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1 T .1 .C M.T W W. 00Y.C OM. W Y W 00 .CO W 1 1 T C TW . . . . . W Y W Y W 00 M M W W O W 100 .CO 1 T TW . C . . . . W Y W Y W M M 0 W 00 .CO W W O 0 W 1 1 T T . C . . . W . W W 00Y W 00Y M M W O W W O W 1 1 T C T . C . . . . W . W W 00Y W 00Y M M W O W W O W 1 1 T C T . C . . . . W . W W 00Y W 00Y M M W O W W O W 1 1 T C T . C . . . . W . W Y W 00 W 00Y M M W O W O W 1 1 T C TW . C . . . . W . W Y W Y W 00 M 00 .COM .TW W O W 1 1 TW . C . . W . W DOT MATRIX Y W Y W M 0 00 .COM .TW W W O 0 W 1 1 T . C . . W . W W 00Y W 00Y M M LIQUID CRYSTAL DISPLAY W W O W W O W 1 1 T C T . C . . . . W . W W 00Y W 00Y M M W O W W O W 1 TW 1 T MODULE C T . C . . . . W . W W 00Y W 00Y M M W W O W W O W 1 T 1 T C T . . C . . . . W . W Y W 00 M W 00Y M M W O W W O W 1 TW 1 T C T . . C . . . . W . W Y W W 00Y M OM .TW 00 .COM .TW W O W 1 1 TW . C . . W . W Y W M Y W 00 M 00 .COM .TW W O W 1 TW CO 1 . . C . .T W . W Y W M Y W M M 0 0 W O W O 0 W O 0 W 1 T C 1 T C . . C . . . . W . W Y W 00Y M W 00Y M M W O W O W O W 1 T C 1 T C . . C . . . . W W W 00Y W 00Y. O M 00Y .COM .TW W O W W .1 .1 .C M.T W .C W Y Y W M Y W 0 0 0 W O W W 10 10 T 10 TW C . .CO M.LMG-SSC16016001DLGW . . . W .C LMG-SFC16016001DLGB W Y Y W Y W M 0 0 0 W O 0 O 0 W 1 10 LMG-SSC16016001DLYG TW .T . . .CLMG-SFC16016001DLGG WW W.1 W W. 00Y.C OM Y W 00Y M 0 W W O 0 W LMG-SSC16016001DLNW LMG-SFC16016001DLNW W 1 . .1 .C M.T .1 .C M.T W W Y W Y W W 0 0 0 W O W W O 0 W 0 W 10 1 T C 1 T . C . . . . . . W W W 00Y W 00Y M W M W O W W O W W 1 1 T . . .C M. PROPOSED BY .1 .T W .CAPPROVED W W Y W Y W W M 0 0 0 W O W W 10 TW T C . . Approved .CODesign . WW W.1 . W W Y W 00Y W M 00 .COM .TW W W O W W 1 1 T . C . . W . W W Y W Y W M M 0 0 W O 0 W W TW .10 Y.CO .C M.T . WW W.1 W W Y W M 0 W 00 .CO W W O 0 W 1 1 T T . C . . . W . W W W 00Y Y W M M 0 W O W W O 0 W .1 .1 .C M.T W .C M.T W W Y W Y W 0 0 W O 0 W W O 0 W .1 .1 .C M.T W .C M.T W Y W Y W 0 0 W 0 W O W 10 T C . .CO M.T . WW W.1 . W Y W 00Y M W 00 .CO W W O W 1 1 T T . C . . . W . W Y W W 00Y M 00 .COM .TW W O W 1 1 TW . C . . W . W Y W Y W M 0 00 .COM .TW W O 0 W 1 1 TW . C . . W . W Y W Y W M M 0 W 00 .CO W W O 0 W 1 1 T T . C . . . W . W W 00Y W 00Y M W O W OM .T W 1 1 T C . C . . . W . W W 00Y W M 0Y W OM LMG-S16016001-LED Serial USER‘ MANUAL SDEC TECHNOLOGY CORP. 1 T .1 .C M.T W W. 00Y.C OM. W Y W 00 .CO W 1 1 T C TW . . . . . W Y W Y W 00 M M W W O W 100 .CO 1 T TW . C . . . . W CONTENTS Y W Y W M M 0 W 00 .CO W W O 0 W 1 1 T T . C . . . W . W W 00Y W 00Y M M W O W W O W PAGE 1 1 T C T . C . . . . W . W W1. Mechanical W 00Y M M 0Y Specification 2 W O 0 W W O W 1 1 T C T C . . . . W 2 W.Mechanical . W W 00Y 2 M OM .TW 00Y .Diagram W W O W 1 1 C T . . W 3. W .C M. W Interface Pin Connections 2 Y Y W M 0 0 W O 0 W W O 0 W 3 .1 Absolute .1 .T Ratings .C Maximum W4. Electrical .C M.T W Y W Y W M 0 W Ratings O Maximum 5. W Environmental 00 .CO W 10 Absolute 1 T C TW 3 . . . . . W W Y W Y W M 6. Electrical Characteristics 3 0 00 .COM .TW W W O 0 W 1 1 T . C . W 7. W TimingW Control Y 3 Y. OM. W W M 0 0 W W O 0 W 0 W 1 . 