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WW .100Y.C M.TW WW .100Y.C M.TW WW 00Y.CO .TW WW 00Y.CO .TW W W W T .1 W.1 Y.COM W M. OM W O W C . W C W Y W .T W Y. W .100 M.T .100 OM W M.T .100 O W C . O W W C W Y W WW .100Y. .TW WW .100Y.C M.TW M.T .100 M O W O W C . O W WW .100Y .TW WW .100Y.C M.TW WW .100Y.C M.TW M O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O WW 00Y.CO .TW W WW 00Y.CO .TW C . W W W Y W W M .1 .T 00 W.1 Y.COM W WW 00Y.CO .TW W.1 Y.COM W W W W W .T 00 W M .1 .T 00 W.1 Y.COM W WW 00Y.CO .TW W.1 Y.COM W W W W W .T W .100 W.1 Y.COM W M.T .100 OM W O W W C . W C W Y W .T W W WW .100Y. .100 M.T .100 OM W M.T O W C . O W W C W Y W WW .100Y. .TW WW .100Y.C M.TW M.T .100 M O W O W C O W WW .100Y. .TW WW .100Y.C M.TW WW .100Y.C M.TW M O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O WW 00Y.CO .TW W WW 00Y.CO .TW C . W W W Y W W M .1 .T 00 W.1 Y.COM W WW 00Y.CO .TW W.1 Y.COM W W W W W .T 00 W W.1 Y.COM W M.T .100 W.1 Y.COM W O W W W C . W .T W .T WW .100Y .100 .TW 100 M . OM W M O W C . O W W C . Y W W .TW W .TW 100 00Y WW .100Y.C M.TW M . 1 M . O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O WW 00Y.CO .TW W WW 00Y.CO .TW C . W W W Y W W M .1 .T 00 W.1 Y.COM W WW 00Y.CO .T W.1 Y.COM W W W W W .T 00 W W.1 Y.COM M.T .100 W.1 Y.COM W O W W W C . W . W 00 W WW .100Y M.T .100 W.1 Y.COM M.T O W O W W C . W W WW .100Y WW .100Y.C M.TW .100 M.T OM W O W C . O W W C . Y W C W . 0 Y W W 0 W WW .100Y M.T .100 W.1 Y.CO M.T O W O W W C . W W Y W W WW .100Y.C M.TW .100 M.T .100 O W O W O W W C Y.C W 0 W 0 WW .100Y. T . 1 WW .100Y.C M.TW . M O WW 00Y.C W WW 00Y.CO .TW C . W W W Y W W .1 .T 00 W.1 Y.COM W WW 00Y. W.1 Y.COM W W W W W .T W .100 W.1 Y M.T .100 OM W O W W C . W C W PROPOSED Y W W 00 WAPPROVED 0Y. WW .10BY M.T .100 W.1 M.T O W O W W C . .C W Design WW .100Y .TW WW Approved .100 .TW 00Y M 1 W M . O W O W W W WW .100Y.C M.TW WW .100Y.C M.TW .1 O W O WW W C . W C W . Y W W W W .T 00 W . .T 00Y W.1 Y.COM W WW W.1 Y.COM W W W W W .T W .100 W M.T .100 OM W O W C . W C W Y WW W 0 W T . 0 WW .100Y. T . 1 OM W. OM W WW .100Y.C M.TW WW .100Y.C M.TW O W O W WW .100Y.C WW .100Y.C M.TW W O W WW WW .100Y.C M.TW O W WW .100Y.C M.TW O W WW .100Y.C W WW SDEC DOT MATRIX LIQUID CRYSTAL DISPLAY MODULE USER‘ MANUAL MODEL: LMG-SS24D12DLNW-E SDEC TECHNOLOGY CORP. WW .100Y.C M.TW WW .100Y.C M.TW WW 00Y.CO .TW WW 00Y.CO .TW W W W T .1 W.1 Y.COM W M. OM W O W C . W C W Y W .T W Y. W .100 M.T .100 CONTENTS OM W M.T .100 O W C . O W W C W Y W WW .100Y. .TW WW .100Y.C M.TW M.T .100 M O W O W C . O W WW .100Y .TW PAGE WW .100Y.C M.TW WW .100Y.C M.TW M O W O W O 1.W GENERAL AND MECHANICAL 2 WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O W O W O WW .100Y.C M.TW WWABSOLUTE W 0Y.C M.TW Y.C WWRATINGS 0 0 W2. T MAXIMUN 2 . 1 0 . O W WW 00Y.CO .TW W.1 Y.COM W C . W W Y W W W .T 00 0 W 2.1.10Electrical T maximum .absolute W.1 Y.COM W 2 OM W.1ratings OM W W C . W C W . Y W W Wmaximum .T W 2.2 .1Environmental M.T .100 2 .TW absolute 100 ratings 00Y M . O W M O W C . O W W W .C Y W C W . 0 Y W T W . W 0 0 Y W T . 0 W M .1 .T 00 W.1 Y.COM W WW 00Y.CO .TW W.1 Y.COM W W W W W .T .T 3. WELECTRICAL 3 .100 W.1 Y.COM W MCHARACTERISTICS .100 OM W O W W C . W C W . 0 Y W T W . W 0 0 Y W T . 0 W M .1 .T 00 W.1 Y.COM W WW 00Y.CO .TW W.1 Y.COM W W W W W .T W 4. ELECTRO-OPTICAL .100 W.1 Y.COM 3 W M.T CHARACTERISTICS .100 OM W O W W C . W C W Y W .T W 00 W WW .100Y. M.T .100 W.1 Y.COM W M.T O W O W W C . W Y W Y.C WW SUPPLY WW DIAGRAM TW POWER M4.T .100 5. BLOCK M.T .100 O W M.AND .100 O W C . O W W W Y W WW .100Y.C M.TW WW .100Y.C M.TW M.T .100 O W O W C W .CO .TW WW .100Y. .TW WW .100Y.C M.TW WW CHARACTERISTICS M 00Y 6. TIMING 4 O 1 W M . O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O W WW 00Y.CO .TW WW .100Y.C M.TW WW 00Y.CO .TW W W 1 7. DIMENSION 5O 1 W OM W. OM AND PIN CONNECTIONS W.OUTLINE WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O WW 00Y.CO .TW W WW 00Y.CO .TW C . W W W Y W 00 8. POWER W SUPPLY W.1 5Y.COM M.T W.1 Y.COM W OBACKLIGHT W W.1 FOR W C . W W W .T W M.T .100 .TW 100 00Y M . O 1 W M . O W C . O W C WW .100Y . WW .100Y.C M.TW WW .100Y.INTEUCTIONS .TW 9. DISPLAY CONTROL W 5 Y.COM M O W O W W C . W W W Y.C WW .100Y 100 WWof command .5 M.T OM 9.1 Description W M.T .100 O W C . O W W C . Y W C W . 0 Y W W 0 W WW .100Y M.T .100 W8.1 Y.CO 9.2 Display variables M.T O W O W W C . W W Y W W Y.C W WWregister .100 M.T .100 O W 9.3 Initialize LCM list 9 M.T .100 set O O W W W C Y.C W 0 W 0 WW .100Y. T . 1 WW .100Y.C M.TW . M O WW 00Y.C W WW 00Y.CO .TW C . W W W Y W W MPU.100 .T 10. INTERFACE FOR 9 W.1 Y. W.1 Y.COM W OM W W W C . W W W .T .100 .TW 100 00Y M . 1 W M . 10.1 Interface to W 80 family 9 O W W .CO .TW WW .100Y WW .100Y.C M.TW WW 00Y 1 M . 10.2 Interface to 68 family 9 W O W O W WW .100 WW .100Y.C M.TW WW .100Y.C M.TW 11. RELIABILITY CONDITION 1W 0 WW O W WW 00Y.CO .TW C . W W Y W W .1 .T 00 W.1 Y.COM W WW W.1 Y.COM W W W W W .T 00 .T 00 12. FUNCTIONAL TEST &WINSPECTION CRITERIA 0 WWW. W.1 Y.COM W1 W.1 Y.COM W W W W .T W .100 W M.T .100 OM W O W C . W C W Y WW W 0 W T . 0 WW .100Y. T . 1 OM W. 13. CG ROM PATTERN 12 OM W WW .100Y.C M.TW WW .100Y.C M.TW O W O W WW .100Y.C WW .100Y.C M.TW W O W WW WW .100Y.C M.TW O W WW .100Y.C M.TW O W WW .100Y.C W WW -1- 1. GENERAL AND CHARACTERISTICS WW .100Y.C M.TW WW .100Y.C M.TW WW 00Y.CO .TW WW 00Y.CO .TW W W W T .1 W.1 Y.COM W M. OM W O W C . W C W Y W .T W Y. W .100 M.T .100 OM W M.T .100 O W C . O W W C LMG-SS24D12DLNW-E Model W Y W WW .100Y. .TW WW .100Y.C M.TW M.T .100 M O W O W C . O W Matrix Format 240W×W128 dots Dot Y .TW WW .100Y.C M.TW 100 WW .100Y.C M.TW M . O W O W .C W .CO .TW WW 00YIC .TW 00Y WW .100Y.C M.TW LC7981Wor equivalent 1 WController M . O 1 W M . O 144.0W × 104.0HW× 13.0DY.Cmm W W CO Dimensional W WW 00Y.Outline W WW .100Y.C M .TW W T M.T .100 . O 1 W M . O W C W W Y. ×W 61.0H mm W .CO .TW Viewing .TW WW .100Y.C M.T114.0W 100 WW Area M . 