Download Hart Scientific 9144 Product Manual
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9142, 9143, 9144 Field Metrology Well Technical Guide January 2013 © 2013 Fluke Corporation. All rights reserved. Specifications are subject to change without notice. All product names are trademarks of their respective companies. Table of Contents 1 Before You Start .......................................................................1 1.1 1.2 Introduction ............................................................................................... 1 Unpacking ................................................................................................ 2 1.3 Symbols Used........................................................................................... 3 1.4 Safety Information ..................................................................................... 4 1.4.1 1.4.2 1.5 CE Comments ........................................................................................... 8 1.5.1 1.5.2 1.5.3 1.5.4 1.6 2 Authorized Service Centers ...................................................................... 9 Specifications ......................................................................................... 13 Environmental Conditions ....................................................................... 15 Quick Start ..............................................................................17 3.1 3.2 Setup....................................................................................................... 17 Parts and Controls .................................................................................. 18 3.2.1 3.2.2 3.2.3 3.2.4 3.3 Display Panel ................................................................................................19 Display ..........................................................................................................20 Power Panel ..................................................................................................22 -P Option Panel (-P models only) ..................................................................24 Languages .............................................................................................. 26 3.3.1 3.3.2 4 EMC Directive .................................................................................................8 Immunity Testing .............................................................................................9 Emission Testing..............................................................................................9 Low Voltage Directive (Safety) ........................................................................9 Specifications and Environmental Conditions....................13 2.1 2.2 3 Warnings .........................................................................................................5 Cautions ..........................................................................................................7 Language Selection ......................................................................................26 Reset to English Language ...........................................................................27 Menu Structure .......................................................................29 4.1 4.2 Temp Setup Menu ................................................................................... 29 Prog Menu .............................................................................................. 30 4.2.1 4.2.2 4.3 4.4 Switch Test Parameters .................................................................................31 Switch Test Description .................................................................................31 System Menu .......................................................................................... 33 Input Setup (-P only) ............................................................................... 34 iii 5 Controller operation...............................................................35 5.1 5.2 Main Screen ............................................................................................ 35 Main Menu .............................................................................................. 36 5.2.1 5.2.2 5.2.3 5.2.4 6 Digital communication interface...........................................57 6.1 Wiring ...................................................................................................... 57 6.1.1 6.1.2 6.2 6.3 6.4 6.5 6.6 7 Setup .............................................................................................................57 Serial Operation ............................................................................................57 Command Syntax ................................................................................... 58 Commands by Function or Group .......................................................... 59 Serial Commands - Alphabetic Listing ................................................... 63 Non-SCPI Process Commands ............................................................... 85 Non-SCPI Commands by Function or Group ......................................... 85 Calibration of your Field Metrology Well ..............................89 7.1 7.2 7.3 7.4 General ................................................................................................... 89 Terminology............................................................................................. 89 Fundamentals ......................................................................................... 89 Procedure ............................................................................................... 93 7.4.1 7.4.2 7.4.3 7.4.4 7.4.5 7.4.6 7.4.7 7.4.8 7.4.9 7.4.10 7.4.11 7.4.12 7.4.13 7.4.14 7.4.15 7.5 iv Temp Setup ...................................................................................................36 Prog Menu .....................................................................................................38 System Menu.................................................................................................45 INPUT SETUP (-P model only) ......................................................................51 Readout Calibration/Tests .............................................................................93 Readout Specifications .................................................................................93 UUT Thermocouple Calibration.....................................................................93 Thermocouple Accuracy Test .......................................................................93 Thermocouple Reference Junction Accuracy Test .......................................94 Thermocouple Accuracy Alignment..............................................................94 Thermocouple Reference Junction Accuracy Alignment .............................95 Reference Accuracy Test ..............................................................................96 UUT PRT 4-wire Test......................................................................................96 UUT PRT 3-wire Test......................................................................................97 Reference Accuracy Alignment ....................................................................97 UUT 4-20mA Input Calibration ......................................................................98 4-20mA Accuracy Test ..................................................................................98 24V Source Test ............................................................................................99 4-20mA Accuracy Alignment .......................................................................99 Heat Source Calibration/Test .................................................................. 99 7.5.1 7.5.2 7.5.3 7.5.4 7.5.5 7.5.6 Axial Gradient Test ......................................................................................101 Accuracy Test..............................................................................................102 Stability Test ................................................................................................102 Hysteresis Calculation .................................................................................103 Uniformity Alignment ...................................................................................104 Accuracy Alignment ....................................................................................105 8 Troubleshooting ................................................................... 107 9 Maintenance ......................................................................... 109 9.1 Field Metrology Well Performance Analysis ......................................... 109 v Tables Table 1 Symbols used........................................................................................ 3 Table 2 Base Unit Specifications ..................................................................... 13 Table 3 -P Option Specifications ..................................................................... 14 Table 4 Matching Certificate Values to 917X ITS-90 Coefficients .................... 54 Table 5 Setting Coefficients Rtpw, a8, b8, and b4........................................... 54 Table 6 Commands by Function or Group ....................................................... 59 Table 7 PROG:SEQ:PAR parameters ............................................................... 72 Table 8 PROG:SWIT:PAR parameters ............................................................. 73 Table 9 Test equipment specifications............................................................. 90 Table 10 Standard resistor specifications ........................................................ 90 Table 11 Thermocouple Testing Process ......................................................... 93 Table 12 Reference Probe and UUT PRT Input Process ................................. 95 Table 13 UUT 4-20 mA Calibration Steps ........................................................ 98 Table 14 Heat Source Calibration/Test Sequence ......................................... 100 Table 15 Axial Gradient Limits ....................................................................... 100 Table 16 Heat Source As Found Data/As Left Data Specifications ............... 103 Table 17 Accuracy alignment parameters ..................................................... 106 Table 18 Troubleshooting, problems, causes and solutions .......................... 107 vi Figures Figure 1 Clamp-on ferrite installation ................................................................ 9 Figure 2 914X Field Metrology Well ................................................................. 18 Figure 3 Display panel and keys .................................................................... 20 Figure 4 914X display ...................................................................................... 21 Figure 5 9142 power panel .............................................................................. 23 Figure 6 9143 and 9144 power panel.............................................................. 23 Figure 7 -P option panel ................................................................................. 24 Figure 8 Probe connector wiring ..................................................................... 25 Figure 9 Jumper locations for 3-wire and 2-wire connections ......................... 26 Figure 10 Steps to language selection ............................................................ 27 Figure 11 Main Menu - Temp SetUp ................................................................ 29 Figure 12 Main Menu - Prog Menu .................................................................. 30 Figure 13 Auto and manual switch test operation example ............................ 32 Figure 14 Main Menu - System Menu .............................................................. 33 Figure 15 Main Menu - Input Setup ................................................................ 34 Figure 16 Schematic diagram showing the deadband in a temperature switch as it closes and opens with temperature changes. ..................... 41 Figure 17 RS-232 wiring .................................................................................. 58 Figure 18 Readout calibration flow chart ......................................................... 91 Figure 19 Heat source calibration flow chart ................................................... 92 Figure 20 PRT and insert orientation during heat source calibration. ........... 