8. Application Circuit .1 .C M.T W .C M.T 3 W Y W Y W 0 0 W O O 0 W 9. Instruction 4TW 10 TW 1 T C . C . . . . WW Set . W WInstructions W 00Y M M5 W 0Y 10. Description Of W W O 0 W O W 1 T 1 T C . . . .T WMap W. .C 13 W Y M. W 11. Memory Y W M M W W 00 .CO14 .TW W 100 .CO T 12. Initializing 1 T . . . . And Programming W W W 00Y W 00Y M M OM .TW W O W O W 13. Reliability Condition 15 1 1 T C TW . C . . . . W . W Y W M Y W 00 15 OM M W O W 100Criteria T14.WFunctional TestW&WInspection CO T C . . .1 . . .C M.T W Y W M Y W M 0 0 W O W O 0 W O 0 W 1 T C 1 T C . . C . . . . W . W Y W 00Y M W 00Y M M W O W O W O W 1 T C 1 T C . . C . . . . W W W 00Y W 00Y. O M 00Y .COM .TW W O W W .1 .1 .C M.T W .C W Y Y W M Y W 0 0 0 W O W W 10 10 10 TW C . .CO M.T . . . W .C W Y Y W Y W M 0 0 0 W O 0 W 0 W 1 T 10 . .CO M.T WW W.1 W W. 00Y.C OM. W Y W 00Y 0 W O 0 W W 1 . .1 .C M.T .1 .C M.T W W Y W Y W W 0 0 0 W O W W O 0 W 0 W 10 1 T C 1 T . C . . . . . . W W W 00Y W 00Y M W M W O W W O W W 1 1 T . . .C M. .1 W .C M.T W W Y W Y W W 0 0 W 0 W O W W 10 T C . .CO M.T . WW W.1 . W W Y W 00Y W M W 00 .CO W W O W W 1 1 T T . C . . . W . W W Y W Y W M M 0 0 W O 0 W W TW .10 Y.CO .C M.T . WW W.1 W W Y W M 0 W 00 .CO W W O 0 W 1 1 T T . C . . . W . W W W 00Y Y W M M 0 W O W W O 0 W .1 .1 .C M.T W .C M.T W W Y W Y W 0 0 W O 0 W W O 0 W .1 .1 .C M.T W .C M.T W Y W Y W 0 0 W 0 W O W 10 T C . .CO M.T . WW W.1 . W Y W 00Y M W 00 .CO W W O W 1 1 T T . C . . . W . W Y W W 00Y M 00 .COM .TW W O W 1 1 TW . C . . W . W Y W Y W M 0 00 .COM .TW W O 0 W 1 1 TW . C . . W . W Y W Y W M M 0 W O 00 1 (LMG-S16016001-LED W W O 0 W 1 PAGE Serial) 1 T C T . C . . . . W . W W 00Y W 00Y M W O W OM .T W 1 1 T C . C . . . W . W W 00Y W M 0Y W OM 1 T .1 .C M.T W W. 00Y.C OM. W Y W 00 .CO W 1 1 T C TW . . . . . W Y W Y W 00 M M W O W O W 1001. Mechanical 1 T C TW . C . . . . . Specification W Y W Y W M M 0 VALUE 00 .COITEM .TW W W O 0 STANDARD UNIT W 1 1 T . C . . W . W DOT MATRIX FORMAT 160 X 160 DOTS -Y W Y W M M 0 0 Controller IC ST7529 or equivalent O -W O 0 W W 0 W 1 MODULE 1 T C T . C . . . . DIMENSION 94.5 (W) X 74.5 (H) X 8.4 (T) mm W . W W VIEWING Y(H) OM W74.0 (W)0X064.4 M 0Y DISPLAY AREA mm W O 0 W W W 1 1 ACTIVE DISPLAY AREA 55.98 (W) X 55.98 (H) C mm T C T . . . . . W . W Y W DOT SIZE 0.33 (W) X 0.33 (H) mm Y W M M 0 W O W 00(H) .CO W0.35 (W) .X10.35 mm T C T .10 DOT PITCH . . . WW WLMG-SSC16016001DLGW W STN , Gray , 1/160 Duty , 1/13 Bias , 6 O‘clock, LED Backlight ( color is White ) Y Y ( colorOisMBlue ) W W 00Backlight M FSTNW, Gray , 1/160 Duty , 1/13 BiasW 0 LMG-SFC16016001DLGB , 6 O‘clock, LED O 0 W 1 1 T C . . , LEDYBacklight .STN , Yellow Green , 1/160 DutyW, 1/13 BiasW LMG-SSC16016001DLYG , 6 O‘clock ( color is.T Green ) . W .C Y W M M LMG-SFC16016001DLGG FSTN , Gray , 1/160 Duty , 1/13 Bias , 6 O‘clock , LED Backlight ( color is Green ) 0 0 W O 0 O ) .TW