board. (3) Using pliers, bend the solid wire to form a loop suitable for the terminal screw. (4) Shape the loop wire properly, place it on the terminal board and tighten securely with the terminal screw using a screw driver. B. For strand wiring (Fig.17B) (1) Cut the wire with a wire cutter or wire-cutting pliers, then strip the insulation to about 10mm of the exposed strand wiring. (2) Using a screwdriver, remove the terminal screw (s) on the terminal board. (3) Using a round terminal fastener or pliers, securely clamp a round terminal to each stripped wire end. (4) Position the round terminal wire, and replace and tighten the terminal screw using a screw driver. Fig. 17 B. Strand wire Loop Insulation Round terminal Strip 10mm Strip 25mm A. Solid After passing the connection cord and power cable through the insulation tube, fasten it with the cord clamp, as shown in Fig.18 -116- >a__WcU[S^ <[c >a`V[e[a`Wc Fig. 18 Screw with special washer Insulation tube Round terminal Terminal board Cord clamp Wire Screw with special washer Round terminal Wire Use VW-1, 0.5 to 1.0 mm thick, PVC tube as the insulation tube. INSTALLATION CHECK AND TRIAL OPERATION Check the Layout of the Drain Pipe and Connection Wires The drain pipe should be placed underneath, and the connection wires should be placed upside; and the drain pipe especially the section inside the machine and indoors must be wound up with insulating material to preserve heat. The drain pipe shall be sloped and no concave and convex shall occur along the whole pipe. And the cases as the right figure indicates shall not occur. Installation check Is power supply voltage required? Is water completely drained to outdoors? Are power wire and connection wires between indoor and outdoor units correctly connected? Is any gas leaked from the pipe connectors? Are series numbers of the terminals on the indoor and outdoor units corresponding to each other? Is the connection section of the auxiliary pipe insulated? Is the indoor unit fixed firmly? Is noise big? Trial Operation The person who has completed this installation shall be requested to conduct a test operation for check: Is the temperature adjuster working normally? Does the location for installation conform to requirements? Winding up with Protective Plastic Tape The connection pipes, drain pipe, and the connection wires shall be wound up with PVC tape. Notes: The connection pipes shall also be wound up with insulating material to preserve the temperature. The airing direction shall be from bottom to top. KQWQTP NQLPWLS MOY[OOT HGJGFIGJG AU182AFERA/AS182AVERA ?@>AAB ADC>AAB + , - Y/G + , - 5 7 Y/G YU VU[OW XZVVR\ -117- >a__WcU[S^ <[c >a`V[e[a`Wc 6.9 Outdoor unit (AU18-AU60) Carefully read the following information in order to operate the airconditioner correctly. Below are listed three kinds of Safety Cautions and Suggestions. WARNING! Incorrect operations may result in severe consequences of death or serious injuries. CAUTION! Incorrect operations may result in injuries or machine damages; in some cases may cause serious consequences. INSTRUCTIONS: These information can ensure the correct operation of the machine. Be sure to conform with the following important Safety Cautions. The Safety Cautions should be at hand so that they can be checked at any time when needed. If the conditioner is transferred to the new user, this manual should be as well transferred to the new user. WARNING! Don't dismantle the outlet of the outdoor unit. If any abnormal phenomena is found (e. g.smell of firing), please cut off the power supply immediately, and contact the dealer to find out the handling method. The exposed fan is very dangerous which may harm human beings. In such case, to continue using the conditioner will damage the conditioner, and may cause electrical shock or fire hazard. switch off When the unit needs maintenance and repairment, please call dealer to handle it. After the unit being used for a long time, the base should be checked for any damages. If the damaged base is not repaired, the unit may fall down and cause accidents. -118- Incorrect maintenance and repairment may cause water leak, electrical shock and fire hazard. >a__WcU[S^ <[c >a`V[e[a`Wc WARNING! Installed electrical-leaking circuit breaker. No goods or nobody is permitted to placed on or stand on outdoor unit. It easily cause electrical shock without circuit breaker. The falling of goods and people may cause accidents. Air-conditioner can't be installed in the environment with inflammable gases because the inflammable gases near to air-conditioner may cause fire hazard. Please let the dealer be responsible for installing the conditioner. Don't operate the air-conditioner with damp hands. Incorrect installation may cause water leak, electrical shock and fire hazard. Otherwise will be shocked. Call the dealer to take measures to prevent the refrigerant from leaking. If conditioner is installed in a small room be sure to take every measure in order to prevent suffocation accident even in case of refrigerant leakage. When conditioner is deinstalled or reinstalleddealer should be responsible Only use correctly-typed fuse. May not use wire or any other materials replacing fuse, other-wise may cause faults or fire accidents. for them. Incorrect installation may cause water leaking, electrical shock and fire hazard. Connect earthing wire. Earthing wire should not be connected to the gas pipe, water pipe, lightning rod or phone line, in-correct earthing may cause shock. Use discharge pipe correctly to ensure efficient discharge. Incorrect pipe use may cause water leaking. Earthing -119- >a__WcU[S^ <[c >a`V[e[a`Wc 1. Accessories Edging "Edging" for protection of electric wires from an opening edge. 2. Selection of the place of installation Select the place of installation satisfying the following conditions and, at the same time, obtain a consent from the client or user. Place where air circulates. Place free from heat radiation from other heat sources. Place where drain water may be discharged. Place where noise and hot air may not disturb the neighborhood. Place where there is not heavy snowfall in the winter time. Place where obstacles do not exist near the air inlet and air outlet . Place where the air outlet may not be exposed to a strong wind. Place surrounded at four sides are not suitable for installation. A 1m or more of overhead space is needed for the unit. Mount guide-louvers to place where short-circuit is a possibility. When installing several units, secure sufficient suction space to avoid short circuiting. (1) Open space requirement around the unit L2 Air inlet L3 Air inlet 500 (Servicing space) Air outlet L1 Note : (1). Fix the parts with screws (2).Don't intake the strong wind directly to the outlet air-flow hole. (3).A one meter distance should be kept from the unit top (4).Don't block the surroundings of the unit with sundries Unit: mm Case Distance I L1 II III open open 500 L2 300 0 open L3 150 300 150 NO Wind direction (2) Installation where the area with strong winds. Install the unit so that the air outlet section of the unit must NOT be faced toward wind direction. -120- >a__WcU[S^ <[c >a`V[e[a`Wc ig jpstkooktnqp qm qutlqqr upnt ehf jpstkooktnqp ?Ta ]SP ^WT] TW L Y[XYP[ `Lb LNNX[OTWR ]X ]SP NXWOT]TXW XQ L YULNP `SP[P T] T\ TW\]LUUPO Mb [PQP[[TWR ]X ]SP QXUUX`TWR 0 <J293<>><<. <J293<?>H< +L, =XWN[P]P QX^WOL]TXW <WNSX[ MXU] +M, ?X^WOL]TXW LWNSX[ JWT] JWT] =XWN[P]P QX^WOL]TXW =XWN[P]P QX^WOL]TXW IX QTa Mb MXU]\ <WNSX[ MXU] <J353<@><<. <J353<@>H<. <J53E<C><< +L, =XWN[P]P QX^WOL]TXW <WNSX[ MXU] +M, ?X^WOL]TXW LWNSX[ JWT] JWT] =XWN[P]P QX^WOL]TXW =XWN[P]P QX^WOL]TXW IX QTa Mb MXU]\ <WNSX[ MXU] <J393<A><< <J39E<A><< <J473<A>H< +L, =XWN[P]P QX^WOL]TXW <WNSX[ MXU] +M, ?X^WOL]TXW LWNSX[ JWT] JWT] =XWN[P]P QX^WOL]TXW =XWN[P]P QX^WOL]TXW IX QTa Mb MXU]\ <WNSX[ MXU] <J473<B><<. <J47E<B><<. <J59E<B><<. <J71E<B><< +M, ?X^WOL]TXW LWNSX[ +L, =XWN[P]P QX^WOL]TXW JWT] JWT] <WNSX[ MXU] =XWN[P]P QX^WOL]TXW =XWN[P]P QX^WOL]TXW IX QTa Mb MXU]\ <WNSX[ MXU] EX]P; +2, @T_P PWX^RS [XXV QX[ ]SP NXWN[P]P QX^WOL]TXW ]X QTa Mb LWNSX[ MXU]\0 +3, GULNP ]SP NXWN[P]P QX^WOL]TXW OPPY PWX^RS0 BW\]LUU ]SP ^WT] \X ]SL] ]SP LWRUP XQ TWNUTWL]TXW V^\] MP UP\\ ]SLW 4 OPR[PP\0 -121- >a__WcU[S^ <[c >a`V[e[a`Wc 50 HPQ[TRP[LW] YTYTWR +2, F^]UTWP YTYTWR <J293<>><<. <J293<?>H< ?UL[P NXWWPN]TXW 4/`Lb \]XY _LU_P @L\ YTYP F^]OXX[ ^WT] BWOXX[ ^WT] CTZ^TO YTYP ?UL[P NXWWPN]TXW 3/`Lb \]XY _LU_P <J353<@><<. <J393<A><<. <J39E<A><<. <J473<B><<. <J47E<B><<. <J53E<C><<. <J59E<B><<. <J71E<B><<. <J353<@>H<. <J473<A>H< ?UL[P NXWWPN]TXW 4/`Lb \]XY _LU_P @L\ YTYP F^]OXX[ ^WT] BWOXX[ ^WT] CTZ^TO YTYP ?UL[P NXWWPN]TXW 4/`Lb \]XY _LU_P +3, GTYTWR \TcP <J293<>><< <J293<?>H< <J353<@><< <J393<A><< <J39E<A><< <J353<@>H< <J473<A>H< <J473<B><< <J47E<B><< <J53E<C><< <J59E<B><< <J71E<B><< CTZ^TO YTYP 7046a109VV @L\ YTYP 2308a201VV CTZ^TO YTYP :063a109VV @L\ YTYP 26099a201VV CTZ^TO YTYP :063a109VV @L\ YTYP 2:016a201VV :1-106 BW\]LUU ]SP [PVX_PO QUL[P W^]\ ]X ]SP YTYP\ ]X MP NXWWPN]PO. ]SPW QUL[P ]SP YTYP\0 +4, CTVT]L]TXW\ QX[ XWP `Lb YTYTWR UPWR]S LWO _P[]TNLU SPTRS] OTQQP[PWNP0 DXOPU KP[]TNLU SPTRS] OTQQP[PWNP FWP `Lb YTYTWR UPWR]S +MP]`PPW TWOXX[ LWO X^]OXX[, <J293<>><< UP\\ ]SLW 31 V UP\\ ]SLW 21 V <J353<@><< <J393<A><< <J39E<A><< <J293<?>H< <J353<@>H< UP\\ ]SLW 41 V UP\\ ]SLW 26 V UP\\ ]SLW 61 V UP\\ ]SLW 41 V <J473<B><< <J47E<B><< <J53E<C><< <J59E<B><< <J71E<B><< <J473<A>H< -122- >a__WcU[S^ <[c >a`V[e[a`Wc Precautions for refrigerant piping Do not twist or crush piping. Be sure that no dust is mixed in piping. Bend piping with as wide angle as possible. Keep insulating both gas and liquid piping. Check flare-connected area for gas leakage. Piping connection Connecting method (indoor unit) Apply refrigerant oil at half union as large and flare nut. To bend a pipe, give the roundness as possible not to crush the pipe. When connecting pipe, hold the pipe centre to centre then screw nut on by hand, refer to Fig. Be careful not to let foreign matters, such as sands enter the pipe. Forced fastening without centering may damage the threads and cause a gas leakage. Pipe dia Fastening torque Liquid pipe 6.35mm 14.2-17.2N.m Liquid pipe 9.52mm 32.7-39.9N.m 49.5-60.3N.m Gas pipe 12.7mm 61.8-75.4N.m Gas pipe 15.88mm Gas pipe 19.05mm 97.2-118.6N.m Air discharging method After finishing connection of refrigerant pipe, it shall perform air tightness test. The air tightness test adopts nitrogen tank to give pressure according to the pipe connection mode as the following figure shown. The gas and liquid valve are all in close state. In order to prevent the nitrogen entering the circulation system of outdoor unit, tighten the valve rod before giving pressure (both gas and liquid valve rods). Low pressure gauge High pressure gauge 3-way valve totally closed (Gas side) Indoor Outdoor Completely tightened Flare part Completely tightened Flare part Indoor units VLVH Meter separator Discharging valve Mainhole Dropping valve Outdoor units 2-way valve totally closed (Liquid side) Nitrogen tank 2 First step: 0.3MPa (3.0kg/cm g) pressurize over 3 minutes. 2 Second step: 1.5Mpa (15kg/cm g) pressurize over 3 minutes. Large leakage will be found. 2 Third step: 3.0 MPa (30kg/cm g) pressurize about 24 hours. Little leakage will be found. -123- >a__WcU[S^ <[c >a`V[e[a`Wc Check if the pressure drops If the pressure does not drop, the unit is passed If the pressure drops, please check the leaking point. After pressurizing for 24 hours, each 1 C difference of ambient temperature 2 will result in 0.01MPa(0.1kg/cm g) pressure change. It shall be corrected during test. Checking the leaking point From the first to third steps, if the pressure drops, check the leakage in each joint by the sense of hearing, feeling or soap water, etc. to find the leaking point. After confirming the leaking point, welding it again or tighten the nut tightly again. Piping and indoor unit vacuumizing Use vacuum pump to perform vacuumizing. It is strictly forbidden to use the refrigerant to remove the air inside the system. After air tightness test and discharging all the nitrogen, connect the vacuum pump as the following figure shown. Low pressure gauge 3-way valve totally closed (Gas side) Indoor Outdoor Completely tightened High pressure gauge VLVH Flare part Meter separator Discharging valve P Completely tightened Flare part Indoor units Vacuum pump Outdoor units 2-way valve totally closed (Liquid side) It shall use the vacuum pump of (lower than -755mmHg)high vacuum degree and large air discharging (over 40l/min). The vacuumizing time depends on the length of the connecting pipe, generally is 1~2 hours. When vacuumizing, it shall be confirmed both gas and liquid side valves are closed. If after 2 hours vacuumizing, it cannot reach the vacuum degree below -755mmHg, it can be vacuumized for other 1 hour. If after 3 hours vacuumizing, it still cannot reach the vacuum degree below -755mmHg, check if there is any leaking point and repair the them. If after over 2 hours vacuumizing, the vacuum degree is below -755mmHg, close the VL and VH on the meter separator and stop vacuumizing. 1 hour later to confirm if the vacuum degree changes. If changes,it indicates there is leaking point in the system. Check the leaking point and repair. After finishing the above vacuumizing, change the vacuum pump into refrigerant pump to charge the refrigerant. -124- >a__WcU[S^ <[c >a`V[e[a`Wc Charging amount of refrigerant When the total length (L) of the two indoor units' connecting pipe is less than 5m, it is unnecessary to charge additional refrigerant. If the connecting pipe (L) exceeds 5m, it shall charge Mg additional refrigerant per meter. That is: Refrigerant charging amount = (L-5) x M (g) For the unit with liquid pipe 6.35mm, M=30 For the unit with liquid pipe 9.52mm, M= 50 Only in COOLING operation can charge the additional refrigerant. When charging, the refrigerant shall be charged from the charging nozzle of low pressure vavle. Be carefull when charging refrigerant, do not let the air mix into the system,and must charge the additional refrigerant in liquid condition. Electric wiring WARNING DANGER OF BODILY INJURY OR DEATH TURN OFF ELECTRIC POWER AT CIRCUIT BREAKER OR POWER SOURCE BEFORE MAKING ANY ELECTRIC CONNECTIONS.GROUND CONNECTIONS MUST BE COMPLETED BEFORE MAKING LINE VOLTAGE CONNECTIONS. (1) Selection of size of power supply and interconnecting Precautions for Electric wiring Electric wiring work should be conducted only by authorized personnel. Do not connect more than three wires to the terminal block. Always use round type crimped terminal lugs with insulated grip on the ends of the wires. Use copper conductor only. Select wire sizes and circuit protection from table below. (This table shows 20 m length wires with less than 2% voltage drop.) >[bUe[d TbWS\Wb DdW^ H`VW] <O283<@@<< <O283<A@L< <O353<B@<< AU282AHEAA AU362AIEAA AU28NAHEAA AU36NAIEAA <O58I<D@<< <O71I<D@<< <O353<B@L< <O473<C@L< KZScW Mg[dUZ TbWS\Wb +<, JfWbUebbW_d ab`dWUd`b @SbdZ ]WS\SYW TbWS\Wb K`gWb c`ebUW g[bW Mg[dUZ GWS\ c[jW +^^3, TbWS\Wb UebbW_d+^<, 2 51 37 3/6 51 41 2 51 37 5/1 51 41 2 51 37 7/1 51 41 4 41 31 3/6 41 41 4 41 31 5/1 41 41 2 71 51 5/1 71 41 (2) Wiring connection Make wiring to supply power to the outdoor unit, so that the power for the indoor unit is supplied by terminals. For the detailed wiring connection with the indoor units, see the corresponding indoor operation and instruction manual. -125- >a__WcU[S^ <[c >a`V[e[a`Wc For: AU182AEEAA To Indoor Unit OUTDOOR UNIT TERMINAL BLOCK 1 2 3 Y/G For: AU242AGEAA, AU282AHEAA, AU182AFERA, AU242AGERA To Indoor Unit 1 2 3 LN POWERSUPPLY: 1PH, 220-230V~, 50Hz Y/G OUTDOOR UNIT TERMINAL BLOCK For: AU28NAHEAA, AU36NAIEAA, AU48NAIEAA, AU60NAIEAA To Indoor Unit R S T N 1 2 3 Y/G OUTDOOR UNIT TERMINAL BLOCK POWER SUPPLY: 380-400V, 3N~, 50Hz (3) Wiring procedure 1) Remove the screws on the side before taking off the front panel toward the direction shown in figure. 2) Connect wires to the terminal block correctly and fix the wires with a wire clamp equipped nearby the terminal block. 3) Route the wires in a proper way and penetrate the wires through the opening for electric wiring on the side plate. Test run CAUTION THIS UNIT WILL BE STARTED INSTANTLY WITHOUT "ON" OPERATION WHEN ELECTRIC POWER IS SUPPLIED.BE SURE TO EXECUTE "OFF" OPERATION BEFORE ELECTRIC POWER IS DISCONNECTED FOR SERVICING. This unit has a function of automatic restart system after recovering power stoppage. Run the unit continuously for about 30 minutes, and check the following. Suction pressure at check joint of service valve for gas pipe. Discharge pressure at check joint on the compressor discharge pipe. Temperature difference between return air and supply air for indoor unit. -126- >a__WcU[S^ <[c >a`V[e[a`Wc 7 Electric control functions 7.1 Fixed frequency unit 7.1.1 Control Features The brief introduction includes those for each item of various types of air conditioners and their electric control functions. 1) Brief introduction of electric control (1) Automatic run a. Cooling-heating type After the machine being started and running mode changes to AUTO, the system will decide running mode according to difference between the present room temperature and setting temperature, then runs as the decided mode. In the following selections, Tr means room temperature and Ts means setting temperature. Select running mode according to the following conditions at the first time to enter Auto mode: Tr Ts-3 to select cooling mode (with setting temperature being Ts +3) Tr<Ts-3 to select heating mode (with setting temperature being Ts) After the system entering auto run mode, the running mode can convert automatically according to variation of room temperature between cooling, blowing and heating in the way shown as the chart below: Room Ts+3 Ts-3 Ts-3 Heating Room Blowing temperature Cooling rising temperature falling Cooling Heating b. Single Cooling Type Select running mode according to the following conditions at the first time to enter Auto mode: to select cooling mode Tr Ts + 3 Tr < Ts + 3 to select blowing mode After the system entering auto run, the running mode can convert automatically according to variation of room temperature between cooling and blowing functions in the way shown as the chart below: Room temperature O O D falling Cooling Blowing -127- Room Ts-3 temperature Blowing rising Ts+3 Cooling >a__WcU[S^ <[c >a`V[e[a`Wc (2) Auto Selection of Wind Speed In the following, Tr means room temperature while Ts means setting temperature. a. During cooling program conversion of wind speed from the low to high won’t work until the present speed has continued for 3 minutes while conversion from the high to low needs no time delay. The chart below is the sketch map of conversion: temperature falling High speed Ts 3 Ts 2 High speed Medium speed Low speed temperature Low speed Ts rising Ts 1 Medium speed b. During heating program applicable for cooling-heating type , conversion of wind speed from the low to high won’t work until the present speed has continued for 3 minutes while conversion from the high to low needs no time delay. The hart below is the sketch map of conversion: temperature falling Low speed Ts Low speed Ts 1 Medium speed Medium speed High speed temperature High speed rising Ts 3 Ts 2 (3) Dehumidifying program In the following, Tr means room temperature while Ts means setting temperature. a. After the system entering dehumidifying program, the compressor, outdoor and indoor blowing fans run according to the following rules: (1) Tr > Ts + 2 , the compressor and outdoor blowing fan run continuously while indoor -128- >a__WcU[S^ <[c >a`V[e[a`Wc blowing fan runs at setting wind speed. This working area is defined as area A. (2) Ts Tr Ts + 2 , the compressor and outdoor blowing fan run for 10 minutes then pause for 6 minutes, while indoor blowing fan runs at low wind speed. This working area is defined as area B. (3) Tr < Ts, the compressor and outdoor blowing fan stop working while indoor blowing fan runs at low wind speed. This working area is defined as area C. a. After dehumidifying program starting, the system converts between A, B and C areas according to variations of room temperature with running mode being shown as the chart below: Room temperature falling Area A Area A Area B Area C Room Area C Ts 1 temperature Ts+1 Area B rising Ts 1 Ts 3 (4) Cutoff protection against overload and overheat During heating program, if the indoor blowing fan has been started and the compressor has been running more than 2 minutes, and the temperature of indoor coil pipe (Ticp) and the outdoor > 64 , the outdoor blowing fan will stops running; If Ticp 50 blowing fan has kept stop state for 45 seconds, then it will restore rotation; If Ticp > 67 and such temperature has last for 10 seconds, the compressor will stop running and indoor blowing fan run according to conditions as it reaches setting temperature. When Ticp < 58 , and the compressor has kept stop state over 3 minutes, then the compressor and outdoor blowing fan will restore normal running. Cutoff protection for heating current After 60 seconds from the compressor being started, if CT current exceeds I1 (9.2A) and such case has kept 5 seconds, the outdoor blowing fan will stop. If 45 seconds has passed after the outdoor blowing stops and the current of the compressor is less than I2 (7.5A), the blowing fan will restore running. If CT current exceeds I3 (14.3A) and such case lasts for 3 seconds, the compressor and outdoor blowing fan will stop. The compressor will not restore running until 3 minutes passes with CT current less than 12A. (5) Cool wind prevention during heating program At the first time entering heating program or after ending the latest frost removal, if the temperature of indoor coil pipe (Ticp) < 28 , the indoor blowing fan will stop running; If Ticp < 38 , the indoor blowing fan will run at low speed; If Ticp > 38 or the 28 compressor has been running for more than 4 minutes, the indoor blowing fan will run at -129- >a__WcU[S^ <[c >a`V[e[a`Wc setting wind speed. (6) Afterheat blowing during heating program During heating program, the compressor will stop running (except overheat protection or frost removal) while the indoor blowing fan will firstly run for 50 seconds at low speed then stop. (7) Frost removal control (applicable for cooling-heating type) Starting conditions for frost removal: A The indoor unit is in overload protection and outdoor blowing fan stops. The outdoor blowing fan does not enter overheat mode in 10 minutes after it is restarted, the compressor has run over 45 minutes totally while 20 minutes continuously, and the temperature of indoor coil pipe is lower than 43 ; B After the compressor continuously running for 20 minutes, the temperature of indoor coil pipe falls 1 every 6 minutes and such case continuously appears three times, and the temperature of indoor coil pipe is less than 40 , and 5 minutes have passed after the compressor is restarted; C The compressor has run totally over 3 hours while 20 minutes continuously, and the temperature of indoor coil pipe is less than 40 ; D The difference between room temperature and the one of indoor coil pipe is less than 16 and the compressor has totally run over 45 minutes while 20 minutes continuously; Frost removal will start if any one of the above conditions is satisfied. Ending conditions for frost removal: 1 Time of frost removal has exceeded 9 minutes; 2 CT current exceeds I4(8.2A) Actions of each load after the frost removal starts: The compressor and outdoor blowing fan stop, and indoor blowing fan also stops. 