00Y O 1 W M . O W .C W W CO × 56.28H WW .mm Active W 00Y Y.Area WW .100Y.C M105.56W TW . 1 0 WW Viewing T M.T . 0 O 1 W M . O W C WW mm.100Y. WW 00Y.CO .TW .TW WW .100Y.C M.0.44W TW × 0.44H DotW Pitch M O 1 W M . O W O W WWmm .100Y.C M.TW WW .100Y.C M0.40W .TW × 0.40H Dot Size WW .100Y.C M.TW O WW 00Y.CO .TW W WW 00Y.CO .TW C . W W W Y W W Direction 6 O‘CLOCK Viewing M .1 .T 00 W.1 Y.COM W WW 00Y.CO .TW W.1 Y.COM W W W W W W LCD Mode M.T, extended temperature .100STN ,OBlue W.1 Y.COM W M.T .100 W O W W C . W C . USE W INVERTER W BACKLIGHT .T 00 W LED.100Y WWTYPE .TW 00Y M.T240 W.1 Y.COMHz W O W DC +3.5V V mA BACKLIGHTW INPUT W W.1 Y.COM W C . W W WW .100Y W M.T .100 M.T O W M.T .100 O W C . O W W W Y .C W WW .100Y.C M.TW 2. ABSOLUTE WW .1MAXIMUM M.T .100 .TWRATINGS: 00Y O W M O W C O 2.1 Electrical WW .100Y. WW 0maximum .TW WW .100Y.C M.TW 0Y.C Mrating Wabsolute M .TW O 1 W . O W O W W ITEM SYMBOL MAX Y.C WW .100UNIT WW .100Y.C MIN .TW WW .100Y.C M.TW M.T M O W O W C Logic Circuit Supply Voltage V V 0 7.0 V O W DD W SS .C WW .100Y. .TW Y.C W 00Y 0 M.TW WWSupply M .TW 1 00Voltage . O 1 W LCD Driver Circuit V V 15.0 V M . DD O W WEE 0Y.C M.TW WW .10V WW 00Y.CO .TW 0Y.CVSS M.TW W 0 Input Voltage W V V 1 . I DD 1 W OM WW 00Y.CO .TW W. CO . W C W . Y W W W 0 Y W T Operating Temperature TOP +70 . 0 -10 W .T W.1℃ Y.COM .100 W.1 Y.COM W OM W W W C . W W Storage Temperature TSTW +80 ℃ W M.T .100 .TW 100 -20 OM.T 00Y . O 1 W M . W C . O W .C WW .100Y . WW .100Y.C M.TW WW maximum .TW 00Y 2.2 Environmental absolute ratings OM 1 W M . O W C . O W W C . Y W W .C Y W W WSTORAGE WW .1OPERATING .100 ITEM 00Y M.T COMMENT .100 OM W M.T O W C . O W W C . Y W C W . 0 Y W W 0 0 Y W MAX MIN WW MIN M.T .10MAX W.1 Y.CO M.T .100 O W O W W C . W W Y Ambient Temperature WW 0/-20 0Y.C 50/70 -10/-30 60/80 Norm/Extended Note (1).100 W W .TW 0 M.T .100 1 M . O W O WW 00Y.CO W C Humidity Note (2) Note W (2) 00Y. Without Wcondensation W W T . WW .100Y.C M.2TW 2 .1 W.1 Y.C OM directions W Vibration --W 4.9m/s -19.6m/s XYZ O W C . W C . Y W W 2 W .TW WW-- .100Y29.4m/s .100 Mdirections .100 2 XYZ Shock -490.0m/s W M.T O W . O W W C W 00Y WW .100Y. .TW 1 WW .100Y.C M.TW . M W O W O W HR MAX Note (1) Ta at 60℃ : W50 WW .100Y W Y.C WW .100Y.C M.TW 0 W T . 0 W O W Note (2) Ta ≦40℃ : 90%.1RH MAX M WW .100 WW 00Y.CO .TW WW .100Y.C M.TW W Ta >40℃ : Absolute the humidity of 90% at 40℃. OM must be lower than WW W.1 humidity WW 00Y.CO .TW C . W W W Y W W .1 .T 00 M .1 Obe W OM WW W.1measuring C (Note 1) Definition of response timeW and condition. Response time should measured at . W C W . Y W W W .T 00 W response .T 00Y W. the point of the most smallest segments under theW following OM W.1 Ycondition. OM W W.1 Yin.Call C . W W W W a) Temperature W W 25℃ M.T .100 W M.T .100 O W O W C . W C W 64 YHz WW W b) Frame 0 W frequency T . 0 WW .100Y. T . 1 OM W. c) ViewingW angle OM W Y.Cθ=0°, .φ=0° 0 W TW 0 WW .100Y.C M.TW 1 M . O W W .CO .TW WW .100Y.C +Vop 1/fFWW 00Y 1 M . W O W WW WW .100Y.C M.TW O W WW .100Y.C M.TW 0 O W WW .100Y.C W WW - 2-Vop WW .100Y.C M.TW WW .100Y.C M.TW WW 00Y.CO .TW WW 00Y.CO .TW W W W T .1 W.1 Y.COM W M. OM W O W C . W C W Y W .T W Y. W .100 M.T .100 OM W M.T .100 O W C . O W W C W Y Y. W WW 90% .TW WW .100Y.C M.TW M.T .100 100 M . O W O W C . O W WW .100Y .TW WW .100Y.C M.TW WW .100Y.C M.TW M O W O W O W W Y.C W10% .TW WW .100Y.C M.TW 100 WW .100Y.C M.TW M . O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW tf WW .100Y.C M.TWtr O WW 00Y.CO .TW W WW 00Y.CO .TW C . W W W Y W W 2) Definition .T (Note ofMviewing angle .1 W.1 Y.COM W .100 OM W O W W C . W C W Y W ction .T W W direction 0Y. WW .10Front-Rear .100 M.T Right-Left direW .100 OM W M.T O W C . O W C W Y W WW .100Y. .TW φ2 0°φ1 WW .100Y.C M.T .100 θ2 M.TW M O W O W C O W WW .100Y. .TW WW .100Y.C M.TW WW .100Y.C M.TW M O W O W O W WW .100Y.C M.TW W WW .100Y.C M.TW WW .100Y.C θ1 T . OM WW 00Y.CO .TW W WW 00Y.CO .TW C . W W W Y W W M .1 .T 00 W.1 Y.COM W WW 00Y.CO .TW W.1 Y.COM W W W W W .T 00 W W.1 Y.COM W M.T .100 W.1 Y.COM W O W W W C . W .T W .T WW .100Y .100 .TW 100 M . OM W M O W C . O W W C . Y W W Right Rear .TW W 100 00YLeft M.TW WW .100Y.C MFront M . .TW 1 . O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW 0Y.C M.TW WW .10CHARACTERISTICS 3. ELECTRICAL W O W .CO .TW O W WW 00Y WW .100Y.C M.TW VSS = 0V, Ta = .25℃ 1 WW .100Y.C M.TW M W O W .CO .TW O W W C . Y W C W . 0 Y W W W 0 Y W ITEM SYMBOL CONDITION MIN MAX .1UNIT W M M.T TYP .100 W M.T .100 O W .CO .TW O W W C . Y W C Logic Circuit Power Supply V V -4.75 5.0 5.25 V W . 0 Y W W DD SS W 0 0 Y W T . W M .1 .T 00 .10 OM 12.5 WW V00Y.CO .T W.1 Y.CO C LCD Driver Power Supply VM --WW 11.75 13.25 . DD - VW EE W Y W W W .T 1 00 W .T M .100 ODDM -Input Voltage VIH VDD WW. V Y.COM VDD = 5V W±.1 0.7*V O W C . W C W . W . 0Y W .T WW .100Y .100 .TW OM VM 0.25 W.10 0.COM -0.3*VDDWWV IL C . O W Y W W Y W W Y.C IDD .TW VDD =W5V .100 Power Supply CurrentW 15.0 mA .100 -- OM.T-OM W M .100 W C . O W W C . Y W C W . 0 Y W 0 W .T 2.0 mA WW .100Y IEE M.TW VEE = -10V M-.100-W.1 Y.CO O W O W W C . W W Y W W Y.C W WW .CHARACTERISTICS .100 M.T .100 O 100 W M.T 4. ELECTRO-OPTICAL O W O W W C Y.C W 0 W 0 WW .100Y. T . 1 WW .100Y.C M.TW . M O WW 00Y.C W .CO ITEM SYMBOL CONDITION MIN MAX.TWUNIT REF. WWTYP C . Y W W W 0 Y W W .1 00 .10 M.T O--M W396 Rise Time Tr -mS Note 1W . W W.1 Y.CO25℃ C . W W Y W W W 00Y 0 W T . 1 0 0 W T . . 1 0 M . 1 M O Fall Time Tf . -109 -mS Note 1WW 25℃ W Y W WW 00Y.CO .TW WW .100Y.C M.TW 100 W . W M Contrast Cr W.1 -12.3 --Note 3 25℃ O W O W W W Y.C WW-- .100Y.C TW NoteW . 0 Wθ T .100 . 