W LED.Backlight STN , 6 O‘clock, 10 ( color .1 .T, Blue , 1/160 Duty , 1/13 BiasW .C M WWLMG-SSC16016001DLNW .Cis White Y LMG-SFC16016001DLNW FSTN , Black , 1/160 Duty , 1/13 Bias , 6 O‘clockW , LED BacklightY ( color is WhiteM ) W 0 0 W O 0 W W O 0 W LED Backlight Color Blue / White / 1 Green 1 T C T . C . . . . W Backlight . W Input DC +3.2V V 117 mA Y W Y W M M 0 Continue Light00 W W O W W O 0 1,000W .1Brightness) (25℃ / IF=15mA / 80% .1 .C M.T W .C M.THR. W W Y W Backlight Half-Lift Time 0Y 3,000 W HR.W W O 0 W / 60% Brightness) 00 .CO (25℃/ IF=15mA 1 TW 1 T C T . . . . . W W DiscontinuousW Light Y Y W M M 0 0 (Everyday Less Than 10 HR.) 8,000 HR. O W W O W 10 TW 10 TW C T (25℃/ IF=15mA / 40% Brightness) . . C . . . . W . W Y W 00 M W 00Y M Electronic Static Defend 500 MV W O W W O W 1 TW 2. Mechanical 1 T C T . . C . . . . W . W Diagram Y W W 00Y M OM .TW 00 .COM .TW W O W 1 1 TW . C . . W . W Y W M Y W 00 M 00 .COM .TW W O W 1 TW CO 1 . . C . .T W . W Y W M Y W M M 0 0 W O W O 0 W O 0 W 1 T C 1 T C . . C . . . . W . W Y W 00Y M W 00Y M M W O W O W O W 1 T C 1 T C . . C . . . . W W W 00Y W 00Y. O M 00Y .COM .TW W O W W .1 .1 .C M.T W .C W Y Y W M Y W 0 0 0 W O W W 10 10 10 TW C . .CO M.T . . . W .C W Y Y W Y W M 0 0 0 W O 0 W 0 W 1 T 10 . .CO M.T WW W.1 W W. 00Y.C OM. W Y W 00Y 0 W O 0 W W 1 . .1 .C M.T .1 .C M.T W W Y W Y W W 0 0 0 W O W W O 0 W 0 W 10 1 T C 1 T . C . . . . . . W W W 00Y W 00Y M W M W O W W O W W 1 1 T . . .C M. .1 W .C M.T W W Y W Y W W 0 0 W 0 W O W W 10 T C . .CO M.T . WW W.1 . W W Y W 00Y W M W 00 .CO W W O W W 1 1 T T . C . . . W . W W Y W Y W M M 0 0 W O 0 W W TW .10 Y.CO .C M.T . WW W.1 W W Y W M 0 3.W Interface W O 00Pin Connections W O 0 W 1 1 T C T . C . . . . W . W W W 00Y Y W M M 0 W O W W O 0 W .1 .1 .C M.T W .C M.T W W Y W Y W 0 0 W O 0 W W O 0 W .1 .1 .C M.T W .C M.T W Y W Y W 0 0 W 0 W O W 10 T C . .CO M.T . WW W.1 . W Y W 00Y M W 00 .CO W W O W 1 1 T T . C . . . W . W Y W W 00Y M 00 .COM .TW W O W 1 1 TW . C . . W . W Y W Y W M 0 00 .COM .TW W O 0 W 1 1 TW . C . . W . W Y W Y W M M 0 W 00 .CO W W O 0 W 1 1 T T . C . . . W . W W 00Y W 00Y M W O W OM .T W PAGE 2 (LMG-S16016001-LED Serial) 1 1 T C . C . . . W . W W 00Y W M 0Y W OM 94.5±0.2 (V/A)74.4 1.6 1.5 7.0 3.5 1.6(定 位 柱 ) (D/A)55.98 A 25.4±0.2 (V/A)60.4 (D/A)55.98 74.5±0.2 A K (定位柱)71.5±0.2 74.5±0.2 "C" "C" (D/A0)55.98 K 58.95±1.0 53.95 3.0 LEVEL - - H/L L H/L H/L H/L H/L H/L H/L H/L H/L L L H/L H/L H/L H/L H/L L (硬護貝) 5.0 SYM VSS VDD A0 RW_WR DB0 DB1 DB2 DB3 DB4 DB5 DB6 DB7 E_RD RESET IF1 IF2 IF3 SI SCL XCS 0.02 3.0 (露銅箔) "A" "B" 0.5 NO 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 定位柱 (D/A)55.98 1 (FPC) 0.25 0.33 0.33 ST7529G 13.26 11.05 40 0.25 0.02 2.0 24.5 "A" "B" P(0.5)*39=19.5 0.3±0.05 20.5 FUNCTION 0V +3.3V A0 = H : Data , A0 = L : Command 68 Series : RW ; 80 Series : /WR DATA BIT0 DATA BIT1 DATA BIT2 DATA BIT3 DATA BIT4 DATA BIT5 DATA BIT6 DATA BIT7 68 Series : E ; 80 Series : /RD CONTROLLER RESET Interface Mode Select Interface