55 seconds later the reversal valve is closed and next 5 seconds later the compressor is started. Actions of each load after the frost removal ends: The compressor stops running while outdoor blowing fan immediately runs at high speed, 55 seconds later the reversal valve is opened and next 5 seconds later the compressor restores running and indoor blowing fan runs as conditions for cool wind prevention. (8) Freeze protection After the compressor has run for 9 minutes, the system will check temperature of indoor coil pipe (Ticp). If Ticp is less than -1 , the compressor and outdoor blowing fan will stop. They will run again after the compressor stops if both the following conditions are satisfied: 1) 3 minutes have passed since compressor stops. 2) Ticp exceeds 7 . (9) 3 minutes protection for compressor After compressor stops, it cannot be started until 3 minutes later. During the machine’s running, if time after loosing power not exceeds 3 minutes, the compressor cannot be -130- >a__WcU[S^ <[c >a`V[e[a`Wc restarted until 3 minutes later after it is reenergized. 10 Power breakdown memory If the machine suddenly loses power while running, or stops for maintenance or trouble shooting, it will restart running as the status when it stops after the power is restored. Note: 1. Function setting: Continuously press sleep button on the remote controller 10 times in 5 seconds and buzzer on control panel shall beep 4 times. 2. Memory content: Running mode, wind speed setting, temperature setting, swing status. 3. Cancel: Press sleep button on the remote controller 10 times and buzzer on control panel beeps 2 times. (11) Control of water pump a. In cooling (including automatic cooling mode) and dehumidifying modes, the water pump works if the compressor runs while stops 5 minutes later after the compressor stops. b. When water tank is fully filled, the float switch will be off. The water pump will start to work after a controller has detected this signal and it will continue working for 5 minutes after the float restores to normal state. c. If the full water signal is detected continuously over 5 minutes, the water pump indicator lamp will flash to alarm and compressor stops running. The water pump will run 5 minutes, then pause for 5 seconds before next 5 minutes’ running, ... until the float restores to normal state, after which the pump will run for 5 minutes then stop. (12) Monitoring of remote network Through preset interface, the air conditioner is connected to remote control detector (made by Haier) with 2-core cables for wire communication, to execute instructions sent from computer or centralized controller via remote control detector and meanwhile send present running status and trouble information of the machine to remote control detector. Connection between air conditioner and remote control detector: CN11 PC board A- 1 2 A+ Interface for remote control detector (13) Trial run Under shut-down state, hold pressing mandatory button. The buzzer will beep once, then twice after 5 seconds. Release the button to enter mandatory cooling mode, under which the indoor blowing fan runs at high speed with both the compressor and outdoor blowing fan working. Press the mandatory button again can end the mandatory mode. -131- >a__WcU[S^ <[c >a`V[e[a`Wc 7.1.2 Defrost operation flow chart Come to defrost Compressor ON Open outdoor fun Compressor Condition off or 55s? E-Heat off for 30s? for compressor Return OFF Operation fun motor Return Turn off compressor outdoor fun indoor 4-way value ON Return OFF compressor Compressor ON ? Turn off for 55s? Turn off 4-way value Return Clear the sign of defrosts Return Return Compressor ON Return B -132- >a__WcU[S^ <[c >a`V[e[a`Wc 7.2 Inverter unit 7.2.1 Outdoor running frequency and the control procedure 7.2.1.1 Compressor startup Compressor running frquency range: ~0ć Outdoor temp. 0ć~ Heat 20RPS 92RPS 20RPS 83RPS Cool 20RPS 85RPM 20RPS 85RPS Defrost 85rpm Every time compressor is from OFF to ON, no matter how is the indoor target frequency, compressor running frequency must be stay at 40Hz and 60Hz for 1 minutes (At outdoor discharging temp. overhigh protection and compressor overcurrent protection, the frequency will be reduced), and then rise up to the target frequency. After the unit is in normal, the above procedure is not available. Note: If the startup frequency for the first time is over 40Hz or 60Hz, it will stay at 40Hz and 60Hz for 1 minute. If the frequency is not over 60Hz, it will only stay at 40Hz for 1 minute. The other conditions will not be limited. 7.2.1.2 Heating mode, cooling mode and dehumidification After performing the compressor startup procedure, the unit will run according to the indoor frequency. 2 minutes later, the unit will compensate the running frequency due to the relative condition. 7.2.1.3 Compressor frequency rising/reducing speed Rapid rising/reducing frequency speed 1----1Hz/second Slow rising/reducing frequency speed 1----1Hz/10 seconds 7.2.2 Outdoor motor control Note: When the outdoor motor needs to change the class, there will be 20-second interval to avoid the fan speed changing frequently. 7.2.2.1 Fan motor speed class has 7 steps, the rotation and class is as follow: Class-0 Class-1 Class-2 Class-3 Class-4 Class-5 Class-6 Class-7 stop 160 260 360 460 560 760 860 7.2.2.2 Blowing remain heat after compressor shuts off In cooling mode, when compressor shuts off, outdoor motor will enter speed Class-5 automatically, and will shut off after blowing remaining heat for 30 seconds. 7.2.2.3 Outdoor motor control in cooling/dry mode z Speed range: class 1-7 z Fan motor locked rotor: When fan motor is requested to work, if fan speed is measured to be below 50RPM and keep for 15 seconds, the compressor will stop, but 3 minutes later, it will re-start up again. If within 20 minutes, the condition occurs 3 times, the unit will stop and alarm. z When compressor starts up, the unit will adjust automatically in 3 minutes according to the outdoor air inlet temperature, and 3 minutes later, the unit will adjust according to the outdoor ambient temperature and compressor running frequency. Fan speed chart in 3 minutes after compressor starts up: Ambient temp. ~10 10~25 25~ Cool, dry Class-3 Class-5 Class-7 heat Class-7 Class-5 Class-3 Fan speed chart in 3 minutes after compressor starts up due to the ambient temp. and running -133- >a__WcU[S^ <[c >a`V[e[a`Wc frequency: Compressor frequency in cooling Tao F<25Hz 25HzİF<45Hz 45İF Over 28ć Class-3 Class-5 Class-7 Below 28ć Class-1 Class-3 Class-5 Compressor frequency in heating F<25Hz 25HzİF<45Hz 45İF Over 15ć Class-2 Class-4 Class-5 Below 15ć Class-3 Class-5 Class-7 Tao 7.2.2.4 Outdoor fan speed control when selecting AC motor z Selecting AC motor or DC motor depends on EEPROM. z Blowing remaining heat: compressor shuts off, fan motor will run at low speed for 30 seconds and then stop. z Fan speed chart in 3 minutes after compressor starts up: Ambient temp. ~10 10~25 25~ Cool, dry Low speed High speed High speed heat High speed High speed Low speed z Fan speed chart in 3 minutes after compressor starts up due to the ambient temp. and running frequency: Compressor frequency in cooling Tao 25HzİF<45Hz 45İF Over 28ć Low speed High speed High speed Below 28ć Low speed Low speed High speed Compressor frequency in heating Tao F<25Hz F<25Hz 25HzİF<45Hz 45HzİF Over 15ć Low speed Low speed High speed Below 15ć Low speed High speed High speed 7.2.3 Outdoor electronic expansion valve(EEV) control 7.2.3.1 Movement of EEV Full-close: after 500 pulse close for 10 times(60 pulse close, 5 pulse open, stop at 5 at last) Full-open: 480 pulse open Adjustable upper limitation of open angle: 480 pulse, Adjustable lower limitation of open angle: 5 pulse Driving speed: open direction: 30.3MS; close direction: 83.3MS z Drive wave of EEV: -134- >a__WcU[S^ <[c >a`V[e[a`Wc 0 1 2 3 4 5 6 7 ķ ĸ Ĺ ĺ pulse 7.2.3.2 Retentive open angle in 2 minutes after compressor starts up: z Cool, dry ~22ć Outdoor temp. 22ć~ Compressor frquency ~30 30~60 60~ ~30 30~60 60~ PMV open angle 230 220 240 260 250 280 z Heat ~6ć Outdoor temp. 6ć~ Compressor frquency ~30 30~60 60~ ~30 30~60 60~ PMV open angle 200 180 220 240 230 260 7.2.3.3 Standard open angle in 2 minutes after compressor starts up: z Cool, dry ~22ć Outdoor temp. 22ć~ Compressor frquency ~30 30~60 60~ ~30 30~60 60~ PMV open angle 250 240 250 220 200 240 z Heat ~6ć Outdoor temp. 6ć~ Compressor frquency ~30 30~60 60~ ~30 30~60 60~ PMV open angle 150 140 170 180 150 210 7.2.3.4 confirmation of over-heat degree z Standarded over-heat degree Actual running Hz TSH0 ˄ć˅ ~20 Cool, dry 2 heat 2 ~30 ~40 ~50 ~60 2 2 4 4 2 2 1 1 ~70 6 ~80 6 1 1 ~90 90~ 4 2 0 0 z When discharging temp. Td is too high or too low, modify the EEV angle. Act after compressor has started up for 4 minutes Mode modification angle Max. modification Cooling Td˚95ćˈ-1 degree / 2 minutes 55ć Td95ć, keep the angle TD55ć, +1 degree / 2 minutes, and plus to 0 degree gradually Max. -5 Cooling Td35ćˈ+1 degree / 2 minutes 35ć Td40ć, keep the angle TD˚40ć, -1 degree / 2 minutes, and reduce to 0 degree gradually Max. +5 Heating Td˚95ćˈ-1 degree / 2 minutes 55ć Td95ć, keep the angle Max. -5 -135- >a__WcU[S^ <[c >a`V[e[a`Wc TD55ć, +1 degree / 2 minutes, and plus to 0 degree gradually Heating Td35ćˈ+1 degree / 2 minutes 35ć Td40ć, keep the angle TD˚40ć, -1 degree / 2 minutes, and reduce to 0 degree gradually Max. +5 7.2.4 4-way valve control z The 4-way valve control in defrosting: refer to the defrosting procedure. z 4-way valve control in other modes: In heating mode, 4-way valve will open in 10 seconds before compressor starts up. When compressor not startup or in non-heating mode, 4-way valve will close to ensure the compressor has stopped for at least 2 minutes. 7.2.5 Outdoor defrosting control A. Enter condition In heating mode, compressor is running for 10 minutes contineously, or has run for 45 minutes in all (when defrosting is over or entering the cooling mode, the counter will be cleared), by measuring the defrosting sensor TE and outdoor ambient temp. sensor TA, if for 2 minutes the below conditions can be met contineously, system will enter defrosting mode: TEİChTAˉ¢ Here in: C: TA˘0ć, C=0.8 TAı0ć, C=0.6 Selct¢as follow according to the data of EEPROM: Connection choosing L M H ¢(ć) 10 7 6 Easy to deforst: select H, uneasy to deforst: select L, set in M when out of the factory. Entering defrost temperature: -15ćİChTAˉ¢İ-5ć B. Defrost interval time z When the value of ChTAˉ¢ is in the range of -15ćİChTAˉ¢, two defrosting interval is 45 minutes. z When the value of ChTAˉ¢ is in the range of ChTAˉ¢<-15ć, two defrosting interval is 65 minutes. C. Defrost procedure At the beginning of defrost, compressor will firstly stop for 1 mintue, outdoor fan runs, and 50 seconds later, 4-way valve is OFF. When compressor starts up, outdoor motor stops, compressor stay at 60Hz for 60 seconds, then compressor frequency will go up to the target frequency 88Hz. In defrosting, the compressor current, compressor discharging protections are valid. If in defrosting, compressor stops because of the protection or the failure, 3 minutes later, it will resume, and if it still in defrosting time, the unit will still defrost. The compressor will start up due to the principle of startup in defrosting. If contineously the compressor can not start up for 3 times, the unit will deal with the malfunction and quit the defrosting. If in defrosting there is failure, the failure time will not be included in the defrosting time. In defrosting, only after the compressor min. running time is over 2 minutes, the system can quit the defrosting. D. Quit condition In any of the below conditions can be met, the defrosting mode will turn into heating operation. (1): Outdoor heat exchanger temperature is over 10ć for 80 seconds contineously. (2): Outdoor heat exchanger temperature is over 14ć for 20 seconds contineously. -136- >a__WcU[S^ <[c >a`V[e[a`Wc (3): Defrost operation for 9 minutes contineously. E. If the quit condition can be met, the unit will perform: Compressor stops, and outdoor motor runs. 50 seconds later the 4-way valve is close, then 60 seconds later, compressor will perform as startup procedure. F. In defrosting period and in 6 minutes after defrosting, the low pressure is shielded. 7.2.6 PTC output control z When outdoor unit is electrified, PTC output is 0, 10 seconds later, it is 1. z After compressor stops for 10 minutes contineously, PTC output is 0. z When getting the compressor-start signal, firstly PTC output is 1, 5 seconds later, compressor will start up. 7.2.7 Electric heater control When shutoff, the electric heater will be controlled by the ambient temperature: below 20ć, working; over 26ć, stop. When the unit switched on, electric heater will not work. 7.2.8 Time shorting function, auto-checking function Time shorting function: If the time shorting port is in short circuit, the unit will perform a 1/60 time shorting control. Auto-checking function: When first short-circuit then electrified, enter auto-checking, steps: failure LED 1-5, EEV, electric herter, oxygen bar, 4-way valve, low speed –high speed wind. 7.2.9 Additional functions 7.2.9.1 The interval between compressor stop to startup again is 3 minutes, which can protection compressor. If being electrified for the first time, compressor will start up only when the valve opens to the normal operation angle. 7.2.9.2 TD high temperature protection As long as the unit is running, the TD discharging overheat protection will work, but the discharging sensor failure will alarm 4 minutes later after compressor starts up. Measure sensor value: measure for 100 times (The program performs for one period needs 5 ms, every time the system will take samples for 8 times, and make an order for them, taking out 2 average values in the middle, and make an average value.). TD˄ć˅ Abnormal stop 117 quick reduce FQY(1HZ/s) 112 slow reduce FQY(1HZ/10s) 108 FQY no change 105 rise FQY(1HZ/10s) 98 rise FQY(1HZ/1s) TD>117ć and keeps for 20 seconds, discharging temperature over high protection will work, the unit will stop and alarm(outdoor indicates, not sending to indoor). the TD overhigh protection occurs 3 times, the unit will stop and alarm (sending to indoor), it can not resume automatically. 7.2.9.3 In heating indoor TC high temperature protection Indoor heat exchanger temperature will check the indoor coil temperature, if it is over 55ć, the unit will reduce the compressor motor speed to perform the indoor heat exchanger temperature -137- >a__WcU[S^ <[c >a`V[e[a`Wc overhigh protection. If it is below 48ć, the unit will resume to be normal. TC P reduce slowly Q remaining R rise slowly 55 52 48 P: reduce at the speed of 1Hz/10s Q: remain the previous value R: rise at the speed of 1Hz/10s 7.2.9.4 Overcurrent protection(realised by power module) ƽIn the course of compressor startup, if current is over 13A and keeps for 3 seconds, compressor will stop and the unit alarms. 3 minutes later, compressor will re-start up, if in 10 minutes, it occurs for 3 times, the unit will stop and alarm. ƽOvercurrent reducing frequency protection When current is over (B)A, compressor will reduce frequency at 1HZ/s, and will stop when it is below (B)A and over (B-1)A, then rise frequency at 1HZ/10s; when current is below (B-1)A, it will resume the target frequency. Remarks: Power module frequency limited point: 88ć, if the frequency reduces down to 86ć, but if it is up to 90ć, the unit will stop and alarm. 7.2.9.5 Indoor heat exchanger anti-freezed protection 11ć 9ć 7ć 6ć 5ć When TCLJ 5ć, compressor frequency will reduce at 1HZ/10s When TC begins to rise up, and 6LJ=TCLJ=7ć, compressor frequency will remain 7.2.9.6 Outdoor temperature limitation Cool: When outdoor temperature is below 15ć, in cooling, compressor frequency will be limited below 50Hz, and outdoor fan speed is compusorily Class-1. Heat: When outdoor temperature is over 20ć, in heating, compressor frequency will be limited below 50Hz, and outdoor fan speed is compulsorily Class-1. If the above is AC motor, the compulsory fan speed will be low speed. 7.2.9.7 Rated operation ƽ Rated cooling: -138- >a__WcU[S^ <[c >a`V[e[a`Wc When receiving the indoor rated operation command, the unit will enter rated cooling operation. z Rated heating: When receiving the indoor rated operation command, the unit will enter rated cooling operation. When receiving the indoor min. heating operation command, the unit will enter min. heating operation. In rated operation period, the frequency can be adjusted by manual. Once being adjusted by manual, the unit will not receive the indoor frequency. 7.2.9.8 Outdoor compulsory operation z Compulsory cooling operation Put the first bit of dip switch on the indicator board at OFF, the unit will enter compulsory cooling operation, as follow: Compressor Current, discharging Operation before 3 minutes later startup protection and failure the base open angle compressor is running Normal 1: fixed base open angle after Manual adjustment treatment normal normal 1: angle adjusted by hand 2: fixed running frequency 60HZ 2: frequency adjusted 3: fixed outdoor motor speed: by hand class-7 3: fan speed adjusted by hand z Compulsory heating operation Put the second bit of dip switch on the indicator board at OFF, the unit will enter compulsory heating operation, as follow: Compressor startup Current, Operation discharging the base open angle compressor is running Normal 1: fixed base open angle protection before 3 minutes later after Manual adjustment and failure treatment normal normal 2: fixed running frequency 50HZ 3: fixed outdoor motor speed: class-7 1: angle adjusted hand 2: frequency adjusted by hand 3: fan speed adjusted by hand 7.2.9.9 High pressure switch 3 minutes later after compressor starts up, the system will check the pipe pressure. If the pipe pressure is over high and high pressure switch acts for over 30 seconds, the compressor and outdoor motor will stop, 3 minutes later, the unit will resume. If in 30 minutes the unit stops for 3 times because of overhigh pressure, the system will alarm, then compressor will not start up again; when being electrified after being powered off, the protection will be cancelled. 9.10 Low pressure switch When compressor stops, if low pressure switch acts for 30 seconds contineously, the unti will alarm. When compressor starts up, in 3 minutes, low pressure switch will be shielded. In defrosting or in 6 minutes after defrosting is over, low pressure switch will be shielded. 7.2.9.11 Failure code and troubleshooting z Alarm lamp is off when no failure -139- by >a__WcU[S^ <[c >a`V[e[a`Wc Ensure that alarm indicating time is over 2 minutes and 50 seconds. (1): Resumable alarm, and will be sent to indoor unit. (2): Resumable alarm, but if in 30 minutes it occurs 3 times, it can be resumed only when being electrified after being powered off. Failure Emission Outdoor Failure description Corresponding outdoor PCB failure code code indicator display 01 01 00001 Power module IPM protection 02 02 00010 DC fan motor failure DC fan motor failure 03 no 00011 Communication Outodor alarms, not sends to indoor. failure If no communication in 4 minutes, outdoor shuts off and alarm, the failure can be resumable. 04 05 04 05 00100 00101 Compressor Discharging temp. over 117ć, it will confirm discharging 3 times in 30 minutes and then send signal to temperature too high indoor. Over current AC current overhigh protection or current transducer broken down. 06 06 00110 Outdoor ambient temp. sensor failure Resumable, if sensor is disconnected, alarm will occur and keeps for 3 minutes, then resumes due to signal. 