0 M Viewing Angle 50 -DEG 2 25℃ & 1 W M . O W O W .C Y.C WW WW .TW Note 2W W.1 40 W.100 -- OMDEG φ1,Wφ2 .100Y Cr≧3OM.TW -W W .C W Y.C W64 .TW -- W W. 00--Y Frame Frequency FfWW .10025℃ Hz .TW -1 M . M O W O W WW WW .100Y.C M.TW WW .100Y.C M.TW W Note 1&2: See previous page. WW 00Y.CO .TW WW WW 00Y.CO .TW W W 1 M Note 3 : Contrast ration is defined theOfollowing condition. W. 1 M W.under .CO .TW W .C Y W 0 Y W 0 0 WW .1condition Cr = reflectance value of non-selected ÷ reflectance value of selected condition. T 0 M. OM W.1 WW 00Y.CO .TW WW .100Y.C (a) Temperature................... W 25℃ M .1 W (b) Frame frequency............ 64 WW 00Y.CO .TW WW WHz 1 . OM W (c) Viewing angle................ θ=0°, φ=0° WW .100Y.C M.TW (d) Operating voltage........... 12.5V W O WW .100Y.C W WW - 3- 5. BLOCK DIAGRAM AND POWER SUPPLY WW .100Y.C M.TW WW .100Y.C M.TW WW 00Y.CO .TW WW 00Y.CO .TW W W W T .1 W.1 Y.COM W M. OM W O W C . W C W Y W .T W Y. W .100 M.T .100 OM W M.T .100 O W C . O W W C W Y W WW .100Y. .TW WW .100Y.C M.TW M.T .100 M O W O W C . O W WW .100Y .TW WW .100Y.C M.TW WW .100Y.C M.TW M O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O WW 00Y.CO .TW W WW 00Y.CO .TW C . W W W Y W W M .1 .T 00 W.1 Y.COM W WW 00Y.CO .TW W.1 Y.COM W W W W W .T 00 W M .1 .T 00 W.1 Y.COM W WW 00Y.CO .TW W.1 Y.COM W W W W W .T W .100 W.1 Y.COM W M.T .100 OM W O W W C . W C W Y W .T W W WW .100Y. .100 M.T .100 OM W M.T O W C . O W W C W Y W WW .100Y. .TW WW .100Y.C M.TW M.T .100 M O W O W C O W WW .100Y. .TW WW .100Y.C M.TW WW .100Y.C M.TW M O LCM W O W .C O W W WW SS24D12 00Y WW .100Y.C M.TW 1 WW .100Y.C M.TW M.T . O W O W C . O W W WW .100Y WW .100Y.C M.TW WW .100Y.C M.TW M.T O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O WW 00Y.CO .TW W WW 00Y.CO .TW C . W W W Y W W M .1 .T 00 W.1 Y.COM W WW 00Y.CO .TW W.1 Y.COM W W W W 0 W .T 0 W M .1 .T 00 W.1 Y.COM W 6. TIMING W CHARACTERISTICS WW 00Y.CO .TW W.1 Y.COM W W W W .T W .100 W.1 Y.COM W M.T .100 OM W O W W C . W C W Y W .T W W WW .100Y. .100 M.T .100 OM W M.T O W C . O W W C W Y W WW .100Y. .TW WW .100Y.C M.TW M.T .100 M O W O W C . O W WW .100Y .TW WW .100Y.C M.TW WW .100Y.C M.TW M O W O W O W WW .100Y.C M.T WW .100Y.C M.TW WW .100Y.C M.TW O WW 00Y.CO . W WW 00Y.CO .TW C . W W W Y W W M .1 .T 00 W.1 Y.COM W WW 00Y.CO W.1 Y.COM W W W W W .T 00 W W.1 Y.COM M.T .100 W.1 Y.COM W O W W W C . W W .T WW .100Y .100 .TW 100 M . O W M O W O W WW .100Y.C WW .100Y.C M.TW WW .100Y.C M.TW O W O W O W WW .100Y.C WW .100Y.C M.TW WW .100Y.C M.TW W O W O W WW .100Y.C WW .100Y.C M.TW WW .100Y.C M.TW W O W O W WW .100Y. WW .100Y.C M.TW WW .100Y.C M.TW W O W O W WW .100Y WW .100Y.C M.TW WW .100Y.C M.TW W O W O W WW .100 WW .100Y.C M.TW WW .100Y.C M.TW O WW W WW 00Y.CO .TW C . W W W Y W W .1 .T 00 W.1 Y.COM W WW W.1 Y.COM W W W W W .T 00 W . .T 00 W.1 Y.COM W WW W.1 Y.COM W W W W W .T W .100 W M.T .100 SYMBOL OM W O W ITEM MIN TYP MAX C . W C WUNIT WW . Y W W 0 Y W T . 0 0 W T . 1 .10 Enable cycle time tCYC M 1000 -- . -ns OM WW Y.C WW 00Y.CO .TW 0 W TWns . 0 W 1 M . Enable pulse width High/Low level t WEH ,t WEL 450 --1 M W W. CO .CO .TW -WW-- .100Y.25 WW .100tY Enable rise/fall time Er,tEf ns W OM W W C . W W140 Setup time tY AS -ns W -W M.T .100 O W C Data setup time t DSW 225 --ns WW .100Y. .TW Data delay time t DDR .COM --225 ns* W W Y 0 W 0 1 Data hold time 10 --ns W. tH WW tAH Address hold time 10 --ns Output data hold time tDH 20 --ns Note: * The following load circuit is connected for specification - 4- 7. DIMENSION OUTLINE AND PIN CONNECTIONS WW .100Y.C M.TW WW .100Y.C M.TW WW 00Y.CO .TW WW 00Y.CO .TW W W W T .1 W.1 Y.COM W M. OM W O W C . W C W Y W .T W Y. W .100 M.T .100 OM W M.T .100 O W C . O W W C W Y W WW .100Y. .TW WW .100Y.C M.TW M.T .100 M O W O W C . O W WW .100Y .TW WW .100Y.C M.TW WW .100Y.C M.TW M O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O WW 00Y.CO .TW W WW 00Y.CO .TW C . W W W Y W W M .1 .T 00 W.1 Y.COM W WW 00Y.CO .TW W.1 Y.COM W W W W W .T 00 W M .1 .T 00 W.1 Y.COM W WW 00Y.CO .TW W.1 Y.COM W W W W W .T W .100 W.1 Y.COM W M.T .100 OM W O W W C . W C W Y W .T W W WW .100Y. .100 M.T .100 OM W M.T O W C . O W W C W Y W WW .100Y. .TW WW .100Y.C M.TW M.T .100 M O W O W C O W WW .100Y. .TW WW .100Y.C M.TW WW .100Y.C M.TW M O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O WW 00Y.CO .TW W WW 00Y.CO .TW C . W W W Y W W M .1 .T 00 W.1 Y.COM W WW 00Y.CO .TW W.1 Y.COM W W W W W .T 00 W W.1 Y.COM W M.T .100 W.1 Y.COM W O W W W C . W .T W .T WW .100Y .100 .TW 100 M . OM W M O W C . O W W C . Y W W .TW W .TW 100 00Y WW .100Y.C M.TW M . 1 M . O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O WW 00Y.CO .TW W WW 00Y.CO .TW C . W W W Y W 0 W .T W.1 Y.COM OM NO. SYMBOL W.10 FUNCTION NO. FUNCTION W.1SYMBOL OM W C . W C W . Y W W W15 .T enable M.T .100 .TW 100/CS OM 00Y . 1 VSS W Ground Chip O 1 W M . W C . O W W .C WW supply 0Y.C Controller W .TW reset W W.100Y OM. 2 VDD WPower circuit 16 .TW 10/RES 00Y for logic M . 1 M . O W .C W .CO .Tcircuit WWsupply W 0Y.C Negative 3 Vo Power 17 input .100Y WW .1V0EE .TW voltage W W 00Y for LCD M OM 1 W M . W N.C Y.CO C . O W W Y W C 4 RS Instruction / Data 18 W . 0 W W 0 W WW .100Y M.T .100 W.1 Y.CO M.T O W O W W C 5 R/W ReadW / Write 19 A . W W .C Y W W W .100 .TW 00Y M.T .100 O W O W 6 E EnableWSignal K W W.1 Y.COM W 20 C . Y.C W W 0 Y W 0 0 W T . 1 0 0 W T . . 0 M .1 7~14 DB0~DB7 Data bus line WW 00Y.C W.1 Y.COM W WW 00Y.CO .TW W W W W W.1 Y. M.T .100 W.1 Y.COM W O W W W C . W W 8. POWER SUPPLY FOR BACKLIGHT W .T W .100 .TW 100 00Y M . 1 W M . O W O W WW .100Y Y.C WW .100Y.C NOTE .TW WW .100SPECIFICATION .TW M ITEM M O O WW 00 W WW 00Y.C W W W W T . WW .100Y.C White T Color W.1 M. W.1 Y.COM W O W W W C . W CCFL Voltage(INPUT) — .TW W WW .100Y .1 M.T .100 M O W O WW W C . W C W . Y W W CCFL Frequency — W W .T 00 W .T 00Y W. OM W.1 Y.C— OM W W.1 Y.C— W Inverter Current Density W W W W W .T W .100 W .100 —OM.T OM W W C . Initial Brightness W C W Y WW W 0 W T . 0 WW .100Y. T . 