101 vii Before You Start Introduction 1 Before You Start 1.1 Introduction )LHOG0HWURORJ\:HOOVDQGDUHGHVLJQHGWREHUHOLDEOHVWDEOHKHDW VRXUFHVWKDWFDQEHXVHGLQWKH¿HOGRUODERUDWRU\7KH\RIIHUDFFXUDF\SRUWDELOLW\ 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Environmental Conditions Specifications 2 Specifications and Environmental Conditions 2.1 Specifications Table 2 Base Unit Specifications Base Unit Specifications 9142 9143 9144 –25 °C to 150 °C (-13 °F to 302 °F) 33 °C to 350 °C (91 °F to 662 °F) 50 °C to 660 °C (122 °F to 1220 °F) Display Accuracy ± 0.2 °C Full Range ± 0.2 °C Full Range ± 0.35 °C at 50 °C ± 0.35 °C at 420 °C ± 0.5 °C at 660 °C Stability ± 0.01 °C Full Range ± 0.02 °C at 33 °C ± 0.02 °C at 200 °C ± 0.03 °C at 350 °C ± 0.03 °C at 50 °C ± 0.05 °C at 420 °C ± 0.05 °C at 660 °C Axial Uniformity at 40 mm (1.6 in) ± 0.05 °C Full Range ± 0.04 °C at 33 °C ± 0.1 °C at 200 °C ± 0.2 °C at 350 °C ± 0.05 °C at 50 °C ± 0.35 °C at 420 °C ± 0.5 °C at 660 °C Axial Uniformity at 60 mm (2.4 in) ± 0.07 °C Full Range ± 0.04 °C at 33 °C ± 0.2 °C at 200 °C ± 0.25 °C at 350 °C ± 0.1 °C at 50 °C ± 0.6 °C at 420 °C ± 0.8 °C at 660 °C Radial Uniformity ± 0.01 °C Full Range ± 0.01 °C at 33 °C ± 0.015 °C at 200 °C ± 0.02 °C at 350 °C ± 0.02 °C at 50 °C ± 0.05 °C at 420 °C ± 0.1 °C at 660 °C Loading Effect (with a 6.35 mm reference probe and three 6.35 mm probes) ± 0.006 °C Full Range ± 0.015 °C Full Range ± 0.015 °C at 50 °C ± 0.025 °C at 420 °C ± 0.035 °C at 660 °C Loading Effect (versus display with 6.35 mm probes) ± 0.08 °C Full Range ± 0.2 °C Full Range ± 0.1 °C at 50 °C ± 0.2 °C at 420 °C ± 0.2 °C at 660 °C 0.025 °C 0.03 °C 0.1 °C Temperature Range at 23 °C Hysteresis Operating Conditions 0 °C to 50 °C, 0 % to 90 % RH (non-condensing) Environmental conditions for all specifications except temperature range 13 °C to 33 °C Immersion (Well) Depth Insert OD 150 mm (5.9 in) 30 mm (1.18 in) 25.3 mm (1.00 in) 24.4 mm (0.96 in) Heating Time 16 min: 23 °C to 140 °C 23 min: 23 °C to 150 °C 25 min: –25 °C to 150 °C 5 min: 33 °C to 350 °C 15 min: 50 °C to 660 °C Cooling Time 15 min: 23 °C to –25 °C 25 min: 150 °C to –23 °C 32 min: 350 °C to 33 °C 14 min: 350 °C to 100 °C 35 min: 660 °C to 50 °C 25 min: 660 °C to 100 °C Resolution 0.01 ° Display LCD, °C or °F user-selectable Key Pad Arrows, Menu, Enter, Exit, 4 soft keys Size (H x W x D) 290 mm x 185 mm x 295 mm (11.4 x 7.3 x 11.6 in) 13 914X Field Metrology Wells Specifications Base Unit Specifications Weight 9142 9143 9144 8.16 kg (18 lbs) 7.3 kg (16 lbs) 7.7 kg (17 lbs) Power Requirements 100 V to 115 V (± 10 %) 50/60 Hz, 575 W 230 V (± 10 %) 50/60 Hz, 575 W 100 V to 115 V (± 10 %), 50/60 Hz, 1400 W 230 V (± 10%), 50/60 Hz, 1800 W System Fuse Ratings 115 V: 6.3 A T 250 V 230 V: 3.15 A T 250 V 115 V: 15 A F 250 V 230 V: 10 A F 250 V 4–20 mA Fuse (-P model only) 50 mA F 250V Computer Interface RS-232 and 9930 Interface-it control software included Safety EN 61010-1:2001, CAN/CSA C22.2 No. 61010.1-04 Table 3 -P Option Specifications -P Specifications Built-in Reference Thermometer Readout Accuracy (4-Wire Reference Probe)† ± 0.013 °C at -25 °C ± 0.015 °C at 0 °C ± 0.020 °C at 50 °C ± 0.025 °C at 150 °C ± 0.030 °C at 200 °C ± 0.040 °C at 350 °C ± 0.050 °C at 420 °C ± 0.070 °C at 660 °C Reference Resistance Range 0 ohms to 400 ohms Reference Resistance Accuracy‡ 0 ohms to 42 ohms: ±0.0025 ohms 42 ohms to 400 ohms: ±60 ppm of reading Reference Characterizations ITS-90, CVD, IEC-751, Resistance Reference Measurement Capability 4-wire Reference Probe Connection 6 Pin Din with Infocon Technology Built-in RTD Thermometer Readout Accuracy NI-120: ± 0.015 °C at 0 °C PT-100 (385): ± 0.02 °C at 0 °C PT-100 (3926): ± 0.02 °C at 0 °C PT-100 (JIS): ± 0.02 °C at 0 °C RTD Resistance Range 0 ohms to 400 ohms ‡ 14 Resistance Accuracy 0 ohms to 25 ohms: ±0.002 ohms 25 ohms to 400 ohms: ±80 ppm of reading RTD Characterizations PT-100 (385),(JIS),(3926), NI-120, Resistance RTD Measurement Capability 2-,3-,4-wire RTD w\ Jumpers only RTD Connection 4 terminal input Specifications and Environmental Conditions Environmental Conditions -P Specifications Built-in TC Thermometer Readout Accuracy Type J: ± 0.7 °C at 660 °C Type K: ± 0.8 °C at 660 °C Type T: ± 0.8 °C at 400 °C Type E: ± 0.7 °C at 660 °C Type R: ± 1.4 °C at 660 °C Type S: ± 1.5 °C at 660 °C Type M: ± 0.6 °C at 660 °C Type L: ± 0.7 °C at 660 °C Type U: ± 0.75 °C at 600 °C Type N: ± 0.9 °C at 660 °C Type C: ± 1.1 °C at 660 °C TC Millivolt Range –10 mV to 75 mV Voltage Accuracy 0.025 % of reading +0.01mV Internal Cold Junction Compensation Accuracy ± 0.35 °C (ambient of 13 °C to 33 °C) TC Connection Small connectors Built-in mA Readout Accuracy 0.02% of reading + 0.002 mA mA Range Cal 4-22 mA, Spec 4-24 mA mA Connection 2 terminal input Loop Power Function 24 VDC loop power Built-in Electronics Temperature Coefficient (0 °C to 13 °C, 33 °C to 50 °C) ± 0.005 % of range per °C † The temperature range may be limited by the reference probe connected to the readout. The BuiltIn Reference Accuracy does not include the sensor probe accuracy. It does not include the probe uncertainty or probe characterization errors. ‡ Measurement accuracy specifications apply within the operating range and assume 4-wires for PRTs. 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QHFWRUVWRUHVSUREHFDOLEUDWLRQFRHI¿FLHQWV7KHSLQ',1DFFHSWVWUDGLWLRQDOFRQQHFWRUVDQG WKHSUREHFRHI¿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uick Start Parts and Controls Probe Connector 1 2 6 5 3 4 Shield RTD Sensor Figure 8 Probe connector wiring $WZRZLUHSUREHFDQDOVREHXVHGZLWKWKHUHIHUHQFHWKHUPRPHWHU,WLVFRQQHFWHGE\DWWDFK LQJRQHZLUHWRERWKSLQVDQGRIWKHSOXJDQGWKHRWKHUZLUHWRERWKSLQVDQG,IDVKLHOG ZLUHLVSUHVHQWLWVKRXOGEHFRQQHFWHGWRSLQ$FFXUDF\PD\EHVLJQL¿FDQWO\GHJUDGHGXVLQJD WZRZLUHFRQQHFWLRQEHFDXVHRIOHDGUHVLVWDQFH P$&RQQHFWRUV 7KHP$FRQQHFWRUVDOORZFXUUHQWDQGRUYROWDJHSUREHVWREHFRQQHFWHGIRUPHDVXUHPHQW RIDVVRFLDWHGGHYLFHV 35757'&RQQHFWRU 7KHZLUH35757'FRQQHFWRUVDOORZWKHXVHUWRFRQQHFWZLUHDQGZLUHZLWKMXPSHUV VHH)LJXUHRQQH[WSDJH35757'VWRWKHUHDGRXW7KHFRUUHFWZLULQJIRUWKHZLUH357 57'LVVKRZQRQWKHLQVWUXPHQW)LJXUHVKRZVWKHFRUUHFWZLULQJIRUDRUZLUH35757' VHH6HFWLRQ,PPXQLW\7HVWLQJRQSDJHIRULQIRUPDWLRQRQXVLQJFODPSRQIHUULWHV 25 914X Field Metrology Wells Languages Figure 9 Jumper locations for 3-wire and 2-wire connections 7KHUPRFRXSOH7&&RQQHFWRU 7KH7&FRQQHFWRUDOORZVIRUWKHXVHRIVXEPLQLDWXUH7&FRQQHFWRUVVHH&(&RPPHQWVRQ SDJHIRULQIRUPDWLRQRQXVLQJFODPSRQIHUULWHV )XVH )XVHIRUWKHP$FLUFXLW$OZD\VUHSODFHZLWKDIXVHRIWKHDSSURSULDWHUDWLQJVHH6HFWLRQ 6SHFL¿FDWLRQVRQSDJH 3.3 Languages 7KHGLVSOD\RQ)LHOG0HWURORJ\:HOOVFDQEHVHWWRGLIIHUHQWODQJXDJHVGHSHQGLQJRQWKH FRQ¿JXUDWLRQ ● ● ● 3.3.1 26 (XURSHDQ(QJOLVK)UHQFK6SDQLVK,WDOLDQ*HUPDQ 5XVVLDQ5XVVLDQ(QJOLVK $VLDQ(QJOLVK&KLQHVH-DSDQHVH Language Selection 6HOHFWWKHODQJXDJHWREHGLVSOD\HGE\IROORZLQJWKHVWHSVVKRZQLQ)LJXUHRQRSSRVLWH SDJH Quick Start Languages Figure 10 Steps to language selection 3.3.2 Reset to English Language ,I\RXDUHLQDODQJXDJHDQGQHHGDVKRUWFXWH[LWSUHVV)DQG)VLPXOWDQHRXVO\WRUHVHWWKH GLVSOD\WR(QJOLVK 7RUHVHWWR\RXURULJLQDOO\VHOHFWHGODQJXDJHDIWHUUHVHWWLQJWR(QJOLVKIROORZWKHVWHSVLQ )LJXUHRQWKLVSDJH Note: The F1 and F4 English shortcut override is temporary. If you toggle the power off, the instrument jwill return to the language selected in the DISPLAY SETUP menu rather than coming up in English. 27 Menu Structure Temp Setup Menu 4 Menu Structure 4.1 Temp Setup Menu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±6(/(&735(6(7!VHOHFW! )±(',735(6(7!HGLW! )±6$9(',6$%/(GLVDEOHVFRQWURO RILQVWUXPHQW! &).H\ 8QLWV&)!&KDQJHVWHPSHUDWXUHXQLWV 8S'RZQ $UURZ.H\VWRJJOH!DGMXVWFRQWUDVW! 8S .H\ 'DUNHU 'RZQ .H\ /LJKWHU )).H\VVDPHWLPHUHVHWGLVSOD\ODQJXDJHWR(QJOLVK! )).H\VVDPHWLPHHQDEOHGLVDEOHNH\SUHVVEHHS! %HHS±9DOLGNH\HQWU\ %HHS±,QYDOLGNH\HQWU\ &RGH8SGDWH0RGH.H\V (17(5 (;,7.H\VKROGGXULQJSRZHUXSLQLWLDWHFRGHXSGDWHPRGH!$OORZVLQVWUXPHQWVRIWZDUHWREHXSGDWHG Figure 11 Main Menu - Temp SetUp 29 914X Field Metrology Wells Prog Menu 4.2 Prog Menu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Æ !VHOHFW! 3$6672/(5$1&(HGLW!3RQO\3DVV)DLOFULWHULDIRUWKHUDPSVRDN SURJUDP ) 6(732,176 6(732,17HGLW! 6(732,17HGLW! 6(732,17HGLW! 6(732,17HGLW! 6(732,17HGLW! 6(732,17HGLW! 6(732,17HGLW! 6(732,17HGLW! ) 6:,7&+7(67 7(67 0(7+2'$8720$18$/! 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If this happens, the instrument enters cutout mode and will not actively heat or cool until the user resets the instrument. 37 914X Field Metrology Wells Main Menu 7RUHVHWWKHFXWRXWWKHLQVWUXPHQWWHPSHUDWXUHPXVWFRROWRORZHUWKDQWKHFXWRXWVHW SRLQW2QFHWKHLQVWUXPHQWKDVFRROHGWKHXVHUPD\UHVHWWKHLQVWUXPHQWE\SUHVVLQJ ³6(737´DQGSUHVVLQJ³(17(5´WRHQJDJHLQVWUXPHQW 5.2.1.2.2 HARD CUTOUT 7KH+$5'&87287SDUDPHWHULVDYLHZRQO\IXQFWLRQDQGLQGLFDWHVWKHIDFWRU\VHW WLQJIRUWKHKDUGFXWRXW7KH+DUG&XWRXWLVQRWXVHUVHWWDEOH 5.2.2 5.2.2.1 Prog Menu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¿FDWLRQDOORZVWKHXVHUWRHQWHUD7HVW,'QXPEHUIRUWKHFXUUHQW WHVW7KH7HVW,'FDQEHDQDOSKDQXPHULFHQWU\XSWRFKDUDFWHUVLQOHQJWK 5.2.2.2 RAMP/SOAK 7KH5$0362$.IHDWXUHDXWRPDWLFDOO\F\FOHVWKH)LHOG0HWURORJ\:HOOEHWZHHQ WHPSHUDWXUHVZKLOHKROGLQJDWHDFKWHPSHUDWXUHIRUWKHOHQJWKRIWLPHVHWE\WKHXVHU 5.2.2.2.1 NO. 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CYCLES 7KH12&<&/(6SDUDPHWHULVWKHQXPEHURIWLPHVWKDWWKHSURJUDPLVUHSHDWHG 5.2.2.2.4 DIRECTION 7KH',5(&7,21SDUDPHWHUFRQWUROVZKHWKHUWKHVHWSRLQWVDUHVHTXHQFHGLQRQH GLUHFWLRQRUERWKGLUHFWLRQVDQGEHIRUHWKHVHTXHQFHLVUHSHDWHG,IWKH ERWKGLUHFWLRQVRSWLRQLVVHOHFWHGWKHSURJUDPVHTXHQFHVIURPWKH¿UVWVHWSRLQWWRWKH ODVWDQGWKHQUHYHUVHVGLUHFWLRQVHTXHQFLQJIURPWKHODVWWRWKH¿UVW 5.2.2.2.5 PASS TOLERANCE 7KH3$6672/(5$1&(LVWKHDOORZDEOHWROHUDQFHFRQGLWLRQIRUWKHWHVWDQGLVXVHG WRKLJKOLJKWWHVWSRLQWVWKDWKDYHODUJHHUURUV 5.2.2.2.6 SETPOINTS 7KH6(732,176PHQXDOORZVWKHXVHUWRVHWHDFKRIWKHVHWSRLQWVIRUWKHSURJUDP 2QO\WKHQXPEHURIVHWSRLQWVGH¿QHGE\126(732,176ZLOOEHGLVSOD\HG6HW SRLQWVFDQEHTXLFNO\VHOHFWHGXVLQJWKH8S'RZQDUURZNH\VWRVFUROOWKURXJKWKHVHW SRLQWV3UHVV³(QWHU´WRDFWLYDWHWKHVHWSRLQWDQGPDNHLWHGLWDEOH2QFHHGLWDEOHXVH WKH8S'RZQDUURZNH\VWRHQWHUWKHYDOXHVDQGWKH/HIW5LJKWDUURZNH\VWRVFUROO WKURXJKWKHGLJLWVLQWKHYDOXH3UHVV³(QWHU´WRDFFHSWWKHYDOXHHQWHUHG 5.2.2.2.6.1 SETPOINT 1 – SETPOINT 8 (Depending on NO. SETPOINTS defined) 7KH6(732,17QSDUDPHWHULVWKHGHVLJQDWHGWHPSHUDWXUHVIRUWKHVHWSRLQWVVHOHFWHG IRUWKHSURJUDP 5.2.2.3 SWITCH TEST 7KH6:,7&+7(67LVXVHGWRVHOHFWVHWXSH[HFXWHDQGYLHZWKHUHVXOWVRIVZLWFK WHVWV7KH6ZLWFK7HVWIXQFWLRQDOORZVWKHUPDOVZLWFKHVWREHWHVWHGIRURSHQDQGRU FORVHWHPSHUDWXUHV7KH6ZLWFK7HVWDOORZVIRU$XWRRU0DQXDORSHUDWLRQ2SHUDWLRQ RIWKHVZLWFKWHVWIHDWXUHLVRXWOLQHGEHORZ 39 914X Field Metrology Wells Main Menu CAUTION: The switch, switch wires, switch components and/or switch accessories can be damaged if the Field Metrology Well exceeds its temperature limits. 5.2.2.3.1 TEST METHOD 7KH7(670(7+2'LVXVHGWRVHOHFW$872RU0$18$/WHVWFRQ¿JXUDWLRQ 5.2.2.3.2 AUTO TEST 7KH$8727(67LVXVHGWRVHWXSWKHSDUDPHWHUIRUWKH$XWR7HVW 5.2.2.3.2.1 SWITCH TEMP 7KH6:,7&+7(03SDUDPHWHULVWKHQRPLQDOFKDQJHWHPSHUDWXUHRIWKHVZLWFK 5.2.2.3.3 MANUAL TEST 7KH0$18$/7(67LVXVHGWRVHWXSWKHSDUDPHWHUVIRUWKH0DQXDO7HVW 5.2.2.3.3.1 UPPER TEMP 7KH833(57(03SDUDPHWHULVWKHWHPSHUDWXUHGXULQJDF\FOHDWZKLFKWKH)LHOG0H WURORJ\:HOOEHJLQVWRKHDWRUFRRODWWKHUDWHVSHFL¿HGLQ³6FDQ5DWH´IRXQGLQ0$,1 0(18_7(036(783_6(783_6&$15$7( 5.2.2.3.3.2 LOWER TEMP 7KH/2:(57(03SDUDPHWHULVWKHWHPSHUDWXUHDWZKLFKWKH)LHOG0HWURORJ\:HOO KHDWVRUFRROVLQRUGHUWREHJLQWHVWLQJLIWKHWHVWLVMXVWVWDUWLQJRUWKHWHPSHUDWXUHDW ZKLFKWKHLQVWUXPHQWEHJLQVWRKHDWWRVWDUWDF\FOH 5.2.2.3.3.3 APPROACH LIMIT 7KH$3352$&+SDUDPHWHUFRQWUROVWKHXVHRIWKH6FDQ5DWHGXULQJWKHDSSURDFK WRWKHVHWSRLQW'XULQJWKHWHVWWKHFRQWUROOHUXVHVWKHV\VWHP6FDQ5DWHXQWLOWKH WHPSHUDWXUHLVZLWKLQWKHDSSURDFKWHPSHUDWXUHRIHLWKHUWKHKLJKWHPSRUORZWHPS SDUDPHWHUV 5.2.2.3.3.4 NO. CYCLES 7KH12&<&/(6SDUDPHWHUGHWHUPLQHVKRZPDQ\WLPHVWKHLQVWUXPHQWKHDWVDQG FRROVDOORZLQJDWKHUPDOVZLWFKRUEDWFKRIVZLWFKHVWREHWHVWHG %DVLFVZLWFKRSHUDWLRQ $WHPSHUDWXUHVZLWFKLVDGHYLFHWKDWVHQVHVWHPSHUDWXUHDQGDFWLYDWHVDFRQWDFWFOR VXUHEDVHGXSRQWKHWHPSHUDWXUHYDOXH7KHWHPSHUDWXUHDWZKLFKWKHVZLWFKDFWLYDWHV 40 Controller operation Main Menu LVFDOOHGWKHVHWSRLQWDQGLVDQLPSRUWDQWYDOXHWKDWQHHGVWREHYHUL¿HGGXULQJWHVWLQJ $QRWKHUFULWLFDOYDOXHZKLFKLVFDOOHGWKHGHDGEDQGGHWHUPLQHVZKHQWKHRXWSXWLVDF WLYHRULQDFWLYHDURXQGWKHVHWSRLQWYDOXHVHH)LJXUHRQ"7HVWLQJDQGGHWHUPLQ LQJWKHGHDGEDQGYDOXHLVLPSHUDWLYHWRSURSHUDQGVDIHRSHUDWLRQ Figure 16 Schematic diagram showing the deadband in a temperature switch as it closes and opens with temperature changes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ield Metrology Wells Main Menu 0DQXDOVZLWFKWHVWRSHUDWLRQ )RU0DQXDORSHUDWLRQLQWKH7HPS6HWXSPHQXVHOHFW6HWXSHQWHUWKH6&$15$7( ([LWWRWKH3URJ0HQX8QGHU6ZLWFK7HVWVHOHFW0DQXDO7HVW(QWHUWKH833(5 7(03/2:(57(03$3352$&+/,0,7$1'12&<&/(6SDUDPHWHUV6HWWKH 7HVW0HWKRGWR0$18$/([LWWRWKH5XQ3URJPHQX(QVXUHWKDWWKH5XQ7HVWLVVHW WR6:,7&+7(676HW7HVW6WDWXVWR5813UHVV(QWHU(;,7WKH581352*PHQX DQGWKHLQVWUXPHQWZLOOHQJDJHDQGVWDUWWKHWHVWZLWKLQDIHZVHFRQGV([LWWRWKHPDLQ VFUHHQWRYLHZWKHWHVWSURJUHVV7KHYDOXHVPD\DOVREHUHFRUGHGLQWHUQDOO\LQWKH LQVWUXPHQWE\VHOHFWLQJWKHRSWLRQWRUHFRUGWKHGDWD3PRGHORQO\5HIHUWRWKH 0HQX6WUXFWXUHVHH)LJXUHRQSDJHDQG)LJXUHRQSDJH 7RVWRSD6ZLWFK7HVWLQSURJUHVVSUHVV0(18_352*0(18_581352*_7(67 67$786&KDQJHWKH7(6767$786WR2))DQGSUHVV(17(5(;,7WKH581 352*PHQXWRDERUWWKHWHVW 0DQXDO6ZLWFK7HVW([DPSOH )LUVWFRQQHFWWKHWKHUPRVWDWLFVZLWFKWRWKHWHUPLQDOVORFDWHGRQWKHIURQWRIWKH)LHOG 0HWURORJ\:HOOVHH)LJXUHRQSDJHDQGLQVHUWWKHVZLWFKLQWRWKHWKHUPDOZHOO 7KHWHPSHUDWXUHVZLWFKLQWKHIROORZLQJH[DPSOHKDVDVHWSRLQWRI&$ERYHWKLV WHPSHUDWXUHWKHRXWSXWFRQWDFWVDUHFORVHGWXUQLQJWKHKHDWH[FKDQJHURQ7KHGHDG EDQGQHHGVWREHDWOHDVW&EXWQRPRUHWKDQ&%HORZDUHWKHSDUDPHWHUVWKDWDUH SURJUDPPHGLQWRWKH)LHOG0HWURORJ\:HOOIRUWKLVH[DPSOH 6&$15$7(&PLQ /2:(57(03& 833(57(03& $3352$&+/,0,7& 5$035$7(& 12&<&/(6 7KHORZDQGXSSHUWHPSYDOXHVDUHFKRVHQWRSURYLGHDZLQGRZDURXQGWKHDFWXDO H[SHFWHGVHWSRLQW6RPHVZLWFKHVPD\UHTXLUHDZLGHUZLQGRZ7KHFKRVHQZLQGRZ JLYHVWKHLQVWUXPHQWDQDSSUR[LPDWLRQRIZKHUHWKHVZLWFKZLOORSHQDQGFORVH NOTE: If the window is too narrow, the switch test may abort