07 08 07 08 00111 01000 Outdoor coil temp. Outdoor defrosting sensor, sensor failure sensor abnormal High pressure switch Acts 3 times in 30 minutes discharging failure 09 09 01001 Discharging temp. Alarm 4 minutes later after starting up, sensor failure 10 10 01010 discharging temperature abnormal Power supply over Pre-set for 50Hz high/low voltage 11 No No Overload in heating No send signal to indoor 12 No No No No send signal to indoor 13 No No No No send signal to indoor 14 14 01110 Outdoor EEPROM Outdoor EEPROM failure failure 15 1 01111 Power module failure Compressor blocked 16 1 10000 Power module failure Compressor heavy vibration 17 1 10001 Power module failure Abnormal compressor startup 18 18 10010 Power module failure Compressor running faulty 19 19 10011 Power module failure Detecting circuit abnormal 20 1 10100 Power module failure Compressor broken down 21 No 10101 Compressor suction 10 minutes later after startup, measure TS temp. too high—for over 40ć for 5 minutes the unit with EEV 22 No 10110 Communication failure Not communicate for 4 minutes contineously, between outdoor PCB it will alarm and the module -140- >a__WcU[S^ <[c >a`V[e[a`Wc 23 24 No 1 24 No 10111 11000 No Module malfunction Module temp. over high Low pressure switch Low pressure switch acts for 30 seconds failure contineously Temperature cutoff protection 1˅Indoor pipe temp. is abnormal, outdoor default cooling temp. : 5ć, heating temp.: 40ć. The above temperatures are normal. 2˅In defrosting, and in 3 minutes after defrosting is over, if sensor is abnormal, there will not alarm. 3˅Outdoor defrosting temp. sensor: when ambient temp. is below -5ć, detect after having start for 3 minutes. 7.2.9.12 Backup operation Outdoor TC failure treatment: outdoor LED alarms, but the failure code will not be sent to other place, the outdoor default TC is as follow: cooling temperature, 5ć; heating temperature, 40ć. 7.2.9.13 Special functions 1) Power operation When receiving the Power operation signal from indoor, the unit will operate as the set frequency by EEPROM. Fan speed will depend on the ambient temperature and the frequency. When the Power signal is cancelled by indoor, the Power operation will stop. 2) Soft operation When receiving the Soft operation signal from indoor, the unit will operate as the set frequency by EEPROM. Fan speed will depend on the ambient temperature and the frequency. When the Soft signal is cancelled by indoor, the Soft operation will stop. 3) Time shorting operation When receiving the time shorting signal, the unit will perform the 1/60 time shorting operation. 4) Compulsory cooling operation When receiving the compulsory cooling signal from indoor unit, the unit will execute the compulsory cooling operation at the frequency sent from indoor. Only discharging temperature protection and current protection are valid, all the other protections are invalid. 5) Oxygen bar: start after receive indoor oxygen bar signal, the outdoor motor should run at 1-class speed when compressor stop. 6) Manual defrosting When receiving the manual defrosting signal from indoor, the unit will enter the defrosting operation immediately. The interval between two manual defrosts is at least 3 minutes. If the communication protoco has not the set, this function is not available. 7) Rated, Middle, Minimal operation When receiving the rated/middle/minimal operation signal from indoor, the unit will operate at the frequency and fan speed set by EEPROM, meanwhile, all the protections are valid. 7.2.9.14 Outdoor indicator Five-indicator combination shows the failure code. 4-bit dip switch: the normal position is ON. First bit: OFF, compulsory cooling. Second bit: OFF, compulsory heating. Third bit: OFF, backup operation (outdoor ambient temp.). Fourth bit: OFF, DC fan motor (ON, AC fan motor). -141- >a__WcU[S^ <[c >a`V[e[a`Wc 8 Electrical wiring diagram and PCB photo 8.1 Inverter outdoor unit AU182AFERA, AU242AGERA R W B 63'8 02'8/( U V W P(+) N(-) RO ACN B ACL CN10 W RI CN7 CRANKCASE HEATER 6 CN6 SW1 SW3 SW2 SW4 7 AUXILIARY CRANKCASE HEATER CN26 CN9 L(in) LED5 Y/G N(in) 1 W CN2 FUSE1 AC FAN MOTOR CAP. CN1 M AC FAN MOTOR CN8 SW5 LED3 ON 1234 LED4 CN25 LED2 SERIAL LED1 CN21 CN25 Sig CN19 0$,1%2$5' CN27 EEV M CN17 8 4-WAY VALVE WIRING DIAGRAM OF OUTDOOR UNIT 2 M CN10 CN3 DC FAN MOTOR COMPRESSOR VENT SENSOR CN11 CN12 CN13 P CN14 CN15 CN16 P HIGH PRESSURE SWITCH 5 1 W W RL1 3 R B 2 B B Y/G 0010576606 ),/7(5%2$5' CN3 B CN6 W N POWER SUPPLY L CN5 T25A 250VAC FUSE1 FUSE CN1 220VAC-L 220VAC-N CN7 CN2 PTC CN8 CN4 Y/G TO INDOOR UNIT Note: the PCB code for AU182AFERA and AU242AGERA is 0010452040. DC COMPRESSOR M U V W OR BL OR COMPRESSOR INHALE SENSOR DEFROST TEMP.SENSOR AMBIENT TEMP. SENSOR LOW PRESSURE SWITCH 3 4 /('%2$5' W:WHITE B:BLACK R:RED OR:ORANGE BL:BLUE Y/G:YELLOW/GREEN TEMP.:TEMPERATURE -142- ELECTROLYTIC CAPACITOR OR REACTOR NOTES: THIS TWO FAN MOTOR,AND DIFFERENT TYPE HAVE DIFFERENT MOTOR 1.DASHED PARTS 1 2 ARE JUST CAN SELECT ONE BETWEEN 2.PARTS IN DASHED FRAMES 3 4 5 6 ARE OPTIONAL 3.USER SHOULD NOT TO PRESS SW1-4 IN DASHED FRAME 7 4.AUXILIARY CRANKCASE HEATER IN DASHED FRAME 8 ARE OPTIONAL 5.THE LED1-5 ON LED BOARD ARE USED FOR ERROR ALARM 6.USER SHOULD NOT TO CHANG THE DIP SWITCH SW5 ON LED BOARD T3.15A - 250VAC >a__WcU[S^ <[c >a`V[e[a`Wc Outdoor main control board 0010452040 CN6 CN3 CN7 CN27 CN26 CN9 CN8 SW3 CN25 SW1 CN19 CN10 SW2 CN11 CN12 CN13 CN14 CN16 CN15 CN17 CN21 SW4 Outdoor filter board 0010403645 CN8 CN1 CN2 Outdoor indicator board 010452047 CN2 CN25 LED1 LED2 CN1 CN5 LED3 CN4 SW05 LED4 LED5 CN3 SW05 is used for factory quality control engineers, the default position is: OFF OFF OFF ON for AU182AFERA, as for AU242AGERA, the default position is: OFF OFF OFF OFF, for the above models, there are also module board 0010403555. -143- >a__WcU[S^ <[c >a`V[e[a`Wc AU362AHERA 0150500546 CIRCUIT DIAGRAM OF OUTDOOR UNIT capacitor M CRANKCASE 4-WAY VALVE HEATER SV2 AC FAN 2 MOTOR AC FAN 1 MOTOR SV1 CAPACITOR REACTOR - M capacitor + BL N L M H N CN18 L M H CN20 CN19 CN17 CN16 M CN14 UP CONTROL SW2 CN15 SW4 R ISPM S N(-) P(+) U V W P1 CN25 PTC 5 : % SW5 ON ON BOARD CN3 SIG LED1 COM FAN DOWN % : 5 CN2 L LED2 ALARM FA SW3 T/RB CN1 N FUSE1 250VAC T5A CIRCUIT M DC FAN MOTOR DC FAN MOTOR CN13 CN23 CN22 CN21 SPDU TO ISPM OR U 1234 1234 5678 V W SW6 SW1 COMPRESSOR CN12 CN11 CN10 CN9 CN8 CN7 CN5 CN4 CN6 SERIAL PMV M CN1 CN8 FUSE T25A 250VAC TC TS TD TE TA LP POWER CIRCUIT BOARD HP CN2 CN5 CN4 CN3 CN7 : : % 5 NOTE: 1.DESHAED FRAMES ARE OPTIONAL, AND IN SOME MODELS ARE NOT AVAILABLE. 2.USER SHOULD NOT TO CHANGE THE DIP SWITCH SW1,SW6. % <* <* L N 1 2 3 Y/G Y/G OR : ORANGE B : BLACK BL : BLUE Y/G : YELLOW/GREEN R : RED W : WHITE To Indoor Unit To Power Supply Outdoor PCB 0010452929 CN13 CN14 CN18 CN17 CN19 CN22 CN23 CN1 CN20 CN2 CN21 CN24 SW1 CN3 CN25 LED1 LED2 SW2 SW6 CN4 CN15 CN16 SW3 CN11 CN12 CN10 SW4 -144- SW5 CN8 CN9 CN7 CN6 CN5 >a__WcU[S^ <[c >a`V[e[a`Wc 8.2 Fixed frequency outdoor unit AU182AEEAA 0010573313 CIRCUIT DIAGRAM OF OUTDOOR UNIT 7 5 8 6 4 BL W B W GR 1 OUTDOOR AMBINENT SENSOR OUTDOOR PIPING SENSOR COMPRESSOR VENT SENSOR FAN N3 N2 ST HB N1 CIRCUIT DETECTOR CN1 CN2 CN10 CN3 COM CN4 CN12 CN11 NO S 2 M FAN MOTOR 4-WAY VAVLE WIND W B Y/G BL BL FAN MOTOR SPEED CONTROLLER CRANK HEATER N W B R Y/G 1 2 3 B FAN MOTOR CAP. W FUSE T3.15A/250VAC P LOW PRESSURE SWITCH RELAY 1 2 TRANS. HIGH PRESSURE SWITCH P 3 COM NO NC R C R S M Y/G COMPRESSOR TO INDOOR UNIT R:RED W:EHITE GR:GREY BL:BLUE B:BLACK Y/G:YELLOW/GREEN NOTE: 1. DASHED PARTS 1 IS NOT AVAILABLE IN ONLY COOLING TYPE 2. DASHED PARTS 2 IS OPTIONAL FOR LOW AMBIENT TEMP 0010451870E CT1 CN1 CN2 FAN CN10 ST CN3 HB CN12 N3 CN11 N2 N1 LED N S CN4 -145- >a__WcU[S^ <[c >a`V[e[a`Wc AU242AGEAA CIRCUIT DIAGRAM OF OUTDOOR UNIT TRANS. HIGH PRESSURE SWITCH CN2 LOW PRESSURE SWITCH CN1 BL CT B CN3 FAN MOTOR CN7 COMPRESSOR W B S R Y/G C W R W B CRANK CASE HEATER MAGNETIC CONTACTOR W B R Y/G 1 2 3 W B Y/G L N POWER SUPPLY Y/G 4-WAY VAVLE SOLENOID 2 S FUSE L1 CN4 N T3.15A/250VAC FAN MOTOR CAP. W CN5 CN11 DISCHARGE SENSOR 1 RELAY 3 NC 2 GR FAN MOTOR SPEED CONTROLLER B BL CN9 CN12 OUTDOOR PIPING SENSOR R 5 3 COM NO 8 6 4 B B R 7 CN10 1 OUTDOOR AMBINENT SENSOR Y/G NOTE: 1. DASHED PARTS 1 2 IS NOT AVAILABLE IN ONLY COOLING TYPE 2. DASHED PARTS 3 IS OPTIONAL IN LOW AMBIENT TEMP. COOLING TYPE, AND THERE IS NO FAN MOTOR SPEED CONTRLLER IN NORMAL TYPE TO INDOOR UNIT R:RED W:WHITE B:BLACK BL:BLUE GR:GRAY Y/G:YELLOW/GREEN AU282AHEAA CIRCUIT DIAGRAM OF OUTDOOR UNIT 0010573314 TRANS. 5 3 COM NO 8 6 4 B B R BL 7 HIGH PRESSURE SWITCH CN2 CN1 LOW PRESSURE SWITCH CT CN10 1 OUTDOOR AMBINENT SENSOR CN3 FAN MOTOR CN5 CN11 DISCHARGE SENSOR B Y/G 4-WAY VAVLE SOLENOID 2 S FUSE L1 CN4 N T3.15A/250VAC FAN MOTOR CAP. W CN12 OUTDOOR PIPING SENSOR R W CN9 1 RELAY 3 NC 2 GR FAN MOTOR SPEED CONTROLLER CN7 COMPRESSOR W Y/G C W B R Y/G 1 2 3 TO INDOOR UNIT R:RED W:WHITE B:BLACK BL:BLUE GR:GRAY Y/G:YELLOW/GREEN W B Y/G L N POWER SUPPLY S R W R W B MAGNETIC CONTACTOR Y/G CRANK CASE HEATER NOTE: 1. DASHED PARTS 1 2 IS NOT AVAILABLE IN ONLY COOLING TYPE 2. DASHED PARTS 3 IS OPTIONAL IN LOW AMBIENT TEMP. COOLING TYPE, AND THERE IS NO FAN MOTOR SPEED CONTRLLER IN NORMAL TYPE -146- >a__WcU[S^ <[c >a`V[e[a`Wc AU362AIEAA CIRCUIT DIAGRAM OF OUTDOOR UNIT TRANS. HIGH PRESSURE SWITCH CN2 LOW PRESSURE SWITCH BL CT B CN3 CN5 4-WAY VAVLE SOLENOID S FUSE L1 CN4 N T3.15A/250VAC Y/G C S R Y/G POWER SUPPLY R:RED W:WHITE B:BLACK BL:BLUE GR:GRAY Y/G:YELLOW/GREEN TO INDOOR UNIT FAN MOTOR 2 FAN MOTOR Y/G FAN MOTOR CAP W R W B MAGNETIC CONTACTOR W B R Y/G 1 2 3 FAN MOTOR CAP. B CN7 COMPRESSOR W W B Y/G L N 1 RELAY 3 NC 2 GR FAN MOTOR SPEED CONTROLLER W W CN9 CN11 DISCHARGE SENSOR B CN1 CN12 OUTDOOR PIPING SENSOR R 5 3 COM NO 8 6 4 B B R 7 CN10 1 OUTDOOR AMBINENT SENSOR CRANK CASE HEATER Y/G NOTE: 1. DASHED PARTS 1 2 IS NOT AVAILABLE IN ONLY COOLING TYPE 2. DASHED PARTS 3 IS OPTIONAL IN LOW AMBIENT TEMP. COOLING TYPE, AND THERE IS NO FAN MOTOR SPEED CONTRLLER IN NORMAL TYPE 0010452442E CN8 CT1 CN1 CN2 CN10 CN3 CN9 CN12 CN11 CN7 S LED CN5 L1 CN4 N -147- >a__WcU[S^ <[c >a`V[e[a`Wc AU28NAHEAA, AU36NAIEAA, AU48NAIEAA, AU60NAIEAA 0010573510 CIRCUIT DIAGRAM OF OUTDOOR UNIT 7 5 3 1 8 COM6 NO NC2 4 B R B GR TRANS. HIGH PRESSURE SWITCH CN1 CN2 5 CN10 CT LOW PRESSURE SWITCH 2 OUTDOOR AMBINENT SENSOR OUTDOOR PIPING SENSOR COMPRESSOR VENT SENSOR R BL W R B CN3 3 S L3 L2 FUSE L1 N T3.15A/250VAC FAN MOTOR SPEED CONTROLLER R W BL CN4 Y/G:YELLOW/GREEN R:RED W:WHITE BL:BLUE B:BLACK POWER SUPPLY TO INDOOR UNIT FAN MOTOR CAP Y/G FAN MOTOR CAP COMPRESSOR M 6 Y/G CRANK CASE HEATER B Y/G 1 MAGNETIC CONTACTOR CN7 R W BL B W B R Y/G R S T N12 3 Y/G FAN MOTOR 4-WAY VALVE SOLENOID CN5 CN11 FAN MOTOR W CN9 CN12 4 NOTE: 1. DASHED PARTS 1 IS NOT AVAILABLE IN COOLING CAPACITY BELOW 36000Btu 2. DASHED PARTS 2 3 IS NOT AVAILABLE IN ONLY COOLING TYPE 3. DASHED PARTS 4 IS OPTIONAL FOR LOW AMBIENT TEMP. COOLING, AND THERE IS NO FAN MOTOR SPEED CONTRLLER IN NORMAL TYPE 4. DASHED PARTS 5 6 ARE NOT AVAILABLE IN SOME TYPE AU42NALEAA 0150500023 CIRCUIT DIAGRAM OF OUTDOOR UNIT 7 8 TRANS. HIGH PRESSURE SWITCH 6 BL B R CN1 CN2 4 CN10 CT LOW PRESSURE SWITCH CN3 OUTDOOR AMBIENT SENSOR 1 OUTDOOR PIPING SENSOR 5P 10P SW1 COMPRESSOR VENT SENSOR BL R BL B W R 2 S L3 L2 FUSE L1 N T3.15A/250VAC 3 1 2 GR FAN MOTOR SPEED CONTROLLER Y/G FAN MOTOR CAP CN5 CN11 3 4 B Y R CN9 CN12 5 COM NO NC 4-WAY VALVE SOLENOID FAN MOTOR MAGNETIC CONTACTOR COMPRESSOR R W R S BL T CN7 M CN4 5 Y/G B B CRANKCASE HEATER Y/G Y/G:YELLOW/GREEN R:RED W:WHITE BL:BLUE B:BLACK GR:GRAY R S T N1 2 3 NOTE: 1. DASHED PARTS 1 2 ARE NOT AVAILABLE IN ONLY COOLING TYPE 2. DASHED PART 3 IS OPTIONAL FOR LOW AMBIENT TEMP. COOLING, AND THERE IS NO FAN MOTOR SPEED CONTRLLER IN NORMAL TYPE 3. DASHED PARTS 4 5 ARE NOT AVAILABLE IN SOME TYPE 4. FOR COOLING CAPACITY IS 52000BTU AND 28000BTU TYPES,THE DIP SWITCH SW1 IS ON 5P SIDE,FOR COOLING CAPACITY IS 42000BTU AND 36000BTU TYPES,THE DIP SWITCH SW1 IS ON 10P SIDE. 5. FOR COOLING CAPACITY IS 52000BTU TYPE,THE LINE THROUGH CT IS ONE CIRCUIT,FOR COOLING CAPACITY IS 42000BTU 36000BTU AND 28000BTU TYPES,THE LINE THROUGH CT IS TWO CIRCUITS. POWER SUPPLY TO INDOOR UNIT -148- >a__WcU[S^ <[c >a`V[e[a`Wc 0010452378E CN8 CT1 CN1 CN2 CN10 CN3 CN9 CN12 CN11 LED CN7 S CN6 L3 CN5 L2 L1 CN4 N -149- >a__WcU[S^ <[c >a`V[e[a`Wc 8.3 Indoor unit AB182ACERA CIRCUIT DIAGRAM OF INDOOR UNIT PUMP MOTOR M Y N1 W B N R CN18 CN1 CN3 L FUSE1 T3.15A/250VAC CN4 CN15 CN20 LOW S ON 1234 ON 12 BM4 BM3 BM1 CN21 MID CN22 CN6 RECEVIER TRANSFORMER HIGH ON 1234 CN13 CN12 CN14 BM2 PIPE ROOM CONTROLLER TRANS.-II TEMP. SENSOR LED2 LED1 ALARM FLOAT CN7 CN8 REMOTE CN10 FAN MOTOR M MOTOR CAPACITOR RECEIVE BOARD Y/G CN11 Itophome REMOTE CENTRALIZED CONTROLLER R Y BL W Y/G TO OUTDOOR UNIT ON 1234 CN16 STEP MOTOR CN17 PUMP N2 1 2 3 W B R Y/G STEP MOTOR PIPING TEMP. SENSOR WIRED CONTROLLER Y CN2 TRANS.-I M ROOM TEMP. SENSOR 0010576971 FLOAT SWITCH NOTE: 1.THE PARTS IN DASHED FRAME ARE OPTIONAL 2.REFER TO OPERATION MANUAL TO SET BM3 AND BM4 3.USER SHOULD NOT TO SET BM1 AND BM2 W:WHITE B:BLACK BR:BROWN BL:BLUE R:RED Y:YELLOW Y/G:YELLOW/GREED TEMP.:TEMPERATURE 0010452325E CN2 CN18 CN4 CN1 CN15 CN17 CN3 CN20 CN21 CN22 CN16 CN6 BM4 BM3 CN7 CN19 CN8 BM1 BM2 CN10 CN14 CN11 LED2 CN13 LED1 CN12 -150- >a__WcU[S^ <[c >a`V[e[a`Wc AB182ACEAA CIRCUIT DIAGRAM OF INDOOR UNIT PUMP MOTOR M M Y N1 BR BL N CN2 STEP MOTOR LED3 SIGNAL CN1 ON 1234 ON 1234 BM4 BM3 L STEPMOTOR CN17 PUMP FUSE1 T3.15A/250VAC CN16 ON 12 BM1 ON 1234 CN13 CN14 BM2 PIPE ROOM CONTROLLER LED2 LED1 CN4 CN21 TRANS.-I CN20 MID CN22 CN6 RECEVIER ALARM LOW CN15 CN7 HIGH N2 W L N BR BL Y/G Y/G R Y BL R B TRANSFORMER Y CN3 CN18 ROOM TEMP. SENSOR 0010576979 PIPING TEMP. SENSOR WIRED CONTROLLER Y/G M 1 2 3 W B R Y/G REMOTE CN10 W FAN MOTOR Y/G MOTOR CAPACITOR POWER SUPPLY TO OUTDOOR UNIT FLOAT CN8 RECEIVE BOARD FLOAT SWITCH CN12 TRANS.-II CN11 Itophome REMOTE CENTRALIZED CONTROLLER NOTE: 1.THE PARTS IN DASHED FRAME ARE OPTIONAL 2.REFER TO OPERATION MANUAL TO SET BM3 AND BM4 3.USER SHOULD NOT TO SET BM1 AND BM2 W:WHITE B:BLACK BR:BROWN BL:BLUE R:RED Y:YELLOW Y/G:YELLOW/GREEN TEMP.:TEMPERATURE 0010452478E CN12 LED1 CN13 LED2 CN11 CN14 CN10 BM2 BM1 CN8 CN19 BM3 CN7 BM4 CN6 CN16 CN22 LED3 CN21 CN3 CN20 CN1 CN15 CN17 CN18 CN4 CN2 -151- -152- * * * * * BM2(1) Ĝ/h * * * Emergency switch No outdoor PCB With outdoor PCB, fixed speed single split unit With outdoor PCB, fixed speed multi split unit With outdoor PCB, inverter single split unit Inverter unit selection Temp. compensation 4ć available/not available Wired control/ infrared control Cooling only/heatpump Master/slave wired controller * * Ĝ/h * BM2(2) * * * * Ĝ 128 Ĝ Ĝ h h 127 Ĝ 6 h h h 5 Ĝ Ĝ Ĝ 4 Ĝ 126 h 3 h h 2 ĂĂ Ĝ 2 1 ĂĂ h 1 address 3 Ĝ Ĝ Ĝ ĂĂ Ĝ Ĝ h h h h BM4 Ĝ Ĝ Ĝ ĂĂ h h h h h h 4 Ĝ Ĝ Ĝ ĂĂ h h h h h h 1 Ĝ Ĝ Ĝ ĂĂ h h h h h h 2 Ĝ Ĝ Ĝ ĂĂ h h h h h h 3 BM3 Ĝwith network home appliance hshows no network home appliance 4 Emergency * Emergency switch SW1(receiver) Network address selection (Ĝshows jumper connected, ON; hshows jumper disconnected, OFF) Time shorting Time shorting switch Time shorting switch CN7 Jumper selection (Ĝshows jumper connected, ON; hshows jumper disconnected, OFF; * shows no limitation) 0010452325E / 0010452478E information - function selection * Ĝ/h * * BM2(3) Ĝ h Ĝ h * * BM1(1) Ĝ/h * * * BM2(4) Ĝ Ĝ h h * * BM1(2) >a__WcU[S^ <[c >a`V[e[a`Wc >a__WcU[S^ <[c >a`V[e[a`Wc AC182/242ACERA, AC182/242ACEAA, AD182AMERA, AD182ALEAA 0010576546 CIRCUIT DIAGRAM OF INDOOR UNIT FUSE T2.0A/250VAC M R B BL B TRANS. 2 (L) Y BL ON ON 12 1234 P14 P16 CN21 P17 SW3 1 (ROOM/PIPE) (FREEZE) SW2 CN8 CN6 SW1 P15 (H) P13 (M) P12 (PUMP) (SWING) (HUMI) (HEAT) @ Y/G 1 2 3 N L P11 W (L') (N') R M SWING MOTOR @ W (OXYGEN) (FRESH) OR OR P9 P10 FLOAT SWITCH SW5 SW4 CN20 NOTE: 1. PARTS 1 2 3 ARE NOT AVAILABLE 2. PARTS 4 5 6 ARE OPTIONAL, AND THE LINE 9 12 Y Y 11 MARKED 13 ONLY AVAILABLE Y/G M M FAN IN CONVERTIBLE TYPE M PIPING TEMP. ROOM MOTOR 3. PART 7 NOT AVAILABLE SENSOR SWING MOTOR TEMP. PUMP IN DUCT TYPE MOTOR SENSOR FAN CAP. 4. PARTS AND CONNECTED WIRES IN DASHED FRAME 8 ONLY FOR AB14/182ACBEA 5.PARTS AND CONNECTED WIRES IN DASHED FRAME 9 10 ARE NOT AVAILABLE IN AD14/182AMBEA, AND IN CONVERTIBLE TYPE, CORRESPONDINGLY THERE IS A CLIP ON PCB. PARTS AND CONNECTED WIRES IN DASHED FRAME 11 ONLY FOR ? AC142/182/242ACBEA/AC242ACEAA TYPE .PARTS AND CONNECTED WIRES IN DASHED FRAME 12 DETERMINED BY PRODUCTS TYPE. 6. IN AC242ACBEA/AC242ACEAA, DASHED LINES MARKED @ CONNECTED TO "1 , 2" ON TERMINAL BLOCK, AND THERE ARE NO LINES BETWEEN "1 AND L" , "2 AND N". IN *******BIA OR ******ERA TYPE,THE POWER SUPPLY COME FROM OUTDOOR UNIT, AND THE FUSE TYPE IS T3.15A/250VAC 7.ABOUT THE TERMINAL BLOCK,MARK "BL" IS EQUAL "B" AND THE "BR" IS EQUAL "W".REFER TO OPERATION MANUAL TO SET SW1-SW5 M B R B P8 P6(N4) P5(N3) 7 W (CONTROLLER) P7 P1(L) CN19 10 ON ON ON 1234 1234 1234 CN7 FUSE T6.3A/250VAC T3.15A/250VAC P2(N) 5 3 CN12 (ALARM) CN11 (DOOR) 13 CN15 (FLOAT) B A CN16 (REMOTE) CN13 (RECEIVE BOARD) (COMM) CN4 P3(N1) P CN14 (UP-DOWN) (12V/ALM) W:WHITE B:BLACK R:RED Y:YELLOW OR:ORANGE BL:BLUE BR:BROWN Y/G:YELLOW/GREEN TRANS.:TRANSFORMER 6 CN2 CN17 CN5 WIRED CONTROLLER P4(N2) W CN1 FILTER MOTOR CN1 8 MC1 MC2 COM N FG L M 4 REMOTE CENTRALIZED CONTROLLER REMOTE RECEIVER W B R BL BR Y/G TO OUTDOOR UNIT POWER SUPPLY AB242/362ACERA, AB242/282/482/602ACEAA, AC282/362/482/602AFEAA, AD242ALERA, AD242ALEAA, AD242/282/362/482AMEAA, AD242/362AMERA, AB362ACERA 0010576547 CIRCUIT DIAGRAM OF INDOOR UNIT 6 4 TRANS. 5 W B R W B R Y/G TO OUTDOOR UNIT Y/G OR OR P6(N4) Y Y M SWING MOTOR PUMP MOTOR 9 W P13 (M) P12 (L) P11 (PUMP) (SWING) P9 P10 (HUMI) P8 (HEAT) P7 M B 1 2 3 2 P5(N3) P1(L) 8 13 UP-DN L-R SW5 SW4 P16 CN21 P17 SW3 1 (ROOM/PIPE) (FREEZE) SW2 CN8 CN6 SW1 CN19 (OXYGEN) CN7 (FRESH) P2(N) 3 (CONTROLLER) FUSE T3.15A/250VAC P4(N2) P3(N1) (RECEIVE BOARD) Y BL M Y/G P14 CN20 P15 (COMM) CN5 CN12 (ALARM) CN11 (DOOR) 14 CN15 (FLOAT) B A CN16 (REMOTE) CN13 CN14 (UP-DOWN) ON ON 12 1234 (12V/ALM) ON ON ON 1234 1234 1234 CN17 CN4 (H) CN1 WIRED CONTROLLER REMOTE CONTROLLER CENTRALIZED REMOTE RECEIVER M M W R (L') (N') W:WHITE B:BLACK R:RED Y:YELLOW OR:ORANGE BL:BLUE BR:BROWN Y/G:YELLOW/GREEN CAP.:FAN MOTOR CAPACITOR TRANS.:TRANSFORMER 7 FLOAT SWITCH 10 11 Y/G M SWING 12 MOTOR ROOM CAP. CAP. FAN MOTOR NOTE: 1. PARTS 1 TEMP. SENSOR PIPING TEMP. SENSOR 2 3 IN DASHED FRAME ARE NOT AVAILABLE 2. PARTS 4 5 6 ARE OPTIONAL, AND THE LINE MARKED 14 ONLY AVAILABLE IN CONVERTIBLE TYPE 3. PARTS AND CONNECTED WIRES IN DASHED FRAME 7 9 ARE NOT AVAILABLE IN CONVERTIBLE TYPE, AND CORRESPONDINGLY THERE IS A CLIP ON PCB 4. PARTS AND CONNECTED WIRES IN DASHED FRAME 8 ARE NOT AVAILABLE IN DUCT TYPE 5. PARTS AND CONNCETED WIRES IN DASHED FRAME 10 11 DETERMINED BY PRODUCTS TYPE 6. PARTS AND CONNECTED WIRES IN DASHED FRAME 12 13 ONLY AVAILABLE IN AC***AFBEA TYPE 7. REFER TO OPERATION MANUAL TO SET SW1-SW5 -153- >a__WcU[S^ <[c >a`V[e[a`Wc AC362AFERA 0150500547 CIRCUIT DIAGRAM OF INDOOR UNIT 4 5 (12V/ALM) 13 UP-DN CN7 BL M Y/G CN21 CN30 CN27 CN31 1 SW2 (ROOM/PIPE) (FREEZE) SW1 CN33 CN32 W CN5(N3) CN6(N4) R CN1(L) W B R 10 OR OR Y/G Y Y 11 Y/G M M SWING MOTOR PUMP MOTOR 9 B 1 2 3 7 FLOAT SWITCH (L') (N') (COMM) Y SW3 SW4 CN15 (H) (PUMP) (SWING) CN9 CN8 (M) CN1 CN10 (L) CN12 (OXYGEN) CN13 CN4(N) 8 L-R CN16 (HEAT) CN3(N1) 3 2 (FRESH) FUSE WIRED CONTROLLER CN2(N2) T3.15A/250VAC CN20 (RECEIVE BOARD) ON ON 12 1234 CN18 CN14 CN22 (ALARM) CN23 (DOOR) 14 CN24 (FLOAT) B CN34 (REMOTE) A CN26 CN25 (UP-DOWN) CN28 CN17 6 W:WHITE B:BLACK R:RED Y:YELLOW OR:ORANGE BL:BLUE BR:BROWN Y/G:YELLOW/GREEN CAP.:FAN MOTOR CAPACITOR TRANS.:TRANSFORMER REMOTE CONTROLLER CENTRALIZED REMOTE RECEIVER ON ON 1234 1234 TRANS. M CAP. W M M PIPING TEMP. SENSOR SWING 12 MOTOR ROOM TEMP. SENSOR CAP. FAN MOTOR NOTE: 1. PARTS 1 2 3 IN DASHED FRAME ARE NOT AVAILABLE 2. PARTS 4 5 6 ARE OPTIONAL, AND THE LINE MARKED 14 ONLY AVAILABLE IN CONVERTIBLE TYPE 3. PARTS AND CONNECTED WIRES IN DASHED FRAME 7 9 ARE NOT AVAILABLE IN CONVERTIBLE TYPE, AND ALSO NOT AVAILABLE IN AD***AMBEA(ECO) ,AND CORRESPONDINGLY THERE IS A CLIP ON PCB 4. PARTS AND CONNECTED WIRES IN DASHED FRAME 8 ARE NOT AVAILABLE IN DUCT TYPE 5. PARTS AND CONNECTED WIRES IN DASHED FRAME 10 11 DETERMINED BY PRODUCTS TYPE 6. PARTS AND CONNECTED WIRES IN DASHED FRAME 12 13 ONLY AVAILABLE IN AC***AFBEA TYPE 7. IN ******BIA OR ******ERA TYPE, THE FUSE TYPE IS T3.15A/250VAC 8. REFER TO OPERATION MANUAL TO SET SW1-SW4 W B R Y/G TO OUTDOOR UNIT AD282/362/482/602AHEAA 0010576548 CIRCUIT DIAGRAM OF INDOOR UNIT P6(N4) P14 BL 8 6 4 2 R FC 9 B 1 2 3 W B R Y/G Y/G COM NO NC 8 6 4 2 7 5 3 1 CAP. M W TO OUTDOOR UNIT COM NO NC Y/G FAN MOTOR 7 5 3 1 8 6 4 2 COM NO NC W 7 5 3 1 M CAP. P15 (COMM) Y P13 (H) P12 (M) P11 (L) P9 P10 (PUMP) P8 (SWING) P7 R W B CN20 SW5 SW4 3 P5(N3) P1(L) CN19 2 CN12 (ALARM) CN11 (DOOR) CN15 (FLOAT) B A CN16 (REMOTE) (RECEIVE BOARD) 4 (OXYGEN) P2(N) CN7 (HEAT) P4(N2) P3(N1) CN13 CN14 (UP-DOWN) 5 (CONTROLLER) (FRESH) CN5 FUSE T3.15A/250VAC WIRED CONTROLLER CN17 (12V/ALM) CN4 (HUMI) CN1 7 REMOTE CENTRALIZED CONTROLLER 6 (L') (N') ROOM TEMP. SENSOR W:WHITE B:BLACK R:RED Y:YELLOW OR:ORANGE BL:BLUE BR:BROWN Y/G:YELLOW/GREEN CAP.:FAN MOTOR CAPACITOR FC:FAN MOTOR SPEED CONTROLLER TRANS.:TRANSFORMER FLOAT SWITCH CN21 P16 P17 (ROOM/PIPE) (FREEZE) CN6 CN8 ON ON 12 1234 TRANS. 