Mode Select Interface Mode Select Series Data Input Series Clock Input CHIP ENABLE SIGNAL NO 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 SYM LEVEL FUNCTION VDD - +3.3V C7+ - The Step-up Voltage Capacitance C1- The Step-up Voltage Capacitance C5+ - The Step-up Voltage Capacitance C3+ - The Step-up Voltage Capacitance C1- The Step-up Voltage Capacitance C1+ - The Step-up Voltage Capacitance C2+ - The Step-up Voltage Capacitance C2- The Step-up Voltage Capacitance C4+ - The Step-up Voltage Capacitance C2- The Step-up Voltage Capacitance C6+ - The Step-up Voltage Capacitance VLCD - LCD Driver Supply Voltages VREF - Reference Voltage Output For Monitor Only. Leave it Open V4 - LCD Driver Supply Voltages V3 - LCD Driver Supply Voltages V2 - LCD Driver Supply Voltages V1 - LCD Driver Supply Voltages V0OUT - LCD Driver Supply Voltages V0IN - LCD Driver Supply Voltages 1 T .1 .C M.T W W. 00Y.C OM. W Y W 00 .CO W 1 1 T C TW . . . . . W Y W Y W 00 M M W O W O W 1004. Electrical 1 T C TW . C . . . . . Absolute Maximum Ratings W Y W Y W M 0 MIN. OMTYPE W MAX. 00 .CO ITEM.TW W 0 W SYMBOL UNIT 1 1 . . W .C M3.3.T W Y W Y W VDD-VSS 2.4 3.6 V M SUPPLY VOLTAGE FOR LOGIC 0 04.0 W O 0 W W O 0 W 1 V0-SS -18.0 V 1 T SUPPLY VOLTAGE FOR LCD . C . .C M. .T W . W Y W Y W M VI VSS0 VDD V 0 INPUT VOLAGE W O-- .TW 0 W 1 T .10 Y.CO C . . WW 5.W . W W 00Y M maximum Environmental absolute ratings M 0 W O 0 W W O W 1 1 T C T . C . . . . W . W ITEM OPERATING STORAGE REMARKS Y W 00 Y W 00MAX. M MIN.W MAX. M MIN. O W W-O W 1 1 T C TNOTE . C . . . . W Ambient . W 1 Temperature 0 °C 50 °C -10 °C 60 °C Y W Y W 00 M M Condensation 0 W O 0 W W O W NOTE 1 NOTE 2 Without Humidity 1 T .1 .T 4.9m/s .C M .Directions W Vibration .C XYZ W-- W.19.6m/s Y -W Y M 0 0 O -- .TW29.4m/s W Shock.10 W OXYZ Directions 0 -- W 490.0m/s 1 C T C . . . W . W W 00Y W 00Y M Remarks: M W W O W W O W 1 1 NOTE W (1) : Ta at 60 °C : .C 50 HR Max..T T . C . . . W W< 40 °C0:0Y 95% RH W 00Y M M NOTE (2) : Ta Max. W O W W O W 1 TW 1 T T Absolute must be lower than the humidity of 95% at 40.C °C. . . .C humidity . W Ta >W40. °C : Y W W 00Y M M 0 W W O 0 W W O W 6. Electrical Characteristics 1 T 1 T C T . . C . . . . W . W Y W 00 M W 00Y M MUNIT W W O W O W ITEM SYN CONDITION MIN. TYPE MAX. 1 TW 1 T C . . . . .T W FOR W 2.4 W. 3.3 Y.C -3.6 V SUPPLY VOLTAGE LOGIC0Y VDD-VSS W M M M O WTa= 25℃ O WFOR LCD 00 18.0.CO V .TW W VLCD --10 TW SUPPLY VOLTAGE 1 T C . . . . . W W W 00Y VIH OM M Y -0.7VDD W -VDD VM INPUT HIGH VOLTAGE 0 W O W W O 0 W 1 T INPUT LOW VOLTAGE C 1 T VIL -0 -0.3VDD C . . C . . . W . V M.T W Y W M Y W M 0 0 W O 7..T W O 0 W O 0 W 1 Timing Control C 1 T C . C . . . . W . W Y Y W 00MPU) M W 00Y M M MPU Bus Read/Write(80-family MPU Bus Read/Write(68-family W O W O W O W 1 T C 1 T C . . C . . . . W MPU) W W 00Y W 00Y. O M 00Y .COM .TW W O W W .1 .1 .C M.T W .C W Y Y W M Y W 0 0 0 W O W W 10 10 10 TW C . .CO M.T . . . W .C W Y Y W Y W M 0 0 0 W O 0 W 0 W 1 T 10 . .CO M.T WW W.1 W W. 00Y.C OM. W