before determining the characteristics of the switch. )LJXUHRQSDJHDXWRPDQXDOVZLWFKWHVWVKRZVDGLDJUDPRIKRZWKLVWHVWPLJKW SURJUHVV7KH)LHOG0HWURORJ\:HOOZLOOVHWLWVVHWSRLQWWHPSHUDWXUHWRWKH833(5 7(03SDUDPHWHULQWKHVHWXSDERYHDQGKHDWWKHZHOODWWKHV\VWHPVFDQUDWHXQWLOWKH VZLWFKDFWLYDWHVDQGFORVHV7KH)LHOG0HWURORJ\:HOOZLOOWKHQFKDQJHLWVVHWSRLQW WRWKH/2:(57(03SDUDPHWHUDQGFRROXVLQJWKHV\VWHPVFDQUDWHXQWLOWKHVZLWFK UHVHWVDQGRSHQV7KLVLVWKHHQGRIWKH¿UVWF\FOH)RUWKHVHFRQGF\FOHWKH)LHOG0H WURORJ\:HOOZLOOFKDQJHLWVVHWSRLQWWRWKHVZLWFKDFWLYDWLRQWHPSHUDWXUHPHDVXUHGLQ F\FOHRQHDQGVWDUWWRKHDW:KHQWKHVZLWFKDFWLYDWHVWKH)LHOG0HWURORJ\:HOOZLOO 42 Controller operation Main Menu FKDQJHLWVVHWSRLQWWRWKHVZLWFKUHVHWWHPSHUDWXUHPHDVXUHGLQWKH¿UVWF\FOHDQGVWDUW FRROLQJ,QWKHH[DPSOHDVWKH)LHOG0HWURORJ\:HOOKHDWVLQWKHWKLUGF\FOHLWUHDFKHV WKHDSSURDFKWHPSHUDWXUH833(57(03PLQXV$3352$&+SDUDPHWHUDQGWKH LQVWUXPHQWFKDQJHVLWVVFDQUDWHE\GHFUHDVLQJWKHV\VWHPVFDQUDWHWR:KHQWKH VZLWFKDFWLYDWHVWKHLQVWUXPHQWVHWVLWVVHWSRLQWWRWKHUHVHWWHPSHUDWXUHPHDVXUHG LQWKHVHFRQGF\FOHDQGWKHLQVWUXPHQWVWDUWVWRFRRO:KHQWKHVZLWFKUHVHWVWKHWHVW FRPSOHWHVDQGWKHYDOXHVRIWKHVZLWFK23(1VZLWFK&/26(DQGVZLWFK%$1'DUH GLVSOD\HGIRUWKHXVHUWRUHFRUG NOTE: 10°C/min is the recommended maximum for the SCAN RATE during SWITCH TEST operation. NOTE: The APPROACH LIMIT AND CYCLES should be set such that the highest desired accuracy of the switch temperatures is obtained. NOTE: Depending on the mass and/or diameter of the switch, there may be a significant lag time in how fast the switch heats up or cools with respect to the block of the Field Metrology Well. For larger mass and/or diameter switches, a lower SCAN RATE (0.4-1.0°C) and a higher APPROACH (5-10°C) can produce better results. More cycles may give a better average of when the switch opens and closes, but a minimum of 2 cycles should be used when running a switch test. 6HH)LJXUHRQSDJH :KHQWKHVZLWFKUHVHWVWKHWHVWFRPSOHWHVDQGWKHYDOXHVRIWKHVZLWFK23(1VZLWFK &/26(DQGVZLWFK%$1'DUHGLVSOD\HGIRUWKHXVHUWRUHFRUG7KHYDOXHVPD\DOVR EHUHFRUGHGLQWHUQDOO\LQWKHLQVWUXPHQWE\VHOHFWLQJWKHRSWLRQWRUHFRUGWKHGDWD3 PRGHORQO\ 5.2.2.4 TEST RESULTS 7KH7(675(68/760(18DOORZVWKHXVHUDFFHVVWRWKHWHVWVSDUDPHWHUV 5.2.2.4.1 VIEW TESTS 7KH9,(:7(676PHQXDOORZVWKHXVHUWRYLHZWKHUHVXOWVRIXSWRWHVWV 5.2.2.4.1.1 TEST ID 7KH7(67,'7(67,'(17,),&$7,21SDUDPHWHUDOORZVWKHXVHUWRVHOHFWIURP WHVWVWRYLHZ 43 914X Field Metrology Wells Main Menu 5.2.2.4.1.2 TYPE 7KH7<3(SDUDPHWHUDOORZVWKHXVHUWRVHOHFWEHWZHHQYLHZLQJ5DPS6RDNDQG 6ZLWFK7HVWUHVXOWV 5.2.2.4.1.3 DATE (VIEW ONLY) 7KH'$7(WKHVHOHFWHGWHVWZDVSHUIRUPHG 5.2.2.4.1.4 TIME (VIEW ONLY) 7KH7,0(WKHVHOHFWHGWHVWZDVSHUIRUPHG 5.2.2.4.1.5 RESULTS (press ENTER) 7KH5(68/76PHQXLVWKHVHFRQGSDUWRIWKH9,(:7(676PHQXDQGDOORZVWKHXVHU WRYLHZWKHUHVXOWVRIWKHVHOHFWHGWHVW 5.2.2.4.1.5.1 SWITCH TEST 5.2.2.4.1.5.1.1 TEST ID 7KH7(67,'7(67,'(17,),&$7,21SDUDPHWHUDOORZVWKHXVHUWRVHOHFWIURP WHVWVWRYLHZ 5.2.2.4.1.5.1.2 OPEN 7KH23(1UHVXOWSURYLGHVWKHVZLWFKRSHQWHPSHUDWXUH 5.2.2.4.1.5.1.3 CLOSE 7KH&/26(UHVXOWSURYLGHVWKHVZLWFKFORVHWHPSHUDWXUH 5.2.2.4.1.5.1.4 BAND 7KH%$1'UHVXOWLVWKHGLIIHUHQFHEHWZHHQWKHRSHQDQGFORVHWHPSHUDWXUHV 5.2.2.4.1.5.2 RAMP & SOAK 5.2.2.4.1.5.2.1 TEST ID 7KH7(67,'7(67,'(17,),&$7,21SDUDPHWHUDOORZVWKHXVHUWRVHOHFWIURP WHVWVWRYLHZ 5.2.2.4.1.5.2.2 WELL 7KH:(//:(//7(03(5$785(UHVXOWSURYLGHVWKHWHPSHUDWXUHRIWKHGU\ZHOO DVPHDVXUHGE\WKHFRQWUROVHQVRU 44 Controller operation Main Menu 5.2.2.4.1.5.2.3 REF 7KH5()5()(5(1&(UHVXOWSURYLGHVWKHWHPSHUDWXUHRIWKHUHIHUHQFHSUREH 5.2.2.4.1.5.2.4 UUT 7KH887UHVXOWSURYLGHVWKHWHPSHUDWXUHRIWKH887SUREH 5.2.2.4.1.5.2.5 DIFF 7KH',))',))(5(1&(UHVXOWSURYLGHVWKHGLIIHUHQFHEHWZHHQWKH5HIHUHQFHDQG WKH887SUREH,IWKHGLIIHUHQFHLVJUHDWHUWKDQWKH3$6672/(5$1&(WKH',)) ZLOOEHKLJKOLJKWHG 5.2.2.4.2 PRINT TESTS 7KH35,177(676SDUDPHWHUDOORZVWKHXVHUWRWKHRSWLRQWRSULQWWKHVHOHFWHGWHVW UHVXOWV<(6HQDEOHVWKHSULQWRSWLRQ12GLVDEOHVWKHSULQWRSWLRQ 5.2.2.4.3 ERASE TESTS 7KH(5$6(7(676RSWLRQLVXQFRQGLWLRQDOO\SDVVZRUGSURWHFWHG7KHXVHUKDVWKH FKRLFH<(612WRHUDVHDOORIWKHVWRUHGWHVWV$ZDUQLQJLVSUHVHQWHGWRWKHXVHU VWDWLQJWKDWDOOWHVWVZLOOEHHUDVHG 5.2.3 5.2.3.1 System Menu 7KH6\VWHP0HQXDOORZVWKHXVHUWRVHWXSWKHGLVSOD\VHWWLQJVFRPPXQLFDWLRQVSUR WRFROGDWHWLPHVHWWLQJV3PRGHORQO\SDVVZRUGVHWWLQJVFDOLEUDWLRQVVHWWLQJVDQG YLHZV\VWHPLQIRUPDWLRQ SYSTEM SETUP 7KH6<67(06(783PHQXFRQWDLQVWKH'LVSOD\6HWXS&RPPXQLFDWLRQV6HWXSDQG 'DWH7LPH6HWXS3PRGHORQO\ 5.2.3.1.1 DISPLY SETUP 7KH',63/<6(783',63/$<6(783SDUDPHWHUFRQWDLQVWKHODQJXDJHVHOHFWLRQ GHFLPDOVHSDUDWRUDQGNH\SDGVRXQGSDUDPHWHUV 5.2.3.1.1.1 LANGUAGE 7KH/$1*8$*(SDUDPHWHULVXVHGWRVHWWKHGLVSOD\ODQJXDJH8VHWKHULJKWRUOHIW DUURZNH\WRVHOHFWWKHSUHIHUUHGODQJXDJHDQGSUHVV³(17(5´WRDFFHSWWKHVHOHFWLRQ 7KHXVHUQHHGVWRH[LWIURPWKH6<67(00(18ZLQGRZLQRUGHUIRUWKHFKDQJHLQ ODQJXDJHVHOHFWLRQWRWDNHDIIHFW 45 914X Field Metrology Wells Main Menu NOTE: If the wrong language is selected, return to the Main Screen by holding EXIT for a few seconds. Once the Main Screen is displayed, simultaneously press and hold F1 and F4 to set to English temporarily. Then return to the DISPLAY SETUP screen and set the correct language. 5.2.3.1.1.2 DECIMAL 7KH'(&,0$/SDUDPHWHULVXVHGWRGHWHUPLQHWKHGHFLPDOVHSDUDWRUDFRPPDRUD SHULRG6HOHFWWKHGHVLUHGGHFLPDOVHSDUDWRUXVLQJWKHULJKWRUOHIWDUURZNH\DQGSUHVV ³(17(5´WRDFFHSWWKHVHOHFWLRQ 5.2.3.1.1.3 KEY AUDIO 7KH.(<$8',2SDUDPHWHU)DQG).H\VSUHVVHGVLPXOWDQHRXVO\HQDEOHVRU GLVDEOHVWKHNH\SUHVVEHHS 5.2.3.1.2 COMM SETUP 7KH&2006(783&20081,&$7,2166(783PHQXFRQWDLQVWKHVHULDOLQWHU IDFHSDUDPHWHUV7KHSDUDPHWHUVLQWKHPHQXDUH²%$8'5$7(DQG/,1()((' 5.2.3.1.2.1 BAUD RATE 7KH%$8'5$7(SDUDPHWHUGHWHUPLQHVWKHVHULDOFRPPXQLFDWLRQWUDQVPLVVLRQUDWHRU EDXGUDWH %$8'PD\EHSURJUDPPHGWRRUEDXG 5.2.3.1.2.2 LINEFEED 7KH/,1()(('HQDEOHV2QRUGLVDEOHV2IIWUDQVPLVVLRQRIDOLQHIHHGFKDUDFWHU /)$6&,,DIWHUWUDQVPLVVLRQRIDQ\FDUULDJHUHWXUQ7KH/,1()(('GHIDXOWVHW WLQJLVRQ7KHOLQHIHHGSDUDPHWHUFDQEHWXUQHGRQRURIIDVQHHGHGE\WKHXVHU 5.2.3.1.3 DATE TIME (-P model only) 7KH'$7(7,0(PHQXDOORZVWKHXVHUWRVHWWKHIRUPDWIRUWKHGDWHDQGWLPH$GGL WLRQDOO\WKHXVHUVHWVWKHGDWHDQGWLPHIRUWKHGDWHDQGWLPHVWDPSIXQFWLRQ 5.2.3.1.3.1 TIME 7KH7,0(SDUDPHWHUDOORZVWKHXVHUWRVHWWKHLQWHUQDOWLPHIRUWKHLQVWUXPHQW7KH WLPHLVWUDFNHGXVLQJDKRXUFORFN7RVHWWKHWLPHSUHVV³(QWHU´DQGXVHWKHDUURZ NH\VWRVHWWKHWLPHDQGSUHVV³(QWHU´WRDFFHSWWKHVHOHFWLRQ 46 Controller operation Main Menu 5.2.3.1.3.2 DATE 7KH'$7(SDUDPHWHUDOORZVWKHXVHUWRHQWHUWKHGDWHIRUWKHGDWHWLPHVWDPSIXQF WLRQ3UHVV³(QWHU´WRDFFHVVWKHSDUDPHWHU8VHWKHDUURZNH\VWRHQWHUWKHGDWHDQG SUHVV³(QWHU´WRDFFHSWWKHVHOHFWLRQ 5.2.3.1.3.3 REPORT DATES 7KH5(3257'$7(6SDUDPHWHUDOORZVWKHXVHUWRVHOHFWWKHGDWHIRUPDW8VHWKH OHIWDQGULJKWDUURZNH\VWRFKRRVHWKHGDWHIRUPDWPPGG\\\\RUGGPP\\\\DQG SUHVV³(QWHU´WRDFFHSWWKHVHOHFWLRQ 5.2.3.2 PASSWORD 7KH3$66:25'3$66:25'6(783PHQXLVXVHGWRVHWWKHV\VWHPSDVVZRUGRU VHWWKHOHYHORISURWHFWLRQWKDWFRQGLWLRQDOHQJDJHVRUGLVHQJDJHVSURWHFWLRQRIFHUWDLQ JURXSVRISDUDPHWHUV 5.2.3.2.1 USER PASSWORD 7KH86(53$66:25'SDUDPHWHUDOORZVWKHXVHUVWRHQWHUDQGFKDQJHWKHV\VWHP DQGFRQGLWLRQDOSDVVZRUGXVHGWRDFFHVVSURWHFWHGPHQXV7KH3DVVZRUGLVDQXPEHU EHWZHHQRQHDQGIRXUGLJLWV(DFKGLJLWRIWKHSDVVZRUGFDQEHDQXPEHUIURPWR 7KHGHIDXOW6\VWHP3DVVZRUGLV³´,IGHVLUHGWKH6\VWHP3DVVZRUGFDQEH FKDQJHGLQWKLVPHQXE\XVLQJWKHQXPHULFNH\VWRHQWHUWKHQHZSDVVZRUGDQGSUHVV LQJ³(17(5´ 5.2.3.2.2 PROTECTION 7KH3527(&7,21SDUDPHWHULVXVHGWRHQDEOH+,*+RUGLVDEOH/2:SDVVZRUG SURWHFWLRQIRUWKHFRQGLWLRQDOSDUDPHWHUV7KHSDVVZRUGLVWKHVDPHDVWKHV\VWHP SDVVZRUG7KHXVHUKDVWRRSWLRQWRFRQGLWLRQDOO\SDVVZRUGSURWHFWWKH6RIW&XWRXW 5DPS6RDNDQG3UREH3URJ7KHXVHUVHOHFWVWR³+,*+´RU³/2:´WKHFRQGL WLRQDOSDVVZRUGXVLQJWKHOHIWDQGULJKWDUURZNH\VDQGSUHVVHV³(QWHU´WRDFFHSWWKH VHOHFWLRQ 5.2.3.3 CALIB CAUTION: Calibration parameters must be correct for the instrument to function properly. 7KH&$/,%&$/,%5$7,21PHQXDOORZVWKHXVHUDFFHVVWRWKHFDOLEUDWLRQSDUDPH WHUVIRUWKHLQVWUXPHQW$FFHVVWRWKHKHDWVRXUFHDQGUHDGRXWFDOLEUDWLRQSDUDPHWHUVLV SURWHFWHGE\DSDVVZRUG&DOLEUDWLRQSDUDPHWHUVDUHSURJUDPPHGDWWKHIDFWRU\ZKHQ WKHLQVWUXPHQWLVFDOLEUDWHG7KHVHSDUDPHWHUVPD\EHDGMXVWHGWRLPSURYHWKHDFFX UDF\RIWKHLQVWUXPHQWE\TXDOL¿HGSHUVRQQHO,QVWUXFWLRQVIRUFDOLEUDWLRQFDQEHIRXQG LQWKH³&DOLEUDWLRQRI\RXU)LHOG0HWURORJ\:HOO´VHFWLRQRIWKLVJXLGH 47 914X Field Metrology Wells Main Menu CAUTION: DO NOT change the values of the control parameters from the factory set values unless you are recalibrating the instrument. The correct setting of these parameters is important to the safe and proper operation of the calibrator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³(QWHU´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ontroller operation Main Menu 5.2.3.3.1.6 GRAD 3 7KH*5$'SDUDPHWHULVUDWLRIRUWKHWRS]RQHKHDWHUFRQWUROIRUWKHD[LDOJUDGLHQW FDOLEUDWLRQDWWKHUGFDOLEUDWLRQSRLQW 5.2.3.3.1.7 GRAD 4 (9144 only) 7KH*5$'SDUDPHWHULVDUDWLRIRUWKHWRS]RQHKHDWHUFRQWUROIRUWKHD[LDOJUDGLHQW FDOLEUDWLRQDWWKHIRXUWKFDOLEUDWLRQSRLQW 5.2.3.3.1.8 GRAD 5 (9144 only) 7KH*5$'SDUDPHWHULVDUDWLRIRUWKHWRSVRQHKHDWHUFRQWUROIRUWKHD[LDOJUDGLHQW FDOLEUDWLRQDWWKH¿IWKFDOLEUDWLRQSRLQW 5.2.3.3.1.9 CALDATE 7KH&$/'$7(SDUDPHWHULVWKHFDOLEUDWLRQGDWHIRUWKHKHDWVRXUFH8VHWKHDUURZ 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5.2.3.3.4.3 INPUT CAL DATE 7KH,1387&$/'$7(SDUDPHWHULVWKHFDOLEUDWLRQGDWHIRUWKHUHDGRXW8VHWKHDU URZNH\VWRHQWHUWKHFDOLEUDWLRQGDWHLQWKHIRUPDWVHOHFWHGLQ'$7()250$7 5.2.3.3.5 CAL UUT (-P model only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mA 7KHP$LQSXWFDOLEUDWLRQPHQXFRQWDLQVWKHFXUUHQWORRSFDOLEUDWLRQSDUDPHWHUV 5.2.3.3.5.2.1 mAC4 7KHP$&SDUDPHWHUDGMXVWVWKHPHDVXUHPHQWDWP$ 5.2.3.3.5.2.2 mAC22 7KHP$&SDUDPHWHUDGMXVWVWKHPHDVXUHPHQWDWP$ 50 Controller operation Main Menu 5.2.3.3.5.2.3 INPUT CAL DATE 7KH,1387&$/'$7(SDUDPHWHULVWKHFDOLEUDWLRQGDWHIRUWKHUHDGRXW8VHWKHDU URZNH\VWRHQWHUWKHFDOLEUDWLRQGDWHLQWKHIRUPDWVHOHFWHGLQ'$7()250$7 5.2.3.4 SYSTEM INFO (view only) 7KH6<67(0,1)26<67(0,1)250$7,21PHQXGLVSOD\VPDQXIDFWXUHULQIRU PDWLRQUHJDUGLQJWKHLQVWUXPHQW 5.2.3.4.1 MODEL 7KH02'(/SDUDPHWHUGLVSOD\VWKHPRGHOQXPEHURIWKHLQVWUXPHQW 5.2.3.4.2 SERIAL 7KH6(5,$/6(5,$/180%(5SDUDPHWHUGLVSOD\VWKHVHULDOQXPEHURIWKH LQVWUXPHQW 5.2.3.4.3 FW VER 7KH):9(5),50:$5(9(56,21SDUDPHWHUGLVSOD\VWKH¿UPZDUHYHUVLRQ XVHGLQWKHLQVWUXPHQW 5.2.3.4.4 CAL DATE 7KH&$/'$7(&$/,%5$7,21'$7(SDUDPHWHUGLVSOD\VWKHFDOLEUDWLRQGDWHRI WKHKHDWVRXUFH 5.2.3.4.5 INPUT CAL DATE (-P model only) 7KH,1387&$/'$7(3&$/,%5$7,21'$7(SDUDPHWHUGLVSOD\VWKHFDOLEUD WLRQGDWHIRUWKHUHDGRXWRUWKH±3PRGXOH 5.2.4 5.2.4.1 INPUT SETUP (-P model only) 7KH,13876(783PHQXDOORZVDOOWKHSDUDPHWHUVUHODWHGWRWKH±3PRGXOHSURFHVV YHUVLRQRUUHDGRXWIXQFWLRQRIWKHLQVWUXPHQWWREHDFFHVVHG7KHSDUDPHWHUVIRXQG LQWKLVPHQXDIIHFWWKHSHUIRUPDQFHDFFXUDF\DQGGLVSOD\W\SHRIUHIHUHQFH357VDQG 887VXVHG SELECT INPUT 7KH6(/(&7887,1387PHQX6(16257<3(DOORZVWKHXVHUWRVHOHFWDQGHQ DEOHWKHW\SHRILQSXWWKDWZLOOEHXVHGDVIRUWKH887 51 914X Field Metrology Wells Main Menu 5.2.4.1.1 SENSOR TYPE 7KH6(16257<3(SDUDPHWHUDOORZVWKHXVHUWRVHOHFWWKHW\SHRIVHQVRULQSXW8VH WKHOHIWDQGULJKWDUURZNH\VWRVHOHFWWKH887LQSXW7&P$RU57'DQGSUHVV ³(QWHU´WRDFFHSWVHOHFWLRQ 5.2.4.2 SETUP INPUT NOTE: The valid selections in the SETUP INPUT menu are based on the Sensor Type selected in the SELECT INPUT menu. 7KH6(783,1387PHQXLVXVHGWRVHWXSWKH887LQSXWRUWRUXQWKH7HVW$OJRULWKP 5.2.4.2.1 RTD SETUP 7KH57'6(783PHQXLVXVHGWRVHWXSWKHSDUDPHWHUVIRUWKH57'LQSXW 5.2.4.2.1.1 WIRES 7KH:,5(6SDUDPHWHUDOORZVWKHXVHUWRVHWXSWKH57'IRURUZLUHLQSXW8VH WKHOHIWDQGULJKWDUURZNH\VWRVHOHFWWKHQXPEHURIZLUHVDQGSUHVV³(QWHU´WRDFFHSW WKHVHOHFWLRQ 5.2.4.2.1.2 RTD TYPE 7KH57'7<3(SDUDPHWHULVXVHGWRVHOHFWWKHDSSOLFDEOHFRQYHUVLRQW\SHIRUWKH 57'8VHWKHOHIWDQGULJKWDUURZNH\VWRVHOHFWIURPWKHDYDLODEOHRSWLRQV5(6,6 7$1&(373737-,6RU1,3UHVV³(QWHU´WRDFFHSW WKHVHOHFWLRQ 5.2.4.2.2 TC SETUP 7KH7&6(783SDUDPHWHUDOORZVWKHXVHUWRVHOHFWWKHWKHUPRFRXSOHFRQYHUVLRQW\SH 5.2.4.2.2.1 TC TYPE 7KH7&7<3(SDUDPHWHULVXVHGWRVHOHFWWKHWKHUPRFRXSOHFRQYHUVLRQW\SH6WDQGDUG WKHUPRFRXSOHFRQYHUVLRQVLQFOXGHW\SHV&(-./01567DQG8 :KHQVHOHFWLQJP9WKH7&7\SHGLVSOD\VWKHPHDVXUHPHQWLQYROWVUDWKHUWKDQ WHPSHUDWXUH NOTE: No cold-junction compensation is available. The cold junction compensation is measured at the input automatically computed and compensated for in the instrument. 8VHWKHOHIWDQGULJKWDUURZNH\VWRVHOHFWWKHWKHUPRFRXSOHFRQYHUVLRQW\SHDQGSUHVV ³(QWHU´WRDFFHSWWKHVHOHFWLRQ 52 Controller operation Main Menu 5.2.4.2.3 mA SETUP 7KHP$6(783SDUDPHWHUDOORZVWKHXVHUWRHQDEOHWKHFXUUHQWORRS 5.2.4.2.3.1 LOOP POWER 7KH/22332:(5SDUDPHWHU(QDEOHVRU'LVDEOHVWKHORRSFXUUHQW8VHWKHOHIWDQG ULJKWDUURZNH\VWRVHOHFWDQGSUHVV³(QWHU´WRDFFHSWWKHVHOHFWLRQ 5.2.4.2.4 TEST CALC 7KH7(67&$/&7(67887&$/&8/$7,21DOORZVWKHWHFKQLFLDQWRWHVWWKH RXWSXWRIDVSHFL¿FFRQYHUVLRQDOJRULWKP6LPSO\VHOHFWWKHFRQYHUVLRQW\SHDQGHQWHU DYDOXHIRUWKHUHTXHVWHGSDUDPHWHU3UHVV(17(5WKHDOJRULWKPFRPSXWHVWKHDQVZHU DQGLWLVGLVSOD\HGLPPHGLDWHO\LQWKHSDUHQWKHVHVDWWKHERWWRPRIWKHVFUHHQ7(0 3(5$785(;;;;; 5.2.4.3 REF INPUT 7KH5(),13875()(5(1&(,1387PHQXFRQWDLQVWKHSDUDPHWHUVIRUWKH UHIHUHQFHLQSXWWRWKHUHDGRXWPRGXOHRIWKHLQVWUXPHQW7KH5HIHUHQFH,QSXWLVRQO\ FRPSDWLEOHZLWK357VZLWK,76&DOOHQGDU9DQ'XVHQRU,(&FRHI¿FLHQWV $GGLWLRQDOO\WKH5HIHUHQFH,QSXWZLOOUHDGVWUDLJKWUHVLVWDQFH 7KHSUREHVHULDOQXPEHUDQGFRHI¿FLHQWVFDQEHIRXQGRQWKHFDOLEUDWLRQFHUWL¿FDWH WKDWZDVVKLSSHGZLWKWKHSUREH,IWKHSUREHUHTXLUHVFDOLEUDWLRQFRQWDFWDQ$X WKRUL]HG6HUYLFH&HQWHUWRLQTXLUHDERXWFDOLEUDWLRQVHUYLFHVRIIHUHGE\)OXNH+DUW 6FLHQWL¿F'LYLVLRQ 5.2.4.3.1 PROG PROBE 7KH352*352%(5()(5(1&(352%(6(783PHQXLVXVHGWRVHWXSWKHUHIHU HQFHSUREHSDUDPHWHUV 5.2.4.3.1.1 SERIAL 7KH6(5,$/6(5,$/180%(5SDUDPHWHUDOORZVWKHXVHUWRHQWHUWHQGLJLWDOSKD QXPHULFVHULDOQXPEHUIRUWKHUHIHUHQFHSUREH&KDUDFWHUUDQJH ^$=µµ %ODQN!