8 SW3 1 SW2 SW1 ON ON ON 1234 1234 1234 REMOTE RECEIVER PIPING TEMP. SENSOR Y/G FAN MOTOR 10 NOTE: 1. PARTS 1 2 3 4 5 IN DASHED FRAME ARE NOT AVAILABLE 2.PARTS 6 7 8 ARE OPTIONAL 3. PART 9 IS FAN MOTOR SPEED CONTROLLER KIT 4. PARTS 10 AND CONNECTED DASHED LINES ONLY AVAILABLE IN AD88NAHBEA 5. REFER TO OPERATION MANUAL TO SET SW1-SW5 Note: for the above indoor units, the PCB code is 0010451690E / 0010451167E, the detail information please refers to page 53 and page 54. -154- >a__WcU[S^ <[c >a`V[e[a`Wc Fan speed control board 001A3300352E K1 L N P1 F Fan speed adjusting board test method Connect the test device with fan speed adjusting board, dial power switch ON, then revolve P1 slowly to place 1, place 2, place 3… until place 8, the indicate lamp of port F(voltage output contolled by fan motor) will change from dark to light, revolve P1 slowly from place 8 to place 1, the indicate lamp of port F will change from light to dark. Place Note: the voltage in each place is tested in the condition Port F voltage output˄VAC˅ 1 132-139 2 151-158 3 168-175 4 184-190 5 196-203 6 205-211 7 212-218 8 220 of power voltage is 220V and frequence is 50Hz. When power characteristics (voltage, frequence) change and load characteristic is different, the port F voltage output will change. Test K1 according to the following method: 50Hz is selected if dial K1 to the right 60Hz is selected if dial K1 to the lef cut off the wiring clamp when use the fan speed adjusting board Connect the two port Dial P1 to realize fan speed adjusting -155 >a__WcU[S^ <[c >a`V[e[a`Wc 0010451690E CN11 SW5 CN21 CN15 SW3 SW4 SW2 CN12 SW1 CN16 CN8 CN6 CN13 LED1 CN14 P16 CN17 P17 CN20 P15 CN19 P14 P13 P12 LED5 P11 LED4 P10 CN7 P6 P9 CN5 P8 CN4 P5 P7 P1 CN1 P4 -156- P3 P2 >a__WcU[S^ <[c >a`V[e[a`Wc 0010451167E CN11 SW5 CN21 CN15 SW3 SW4 SW2 CN12 SW1 CN16 CN8 CN6 CN13 LED1 CN14 P16 CN17 P17 CN20 LED3 P15 CN19 P14 P13 P12 LED5 P11 LED4 P10 CN7 P6 P9 CN5 P8 CN4 P5 P7 P1 CN1 P4 -157- P3 P2 >a__WcU[S^ <[c >a`V[e[a`Wc Condition for the PCB data: 1.Working ambient temperature:ˉ10ć̚70ć, relative humidity:30%̚95% 2.Preserved ambient temperature:ˉ20ć̚80ćˈrelative humidity˖30%̚95% 3.Power supply:220VACǃ50/60Hzˈvoltage range:160V̚250V 4.Precise of temperature control:r1ć 0010451167E PCB information – port and definition P1üüconnect to external power supply, live line: L (220VAC) P2üüconnect to external power supply, neutral line: N (0VAC) P3ǃ4ǃ5ǃ6üücontrol external load, neutral line: N1ǃN2ǃN3ǃN4(0VAC) P7üücontrol external load, electrical heat: HEAT (control output 220VAC) P8üücontrol external load, health function: OXYGEN (control output 220VAC) P9üücontrol external load, humidification: HUMI (control output 220VAC) P10üücontrol external load, SWING(control output 220VAC) P11üücontrol external load, WATER PUMP(control output 220VAC) P12üücontrol external load, indoor fan motor low speed: L(control output 220VAC) P13üücontrol external load, indoor fan motor mid speed: M(control output 220VAC) P14üücontrol external load, indoor fan motor high speed: H(control output 220VAC) P15üücommunication with fixed frequency single outdoor unit: COMM(0~220VAC) P16üüinput control, signal live line: L’(220VAC) P17üüinput control, signal neutral line: N’(0VAC) CN1üüinput port of transformer (220VAC) CN2üüinput port 1 of transformer (no use) CN3üüinput port 2 of transformer (no use) CN4üüinput port 3 of transformer (1-2ǃ14VACˈ3-4ǃ12VAC) CN5üüinput control, connecting port to wired controller: CONTROLLER˄three bits: 1. power supply: 12VAC, 2. power supply: 0VAC, 3. communication: COMM.˅. CN6üüinput control, ambient temp.-coil temp. sensor connecting port: ROOM/PIPE˄1-2ǃROOMˈ3-4ǃ PIPEDŽ˅ Indoor ambient temp. sensor: R25=23K¡+-2.5%ˈB25/50=4200K+-3%ˈrange:˄-40ˈ80˅ Indoor coil temp. sensor: R25=10K¡+-3%ˈB25/50=3700K+-3%ˈrange:˄-20ˈ90˅ CN7üücontrol external load, fresh air control: FRESH˄1. blank, 2. power supply 0VDC, 3. control output: 12VDC.˅ CN8üüinput signal: FREEZE˄no use˅ CN9üüinput control˄no use˅ CN10üücommunication with fixed frequency single outdoor unit: (0~12VDC) CN11üüinput signal, door switch: DOOR˄1-2 short circuit is normal, cut off P8 output˅ CN12üüinput signal, external alarm input: ALARM˄1-3 short circuit is normal, if cut off, air conditioner stops work.˅ Note: For convertible type, cassette type, duct type units, CN11 and CN12 must be in short circuit, or PCB will display failure information. CN13üüinput signal, wiring port of remote receiver board: RECEIVE BOARD˄1. power supply 5VDC, 2. power supply 0VDC, 3. remote signal, 4. signal output of running lamp 0VDC, 5. signal output of timer lamp 0VDC,6. signal output of power lamp 0VDC, 7. signal output of water pump running lamp 0VDC˅ CN14üücontrol external load, auto elevating function ˄1. signal of door switch close, 2. output of elevating direction control 0VDC, 3. output of elevating power control 0VDC, 4. power supply 12VDC˅ -158- >a__WcU[S^ <[c >a`V[e[a`Wc CN15üüinput signal, detecting water level of float switch ˄1-3 short circuit is normal, cut off shows that level exceeds the limitation˅.If float switch cuts off or occurs other failure, LED1 will flash 10 times. CN16üüinput control, wiring port of central controller: REMOTE˄1ǃRS485-Bˈ2ǃRS485-ADŽ˅ CN17üüoutput signal, output signal of failure alarm, control external load, 12V/ALM˄1. control output 0VDC, 2. power supply 12VDC˅ CN18üüoutput signal (no use) CN19üücontrol external load, swing 1˄1ǃ16VDCˈ2ǃ0VDCˈ3ǃ0VDCˈ4ǃ0VDCˈ5ǃ0VDC.˅. CN20 üücontrol external load, swing 2˄1ǃ16VDCˈ2ǃ0VDCˈ3ǃ0VDCˈ4ǃ0VDCˈ5ǃ0VDC.˅. CN21üüinput signal, spring switch, CHECK˄1ǃinput signal of earthing, 2. power supply 0VDC˅ CN22üüshort circuit means selecting single split communication type.( no use) CN23üüshort circuit means selecting multi split communication type.( no use) 0010451167E PCB information – function selection˄ON is 1, OFF is 0˅ The standard condition for PCB in factory SW1˖4 bits are OFF SW2˖4 bits are OFF SW3˖4 bits are ON SW4˖2 bits are ON SW5˖4 bits are ON SW1-SW2: used for indoor unit to set unit address from 1 to 128’ SW3-SW5: used for indoor unit to select different functions.(every dip switches are corresponding to J1-J10. SW2-4üülogistic relationship of control function˄door card control and remote/ wired control˅0 means logistic relationship is “and”, 1 means the later coming is preferential. J1ˈSW3-1üüfunction selection-control type: 1 means remote control, 0 means wired control. J2ˈSW3-2üüfunction selection-temperature compensation in heating mode: 1means “yes”, 0means “no”. J3ˈSW3-3üüfunction selection-outdoor communication: 1means “yes”, 0means “no”. This PCB must be 1. J4ˈSW3-4üüfunction selection-heat pump unit: 1means “heat pump”, 0means “cooling only”. 1/60üütest in short circuit, but in operation short circuit mustn’t be permitted. CHECKüüshort spring switch control, it also can be used as switch of convertible type except for testing. J5ˈSW4-1üüfunction selection-elevating function: 1means “yes”, 0 means “no”. J6ˈSW4-2üüfunction selection –health function: 1means common (indoor fan motor running); 0 means special (indoor, outdoor running). J7ˈSW5-1üüfunction selection –swing mode: 1 means common˄simultaneous motor˅, 0 means special (swing motor). J8ˈSW5-2üüfunction selection – system combination: 1means fixed frequency single unit, 0 means fixed frequency multi split. J9ˈSW5-3üüfunction selection –group control: 1 stands for the master unit (its address in wired controller is 0), 0 stands for the slave units (the address should be set by the dip switch, their addresses only can be in the range: 1~15) J10ˈSW5-4üüfunction selection –preset. 0010451167E PCB information- control type Control type selection between remote and wired: select by dip switch J1, SW3-1˄1 means remote control˗ 0 means wired control.) For remote control type, please use remote controller YR-H71, and a remote receiver is equipped with indoor unit. For wired control type, wired controller YR-E12 will be used, 3-core shied wire is equipped with -159- >a__WcU[S^ <[c >a`V[e[a`Wc indoor unit. Door card control: controls ON/OFF, the start up setting will comply with last time request memorized according to condition memorize function. Its difference with emergency switch of convertible type unit lies: the emergency switch control will perform in the condition: 24degrees, auto fan speed in auto mode. The function combination between door card and remote/wired control type: select by dip switch: SW2-4˄0 means “and”, 1 means later coming is preferential.˅ Dip switch position in wired control type: Only one indoor unit of all indoor units connected with wired controller is the master unit, whose address is 0, function selection switch˄J9ˈSW5-3˅is 1. The others are slave units, and the quantity can be 0~15, whose addresses are˄SW1:1~4˅from 1 ~15, and cannot repeat. Wiring request in wired control type: the wired controller ports A-B-C are connected with indoor port CN5 ˄1-2-3˅ through 3-core shield wire. Requirements: 1. Port A only connects with either of indoor port CN5˄1˅ 2. Port B connects with port CN5 (2) of all indoor units. 3. Port C connects with port CN5 (3) of all indoor units. Dip switch position in central control type: the addresses ˄SW1:1~4˗SW2:1~4˅of indoor units connected with central controller can not repeat. In principle, they should be in the order from small to big. Wiring request in central control type: port A-B is connected with indoor port CN16˄A-B˅through 2-core shield wire. Requirements: 1. Port A connects with port CN16˄A˅of all indoor units. 2. Port B connects with port CN16˄B˅of all indoor units. When only use remote control type, please select remote control unit, and install according to installation manual, there is no other special request. When only use wired control type, please select wired control unit, and install according to installation manual. When control multi indoor units, take care the requirements of dip switch and wiring, there is no other special request. When only use central control type, please firstly install according to air conditioner requests and set the dipswitch, there is no other special request. When central control type˄128h˅and remote control type are used simultaneously, set the dip switch according to central control type, there is no other special request. When central control type˄128h˅and wired control type ˄16h˅are used simultaneously, max. indoor units sets: 128h16 can be controller. Address setting of central controller can be met firstly, and then modulate the address setting of slave unit wired controlled. LED in indoor PCB: 1. LED1˖is the state lamp for remote receiver as well as failure lamp. If indoor unit is normal, LED1 is on, or if failure occurs, LED1 flashes regularly, and you can adjust failure type according to the flash times. 2. LED2˖is used for multi split units as communication lamp. If communication between indoor and outdoor is normal, LED2 will be on. 3. LED3˖is used for single split units as communication lamp. If communication between indoor and outdoor is normal, LED3 will be on. 4. LED4ǃLED5˖is the lamp that shows the data receiving or sending between wired controller and PCB, If LED4ǃLED5 be on in turn, communication between wired controller and PCB is normal. -160- >a__WcU[S^ <[c >a`V[e[a`Wc AP422ACEAA CIRCUIT DARGRMA OF INDOOR UNIT '(7(&725 TRANS. 21(2))3527(&725 5(680$%/( 3527(&725 +($7(5 &1 &1 &1 &1 : TERMINAL BLOCK % T6.3A/250VAC &1 5 &1 %0 ROOM TEMP. &1 12 FUSE &1 &1 &1 &1 &1 &1 <* &1 &1 ',36:,7&+ PIPING TEMP. &1 5 %/ < % TO OUTDOOR UNIT REMOTE SWING MOTOR 0 0 FAN MOTOR CAP. ::+,7(%%/$&. <* FAN MOTOR 55('%/%/8( <<(//(: 127(˖7+('(7(&725:+,&+,686('725($/,=(&(175$/&21752/,6237,21$/3$57+($7(5,6127$9$/$%/()2512 <*<(//(:*5((1 (/(&75,&+($7,1*)81&7,2181,77+(6:,7&++$'%((16(77(',1)$&725<$1''2127&+$1*( 0010451432 CN6 CN19 CN8 CN9 CN5 CN16 CN2 CN17 L CN10 SW3 CN14 CN3 CN15 CN1 CN26 CN25 CN24 CN23 CN22 CN21 LED1 -161- CN12 >a__WcU[S^ <[c >a`V[e[a`Wc AP482AKEAA CIRCUIT DIAGRAM OF INDOOR UNIT 0010578100 TRANSFORMER B R 3 W 1 2 TO OUTDOOR UNIT Y/G CN24 CN5 CN4 CN6 T3.15A/250VAC CN25 FUSE ROOM TEMP. SENSOR CN7 CN3 PIPING TEMP. SENSOR CN23 BM1 BM2 BM3 BM4 CN22 CN11 CN12 CN13 ONE-OFF FUSE CN2 CONTROL PANEL CN10 M M SWING MOTOR R BL Y B SWING MOTOR RESUMABLE PROTECTOR HEATER M CAPACITOR Y/G REMOTE CONTROLLER FAN MOTOR B:BLACK R:RED NOTE˖1ǃREMOTE CONTROLLER IS OPTIONAL . 2ǃREFER TO OPERATION INDOOR MANUL TO SET DIP BM1-BM4 . PLEASE DO NOT CHANGE THE DIP SWITCH RANDOM. Y/G:YELLOW/GREEN 3ǃNO ELECTRIC HEATING TYPE WITHOUT ELECTRIC HEATER. W:WHITE BL:BLUE BM1 Funcion selection BM1-1 ON/OFF cooling only / heat pump BM1-2 ON/OFF Automatic run A / B mode BM2 and BM3: used for indoor unit to set unit address from 1 to 128’ BM4 Panel selection Select the panel according to the 2 dip switch Style of panel 1 2 Cabinet V panel OFF ON Cabinet Z panel ON OFF Wired controller ON ON -162- >a__WcU[S^ <[c >a`V[e[a`Wc 0010452322 CN22 CN13 CN12 CN4 CN20 CN11 CN19 CN3 CN5 CN25 LED CN6 BM1 CN2 CN7 BM2 BM3 CN10 BM4 -163- >a__WcU[S^ <[c >a`V[e[a`Wc AS182AVERA WIRING DIAGRAM OF WALL MOUNTED UNIT RECEIVER M M M CN3 L-MOTOR CN2 UP DOWN CN1 SW2 CON1 SW3 ON OFF L ON OFF NOTE: 1.DASHED PART 1 IS OPTIONAL FOR CENTRAL CONTROL FUNCTION 2.SW2: USED TO SELECT MODEL ,SW3: USED TO SELECT TEMP. COMPENSATE FUNCTION OF HEATING MODE ,USER SHOULD NOT CHANGE THEM 3.SW4-5: USED TO SET THE INDOOR UNIT NUMBER WHEN IN GROUP CONTROL SW4 CON2 SIGNAL N B 2 CN7 CN10 CENTRALIZED CONTROLLER EMERGENCY SWITCH R 3(c) ROOM TEMP. SENSOR 1 SW1 W 1 CN6 ON SW5 FUSE T3.15A/250VAC ON CN4 R-MOTOR CN5 CON3 1234 DC FAN MOTOR M PIPING TEMP. SENSOR Y/G M SWING SWING SWING SWING MOTOR 1 MOTOR 2 MOTOR 3MOTOR 4 1234 NEGATIVE ION GENERATOR 0010576611 Y/G TO OUTDOOR UNIT B:BLACK W:WHITE R:RED Y/G:YELLOW/GREEN TEMP.:TEMPERATURE 0010452042 CN8 SW4 SW5 SW2 CN5 SW3 CN4 CN6 CN10 CN3 CN7 CN2 -164- CN1 >a__WcU[S^ <[c >a`V[e[a`Wc 8.4 sensor characteristic model name code sub-part code 0010450192 001A3800082 R25=10Kȍ±3% B25/50=3700K±3% mid-condenser temperature sensor 0010450195 001A3800093 R25=10Kȍ±3% B25/50=3700K±3% oil temperature sensor 0010451305 001A3800093 R25=10Kȍ±3% B25/50=3700K±3% discharging temperature sensor 0010451313 001A3800096 R80=50Kȍ±3% B25/80=4450K±3% outdoor ambient temperature sensor AU242AGERA AB242ACERA ambient temperature sensor AB282ACEAA AB482ACEAA AB602ACEAA coil temperature sensor 001A3900159 AD242ALERA ambient temperature sensor AD182ALEAA AC242ACEAA coil temperature sensor 0010451323 ambient temperature sensor 0010451323 coil temperature sensor 001A3800128 001A3900006 001A3900006 AD242AMERA AB182ACERA AC242ACERA AB182ACEAA AC182ACEAA ambient temperature sensor AB242ACEAA AD242ALEAA AD242AMEAA AD282AMEAA AB362ACEAA AC362AFEAA coil temperature sensor AD362AMEAA AD482AHEAA AD602AHEAA characteristic 001A3900003 R25=23Kȍ±2.5% B25/50=4200K±3% 001A3900004 R25=10Kȍ±3% B25/50=3700K±3% 001A3900003 R25=23Kȍ±2.5% B25/50=4200K±3% 001A3900004 R25=10Kȍ±3% B25/50=3700K±3% 001A3900003 R25=23Kȍ±2.5% B25/50=4200K±3% 001A3900004 R25=10Kȍ±3% B25/50=3700K±3% 001A3900005 001A3900003 R25=23Kȍ±2.5% B25/50=4200K±3% 001A3900006 001A3900004 R25=10Kȍ±3% B25/50=3700K±3% 001A3900110 001A3800090 R25=5Kȍ±3%ˈ B25/50=3450K±3% 0010451312 001A3800091 discharging temperature sensor 0010451313 001A3800096 R25=5Kȍ±3%ˈ B25/50=3450K±3% R80=50Kȍ±3% B25/80=4450K±3% outdoor ambient temperature sensor 001A3900110 001A3800090 R25=5Kȍ±3% B25/50=3450K±3% 0010451314 001A3800091 R25=5Kȍ±3%ˈ B25/50=3450K±3% 0010450398 001A3800096 R80=50Kȍ±3% B25/80=4450K±3% outdoor ambient temperature sensor AU182AEEAA coil temperature sensor AU242AGEAA coil temperature sensor discharging temperature sensor -165- >a__WcU[S^ <[c >a`V[e[a`Wc outdoor ambient temperature AU282AHEAA sensor AU362AIEAA AU36NAIEAA coil temperature sensor AU48NAIEAA AU60NAIEAA discharging temperature sensor AC482AFEAA AC602AFEAA 001A3900110 001A3800090 R25=5Kȍ±3% B25/50=3450K±3% 0010451314 001A3800091 R25=5Kȍ±3%ˈ B25/50=3450K±3% 0010450398 001A3800096 R80=50Kȍ±3% B25/80=4450K±3% ambient temperature sensor 001A3900005 001A3900003 R25=23Kȍ±2.5% B25/50=4200K±3% coil temperature sensor 001A3800128 001A3900004 R25=10Kȍ±3% B25/50=3700K±3% ambient temperature sensor 001A3900159 001A3900003 R25=23Kȍ±2.5% B25/50=4200K±3% coil temperature sensor 001A3800128 001A3900004 R25=10Kȍ±3% B25/50=3700K±3% coil temperature sensor 0010401922 001A3900004 R25=10Kȍ±3% B25/50=3700K±3% temperature sensor 001A3900159 001A3900003 outdoor ambient temperature sensor 0010450192 001A3800082 R25=23Kȍ±2.5% B25/50=4200K±3% R25=10Kȍ±3% B25/50=3700K±3% mid-condenser temperature sensor 0010450195 001A3800082 R25=10Kȍ±3% B25/50=3700K±3% oil temperature sensor 0010451305 001A3800093 R25=10Kȍ±3% B25/50=3700K±3% discharging temperature sensor 0010451313 001A3800096 R80=50Kȍ±3% B25/80=4450K±3% temperature sensor 001A3900005 001A3900003 R25=23Kȍ±2.5% B25/50=4200K±3% coil temperature sensor 001A3900006 001A3900004 R25=10Kȍ±3% B25/50=3700K±3% 001A3900059 1.R25=10Kȍ±3% B25/50=3700K±3% 2.R25=23Kȍ±2.5% B25/50=4200K±3% AD482AMEAA AP482AKEAA AU182AFERA AC182ACERA AD182AMERA AS182AVERA coil temperature sensor 001A3800127 001A3900003 coil temperature sensor 0010401922 ambient temperature sensor 001A3900005 001A3900003 R25=23Kȍ±2.5% B25/50=4200K±3% coil temperature sensor 001A3800128 001A3900004 R25=10Kȍ±3% B25/50=3700K±3% AP422ACEAA AD282AHEAA AD362AHEAA R25=23Kȍ±2.5% B25/50=4200K±3% R25=10Kȍ±3% B25/50=3700K±3% ambient temperature sensor -166- 001A3900004 -167- 48 53 47 07 06 0B 03 0D 6 7 8 9 11 12 13 4A 3 5 02 2 49 01 1 4 21 08 31 20 30 05 06 22 14 10 12 11 02 01 Centralize d control readout Wire control readout Number of flashes of remote control and indoor lights 10 high Fault in outdoor coil/suction line sensor Temperature shut-off Communication error between wire control and indoor unit Communication error between indoor and outdoor units External alarm signal input Power failure Fault with pressure Overcurrent Fault in outdoor ambient temperature sensor Fault in outdoor coil temperature sensor Fault in indoor ambient temperature sensor Fault in indoor coil temperature sensor Fault in drain system Fault description Sensor is open-circuit or short-circuit for 2min or longer. Directional valve malfunction repeats three times. External signal is cut out for 10s or longer. Communication error lasts 4min or longer. Communication error lasts 4min or longer. Detected CT current is above the limit three times within 30min. High pressure switch is activated three times within 30min. Wrong phase, phase failure or phase loss. Float switch is disconnected 25min or longer. Sensor is open-circuit or short-circuit for 2min or longer. Sensor is open-circuit or short-circuit for 2min or longer. Sensor is open-circuit or short-circuit for 2min or longer. Sensor is open-circuit or short-circuit for 2min or longer. Possible cause 9.1 Failure code For the inverter unit with new wired controller YR-E12 (0010451521E) 9. Failure code and troubleshooting Restorable after repair. Restorable when given corrective signal. Restorable when given corrective signal. Restorable when given corrective signal. Restorable when given corrective signal. Restorable after repair. Restorable after repair. To prevent malfunction of four-way valve. To control external connection provided for building. To test input signal of system. To ensure transmission to and from control board. To ensure transmission to and from control board. To ensure power supply. To prevent overload (pressure parameter). To prevent overload (electric parameter). To test input signal of system. Restorable when given corrective signal. Restorable after repair. To test input signal of system. To test input signal of system. To prevent condensate spilling out of drain pan To test input signal of system. Purpose Restorable when given corrective signal. Restorable when given corrective signal. Restorable when given corrective signal. Restorable when given corrective signal. Remedy wiring, Sensor, four-way valve, system, control board Hardware connection, I/O voltage division External signal, control board Wiring, circuit, transmission voltage Wiring, circuit, transmission voltage Wiring, circuit, pressure switch, refrigeration system Wiring, control board, power supply Power supply, wiring, compressor, pressure Hardware connection, I/O voltage division Hardware connection, I/O voltage division Hardware connection, I/O voltage division Water line, water pump, float switch, I/O voltage Hardware connection, I/O voltage division Items to be checked >a__WcU[S^ <[c >a`V[e[a`Wc -168- 54 50 12 4B 4D 16 17 18 19 20 07 15 0C 23 15 26 17 15 low discharging Module error Outdoor B Fault in operation mode Outdoor coil B Compressor overheat Fault with pressure EEPROM error Fault in discharging temperature sensor switch is Detected temperature of discharge line is higher than 120°C. Indoor units operate in different modes. Sensor is open-circuit or short-circuit for 2min or longer. Sensor is open-circuit or short-circuit for 2min or longer. Module overheat, overcurrent, lack of current, short-circuit. Low pressure activated. Sensor is open-circuit or short-circuit for 2min or longer. EEPROM data loss Restorable when given corrective signal. Restorable when given corrective signal. Restorable in same operation mode. Restorable when given corrective signal. Restorable when lower than 100°C. Default operation/reset restoration. Restorable after repair. Restorable when given corrective signal. To prevent (ultimate state). overload To test input signal of system. To ensure same operation mode. To test input signal of system. To prevent overload (temperature parameter). To set data/control parameter. To prevent refrigerant leak. To test input signal of system. Power supply, feedback, compressor, control board Hardware connection, I/O voltage division Hardware connection, I/O voltage division User setting EEPROM, data match, control board Wiring, circuit, pressure switch, refrigeration system Temperature, fan motor, pressure, system Hardware connection, I/O voltage division 49 53 4 6 14 12 10 Fault with pressure Fault with pressure low high Fault in discharging temperature sensor Fault in outdoor coil temperature sensor Power failure The others are the same as inverter unit. 48 5 Overcurrent Detected CT current is above the limit three times within 30min. Wrong phase, phase failure or phase loss. Sensor is open-circuit or short-circuit for 2min or longer. Sensor is open-circuit or short-circuit for 2min or longer. High pressure switch is activated three times within 30min. Low pressure switch is activated. Restorable after repair. Restorable after repair. Restorable when given corrective signal. Restorable when given corrective signal. Restorable after repair. Restorable after