Y W 00Y 0 W O 0 W W 1 . .1 .C M.T .1 .C M.T W W Y W Y W W 0 0 0 W O W W O 0 W 0 W 10 1 T C 1 T . C . . . . . . W W W 00Y W 00Y M W M W O W W O W W 1 1 T . Symbol Limit Unit . Limit (Min.) . .C Item .1 .T(Max.) W .C M W W Y W Y W M W 0 tCYC 240 -ns 0 System cycle time 0 W W 10 0 .CO --.TW . .TW .COsetupMtime tAW ns W WW W.1 Address W Y W 000Y W M-- W tAH ns hold time W O 00Address W O W W 1 1 T C T . C .240 Y. W tCC W -- . ns Control width. W Y. pulseO W W M M 0 0 W tDS 40 -ns 0 Data setup time W W W 10 .Ctime M.T WW W.1 Data Y .CO-- M.T W W tDH 10. ns hold Y W 0 W tOH O 00disable.Ctime W W ns O 0 W 5 50 Output 1 1 T T . C . . . W . W W tACC --W ns Y time OM WREAD0access Y 70 OM 0 0 W W W 0 tEW 140 --C Enable Read .T .1 .1 .C Write .T nsns W Pulse . WW W W width 0Y Y 80 W -M M 0 W O 0 W W O 0 W -and .1Fall timeY.C .1 10Y.C .T tR,tF .Tns W RiseW W W M M W 00 .CO W 00 .CO W 1 T T . . . WW W.1 W Y W 00Y M 00 .COM .TW W W O W 1 1 T . C . . W . W Y W W 00Y M 00 .COM .TW W O W 1 1 TW . C . . W . W Y W Y W M 0 00 .COM .TW W O 0 W 1 1 TW . C . . W . W Y W Y W M M 0 W O 00 3 (LMG-S16016001-LED W W O 0 W 1 1 T C T . C . . PAGE Serial) . . W . W W 00Y W 00Y M W O W OM .T W 1 1 T C . C . . . W . W W 00Y W M 0Y W OM 2 2 2 2 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 1 T .1 .C M.T W W. 00Y.C OM. W Y W 00 .CO W 1 1 T C TW . . . . . W Y W Y W 00 M M W O W O W 1008. Application 1 T C TW . C . . . . . Circuit W Y W Y W M M 0 W 00 .CO W W O 0 W 1 1 T T . C . . . W . W W 00Y W 00Y ST7529 M M W O W W O W 1 1 T C T . C . . . . W . W W 00Y W 00Y M M W O W W O W 1 1 T C T . C . . . . W . W W 00Y W 00Y M M W O W W O W 1 1 T C T . C . . . . W . W Y W 00 W 00Y M M W O W O W 1 1 T C TW . C . . . . W . MPU W Y W Y W M M 0 0 W O 0 W TW .10 Y.CO .C M.T . WW W.1 W Y W M 0 W 00 .CO W W O 0 W 1 1 T T . C . . . W . W Y W W 00Y M M W W IF1 IF3 RW_WR 00E_RD O W W O W 1 1 T C T . C . . . . . W 0 W 1 R/W E 68 Series W /RD W 00Y M M 0Y W O 0 1 0 /WR 80 Series W W O W 1 TW 1 T C T . C . . . . W . W W 00Y W 00Y M M W W O W W O W 1 T 1 T C T . . C . . . . W . W Y W 00 M W 00Y M M Set W O W W O W 1 TW 9. Instruction 1 T C T . . C . . . . W . W Y W W 00Y M Ext=0 or Ext=1 W OM .TIndex W 00 D6 .CD5OM W O W 1 Command A0 RD WR .1D7 D4 D3 D2 D3 D0 Function Hex Parameter T TW C . . . W . W Y W M Y 1 Ext In 0 1 0 0 Ext=0 Set W 30 0 None M 00 1 1 M 0 0 0 0 W Ext=1 Set 310 None O T2 W Ext Out 0 W1 W 0 0.10 0 1.CO1 0 .T0W 0 1 CO 1 . C . .T . W Y W M Y W M M 0 0 W O Ext=0 W O 0 W O 0 W 1 T C 1 T C . . C . . . . W . W Y Command A0 RD WR W D7 D6 D5Y D4 Function Hex MIndex W W Parameter MD21 D11 WD01 M 0 0 D3O 0Y O O 0 W 1 DISON 0 1 0W 1 0 10 1 1 Display On AF None T C 1 T C . . C . . . . W 2 DISOFF 0 1 0 1 W0 1 0 Display Off W AE W None Y0 10 O11M 11 W Y. O 0 W 00Y .COM 3 DISNOR 0 1 0 1 0 10 0 0 Normal Display A6 None 00 W W 1 0 .0C 1 1 .T 1 Inverse Display WA7 .T .1 .C 4 DISINV 0 1 0W 1 0 . 