`0LQLPXPUHTXLUHGLVFKDUDFWHU :KHQDEODQNVSDFHLVHQWHUHGDQ\FKDUDFWHUVDIWHUWKHEODQNDUHGURSSHG)RUH[ DPSOHFKDQJH61WR617(67(QWHU7(67%ODQN6SDFH!7KH VHULDOQXPEHUZLOOGURSWKHODVWWKUHHFKDUDFWHUVDQGHQWHUWKH617(67 5.2.4.3.1.2 CAL DATE 7KH&$/'$7(SDUDPHWHULVXVHGWRHQWHUWKHFDOLEUDWLRQGDWHIRUWKHUHIHUHQFH SUREH8VHWKHDUURZNH\VWRHQWHUWKHFDOLEUDWLRQGDWHLQWKHIRUPDWVHOHFWHGLQ'$7( )250$7 53 914X Field Metrology Wells Main Menu 5.2.4.3.1.3 PROBE TYPE 7KH352%(7<3(SDUDPHWHULVXVHGWRFKRRVHZKLFKSUREHFRQYHUVLRQW\SHWREH VHWXS8VHWKHOHIWDQGULJKWDUURZNH\VWRVHOHFWWKHFRQYHUVLRQW\SHDQGSUHVV³(QWHU´ WRDFFHSWVHOHFWLRQ 5.2.4.3.1.3.1 TYPE (ITS-90) 7KH7<3(SDUDPHWHUFDQEH,76&DOOHQGDU9DQ'XVHQ&9',(&RU5H VLVWDQFH7KH,76RSWLRQLVIRU357VFDOLEUDWHGDQGFKDUDFWHUL]HGXVLQJWKH,QWHU QDWLRQDO7HPSHUDWXUH6FDOHRI,76HTXDWLRQV6XEUDQJHVDQGWKURXJK DUHVXSSRUWHG7KHSDUDPHWHUVWKDWDSSHDUZKHQ,76LVVHOHFWHGDUH³6HULDO´ 6HULDO1XPEHU³&DO'DWH´³573:´³&2()$´³&2()%´³&2()&´³&2() $´DQG³&2()%´7KHVHVKRXOGEHVHWZLWKWKHFRUUHVSRQGLQJYDOXHVWKDWDSSHDU RQWKHFDOLEUDWLRQFHUWL¿FDWHRIWKH3577KHSDUDPHWHU³573:´WDNHVWKHWULSOHSRLQW RIZDWHUUHVLVWDQFHRIWHQODEHOHG³5´RU³5.´RQWKHFHUWL¿FDWH3DUDPHWHUV ³&2()$´³&2()%´³&2()&´WDNHWKHDQEQDQGFQFRHI¿FLHQWVZKHUHQLVD QXPEHUIURPWR3DUDPHWHUV³&2()$´DQG³&2()%´WDNHWKHDDQGEFRHI ¿FLHQWVRQWKHFHUWL¿FDWH$Q\,76SDUDPHWHURIWKHLQVWUXPHQWWKDWGRHVQRWKDYHD FRUUHVSRQGLQJFRHI¿FLHQWRQWKH357¶VFHUWL¿FDWHPXVWEHVHWWR 7KHIROORZLQJWDEOH7DEOHVKRZVZKLFKSDUDPHWHUWRVHWIRUHDFKRIWKHFRHI¿FLHQWV WKDWPD\DSSHDURQWKHFHUWL¿FDWH7KHH[DPSOHWKDWIROORZVGHPRQVWUDWHVKRZWRVHW WKH,76SDUDPHWHUVIRUFHUWDLQFDVHV Table 4 Matching Certificate Values to 917X ITS-90 Coefficients 914X ITS-90 Coefficient Certificate Value COEF A a7, a8, a9, a10, or a11 COEF B b7, b8, b9, or 0 COEF C c7 or 0 COEF A4 a4 COEF B4 b4 NOTE: If the certificate has two sets of coefficients, one set for “zero-power” calibration and one set for 1 mA calibration, use the coefficients for the 1 mA calibration. ([DPSOH $357ZDVFDOLEUDWHGWR,76DQGLWVFDOLEUDWLRQFHUWL¿FDWHVWDWHVYDOXHVIRUFRHI ¿FLHQWV5WSZDEDDQGE6HWWKHLQVWUXPHQW¶VSDUDPHWHUVZLWKYDOXHVIURPWKH FHUWL¿FDWHDVIROORZV Table 5 Setting Coefficients Rtpw, a8, b8, and b4 54 914X Coefficient Certificate Value RTPW Rtpw COEF A a8 COEF B b8 COEF C 0 Controller operation Main Menu 5.2.4.3.1.3.1.1 COEF A4 a4 COEF B4 b4 PROG PROBE 7KH352*352%(SDUDPHWHULVXVHGWRWHOOWKHLQVWUXPHQWWRSURJUDPD6PDUWSUREH RU,QIR&RQZLWKWKHDSSURSULDWHSUREHFRHI¿FLHQWV8VHWKHDUURZNH\VWRVHOHFW³<HV´ RU³1R´,I³<HV´LVVHOHFWHGWKH6PDUWSUREH,QIR&RQZLOOEHSURJUDPPHGZLWK WKHDSSURSULDWHFRHI¿FLHQWVIRUWKHVHOHFWHGFRQYHUVLRQW\SH)RU,76DQG&9'WKH FRHI¿FLHQWYDOXHVQHHGWRHQWHUHGEHIRUHSURJUDPPLQJWKH,QIR&RQ)RU,(&DQG 5HVLVWDQFHQRYDOXHVDUHUHTXLUHGWRSURJUDPWKH,QIR&RQ 5.2.4.3.1.3.2 TYPE (CVD) 7KH&9'&DOOHQGDU9DQ'XVHQFRQYHUVLRQLVIRU57'SUREHVWKDWXVHWKH&DOOHQGDU 9DQ'XVHQHTXDWLRQ 7KHSDUDPHWHUVWKDWDSSHDUZKHQ&9'LVVHOHFWHGDUH³6HULDO´6HULDO1XPEHU ³&DO'DWH´³5´³$/3+$´³'(/7$´DQG³%(7$´ZKLFKFDQEHVHWE\WKHXVHU 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iring 7KHVHULDOFRPPXQLFDWLRQVFDEOHDWWDFKHVWRWKHLQVWUXPHQWWKURXJKWKH'%FRQ QHFWRUDWWKHIURQWRIWKHLQVWUXPHQW)LJXUHRQQH[WSDJHVKRZVWKHSLQRXWRIWKLV FRQQHFWRUDQGVXJJHVWHGFDEOHZLULQJ7RHOLPLQDWHQRLVHWKHVHULDOFDEOHVKRXOGEH VKLHOGHGZLWKORZUHVLVWDQFHEHWZHHQWKHFRQQHFWRU'%DQGWKHVKLHOG 6.1.1 Setup %HIRUHRSHUDWLRQWKHVHULDOLQWHUIDFHPXVW¿UVWEHVHWXSE\SURJUDPPLQJWKH%$8' UDWHDQGRWKHUFRQ¿JXUDWLRQSDUDPHWHUV7KHVHSDUDPHWHUVDUHSURJUDPPHGZLWKLQ WKHFRPPXQLFDWLRQVPHQX7KHVHULDOLQWHUIDFHSDUDPHWHUVFDQEHDFFHVVHGIURPWKH PDLQPHQXE\0(18_6<67(00(18_6<67(06(783_&2006(783_)RUPRUH LQIRUPDWLRQRQWKHVHULDOLQWHUIDFHSDUDPHWHUVVHH6HFWLRQ&2006(783RQ SDJH 6.1.2 Serial Operation 7KHVHULDOFRPPXQLFDWLRQVXVHVGDWDELWVRQHVWRSELWDQGQRSDULW\7KHVHW SRLQWDQGRWKHUFRPPDQGVPD\EHVHQWYLDWKHVHULDOLQWHUIDFHWRVHWWKHWHPSHUDWXUH VHWSRLQWDQGYLHZRUSURJUDPWKHYDULRXVSDUDPHWHUV7KHLQWHUIDFHFRPPDQGVDUH GLVFXVVHGLQWKH³'LJLWDO,QWHUIDFH´VHFWLRQ 57 914X Field Metrology Wells Command Syntax Figure 17 RS-232 wiring 6.2 Command Syntax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igital communication interface Commands by Function or Group IRUPV0RVWPQHPRQLFVKDYHDORQJIRUPWKDWLVPRUHUHDGDEOHDQGDVKRUWIRUPFRQ VLVWLQJRIWKUHHRUIRXUFKDUDFWHUVWKDWLVPRUHHI¿FLHQW $PQHPRQLFPD\HQGZLWKDQXPHULFVXI¿[WKDWVSHFL¿HVRQHRIDVHWRILQGHSHQGHQW IXQFWLRQEORFNVVXFKDVLQSXWFKDQQHOGDWDSDWKV,IDQXPHULFVXI¿[LVRPLWWHGZKHQD SDUWLFXODUEORFNPXVWEHVSHFL¿HGDQHUURULVJHQHUDWHG³+HDGHUVXI¿[RXWRIUDQJH´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ommands by Function or Group ,QWKLVVHFWLRQWKHFRPPDQGVDUHDUUDQJHGLQWRWKHIROORZLQJJURXSV &DOLEUDWLRQ&RPPDQGV±FRPPDQGVIRU)LHOG0HWURORJ\:HOOFDOLEUDWLRQ SDUDPHWHUV 0DLQ6FUHHQ&RPPDQGV±FRPPDQGVIRUSDUDPHWHUVGLVSOD\HGRQWKHPDLQVFUHHQ 3URJUDP&RPPDQGV±FRPPDQGVIRUSURJUDPVHWXSDQGVWDWXV 5HIHUHQFH&RPPDQGV±FRPPDQGVIRUDFFHVVLQJUHIHUHQFHWKHUPRPHWHUSDUDPHWHUV 887&RPPDQGV±FRPPDQGVIRUDFFHVVLQJ887SDUDPHWHUV 6HWXS&RPPDQGV±FRPPDQGVIRUVHWWLQJXSFRPPXQLFDWLRQGLVSOD\SDVVZRUG PHDVXUHDQGRSHUDWLRQSDUDPHWHUV 6\VWHP&RPPDQGV±FRPPDQGVWRUHSRUWDQGFKDQJHWKHVWDWXVRIWKHLQVWUXPHQW 7HPSHUDWXUH&RPPDQGV±FRPPDQGVIRUFRQWUROWHPSHUDWXUHDQGFXWRXWIXQFWLRQV Table 6 Commands by Function or Group Calibration - Controller SCREEN PARAMETER Command Password Protection Group Read/Write TEMP PB SOUR:LCON:PBAN Unconditional R/W TEMP INT SOUR:LCON:INT Unconditional R/W TEMP DER SOUR:LCON:DER Unconditional R/W CALDATE CAL:DATE:UNIT Unconditional R/W 59 914X Field Metrology Wells Commands by Function or Group Calibration – Heat Source SCREEN PARAMETER Command Password Protection Group Read/Write TEMP 1 SOUR:SENS:CAL:PAR1 Unconditional R/W TEMP 2 SOUR:SENS:CAL:PAR2 Unconditional R/W TEMP 3 SOUR:SENS:CAL:PAR3 Unconditional R/W GRAD 1 SOUR:SENS:CAL:GRAD1 Unconditional R/W GRAD 2 SOUR:SENS:CAL:GRAD2 Unconditional R/W GRAD 3 SOUR:SENS:CAL:GRAD3 Unconditional R/W GRAD 4 SOUR:SENS:CAL:GRAD4 Unconditional R/W GRAD 5 SOUR:SENS:CAL:GRAD5 Unconditional R/W TEMP 1 SOUR:SENS:CAL:TEMP1 N/A R TEMP 2 SOUR:SENS:CAL:TEMP2 N/A R TEMP 3 SOUR:SENS:CAL:TEMP3 N/A R SENS1:CAL:PAR1 Unconditional R/W SENS1:CAL:PAR2 Unconditional R/W INPUT CAL DATE CAL:DATE:MOD Unconditional R/W TCC0 SENS2:CAL:PAR1 Unconditional R/W TCC100 SENS2:CAL:PAR2 Unconditional R/W TCCRJ SENS2:CAL:PAR3 Unconditional R/W INPUT CAL DATE CAL:DATE:MOD Unconditional R/W mAC4 SENS2:CAL:PAR4 Unconditional R/W mAC20 SENS2:CAL:PAR6 Unconditional R/W INPUT CAL DATE CAL:DATE:MOD Unconditional R/W (none) SOUR:SENS:DATA N/A R Calibration – Reference (-P REF1C0 model only) REF1C100 Calibration – UUT – TC (-P model only) Calibration – UUT-mA Main Screen SETPT SOUR:SPO N/A R/W STAB SOUR:STAB:DAT N/A R STAB graph SOUR:STAB:TEST N/A R HEAT % OUTP1:DATA N/A R (none) OUTP2:DATA N/A R ENABLE OUTP1:STAT N/A R/W (-P model only) REF CALC1:DATA N/A R (-P model only) REF TEMP READ, MEAS, FETC N/A R UUT (-P model only) TC-n, P100, mA CALC2:DATA N/A R Program – Run TEST STATUS PROG:STAT N/A R/W Program - List (none) PROG:CAT N/A R Program - Select (none) PROG:TYP N/A R/W Program - Setup TEST ID PROG:IDEN N/A R/W (none) PROG:MEM:COUN N/A R ERASE TESTS PROG:MEM:CLEA Unconditional W Erase Tests 60 Digital communication interface Commands by Function or Group SCREEN PARAMETER Ramp & Soak Command Password Protection Group Read/Write RAMP/SOAK SETUP PROG:SEQ:CAT N/A R SETPOINT n PROG:SEQ:PAR SPOn Conditional R/W SOAK TIME PROG:SEQ:PAR DWEL Conditional R/W SETPOINTS PROG:SEQ:PAR POIN Conditional R/W NO CYCLES PROG:SEQ:PAR CYCL Conditional R/W PASS TOLERANCE PROG:SEQ:PAR PTOL Conditional R/W DIRECTION PROG:SEQ:PAR DIR Conditional R/W SETPOINT 1 SOUR:LIST:SPO1 N/A R/W SETPOINT 2 SOUR:LIST:SPO2 N/A R/W SETPOINT 3 SOUR:LIST:SPO3 N/A R/W SETPOINT 4 SOUR:LIST:SPO4 N/A R/W SETPOINT 5 SOUR:LIST:SPO5 N/A R/W SETPOINT 6 SOUR:LIST:SPO6 N/A R/W SETPOINT 7 SOUR:LIST:SPO7 N/A R/W SETPOINT 8 SOUR:LIST:SPO8 N/A R/W Switch Test – List Parameters (none) PROG:SWIT:CAT N/A R Input State (none) INP:SWIT:CLOS N/A R Auto Test SWITCH TEMP PROG:SWIT:PAR TNOM N/A R/W Manual Test LOWER TEMP PROG:SWIT:PAR TLOW N/A R/W UPPER TEMP PROG:SWIT:PAR THIG N/A R/W APPROACH LIMIT PROG:SWIT:PAR APPR N/A R/W Test – Results (-P model only) NO OF CYCLES PROG:SWIT:PAR CYCL N/A R/W PRINT TEST PROG:MEM:PRINT N/A W ERASE TESTS PROG:MEM:CLEA Unconditional W Reference - List (-P model only) PROBE TYPE CALC1:CONV:CAT N/A R Characterization Parameters - Active List (-P model only) (none) CALC1:CONV:PAR:CAT N/A R CAL DATE CALC1:CONV:DATE Conditional R/W PROGRAM CALC1:CONV:PROG Unconditional W Reference – Setup (-P model only) PROBE TYPE: ITS-90 CALC1:CONV:NAME ITS-90 Conditional R/W Reference – Setup (-P model only) PROBE TYPE: CVD CALC1:CONV:NAME CVD Conditional R/W Reference – Setup (-P model only) PROBE TYPE: IEC CALC1:CONV:NAME IEC-751 Conditional R/W Reference – Setup (-P model only) CONV TYPE: RESISTANCE CALC1:CONV:NAME RES Conditional R/W (-P model only) SERIAL CALC1:CONV:SNUM Conditional R/W ITS90 (-P model only) RTPW CALC1:CONV:PAR:VAL RTPW Conditional R/W A CALC1:CONV:PAR:VAL A7 Conditional R/W B CALC1:CONV:PAR:VAL B7 Conditional R/W C CALC1:CONV:PAR:VAL C7 Conditional R/W A4 CALC1:CONV:PAR:VAL A4 Conditional R/W B4 CALC1:CONV:PAR:VAL B4 Conditional R/W 61 914X Field Metrology Wells Commands by Function or Group SCREEN PARAMETER Command Password Protection Group Read/Write R0 CALC1:CONV:PAR:VAL R0 Conditional R/W ALPHA CALC1:CONV:PAR:VAL AL Conditional R/W DELTA CALC1:CONV:PAR:VAL DE Conditional R/W BETA CALC1:CONV:PAR:VAL BE Conditional R/W RESISTANCE SENS1:DATA N/A R Reference – Test Algorithm TEST CALC (-P model only) CALC1:CONV:TEST N/A R UUT (-P model only) SENS2:DATA N/A R CVD (-P model only) List (-P model only) RES, mA, mV SENSOR SENS2:FUNC N/A R/W RTD TYPE CALC2:CONV:CAT RTD N/A R TC TYPE CALC2:CONV:CAT TC N/A R RTD TYPE: RESISTANCE CALC2:CONV:NAME 0 N/A R/W RTD TYPE: PT100(385) CALC2:CONV:NAME 1 N/A R/W RTD TYPE: PT100(3926) CALC2:CONV:NAME 2 N/A R/W RTD TYPE: PT100(JIS) CALC2:CONV:NAME 3 N/A R/W RTD TYPE: NI-120 CALC2:CONV:NAME 4 N/A R/W TC-C CALC2:CONV:NAME C N/A R/W TC-E CALC2:CONV:NAME E N/A R/W TC-J CALC2:CONV:NAME J N/A R/W TC-K CALC2:CONV:NAME K N/A R/W TC-L CALC2:CONV:NAME L N/A R/W TC-M CALC2:CONV:NAME M N/A R/W TC-N CALC2:CONV:NAME N N/A R/W TC-R CALC2:CONV:NAME R N/A R/W TC-S CALC2:CONV:NAME S N/A R/W TC-T CALC2:CONV:NAME T N/A R/W TC-U CALC2:CONV:NAME U N/A R/W mV CALC2:CONV:NAME MV N/A R/W UUT–mA (-P model only) LOOP POWER INP2:MAMP:LPOW N/A R/W UUT–RTD (-P model only) WIRES INP2:RTD:WIR N/A R/W UUT – Test Algorithm (-P model only) TEST CALC CALC2:CONV:TEST N/A R Setup - Communication BAUD RATE SYST:COMM:SER:BAUD N/A R/W Setup - Display Setup - Password Status Setup – Date/Time System - Setup 62 LINEFEED SYST:COMM:SER:LIN N/A R/W LANGUAGE SYST:LANG N/A R/W DECIMAL SYST:DEC:FORM N/A R/W KEY AUDIO SYST:BEEP:KEYB N/A R/W PASSWORD (Disable) SYST:PASS:CDIS Unconditional W PASSWORD (Enable) SYST:PASS:CEN Unconditional W (none) SYST:PASS:CEN:STAT N/A R USER PASSWORD SYST:PASS:NEW Unconditional W PROTECTION SYST:PASS:PROT N/A R/W DATE SYST:DATE Unconditional R/W TIME SYST:TIME Unconditional R/W °C/°F key UNIT:TEMP N/A R/W Digital communication interface Serial Commands - Alphabetic Listing Heat Enable System - Information SCREEN PARAMETER Command Password Protection Group (none) OUTP:STAT N/A R/W (none) SYST:KLOC Conditional R/W (none) SYST:CONF:MOD N/A R Read/Write (none) SYST:ERR N/A R (all) *IDN N/A R (none) *CLS N/A W (none) *OPT N/A R FW VER SYST:COD:VERS N/A R (none) SYST:BEEP:IMM N/A W HARD CUTOUT SOUR:PROT:HCUT N/A R SOFT CUTOUT SOUR:PROT:SCUT:LEV Conditional R/W Reset (none) SOUR:PROT:CLE N/A W Trip State (none) SOUR:PROT:TRIP N/A R Temperature - Setup SCAN RATE SOUR:RATE N/A R/W STABLE LIMIT SOUR:STAB:LIM N/A R/W STABLE ALARM SOUR:STAB:BEEP N/A R/W Temperature – Cutout 6.4 Serial Commands - Alphabetic Listing (DFKFRPPDQGGHVFULSWLRQSURYLGHVWKHVWUXFWXUHORQJDQGVKRUWIRUPDWDGHVFULS WLRQRIWKHFRPPDQGSXUSRVHDFRPPDQGH[DPSOHDQH[DPSOHRIZKDWWKHFRPPDQG UHWXUQVDVDSSOLFDEOHWRTXHU\FRPPDQGVDQGQRWHVVSHFL¿FWRWKHFRPPDQG7KH IROORZLQJDSSO\WRHDFKJURXSRIFRPPDQGV ● ● ● ● ● ● ● ● ● 1XPHULFGDWDVSHFL¿HGE\WKHPQHPRQLFQXP!XVHV$6&,,FKDUDFWHUVWR UHSUHVHQWQXPEHUV1XPEHUVPD\FRQWDLQDSOXVRUPLQXVµ¶RUµ¶VLJQ 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Serial Commands - Alphabetic Listing ● ● ● ● ● ● ● ● ● ● ● ● ● ● ● ● ● ● ● ● ●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¿JXUDWLRQUHIHUHQFHKDUGZDUHHQDEOHGRUQRWVHH 6<67&21)02'SOXV5XVVLDQFRQ¿JXUDWLRQVHWRUQRW 64 Digital communication interface Serial Commands - Alphabetic Listing ([DPSOH237" 5HVSRQVH 7KLVFRPPDQGLVDUHDGRQO\FRPPDQGDQGUHWXUQVWKHVWDWHRIWKHUHIHUHQFHIXQFWLRQ DOLW\ &$/'$7(02'>"@>\HDU!PRQWK!GD\!@3PRGHORQO\ NOTE: This command is unconditionally protected, which requires a password to set it. 5HDGRUVHWWKHFDOLEUDWLRQGDWHIRUWKH±30RGXOH,1387&$/LEUDWLRQ'$7(ZKHUH WKHHQWHUHGYDOXHVDUHDOOQXPHULFDQG³\\\\´LVDIRXUGLJLW\HDU³PP´ LVDWZRGLJLWPRQWKDQG³GG´LVDWZRGLJLWGD\ 5HDG([DPSOH&$/'$7(02'" 5HVSRQVH 6HW([DPSOH&$/'$7(02' 7KLVFRPPDQGUHDGVRUVHWVWKHFDOLEUDWLRQGDWHIRUWKH±3PRGXOHLQFOXGLQJDOODF FRPSDQ\LQJVHQVRUV &$/'$7(81,7>"@>\HDU!PRQWK!GD\!@ NOTE: This command is unconditionally protected, which requires a password to set it. 5HDGRUVHWWKHFDOLEUDWLRQGDWHIRUWKH0DLQ8QLWZKHUHWKHHQWHUHGYDOXHVDUHDOOQX PHULFDQG³\\\\´LVDIRXUGLJLW\HDUGHIDXOW³PP´LVDWZRGLJLW PRQWKDQG³GG´LVDWZRGLJLWGD\ 5HDG([DPSOH&$/'$781,7" 5HVSRQVH 6HW([DPSOH&$/'$7&$/ 7KLVFRPPDQGUHDGVRUVHWVWKHFDOLEUDWLRQGDWHIRUWKH0DLQ8QLW&DOLEUDWLRQLVIRU WKHKHDWVRXUFHSRUWLRQRIWKHLQVWUXPHQW &$/&&219&$7"3PRGHORQO\ 5HDGWKHOLVWRIUHIHUHQFHSUREHFKDUDFWHUL]DWLRQPHWKRGV³&9',,(&5(6´ ([DPSOH&$/&&219&$7" 5HVSRQVH³&9'´´,´´,(&´´5(6´ 3URYLGHVWKHOLVWRI35757'FKDUDFWHUL]DWLRQPHWKRGVDYDLODEOH 65 914X Field Metrology Wells Serial Commands - Alphabetic Listing &$/&&219'$7(>"@>\\\\PPGG!