repair. To prevent refrigerant leak. To prevent overload (pressure parameter). To test input signal of system. To test input signal of system. To ensure power supply. To prevent overload (electric parameter). Wiring, circuit, pressure switch, refrigeration system Wiring, circuit, pressure switch, refrigeration system Hardware connection, I/O voltage division Wiring, control board, power supply Hardware connection, I/O voltage division Power supply, wiring, compressor, pressure Note: As for the fixed frequency units, remote control and indoor lights flash times 12 and 21(Module error) is not available. While 7 (Power failure) 14 (fault in discharging temperature sensor) and 16 (Fault with low pressure) is shown as following: 20 05 15 21 4C 14 >a__WcU[S^ <[c >a`V[e[a`Wc -169- J6 J7 J8 J9 J10 2 SW5-1 2 3 4 Fixed frequency Indoor address 0 Use compulsory switch In time shorting state Heat pump type Control type: with outdoor PCB Heating temp. compensation 4ć Control type: remote control Control combination: AND Address code Ā1ā combination: the later Inverter Setting indoor address by SW1 Single split/multi split Other/2P convertible type Oxygen or not Ornarment or not Normal state Normal state Colling only type Control type: without outdoor PCB Heating temp. compensation 0ć Control type: wired control entering in priority Control Address code Ā0ā Address code Ā0ā Address code Ā0ā Address code Ā1ā Address code Ā1ā Address code Ā0ā Address code Ā0ā Address code Ā0ā Address code “0ā Address code Ā1ā Address code Ā1ā Address code Ā1ā Address code Ā1ā Open-circuit -OFF-h Select the address of wired control type multi indoor unit Ĝ/h Ĝ/h h/Ĝ h/Ĝ Select control type, control board Select temp. compensation Select control type, communication port and protocol selection Control mode: remotr or wired control and passive port control Central control indoor address Bit6 Central control indoor address Bit5 Central control indoor address Bit4 Central control indoor address Bit3/wired control indoor address Bit3 Central control indoor address Bit2/wired control indoor address Bit2 Central control indoor address Bit1/wired control indoor address Bit1 Central control indoor address Bit0/wired control indoor address Bit0 Function description Note J9=ON, the wired controller can only indicate 1 indoor unit no matter how many indoor units its connected. Wired control address = dip switch value. Wired control indoor address: the indoor unit should be connected by the different uniquely address when select wired control type, or will influence the control. For example, if the address repeat, the control information will conflict or communication system will breakdowm. Central control address = dip switch value+1. Central control indoor address: the indoor unit should be connected by the different uniquely address when select central control type, or will influence the control. For example, if J5 CHECK 1/60 SW4-1 CHECK 1/60 J4 SLCT 4 J3 Bit6 3 4 Bit5 2 J2 Bit4 SW2-1 3 Bit3 4 J1 Bit2 3 2 Bit1 2 SW3-1 Bit0 SW1-1 Short-circuit -ON-Ĝ Functions and notes for dip switch (Ĝ shows ON, h shows OFF ) (for 0010451690E) >a__WcU[S^ <[c >a`V[e[a`Wc >a__WcU[S^ <[c >a`V[e[a`Wc Failure code for wall mounted unit(AS182AVERA) ---- displayed on the indoor LCD: Failure description Remark E1 Indoor room temperature sensor failure Indoor room temp. sensor in short circuit, or open E2 Indoor coil temperature sensor failure E4 EEPROM wrong E7 Communication failure between indoor and Communication outdoor contineously, it can resume due to the signal. code circuit, it can resume due to the signal. Indoor coil temp. sensor in short circuit, or open circuit, it can resume due to the signal. Being electrified to test E2 check sum, or E2 is broken down. E14 Indoor fan motor failure failure alarms for 4 minutes Indoor fan motor wrong wiring or indoor fan motor abnormal. E18 Temperature cutoff protection Outdoor 4-way valve response abnormal. F1 Module failure Outdoor module abnormal F2 Outdoor DC motor failure Outdoor DC motor abnormal F4 Compressor overheat / discharging temperature protection F5 Compressor discharging temperature over high protection Module over current / current transducer failure F6 Outdoor ambient temp. sensor abnormal Outdoor ambient temp. sensor in short current or open circuit F7 Outdoor suction/defrosting temp. sensor Outdoor suction/defrosting temp. sensor in short abnormal circuit or open circuit F8 High pressure abnormal High pressure too high F9 Low pressure abnormal Low pressure abnormal F10 No AC power supply F11 Outdoor PCB EEPROM abnormal Being electrified to test if the E2 check sum is correct or failure F13 Communication failure between outdoor F14 Compressor discharging temp. sensor failure short circuit or open circuit F15 Compressor running faulty Resumable F16 Running state-detecting circuit failure PCB and module Outdoor compressor discharging temp. sensor in Outdoor DC compressor running state-detecting circuit failure, or compressor abnormal, resumable Failure code for AP482AKEAA No. Fault description Operation panel display 1 Indoor ambient temp. sensor failure E1 2 Indoor coil temp. sensor failure E2 3 Outdoor ambient temp. sensor failure E3 4 Outdoor coil temp. sensor failure E4 5 CT current failure E5 6 Pressure protection E6 7 Communication failure between indoor units and panel E8 8 Communication failure between indoor and outdoor PCB E9 -170- >a__WcU[S^ <[c >a`V[e[a`Wc Failure code for AP422ACEAA 1 Central -ized control readout 01D 2 02D E2 3 11D E3 4 12D E4 5 10D E5 6 14D E6 9 05D E9 14 15D E4 6 26D E6 Number of flashes Panel display E1 Fault description Possible cause Remedy Fault in indoor ambient temperature sensor Fault in indoor coil temperature sensor Fault in outdoor ambient temperature sensor Fault in outdoor coil temperature sensor Overcurrent/ Power failure Fault with high pressure Sensor is open-circuit or short-circuit for 2min or longer. Sensor is open-circuit or short-circuit for 2min or longer. Sensor is open-circuit or short-circuit for 2min or longer. Sensor is open-circuit or short-circuit for 2min or longer. Detected CT current is above the limit three times within 30min. High pressure switch is activated three times within 30min. Communication error lasts 4min or longer. Restorable when given corrective signal. Restorable when given corrective signal. Restorable when given corrective signal. Restorable when given corrective signal. Restorable after repair. Sensor is open-circuit or short-circuit for 2min or longer. Low pressure switch is activated over 30s. Restorable when given corrective signal. Restorable after repair. Communication error between indoor and outdoor units Fault in discharging temperature sensor Fault with low pressure Restorable after repair. Restorable when given corrective signal. Failure code for fix frequency outdoor unit unit(AU*EAA): Failure description Code on wired Flash times of indoor controller receiver board Room temp. sensor abnormal 01 Power LED flashes 1 time Indoor coil temp. sensor abnormal 02 Power LED flashes 2 times Outdoor temp. sensor abnormal 4A Power LED flashes 3 times Outdoor coil temp. sensor abnormal 49 Power LED flashes 4 times Over-current malfunction/Power failure 48 Power LED flashes 5 times High / Low pressure abnormal 53 Power LED flashes 6 times Communication malfunction between indoor and wired controller 07 Power LED flashes 8 times Communication malfunction between indoor and outdoor 06 abnormal Power LED flashes 9 times Drainage system malfunction 08 Power LED flashes 10 times Alarm of exterior annunciator 0B Power LED flashes 11 times Coil gas pipe temp. Sensor abnormal 03 Power LED flashes 12 times Temperature protection malfunction 0D Power LED flashes 13 times Diagnostic code for the inverter outdoor unit Please refers to PCB function part, page 133 and page 134. -171- >a__WcU[S^ <[c >a`V[e[a`Wc 9.2 Troubleshooting for inverter units Outdoor troubleshooting: B elow the indication on indicator board sequence is LE D 5-LE D 4-LE D 3-LE D 2-LE D 1, 0: O FF; 1: O N 1 ) S ensor failure A larm condition: am bient tem perature sen sor is in short circuit or open circuit for 3 seconds con tinously. O utdoor indicator displays 00110 or 0 0111, or 01001 check if the w iring is correct according to w iring diagram if sensor is fixed w ell no reconnect no R elocate yes Is sensor resistance acceptable? no R eplace sensor yes Is sensor sho rt-circuit or open-circuit? yes R eplace sensor no For sensor failure of am bient, suction and coil tem perature, check if resistor R 31/R 32/R 33 value of outdoor P C B is 20K ; for d ischargin g tem perature sensor failure, check if R 46 is 47K no R eplace P C B yes R e place sensor 2) Outdoor power module failure Alarm condition: outdoor indicator displays 10111, 00001, or 01111, 10000, 100001, or 10100 outdoor indicator displays 00001 Re-electrified after being powered off yes check if the any current among compressor input port U-V-W is over high yes check if the system is blocked no check if module bottom temperature is over high, more than 90degree yes if ventilation beside the module radiator is good yes if the total load is too big no no improve the ventilation condition yes compressor startup procedure is abnormal, and vibrates seriously no yes if compressor wiring is correct yes if the refrigerant is normal stop the unit, restart up until power module temperature has reduced yes no wiring correctly if compressor winding is normal, and the each phase resistor is in balance no replace compressor compressor can not start up -172- >a__WcU[S^ <[c >a`V[e[a`Wc 3) Outdoor DC motor abnormal Outdoor indicator displays 00010. Alarm condition:outdoor DC motor is blocked rotor or broken, abnormal. This fault is only used when indoor unit is with DC fan motor. outdoor indicator shows 00010 Check if the outdoor unit fan blade is blocked by some objects yes adjust fan blade to make it run normally no Check if the lead wire of DC motor is broken or short-connected yes adjust lead wire of fan motor no Replace motor Warning: For outdoor DC fan motor, forbidden to pull off the plug when being electrified. 4) Communication error between indoor and outdoor units Outdoor indicator shows 00011 For wall mounted unit: LCD of wall mounted displays E7 Check if communication wiring between indoor and outdoor is correct and if power wiring is correct no adjust wiring yes If communication wire is damaged or broken off yes re-wiring no Replace indoor PCB yes check if the failure is eliminated no Replace outdoor PCB -173- >a__WcU[S^ <[c >a`V[e[a`Wc For convertible unit and ceiling concealed unit: compressor can not startup after unit is switched on for 4 minutes if indoor unit alarms other failure codes yes eliminate other faults no check if wiring between indoor and outdoor is correct, power supply is 50Hz yes adjust wiring and power supply yes check the 4th bit of SW5 on PCB is at "OFF", the others are at "ON" no adjust the position yes Replace indoor PCB check if the failure is eliminated no Replace outdoor PCB 5)Compressor discharging temperature protection Outdoor indicator shows 00100. Alarm condition: Within half an hour after compressor is running, compressor discharging temperature is over 120degree for 3 times continously. outdoor indicator shows check if refrigerant is too much or too less yes adjust refrigerant no check if the system piping is blocked yes adjust piping no check if discharging temp. sensor value is normal no replace sensor yes replace PCB -174- >a__WcU[S^ <[c >a`V[e[a`Wc 6) Outdoor SPDU module over current protection Outdoor indicator shows 00101. Alarm condition: When compressor running, the module current is over 21A. outdoor failure indicator shows 00101 yes check if the refrigerant is too much or too less adjust refrigerant no check if the piping is blocked yes adjust piping no replace SPDU module 7) Outdoor high pressure protection Outdoor indicator shows 01000 Alarm condition: When compressor running, high pressure is over 4.5 MPa for 30 seconds continously. outdoor failure indicator shows 01000 check if the refrigerant is too much or less by the pressure gauge yes adjust refrigerant no check if the piping is blocked yes adjust piping no if high pressure switch is normal yes replace sensor 8) Outdoor power supply is abnormal Outdoor indicator shows 01010 Alarm condition: if power supply is not 50Hz as standard, which will affect the normal communication and cause air conditioner bad operation. outdoor indicator shows 01010 check if the wiring between indoor and outdoor is correct no adjust wiring yes check if power supply is normal no adjust power supply as 50HZˈ220-230VAC -175- >a__WcU[S^ <[c >a`V[e[a`Wc 9) EEPROM is abnormal Outdoor indicator shows 01110. Alarm condition: EEPROM is fault or data is missing. outdoor indicator shows 01110 no check if EEPROM welded points on outdoor PCB is in good condition adjust EEPROM welded point yes EEPROM data is missing, replace PCB 10) Running state detecting abnormal Outdoor indicator shows 10011. Alarm condition: when compressor is running, the unit will be abnormal or stop. outdoor indicator shows 10011 no when compressor starting up, unit stops abnormally and can not start up normally eliminate other troubles yes Re-electrified after power off, check if compressor can start up normally no replace compressor 11) Communication failure between outdoor PCB and module Outdoor indicator shows 10110 outdoor indicator shows 10110 compressor not start up, outdoor alarms, check if there is other failure no eliminate other failures yes check if the wiring between outdoor PCB and module is correct no adjust wiring yes replace PCB no if problem is solved replace module -176- >a__WcU[S^ <[c >a`V[e[a`Wc 12) Outdoor low pressure abnormal Outdoor indicator shows 11000. Alarm condition: outdoor system pressure is lower than 0.05MPa. outdoor indicator shows 11000 measure actual pressure by a pressure gauge to adjust the output failure no replace pressure switch yes low pressure abnormal no check if high pressure is low,too check if piping is blocked yes yes dredge piping Lack of refrigerant, charge additional refrigerant and check if piping leaks, if yes, replace piping Indoor troubleshooting: 1) Sensor failure Alarm condition: ambient temperature sensor is in short circuit or open circuit for 2 seconds continously. check if the wiring is correct according to wiring diagram if sensor is fixed well no reconnect no Relocate yes Is sensor resistance acceptable? no Replace sensor yes Is sensor short-circuit or open-circuit? yes Replace sensor no Replace PCB -177- >a__WcU[S^ <[c >a`V[e[a`Wc 2) EEPROM failure Alarm condition: before being electrified, EEPROM is faulty or the data is missing. outdoor failure indicator shows 01110 check the EEPROM welded point on outdoor PCB is normal no modify the welded point yes EEPROM data is missing, replace PCB The indication on indicator board sequence is LED5-LED4-LED3-LED2-LED1, 0: OFF; 1: ON 3) Communication error between indoor and outdoor units LCD of wall mounted displays E7 Check if communication wiring between indoor and outdoor is correct and if power wiring is correct no yes If communication wire is damaged or broken off yes re-wiring no Replace indoor PCB yes check if the failure is eliminated no Replace outdoor PCB -178- >a__WcU[S^ <[c >a`V[e[a`Wc 4) Indoor DC motor abnormal Alarm condition:outdoor DC motor is blocked rotor or broken, abnormal. This fault is only used when indoor unit is with DC fan motor. LCD of wall mounted unit display F2 yes Check if the indoor unit fan blade is blocked by some objects adjust fan blade to make it run normally no yes Check if the lead wire of DC motor is broken or short-connected adjust lead wire of fan motor no Replace motor Warning: For outdoor DC fan motor, forbidden to pull off the plug when being electrified. 5) Temperature cutoff protection Alarm condition: indoor coil temperature sensor value is abnormal; or outdoor 4-way valve coil is invalid LCD on wall mounted unit displays E18 Check if indoor coil temp. sensor value is normal no Replace coil temp. sensor yes Check if resistor R34 on PCB is 20K no replace resistor yes When only powering to outdoor 4-way valve coil, check if the coil can reverse normally no replace 4-way valve -179- >a__WcU[S^ <[c >a`V[e[a`Wc 9.3 Troubleshooting for fixed frequency units 1) Pressure protection Confirm the fault according to the fault code list no Does system have pressure switch? Are CN17 and CN18 in PCB cut off? no Replace PCB yes yes Make them in short circuit Is actual pressure detected by pressure gage acceptable? no no low pressure failure yes Change pressure switch high pressure failure yes yes Is high pressure too low? no is pipe blocked? yes yes Refrigerant charge is needed. Check if there is refrigerant leak. If yes, replace pipe. dredge piping Note: The confirmation time of low pressure failure may be shorter, but high pressure failure confirmation R e 1 hour. Besides, take the ambient temperature into consideration. time is at least 2) Sensor failure check if the wiring is correct according to wiring diagram if sensor is fixed well no reconnect no Relocate yes Is sensor short-circuit or open-circuit? yes Replace sensor yes Is sensor resistance acceptable? no Replace sensor yes Is DC voltage between both ends of sensor near 5V or 0V? no Replace PCB -180- >a__WcU[S^ <[c >a`V[e[a`Wc 3) Low pressure protection - Wired controller shows 53 Confirm the fault according to the fault code list yes no Are connectors of pressure switch in good condition? Check and reconnect yes Is low side pressure switch activated? (If not, DC voltage is 0V.) no Replace PCB yes Is the low side pressure detected by the gage lower than threshold value? The threshold value is indicated on the switch no Replace low pressure switch yes no if outdoor stop valves of gas pipe and liquid pipe are open totally Open the valves yes yes Is piping twisted or deformed? Repair pipe no Does indoor fan work properly during cooling cycle? Does outdoor fan work properly during heating cycle? no Repair fan motor or fan capacitor yes Is indoor filter or heat exchanger dirty? yes Cleaning no Measure equalized pressure and time to reach equalization to see if the system has leakage. Lack of refrigerant? Is capillary blocked? yes Conduct leak test. Evacuate and recharge no Bad operation codition, such as ultra low outdoor temperature -181- >a__WcU[S^ <[c >a`V[e[a`Wc 4) High pressure protection - Wired controller shows 53 Confirm the fault according to the fault code list yes Are connectors of pressure switch in good condition? no Check and reconnect yes Is high side pressure switch activated? (If not, DC voltage is 0V.) no Replace PCB yes Is the high side pressure detected by the gage higher than threshold value? The threshold value is indicated on the switch no Replace high pressure switch yes if outdoor stop valves of gas pipe and liquid pipe are open totally no Open the valves yes yes Is piping twisted or deformed? Repair pipe no Does indoor fan work properly during cooling cycle? Does outdoor fan work properly during heating cycle? no Repair fan motor or fan capacitor yes Is indoor filter or heat exchanger dirty? yes Cleaning no Check if system is overfed according to equalized pressure in halt. yes Evacuate and recharge no Is reading of discharging pressure gage oscillatory? no Bad operation codition, such as ultra low outdoor temperature yes There is air in system. Evacuate and recharge -182- >a__WcU[S^ <[c >a`V[e[a`Wc 5) Communication error between indoor and outdoor units - Wired controller shows 06 Confirm commumication failure according to the fault code list Confirm the fault indicator is communication failure yes Does indoor communication indicator flash? no Are communication wire S and supply wires L and N properly connected? Grounded well? no re-wiring yes check the other reasons Is communication wire too no close to power cable, which causes interference? yes if communication wire is broken yes yes re-wiring no S should not share a multicore cable with L and N check if indoor/outdoor PCB fuse and transformer are normal no change defective parts yes replace indoor PCB if failure is eliminated no replace outdoor PCB 6) Communication failure between wired controller and indoor PCB - Wired controller shows 07 or no display on wired controller Confirm commumication failure according to the fault code list or no display no check if the wired controller can match with indoor PCB replace wired controller yes Is power just turned on? yes no for some models, when powered on, initialization will display 88, if initrialization cannot finish, check indoor dip switch position check if the dip yes Is voltage between A and yes Is voltage between B yes switch position on replace PCB B of wired controller 12V? and C fluctuating? PCB is right no no no yes Is supply transformer or 7812 check if wiring correct the position component in good condition? is correct no check if failure disappears after changing transformer or PCB no check if failure disappears after yes wired controller is changing wired controller broken -183- >a__WcU[S^ <[c >a`V[e[a`Wc 7) High current protection in 3-phase fixed frequency models - Wired controller shows 48 Is three-phase circuit not balanced? Is supply voltage too low? Is supply voltage too low at compressor start-up? yes Modify power supply circuit yes Is power cable or compressor wire securely connected? Properly? no re-wiring yes Is compressor current more than overcurrent protection limit? Is current detecting circuit in good condition? no Confirm detecting circuit is abnormal,replace outdoor PCB yes Is AC contactor in poor contact? yes replace AC contactor yes if compressor is normal no Is resistance of compressor winding incorrect? Is it stuck? yes replace compressor yes if pressure is normal no Check: 1. Is a valve in system shut off; 2. Is piping clogged; 3. Is system overfed; is there air in system; 4. (Cooling cycle) Is condenser dirty? Does outdoor fan motor run at low speed or stop? 5. (Heating cycle) Is evaporator or filter dirty? Does indoor fan motor run at low speed or stop? 6. Is ambient temperature too high? Is system overloaded? 