1 OM W. OM W 10,000HR. Half-Life Time WW .100Y.C M.TW WW .100Y.C M.TW O W O W WW .100Y.C 9. DISPLAY CONTROL INSTRUCTIONS WW .100Y.C M.TW W O W WW WW .100Y.C M.TW 9.1 Description of command W .CO .and W13 data registers. The RS signal Yregister Display is controlled by writing data into the instruction 0 WW 0 MT .1 O W distinguishes the instruction register from the W registers. Y.C8-bit data is written into the instruction Wdata .100 register with RS=1, and the code of data registerWisW specified. After that, the 8-bit data is written in the W data register and the specified instruction is executed with RS=0. During the execution of the instruction, no new instruction can be accepted. Since the busy flag is set during this, read the busy flag and make sure it is 0 before writing the next instruction. -5- WW .100Y.C M.TW WW .100Y.C M.TW WW 00Y.CO .TW WW 00Y.CO .TW W W W T .1 W.1 Y.COM W M. OM W O W C . W C W Y W .T Y. W .100 .TW 9.1.1 M.T .100 OM W MControl .100 Mode O W C . O W W C Y W Y. W the .mode TW written specifies WWinto the .Tregister 100 control 0Y.C (hexadecimal) WWCode.10$“00” M.register. .TW 100instruction M . O W M O W C . O W DB3 W W .C Y R/W DB6 DB4 DB0 .TDB1 Y.C WW RS.100YDB7 .TW DB5 W 100 DB2 WW .100REGISTER M . .TW M O W M O Instruction 0 WW 1 0 0 0 0 O W0 W .0100Y.C0 M.T0W WW 00Register W Y.C W 0 .100Y0.C M0.TW WMode T . Control Register 0 Mode Data O 1 W O W OM W. WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O W O WW 00Y.CCursor/blink CO DB2 W .DB3 WW CG.100Y.C WWDB4 .TW W Y DB5 DB1 DB0 Graphic/Character W T . 0 W T M . 1 0 M . O 1 W M . O W W 0O 0 WW .100Y.C M.TW 0Y.C M.TW WWCursor 0OFF WW .100Y.C M.TW 1 . O W W ONY.CO 0 O 1 Cursor Internal W W W WW .100Y.C M.TW W 0 W T . 0 WW .100Y1.C M T . 1 0 Cursor CGW . OFF, Character O OM blink O0 W WW blink W Y.C WW .100Y.C M.TW 0 WCursor T . 0 WW .1001Y.C 1M.TW M .1 O WW 0Character .CO .TW Y.C Mode WW OFF 1/0 1/0W 0 Y.CO0 0 Cursor 0 Y W W .TW W 0 W 1 0 W M . .T 1 000 M . O 1 W M . O WON Y.C 1O Cursor Internal W WW .100Y.C M.TW 0 WW OFF, .TW 0Character WW .100Y.C0 M.TW 1 Cursor 1 M . blink CG W O WW 00Y.CO .TW W .CO .TW W C . Y W W W 0 Y W 1 00 1 Cursor blink.10 W .1 .T OM OM W .CMode WW Graphic W0.1 Y0.COM1 W 0 C . Y W W 0 Y W W .TW 0 0 W T . 1 0 0 W T M . . 1 0 M . O 1 W O set Master Mode W W .C OM 0: Slave Mode 1:W. Master Mode W .Cis W 00Y WW *Normal .TW 1 00Y WW .100Y.C M.TW M.T . 1 M . O W O 1: WDisplay C ON 0: Display OFF W C O WW .100Y. .TW WW .100Y.C M.TW WW .100Y. M .TW O W M O W W Pitch O 9.1.2 Set Character WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW ODB4 DB3 DB2 WW REGISTER W R/W RS DB7 DB6 DB1 Y DB0O O WW DB5 W 0 .C M.TW Y.C W 0 T . 1 WW .100Y.C0 M.T1W . Instruction Register 0 W 0 W.1000 0 0 0 0 1 CO W OM . O W W C W . Y W C W . 0 Y W W 0 0 Y0 W T 0 Character Pitch Register 0TW (Vp -1) Binary (Hp -1) Binary . 1 0 0 W M.T . . 1 0 M . O 1 W M . O W C . W W space00between W .COdots .per Vp indicates the number The Y.C the.Tvertically-displayed WW .100Y .TW WW of.1vertical TWcharacter.W M 1 00Y M . O W M O O W determination. characters is considered This only character display .C during WW 00Y 0Y.C M.T WW (in Wfor W value isWmeaningful 0the Y.C TW . 1 0 W T . . 1 0 M . O 1 W character mode) and becomes inM the graphic mode. The of horizontal O W W. invalid .CO the.Tnumber Y.C WWHp 0indicates C W . 0 Y W W . W 0 0 Y W W .T between horizontally-displayed dots per character in display including theMspace graphic M characters. In the .1 W.1 Y.COM .100 O W O W W C . W to be00displayed. Y W Wnumber Y TW Hp values: mode, the Hp indicatesWthe of.Cbits of .1TW byte displayWdata M .100 M.Three .1 W M .100 O W .CO O W W C . Y W C Hp DB2WW DB1 DB0 W . 0 Y W W 0 Y W .T 00 M .1Horizontal W.1 Y.CO M.T 1 .1000 O W 6 1 character pitch 6 O W W C . W W Y W W W Y.C W .100 100 M.T pitch 7 .Horizontal 7 1 W character O W M.T 0 .1010 O W O W W C Y.C Wpitch 8 W 0 Y. character 0 0 WW Horizontal T . 1 8 1 0 WW .1100Y.C M.T1W . M .1 O WW 00Y.C W WW 00Y.CO .TW C . W W W Y W W .1 .T 00 9.1.3 Set Number of Characters W.1 Y.COM W WW 00Y. W.1 Y.COM W W W W W .T DB1 DB0 W.1 W R/W .100RS REGISTER DB7 DB2 .100 DB3 OM M.T DB6 DB5 WDB4 W O W C . Y C W Instruction Register 0 .TW0 0 W 0 100Y 0 0 .TW 1 0 W 100 WW0 .1010Y. . M . W M O W O0 Number of Character Register 0 W 0 Binary .C WW .100 WW (Hn.1-1) .TW 00Y WW .100Y.C M.TW M O horizontal bytes WW W number Hn indicates the number of horizontal characters.Cin r the O the character mode W W .Cof W Y W W W 0 Y W .T W of horizontal .1 .T the screen is taken 10n, n = Hp 00 M . in the graphic mode. If the total sum dots on as x Hn. 1 M . O W O WW W C . W C W . Y W W W W .T 00 Hn can be set with an even numberWof 2 to 128 (decimal)..T . 00Y W.1 Y.COM W WW W.1 Y.COM W W W W W .T W (inverse .100 9.1.4 Set Number of Time Division W M.Tduty ratio) .100 of display OM W O W C . W C W DB0 . DB6 .TDB5 Y WW W DB7 W 0 Y W T . 0 0 REGISTER R/W WRS DB4 DB3 DB2 DB1 1 0 OM W. OM W.1 Instruction Register 0 0 WW0 0Y.C 1 .TW 1 0 0 W1W .0100Y.C0 M.T0W M .1 O Character Pitch Register 0 0 WW (Nx -1) Binary WW 00Y.CO C . W Y W W .T 00 display. W.1ration. Nx indicates the number of time division in multiplex duty OM 1/Nx is a displayW W.1 Y C . W W W WNx. .100 A value of 1 to 128 (decimal) can be set to M.T O W C W WW .100Y. M.T 9.1.5 Set Cursor Position O W .C W 00Y DB5 DB4 DB3 DB2 DB1 DB0 REGISTER R/W RS WDB7 .1DB6 W Instruction Register 0 1 0 0 0 0 1 0 0 W0W Cursor Position Register 0 0 0 0 0 0 (Cp -1) Binary Cp indicates the position in a character where the cursor is displayed in the character mode. For example, in 5x7 dot font, the cursor is displayed under a character by specifying Cp=8 (decimal). The cursor -6- WW .100Y.C M.TW WW .100Y.C M.TW WW 00Y.CO .TW WW 00Y.CO .TW W W W T .1 W.1 Y.COM W M. OM W O W C . W C Y W .T W 00 Y. W TW Hp. A value M.pitch .100 character OM can be set to horizontal of 1.1to 16 .(decimal) W M.Tis equal to the horizontal .100 length O W C O W W C .TW 00Y 0Y. character Y.C value WW of .TW pitches W WWCp. .If10a0smaller Vp is W set.1(Cp≦Vp), a character is Mand .TWthan the number 10vertical M . O M O W C . O W W C . Y W C . W cursor.1display .TIfWCp is W 00 W has.1higher overlapped the cursor of display (at ON). .TW 00Y priority WW M .Tcursor, 00Y with the M O 1 W M . O W cursor .C W W thanYVp, reater .COno cursor .TW W is displayed. 