@3PRGHORQO\ NOTE: This command is conditionally protected, which requires a password to set it. 5HDGRUVHWWKH,QIR&RQSUREHFDOLEUDWLRQGDWHLQ\\\\PPGGIRUPDW <HDU5DQJH ^±`'HIDXOW 0RQWK5DQJH ^±`'HIDXOW 'D\5DQJH ^±`'HIDXOW 5HDG([DPSOH&$/&&219'$7(" 5HVSRQVH 6HW([DPSOH&$/&&219'$7( 7KLVFRPPDQGUHDGVRUVHWVWKHFDOLEUDWLRQGDWHIRUWKH,QIR&RQSUREH &$/&&2191$0(>"@>Q@3PRGHORQO\ NOTE: This command is conditionally protected, which requires a password to set it. 5HDGRUVHWWKHUHIHUHQFHSUREHFKDUDFWHUL]DWLRQPHWKRGZKHUH³Q´LVDQDOSKD QXPHULFYDOXH&9',,(&DQG5(65DQJH ^,76&9',(&5(6`RU 'HIDXOW,76 5HDG([DPSOH&$/&&2191$0(" 5HVSRQVH&9' 6HW([DPSOH&$/&&2191$0(, 5HDGVRUVHWVWKHUHIHUHQFHSUREHFKDUDFWHUL]DWLRQPHWKRGIURPDSUHGH¿QHGVHWRI RSWLRQV &$/&&2193$5&$7"3PRGHORQO\ 5HDGWKHOLVWRIDFWLYHUHIHUHQFHSUREHFKDUDFWHUL]DWLRQSDUDPHWHUQDPHV ([DPSOH&$/&&2193$5&$7" 5HVSRQVH³573:´´$´³%´³&´³$´³%´ 7KLVFRPPDQGLVDUHDGRQO\FRPPDQGZKLFKUHWXUQVWKHDFWLYHSDUDPHWHUVIRUWKH FXUUHQWUHIHUHQFHSUREHW\SH 66 Digital communication interface Serial Commands - Alphabetic Listing &$/&&2193$59$/>"@SDU>Q!@3PRGHORQO\ NOTE: This command is conditionally protected, which requires a password to set it. 5HDGRUVHWDUHIHUHQFHSUREHFKDUDFWHUL]DWLRQSDUDPHWHU:KHUH³SDU´LVDSDUDPHWHU LGHQWL¿HGDVIROORZV,76573:$%&$%RU&9'$/'(RU%(³Q´ PD\EHVRPHUHDOQXPEHURUDQH[SRQHQWLDOYDOXHVXFKDVHIRU,76 ,765DQJHV ^573:$%$%`RU 573: WRRKPV &RHI¿FLHQWV 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7KLVFRPPDQGUHWXUQVWKHFXUUHQWPDLQ]RQHKHDWHUGXW\F\FOH 2873'$7$" 5HDGWKHJUDGLHQWKHDWRXWSXWSHUFHQW ([DPSOH2873'$7$" 5HVSRQVH 7KLVFRPPDQGUHWXUQVWKHFXUUHQWWRS]RQHKHDWHUSHUFHQWSRZHU 70 Digital communication interface Serial Commands - Alphabetic Listing 352*&$7" $FDWDORJOLVWRIDOOGH¿QHSURJUDPV5DPS6RDN 6(4$XWR6ZLWFK7HVW $6: DQG0DQXDO6ZLWFK7HVW 06: ([DPSOH352*&$7" 5HVSRQVH³6(4´´$6:´´06:´ 352*,'(1>"@>Q@ 5HDGRUVHWWKHSURJUDPLGHQWL¿HU&KDUDFWHUUDQJH ^±$±=µµ`XSWRFKDU DFWHUVPLQLPXPFKDUDFWHU'HIDXOW³´ 5HDG([DPSOH352*,'(1" 6HW([DPSOH7(67 352*0(0&/(30RGHORQO\ NOTE: This command is unconditionally protected, which requires a password to set it. (UDVHDOOWHVWUHSRUWVVWRUHGLQ190HPRU\ ([DPSOH352*0(0&/( 352*0(0&281"30RGHORQO\ 5HDGWKHWHVWUHSRUWFRXQW ([DPSOH352*0(0&281" 3URYLGHWKHFRXQWIRUWKHQXPEHURIWHVWUHSRUWVFXUUHQWO\VWRUHGLQPHPRU\ 352*0(035,1>Q@>$//@30RGHORQO\ 3ULQWVRQHRU$//WHVWUHSRUWV:KHUH³Q´LQGLFDWHVWKHWHVWUHSRUWWREHSULQWHGDQG LVWKHHDUOLHVWWHVW ([DPSOH352*0(035,17 352*6(4&$7" 5HDGDOLVWRISURJUDPSDUDPHWHUVIRU5DPS6RDNWHVWV ([DPSOH352*6(4&$7" 5HVSRQVH³632Q´´':(//´´',5´´32,1´´&<&/´´372/´ 7KLVFRPPDQGSURYLGHVDOLVWRIWKHSDUDPHWHUVIRUWKH5DPSDQG6RDNWHVW 71 914X Field Metrology Wells Serial Commands - Alphabetic Listing 352*6(43$5"SDU>Q!@ 5HDGRUVHWDSURJUDPSDUDPHWHUIRU5DPS6RDNWHVWV5DQJH ^632Q':(// ',532,1&<&/372/` Table 7 PROG:SEQ:PAR parameters Parameter Min Max Default SPO[n]* 1 8 1 DWEL 1 100 15 POIN 1 8 8 CYCL 1 999 1 PTOL 0.01 99.9 1.00 DIR 0 (up) 1 (U/D) 0 5HDG2QO\PXVWEH RIVHWSRLQWV32,1 5HDG([DPSOH352*6(43$5"GZHOO 5HVSRQVH 6HW([DPSOH352*6(43$5F\FOH 5HDGVRUVHWVDVSHFL¿HGSDUDPHWHULQWKH5DPS6RDNWHVW 352*67$7>"@>_@ 5HDGRUVHWWKHH[HFXWLRQVWDWHIRUWKHVHOHFWHGSURJUDP2II 5XQ 'HIDXOW 5HDG([DPSOH352*67$7" 5HVSRQVH 6HW([DPSOH352*67$7 ,IWKHVHOHFWHGSURJUDPLVQRWUXQQLQJWKHQDYDOXHRILVUHWXUQHGRWKHUZLVHDLV UHWXUQHG 352*6:,7&$7" 5HDGDOLVWRISURJUDPSDUDPHWHUVIRUWKHVZLWFKWHVW7/2:7+,*7120$335 $1'&<&/ ([DPSOH352*6:,7&$7" 5HVSRQVH³7/2:´´7+,*´´7120´´$335´´&<&/´ &RPPDQGSURYLGHVWKHFXUUHQWYDOXHVIRUWKHVZLWFKWHVWSDUDPHWHUV7/2: /RZHU 7HPS7+,* 8SSHU7HPS7120 1RPLQDO7HPS$335 $SSURDFK/LPLWDQG &<&/ 1RRI&\FOHV 72 Digital communication interface Serial Commands - Alphabetic Listing 352*6:,73$5"SDU>Q!@ 5HDGRUVHWDSURJUDPSDUDPHWHUIRUWKHVZLWFKWHVWZKHUH³SDU´LVWKHSDUDPHWHU 7/2:7+,*7120$335RU&<&/DQG³Q´LVWKHYDOXH Table 8 PROG:SWIT:PAR parameters Parameter Min Max Default TLOW 9142 –25.00 150.00 25.00 9143 25.00 350.00 25.00 9144 25.00 660.00 25.00 9142 –25.00 150.00 –15.00 9143 25.00 350.00 35.00 9144 25.00 660.00 35.00 9142 –25.00 150.00 –15.00 9143 25.00 350.00 35.00 9144 25.00 660.00 35.00 APPR 0.0 999.9 0.0 CYCL 1 100 1 THIG 10.00 TNOM 5HDG([DPSOH352*6:,7"WORZ 5HVSRQVH 6HW([DPSOH352*6:,7"7/2: &RPPDQGSURYLGHVRUVHWVWKHFXUUHQWYDOXHIRUWKHVSHFL¿HGVZLWFKWHVWSDUDPHWHU 7/2: /RZHU7HPS7+,* 8SSHU7HPS7120 [[[$335 $SSURDFK/LPLW DQG&<&/ 1RRI&\FOHV 352*7<3(>"@>SURJ!@ 5HDGRUVHOHFWDSURJUDPWRUXQZKHUH³SURJ´LVDQDPH6(4$6:RU064'HIDXOW 6(4 5HDG([DPSOH352*7<3(" 5HVSRQVH6(4 6HW([DPSOH352*7<3($6: 5HDGVRUVHOHFWVWKHFXUUHQWSURJUDPVHWWLQJ5DPS6RDN 6(4$XWR6ZLWFK7HVW $6:RU0DQXDO6ZLWFK7HVW 06: 5($'"0($6"RU)(7&"3PRGHORQO\ 5HDGWKH5HIHUHQFHVHQVRUWHPSHUDWXUH&RU) ([DPSOH5($'" 5HVSRQVH 73 914X Field Metrology Wells Serial Commands - Alphabetic Listing ,IWKHH[WHUQDOUHIHUHQFHSUREHLVHQDEOHGWKHUHIHUHQFHWHPSHUDWXUHLVUHWXUQHGRWKHU ZLVHLVUHWXUQHG 6(16&$/3$5Q!>"@>FDO@3PRGHORQO\ NOTE: This command is unconditionally protected, which requires a password to set it. 5HDGRUVHWDUHIHUHQFHLQSXWFDOLEUDWLRQSDUDPHWHUZKHUH³Q´LVDYDOXHRIRUFRU UHVSRQGLQJWRWKHFDOLEUDWLRQSDUDPHWHUV5()&DQG5()&UHVSHFWLYHO\³FDO´LV DUHDOQXPEHUXVHGDVWKHFDOLEUDWLRQRIIVHWIRUWKHUHVSHFWLYHSDUDPHWHU 5()&5DQJH ^WR` 5()&5DQJH ^WR` 'HIDXOWVDOO 5HDG([DPSOH6(16&$/3$5" 5HVSRQVH 6HW([DPSOH6(16&$/3$5 5HIHUHQFHWKHUPRPHWHULQSXWFRPPDQGVWRYHULI\RUVHW5()&3$5RU 5()&3$5FDOLEUDWLRQSDUDPHWHUV 6(16'$7$"3PRGHORQO\ 5HDGWKHUHIHUHQFHLQSXWUHVLVWDQFH ([DPSOH6(16'$7$" 5HVSRQVH 7KLVFRPPDQGUHWXUQVWKHUHVLVWDQFHLQRKPVRIWKHUHIHUHQFHSUREH 6(16&$/3$5Q!>"@>FDO@3PRGHORQO\ NOTE: This command is unconditionally protected, which requires a password to set it. 5HDGRUVHWWKH887LQSXWFDOLEUDWLRQSDUDPHWHUIRUWKHVHOHFWHGIXQFWLRQZKHUH³Q´ LVDQLQWHJHU3$5 7&&3$5 7&&3$5 7&&5-3$5 P$&DQG 3$5 P$&UHVSHFWLYHO\³FDO´LVDUHDOQXPEHUXVHGDVWKHFDOLEUDWLRQRIIVHWIRU WKHUHVSHFWLYHSDUDPHWHU 5DQJH 7& P9 P$ P$ 'HIDXOW7& P9 74 Digital communication interface Serial Commands - Alphabetic Listing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³SDU´LVWKHVHOHFWHG GHYLFHDQGLVHQWHUHGDV57'7&RU0$'HIDXOW 57' 5HDG([DPSOH6(16)81&" 5HVSRQVH57' 6HW([DPSOH6(16)81&7& 7KLVFRPPDQGUHDGVRUVHWVWKH8876HQVH)XQFWLRQDV57'7&RUP$ 6285/&21'(5>"@>Q@ NOTE: This command is unconditionally protected, which requires a password to set it. 5HDGRUVHWWKHPDLQFRQWUROORRSGHULYDWLYHWLPHLQVHFRQGV0LQ0D[ 5HDG([DPSOH6285/&21'(5" 5HVSRQVH 6HW([DPSOH6285/&21'(5 7KHPDLQ]RQHGHULYDWLYHLVWKHGHULYDWLYHWLPHLQVHFRQGVWKDWWKHLQVWUXPHQW¶V3,' FRQWUROOHUXVHVIRUPDLQ]RQHFRQWURO 75 914X Field Metrology Wells Serial Commands - Alphabetic Listing 6285/&21,17>"@>Q@ NOTE: This command is unconditionally protected, which requires a password to set it. 5HDGRUVHWWKHPDLQFRQWUROORRSLQWHJUDOWLPHLQVHFRQGV5DQJH ^` 5HDG([DPSOH6285/&21,17" 5HVSRQVH 6HW([DPSOH6285/&21,17 7KHPDLQ]RQHLQWHJUDOLVWKHLQWHJUDWLRQWLPHLQVHFRQGVWKDWWKHLQVWUXPHQW¶V3,' FRQWUROOHUXVHVIRUPDLQ]RQHFRQWURO 6285/&213%$1>"@>Q@ NOTE: This command is unconditionally protected and requires a password to set it. 5HDGRUVHWWKHPDLQFRQWUROORRSSURSRUWLRQDOEDQG&5DQJH ^` 5HDG([DPSOH6285/&213%$1" 5HVSRQVH 6HW([DPSOH6285/&213%$1 7KHPDLQ]RQHSURSRUWLRQDOEDQGLVWKHJDLQLQ&WKDWWKHLQVWUXPHQW¶VSURSRUWLRQDO LQWHJUDOGHULYDWLYH3,'FRQWUROOHUXVHVIRUPDLQ]RQHFRQWURO 6285/,67632L!>"@>Q@ 5HDGRUVHWDPDLQWHPSHUDWXUHSUHVHWVHWSRLQW 5HDGH[DPSOH6285/,67632" 5HVSRQVH 6HW([DPSOH6285/,67632 7KLVVHWVWKHSUHVHWVHWSRLQWVIRXQGLQ352*0(18XQGHU5$0362$. 62853527+&87" 5HDGWKHKDUGFXWRXWWHPSHUDWXUHVHWSRLQWLQ&RU) 5HDG([DPSOH62853527+&87" 5HVSRQVH 5HWXUQVWKHFXUUHQWYDOXHRIWKHKDUGFXWRXWVHWSRLQW 76 Digital communication interface Serial Commands - Alphabetic Listing 62853527&/($ 5HVHWWKHFXWRXWWRHQDEOHWKHV\VWHP ([DPSOH62853527&/($ 7KLVFRPPDQGKDVQRUHVSRQVH ,IWKH)LHOG0HWURORJ\:HOOH[FHHGVWKHWHPSHUDWXUHVHWLQWKHVRIWFXWRXWPHQXRULI LWH[FHHGVWKHPD[LPXPRSHUDWLQJWHPSHUDWXUHRIWKHLQVWUXPHQWDFXWRXWFRQGLWLRQ RFFXUV,IWKLVKDSSHQVWKHLQVWUXPHQWHQWHUVFXWRXWPRGHDQGZLOOQRWDFWLYHO\KHDW RUFRROXQWLOWKHXVHULVVXHVWKLVFRPPDQGWRFOHDUWKHFXWRXWRUUHVHWVWKHLQVWUXPHQW XVLQJWKH6HWSWNH\WRFOHDUWKHFXWRXWPRGHDQGDFWLYDWHWKHLQVWUXPHQW 628535276&87/(9>"@>Q@ NOTE: This command is conditionally protected and requires a password to set it. 5HDGRUVHWWKHVRIWFXWRXWVHWSRLQWZKHUH³Q´LVDQLQWHJHUYDOXHIURPWR 5DQJH ^WR` 5DQJH ^WR` 5DQJH ^WR` 5HDG([DPSOH628535276&87/(9" 5HVSRQVH 6HW([DPSOH628535276&87/(9 5HDGRUVHWWKHVRIWFXWRXWVHWSRLQW7KHVRIWFXWRXWVKRXOGEHVHWWRSURWHFWWKHWHP SHUDWXUHOLPLWVRIWKHLQVWUXPHQWVXQGHUWHVW 6285352775,3" 5HDGWKHWHPSHUDWXUHFXWRXWWULSSHGVWDWH5DQJH ^` 1R&XWRXW &XWRXW ([DPSOH6285352775,3" 5HVSRQVH $YDOXHRILVUHWXUQHGLIWKHFXWRXWVHWSRLQWKDVQRWEHHQUHDFKHG2WKHUZLVHDYDOXH RILVUHWXUQHGDQGWKHFXWRXWVHWSRLQWKDVEHHQUHDFKHG 62855$7(>"@>Q@ 5HDGRUVHWWKHFRQWUROWHPSHUDWXUHUDWHRIFKDQJH6FDQ5DWH&RU)SHUPLQXWH 0LQ0D['HIDXOW 5HDG([DPSOH62855$7(" 5HVSRQVH 77 914X Field Metrology Wells Serial Commands - Alphabetic Listing 6HW([DPSOH62855$7( 7KHUHVSRQVHWRWKLVFRPPDQGVWDUWVRXWKLJKLQLWLDOO\DQGGHFUHDVHVDVWKHVHWSRLQWLV UHDFKHG 62856(16&$/*5$'[!>"@>Q@ NOTE: This command is unconditionally protected and requires a password to set it. 5HDGRUVHWWKHD[LDOJUDGLHQWFRQWUROSDUDPHWHUZKHUH³[´LVDQXPHULFYDOXHLQGLFDW LQJWKHSDUDPHWHU>@ *5$' *5$'>@ *5$' *5$'>@ *5$' *5$'>@ *5$' *5$'>@ *5$' *5$'³Q´LVDUHDOQXPEHU UDQJLQJIURPWRHQWHUHGDVDUDWLRRIWKHPDLQKHDWHUSRZHU 5HDG([DPSOH62856(16&$/*5$'" 5HVSRQVH 6HW([DPSOH62856(16&$/*5$' 7KHWRS]RQHKHDWHUUHDFWVDVDUDWLRRIWKHPDLQVKHDWHUSRZHUWRFRQWUROWKHD[LDO JUDGLHQW 62856(16&$/3$5[!>"@>Q@ NOTE: This command is unconditionally protected and requires a password to set it. 5HDGRUVHWDFRQWUROWHPSHUDWXUHFDOLEUDWLRQSDUDPHWHUZKHUH³[´LVDQXPHULFYDOXH LQGLFDWLQJWKHSDUDPHWHU>@ 3$5 7HPS3$5 7HPS3$5 7HPS³Q´LV WKHHQWHUHGYDOXHRIWKHSDUDPHWHU5DQJH 'HIDXOWV 5HDG([DPSOH62856(16&$/3$5" 5HVSRQVH 6HW([DPSOH62856(16&$/3$5 7KLVFRPPDQGUHDGVRUVHWVWKHFDOLEUDWLRQSDUDPHWHUYDOXHIRUPDLQFRQWURO6HHWKH ³&DOLEUDWLRQRI\RXU)LHOG0HWURORJ\:HOO´VHFWLRQIRUPRUHGHWDLO 62856(16&$/7(03[!" 5HDGWKHUHTXLUHGFDOLEUDWLRQWHPSHUDWXUH&FRUUHVSRQGLQJWRDFDOLEUDWLRQSDUDPH WHUZKHUH³[´LVDQXPHULFYDOXHLQGLFDWLQJWKHSDUDPHWHU>@ 7(03>@ 7(03 $1'>@ 7(035DQJH ^`'HIDXOW ([DPSOH62856(16&$/7(03" 5HVSRQVH 78 Digital communication interface Serial Commands - Alphabetic Listing 62856(16'$7$">7(03@ 5HDGWKHFRQWUROWHPSHUDWXUH&RU) ([DPSOH62856(16'$7$"RU62856(16'$7$"7(03 5HVSRQVH&FXUUHQWFRQWUROWHPS 7KHFXUUHQWFRQWUROWHPSHUDWXUHLVUHWXUQHGLIWKHDERYHRULI7(03LVDSSHQGHGWRWKH HQGRIWKHH[DPSOH 62856(16'$7$">5(6@ 5HDGWKHFRQWUROVHQVRUUHVLVWDQFH ([DPSOH62856(16'$7$"5(6 5HVSRQVH :KHQ5(6LVDSSHQGHGWRWKHHQGRIWKHH[DPSOHDERYHWKHLQWHUQDOVHQVRUUHVLVWDQFH LVUHWXUQHG 6285632>"@>Q@ 6HWWKHFRQWUROVHWSRLQW&RU)ZKHUH³Q´LVDUHDOYDOXHZLWKDFFHSWDQFHOLPLWV EDVHGRQWKHPRGHO Parameter Min Max 9142 -25.00 150.00 Default 25.00 9143 25.00 350.00 25.00 9144 25.00 660.00 25.00 5HDG([DPSOH6285632" 5HVSRQVH 6HW([DPSOH6285632 7KLVFRPPDQGUHDGVRUVHWVWKHYDOXHRIWKHFRQWUROVHWSRLQWEDVHGRQWKHV\VWHP WHPSHUDWXUHXQLWV 628567$%%((3>"@>Q@ 5HDGRUVHWWKHVWDELOLW\DOHUWEHHSHQDEOHZKHUH³Q´LVDYDOXHRU>@LVGLVDEOH >@LVHQDEOHEHHS'HIDXOW(QDEOH%HHS 5HDG([DPSOH628567$%%((3" 5HVSRQVH 6HW([DPSOH628567$%%((3 (QDEOHRUGLVDEOHWKHDXGLEOHVWDELOLW\DOHUW 79 914X Field Metrology Wells Serial Commands - Alphabetic Listing 628567$%'$7" 5HDGWKHFRQWUROWHPSHUDWXUHVWDELOLW\&RU) ([DPSOH628567$%'$7" 5HVSRQVH 7KHFRQWUROOHUVWDELOLW\LVUHWXUQHG 628567$%/,0>"@>Q@ 5HDGRUVHWWKHFRQWUROWHPSHUDWXUHVWDELOLW\OLPLW&RU)ZKHUH³Q´LVDSRVLWLYHUHDO YDOXH5DQJH ^WR&`'HIDXOW& 5HDG([DPSOH628567$%/,0" 5HVSRQVH 6HW([DPSOH628567$%/,0 5HDGRUVHWWKHFRQWUROVWDELOLW\OLPLW 628567$%7(67" 5HDGWKHWHPSHUDWXUHVWDELOLW\WHVWUHVXOWV6WDEOH 8QVWDEOH ([DPSOH628567$%7(67" 5HVSRQVH $YDOXHRILVUHWXUQHGLIWKHFRQWUROOHULVQRWVWDEOHDWWKHFXUUHQWVHWSRLQW2WKHUZLVH DYDOXHRILVUHWXUQHGLIWKHFRQWUROOHULVVWDEOHDWWKHFXUUHQWVHWSRLQW 6<67%((3,00 %HHSWKHV\VWHPEHHSHU ([DPSOH6<67%((3,00 7KHV\VWHPEHHSHUVKRXOGPDNHDQDXGLEOHVRXQGLQUHVSRQVHWRWKLVFRPPDQG 6<67%((3.(<%>"@>Q@ 5HDGRUVHWWKHNH\ERDUGEHHSIXQFWLRQ 2II 2Q'HIDXOW 5HDG([DPSOH6<67%((3.(<%" 5HVSRQVH 6HW([DPSOH6<67%((3.(<% 7XUQVWKHNH\ERDUGEHHSIXQFWLRQRQRURII 80 Digital communication interface Serial Commands - Alphabetic Listing 6<67&2'(/$1*" 5HDGWKHODQJXDJHVHWRSWLRQ(XURSHDQ5XVVLDQ$VLDQ7KHDYDLODEOHODQ JXDJHVDUHGHSHQGHQWXSRQZKLFKYHUVLRQRIWKHSURGXFWLVVXSSOLHG7KHYHUVLRQLV GHSHQGHQWXSRQWKH¿QDOGHVWLQDWLRQDQGFRQ¿JXUDWLRQ (XURSHDQ(1*/LVKGHIDXOW)5(1FK63$1LVK,7$/LDQ*(50DQ 5XVVLDQ5866LDQGHIDXOW(1*/LVK ● $VLDQ(1*/LVKGHIDXOW&+,1HVH-$3DQHVH ([DPSOH6<67&2'(/$1*" ● ● 5HVSRQVH 6<67&2'(9(56" 5HDGWKHPDLQFRGHYHUVLRQ ([DPSOH6<67&2'(9(56" 5HVSRQVH 3URYLGHVWKHXVHUZLWKWKHYHUVLRQRIWKHPDLQSURFHVVRUFRGH 6<67&2006(5%$8'>"@>EDXG!@ 5HDGRUVHWVHULDOLQWHUIDFHEDXGUDWHZKHUH³EDXG´LVDVWDQGDUGEDXGUDWHYDOXH 5DQJHEDXG ^DQG`'HIDXOW 5HDG([DPSOH6<67&2006(5%$8'" 5HVSRQVH 6HW([DPSOH6<67&2006(5%$8' 6<67&2006(5/,1>"@>Q@ 6HWVHULDOLQWHUIDFHOLQHIHHGHQDEOHZKHUH³Q´LVDYDOXHRU>@ /)2))>@ /) 21'HIDXOW2)) 5HDG([DPSOH6<67&2006(5/,1" 5HVSRQVH 6HW([DPSOH6<67&2006(5/,1 7KLVFRPPDQGHQDEOHVRUGLVDEOHVOLQHIHHG 6<67&21)02'" 5HDGWKHSUHVHQFHRIWKH±3PRGXOH>@LIQR±3VHQVRUPRGXOH>@LI±3VHQVRUFDUG LVLQVWDOOHG ([DPSOH6<67&21)02'" 5HVSRQVH 81 914X Field Metrology Wells Serial Commands - Alphabetic Listing ,IWKH±3VHQVRUPRGXOHLVLQVWDOOHGWKHLQVWUXPHQWLVD±30RGHO 6<67'$7(>"@>\HDU!PRQWK!GD\!@3PRGHORQO\ NOTE: This command is conditionally protected and requires a password to set it. 5HDGRUVHWWKH6\VWHP'DWH6HWWLQJXVLQJQXPEHUVVHSDUDWHGE\FRPPDV \\\\PPGG'HIDXOW%ODQN! 5HDG([DPSOH6<67'$7(" 5HVSRQVH 6HW([DPSOH6<67'$7( 6<67'(&)250>"@>Q@ 5HDGRUVHWWKHGHFLPDOIRUPDWZKHUH³Q´LVSHULRG>@FRPPD>@'HIDXOW 3HULRG 5HDG([DPSOH6<67'(&)250" 5HVSRQVH 6HW([DPSOH6<67'(&)250 6<67(55" 5HDGWKHPRVWUHVHQWHUURUIURPWKHHUURUTXHXH ([DPSOH6<67(55" 5HVSRQVHFRPPDQGSURWHFWHG 7KLVFRPPDQGUHVSRQVHUHSRUWVWKHHUURUVLQWKHHUURUTXHXH 6<67./2&>"@>Q@ NOTE: This command is unconditionally protected and requires a password to set it. 5HDGRUVHWWKHNH\SDGORFNRXW>@ XQORFNDQG>@ ORFN'HIDXOW8QORFN 5HDG([DPSOH6<67./2&." 