8) External alarm- Wired controller shows 0B An external alarm is identified according to the list of fault codes Is an external alarm connected to the system? no yes Solve problem accordingly Is ALARM terminal in mainboard disconnected? yes Short connect that terminal yes if failure disappear after PCB is changed no replace PCB -184- >a__WcU[S^ <[c >a`V[e[a`Wc 9) Overcurrent protection for single-phase fixed frequency models- Wired controller shows 48 Is supply voltage too low? Especially when compressor starts up? yes modify power supply circuit no Is supply wire securely connected? no re-wiring yes Is compressor current more than overcurrent protection limit? Is current detecting circuit in good condition? no Confirm detecting circuit is abnormal,replace outdoor PCB yes Is compressor in good condition? no Is resistance of compressor winding incorrect? Is it stuck? no replace running capacitor yes replace compressor yes Is running capacitor in good condition? yes Is pressure normal? no Check: 1. Is a valve in system shut off; 2. Is piping clogged; 3. Is system overfed; is there air in system; 4. (Cooling cycle) Is condenser dirty? Does outdoor fan motor run at low speed or stop? 5. (Heating cycle) Is evaporator or filter dirty? Does indoor fan motor run at low speed or stop? 6. Is ambient temperature too high? Is system overloaded? -185- >a__WcU[S^ <[c >a`V[e[a`Wc 10) Temperature cutoff protection- Wired controller shows 0D confirm the malfunction according to the fault code list Is outdoor four-way valve in good condition during heating cycle? Does small relay coil of four-way valve have a voltage of 12V DC? no yes Does four-way valve work properly? no Replace four-way valve yes Is indoor unit malfunction caused by lack of refrigerant? no charge refrigerant yes Is heat exchange effect adversely affected by heavy dust in indoor and outdoor units? no cleaning yes Are indoor sensors for ambient temperature and coil properly located? no Relocate yes Is resistance of indoor sensor correct? no Replace sensor yes Replace indoor PCB -186- yes Relay is broken. Replace PCB >a__WcU[S^ <[c >a`V[e[a`Wc 11) Fault in drain system- Wired controller shows 08 confirm the malfunction according to the fault code list yes Is drain pipe clogged? Unclog pipe and water pump no Is pump motor in good condition? yes Replace water pump yes yes Is drain pan dirty and float switch ineffective? Clean drain pan no Is float switch holder tinted that float can't move, or too close to pump motor that interference arises? yes Adjust holder no Check if float switch is in good yes condition with multimeter Replace float switch no Replace indoor PCB Note: Float switch is close in normal state, when being activated, it is open. Voltage between both ends is 0V when close, approximately 5V when open. 12) Phase loss or phase failure- Wired controller shows 48 confirm the malfunction according to the fault code list Check if the phase detecting circuit is correct according to ourdoor wiring diagram no if the failure disappear after correcting the wiring yes no Is there phase loss or phase failure? no adjust power supply no Is fault corrected after sequence of either two of three RST phases is adjusted? no replace outdoor PCB -187- >a__WcU[S^ <[c >a`V[e[a`Wc 13) Troubleshooting (before replacement of PCB) Service call Fault confirmation For example: no cooling, etc. Confirm operating conditions 1.Is supply voltage acceptable? 2.Is temperature setting correct? (e.g. too high) 3.Is system in TIMER mode? 4.Is user aware of product features, etc. Is the feature not available for present product? yes Explain product features to user no Switch on air conditioner Does the same fault occur before? No need to replace mainboard. (Check operating status in details, e.g. TIMER feature, supply failure, thunder storm, interference from other appliances, etc.) Explain causes of fault to user. no yes Switch off air conditioner temporarily. 6ZLWFK on air conditioner again after 1 minute yes Does the same fault occur before? no No need to replace mainboard. The fault may be caused by power supply no No need to replace mainboard. Contactor wasn't in good contact yes Disconnect contactor and reconnect it. (check if fuse or varistor is broken.) no Does the same fault occur before? yes Check the system thoroughly, e.g. technical data of components when power-off, and voltage and current of check points when power-on -188- >a__WcU[S^ <[c >a`V[e[a`Wc 12. Performance curves Heating performance curves-AB182ACERA 6500 6000 -10/-11 heating capacity 5500 -10/-11 power input 5000 -5/-6 heating capacity 4500 -5/-6 power input 4000 1/0 heating capacity 3500 1/0 power input 3000 6/5 heating capacity 2500 6/5 power input 10/8 heating capacity 2000 10/8 power input 1500 16/10 18/12 20/14.5 21/15 22/16 24/17 indoor WB/DB Cooling performance curves-AB182ACERA 6500 6000 cooling capacity(W)/power input(W) heating capacity(W)/power input(W) 7000 5500 5000 25/16 cooling capacity 4500 25/16 power input 4000 30/20 cooling capacity 3500 30/20 power input 3000 35/24 cooling capacity 35/24 power input 2500 40/28 cooling capacity 2000 40/28 power input 1500 22/16 25/18 27/19 27/19.8 30/22 indoor DB/WB -189- 32/24 >a__WcU[S^ <[c >a`V[e[a`Wc heating capacity(W) /power input(W) Heating performance curves-AC182ACERA 15 heating capacity 8700 8200 7700 7200 6700 6200 5700 5200 4700 4200 3700 3200 2700 2200 1700 1200 15 power input -7 heating capacity -7 power input -5 heating capacity -5 power input 0 heating capacity 0 power input 5 heating capacity 5 power input 10 heating capacity 10 power input 15 heating capacity 15 power input 16/10 18/12 20/14.5 21/15 22/16 24/17 indoor WB/DB Cooling performance curves-AC182ACERA cooling capacity(W)/power input(W) 20 cooling capacity 6500 6000 5500 5000 4500 4000 3500 3000 2500 2000 1500 1000 500 0 20 power input 32 cooling capacity 32 power input 35 cooling capacity 35 power input 40 cooling capacity 40 power input -5 cooling capacity -5 power input -15 cooling capacity -15 power input 12/18 14/20 16/22 indoor WB/DB 18/25 -190- 19/27 >a__WcU[S^ <[c >a`V[e[a`Wc AU182AFERA+AS182AVERA: cooling capacity(KW) performance curves in cooling mode 6800 6600 6400 6200 6000 5800 5600 5400 5200 5000 4800 4600 4400 4200 4000 3800 3600 3400 3200 3000 2800 2600 2400 2200 2000 1800 1600 1400 1200 1000 800 600 400 200 0 20 cooling capacity 20 power input 25 cooling capacity 25 power input 32 cooling capacity 32 power input 35 cooling capacity 35 power input 40 cooling capacity 40 power input -5 cooling capacity -5 power input 12/18 14/20 16/22 18/25 19/27 22/30 24/32 indoor WB/DB heating capacity (KW) performance curves in heating mode 9900 9600 9300 9000 8700 8400 8100 7800 7500 7200 6900 6600 6300 6000 5700 5400 5100 4800 4500 4200 3900 3600 3300 3000 2700 2400 2100 1800 1500 1200 900 600 300 0 -15/-16 heating capacity -15/-16 power input -6/-7 heating capacity -6/-7 power input -4/-5 heating capacity -4/-5 power input -1/-2 heating capacity -1/-2 power input 1/0 heating capacity 1/0 power input 7/6 heating capacity 7/6 power input 12/10 heating capacity 12/10 power input 16/15 heating capacity 16/15 power input 16/10 18/12 20/14.5 21/15 22/16 24/17 indoor WB/DB -191- 26/18 >a__WcU[S^ <[c >a`V[e[a`Wc AU182AFERA+AD182AMERA: cooling capacity(KW) performance curves in cooling mode 7600 7400 7200 7000 6800 6600 6400 6200 6000 5800 5600 5400 5200 5000 4800 4600 4400 4200 4000 3800 3600 3400 3200 3000 2800 2600 2400 2200 2000 1800 1600 1400 1200 1000 800 600 400 200 0 20 cooling capacity 20 power input 25 cooling capacity 25 power input 32 cooling capacity 32 power input 35 cooling capacity 35 power input 40 cooling capacity 40 power input -5 cooling capacity -5 power input 12/18 14/20 16/22 18/25 19/27 22/30 24/32 indoor WB/DB heating capacity (KW) performance curves in heating mode 10800 10500 10200 9900 9600 9300 9000 8700 8400 8100 7800 7500 7200 6900 6600 6300 6000 5700 5400 5100 4800 4500 4200 3900 3600 3300 3000 2700 2400 2100 1800 1500 1200 900 600 300 0 -6/-7 heating capacity -6/-7 power input -4/-5 heating capacity -4/-5 power input -1/-2 heating capacity -1/-2 power input 1/0 heating capacity 1/0 power input 7/6 heating capacity 7/6 power input 6/5 heating capacity 6/5 power input 12/10 heating capacity 12/10 power input 16/15 heating capacity 16/15 power input 16/10 18/12 20/14.5 21/15 22/16 indoor WB/DB -192- 24/17 26/18 >a__WcU[S^ <[c >a`V[e[a`Wc cooling capacity/power input/air flow and external static pressure curves 6900 6600 6300 0Pa cooling capacity 6000 0Pa power input 5700 0Pa air flow 5400 10Pa cooling capacity performance value 5100 10Pa power input 4800 10Pa air flow 4500 20Pa cooling capacity 4200 20Pa power input 3900 20Pa air flow 3600 30Pa cooling capacity 3300 30Pa power input 3000 30Pa air flow 2700 40Pa cooling capacity 2400 40Pa power input 2100 40Pa air flow 1800 50Pa cooling capacity 50Pa power input 1500 50Pa air flow 1200 900 600 indoor 27/19 indoor 20/14.5 outdoor 35/24 (inverter outdoor 7/6 (inverter 70Hz) 68Hz) indoor 27/19 outdoor 35/24 (fixed frequency 55Hz) operation condition -193- indoor 20/14.5 outdoor 7/6 (fixed frequency 58Hz) >a__WcU[S^ <[c >a`V[e[a`Wc AC362AFERA AC362AFERA heating capacity curves -6/-7 heating capacity -6/-7 power input -4/-5 heating capacity -4/-5 power input 0/-1 heating capacity 0/-1 power input 42 13000 12500 12000 11500 11000 10500 10000 9500 9000 8500 8000 7500 7000 6500 6000 5500 5000 4500 4000 3500 3000 2500 2000 1500 1000 500 0 2/1 heating capacity 2/1 power input 6/5 heating capacity 6/5 power input 7/6 heating capacity 7/6 power input 16/10 18/12 20/14.5 21/15 22/16 24/17 26/18 indoor WB/DB 12/10 heating capacity 12/10 power input 16/15 heating capacity 16/15 power input 43 cooling capacity(W)/power input(W) AC362AFERA cooling capacity curves 13000 12500 12000 11500 11000 10500 10000 9500 9000 8500 8000 7500 7000 6500 6000 5500 5000 4500 4000 3500 3000 2500 2000 1500 1000 500 0 20 cooling capacity 20 power input 25 cooling capacity 25 power input 32 cooling capacity 32 power input 35 cooling capacity 35 power input 40 cooling capacity 40 power input 12/18 14/20 16/22 18/25 19/27 indoor WB/DB -194- 22/30 24/32 >a__WcU[S^ <[c >a`V[e[a`Wc AD362AMERA AD362AMERA cooling(heating) capacity -Esp. curves 11500 11000 10500 10000 9500 9000 8500 8000 7500 7000 6500 6000 5500 5000 4500 4000 3500 3000 2500 2000 1500 1000 500 0 0pa cooling capacity 0pa power input 0pa EER COP 10pa cooling capacity 10pa air flow 10pa EER COP 20pa power input 20pa air flow 30pa cooling capacity 30pa power input 30pa EER COP 40pa cooling capacity 40pa aier flow indoor: 27/19 outdoor: 35/24 (FQY: 85HZ) cooling indoor: 20/14.5 outdoor: 7/6 (FQY: 90HZ) heating -195- 40pa EER COP 50pa power input 50pa air flow >a__WcU[S^ <[c >a`V[e[a`Wc AU182AEEAA Heating capacity curves 8000 7500 -7 Heating capacity (W) 7000 -5 6500 0 6000 7 5500 10 5000 15 4500 4000 3500 3000 16/10 18/12 20/14.5 22/16 24/17 26/18 indoor DB/WB Power input curves in heating mode 4.5 4.0 -7 COP -5 0 3.5 7 10 15 3.0 2.5 16/10 18/12 20/14.5 22/16 24/17 26/18 indoor DB/WB Cooling capacity curves 7000 Cooling capacity (W) 6500 -5 6000 5 15 5500 25 35 5000 43 4500 4000 20/14 22/16 25/18 27/19 30/22 32/24 indoor DB/WB Power input curves in cooling mode 5.00 -5 EER) 4.00 5 15 25 3.00 35 43 2.00 1.00 20/14 22/16 25/18 27/19 indoor DB/WB -196- 30/22 32/24 >a__WcU[S^ <[c >a`V[e[a`Wc AU242AGEAA Heating capacity curves 10000 -6/-7 9000 -4/-5 Heating capacity (W) -1/-2 8000 1/0 6/5 7000 7/6 12/10 6000 16/15 5000 4000 16/10 18/12 20/14.5 21/15 22/16 24/17 26/18 indoor DB/WB Power input curves in heating mode 2900 2700 Power input (W) -6/-7 -4/-5 2500 -1/-2 1/0 2300 6/5 7/6 2100 12/10 16/15 1900 1700 16/10 18/12 20/14.5 21/15 indoor DB/WB 22/16 24/17 26/18 24 Cooling capacity curves 10000 Cooling capacity (W) 9000 8000 -5 20 7000 25 32 6000 35 40 5000 4000 3000 18/12 20/14 22/16 25/18 27/19 30/22 32/24 indoor DB/WB Power input curves in cooling mode 3500 3000 Power input (W) 2500 -5 20 2000 25 32 1500 35 40 1000 500 0 18/12 20/14 22/16 25/18 indoor DB/WB -197- 27/19 30/22 32/24 >a__WcU[S^ <[c >a`V[e[a`Wc AU282AHEAA Heating capacity curves 12000 -6/-7 Heating capacity (W) 11000 -4/-5 -1/-2 10000 1/0 9000 6/5 8000 7/6 12/10 7000 16/15 6000 5000 4000 16/10 18/12 20/14.5 21/15 22/16 24/17 26/18 indoor DB/WB Power input curves in heating mode 3700 3500 -6/-7 Power input (W) 3300 -4/-5 3100 -1/-2 2900 1/0 2700 6/5 2500 7/6 2300 12/10 2100 16/15 1900 1700 16/10 18/12 20/14.5 21/15 53 22/16 24/17 26/18 indoor DB/WB Cooling capacity curves 10000 Cooling capacity (W) 9000 8000 -5 7000 25 20 6000 32 5000 40 35 4000 3000 18/12 20/14 22/16 25/18 27/19 30/22 32/24 indoor DB/WB Power input curves in cooling mode 3500 Power input (W) 3000 2500 -5 2000 25 20 1500 32 1000 40 35 500 0 18/12 20/14 22/16 25/18 indoor DB/WB -198- 27/19 30/22 32/24 >a__WcU[S^ <[c >a`V[e[a`Wc AU362AIEAA Heating capacity curves 13000 -6/-7 Heating capacity (W) 12500 -4/-5 12000 -1/-2 11500 1/0 11000 6/5 10500 7/6 10000 12/10 9500 16/15 9000 8500 8000 16/10 18/12 20/14.5 21/15 22/16 24/17 26/18 indoor DB/WB Cooling capacity curves Cooling capacity (W) 13000 12000 -5 20 11000 25 32 10000 35 40 9000 8000 18/12 20/14 22/16 25/18 indoor DB/WB -199- 27/19 30/22 32/24 >a__WcU[S^ <[c >a`V[e[a`Wc AU42NALEAA Heating capacity curves 15500 15000 14500 -6/-7 14000 -4/-5 13500 -1/-2 13000 1/0 12500 6/5 12000 7/6 11500 12/10 11000 16/15 10500 10000 16/10 18/12 20/14.5 21/15 22/16 24/17 26/18 5800 5600 16/10 18/12 20/14.5 21/15 22/16 24/17 26/18 5400 5200 5000 4800 4600 4400 -6/-7 -4/-5 -1/-2 1/0 6/5 7/6 12/10 16/15 Cooling capacity curves 13750 13500 13250 13000 12750 12500 12250 12000 11750 11500 -5 20 25 32 35 40 18/12 20/14 22/16 25/18 27/19 30/22 32/24 5200 5100 5000 -5 4900 20 4800 25 4700 32 4600 35 4500 40 4400 4300 18/12 20/14 22/16 25/18 -200- 27/19 30/22 32/24 Sound pressure level DB Sound pressure level DB 70.0 65.0 60.0 55.0 50.0 45.0 40.0 35.0 30.0 25.0 20.0 15.0 10.0 5.0 0.0 60.0 55.0 50.0 45.0 40.0 35.0 30.0 25.0 20.0 15.0 10.0 5.0 0.0 .0 25 .0 25 .5 31 .5 31 .0 0.0 40 5 .0 0.0 40 5 -201third octave band frequency Hz .0 0.0 0.0 5.0 0.0 0.0 0.0 5.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 63 8 10 12 80 100 125 160 200 250 315 400 500 630 800 000 250 600 000 63 50 25 31 40 16 20 1 2 1 1 1/3 octave band noise level-AC182ACERA third octave band frequency Hz .0 0.0 0.0 5.0 0.0 0.0 0.0 5.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 63 8 10 12 16 20 25 31 40 50 63 80 100 125 160 200 250 315 400 500 630 800 000 250 600 000 1 2 1 1 1/3 octave band noise level-AB182ACERA cooling high cooling med cooling low fan high fan med fan low heating high heating med heating low cooling high cooling med cooling low fan high fan med fan low heating high heating med heating low >a__WcU[S^ <[c >a`V[e[a`Wc 13. Noise level sound pressure level DB sound pressure level DB 65.0 60.0 55.0 50.0 45.0 40.0 35.0 30.0 25.0 20.0 15.0 10.0 5.0 0.0 65.0 60.0 55.0 50.0 45.0 40.0 35.0 30.0 25.0 20.0 15.0 10.0 5.0 0.0 -202third octave band frequency Hz .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .5 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 25 31 40 50 63 80 100 125 160 200 250 315 400 500 630 800 000 250 600 000 500 150 000 000 300 000 000 500 000 000 8 10 12 16 20 6 5 4 3 2 1 2 1 1 1/3 octave band noise level-AD182AMERA third octave band frequency Hz .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .5 .0 25 31 40 50 63 80 100 125 160 200 250 315 400 500 630 800 000 250 600 000 500 150 000 000 300 000 000 500 000 000 2 2 3 4 5 6 1 8 10 12 16 20 1 1 1/3 octave band noise level-AU182AFERA cooling superhigh cooling high cooling med cooling low fan superhigh fan high fan med fan low heating superhigh heating high heating med heating low cooling superhigh cooling high cooling med cooling low fan superhigh fan high fan med fan low heating superhigh heating high heating med heating low >a__WcU[S^ <[c >a`V[e[a`Wc sound pressure level DB Sound pressure level DB 60.0 55.0 50.0 45.0 40.0 35.0 30.0 25.0 20.0 15.0 10.0 5.0 0.0 65.0 60.0 55.0 50.0 45.0 40.0 35.0 30.0 25.0 20.0 15.0 10.0 5.0 0.0 -203third octave band frequency Hz .0 .5 .0 .0 .0 0.0 0.0 5.0 0.0 0.0 0.0 5.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 25 31 40 50 63 8 10 12 16 20 80 100 125 160 200 250 315 400 500 630 800 000 250 600 000 25 31 40 50 63 2 1 1 1 1/3 octave band noise level-AS182AVERA third octave band frequency Hz .0 1.5 0.0 0.0 3.0 0.0 0.0 5.0 0.0 0.0 0.0 5.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 6 8 25 3 4 5 10 12 16 20 25 31 40 50 63 80 100 125 160 200 250 315 400 500 630 800 000 250 600 000 1 1 1 2 1/3 octave band noise level-AU182AFERA cooling high cooling med cooling low fan high fan med fan low heating high heating med heating low cooling high cooling med cooling low fan high fan med fan low heating high heating med heating low >a__WcU[S^ <[c >a`V[e[a`Wc sound pressure level DB Sound pressure level DB 53.0 48.0 43.0 38.0 33.0 28.0 23.0 18.0 13.0 8.0 56.0 51.0 46.0 41.0 36.0 31.0 26.0 21.0 16.0 11.0 6.0 1.0 . 25 0 0 . 25 . 31 5 .5 31 . 40 0 .0 40 . 50 0 .0 50 . 63 0 .0 63 . 80 0 .0 80 -204- .0 5 12 .0 0 16 .0 0 20 .0 0 25 0 0. 50 0 0. 63 0 0. 80 .0 00 10 .0 50 12 .0 00 16 third octave band frequency Hz 0 0. 40 .0 00 20 .0 00 25 .0 50 31 1/3 octave band noise level-AC242ACERA .0 5 31 40 00 .0 50 00 .0 63 00 .0 80 00 .0 0 0 0 0 0. 0. 0. 0. 00 50 00 00 0 2 6 0 1 1 1 2 third octave band frequency Hz 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0. 5. 0. 0. 0. 5. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 10 12 16 20 25 31 40 50 63 80 100 125 160 200 250 315 400 500 630 800 000 250 00 000 6 1 1 1 2 0 0. 10 1/3 octave band noise level-AU242AGERA heating low heating med fan med fan low heating high cooling low fan high cooling high cooling med cooling high cooling med cooling low fan high fan med fan low heating high heating med heating low >a__WcU[S^ <[c >a`V[e[a`Wc sound pressure level DB Sound pressure level DB 53.0 48.0 43.0 38.0 33.0 28.0 23.0 18.0 13.0 8.0 65.0 60.0 55.0 50.0 45.0 40.0 35.0 30.0 25.0 20.0 15.0 10.0 5.0 .0 25 .0 25 .5 31 .5 31 .0 40 .0 40 .0 50 .0 50 .0 63 .0 63 -205- .0 0. 10 0 0 5. 12 0. 16 0 0 0. 20 0 0. 25 40 0 0. 0 0. 50 0 0. 63 0 0. 80 .0 00 10 .0 50 12 .0 00 16 .0 00 25 .0 50 31 .0 00 40 1/3 octave band noise level-AD242AMERA .0 00 20 third octave band frequency Hz 0 5. 31 .0 .0 .0 .0 .0 .0 .0 00 300 000 000 500 000 000 50 6 8 0 2 6 0 1 1 1 2 third octave band frequency Hz .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 80 100 125 160 200 250 315 400 500 630 800 000 250 600 000 500 150 000 000 00 000 000 500 000 000 1 1 1 2 2 3 4 5 63 8 0 2 6 0 1 1 1 2 80 1/3 octave band noise level-AU242AGERA heating med heating low heating super high heating high fan med fan low fan super high fan high cooling high cooling med cooling low cooling super high cooling super high cooling high cooling med cooling low fan super high fan high fan med fan low heating super high heating high heating med heating low >a__WcU[S^ <[c >a`V[e[a`Wc 80 .0 63 .0 63 .0 50 .0 50 .0 40 .0 40 .0 31 .5 31 .5 25 .0 sound pressure level DB Sound pressure level DB 0. 0 31 5. 0 0. 0 1/3 octave band noise level-AD242ALERA third octave band frequency Hz 25 0. 0 31 5. 0 40 0. 0 .0 25 53.0 48.0 43.0 38.0 33.0 28.0 23.0 18.0 13.0 8.0 10 0. 0 80 .0 40 third octave band frequency Hz 50 0. 0 63 0. 0 69 64 59 54 49 44 39 34 29 24 19 14 9 4 12 5. 0 0 10 0. 16 0. 0 0 12 5. 20 0. 0 0 16 0. 25 0 50 0. 0 63 0. 0 80 0. 0 10 00 .0 12 50 .0 16 00 .0 20 00 .0 25 00 .0 31 50 .0 40 00 .0 50 00 .0 63 00 .0 80 00 .0 1 0 00 0. 0 1 2 50 0. 0 16 0 00 .0 2 0 00 0. 0 80 0. 0 10 00 .0 1 2 50 .0 16 00 .0 20 00 .0 25 00 .0 31 50 .0 4 0 00 .0 50 00 .0 63 00 .0 8 0 00 .0 1 0 00 0. 12 0 50 0. 16 0 00 0. 0 2 0 00 0. 0 -20620 0. 1/3 octave band noise level-AU242AGERA heating low heating super high heating high heating med fan low fan high fan med cooling med cooling low fan super high cooling super high cooling high cooling super high cooling high cooling med cooling low fan super high fan high fan med fan low heating super high heating high heating med heating low >a__WcU[S^ <[c >a`V[e[a`Wc sound pressure level DB Sound pressure level DB .0 25 -207- 25 48 52.0 47.0 42.0 37.0 32.0 27.0 22.0 17.0 12.0 7.0 70 65 60 55 50 45 40 35 30 25 20 15 10 5 .0 .5 31 31 .5 .0 40 40 .0 .0 50 50 .0 .0 63 63 .0 80 .0 80 .0 10 0 0. 10 0 0. 12 0 5. 12 0 5. 16 0 0. 16 0 0. 20 0 0. 20 0 0. 25 0 0. 25 0 0. 31 0 5. 31 0 0. 50 0 0. 63 0 0. 80 .0 00 10 .0 50 12 .0 00 16 .0 00 20 .0 00 25 0 5. 0 0. 50 0 0. 63 0 0. 80 0 0. 10 . 00 0 12 . 50 0 16 . 00 third octave band frequency Hz 40 0 20 . 00 0 25 . 00 0 1/3 octave band noise level-AB362ACERA third octave band frequency Hz 0 0. 40 1/3 octave band noise level-AU362AHERA 31 . 50 .0 50 31 0 40 . 00 .0 00 40 0 50 . 00 .0 00 50 0 63 . 00 .0 00 63 0 80 . 00 0 0 00 10 .0 0 50 12 .0 0 00 16 .0 0 00 20 .0 0 0 0 0 .0 0. 0. 0. 0. 00 00 50 00 00 0 80 2 6 0 2 1 1 1 heating low heating med heating high fan low fan med fan high cooling low cooling med cooling high heating low heating med heating high fan low fan med fan high cooling low cooling med cooling high >a__WcU[S^ <[c >a`V[e[a`Wc Sound pressure level DB -208- 15 19 23 27 31 35 39 43 47 51 55 59 63 25 31 .5 40 50 63 80 10 0 12 5 16 0 20 0 25 0 31 5 0 50 0 63 0 80 0 10 00 12 50 16 00 Third octave band frequency Hz 40 20 00 Noise level-AC362AFERA 25 00 31 50 40 00 50 00 63 00 80 00 0 10 00 5 12 00 1 0 60 00 0 20 00 fan high fan middle fan low cooling high cooling middle cooling low heating high heating middle heating low >a__WcU[S^ <[c >a`V[e[a`Wc -209- Sound pressure level DB Sound pressure level DB 53.0 48.0 43.0 38.0 33.0 28.0 23.0 18.0 13.0 8.0 16.0 21.0 26.0 31.0 36.0 41.0 46.0 .0 80 51.0 .0 25 25 .0 .5 31 31 .5 .0 40 40 .0 .0 50 50 .0 .0 63 63 .0 0. 