00Y 0Y.C horizontal WW The TW length isWequal to.1Hp. . 0 0 WgW T M . 1 0 M . O 1 W M . O W .CO .Start WW .100Y.C M.TW WW 0Set W Low Order 0Y.C M.TW 9.1.6 YDisplay WWAddress 0 0 W T 1 . W O DB7 DB6 DB5 W W .CO .TW DB0 OM W.1 W DB4 .1DB3 W 00Y DB2MDB1 0Y.CRS M WW .1R/W TW . 0 WW .100Y.CREGISTER T . Instruction 1 O 0 W0 0 WW 0W 1 0Y.C0O 0 0 OM W Register WW 000Y.C C . W .TW W 0 Y W T . 1 0 W Start T M . . 1 0 M . Display Address Register (low order byte) 0 0 (Start low order address) Binary O W O W OM W.1 WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW 9.1.7 WW Set Display start High Order Address WW 00Y.CO .TW WW 00Y.CO .TW .CO W W Y W 0 W T M DB0 .1 RS DB7 W.1 DB2 R/W DB1 M. .10 REGISTER OM DB6 DB5 DB4WDB3 W .CO O W C W . Y W C W . 0 Y W W W 0 0 Y W T W Register Instruction 0 .101 0 M.0 0 0 1W.1 0 0 M.T 1 .T 00 O 1 M . O W .CO (high 0Y.C M.TW WW WW Display W Start Address0Y Register address) Worder byte)WW0 .1000Y.C M.(Start 0Binary TW high order 1 T . . 0 O 1 O the display start address W OM start addressesW WW registers. W. cause .Cin Y.C The .TW C These instructions display to be written W . 0 Y W W W 0 0 Y W T . 0 W M .1 .T 00 M Odisplayed W.1 theYdata display start W address which at the top leftWend on the .COscreen OMa RAM address atW W W.1 indicates C . Y C W . 0 W .TW W 0 0 Y W T order 16 bits. In the . 1 0 0 Wthe graphic T M . . 1 0 M . O is stored. In mode, the start address is composed of high/low character 1 W M . W WW 00Y.CO .TW CO 0Y.C M.TW W WW 00ofY.he Wbits of high 0order Worder 1 T display, it isW composed lower 4 address (DB3 DB4) and 8 bits of low . . 1 M . O W .1 O W OMorder address are W W .C Y.C WW .100Y.C M.TW WW4 bits address. The W upper of high ignored. W 0 Y W T . 0 0 T . 0 M .1 WW 00Y.CO .TW W.1 Y.COM W WW 00Y.CO .TW W W W 9.1.8 Set Cursor Address (low order) (RAM write low order address) 0 W .1 W.1 Y.COM W M.T .10 OM W O W W C . W C W W DB1.100 DB0 M.T REGISTER RS DB3 DB2 W DB7 WDB6 .1DB5 Y.R/W 00Y DB4 WW M.T O 100 0 OM.T1 O W WW C Instruction Register WW. 0 0 0 0 1 0 1 W . Y0.C W W .C 0 Y W W 0 0 Y W T . 1 0 0 W T M.T . 1 0 0 M.0 M . O 1 W . Cursor Address Counter (low (Cursor low order address) Binary O W C . O W WW .100Y .TW WW .100Y.C M.TW WW .100Y.C M.TW M order byte) O W O W WW .100Y.C M.T WW 00Y.CO .TW WW .100Y.C M.TW W 1 9.1.9 Set Cursor Address order) W OM (RAM write highWaddress) WW 00Y.CO . W. (high .CO .TW C . Y W W W 0 Y W 0 M .1 00 REGISTER W R/W RS .T DB7 DB6 DB5 DB3 DB2 DB1 WDB0 OM W.1 DB4 .CO W W.1 Y.COM W C . Y W W 0 Y W W Instruction Register 0 1 0 0 W 0 .1000 1 .T 0 1 1 0 W W.1 Y.COM M.T .1000 OM W O W W C . W Cursor Address Counter (high 0 (Vp -1) Binary 0 (Hp -1) Binary C W . Y W W .T WW .100Y .100 .TW 100 M . O W M O order byte) W W W Y.C WW .100Y.C WW 00Y.CO .TW 0 W T . 0 W M The cursor address .1 These instructions cause cursorW addresses to be address counters. M written in the cursor .1 WW 00Y.CO WW 00Y.CO .TW .CO display W W Y W 0 WW or.1receiving indicates and address for sending data and character codes to or from the RAM. T 0 .1 W.1 Y.C M. OM W O W W C . W C W . Y character Namely, data at address specified cursor address In the mode, the W cursor .100 W are read/written. W WW by.1the 00Y M.T .100 W M.T A cursor address O W O W C is displayed at the digit specified by the cursor address. consists of the low-order W WW .100Y. WW .100Y. T . WW .100Y.C M.TW M W address (8 bits) and the high-order address (8 C bits). O Satisfy the following W .CO .TW WWrequirements. . Y WW .100Y W W 0 Y W 0 0 W T . 1 0 M set the high order WW . 1 When you want to rewrite (set) both Set the low orderW address andO then M .1 the low order Y.C W WW 00Y.CO .TW 0 address and the high orderW address. address. WW .TW 0 .100 1 M . 1 W M . O W O W Wlow order 2 When you want to rewrite onlyWthe Don‘t setW the high order W after W .C Y.Caddress W fail to W .Tagain W .1 .Tsetting 100 00Y M . 1 M . O address. the low order address. W O WW W C . W C W . Y W W W W address. 00 0Y Wthe high .T 3 When you want to rewrite only don‘t M.Thave to set W. .10order O W.1 You OM Set the high order W W W C . C W . Y W W address. the W low order address Y W again. W M.T .100 W M.T .100 O W O W C . W C The cursor address counter is a 16 bitW up-count with RESET functions. When W . SET and Ythe bit N.TChanges WW W W 0 Y W 0 0 T . 1 M .10 W. (bitY1) from 1 to 0, the bit N+1 is added by 1. When the address, the ofM the high .CO WLSB W .COlow order WWsetting W 0 Y W 0 0 W T . 1 0 M.T . 1 order address is added by 1 if the MSB (bit *)Wof order 1 to 0. Therefore, M address changesWfrom . the lowO O W .C .C shown WWorder.1address .TW in aboveW set both the low order address and the high table.W.100Y 00Y as M O W WW WW .100Y.C M.TW 9.1.10 Write Display Data O W W 0Y.C DB5 REGISTER R/W RS WW DB7 .10DB6 M.T DB4 DB3 DB2 DB1 DB0 O W Instruction Register 0 1 WW 0 0 Y.C 0 0 1 1 0 0 100 . W RAM 0 0 MSB (pattern data, character code) LSB WW After the code $“OC” is written into the instruction register with RS=1, 8 bit data with RS=0 should be written into the data register. This data is transferred to the RAM specified by the cursor address as display data or character code. The cursor address is increased by 1 after this operation. -79.1.11 Read Display Data WW .100Y.C M.TW WW .100Y.C M.TW WW 00Y.CO .TW WW 00Y.CO .TW W W W T .1 W.1 Y.COM W M. OM W O W C . W C W 0 Y W W Y. W M.T DB1 DB0 .10DB3 100 DB7 M.TDB6 DB5 DB4 ODB2 R/W W.RS W M.T .100 REGISTER O C . O W W C W . Y W .C W WWInstruction 0 1100Y 0 M.T0W 0 W 0 W.100 1 1M.T 0 1 .TW 00Y Register . O 1 M . O W C . O W W C W . Y W C W (patternWdata, character RAM 0Y. 0W 0 00Y MSB .T 00 code) LSB WW .TW M.T .1 10 W.1 Y.COM W M . O W O W W C . Data can be read from the RAM with into the instruction register. The W $“0D” W WWRS=0.1after .Tcode 00Y writing WW .100Y.C M.TW M.T .100 M O W O W C read procedure is as follows: . O W .C W W 0Y W WW 00Y.C .TW Wof .Ton 00Y register W M .10DB7) .TW 1output M . This instruction outputs the contents data Data Bus (DB0 to and then transfers O 1 W M . O W C W W W also increasing .CO by.T 0Y.cursorMaddress Y.C WW .10the TW by 1. . W 0 Y W T . 