5HVSRQVH 6HW([DPSOH6<67./2& 7KLVFRPPDQGORFNVRUXQORFNVWKHV\VWHPNH\SDGSURYLGLQJFRQWURORQO\WKURXJKWKH VHULDOLQWHUIDFH56SRUWRUWKHNH\SDG 82 Digital communication interface Serial Commands - Alphabetic Listing 6<67/$1*ODQJ! 6HWWKHGLVSOD\ODQJXDJH7KHDYDLODEOHODQJXDJHVDUHGHSHQGHQWXSRQZKLFKYHUVLRQ RIWKHSURGXFWLVVXSSOLHG7KHYHUVLRQLVGHSHQGHQWXSRQWKH¿QDOGHVWLQDWLRQDQG FRQ¿JXUDWLRQ (XURSHDQ(1*/LVKGHIDXOW)5(1FK63$1LVK,7$/LDQ*(50DQ ● ● ● 5XVVLDQ5866LDQGHIDXOW(1*/LVK $VLDQ(1*/LVGHIDXOW&+,1HVH-$3DQHVH ([DPSOH6<67/$1*63$1 6<67/$1*&$7" 5HDGWKHDYDLODEOHGLVSOD\ODQJXDJHV7KHDYDLODEOHODQJXDJHVDUHGHSHQGHQWXSRQ ZKLFKYHUVLRQRIWKHSURGXFWLVVXSSOLHG7KHYHUVLRQLVGHSHQGHQWXSRQWKH¿QDOGHVWL QDWLRQDQGFRQ¿JXUDWLRQ (XURSHDQ(1*/LVKGHIDXOW)5(1FK63$1LVK,7$/LDQ*(50DQ ● 5XVVLDQ5866LDQGHIDXOW(1*/LVK ● $VLDQ(1*/LVKGHIDXOW&+,1HVH-$3DQHVH ([DPSOH(XURSHDQ6<67/$1*&$7" ● 5HVSRQVH³(1*/´´)5(1´´63$1´´,7$/´´*(50´ ([DPSOH5XVVLDQ6<67/$1*&$7" 5HVSRQVH³5866´´(1*/´ ([DPSOH$VLDQ6<67/$1*&$7" 5HVSRQVH³(1*/´´-$3´´&+,1´ 6<673$66&',6 'LVDEOHDFFHVVWRSDVVZRUGSURWHFWHGVHWWLQJFRPPDQGV ([DPSOH6<673$66&',6 7KLVFRPPDQGKDVQRUHVSRQVH 7KLVFRPPDQGGLVDEOHVWKHV\VWHPSDVVZRUGSURWHFWLRQ 6<673$66&(1>Q@ (QDEOHDFFHVVWRSDVVZRUGSURWHFWHGVHWWLQJFRPPDQGVZKHUH³Q´LVDIRXUGLJLWSDVV ZRUG5DQJH ^±`'HIDXOW ([DPSOH6<673$66&(1 7KLVFRPPDQGKDVQRUHVSRQVH 7KLVFRPPDQGHQDEOHVWKHV\VWHPSDVVZRUG7KLVSDVVZRUGQHHGVWREHHQDEOHGLQ RUGHUWRXVHWKHFRQGLWLRQDOO\SURWHFWHGFRPPDQGV:KHQWKHSRZHURIWKHLQVWUXPHQW LVF\FOHGV\VWHPSDVVZRUGSURWHFWLRQLVGLVDEOHG 83 914X Field Metrology Wells Serial Commands - Alphabetic Listing 6<673$66&(167$7" 5HDGWKHDFFHVVVWDWHRISDVVZRUGSURWHFWHGVHWWLQJFRPPDQGV ([DPSOH6<673$66&(167$7" 5HVSRQVH 7KLVFRPPDQGUHSRUWVWKHFXUUHQWVWDWXVRIWKHV\VWHPSDVVZRUG 6<673$661(:Q!_'() NOTE: This command is unconditionally protected, which requires a password to set it. 6HWWKHSDVVZRUGZKHUH³Q´LVWKHQHZIRXUGLJLWSDVVZRUG5DQJH ^±` 'HIDXOW ([DPSOH6<673$661(: 7KLVFRPPDQGKDVQRUHVSRQVH 7KLVFRPPDQGDOORZVWKHXVHUWRVHWWKHV\VWHPSDVVZRUG 6<673$663527>"@>_@ 5HDGRUVHWSDVVZRUGSURWHFWLRQOHYHO>@ ORZ>@ KLJK 5HDG([DPSOH6<673$663527" 5HVSRQVH 6HW([DPSOH6<673$663527 6<677,0(>"@>KKPPVV@3PRGHORQO\ NOTE: This command is conditionally protected and requires a password to set it. 5HDGRUVHWWKH6\VWHP7LPHKKPPVV!KUWLPHRQO\ 5DQJH KK ^±` PP ^±` VV ^±` 'HIDXOW&XUUHQW7LPH±$PHULFDQ)RUN8WDK86$ 5HDG([DPSOH6<677,0(" 5HVSRQVH 6HW([DPSOH6<677,0( 84 Digital communication interface Non-SCPI Commands by Function or Group 81,77(03>"@>Q@ 5HDGRUVHWWKHGLVSOD\WHPSHUDWXUHXQLWVZKHUH³Q´LVDFKDUDFWHU³&´RU³)´'HIDXOW & 5HDG([DPSOH81,77(03" 5HVSRQVH& 'HSHQGLQJRQLQVWUXPHQWVVHWWLQJD&&HOVLXVRU))DKUHQKHLWLVUHWXUQHG 6HW([DPSOH81,77(03) 6.5 Non-SCPI Process Commands 7KLVVHFWLRQFRQWDLQV1RQ6&3,FRPPDQGV7KHVHDUHDYDLODEOHIRUXVHUVWKDWUHTXLUH 1RQ6&3,FRPPDQGVIRUWKHLUDSSOLFDWLRQ7KHVHFRPPDQGVDUHXVHGGLIIHUHQWO\ IURPWKH6&3,FRPPDQGVGLVFXVVHGLQWKHSUHYLRXVVHFWLRQWKHFRPPDQGSURWRFRO DQGUHVSRQVHLVGLIIHUHQW7KHVHFRPPDQGVGRQRWUHTXLUHDTXHVWLRQPDUN"IRUD TXHU\DQGUHVSRQGWRDTXHU\E\¿UVWRXWSXWWLQJWKHFRPPDQGDQGFRORQEHIRUHWKH GDWD7KHVHFRPPDQGVDUHQRWSDVVZRUGSURWHFWHG7KHDVVRFLDWHG6&3,FRPPDQGLV UHIHUHQFHGZKHUHDSSURSULDWH 6.6 Non-SCPI Commands by Function or Group SCREEN PARAMETER COMMAND PASSWORD PROTECTION READ/WRITE DUPLEX du None R LINEFEED lf None R/W SAMPLE RATE sa None R/W HIGH LIMIT hl None R SET POINT s None R/W TEMPERATURE t None R System Information VERSION *ver None R System Setup °C/°F u None R/W Setup - Communication Temperature Settings YHU 5HDGWKH0RGHOQXPEHUDQG0DLQFRGHYHUVLRQ0RGHO1XPEHU)LUPZDUHYHUVLRQ$ TXHVWLRQPDUN"LVQRWUHTXLUHGWRTXHU\WKLVFRPPDQG ([DPSOHYHU YHU GX 5HDGRUVHWVHULDOLQWHUIDFHHFKRHQDEOHRQRURII 7KHDQGGRQRWVXSSRUWWKH)XOOGXSOH[PRGH7KHUHVSRQVHZLOOEH WKHFRPPDQGVWULQJDQGDFRORQIROORZHGE\³+DOI´ 85 914X Field Metrology Wells Non-SCPI Commands by Function or Group 5HDG([DPSOHGX GX+$/) 6HW([DPSOHGX 7KLVFRPPDQGHQDEOHVRUGLVDEOHVWKHHFKR KO 5HDGWKHPD[LPXPWHPSHUDWXUHVHWWLQJIRUWKHXQLW7KLVFRPPDQGLVTXHU\RQO\DQG UHVSRQGVZLWKWKHFRPPDQGVWULQJDQGD&RORQIROORZHGE\WKHPD[LPXPWHPSHUDWXUH DQGDVVRFLDWHGXQLWV 5HDG([DPSOHKO KO& OI>Q@ 5HDGRUVHWWKHVHULDOLQWHUIDFHOLQHIHHGHQDEOHZKHUH³Q´LVDYDOXHRU>@ /) 2))>@ /)217KHGHIDXOWVHWWLQJLV2II2IIDQGRQPD\EHXVHGLQSODFHRI DQGUHVSHFWLYHO\,I³Q´LVOHIWEODQNWKHFRPPDQGZLOOEHWUHDWHGDVDTXHU\7KLV TXHU\UHVSRQGVZLWKWKHFRPPDQGVWULQJDQGD&RORQIROORZHGE\WKH/)VHWWLQJ 5HIHUWR6<67&2006(5/,1FRPPDQG 5HDG([DPSOHOI OI2)) 6HW([DPSOHOIRQ V>Q@ 5HDGRU6HWWKHWHPSHUDWXUHFRQWUROVHWSRLQWLQ&RU)EDVHGRQFXUUHQWV\VWHP XQLWV:KHUH³Q´LVDUHDOYDOXHZLWKDFFHSWDQFHOLPLWVEDVHGRQWKHPRGHO,I³Q´LV OHIWEODQNWKHFRPPDQGZLOOEHWUHDWHGDVDTXHU\7KLVTXHU\UHVSRQGVZLWKWKHFRP PDQGVWULQJ³VHW´IROORZHGE\WKHWHPSHUDWXUHVHWWLQJDQGDVVRFLDWHGXQLWV5HIHUWR 6285632FRPPDQG 5HDG([DPSOHV VHW& 6HW([DPSOHV VD>Q@ 5HDGRU6HWWKHVHULDOLQWHUIDFHDXWRSULQWLQJLQWHUYDO:KHUH³Q´LVDQLQWHJHUYDOXH IURP,I³Q´LVWKHDXWRSULQWZLOOEHGLVDEOHG9DOXHVUDQJHIURPWRDQG DUHLQVHFRQGV,I³Q´LVOHIWEODQNWKHFRPPDQGZLOOEHWUHDWHGDVDTXHU\7KLVTXHU\ UHVSRQGVZLWKWKHFRPPDQGVWULQJ³VD´DQGD&RORQIROORZHGE\WKHLQWHUYDOVHWWLQJ 5HDG([DPSOHVD 86 Digital communication interface Non-SCPI Commands by Function or Group VD 6HW([DPSOHV W 5HDGWKHFRQWUROWHPSHUDWXUHLQ&RU)EDVHGRQFXUUHQWV\VWHPXQLWV7KLVFRP PDQGLVTXHU\RQO\DQGUHVSRQGVZLWKWKHFRPPDQGVWULQJDQGD&RORQIROORZHGE\ WKHWHPSHUDWXUHDQGDVVRFLDWHGXQLWV5HIHUWR62856(16'$7FRPPDQG 5HDG([DPSOHW W& X>Q@ 5HDGRU6HWWKHGLVSOD\WHPSHUDWXUHXQLWVZKHUH³Q´LVDFKDUDFWHU³&´RI³)´ 'HIDXOW&,I³Q´LVOHIWEODQNWKHFRPPDQGZLOOEHWUHDWHGDVDTXHU\7KLVTXHU\ UHVSRQGVZLWKWKHFRPPDQGVWULQJ³X´DQGD&RORQIROORZHGE\WKHXQLWVHWWLQJ5HIHU WR81,77(03FRPPDQG 5HDG([DPSOHX X& 6HW([DPSOHX) 87 Calibration of your Field Metrology Well Fundamentals 7 Calibration of your Field Metrology Well 7.1 General Note: For assistance with the process or any questions regarding the calibration of the Field Metrology Well, contact an Authorized Service Center. 7KLVSURFHGXUHLVWREHFRQVLGHUHGDJHQHUDOJXLGHOLQH(DFKODERUDWRU\VKRXOGZULWH WKHLURZQSURFHGXUHEDVHGRQWKHLUHTXLSPHQWDQGWKHLUTXDOLW\SURJUDP(DFKSURFH GXUHVKRXOGEHDFFRPSDQLHGE\DQXQFHUWDLQW\DQDO\VLVDOVREDVHGRQWKHODERUDWRU\¶V HTXLSPHQWDQGHQYLURQPHQW 7.2 Terminology ,IWKHRSWLRQDOSURFHVVYHUVLRQ3PRGHOZDVSXUFKDVHGWKH)LHOG0HWURORJ\:HOO DFWXDOO\FRQVLVWVRIWZRVHSDUDWHLQVWUXPHQWVFRPELQHG:KHQFDOLEUDWLQJWKH)LHOG 0HWURORJ\:HOOWZRVHSDUDWHFDOLEUDWLRQVZLOOEHFRQGXFWHG)RUFRQYHQLHQFHLQ WHUPLQRORJ\WKHRSWLRQDOSURFHVVYHUVLRQ3PRGHOLVUHIHUUHGWRDVWKH5HDGRXW7KH GU\EORFNFDOLEUDWRULVUHIHUUHGWRDVWKH+HDW6RXUFH7KH5HDGRXWDQG+HDW6RXUFH FRPELQHGPDNHXSWKH)LHOG0HWURORJ\:HOO 7KH$[LDO8QLIRUPLW\LVUHIHUUHGWRDVWKH9HUWLFDO*UDGLHQW Note: The Measuring and Test Equipment (M&TE) is referred to as the Unit Under Test (UUT). 7.3 Fundamentals ,WLVDVVXPHGWKDWWKHWHFKQLFLDQLVIDPLOLDUZLWKWKH)LHOG0HWURORJ\:HOO8VHU¶V *XLGHDQG7HFKQLFDO0DQXDO 7KHWHFKQLFLDQZLOOQHHGWREHIDPLOLDUZLWKWKH8VHU¶V0DQXDODQGRSHUDWLRQRIWKH YROWDJHDQGFXUUHQWVRXUFH ,WLVDVVXPHGWKDWWKHFDOLEUDWLRQZLOORQO\EHSHUIRUPHGE\WUDLQHGSHUVRQQHO 5HDGRXWFDOLEUDWLRQRU+HDW6RXUFHFDOLEUDWLRQPD\EHRSWLRQDOGHSHQGLQJRQ887 FRQ¿JXUDWLRQDQGFXVWRPHUUHTXLUHPHQW (QYLURQPHQWDO&RQGLWLRQV 7HPSHUDWXUHUDQJH&& $PELHQWUHODWLYHKXPLGLW\EHORZ 89 914X Field Metrology Wells Fundamentals &DOLEUDWLRQ(TXLSPHQW Table 9 Test equipment specifications CLASSIFICATION MINIMUM USE SPECIFICATIONS Test Insert (Sleeve) One hole accepts 1/4-inch diameter PRT, one hole accepts 3/16-inch diameter PRT (Hart model numbers 9142-INSG, 9143-INSG, or 9144-INSG) Primary Reference Readout 20 ppm PRT 0.008°C @ 0°C Secondary Reference Readout 20 ppm PRT Sensor length ≤ 5 mm External Reference Four-Wire Resistors See Table 10 Voltage/Current Source Voltage: ± 6 ppm + 0.6 μV Amperage: ± 40 ppm + 80 nA Ice Point 25°C, Stability: ± 0.02°C Readout Accuracy: 0.0025°C Probe 0.02°C @ 25°C Thermocouples 0.025°C @ 25°C Type E characterized wire @ 25°C Table 10 Standard resistor specifications US1 (k=1) 90 US2 (k=1) UT (k=1) UT (k=2) Resistance (Ω) Reference Resistor Uncertainty (ppm) Reference Resistor Uncertainty (Ω) TCR Uncertainty (ppm) TCR Uncertainty (Ω) 0 -- 0.000040 -- -- 0.00004 0.00008 25 1.80 0.000045 0.3 0.0000075 0.000045 0.00009 Total Uncertainty (Ω) 100 2.00 0.00020 0.3 0.00003 0.000205 0.00041 200 2.65 0.00053 0.3 0.00006 0.00055 0.0011 400 2.65 0.00106 0.3 0.00012 0.0011 0.0022 Calibration of your Field Metrology Well Fundamentals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igure 18 Readout calibration flow chart 91 914X Field Metrology Wells Fundamentals 5HDGRXW &DOLEUDWLRQ 5HFRUG&DOLEUDWLRQ 3DUDPHWHUV $FFXUDF\7HVW [)LHOG0HWURORJ\:HOO +HDW6RXUFH&DOLEUDWLRQ 6LPXOWDQHRXVO\WDNH$V)RXQG 'DWDIRU$FFXUDF\6WDELOLW\DQG $[LDO*UDGLHQW7HVWV 6WDELOLW\7HVW $[LDO*UDGLHQW7HVW +\VWHUHVLV &DOFXODWLRQ 8QLIRUPLW\ $OLJQPHQW $FFXUDF\7HVW $FFXUDF\ $OLJQPHQW $FFXUDF\7HVW 6LPXOWDQHRXVO\WDNH$V/HIW 'DWDZLWK$FFXUDF\7HVW6WDELOLW\ 7HVWDQG$[LDO*UDGLHQW7HVW 6WDELOLW\7HVW $[LDO*UDGLHQW7HVW $ERUW WHVW )DLO +\VWHUHVLV &DOFXODWLRQ 3DVV)DLO" Figure 19 Heat source calibration flow chart 92 3DVV (QGRI7HVW Calibration of your Field Metrology Well Procedure 7.4 7.4.1 Procedure Readout Calibration/Tests Notes: 1. Before performing the thermocouple tests, the instrument must be running for at least 30 minutes to allow sufficient time for warm-up. The thermocouple readout and block temperature should be allowed to warm up for 30min before calibrating. Set the heat source to control at the following temperatures: 9142: 25° C 9143: 33° C 9144: 50° C This will ensure that the cold junction reference circuit has stabilized. 2. Thermocouple tests will require the technician to connect/disconnect the voltage source and Type E TC probes. 7.4.2 Readout Specifications 5HIHUWRWKH6SHFL¿FDWLRQV6HFWLRQIRUWKHUHDGRXWVSHFL¿FDWLRQV 7.4.3 UUT Thermocouple Calibration 7DEOHLQGLFDWHVWKHRUGHURIWKHWHVWVWREHSHUIRUPHGIRUWKH887WKHUPRFRXSOH Table 11 Thermocouple Testing Process 7.4.4 # Test Name Nominal(s) mV Notes 1 Thermocouple Accuracy Test –10, 0, 50, 100 As Found/Alignment data 2 Thermocouple Reference Junction Accuracy Test 25°C As Found/Alignment data 3 Thermocouple Reference Junction Alignment - Calculate reference junction offset using Alignment data 4 Thermocouple Accuracy Alignment - Calculate offsets using Alignment data 5 Thermocouple Reference Junction Accuracy Test 25°C As Left data 6 Thermocouple Accuracy Test –10, 0, 50, 100 As Left data Thermocouple Accuracy Test 7KH7KHUPRFRXSOH$FFXUDF\7HVWLVXVHGWRFROOHFW$V)RXQG$OLJQPHQWDQG$V/HIW GDWD 1. 2. 3. 4. Connect the voltage source. Turn on the TC reference in the UUT Set the instrument conversion type for the UUT thermocouple input to mV. Turn the voltage on in the voltage source to -10 mV 93 914X Field Metrology Wells Procedure 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 17. 7.4.5 Let the readout stabilize for a minimum of 20 sec. Take a minimum of 40 samples. Turn the voltage on in the voltage source to 0mv Let the readout stabilize for a minimum of 20 sec. Take a minimum of 40 samples. Turn the voltage on in the voltage source to 50mv Let the readout stabilize for a minimum of 20 sec Take a minimum of 40 samples. Turn the voltage on in the voltage source to 100mv Let the readout stabilize for a minimum of 20 sec Take a minimum of 40 samples. Calculate the average of the measurements taken. Record the data as appropriate for the type of calibration or step in the process. Thermocouple Reference Junction Accuracy Test 7KH7KHUPRFRXSOH&ROG-XQFWLRQ$FFXUDF\7HVWLVXVHGWRFROOHFW$V)RXQG$OLJQ PHQWDQG$V/HIWGDWD Note: The Thermocouple Reference Junction Accuracy Test requires the use of a Type E thermocouple. This thermocouple must be placed in a heat source and controlled at a constant 25°C throughout the duration of the test. $OO7KHUPRFRXSOH5HIHUHQFH-XQFWLRQ$FFXUDF\7HVWVDUHWREHSHUIRUPHGLQ& 1. Connect the Type E thermocouple to the thermocouple UUT connector on the instrument. 2. Set the instrument to take UUT measurements from the thermocouple input. 3. Set the instrument conversion type for the UUT thermocouple input to TC-E. 4. Allow the instrument to soak for 180 seconds. 5. Take temperature measurements from the UUT thermocouple input at a 2 second interval for a minimum of 40 samples. 6. Calculate the average of the measurements taken. Record these results. 7. Calculate the error using the formula indicated below. Record this result. error = average – nominal 8. Compare the error with the spec to determine the status. Record the result. 7.4.6 94 Thermocouple Accuracy Alignment 7KH7KHUPRFRXSOH$FFXUDF\$OLJQPHQWSURFHVVFDOFXODWHVQHZRIIVHWVWREHSUR JUDPPHGLQWRWKHLQVWUXPHQWIRUWKH887WKHUPRFRXSOHLQSXWWRFRUUHFWIRUPHDVXUHG HUURUVDWVSHFL¿FSRLQWVRYHUWKHYROWDJHUDQJHRIWKHLQSXW Calibration of your Field Metrology Well Procedure 1. Locate the results of the Thermocouple Accuracy Tests. 2. Using the calculated errors and the previous (current) offset values, calculate the new offset values for each thermocouple accuracy parameter using the formulas below: TCC0new = TCC0previous – error0mV TCC100new = TCC100previous + (0.5 x error0mv)– (1.0 x error50mV) – (0.5 x error100mV) 3. Enter the new offset values into the instrument. 4. Allow the instrument to soak for 20 seconds after entering the new offset values before taking any measurements. 