0 10 5. 0 12 0. 0 16 56.0 1/3 octave band noise level-AB182ACEAA third octave band frequency Hz third octave band frequency Hz 25 0. 0 31 5. 0 40 0. 0 50 0. 0 63 0. 0 80 0. 0 10 00 .0 12 50 .0 16 00 .0 2 0 00 .0 25 00 .0 31 50 .0 40 00 .0 50 00 .0 63 00 .0 8 0 00 .0 10 00 0. 0 1 2 50 0. 0 1 6 00 0. 0 20 0 0. 0 20 80 .0 10 0. 0 12 5. 0 16 0. 0 20 0. 0 0. 0 25 5. 0 31 0. 0 40 0. 0 50 0. 0 63 0. 0 80 .0 00 10 .0 50 12 .0 00 16 .0 00 20 .0 00 25 .0 50 31 .0 00 40 .0 00 50 .0 00 63 .0 00 80 0. 0 00 10 0. 0 50 12 0. 0 00 16 0. 0 00 20 00 .0 1/3 octave band noise level-AC182ACEAA heating med heating low fan med fan low heating high cooling low fan high cooling high cooling med heating low heating med heating high fan low fan med fan high cooling low cooling med cooling high >a__WcU[S^ <[c >a`V[e[a`Wc Sound pressure level DB sound pressure level DB 69 64 59 54 49 44 39 34 29 24 19 14 9 4 .0 25 25 .0 .5 31 31 .5 .0 40 40 .0 .0 50 50 .0 .0 63 63 .0 .0 80 80 .0 0. 0 10 0 10 0. 5. 0 12 0 12 5. 0. 0 16 0 16 0. 0. 0 20 0 20 0. 0. 0 25 0 25 0. 1/3 octave band noise level-AU182AEEAA 0 third octave band frequency Hz 50 0. 0 63 0. 0 80 0. 0 10 00 . 5. 0 31 0 31 5. 0. 0 40 0. 0 third octave band frequency Hz .0 12 50 .0 16 00 53.0 48.0 43.0 38.0 33.0 28.0 23.0 18.0 13.0 8.0 20 00 .0 40 0. 0 50 0. 0 63 0. 0 80 .0 00 10 .0 50 12 .0 00 16 .0 00 20 .0 00 25 .0 25 00 .0 50 31 .0 31 50 .0 00 40 .0 40 00 .0 00 50 .0 50 00 .0 00 63 .0 63 00 .0 00 80 .0 80 00 10 0. 0 00 0 0. 10 00 12 0. 0 50 0 0. 12 50 .0 00 16 0 0 0. 16 00 20 0. 0 00 0 0. -210- 20 00 1/3 octave band noise level-AD182ALEAA heating low heating med heating high heating super high fan low fan med fan high fan super high cooling low cooling med cooling high cooling super high heating low heating med heating high heating super high fan low fan med fan high fan super high cooling low cooling med cooling high cooling super high >a__WcU[S^ <[c >a`V[e[a`Wc Sound pressure level DB Sound pressure level DB 55 52 49 46 43 40 37 34 31 28 25 22 19 16 13 10 7 60 57 54 51 48 45 42 39 36 33 30 27 24 21 18 15 25 25 .5 31 .5 31 40 40 50 50 63 63 80 80 0 10 0 10 5 12 5 12 0 16 0 16 0 20 0 20 0 25 0 25 5 31 5 31 0 50 0 63 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 80 100 125 160 200 250 315 400 500 630 800 000 250 000 000 1 1 2 6 1 -2110 50 0 63 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 80 100 125 160 200 250 315 400 500 630 800 000 250 000 000 1 1 2 6 1 Third octave band frequency Hz 0 40 Noise level-AD282AMEAA Third octave band frequency Hz 0 40 Noise level-AD282AHEAA super fan high fan high fan middle fan low super cooling high cooling high cooling middle cooling low super heating high heating high heating middle heating low fan high fan middle fan low cooling high cooling middle cooling low heating high heating middle heating low >a__WcU[S^ <[c >a`V[e[a`Wc Sound pressure level DB Sound pressure level DB -212- .5 0 10 5 12 0 16 0 20 0 25 5 31 0 40 0 50 0 63 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 80 100 125 160 200 250 315 400 500 630 800 000 250 000 000 1 1 2 6 1 Third octave band frequency Hz fan high 12 8 fan middle cooling low heating high heating middle heating low 16 80 Noise level-AC282AFEAA 80 100 125 160 200 250 315 400 500 630 800 000 250 600 000 500 150 000 000 300 000 000 500 000 000 1 1 1 2 3 4 5 6 8 10 12 60 20 2 1 Third octave band frequency Hz fan low 63 63 cooling high 50 50 20 40 40 cooling middle .5 31 31 24 25 25 fan high fan middle fan low cooling high cooling middle cooling low heating high heating middle heating low 28 32 36 40 44 48 71 67 63 59 55 51 47 43 39 35 31 27 23 19 15 11 7 Noise level-AU28NAHEAA >a__WcU[S^ <[c >a`V[e[a`Wc Sound pressure level DB Sound pressure level DB 53 50 47 44 41 38 35 32 29 26 23 20 17 14 11 8 15 19 23 27 31 35 39 43 47 51 55 59 63 25 25 .5 31 .5 31 40 40 50 50 63 63 80 80 0 10 0 10 5 12 5 12 0 16 0 16 0 20 0 20 0 25 0 25 5 31 5 31 0 50 0 63 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 80 100 125 160 200 250 315 400 500 630 800 000 250 000 000 1 1 2 16 -2130 50 0 63 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 80 100 125 160 200 250 315 400 500 630 800 000 250 000 000 1 1 2 6 1 Third octave band frequency Hz 0 40 Noise level-AD362AMEAA Third octave band frequency Hz 0 40 Noise level-AD362AHEAA super fan high fan high fan middle fan low super cooling high cooling high cooling middle cooling low super heating high heating high heating middle heating low fan high fan middle fan low cooling high cooling middle cooling low heating high heating middle heating low >a__WcU[S^ <[c >a`V[e[a`Wc Sound pressure level DB Sound pressure level DB 40 50 63 63 80 10 0 12 5 16 0 20 0 25 0 31 5 -214- 8 12 16 20 24 28 32 0 50 0 63 0 80 0 00 250 600 000 500 150 000 000 300 000 000 500 000 000 3 10 2 2 4 5 6 8 1 1 20 10 12 160 Third octave band frequency Hz 40 Noise level-AC362AFEAA Third octave band frequency Hz 80 100 125 160 200 250 315 400 500 630 800 000 250 600 000 500 150 000 000 300 000 000 500 000 000 1 1 1 2 2 3 4 5 8 10 12 60 20 6 1 fan high fan middle fan low cooling high cooling middle cooling low heating high .5 50 heating middle 31 40 36 .5 heating low 25 31 fan high fan middle fan low cooling high cooling middle cooling low heating high heating middle heating low 40 25 Noise level-AU36NAIEAA 44 48 70 66 62 58 54 50 46 42 38 34 30 26 22 18 14 10 6 >a__WcU[S^ <[c >a`V[e[a`Wc Sound pressure level DB Sound pressure level DB 56 52 48 44 40 36 32 28 24 20 16 12 8 74 70 66 62 58 54 50 46 42 38 34 30 26 22 18 14 10 6 25 30 25 .5 31 31 .5 40 40 50 50 63 63 80 0 10 5 12 0 16 0 20 0 25 5 31 -2150 50 0 63 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 80 100 125 160 200 250 315 400 500 630 800 000 250 000 000 1 1 2 6 1 Third octave band frequency Hz 0 40 Noise level-AP422ACEAA 80 100 125 160 200 250 315 400 500 630 800 000 250 600 000 500 150 000 000 300 000 000 500 000 000 1 1 1 2 2 3 4 5 6 8 10 12 60 20 1 Third octave band frequency Hz Noise level-AU42NALEAA fan high fan middle fan low cooling high cooling middle cooling low heating high heating middle heating low fan high fan middle fan low cooling high cooling middle cooling low heating high heating middle heating low >a__WcU[S^ <[c >a`V[e[a`Wc -216- 54.0 49.0 44.0 39.0 34.0 29.0 24.0 19.0 14.0 9.0 53.0 48.0 43.0 38.0 33.0 28.0 23.0 18.0 13.0 8.0 Sound pressure level DB Sound pressure level DB 25 .0 .0 25 31 .5 .5 31 40 .0 .0 40 50 .0 .0 50 6 63 .0 0 3. 8 80 .0 0 0. 1 1 .0 25 1 .0 60 2 .0 00 10 0. 0 12 5. 0 16 0. 0 20 0. 0 .0 00 2 3 .0 15 25 0. 0 31 5. 0 40 0. 0 .0 50 5 .0 00 6 .0 30 8 .0 00 1 0 0. 00 1 0 0. 25 1 0 0. 60 third octave band frequency Hz 4 .0 00 2 0 0. 00 2 0 0. 50 3 0 0. 15 1/3 octave band noise level-AC482ACEAA 4 0 0. 00 5 0 0. 00 6 0 0. 30 8 0 0. 00 10 00 0 0. 12 50 0 0. 16 00 0 0. 20 00 0 0. 50 0. 0 63 0. 0 80 0. 0 10 00 .0 12 50 .0 16 00 .0 2 0 00 .0 25 00 .0 31 50 .0 40 00 .0 50 00 .0 63 00 .0 80 00 .0 10 0 00 .0 1 2 50 0. 0 1 6 00 0. 0 2 0 00 0. 0 third octave band frequency Hz heating low heating med heating high heating super high fan low fan med fan high fan super high cooling low cooling med cooling high cooling super high heating low fan high fan med fan low heating high heating med cooling high cooling med cooling low 25 1/3 octave band noise level-AB482ACEAA >a__WcU[S^ <[c >a`V[e[a`Wc 25 .0 25 sound pressure level DB .5 31 .0 40 40 .0 .0 50 50 .0 .0 63 63 .0 .0 80 80 .0 0. 0 10 10 0 .0 5. 0 12 12 5 .0 0. 0 16 16 0 .0 0. 0 20 20 0 .0 5. 0 40 0 .0 third octave band frequency Hz 50 0 .0 Sound pressure level DB 69 64 59 54 49 44 39 34 29 24 19 14 9 4 1/3 octave band noise level-AU48NAIEAA 63 0 .0 0. 0 25 25 0 .0 third octave band frequency Hz 80 0 .0 58.0 53.0 48.0 43.0 38.0 33.0 28.0 23.0 18.0 13.0 8.0 12 50 .0 .0 1.5 3 .0 10 00 .0 16 00 .0 20 00 31 31 5 .0 0. 0 40 0. 0 50 0. 0 63 0. 0 80 .0 00 10 .0 50 12 .0 00 16 .0 00 20 .0 00 25 .0 25 00 .0 50 31 .0 31 50 .0 00 40 .0 40 00 .0 00 50 .0 50 00 .0 00 63 .0 63 00 .0 00 80 .0 80 00 0. 0 00 10 0.0 10 00 0. 0 50 12 0.0 12 50 0. 0 00 0. 0 20 0.0 00 16 0.0 16 00 -217- 20 00 1/3 octave band noise level-AD482AHEAA heating low heating med heating high fan low fan med fan high cooling low cooling med cooling high heating low heating med heating high fan low fan med fan high cooling low cooling med cooling high >a__WcU[S^ <[c >a`V[e[a`Wc 70.0 65.0 60.0 55.0 50.0 45.0 40.0 35.0 30.0 25.0 20.0 15.0 58.0 53.0 48.0 43.0 38.0 33.0 28.0 23.0 18.0 13.0 8.0 .0 25 .0 25 .5 31 .5 31 .0 40 .0 40 .0 50 .0 50 .0 63 .0 63 Sound pressure level DB sound pressure level DB -218third octave band frequency Hz 0 0 0 0 0 0 0 0 0 0 0 0 0 0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 0. 5. 0. 0. 0. 5. 0. 0. 0. 0. 0. 0. 0. 0. 80 00 50 00 00 00 50 00 00 00 00 10 12 16 20 25 31 40 50 63 80 00 50 00 00 10 12 16 20 25 31 40 50 63 80 10 12 16 20 1/3 octave band noise level- AU60NAIEAA third octave band frequency Hz .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 80 100 125 160 200 250 315 400 500 630 800 000 250 600 000 500 150 000 000 300 00 000 500 000 000 0 1 1 1 2 2 3 4 5 6 8 10 12 16 20 cooling high cooling med cooling low fan high fan med fan low heating high heating med heating low cooling high cooling med cooling low fan high fan med fan low heating high heating med heating low 29 24 1/3 octave band noise level-AD602AHEAA >a__WcU[S^ <[c >a`V[e[a`Wc >a__WcU[S^ <[c >a`V[e[a`Wc 13. Air velocity distribution 18000BTU/h indoor uni 1) Cassette type (AB182*****) a. Cooling / Air Velocity Distribution Cooling Blowy angle:40 Air Velocity Distribution PV PV b. Cooling / Temperature Distribution Cooling Blowy angle:40 Temperature Distribution c. Heating / Air Velocity Distribution Heating Blowy angle:70 Air velocity Distribution PV PV d. Heating / Temperature Distribution Heating Blowy angle:70 Temperature Distribution -219- >a__WcU[S^ <[c >a`V[e[a`Wc 2)Convertible type (AC182*****) a) Grounding a. Cooling / Air Velocity Distribution Cooling Blowy angle:25 Air Velocity Distribution 0.5m/s 1.0m/s 1.5m/s 0 b. Cooling / Temperature Distribution Cooling Blowy angle:25 Temperature Distribution c. Heating / Air Velocity Distribution Heating Blowy angle:5 Air velocity Distribution PV PV PV d. Heating / Temperature Distribution Heating Blowy angle:5 Temperature Distribution -220- >a__WcU[S^ <[c >a`V[e[a`Wc b) Ceiling a. Cooling / Air Velocity Distribution Cooling Blowy angle:25 Air Velocity Distribution PV PV PV b. Cooling / Temperature Distribution Cooling Blowy angle:25 Temperature Distribution c. Heating / Air Velocity Distribution Heating Blowy angle:65 Air velocity Distribution PV d. Heating / Temperature Distribution Heating Blowy angle:65 Temperature Distribution -221- >a__WcU[S^ <[c >a`V[e[a`Wc 3)Duct type (AD182*****) cooling air discharge angle Air Velocity distribution cooling air discharge angle 5 Temperature distribution heating air discharge angle 45 Air Velocity distribution heating air discharge angle 45 Temperature distribution -222- >a__WcU[S^ <[c >a`V[e[a`Wc 24000~28000BTU/h indoor units Model: AC282***** a. Cooling / Air Velocity Distribution Cooling Blowy angle:25 Air Velocity Distribution 0.5m/s 1.0m/s 1.5m/s b. Cooling / Temperature Distribution Cooling Blowy angle:25 Temperature Distribution Model: AB282***** a. 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Cgee]i[aYd Aai Cgf\akagf]i 638 If^iYi]\ [gfkigdd]i WP2H9> HXU ]QY^ Ve^SdY_^c _V MF{=-2 QbU cQ]U gYdX MF{=.~z `\UQcU bUVUbU^SU MF{=0* Q^T MF{=.~ ]Q^eQ\c| 7 6 H:BE DC D;; =:6AH= ;6C BD9: GA::E GK>C< 8AD8@ G:H H>B:F =:6H F:G:H A><=H AD8@ >a__WcU[S^ <[c >a`V[e[a`Wc 2. Wired controller ;=34 50< 0BA= 0BA= 50< =<:F 7867 24<A?0: =>4?0A8=< 2==: ;43 >?4-740A 3?F 740A A4@ :=D 345?=@A 58:A4? 58E 740:A7 27429 @D8<6 B<8A <=. 34;0<3 ;0<B0: 24<.033. @[email protected]. A8;4? 2:=29 B> @D8<6 50< * + A4;> 740:A7 2:=29 ?==; A4;>. @4A A4;>. A8;4? @4A ?42=C4?F 27429 58:A4? ?4@4A 3=D< C4<A8:0A8=< =< 0BA= =55 ?42=C4?F 308:F ;=34 @A0<31F <=?;0: =</=55 Buttons function˖ MODE˖used for select indoor operation mode. FAN˖used for select indoor air flow. SWING˖used for setting indoor swing mode. HEALTH˖used for setting indoor health function. TEMP + -˖used for changing set temperature. CLOCK˖used to adjust time. +ǃ-˖stands for time plus/minus, used to adjust time. TIMER˖used to set timer mode. RECOVERY˖used to switch over air-exchanging mode. CHECK˖auto-diagnostic button. FILTER˖filter-cleaned button. RESET˖reset correct mode button. Display description˖ [MODE] [AUTO]˖auto operation mode [MODE] [FAN ONLY]˖air-throwing mode [MODE] [COOL]˖Cooling operation mode [MODE] [DRY]˖Dehumidification mode [MODE] [HEAT]˖Heating operation mode [MODE] [HEAT] [TES]˖In heating mode, auxiliary electric heater is running. Only when the unit with auxiliary electric heater is in auxiliary electric heating mode, it will display. [FAN] [AUTO]˖auto fan running >a__WcU[S^ <[c >a`V[e[a`Wc [FAN] [HIGH]˖high fan speed [FAN] [MED]˖ medium fan speed [FAN] [LOW]˖ low fan speed [FAN] [FIX]˖ fixed fan speed, it will display only when fixed fan speed is requested to main indoor unit. [CENTRAL]˖ central control mode [OPERATION] ˖running mode [STAND BY] ˖ waiting mode [PRE-HEAT] ˖ pre-heating mode [DEFROST]˖ defrosting mode [FILTER] ˖ request of filter to be cleaned [HEALTH]˖health function [UNIT NO.] [CEN.ADD]˖central control address, the address number will display on “88ā [SYS.ADD.]˖system address, the address number will display on “88ā [CHECK]˖auto-diagnostic, trouble shooting [DEMAND]˖compulsory operation function, when it works, [CENTRAL] will flash [SWING]˖swing mode [ROOM TEMP.]˖indoor ambient temperature [SET TEMP.]˖set admired temperature. [TIMER][ON] ˖timer function is on. [TIMER][OFF] ˖timer function is off [TIMER][ON][OFF] ˖timer function ON-OFF [TIMER][ON][OFF][DAILY]˖timer ON-OFF will switch over in turn daily [CLOCK]˖clock display, the displaying time is the current time of the clock. [UP]ǃ[DOWN]˖indicator of filter elevating [VENTILATION][AUTO]˖auto ventilation mode [VENTILATION][RECOVERY]˖fully heat exchanging ventilation mode [VENTILATION][NORMAL]˖normal ventilation mode FAN ONLY OPERATION˖ 1˅Start up operation: press the button of ON/OFF, the system will start up, and will display [MODE][AUTO]˗[FAN][AUTO]˗[ROOM TEMP.]+Ā24ćā˗[CLOCK]+”12˖00”. 2˅ Select MODE: press the MODE button, then you will see in the display section [MODE] switch over in below sequence:[FAN ONLY]ė[COOL]ė[DRY]ė[HEAT]ė[AUTO]ė [FAN ONLY]. Select [FAN ONLY]. 3˅Select fan speed: press FAN button, then you see in the display section [FAN] switch over in below sequence: [HIGH]ė[MED]ė[LOW]ė[HIGH]. Select proper fan speed. 4˅Power off: press ON/OFF button, indoor unit will be powered off, there are only time and the ambient temperature in the screen. >a__WcU[S^ <[c >a`V[e[a`Wc AUTO operation, COOLING, HEATING and DEHUMIDIFICATION operation 1) Start up operation: press the button of ON/OFF, the system will start up, and will display [MODE][AUTO]˗[FAN][AUTO]˗[ROOM TEMP.]+Ā24ćā˗[CLOCK]+”12˖00”. 2) Select MODE: press the MODE button, then you will see in the display section [MODE] switch over in below sequence:[FAN ONLY]ė[COOL]ė[DRY]ė[HEAT]ė[AUTO]ė[FAN ONLY]. Select [COOL] . 3) Change set temperature: press TEMP + or – every time, [SET] will display, and set temperature will increase/reduce 1ć˄F˅. 4) Select fan speed: press FAN button, then you see in the display section [FAN] switch over in below sequence: [AUTO]ė[HIGH]ė[MED]ė[LOW]ė[AUTO]. Select proper fan speed. 5) Select [SWING]: press [SWING] button, swing function is valid. Press again, swing function is invalid. 6) Set [HEALTH]: used to set the indoor health function. Press it once, [HEALTH] will display in the display section, then indoor health function is valid. Press it again, [HEALTH] will disappear, then the health function is invalid. This function is valid only for the unit with health function. 7) Power off: press ON/OFF button, indoor unit is powered off. There are only time and the ambient temperature in the screen. Set TIMER operation: Adjust clock: when powered on, for the first time to set timer function, the clock will be adjusted. Press “CLOCK” button, and set the current clock. Now, “CLOCK” will flash at the frequency of 2Hz. Press the clock +/- button; the current clock can be adjusted. Until the proper time comes, press [SET]. TIMER ON operation: Press TIMER button, and keep pressing it, in the display section [TIMER] will switch over in below sequence: [ON]ė[OFF]ė[ON][OFF] ė [ON][OFF][DAILY] ė[ ]. Select [TIMER] [ON], then [TIMER] [ON] flashes, press the clock +/- button to adjust the time of TIMER ON, press [SET] button. TIMER OFF operation: Press TIMER button, and keep pressing it, in the display section [TIMER] will switch over in below sequence: [ON]ė[OFF]ė[ON][OFF] ė [ON][OFF][DAILY] ė[ ]. Select [TIMER] [OFF], then [TIMER] [OFF] flashes, press the clock +/- button to adjust the time of TIMER OFF, press [SET] button. TIMER ON-OFF operation: Press TIMER button, and keep pressing it, in the display section [TIMER] will switch over in below sequence: [ON]ė[OFF]ė[ON][OFF] ė [ON][OFF][DAILY] ė[ ]. Select [TIMER] [ON] [OFF]. Firstly, [TIMER][ON] flashes, press the clock +/- button to adjust the time of >a__WcU[S^ <[c >a`V[e[a`Wc TIMER ON, press [TIMER]. [TIMER][ON] will be constant on. Then [TIMER] [OFF] flashes, press the clock +/- button to adjust the time of TIMER OFF, press [SET]. The time sequence of timer on and timer off will determine the mode is [TIMER] [ON] »[OFF] or [TIMER] [OFF] »[ON]. If you want the current time, press [CLOCK] once, current time will display; press again, [CLOCK] will flash, and press [+][-] to adjust the time. Note: 1. If the two times are same, the timer state which is set later will flash, in this case, timer can not be set. 2. When entering TIMER setting state, if you do not input any button in continuous 10 seconds, the unit will quit from the TIMER mode. Cancel TIMER operation: In the timer operation state, press [TIMER] button, the unit will quit from the current timer operation state, and the set data will be memorized, then enter the next timer mode. [FILTER] function When the wired controller receives the filter-cleaned signal from indoor unit, [FILTER] will display. After finishing clean, press [FILTER], the sign [FILTER] disappears, and the controller will send the filter reset signal to indoor unit. When the sign [FILTER] not display, it is invalid to press [FILTER] in short time. FILTER ELEVATING function: (only for the unit with elevating function) When the filter needs to be cleaned, the panel can be lowered to the admired height by the [FILTER][UP][DOWN] function. Method is below: In power off state, press [HEALTH] for 10 seconds to enter filter elevating set state. In this state, the sign [FILTER] will flash and [UP] [DOWN] will display simultaneously, Press TEMP [+], in timer section [UP] will display, while press TEMP [-], in timer section [DOWN] will display. When it arrives the appropriate position, press [UP], [UP][DOWN] will display simultaneously, filter will stop going down. Press [UP] again, filter will go up. Press [FILTER] button to quit the mode. DEMAND operation function: By this function, all the indoor units can be made in nominal mode. Set the operation mode in cooling and then shut off the unit. In the stop state, press [ON/OFF] button for 5 seconds to enter cooling trial operation state. If it is in heating mode before shut off the unit, then press [ON/OFF] button for 5 minutes, it will enter heating trial operation state. In cooling, there will be “LL” in the position where the set temperature displays. In heating, there will be “HH” in the position where the set temperature displays. The wired controller will send the [DEMAND] signal to indoor unit. In the [DEMAND] operation, “COOL” or “HEAT” will display at 1Hz frequency. Indoor fan motor will be fixed at “AUTO” mode. The indoor units in the same group will quit the [DEMAND] in turn. At this time, only the buttons of [ON/OFF] and temperature [+] [-] are valid. Press [ON/OFF] to quit [DEMAND] mode. >a__WcU[S^ <[c >a`V[e[a`Wc CENTRAL control function When the central controller selects [CENTRAL] mode, the buttons in the wired controller except for [CHECK] will be invalid. VENTILATION mode (only for the unit with fresh air function or heat recovery function) Press [RECOVERY] button, then the unit will switch over the ventilation mode: [ ] ė [VENTILATION][AUTO] ė [VENTILATION][RECOVERY] ė [VENTALATION][NORMAL] ė[ ], please select appropriate ventilation mode. Query indoor malfunction history: In the state of power on or power off, press [CHECK] button, enter the malfunction-querying mode of all indoor units in the group. Then [CHECK] and [UNIT NO.] will display, and the actual indoor numbers will be displayed in some sequence (unit number is in decimals). At the same time, in the time region, there will be the current malfunction and the latest time malfunction, the displaying format is [XX˖YY], in which XX stands for the current malfunction, if normal, it will display “̣̣”; YY stands for the latest time malfunction. The failure code of every unit will display for 3 seconds. After the failure codes of all indoor units in the whole group are displayed, the mode will quit automatically. Clear abnormal state and malfunction history: In normal state, press [CHECK] button for 5 seconds to clear abnormal states, at the same time, wired controller will send the data of “clear abnormal state”, but the malfunction history still retains. In normal state, press [CHECK] button for 15 seconds, except for malfunction states, the malfunction history in wired controller will be cleared. Query indoor performance state: In normal state, press both buttons of [CHECK] and [FILTER] for 5 seconds, in the set temperature region in the screen, [XX] will display, XX is indoor number, which can be selected by pressing [TEMP] [+] [-]. In the timer region in the screen, [YZZZ] will display, in which Y stands for data type, ZZZ stands for the corresponding data. which can be selected by pressing [CLOCK] [+] [-]. Y A ZZZ Indoor capacity (W) B C Request of indoor capacity˄Hz˅ Temperature of indoor ambient temp. sensor TA Temperature of indoor gas pipe sensor TC1 Temperature of indoor liquid pipe sensor TC2 Open degree of indoor PMV d E F Type Nominal cooling capacity/10, decimal Actual value, decimal Actual value, decimal Actual value, decimal Actual value, decimal Actual value, decimal >a__WcU[S^ <[c >a`V[e[a`Wc g H ̣̣̣ Actual value, decimal Preset Outdoor total capacity In check mode, press [CHECK] to quit the check mode, and go into normal running mode. How to change the function switches? No. Type State of switch Changeover of Wired Connected J01 controller controller J02 J06 J07 J03 SW01 ķ SW01 ĸ D1 D2 and central Changeover of type of wired controller Selection of room temp. sensor Auto restart after power failure Display of temperature room Function description Central controller Cut off Wired controller Connected Set as simple controller Cut off Set as standard controller Connected Use the sensor in the wired controller Cut off Use the sensor in the indoor unit Connected Common control Cut off Auto restart after power failure Connected Yes Cut off No Changeover of master or slave controller ON Set as slave controller OFF Set as master controller ć or ̧ ON ̧ OFF ć Connected Indoor unit in shorted time function Cut off Common control Connected Send compulsorily defrost signal to indoor unit Cut off Common control Shorten time function Compulsorily defrost Note: 1. The switches in grey can be operated after opening the cover of wired controller. 