1 None Y Y W M Y W M 0 0 0 5 COMSCN 0 1 0 1 0 1 1 1 0 1 1 COM Scan Direction BB 1 byte W W1 0 .100 1 .C0O 1 .0TWDisplay Control CA W 3 bytes .10 10 .T DISCTRL 0 1 0 W 1 .C6O M .C W Y Y W 0 7 SLPIN W0 1 0 1 0 W 0 1 00Y 1 0M1 Sleep In 95 None 0 O 0 0 0 1.CO0 0 .TWSleep Out WNone .10 1 T 0 1 0 1 WW SLPOUT 0 0 11 94 . . W W. 00Y.89C O Y W M Y LASET 0 1 0 0 1 1 1 00 1 0 1 Line Address Set 75 2 bytes W M 0 W W O 0 W 0 W 10 CASET 0 1 0 0 0 0 1 0 1 0 1 Column Address Set 15 2 bytes 1 . .1 1 1 Y.C0 0 Data .T0 1 0 1 W .C DATSDR .TScan Direction BC W3 bytes W.1 11Y 0 1 1 W W M M 0 0 0 O W O 0 W 1 0 0 1 0W 1 1 01 0 0 Writing toW Memory 5C Data W 0 10 1213 .RAMWR 1 T C 1 T . C . . . . . W 1 W1 1 from Memory 5D Data W 1400Y RAMRD Y0 10 OReading M 00 11W 00 01 10 W01 W W M PTLINO 0 1 000 0 Partial display in A8 2 bytes W W W 1 1 T . 15 PTLOUT .C M .1 .T out A9 W 0 . 1 0 1 0 1W 0 1 . 0 0 NoneW .1C PartialMdisplay Y W Y W W 0 0 16 RMWIN 0 1 0 1 1 1 0 0 0 0 0 Read and Modify Write E0 None 0 W1 1 .101 0 .CORMW end.TW EE W CO 0 1.TW 0 1 1 1 W 0 None . WW W1718.1 RMWOUT W Y W M Set WAA 4 bytes 0 M1 0 1 0 1 0 1 W 0 1 0Y 0 Area Scroll 0 W O 0ASCSET W O 0 W W 1 9 .1SCSTART .C 0 1 0 1 0 1 0 1 0 1 1 Scroll Start Set AB 1 byte 1 T T C . D1 W W 0 0W. 0 1 Y.Internal OSCM W Y 0 O1M. 0 W 2W 0 OSCON 1 1 0 1 on None 0 0 0 O 0 W 0 1 10 OSC off W 1 TD220W 1None .OSCOFF . 00 Internal .00C 11 M00 .T 10 10 01 10 W . WW2122 WPWRCTRL .CControl W 0 0 0 Power byte Y Y W M 81 W 2 bytes 00 0 .C1O 0 .1TW0 0 0 0 0W 0 .1100 EC control 23 VOLCTRL W O 1 . C W24 W . 1 MD6.T None VOLUP 0Y 1 0 1 1 0 1 0 W1 1 0 EC increase W Y W M 0 0 25 W VOLDOWN0 0 1 0 1 1W 0 1 0 1 W 1 1 EC decrease 1 O D7 None O W 0 .1 0 Y1.C 0 1 .T0 0 0 0 W 26 RESERVED 0 1 0 .1 Not Use.C 82 .T 0 W W W Y W M M NoneW 27 EPSRRD1 00 1 0 0 1 1 1 1 1 0 0 READ0 Register1 7C W O 0 W O 0 W 1 Register2.C 7D .TNone 28 W EPSRRD2 .1 0 1 .C 0 0 1.T 1 1 1 1 0 1 READ .NOP W Y W 29 NOP W 0 1 0 0 0 1 0 0 1 0 1 Instruction M 0 0Y 25OM None W W O 0 W 0 W 1 1 T 30 STREAD 0 0 1 Read Data Status Read C . . . . W .C M.T W Y W Y W M 31 EPINT 0 100 0 0 O0 0 0 0 1 1 1 W 00 07.CO 1 byte.TW W Initial code(1) 1 T C . . . WW W.1 W Y W 00Y M M 0 W O 0 W O W 1 1 T C TW . C . . . . W . W Y W Y W M 0 00 .COM .TW W O 0 W 1 1 TW . C . . W . W Y W Y W M M 0 W 00 .CO W W O 0 W 1 1 T T . C . . . W . W WPAGE004Y(LMG-S16016001-LED W 00Y M Serial) W O W OM .T W 1 1 T C . C . . . W . W W 00Y W M 0Y W OM TO V0OUT V0IN C6+ C2- C2+ C1+ C4+ C3+ C1- C5+ VLCD C7+ VSS V4 V3 V2 V0OUT V1 V0IN V0OUT V1 V2 V3 V4 VREF VLCD C6+ C2C4+ C2C2+ C1+ C1C3+ C5+ C1C7+ VDD XCS SCL SI IF3 IF2 IF1 RESET E_RD DB7 DB6 DB5 DB4 DB3 DB2 DB1 DB0 RW_WR A0 VDD VSS or EXTERN DC+18V C C C C C C C C C C 105P 105P 105P 105P 105P 105P 105P 105P 105P 105P C C 105P 105P IF2 SCL SI VDD RESET XCS DB7 DB6 DB5 DB4 DB3 DB2 DB1 DB0 E_RD RW_WR A0 VDD VSS 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 1 T .1 .C M.T W W. 00Y.C OM. W Y W 00 .CO W 1 1 T C TW . . . . . W Y W Y W 00 M M W W O W 100Ext=1 .CO 1 T TW . C . . . . W Y W Y W M 0 D1 D0 OM Function Index D4 D3 D2 O A0 .TRDW WR D7 D6 D5 W 00 Command W W Hex Parameter 0 1 1 C . C . FRAME 1.T Gray PWM . W . W 0 1 0 0 0 1 0 0 0 W 1 00YGray 1 Set OM W MSet W 20 16 bytes 00 Y 0 FRAME W W O 0 W 1 1 T .2 GrayY2.SetC 0 1. 