5. Take As Left data using the steps outlined in the Thermocouple Accuracy Test. 7.4.7 Thermocouple Reference Junction Accuracy Alignment 7KH7KHUPRFRXSOH5HIHUHQFH-XQFWLRQ$FFXUDF\$OLJQPHQWSURFHVVFDOFXODWHVDQHZ RIIVHWWREHSURJUDPPHGLQWRWKHLQVWUXPHQWIRUWKH887WKHUPRFRXSOHUHIHUHQFH MXQFWLRQWRFRUUHFWIRUWKHPHDVXUHGHUURUDW& NOTE: This alignment relies on the results of the thermocouple accuracy test. Therefore, the thermocouple accuracy test MUST be performet before this alignment! 1. Locate the results of the Thermocouple Reference Junction Accuracy Test and the Thermocouple Accuracy Test at 0mV. 2. Using the calculated errors and the previous (current) offset value, calculate the new offset value for the thermocouple reference junction accuracy parameter using the formula below: TCCRJnew = TCCRJprevious – error25°C + (17 x error0mV) 3. Enter the new offset values into the instrument. 4. Allow the instrument to soak for 20 seconds before taking any measurements. 5. Take As Left data using the steps outlined in the Thermocouple Reference Junction Accuracy Test. Table 12 Reference Probe and UUT PRT Input Process # Test Name Nominal(s) Ohms Notes 1 Reference Accuracy Test 0, 25, 100, 200, 400 As Found/Alignment data – Reference input 2 UUT PRT 4-wire Accuracy Test 100 3 UUT PRT 3-wire Accuracy Test 100 4 Reference Accuracy Alignment - 5 Reference Accuracy Test 6 UUT PRT 4-wire Accuracy Test 0, 25, 100, 200, 400 100 As Found data – UUT input As Found data – UUT input Calculate offsets using Alignment data As Left data – Reference input As Left data – UUT input 95 914X Field Metrology Wells Procedure 7.4.8 # Test Name 7 UUT PRT 3-wire Accuracy Test Nominal(s) Ohms 100 Notes As Left data – UUT input Reference Accuracy Test 7KH5HIHUHQFH$FFXUDF\7HVWLVXVHGWRFROOHFW$V)RXQG$OLJQPHQWDQG$V/HIW GDWD$OO5HIHUHQFH$FFXUDF\7HVWVDUHWREHSHUIRUPHGLQ2KPV 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 17. 18. 19. Turn on the PRT reference input in the instrument Set the instrument conversion type for the UUT PRT input to resistance. Connect the short (0 Ohm). Let readout stabilize for 70 seconds. Take resistance measurements from the reference probe input at a 2 second interval. Take a minimum of 40 samples. Connect the 25 Ohm resistor. Let readout stabilize for 70 seconds. Take resistance measurements from the reference probe input at a 2 second interval. Take a minimum of 40 samples. Connect the 100 Ohm resistor. Let readout stabilize for 70 seconds. Take resistance measurements from the reference probe input at a 2 second interval. Take a minimum of 40 samples. Connect the 200 Ohm resistor. Let readout stabilize for 70 seconds. Take resistance measurements from the reference probe input at a 2 second interval. Take a minimum of 40 samples. Connect the 400 Ohm resistor. Let readout stabilize for 70 seconds. Take resistance measurements from the reference probe input at a 2 second interval. Take a minimum of 40 samples. Calculate the average of the measurements taken. Record these results. Calculate the error using the formula indicated below where actual is the calibrated resistance value of the standard resistor. Record this result. error = average – actual 20. Compare the error with the spec to determine the status. Record the result. 7.4.9 UUT PRT 4-wire Test 7KH887357ZLUH7HVWLVXVHGWRFROOHFW$V)RXQGDQG$V/HIWGDWD$OO887357 ZLUH7HVWDUHWREHSHUIRUPHGLQ2KPV 1. Connect the 100 Ohm resistor in the 4-wire UUT configuration. 2. Set the instrument to take UUT measurements from the PRT input. 3. Set the instrument to 4-wire mode for the UUT PRT input. 96 Calibration of your Field Metrology Well Procedure 4. Set the instrument conversion type for the UUT PRT input to resistance. 5. Allow the instrument to soak for 20 seconds. 6. Take resistance measurements from the UUT PRT input at a 2 second interval. Take a minimum of 40 samples. 7. Calculate the average of the measurements taken. Record these results. 8. Calculate the error using the formula indicated below where actual is the calibrated resistance value of the standard resistor. Record this result. error = average – actual 9. Compare the error with the spec to determine the status. Record the result. 7.4.10 UUT PRT 3-wire Test 7KH887357ZLUH7HVWLVXVHGWRFROOHFW$V)RXQGDQG$V/HIWGDWD$OO887357 ZLUH7HVWDUHWREHSHUIRUPHGLQ2KPV 1. 2. 3. 4. 5. 6. Connect the 100 Ohm resistor in the 3-wire UUT configuration. Set the instrument to take UUT measurements from the PRT input. Set the instrument to 3-wire mode for the UUT PRT input. Set the instrument conversion type for the UUT PRT input to resistance. Allow the instrument to soak for 20 seconds. Take resistance measurements from the UUT PRT input at a 2 second interval. Take a minimum of 40 samples. 7. Calculate the average of the measurements taken. Record these results. 8. Calculate the error using the formula indicated below where actual is the calibrated resistance value of the standard resistor. Record this result. error = average – actual 9. Compare the error with the spec to determine the status. Record the result. 7.4.11 Reference Accuracy Alignment 7KH5HIHUHQFH$FFXUDF\$OLJQPHQWSURFHVVFDOFXODWHVQHZRIIVHWVWREHSURJUDPPHG LQWRWKHLQVWUXPHQWIRUWKHUHIHUHQFHSUREHLQSXWWRFRUUHFWIRUPHDVXUHGHUURUVDWVSH FL¿FSRLQWVRYHUWKHUHVLVWDQFHUDQJHRIWKHLQSXW 1. Locate the results of the Reference Accuracy Tests. 2. Using the calculated errors and the previous (current) offset values, calculate the new offset values for each reference accuracy parameter using the formulas below: REF1C0new = REF1C0previous – error0 ohms REF1C100new = REF1C100previous + (0.625 x error0 ohms) – (0.5 x error100 ohms) – (0.125 x error400 ohms) 3. Enter the new offset values into the instrument. 4. Allow the instrument to soak/equilibrate for 70 seconds before taking any 97 914X Field Metrology Wells Procedure measurements. 5. Take As Left data using the Reference Accuracy Test, UUT PRT 4-wire Accuracy Test and UUT 3-wire Accuracy Tests. 7.4.12 UUT 4-20mA Input Calibration 7DEOHRXWOLQHVWKHEDVLFVHTXHQFHRIWHVWVWREHSHUIRUPHGIRUWKH887P$ LQSXWRIWKH±3PRGXOH Table 13 UUT 4-20 mA Calibration Steps 7.4.13 # Test Name Nominal(s) mA Notes 1 4-20 mA Accuracy Test 0, 4, 12, 20, 22 As Found/Alignment data 2 4-20 mA Accuracy Alignment - Calculate offsets using Alignment data 3 4-20 mA Accuracy Test 0, 4, 12, 20, 22 As Left data 4 24 V Source Test 24 volts Functional test 4-20mA Accuracy Test 7KHP$$FFXUDF\7HVWLVXVHGWRFROOHFW$V)RXQG$OLJQPHQWDQG$V/HIWGDWD $OOP$$FFXUDF\7HVWVDUHWREHSHUIRUPHGLQP$ 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 17. 18. 98 Connect the current source to the 4-20mA UUT connector on the instrument. Set the instrument to take UUT measurements from the 4-20mA input. Set the instrument’s UUT mA input LOOP POWER setting to DISABLED. Set the current source to supply 0mA. Let the readout stabilize for 20 seconds. Take mA measurements from the UUT mA input at a 2 second interval. Take a minimum of 40 samples. Set the current source to supply 4mA. Let the read out stabilize for 20 seconds. Take mA measurements from the UUT mA input at a 2 second interval. Take a minimum of 40 samples. Set the current source to supply 12mA. Let the readout stabilize for 20 seconds. Take mA measurements from the UUT mA input at a 2 second interval. Take a minimum of 40 samples. Set the current source to supply 20mA Let the readout stabilize for 20 seconds. Take mA measurements from the UUT mA input at a 2 second interval. Take a minimum of 40 samples. Set the current source to supply 22mA Let the readout stabilize for 20 seconds. Take mA measurements from the UUT mA input at a 2 second interval. Take a minimum of 40 samples. Calibration of your Field Metrology Well Heat Source Calibration/Test 19. Calculate the average of the measurements taken. Record these results. 20. Calculate the error using the formula indicated below. Record this result. error = average – nominal 21. Compare the error with the spec to determine the status. Record the result. 7.4.14 24V Source Test 7KH96RXUFH7HVWLVXVHGWRFROOHFW$V)RXQGDQG$V/HIWGDWD$OO96RXUFH 7HVWVDUHWREHSHUIRUPHGLQP$ 1. 2. 3. 4. 5. 6. 7. 8. 9. 7.4.15 Connect the voltage source to the 4-20mA UUT connector on the instrument. Set the instrument to take UUT measurements from the 4-20mA input. Set the instrument’s UUT mA input LOOP POWER setting to ENABLE 24V. Connect the 1200 ohm resistor to the voltage source. Set the voltage source to supply 24 volts. Allow the instrument to soak for 30 seconds. Take voltage measurements from the UUT 4-20mA input at a 1 second interval. Calculate the average of the measurements taken. Record these results. Compare the average with the spec (see Section 2.1Specifications on page 13) to determine the status. Record the result. 4-20mA Accuracy Alignment 7KHP$$FFXUDF\$OLJQPHQWSURFHVVFDOFXODWHVQHZRIIVHWVWREHSURJUDPPHG LQWRWKHLQVWUXPHQWIRUWKH887P$LQSXWWRFRUUHFWIRUPHDVXUHGHUURUVDWVSH FL¿FSRLQWVRYHUWKHFXUUHQWUDQJHRIWKHLQSXW 1. Locate the results of the 4-20mA Accuracy Tests. 2. Using the calculated errors and the previous (current) offset values, calculate the new offset values for each 4-20mA accuracy parameter using the formulas below: MAC4new = MAC4previous – error4mA MAC22new = MAC22previous + (o.5 x error4mA) – (1.0 x error12mA) – (0.5 x error22mA) 3. Enter the new offset values into the instrument. 4. Allow the instrument to soak for 20 seconds after entering the new offset values before taking any measurements. 5. Take As Left data using the 4-20 mA Accuracy Test and the 24V Source Test. 7.5 Heat Source Calibration/Test 7KHKHDWVRXUFHSRUWLRQRIWKH[VHULHVLQVWUXPHQWVLVWHVWHGDQGFDOLEUDWHGXVLQJ WKHWHVWVRXWOLQHGEHORZLQWKHRUGHULQGLFDWHGIRUHDFKPRGHO'HWDLOVRQSHUIRUPLQJ HDFKRIWKHWHVWVFDQEHIRXQGLQWKHVXEVHTXHQWVHFWLRQV 99 914X Field Metrology Wells Heat Source Calibration/Test 7KHIROORZLQJWDEOHRXWOLQHVWKHEDVLFVHTXHQFHRIWHVWVWREHSHUIRUPHGIRUWKHKHDW VRXUFHSRUWLRQRIWKHLQVWUXPHQW0DQ\WHVWVWKDWXVHWKHVDPHQRPLQDOVHWSRLQWVPD\ EHSHUIRUPHGVHTXHQWLDOO\DVQRWHG Table 14 Heat Source Calibration/Test Sequence # Test Name Nominal(s) °C Notes 9142 9143 9144 1 Accuracy Test –25, 0, 50, 100, 150 33. 100, 200, 275, 350 50, 200, 420, As Found data - Perform twice at each 550, 660 point (up-down or down-up) except at vertex 2 Stability Test –25, 150 33, 200, 350 50, 420, 660 3 Axial Gradient Test –25, 50, 100, 150 33, 100, 200, 350 50, 200, 420, As Found/Alignment data – use data 550, 660 for initial uniformity alignment - can be performed with Accuracy Tests at same nominal set-points 4 Hysteresis Calculation –25, 0, 50, 100, 150 33, 100, 200, 275, 350 50, 200, 420, As Found data – use two As Found 550, 660 Accuracy Test results, except at vertex 5 Uniformity Alignment –25, 50, 100, 150 100, 200, 350 50, 200, 420, Calculate offset using As Found/Alignment 550, 660 data 6 Axial Gradient Test –25, 50, 100, 150 33, 100, 200, 350 50, 200, 420, Make sure Uniformity Alignment 550, 660 is successful – repeat steps 6–7 if necessary (max 3 times) 7 Accuracy Test –25, 0, 50, 100, 150 33, 100, 200, 275, 350 50,200, 420, 550, 660 Alignment data – collect data at each setpoint for Accuracy Alignment calculations (cannot use As Found data) 8 Accuracy Alignment — — — Calculate offsets using Alignment data 9 Accuracy Test –25, 0, 50, 100, 150 33, 100, 200, 275, 350 50, 200, 420, As Left data - Perform twice at each point 550, 660 (up-down or down-up) except at vertex 10 Stability Test -25, 150 33, 200, 350 50, 420, 660 11 Axial Gradient Test –25, 50, 100, 150 33, 100, 200, 350 50, 200, 420, As Left data - can be performed with 550, 660 Accuracy Tests at same nominal setpoints 12 Hysteresis Calculation –25, 0, 50, 100, 150 33, 100, 200, 275, 350 50, 200, 420, As Left data – use two As Left Accuracy 550, 660 Test results, except at vertex Table 15 Axial Gradient Limits Model 9142 Set-point (°C) Soak (min) -25 30 Samples Limit (± °C) 40 0.050 30 40 0.040 50 100 150 9143 33 100 100 0.080 200 0.100 350 0.200 As Found data - can be performed with Accuracy Tests at same nominal setpoints As Left data – can be performed with Accuracy Tests at same nominal setpoints Calibration of your Field Metrology Well Heat Source Calibration/Test Model 9144 7.5.1 Set-point (°C) Soak (min) 50 30 Samples Limit (± °C) 40 0.050 200 0.170 420 0.350 550 0.430 660 0.500 Axial Gradient Test 7KH$[LDO*UDGLHQW7HVWLVXVHGWRFROOHFW$V)RXQG$OLJQPHQWDQG$V/HIWGDWD)RU VRDNWLPHVQXPEHURIPHDVXUHPHQWVVSHFVDQGRWKHUVHWWLQJVUHIHUWR7DEOHRQ SDJH 7KHFDOLEUDWLRQLQVHUW+DUW0RGHO[,16*PXVWEHRULHQWHGDVLQGLFDWHGLQ)LJXUH RQWKLVSDJH7KH$[LDO*UDGLHQW7HVWUHTXLUHVWKHXVHRIRQHUHIHUHQFHVWDQGDUG óLQFK357DQGDVHFRQGDU\357ZLWKDVHQVRUOHQJWKPPRUOHVV7KHUHIHUHQFH VWDQGDUGLVLQVHUWHGWKHIXOOGHSWKRIWKHZHOOLQWKHSRVLWLRQLQGLFDWHGLQ)LJXUH 7KHVHFRQGDU\357LVLQVHUWHGWKHIXOOGHSWKRIWKHZHOOLQWKHSRVLWLRQLQGLFDWHGLQ )LJXUH Figure 20 PRT and insert orientation during heat source calibration. 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. Insert the reference PRT the full-depth of the appropriate well. Insert the 5 mm PRT the full –depth (0 mm) as indicated in Figure 20. Set UUT to lowest set-point according to Table 15. Allow the UUT to stabilize – soak for 30 minutes. Take readings for 2 minutes or a minimum of 40 samples. Record data and average readings. Move 5 mm PRT to 40 mm. Wait for the UUT to stabilize – soak for 30 minutes. Take readings for 2 minutes or a minimum of 40 samples. Record data and average readings. Calculate the gradient. 