0 0 WW data.1specified RAM a cursor address to the data output register, 0 M .1 O OM address, correct data WatWthe second W theY.cursor W .CO at .the Y.C time..T WWis not C W 0 Y W W After setting output first read but W 0 0 W T 1 W M Thus, . .T 10 00 M . O 1 W M . O W C make W oneWdummy reading data after setting address. WW .Cthe cursor Y. CO when .read .TW WW .TW 100 00Y W M . .TW 1 00Y M . O 1 W M . O W W .CO .TW WW .100Y.C M.TW 9.1.12 WW .100Y.C M.TW WW Set .Bit 00Y 1 W CO DB0 OM R/W WWDB200Y.DB1 W REGISTER RS WWDB7 DB6 DB4 DB3 .CO DB5 C W . Y W W .TW W 0 Y T . 1 0 0 W M . .T 0 1 00 M . O 1 W M . Instruction Register 1 0 0 0 1 1 1 1W O W W Y.C WW 00Y.C W .CO .TW 0 W W . 0 Y W T . 1 0 W MT . Bit Set Register .10 0 0 0 W.1 0 0M 0 0 O W M O C . O W W Y position .C sets Y.C RAM WW .100The WW .TW The Clear/Set of display to 0 or 1, respectively. WW bit .instruction M.T .T1Wbit in a byte 100 data O 00Y M . O 1 W M W O by NB and RAM W W .C 0Y.C M.TW of the bit in specified WW After W address TWcursor address. .by 10the 0is0Y 0Y.C M WaWbyte .is10specified . .TW 1 M . W O O W execution of the instruction, the cursor address is automatically by 1. NB W is W a value 0of0Y 1.C toO8. .TW WW 00Y.Cincreased C W . W W Y W T . W indicates M .1 .T MSB, respectively. 00 NB=1 and NB=8 and W.1 Y.COM W OM WW 00Y.CO .TW W.1 YLSB W C . W W W 0 W .T 0 W .T 100 W.1 Y.COM W W.1 Y.COM W OM 9.1.13 Read Busy W W.Flag W C . W W 0 W .T 0Y R/WM.TW W .100 DB0OM.T 10DB5 M . W REGISTER W.10 RS DB7 DB6 DB4 DB3 DB2 DB1 O W O W W Y.C WW .100Y.C M.TW 0 T . 0 WW .100Y.C0 M.T1W Busy Flag 1/0 W * 1 M . O WW 00Y.CO .TW W .COThe busy WW to00DB7. W .C Y W W Y W T . When the read mode RS=1, the busy flag is output flag is set to 1W during 0 WWis set.1with T .1 the OM 0 .1 M. OM W O W W C . Y.C W C W next instruction . to (13). execution of any ofWinstructions After the execution, it isYset to 0..T The can 0be W W .TW W 0 0 Y(1) W 1 0 0 T M . . 1 0 M . O 1 W M . O W O when busy flag=1. accepted. No instruction can be accepted Before executing an instructionWorWwriting 0Y.C WW W Y.C WW .100Y.C M.TW 0 W T M.T .10 . 0 O 1 W M . data, perform a busy flag check to make sure that busy flag is 0. When data is written in the register O W C . O Y W W .C WW .the WW Thus, . 0Y.C Wrequired 100 .TW (RS=1), no busy flagW changes. flag check is after the.Twrite operation into 10just 00Y no busy M . OM 1 W M . O W C . O W W C . Y W .C flag.Tcan Y W W W be read without WW specifying instruction register with TheYbusy any instruction register. WRS=1. .100 M.T .100 OM W M .100 O W C . O W W C . Y W C W . 0 Y W W 0 W WW .100Y M.T .100 W.1 Y.CO M.T O W O W W C . W W Y W W WW .100Y.C M.TW .100 M.T .100 O W O W O W W C Y.C W 0 W 0 WW .100Y. T . 1 WW .100Y.C M.TW . M O WW 00Y.C W WW 00Y.CO .TW C . W W W Y W W .1 .T 00 W.1 Y.COM W WW 00Y. W.1 Y.COM W W W W W .T W .100 W.1 Y M.T .100 OM W O W W C . W C W Y W W 00 W WW .100Y. M.T .100 W.1 M.T O W O W W C . W WW .100Y .TW WW .100Y.C M.TW .100 M W O W O W W W WW .100Y.C M.TW WW .100Y.C M.TW .1 O W O WW W C . W C W . Y W W W W .T 00 W . .T 00Y W.1 Y.COM W WW W.1 Y.COM W W W W W .T W .100 W M.T .100 OM W O W C . W C W Y WW W 0 W T . 0 WW .100Y. T . 1 OM W. OM W WW .100Y.C M.TW WW .100Y.C M.TW O W O W WW .100Y.C WW .100Y.C M.TW W O W WW WW .100Y.C M.TW O W WW .100Y.C M.TW O W WW .100Y.C W WW -8 9.2 Display variables WW .100Y.C M.TW WW .100Y.C M.TW WW 00Y.CO .TW WW 00Y.CO .TW W W W T .1 W.1 Y.COM W M. OM W O W C . W C W Y W .T W Y. W .100 M.T .100 OM W M.T Name .100 Symbol Meaning O W C . O W W C WValue Y W 0 W T . 0 WW .100Y. T . 1 WW .100Y.C M.TW M . M O W Hp Horizontal character pitch pitch WWW 00Y.CO .6Tto W8 dots .COcharacter WW Lateral C W . Y W W 0 Y W T . 1 0 W M . .T 1 00 M . O 1 W M . O W O W line 00Y.C W .C lateral Wper .TW WW .Number .TW characters 1 00Y of M WW .100Y.C M.TW M . 1 O W O W O W W Y.C WW mode W 00or 0Y.Cof digits) Y.C of horizontal WW (number TWin the character . Hn 1Number characters 2 toO128 1 0 0 WW T M.Tdigits (an . . 1 0 M . W M . O W C O W .C W WW .100Y. .TW WW number .T 00Yof bytes WW .100Y.C M.TW M 1 per line in the graphic even number) M . O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O W mode. O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O W O W Vp WVertical character Longitudinal pitch. WW 00Y.Ccharacter W .CO .pitch WW .100Y1.Cto 16Mdots .TW W Y W T . 0 W T 1 0 M . O 1 W M . O W C W position .C W number W cursor can .CO .TW WW Cp WW Cursor Line be .100Y. .TW W .Tthe 00Yon which M 1 00Y M . O 1 W M . O W O W WW .100Y.C M.TW WW .100Y.C M.TW displayed. WW .100Y.C M.TW O WW 00Y.CO .TW W WW 00Y.CO .TW C . W W W Y W .1 .T 1 nx W Number Inverse of duty OM 100time division OMratio W.display .Clines OM WW 1 to00128 W.of C . Y W C W . Y W W .TW W 0 Y W T . 1 0 0 W T M . . 1 0 M . O 1 W Was m, and O Note: If the number dots on screen is taken the number of horizontal as n, .C OM W. of vertical W WW dots W 00Y Y.C WW .100Y.C M.TW 1 0 WW 1/m T M.T . . 0 O = 1/Nx = display duty ratio 1 W M . O W C O W W Y.C WW .100Y. .TW Wof .TW 00lines 0Y.xCHn,M WW n .=10Hp m/Vp display M .TW= Number 1 M . O W O W O W WW .100Y.C M.TW W Y.C WW .100Y.C M.TW 0 WW Cp≦Vp T . 