2. Switches or jumper wire must be adjusted when the wired controller is powered off. If the wired controller is powered on, the above operations will be invalid. 3. Shorten time function In normal operation, D1 is in short circuit, it will enter shorten time mode, and the time will be shortened in the proportion of 60:1. In shorten time mode, LED will flash at the frequency of 0.5 second. Cut off D1, it will quit the shorten time mode and return to the normal operation mode. 4. Compulsorily defrost In heating mode 30ć and in High fan speed, D2 is in short circuit, it will enter compulsorily defrost mode; cut off D2, it will quit. It is always be used when in testing to see if the defrost function is good. 5. Lock function >a__WcU[S^ <[c >a`V[e[a`Wc There is no lock function only in the wired controller. But when it is connected with a central controller, if the central controller is set to “central”, the buttons in the wired controller will be invalid, or the buttons will be valid. Setting address method: The address setting can be realized by setting indoor PCB. If you use the group control function, there should be a master unit and 15 sets of slave units. For the master unit, the SW5-3 should be at “ON”. For the slave units, the SW5-3 should be at “OFF”. Please refer the below table, Indoor unit address SW1-4 SW1-3 SW1-2 SW1-1 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 OFF OFF OFF OFF OFF OFF OFF ON ON ON ON ON ON ON ON OFF OFF OFF ON ON ON ON OFF OFF OFF OFF ON ON ON ON OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON If you use central control type, SW1, SW2 will be used simultaneously. Wiring request in central control type: port A-B is connected with indoor port CN16˄A-B˅ through 2-core shield wire. Requirements: 1. Port A connects with port CN16˄A˅of all indoor units. 2. Port B connects with port CN16˄B˅of all indoor units. Address on Indoor unit SW2-3 SW2-2 SW2-1 SW1-4 SW1-3 SW1-2 SW1-1 central address controller 1 1 OFF OFF OFF OFF OFF OFF OFF 2 2 OFF OFF OFF OFF OFF OFF ON 3 3 OFF OFF OFF OFF OFF ON OFF 4 4 OFF OFF OFF OFF OFF ON ON 5 5 OFF OFF OFF OFF ON OFF OFF 6 6 OFF OFF OFF OFF ON OFF ON >a__WcU[S^ <[c >a`V[e[a`Wc 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF ON ON OFF OFF ON ON ON ON ON ON ON ON OFF OFF OFF OFF OFF OFF OFF OFF ON ON ON ON ON ON ON ON OFF OFF OFF OFF OFF OFF OFF OFF ON ON ON ON ON ON ON ON OFF OFF ON ON OFF OFF OFF OFF ON ON ON ON OFF OFF OFF OFF ON ON ON ON OFF OFF OFF OFF ON ON ON ON OFF OFF OFF OFF ON ON ON ON OFF OFF OFF OFF ON ON ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON >a__WcU[S^ <[c >a`V[e[a`Wc 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF ON ON ON ON ON ON ON ON ON ON ON ON ON ON OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF ON ON ON ON ON ON ON ON ON ON ON ON ON ON OFF OFF OFF OFF OFF OFF ON ON ON ON ON ON ON ON OFF OFF OFF OFF OFF OFF OFF OFF ON ON ON ON ON ON ON ON OFF OFF OFF OFF OFF OFF OFF OFF ON ON ON ON ON ON OFF OFF ON ON ON ON OFF OFF OFF OFF ON ON ON ON OFF OFF OFF OFF ON ON ON ON OFF OFF OFF OFF ON ON ON ON OFF OFF OFF OFF ON ON ON ON OFF OFF OFF OFF ON ON ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON >a__WcU[S^ <[c >a`V[e[a`Wc 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON OFF OFF ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON OFF OFF OFF OFF OFF OFF OFF OFF ON ON ON ON ON ON ON ON OFF OFF OFF OFF OFF OFF OFF OFF ON ON ON ON ON ON ON ON ON ON OFF OFF OFF OFF ON ON ON ON OFF OFF OFF OFF ON ON ON ON OFF OFF OFF OFF ON ON ON ON OFF OFF OFF OFF ON ON ON ON ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON >a__WcU[S^ <[c >a`V[e[a`Wc Electrical functions of wired controller: 1.Function difference between master wired controller and slave one: Contrastive items Function Master wired controller All of functions Slave wired controller Only with below functions: ON/OFF, MODE, FAN SPEED, SET TEMP., SWING 2. Function difference between simple wired controller and the standard one: Contrastive item Function Standard wired controller With all functions Simple wired controller Only can control ON/OFF, MODE, FAN, TEMP.,SWING. Can be either of Master Only can be Master controller and Slave controller Master/Slave selection 3. Wiring connections of wired controller: A indoor 1 indoor 2 indoor N indoor 15 indoor 16 (master unit) wired controller wired controller wired controller wired controller wired controller D C B control wiring of wired controller, polar. wired controller B C indoor 1 4 3 wired controller 2 4 3 2 wired controller indoor 1 polar wire polar wire polar wire D C wired controller B D C B D C B wired controller wired controller There are three methods to connection wired controller and the indoor units: A. One wired controller can control max. up to 16 sets of indoor units, and 3 pieces of polar wire must connect the wired controller and the master unit (the indoor unit connected with wired controller directly), the others connect with the master unit through 2 pieces of polar wire. B. One wired controller controls one indoor unit, and the indoor unit connects with the wired controller through 3 pieces of polar wire. C. Two wired controllers control one indoor unit. The wired controller >a__WcU[S^ <[c >a`V[e[a`Wc connected with indoor unit is called master one, the other is called slave one. Master wired controller and indoor unit; master and slave wired controllers are all connected through 3 pieces of polar wire. 3. Communication wiring: The wired controller is equipped with special communication wiring in the accessories. 3-core terminal (1-white 2-yellow 3-red) is connected with the terminal AǃBǃC of wired controller respectively. The communication wiring is 4 meter long; if the actual length is more than it, please distribute wiring according to below table: Communication wiring length˄m˅ <100 ı100 and <200 ı200 and <300 ı300 and <400 ı400 and <600 Dimensions of wiring 0.3mm2X3-core shielded wire 0.5mm2X3-core shielded wire 0.75mm2X3-core shielded wire 1.25mm2X3-core shielded wire 2mm2X3-core shielded wire Ć One side of the shielded sheet of communication wire must be earthed. >a__WcU[S^ <[c >a`V[e[a`Wc 3. Weekly timer YCS-A001 Instruction: 2 1 1 - PROGRAM-the display shows the weekly 3 timer timing setting state, and in setting state, 4 the timing information can be adjusted. 2 - No:8-timing group number: when it is not set timing, there is no timing group number; 5 after setting timing, it will automatically form 6 a group number according to each kind of setting combination, so that in the sequent timing setting, it can execute instant setting by using timing group number. PROGRAM NO. OFF OFF OFF OFF OFF OFF OFF 1 2 3 4 5 6 7 MON TUE WED THU FRI SAT SUN ON ON ON ON ON ON ON SET 1 ON OFF SET 2 ON OFF 1 2 3 4 5 6 Program Holiday Number Hour Cancel Min. Confirm 7 MON TUE WED THU FRI SAT SUN Time Week NO. ON/OFF 7 8 9 14 16 10 15 17 11 13 12 18 3 - Setting state and holiday functional area-1 (MON), 2 (TUE), 3 (WED), 4 (THU), 5 (FRI), 6 (SAT), 7 (SUN) are used to indicate the 7 days in a week; the symbol of this part will display after powered on; after set the corresponding weekday's timing function, the ON symbol under the corresponding symbol will display, if not set timing, there will be no display; if not set Holiday function, the OFF symbol on the upside of the indicating symbol will not display, after set Holiday function, the OFF will display and at the same time temporarily the previous timing setting and turn off the air conditioner. 4 - No. 1 group and No.2 group timing setting display area-when entering timing setting state, the contents of timing will flash; choose Date, Hour and Minute to perform increase and decrease adjustment by the adjusting key. 5 - Time display area-including display the weekday, hour and minute; before setting timing function, please calibrate the current clock. 6 - Unit number trouble code display area-when the air conditioner in the control network has trouble, the corresponding unit number and the trouble code will display in this area. 7 - Program Enter or exit the timing setting in normal condition, 8 - Holiday Close the units and invalid for timing in no affect on the timing setting condition. 9 - Number Group setting and timing setting (take one day as a standard unit) 10 - Hour Timing setting condition and time setting condition ,select the adjustment 11 - Min. Timing setting condition and time setting condition ,select the adjustment 12 - Time Enter and exit the at present date and time condition in normal condition 13 - Week Timing setting condition and time setting condition ,select the adjustment 14 -Timing setting condition and time setting condition , increase the setting parameters 15 -Timing setting condition and time setting condition , decrease the setting parameters 16 - Cancel Cancel the present setting before confirm the parameter. 17 - Confirm Confirm the parameter. 18 - ON/OFF Open/close the unit. >a__WcU[S^ <[c >a`V[e[a`Wc Connecting method 1. Use group controller and weekly timer to realize the group control function + weekly timing function, applicable for the units except for the unit which needs detector to realize the weekly timer function, such as cabinet type, console type. OFF OFF OFF OFF OFF OFF OFF MON TUE WED THU FRI SAT SUN ON ON ON ON ON ON ON Haier Program R Holiday Number Cancel Hour Min. Confirm MON TUE WED THU FRI SAT SUN Time 1 2 3 CN5 MODE FAN CENTRAL OPERATION AUTO AUTO FAN ONLY COOL DRY HEAT TES FILTER C F SWING MANUAL MODE COOL TIMER SET RECOVERY AUTO OFF RECOVERY NORMAL CHECK FILTER RESET TIMER FILTER CLOCK UP C F SWING MANUAL SWING FAN TEMP HEALTH CLOCK ROOM TEMP. SET TEMP. TIMER SET RECOVERY CHECK FILTER RESET DOWN VENTILATION ON AUTO OFF RECOVERY DAILY ON/OFF MODE STANDBY DEFROST FIX CHECK DEMAND SYS.ADD. 1 2 3 CN5 PRE-HEAT MED HEALTH UNIT NO. CEN.ADD. SET TEMP. CENTRAL OPERATION HIGH LOW DRY HEAT TES CLOCK FAN AUTO AUTO FAN ONLY TEMP HEALTH ROOM TEMP. DOWN VENTILATION ON DAILY SWING FAN DEFROST FIX CLOCK UP MODE PRE-HEAT MED LOW CHECK DEMAND SYS.ADD. 1 2 3 CN5 1 2 3 CN5 STANDBY HIGH HEALTH UNIT NO. CEN.ADD. TIMER Week NORMAL ON/OFF 2. Use weekly timer to realize weekly timing function,applicable for the units which need detector to realize the weekly timer function, such as cabinet type, console type. The detector is connected with one air conditioner by the 4-core screw fixed terminals A+ and A- of air conditioner interface, then accordingly set the dial-code switch of the detector in single unit working mode; the address number setting shall be performed according the planned program, for specific setting and corresponding address, please refer to the dial-code switch setting in detector's operation manual; use weekly timer to fulfill weekly timing function, the system needs to be connected with weekly timer; each detector and weekly timer is connected with shielded twisted pair communication bus by the 2-core screw fixed terminals (A and B) of its RS-485 interface; the communication bus must be shielded and grounded, and the resistors in its two ends shall be suited. View of the detector interface Power cord PROGRAM NO. 1 Resetting Power on/off Air Conditoner HMI Indoor unit 2 3 4 5 6 7 SET 1 ON OFF SET 2 ON OFF Program Holiday Hour Cancel Min. 1 2 3 4 5 6 Number Confirm 7 Time Week NO. ON/OFF Outdoor unit 3. Use weekly timer to realize two units auto-changeover function,applicable for the units which need detector to realize the weekly timer function, such as cabinet type, console type. The detector is connected with two same model air conditioners by the 4-core screw fixed terminals of air conditioner interface; then accordingly set the dial-code switch of the detector in double units working mode, and the double units switch time is default 24 hours; the address number setting shall be performed according the planned program, for specific setting and corresponding address, please refer to the dial-code switch setting in detector's operation manual; use weekly timer to fulfill double units switch weekly timing function, the system needs to be connected with weekly timer; each detector and weekly timer is connected with shielded twisted pair communication bus by the 2-core screw fixed terminals (A and B) of its RS-485 interface; the communication bus must be shielded and grounded, and the resistors in its two ends shall be suited. >a__WcU[S^ <[c >a`V[e[a`Wc PROGRAM NO. 1 2 3 4 5 6 7 SET 1 ON OFF SET 2 ON OFF Program Holiday Hour 2 3 4 5 6 Number Cancel Min. 1 Confirm 7 Time Week NO. ON/OFF Installation dimensions RS-485 B A 12VDC O PROGRAM NO. OFF OFF OFF OFF OFF OFF OFF 1 2 3 4 5 6 7 MON TUE WED THU FRI SAT SUN ON ON ON ON ON ON ON SET 1 ON OFF SET 2 ON OFF 1 2 3 4 5 6 Program 7 Holiday Hour Cancel Min. Confirm MON TUE WED THU FRI SAT SUN Time NO. ON. 1 2 3 4 Number Week >a__WcU[S^ <[c >a`V[e[a`Wc 4. Central Controller YCZ-A001 Function description: LOCK display Display of operation mode and signal emitting Display of current unit number Location of the indicating cursor Display of fan speed and louver Display of MONI/SET Generally indicating " MONI" . When setting ON/OFF or other items, it changes from " MONI" into " SET" . Total on/ Total off indicator Total on/ Total off key Display of the connected units Flashing indicates the cursor for current unit or that the monitor and air conditioner are in group selection status. Lighted indicates the monitor for the unit has been linked into the network, otherwise not linked. Lighted Display of temperature setting Display of CENT/REM Display of room temperature indicates the unit is in "on" mode, otherwise in"off" mode. Flashing indicates fault. Display of time setting Flashing of the current unit indicates the cursor, flashing of non-current unit indicates the unit is in group selection status. Direction keys Up Down Left Right Used to select the current unit number Display of self-check code Total on/Total off MONITER SET UNIT REMOTE CENTRAL AUTO EVERY DAY TIMER OFF ON OFF SELECT LOCK MODE FAN TIME TIMER TEMP. TIME CENTRAL REMOTE CONFIRM CENTRAL/ REMOTE key To select central or remote control method. CONFIRM key ON/OFF key Used to confirm the function settings and send to the air conditioner corresponding to the selected unit number. Used to select unit on/off. LOCK key This key can be used to lock the keys and LCD display. MODE key Used to select running mode. TEMP/TIME TIMER ON ROOM TEMP SELECT key To determine the selected unit number during group selection, the of the corresponding unit number flashes at the same time. TEMP keys Used to set a desired room temperature, clock and time. FAN SPEED key To select the fan speed. TIMER key To select timer mode: TIMER ON/TIMER OFF /blank CLOCK key Used to unitarily set the clock. Note: In MONI mode, pressing SEL, MODE, FAN SPEED, TEMP TIME keys may change the MONI mode into SET mode. If SET key or other keys hasn' t been pressed within 10s, it will automatically return to MONI mode. >a__WcU[S^ <[c >a`V[e[a`Wc 1. Communication function Communicate with the indoor PCB in the group control network To communicate with the indoor PCB through the R S-485 bus (A, B). The central controller sends commands to and receives response from indoor PCB; communication by address enables sending and receiving control information, work information and fault information between indoor PCB and the central controller. 2. LCD display function: The LCD could display the fundamental status of air conditioning units (are the units existing? On/off? Fault? Are units group selected? Cursor and the current unit no.); The LCD can display the working status of the air conditioning unit with the current number (mode, fan speed, temperature setting, room temperature,timer,error code, central/remote control status); The working status of the central controller (monitor/set status, panel locking status, signaling status). 3. Key input function: The keys for moving the current unit number cursor and for group selection: , , , , SELECT; The keys for setting working status of the air conditioning unit and control conditions: ON/OFF, MODE, FAN SPEED, TEMP, TIME / , CLOCK,TIMER, CENT/REM, SET; The key for locking key function of the central controller: LOCK. 4. Unit number setting function: To enrich the control functions of Haier commercial air conditioner remote monitoring system, multiple controllers could be set to work together for a combination of multiple functions. For this, the central controller is provided with a two-digital switch for setting controller address. 5. Realizing central control function with the central controller(max.128 indoor units can be connected) this type is applicable for the unitary free indoor units except for cabinet type. indoor outdoor 6. Central control system + Group control system(max.128 x16 indoor units can be connected),this type is applicable for the unitary free indoor units except for cabinet type. 1 2 3 CN5 MODE FAN CENTRAL OPERATION AUTO AUTO FAN ONLY COOL DRY HEAT TES FILTER C F SWING MANUAL SWING 1 2 3 CN5 MODE COOL TEMP HEALTH CLOCK FAN DRY HEAT TES TIMER SET TIMER CLOCK UP FILTER C F SWING MANUAL ON AUTO RECOVERY OFF RECOVERY CHECK FILTER ON/OFF RESET DAILY CLOCK SET TEMP. AUTO OFF NORMAL TEMP HEALTH ROOM TEMP. TIMER SET RECOVERY CHECK FILTER RESET DOWN VENTILATION ON DAILY SWING FAN DEFROST FIX RECOVERY MODE PRE-HEAT MED LOW CHECK DEMAND SYS.ADD. SET TEMP. STANDBY HIGH HEALTH UNIT NO. CEN.ADD. ROOM TEMP. DOWN VENTILATION CENTRAL OPERATION AUTO AUTO FAN ONLY DEFROST FIX CLOCK UP FAN PRE-HEAT MED CHECK DEMAND SYS.ADD. MODE STANDBY HIGH LOW HEALTH UNIT NO. CEN.ADD. TIMER 1 2 3 CN5 NORMAL ON/OFF 1 2 3 CN5 >a__WcU[S^ <[c >a`V[e[a`Wc 7. Use central controller + weekly timer to realize the group control function + weekly timing function, this type is applicable for the unitary free indoor units except for cabinet type. OFF OFF OFF OFF OFF OFF OFF MON TUE WED THU FRI SAT SUN ON ON ON ON ON ON ON Haier Program R Holiday Number Cancel Hour Min. Confirm MON TUE WED THU FRI SAT SUN Time Week 8. Realizing group control function with the central controller, for the unit which needs the detector, such as cosole unit, cabinet units. RS-485 bus Upper A Lower B View of the detector Power cord Rear view of the central controller Power on/off Indoor unit CN2 CN2 CN2 CN2 Outdoor unit 9.Realizing double unit switch-over group control function with the centralcontroller, for the unit which needs the detector, such as cosole unit, cabinet units. CN2 CN2 CN2 CN2 CN2 CN2 CN2 CN2 >a__WcU[S^ <[c >a`V[e[a`Wc Installation procedure 1. Wire connecting Power supply 1PH , 220-240V~, 50Hz To connect the process control monitor/ detector RS - 232 To connect the computer or MODEM RS - 485 A B 2. Installation method A wiring box cover must be used. The central controller shall be installed into the installation box built in the wall fastening with 4 screws (as shown). To ta l LE CT ON OF LO F CK MO on /T ot al of f DE FA N TE TI MP TI ME . ME TI ME CE R NT CO CO NT NF ER RO IR 19mm SE 86mm 15mm 91.5mm L M Rear view Note: Please confirm the supply voltage of AC220-240V and correct wiring. In application environment with intense electromagnetic interference, the central controller should be shielded, while the connecting wire between the monitor and the central controller should be shielded twin twisted wire. Exterior dimension 180mm Total on/Total off CENTRAL REMOTE SET UNIT AUTO TEMP TIMER ON EVERY DAY 120mm MONITER TIMER OFF ROOM TEMP SELECT ON OFF MODE FAN TIME TEMP. TIME LOCK (Fig.1) TIMER CENTRAL REMOTE CONFIRM >a__WcU[S^ <[c >a`V[e[a`Wc As illustrated: (Figure 1 is the front view and Figure 2 is the side view) The central controller is 180mm long, 120mm wide and 64.4 mm thick. (Fig.2) 64.4mm