101 914X Field Metrology Wells Heat Source Calibration/Test dtn = t40mm –t0mm 12. Check that data is within limit stated in Table 15. 13. Set UUT to next set-point and repeat steps 4-12. 7.5.2 Accuracy Test 7KH$FFXUDF\7HVWLVXVHGWRFROOHFW$V)RXQG$OLJQPHQWDQG$V/HIWGDWD)RUVRDN WLPHVQXPEHURIPHDVXUHPHQWVVSHFVDQGRWKHUVHWWLQJVUHIHUWR7DEOHRQSDJH 7KH$FFXUDF\7HVWUHTXLUHVWKHXVHRIRQHUHIHUHQFHVWDQGDUG±SULPDU\UHIHUHQFHVWDQ GDUG±ZKLFKLVLQVHUWHGLQWRDIXOOGHSWKKROHLQWKHFDOLEUDWLRQLQVHUW7KHUHIHUHQFH VWDQGDUGVKRXOGEHRULHQWHGZLWKWKHFDOLEUDWLRQLQVHUWDVLQGLFDWHG Note: For cold UUTs, perform the Accuracy Tests start with the coldest nominal set-point first, performing the test at each subsequent nominal set-points up to the hottest, then repeat in reverse. For hot UUTs, start with the hottest nominal set-point first, down to the coldest nominal set-point, then repeat in reverse. 1. Set the heat source to the nominal temperature set-point and engage temperature control. 2. Monitor the instrument’s stability indicator until it reports the heat source is stable. 3. Allow the instrument to soak at the set-point. 4. Take measurements from the primary reference standard at a 20 second interval. 5. Calculate the average of the measurements taken. Record the results. 6. Calculate the error using the formula indicated below. Record this result. error = average – nominal 7. Compare the error with the spec in Table 16on page 103 to determine the status. Record the result. 7.5.3 Stability Test 7KH6WDELOLW\7HVWLVXVHGWRFROOHFW$V)RXQGDQG$V/HIWGDWD)RUVRDNWLPHVQXP EHURIPHDVXUHPHQWVVSHFVDQGRWKHUVHWWLQJVUHIHUWR7DEOHRQSDJH 7KH6WDELOLW\7HVWUHTXLUHVWKHXVHRIRQHUHIHUHQFHVWDQGDUG±SULPDU\UHIHUHQFHVWDQ GDUG±ZKLFKLVLQVHUWHGLQWRDIXOOGHSWKKROHLQWKHFDOLEUDWLRQLQVHUW7KHUHIHUHQFH VWDQGDUGVKRXOGEHRULHQWHGZLWKWKHFDOLEUDWLRQLQVHUWDVLQGLFDWHGLQ)LJXUHRQ SUHYLRXVSDJH Note: Stability Tests may be performed simultaneously with an Accuracy Test that uses the same nominal set-point. In this case, the steps to set the set-point, wait for stability, and soak may be skipped so long as the soak time requirement has already been met. 102 Calibration of your Field Metrology Well Heat Source Calibration/Test 1. Set the heat source to the nominal temperature set-point and engage temperature control. 2. Monitor the instrument’s stability indicator until it reports the heat source is stable. 3. Allow the instrument to soak at the set-point. 4. Take measurements from the primary reference standard at a 20 second interval for the duration of the test. 5. Calculate the 2σ (2x standard deviation) of the measurements taken. Record these results. 6. Compare the 2σ result with the 2σ specification in Table 16 to determine the pass/fail result. Record the result. 7.5.4 Hysteresis Calculation 7KH+\VWHUHVLV&DOFXODWLRQFDOFXODWHVWKHK\VWHUHVLVEHWZHHQWZR$FFXUDF\7HVWV SHUIRUPHGDWWKHVDPHQRPLQDOWHPSHUDWXUHVHWSRLQWWR¿QGWKHQRPLQDOVHWSRLQW WHPSHUDWXUHZLWKWKHODUJHVWGLIIHUHQFH Note: There are two Accuracy Tests for each nominal temperature set-point for As Found and As Left data sets with the exception of the vertex (hottest set-point when scanning up then down, coldest set-point when scanning down then up). 1. Locate the results of the two Accuracy Tests at each nominal set-point temperature in the same data set (As Found or As Left). Ensure that the data is from the same data set (As Found or As Left) and NOT mixed, one As Found and one As Left. 2. Calculate the magnitude of the difference between the two results for each nominal set-point temperature using the formula below. Record these results. differencen = |average test 1n – average test 2n| 3. Locate the data for the nominal set-point temperature with the largest difference. 4. Compare the difference with the published hysteresis specification (see Section 2.1Specifications on page 13) to determine the status. Record these results. Table 16 Heat Source As Found Data/As Left Data Specifications Model 9142 (Descending Order) Set-Point Soak Time # Samples Accuracy Spec (± °C) Stability 2σ Limit (°C) –25 30 min 40 0.200 0.010 0 50 100 150 103 914X Field Metrology Wells Heat Source Calibration/Test Model 9143 (Ascending Order) 9144 (Ascending Order) 7.5.5 Set-Point Soak Time # Samples Accuracy Spec (± °C) 33 30 min 40 0.200 Stability 2σ Limit (°C) 0.020 100 0.020 200 0.020 275 0.025 350 0.030 0.350 0.030 200 100 30 min 40 0.350 0.030 350 0.350 0.040 550 0.420 0.050 660 0.500 0.050 Uniformity Alignment 7KH8QLIRUPLW\$OLJQPHQWSURFHVVFDOFXODWHVDQHZVHWWLQJIRUWKHXQLIRUPLW\SD UDPHWHUWREHSURJUDPPHGLQWRWKHLQVWUXPHQWWRFRUUHFWIRUWHPSHUDWXUHGLIIHUHQFHV EHWZHHQWKHWRSDQGERWWRP]RQHVRIWKHKHDWVRXUFHEORFN Note: The Uniformity Alignment process must be completed before any data may be collected using Accuracy Tests to perform the Accuracy Alignment process. 1. Locate the results of the Uniformity Tests. 2. Calculate the new value for the uniformity parameter using the previous (current) parameter value and the results of the Uniformity Tests using the formula below specific to each model: ±*5$'*5$'DQG*5$'2QO\ GRAD 1new = GRAD 1old + dG1 GRAD 2new = GRAD 2old + dG2 GRAD 3new = GRAD 3old + dG3 ZKHUH dG1 = 1.55 x dt(–25) dG2 = –0.385 x dt(50) – 1.10 x dt(100) dG3 = –0.360 x dt (150) ±*5$'*5$'DQG*5$'2QO\ GRAD 1new = GRAD 1old + dG1 GRAD 2new = GRAD 2old + dG2 104 Calibration of your Field Metrology Well Heat Source Calibration/Test GRAD 3new = GRAD 3old + dG3 ZKHUH dG1 = –4.2 x dt(100) dG2 = –1.75 x dt(200) dG3 = –0.75 x dt(350) ±*5$'*5$'*5$'*5$'DQG*5$' GRAD 1new = GRAD 1old + dG1 GRAD 2new = GRAD 2old + dG2 GRAD 3new = GRAD 3old + dG3 GRAD 4new = GRAD 4old + dG4 GRAD 5new = GRAD 5old + dG5 ZKHUH dG1 = –1.900 x dt(50) dG2 = –0.360 x dt(200) dG3 = –0.215 x dt (420) dG4 = –0.165 x dt(550) dG5 = –0.130 x dt(660) 1. Enter the new parameter value into the instrument. 2. Allow the instrument to soak/equilibrate after entering the new parameter value before taking any measurements. 7.5.6 Accuracy Alignment 7KH$FFXUDF\$OLJQPHQWSURFHVVFDOFXODWHVQHZRIIVHWVWREHSURJUDPPHGLQWRWKH LQVWUXPHQWWRFRUUHFWIRUWHPSHUDWXUHHUURUVRYHUWKHHQWLUHUDQJHRIWKHKHDWVRXUFH Note: The Accuracy Alignment process must be performed using data that was collected from Accuracy Tests after the Uniformity Alignment process has been completed successfully. 1. Locate the results of the Accuracy Tests that were performed after the 105 914X Field Metrology Wells Heat Source Calibration/Test Uniformity Alignment process was completed. Data at all set-points is used. 2. Calculate the temperature bias offset at each set-point and update the parameters (refer to Table 17). Table 17 Accuracy alignment parameters Model 9142 Nominal Align Set-point (°C) Display -25 SOUR:SENS:CAL:PAR1 TEMP 1 50 SOUR:SENS:CAL:PAR2 TEMP 2 150 SOUR:SENS:CAL:PAR3 TEMP 3 35 SOUR:SENS:CAL:PAR1 TEMP 1 200 SOUR:SENS:CAL:PAR2 TEMP 2 350 SOUR:SENS:CAL:PAR3 TEMP 3 9143 9144 Parameter Serial Command 100 SOUR:SENS:CAL:PAR1 TEMP 1 425 SOUR:SENS:CAL:PAR2 TEMP 2 660 SOUR:SENS:CAL:PAR3 TEMP 3 Note: To calculate the bias offset, simply subtract the reference temperature from the set-point and enter the difference, i.e. set-point = 30°C, actual temperature = 30.6°C. TREF-TSPT = Offset 7KXV&±& &RIIVHW 3. After updating the calibration parameters with the new offset values, take As Left data using the steps 9 through 12 of Table 14on page 100. Note: The calibration parameters are accessed from the front panel by selecting MENU|SYSTEM MENU|CALIB. Enter the correct password to access the parameters. The parameters may also be accessed through the RS232 interface. 106 Troubleshooting 8 Troubleshooting 7KLVVHFWLRQFRQWDLQVLQIRUPDWLRQRQWURXEOHVKRRWLQJ ,QWKHHYHQWWKDWWKH)LHOG0HWURORJ\:HOODSSHDUVWRIXQFWLRQDEQRUPDOO\WKLVVHF WLRQPD\KHOSWR¿QGDQGVROYHWKHSUREOHP6HYHUDOSRVVLEOHSUREOHPFRQGLWLRQVDUH GHVFULEHGDORQJZLWKOLNHO\FDXVHVDQGVROXWLRQV,IDSUREOHPDULVHVSOHDVHUHDGWKLV VHFWLRQFDUHIXOO\DQGDWWHPSWWRXQGHUVWDQGDQGVROYHWKHSUREOHP,IWKH)LHOG0HWURO RJ\:HOOVHHPVIDXOW\RUWKHSUREOHPFDQQRWRWKHUZLVHEHVROYHGFRQWDFWDQ$XWKR UL]HG6HUYLFH&HQWHUIRUDVVLVWDQFH%HVXUHWRKDYHWKHLQVWUXPHQWPRGHOQXPEHU VHULDOQXPEHUDQGYROWDJHDYDLODEOH Table 18 Troubleshooting, problems, causes and solutions Problem Causes and Solutions The instrument does not power up Check the fuses. If a fuse blows, it may be due to a power surge or a component failure. Replace the fuse once. DO NOT replace the fuse with one of a higher current rating. Always replace the fuse with one of the same rating, voltage, and type. If the fuse blows a second time, it is likely caused by failure of a component part. Check if the circuit breaker has tripped. Press the button to reset the circuit breaker. If the circuit breaker continues to trip repeatedly, there is likely a failure of a component part. Contact an Authorized Service Center. Power Cord. Check that the power cord is plugged in and connected to the instrument. AC Mains Power. Insure the circuit supplying power to the instrument is on. The display is blank The instrument powers up: 9142 – fan turns on, 9143 and 9144 – the power relay clicks, but the display remains blank Contrast. Check the screen contrast. Toggle the down arrow key to see if the screen contrast lightens. The instrument heats slowly Scan Rate. Check the Scan Rate settings. The Scan Rate may be set with too low a rate per minute for the current application. If the display shows an abnormal temperature The sensor is disconnected, open or shorted. Please contact a Service Center for further instructions. If the display shows cutout Cutout. If the Metrology Well exceeds the temperature set in the soft cutout menu, or if it exceeds the maximum operating temperature of the instrument, a cutout condition occurs. If this happens, the unit enters cutout mode and will not actively heat or cool until the user issues the command to clear the cutout or resets the instrument using the SET PT. key to clear the cutout mode and activate the instrument. Reset. The software cutout may need to be adjusted for the application. Check and adjust the cutout setting by entering CUTOUT menu: MENU|TEMPSETUP|CUTOUT. If the contrast is not the issue, contact an Authorized Customer Service Center. 107 914X Field Metrology Wells Problem Causes and Solutions Temperature readout is not the actual temperature of the well OR Incorrect temperature reading Operating Parameters. Insure that all operating parameters for the Metrology Well, reference thermometer, and/or probe parameters match the Report of Certification that was sent with the instrument and/or probe. Electrical Interference. Look for sources of electrical interference, such as motors, welders, generating equipment nearby, or ground loops. Try shielding wires, removing ground loops, or changing location. (9142) Probes stuck in the well at low temperatures Moisture. If the Metrology Well has been used at low temperatures for extended periods of time, moisture may have built up in the well forming ice at low temperatures. Set the temperature high enough to melt ice to remove probes. Set the set-point to +100°C and allow the moisture to evaporate out of the system. (9142) Insert stuck in well If maintenance has not been performed on the insert as described in the Maintenance Section and the insert cleaned periodically, hard water build-up on the insert may cause it to stick. Have the unit in a cold environment – less 21°C. Set the unit to 100°C. While the unit is heating, at approximately 50°C to 70°C, pull on the insert. If this does not remove the insert, contact an Authorized Service Center. -P Model Only The Ref Probe shows an Check the Probe type setting in the Reference Probe Setup menu abnormal temperature or “……” is correct. Check all associated parameters. Check that the 4 probe wires are connected and not shorted inside of the connector. RTD shows an abnormal temperature or “…..” Check the RTD type setting in the RTD Setup menu is correct. Check all associated parameters for the current RTD type. Check that the number of wires setting is correct for the number wires actually used. If using a 2-wire RTD, make sure that the unused RTD inputs are shorted to the used RTD inputs as shown in the manual. Using a 3-wire setting on a 4-wire probe can cause errors of 0.01 to 0.1 ohms. Check that the probe wires are not shorted or open. Thermocouple shows an abnormal temperature or “…..” Check the TC type setting in the TC Setup menu is correct for the TC used. Make sure the TC wires are not loose in the connector or shorted. mA reading does not read Check to see if the device being tested needs loop power, if so enable Loop Power in the mA Setup menu. Make sure the mA fuse is good. It is located on the front panel just under the RTD inputs. The Ref, RTD, TC, or mA Reading is abnormal or noisy Wrong Calibration Parameters. The problem may be that the wrong calibration parameters are loaded into the 914x. Check the parameters in the instrument against the parameters listed on the Report of Calibration for both the REF and UUT. Electrical Interference. Strong radio frequency radiation from sources such as radio transmitters, welders, and large electric motors may change the reading. Try moving the instrument to another location away from the source of interference. 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