0 O W O W OM W.1 WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW 9.3 Initialize LCMW register set.C list O WW 00Y.CO .TW W WW 00Y.CO .TW W W Y W 0 W T . .1 4H OM W.1 BHY.COM W Register number W.10 0H COM1H 2H 3H 8H 9H AH W W C . W W . W .T W 00 W7FH .107H 00Y WW .11CH 00Y M.T 00H 77H 00H 00H Character mode W.100HY.COM M.T 27H O W O W W C . .C Y 00H .TW00H W WW .07H 100 WW .12H 7FH 00H Graphics mode M.T .00H .TW1DH 100 00Y 77H M O 1 W M O W C . O W .C WW .100Y . WW .100Y.C M.TW WW LCM .TW 00Y OM 1 W M 10. INTERFACE FOR . O W C . O W W C . Y W .C W W WW .100Y WW M .100 00Y M.T W M.T O W .CO 10.1 Interface to 80 familyWW.1 10.2 Interface to 68 family O W C . Y W C W . 0 Y W W 0 Y W W M.T .100 W.1 Y.CO M.T .100 O W O W W C . W W Y W W WW .100Y.C M.TW .100 M.T .100 O W O W O W W C Y.C W 0 W 0 WW .100Y. T . 1 WW .100Y.C M.TW . M O WW 00Y.C W WW 00Y.CO .TW C . W W W Y W W .1 .T 00 W.1 Y.COM W WW 00Y. W.1 Y.COM W W W W W .T W .100 W.1 Y M.T .100 OM W O W W C . W C W Y W W 00 W WW .100Y. M.T .100 W.1 M.T O W O W W C . W WW .100Y .TW WW .100Y.C M.TW .100 M W O W O W W W WW .100Y.C M.TW WW .100Y.C M.TW .1 O W O WW W C . W C W . Y W W W W .T 00 W . .T 00Y W.1 Y.COM W WW W.1 Y.COM W W W W W .T W .100 W M.T .100 OM W O W C . W C W Y WW W 0 W T . 0 WW .100Y. T . 1 OM W. OM W WW .100Y.C M.TW WW .100Y.C M.TW O W O W WW .100Y.C WW .100Y.C M.TW W O W WW WW .100Y.C M.TW O W WW .100Y.C M.TW O W WW .100Y.C W WW -911. RELIABILITY CONDITION WW .100Y.C M.TW WW .100Y.C M.TW WW 00Y.CO .TW WW 00Y.CO .TW W W W T .1 W.1 Y.COM W M. OM W O W C . W C Y W .T W Y. W TW .100 M.Type .100 OM Type W M.T .100 TN STN O W C . O W W C W Y W Y. W WW Normal .TWide WW .100Y.C M.TW M.TWide Temp. .100 Temp. 100 Temp. Temp. Normal M . O W O W C . W W .C Y W .CO Horizontal .TW±30° .TW±30° W W.±30° 100 00Y WW Viewing ΦW ±30° M .TW 1 00Y M . O 1 M . O W O W Y.C W 30° WW-10°to TW 40° .-10°to W Θ(㎜) WW 10°to 0040° 0Y.C M.T Y.C Vertical 30° 10°to 1 0 0 WW Angle T M . . 1 0 . O 1 W O W .C * .TW OM W W. W 00Y 0Y.C M Y.C Temperature WW TW -10 to.170℃ -25 to 80℃ W 0 to 50℃ -20 to 70℃ . 1 0 0 WW Operating T . . 0 OM W M .1 O W C . O * W W C . Y W .C W-20 to 70℃ -35.TtoW90℃ -30 .TtoW80℃ W-20 to 80℃ 100 00Y WW Storage M . .TW 1 00YTemperature M . O 1 W M . O O W Hours00Y.C 240.Hours W W WW W High 240 Hours00Y.C 240.T Hours 240 W WOff) Y.C (Power W 0 WW Temperature T MT .1 . 1 0 M . O 1 W M . O W C O W W @70℃ @90℃ @65℃ Y. @75℃ W .TW WW .100Y.C M.TW 100 WW .100Y.C M.TW M . O W O Hours W Low W Temperature (Power Off) 240 W Hours 240 240 Hours 0Y.C240 Hours O W W WW W 0Y.C M.TW Y.C W 0 0 W T M.T .10 . 1 0 . O @-20℃ @-35℃ @-15℃ @-25℃ 1 W M . O W C .C W WW .100Y. WW 00Y.CO .TW .TW WHours .TW 00Y 240 Hours M 1 HighWTemperature (Power On) 240 240 Hours 240 Hours M . O 1 W M . O W C O W W WW .100Y.@70℃ WW .100Y.C .TW @70℃ @80℃ @60℃ WW .100Y.C M.TW M.T M O W O W C . O W Y Hours.TW Y.CHours.TW 240 Hours WW .100240 Low Temperature Y.C On) WW .100240 WW .100(Power M .TW 240 Hours M W M O W .CO .TW O W W C . Y W C @-10℃ @-25℃ @-10℃ @-20℃ W . 0 Y W W W Y W .T 10 W 100 OM W.65℃/90%RH M.T 55℃/90%RHWW.75℃/90%RH .100 & High OM C . O W W C High Temperature 45℃/90%RH W . Y C W . 0 W W .T 00Y WW .100Y M.T .10 .TW 1 M . O W M O Humidity W C 240 Hours W 240 Hours 240 HoursWW 2400Hours O W .C Y. .TW W W .TW 10 00Y WW .10C0Y.C A M . .T60min@-20℃ 1 M . O W Thermal Shock M 60min@-35℃ 60min@-20℃ 60min@-30℃ W O W .CO .TW WW .100Y.C M.TW W WW 5min@25℃ 00Y WWB .100Y.C BM.T5min@25℃ 5 Cycle 1 M . O W O 5min@25℃ W5min@25℃ W O W W 0Y.C M.TW Y.C W W 0 A WW 0 Y.C C 60min@70℃ WW60min@90℃ T . 1 0 0 T . . 1 0 60min@80℃ M60min@70℃ . WW 00Y.CO .TW W.1 Y.COM W WW 00Y.CO .TW W W W 0 W T M . Expected Lift .10 50,000 Hours 50,000 50,000 Hours 50,000 .1Hours OM W.1Hours M W .CO .TW O W W C * . Y W C W . 0 Y W W Wide temp. version may not available for some products, Please consult our sales engineer or respresentative. W 0 0 Y W T . 0 W M .1 .T 00 W.1 Y.COM W WW 00Y.CO .T W.1 Y.COM W W W W 0 W .T 0 W W.1 Y.COM M.T CRITERIAWW.10 .10INSPECTION OM 12. FUNCTIONAL TEST & O W W C . C W . Y W . W 00 W WW .100Y M.T .100 12.1 Sample plan W.1 Y.COM M.T O W O W W C . W .C 0 Y W W W levelW Sample planW according 2,W and acceptance/rejection 0YMIL-STD-105D M.T criteria is. WW.10 .100 OM M.T .10to O W C . O W C . Y W C W . 0 Y W Base on : defect : AQL Minor defect : AQL 2.5 W0.65 0 Y W WW Major M.T .100 W.1 Y.CO M.T .100 O W O W W C 12.2 Inspection condition . W W W W Y.C W 00Y and under WW .100 M.T an environment .1eyes, O W M.T is 30cm withW .100 inspection Viewing distance for W cosmetic bare of O W O W C . Y.C W .C 0 Y W W W 0 0 Y W T . 1 0 0 W T . 0 All direction 800 lus (20W) light intensity. for inspecting the M be within 45° WW. .1sample should W.1 Y.COM W WW 00Y.CO .TW 0Y.C W W 0 W 1 against perpendicular W line..100 T . . 1 M . W M W inYLCD WW 00Y.CO .TW .CO .TW WW .100Y. 12.3 Definition of Inspection W 0 WW Zone 0 M .1 W W.1 Y.COM W WW 00Y.CO .TW WW .100Y W W 0 W T . 1 0 W OM W. OM W.1 WW .100 WW .100Y.C M.TW WW .100Y.C M.TW O WW W .CO .TW WW 00C C . Y W W W Y W W .1 .T 00 A B W.1 OM WW W.1 Y.COM W C . W W Y W W W .T 00 W . .T 00 W.1 Y.COM W WW W.1 Y.COM W W W W W .T W .100 W M.T .100 OM W O W C . W C W . Y WW W W 0 Y W T . 0 0 T . Zone A : Character / Digit W area 1 0 OM W. W.1 Y.COM W Y.Carea ) .TW 0 WW Viewing Zone B : Viewing area except Zone A 0(0Zone A + .Zone B = minimum 0 WW T M .1 M Oafter W.1 area .CO ) WW 0product C Zone C : Outside viewing area ( invisible assembly in customer’s . Y W W 0 Y W W .T 00 W.1it is no trouble for Note : As a general rule, visualW defects C are permissible, W when OM W.1 inYZone C . W W quality and assembly W of customer’s M.T .100 product. O W C W WW .100Y. 12.4 Major Defect M.T O W .C All functional defects such as openW(W or missing ), short, contrast differential, excess Ysegment 100 . W power consumption, smearing, leakage, etc. and overall outline dimension beyond the drawing. WW Are classified as major defects. -1012.5 Minor Defect Except the Major defects above, all cosmetic defects are classified as minor defects. WW .100Y.C M.TW WW .100Y.C M.TW WW 00Y.CO .TW WW 00Y.CO .TW W W W T .1 W.1 Y.COM W M. OM W O W C . W C W W .T W 0Y Y. W .100 .Tbe M.T OMClassification of W Mto .100No. Item Item Inspected WW.10 Inspection Standard O C . O W W C W Y Y. W W .TW WW .100Y.C M.TW M.T defects .100 100 M . O W O W C . O W W W size00(mm) Y.C WWQty.100Y .TMinor W WZone .TW Acceptable WW 1..100Y.C Spot M .Tdefect 1 M . O W M O W .C O W in BWW .1C00Y .TW Wspot WW .100Y.C M.TAW WW .100Y.