0 0 0 1 W0 0 0. 0 Y1 .C 2SetGray.TPWM 21 16 bytes W W W 00 M M 0 W W22 3 bytes O W 3 10 Wt. Set CO 0 1 0W 0 0 1 0 0 0 1 0 Weight Set 1 T T . C . . . . W . W 4 ANASET 0 1 0 0 0 1 1 0 0 1 0 Analog Circuit Set 32 3 bytes Y W W 0 000YDitheringOCircuit M 0 W MOff W 0 0 5 DITHOFF 0 O1 0 0 1 1 0 W1 34 None W T 0 0 1 1 W0 1 0 .1 1 Dithering T C W 6 W.1DITHON Y.C . 0 1 0. Circuit On . 35 None Y W M M 0 0 7 EPCTIN 0 1 0 1 1 0 0 1 1 0 1 Control EEPROM CD 1 byte W None O 0 Cancel.EEPROM 10 0 .C1O 0 .T1 W1 0 0 1 WW T . C . 8 EPCOUT 1 0 01 CC . WW Y W Yto EEPROMOM FC WNone 9 EPMWR 0 1 0M 1 1 1 1 1 1 0 W0 Write 0 0 W O 0 W 0 W 10 EPMRD 1 0 1 .1Read from EEPROM FD .T None .1 0 Y.1C 0 1 .T 1 1 1 1 W W .C M W Y W M 0 0 Note: The table above0is for 8-bit interface. interface, 0 with 0,.CandOother bits.TareWjust W fill D15~8 1 above. .CO For.TtheWapplication of 16-bitW 1 . . the same with the table WW W 00Y W 00Y M M W W O W W O W 1 1 T C T . C . . . . W . W 10. DescriptionW Of Instructions W 00Y M M 0Y W O 0 W W O W 1 TW 1 T C T C . . . . W or "1"W. . EXT= "0" W W 00Y M 0Y(EXT IN)O-M W W 0 W W O W (1) Extension instruction disable Parameter Byte: None (30H) 1 T 1 T C T . . C . . . . W . W Y M W 00Y M command WWtable.100 .COM .TW W O W TW Use the "EXT=0"W 1 T . C . . . W A0 RD WR D7 D6 D5 D4 D3 D2 D1 D0 Y W W 00Y M 0 0 0 OM1 1W 0 0 0 W OM .TW Command O 0 W 1 00 0 1 1 T C TW . C . . . . W . W Y W M Y W 00 M Byte: W M 0 - Parameter enable (EXT0OUT) None (31H) O W O W 1 T(2)WExtension instruction CO 1 T C . . C . . . .T W . W Y Use the extended command table EXT="1" W M Y W M M 0 0 W O W WR .1D70 D6 .CD5O D4 .TD3W D2 D1 D0 W O 0 T C 1 . A0 RD C . . W . W Y W 0 000 Y 1 OM M Command W 00Y M 0 1 0 1 0 W0 0 1 W O W O W 1 T C 1 T C . . C . . . . W W W 00Y M "0"W W 00Y. O M 00Y .COEXT= W O W W 1 (AFH).C .None .T ON (DISON) - Parameter .1 .T W Byte: .C W (1) M Display Y Y W Y W M 0 0 0 W W are generated at theW Ocommon.Toutputs 0 segment.Cand W 10 1on, T display on. When the W 10 . is to turn .the display is turned level .CItO . .C W Y Y W As long M to theWdisplay data and displayW Y W M 0 corresponding timing. as the sleep mode is selected, the display cannot be turned 0 0 O 0 0 be cancelled W 1 T 10 TW .1must this command,W the sleep mode . . .CO first. W W. 00Yon..CThus,Owhenever Y W M. A0 using W 00Y M D3 WD2 0 RD WR D7W D6 D5 D4O D1 D0 W W 0 1 T 1 . .1 1 Y.C0 .C M0.T 1 .1 W1 W Command 0 0 1. 