(CDefects T M . O W M ) .C Ofrom W W WW 00Y.CO .Acceptable WWAccepta00Y WΦ≦0.15 TW 1 WW .100Y.C M.TW M.T . 1 M . O W O W C ( clutering O W W of spotWW ble.100Y. .TW WW .100Y.C M .Tallowed WW .100Y.C M.TW M not ) O W O W O W WW .100Y.C M.TW WW .100Y.C 1M.TW 2 WW .100Y.C M.TW 0.15≦Φ≦0.20 O W O W O W WW .100Y.C M.TW WW .100Y.C 0 M.TW 1 WW .100Y.C M.TW 0.20≦Φ≦0.25 O W O W O W WW .100Y.C M.TW WW .100Y.C 0 M.TW 0 Φ>0.25 WW .100Y.C M.TW W O W .CO .TW O Was W .Cspot, Y Wdark/white C W . 0 Y W W Remarks : for size Φ is defined W 0 0 Y W T . 0 W M .1 .T 00 W.1 Y.COM W WW 00Y.CO .TW W.1 Y.COM W W Φ=1/2(X+Y) W W W .T 1 W .100 OM .100 defectOM.T OM Acceptable Qty WW. W W C W . 2. Line Size (mm) Minor Y.C W C W . 0 Y W W W 0 0 Y W T . 1 0 0 W T M.T . . 1 0 M . O 1 W M . O W ( Defects in.C line L W Zone O W WW .100Y.C M.TW W 0Y.C M.TW Y WWWidth 0 0 WW form T . 1 0 . ) Length 1 A B C OM WW 00Y.CO .TW W. WW 00Y.CO .TW C . W W W Y W W M .1 .T AccepAccepW≦0.02 00 OM W.1 Y.CAccepWW 00Y.CO .TW W.1 Y.COM W W W W W 0 W table table.T table 0 W .T 00 W.1 Y.COM W W.1 Y.CO2M W W W.1 Y.COM W L≦3.0 W≦0.03 W W W .T W M.T .100 .TW 100 00 M . O 1 W M . O W C O W W≦0.03 WW .100Y. .TW WW .100Y.C 0 M.TW WW .100Y.C L>2.5 M .TW O W M O W O W L≦3.0 0.03<W≦0.05 WW .100Y.C M.TW WW .100Y.C2 M.TW WW .100Y.C M.TW O L>2.5 0.03<W≦0.05 WW 00Y.CO .TW W WW 00Y0.CO .TW C . W W W Y W W M .1 .T 1 00 OMas spot WW 00Y.CO .T W.1 Y.COM W W>0.05 WW. Counted C . W Y W W W 00 W M.T (OFollows W.1 Y.COM M.T .100 W.1 defect O W W C . W C W . W . W 00 0Y 12.5.1 W ) WW .100Y M.T .10item W.1 Y.COM M.T O W O W W C . W and00line .C The Y defect.TW W W of spotWdefect WW .1Remarks: .100 .Ttotal 00Y M .1 OM W M O W C . O W W C . shall not exceed four. Y W C W . 0 Y W 0 W WW .100Y TW M.T .100 A orOZone W.1 Y.CO M.inside W 3. Orientation defect Not allowed viewing area ( Zone Minor O W W C . W W Y W W W Y.C W .100 M.T .100 ( such asW B) O W M.T .100 O W O W W C . Y.C W C W . 0 Y W W W 0 0 Y W T . 1 0 0 W T misalignment of . . 0 M .1 WW 00Y.C W.1 Y.COM W WW 00Y.CO .TW W W L/C) W W .T 00 W.1 Y. W.1 Y.COM W Minor OM Position W W.1 Polarizer 4. Polarizing 12.5.4.1 W C . W W W 0 Y W W .100 M.T .10the W M.T Should not exceed .100 inOPosition O W 1.WShifting WW .100Y Y.C dimension. WW .100Y.C M.TW WW glass .TW 00outline 1 M . O WW 00 W WW 00Y.C W .CO W W Y W T . 2. Incomplete covering of the viewing area due to 0 WW T W.1 M. .10 W.1 Y.COM W O W W W C . W is W Y not allowed. W WWShifting .1 M.T .100 M.T or dent on Glass/ .100 O W O WW W C . 12.5.4.2 Seratches, bubble W C W . Y W W W Y W .T 00 W .T Bubble between W. .100 W.1 Y.COM W Polarizer/Reflector, OM W W W C . W W W Y W .T W Polarizer .100 W M.T .100 & Reflector/Glass: OM W O W C . W C W Y WW W(mm)00Y. W 0 W T . 0 W T Size Acceptable Qty . 1 M . OM W.1 WW 00Y.CO .TW WW .100Y.C M.TW Zone W W.1 Y.COM OA W W C B C . W W Y W W .100 M.T .100 W O Acceptable AccepΦ≦0.20 W WW WW .100Y.C M.TW table 3 0.20<Φ≦0.50 O W W WW .100Y.C M T . 2 0.50<Φ≦1.00W .CO W Y 0 W 0 Φ>1.00 W.10 W W -1113. CG ROM PATTERN WW .100Y.C M.TW WW .100Y.C M.TW WW 00Y.CO .TW WW 00Y.CO .TW W W W T .1 W.1 Y.COM W M. OM W O W C . W C W Y W .T W Y. W .100 M.T .100 OM W M.T .100 O W C . O W W C W W Y. CHART 00Y DOTS WPATTERN .TW (5×7 W WW .100Y.CCHARACTER M.T .1+CURSOR) .TW 100 M . O W M O W C . W .CO .TW WW .100Y .TW WW .100Y.C M.TW WW Higher M 00Y 4 bitM0000 O 1 W . O W 0101 0110 0111 1010 1011 0100 1101 .C 1110 W 4Y bit .CO .TW0010 0011 WW 1100 .TW 1111 00Y WW .100Y.C M.TW 1 0 WWLower M . 0 O 1 W O W OCGMRAM W. WW .100Y.C M.TW Y.C (1).TW WW .100Y.C M.TW 0 WWXXXX0000 0 O W O W OM W.1 WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O WW 00Y.CO .TW W WW 00Y.CO .TW C . W W W Y W W .1 W.1 Y.COM W M.T .100 OM W O W W XXXX0001 (2) C . W C W Y W .T W W WW .100Y. .100 M.T .100 OM W M.T O W C . O W W C W Y W WW .100Y. .TW WW .100Y.C M.TW M.T .100 M O W O W C O W WW .100Y. XXXX0010 .TW Y.C WW .100Y.C M.TW WW .100(3) M .TW O W M O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O WW 00Y.CO .TW W WW 00Y.CO .TW C . W W W Y W W XXXX0011 (4) M .1 .T 00 W.1 Y.COM W WW 00Y.CO .TW W.1 Y.COM W W W W W .T 00 W W.1 Y.COM W M.T .100 W.1 Y.COM W O W W W C . W .T W .T WW (5) .100 .TW 100 00Y M . OM 1 W XXXX0100 M . O W C . O W W C . Y W W .TW W .TW 100 00Y WW .100Y.C M.TW M . 1 M . O W O W O W WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O W O W O W XXXX0101 W (6) WW .100Y.C M.TW W Y.C WW .100Y.C M.TW 0 W T . 0 O W O W OM W.1 WW .100Y.C M.TW WW .100Y.C M.TW WW .100Y.C M.TW O W O W WW .100Y.C M.TW XXXX0110 W (7)WW 00Y.CO .TW WW .100Y.C M.TW O W O W OM W.1 WW .100Y.C M.T WW .100Y.C M.TW WW .100Y.C M.TW O WW 00Y.CO . W WW 00Y.CO .TW C . W W W Y W XXXX0111 (8)W M .1 .T 00 W.1 Y.COM W WW 00Y.CO W.1 Y.COM W W W W W .T 00 W W.1 Y.COM M.T .100 W.1 Y.COM W O W W W C . W W W .T .100 .TW 100 00Y M . O 1 W XXXX1000 (1) W M . O W O W WW .100Y.C WW .100Y.C M.TW WW .100Y.C M.TW O W O W O W WW .100Y.C WW .100Y.C M.TW WW .100Y.C M.TW W O W O W XXXX1001 (2) WW .100Y.C WW .100Y.C M.TW WW .100Y.C M.TW W O W O W WW .100Y. WW .100Y.C M.TW WW .100Y.C M.TW W O W O W WW .100Y XXXX1010 (3) WW .100Y.C M.TW WW .100Y.C M.TW W O W O W WW .100 WW .100Y.C M.TW WW .100Y.C M.TW O WW W WW 00Y.CO .TW C . W W W Y W W .1 XXXX1011 (4) .T 00 W.1 Y.COM W WW W.1 Y.COM W W W W W .T 00 W . .T 00 W.1 Y.COM W WW W.1 Y.COM W W W W W .T W .100 W M.T .100 XXXX1100 (5) OM W O W C . W C W Y WW W 0 W T . 0 WW .100Y. T . 1 OM W. OM W WW .100Y.C M.TW WW .100Y.C M.TW O W O W XXXX1101 (6) WW .100Y.C WW .100Y.C M.TW W O W WW WW .100Y.C M.TW O W XXXX1110 (7) WW .100Y.C M.TW O W WW .100Y.C W WW XXXX1111 (8) -12-