1 1 Y W W W M 0 0 0 W - Parameter Byte: W O OFF (DISOFF) W W O 0 0 W 10(2) Display 1 T C 1 T . C None (AEH) . . . . . . W W 00Y W 00Y Mthe displayWoff. As long as theWdisplay W M O W W O W It is to forcibly turn is turned off, every segment and common outputs are forced to W 1 1 T . VSS level.Y.C . . .1 W .C M.T W W W Y W M W 0 0 W 0 W D5 .10D4 .CD3O D2 .TWD1 W D6 D0 .CA0O MRD.T WR D7 W WW W.1 W Y W 000Y 1 OM1 W Command00 0 O 1 0 1 0 1 1 0 W W W W W 1 1 T C T . C . - Parameter Byte: None . W (3)W Normal display . W(A6H) W. W Y. (DISNOR) Y M M 0 0 W O 0 O W W 10 data.RAM. Tarea without modifying W TW .1 highlight C . .C the display . WWIt is toWnormally contents of the.display W Y Y W 0 D2 OMD1 WD0 00A0 .CRDOM WR.TWD7 W 0 D6 D5 W D4 D3 1 1 . . .T 0 WCommandW 0 Y 1 M0 .C M W W 1 0 1 0W 0 0Y 1 1 0 W O 0 W W O 0 .1 .T Byte: None (A7) WW W.1 .C - Parameter W Inverse .C M.T W (4) display (DISINV) Y W Y M 0 0 W O 0 W W O 0 W It is W to inversely highlight without .1 theYdisplay .1 RAM. This .T modifying contents ofWthe displayWdata .C areaM .T not .CcommandMdoes W Y invert non-display areas in case of using partial display. O 00 W D3 .10D20 .D1CO D0 .TW TWD6 WW A0W.1 RD Y.CWR M D7 . D5 D4 W W 1 00Y 1 OM 0 0 O1 W W W Command 0 10 0 1 0 0 1 W 1 1 T C T . C . . . . W . W Y W W 00Y M 00 .COM .TW W O W 1 1 TW . C . . W . W Y W Y W M 0 00 .COM .TW W O 0 W 1 1 TW . C . . W . W Y W Y W M M 0 W 00 .CO W W O 0 W 1 1 T T . C . . . W . W WPAGE005Y(LMG-S16016001-LED W 00Y M Serial) W O W OM .T W 1 1 T C . C . . . W . W W 00Y W M 0Y W OM 1 T .1 .C M.T W W. 00Y.C OM. W Y W 00 .CO W 1 1 T C TW . . . . . W Y W Y W 00 M M W W O W 100 .CO 1 T TW . C . . . . Y (5) 0Common scan (COMSCN) – Parameter W Byte : 1 (BBH) W Y W M M 0 W 0us specify.CtheOcommon.output W W O 0 W 1 1 T T . C . It scan direction. This command is for the convenience of wiring on the LCD panel. . W . W Y W Y W M M 0 A0 RD WR D7 D6 D5 D4 D3 D2 D1 D0 Function 0 O 1 .C 1 TW -.10CommandY.CO 0 .1TW0 1 0 1WW1 1 .100 Y . WW WParameter Byte * CD2 0 CD1 CD0 M CommonWScan direction 0 1 (PB1) O1 M 1 0W * * * *WW 0 W O 0 1 1 T . 1/160 is selected C order shown . duty, pins and common .C for the .Tbelow. W When W outputW display are. scanned Y in .the Y W M M 0 0 O 0 W pin O W Common CD0 10scan direction TW T C . . .C COM0 pin W COM79 pin COM80 pin .COM159 WW W.1 CD2 CD1 . Y W 00Y 80OM-> 159 W 0 -> 79 000 0 00 01.COM .TW W W 1 0 -> 79 . .1 .80T W .C80159 ->->M159 W W Y W M 0 10Y 0 79 -> 0 W 79 -> 0 W O 0 100 .159 CO-> 80 .TW . WW W.01 1 1 Y.C M.T W Y W M 0 (6) Display control (DISCTRL) Parameter Byte W: 3 (CAH) 00 .C– O W W O 0 W 1 1 T T . C . . . W . W YThis command This command W and succeeding W setups. Mare used toWperform the display timing-related M must beW 0Yparameters 0 W O 0 W O 0 W selected before using SLPOUT. Do not change this command while the display is turned on. 1 . RD YWR C .C D7 MD6.T D5 D4 D3 D2W D1 D0W.1 .T W .Function A0 W Y M 0 0 W 0 Command W 0 10 1 0 1O 0 1W 1 1 0 1 W1 -- O TW 1 T C T . C . . . . W . W CL dividing ratio. F1 and F2 drive M Parameter Byte 1 (PB1) W 1 1 0 0 CLD 0 0 W 00Y * O*M * W 0Y W pattern 0 W W O 0 W 1 T 1 T C T . . C . . Parameter Byte 1W (PB2) 1 1 0 *. * DT5. DT4 DT3 DT2 DT1WDT0 Drive duty . Y W1 00 0 * *OM* FI WLF3 LF2 LF1 LF0 W DR inverse-set M 0Y value OM Parameter Byte 1 (PB3) W 1 W 0 W 1 TW PB1 1 T C T . . C . . specifies the W CL dividing ratio. . . . W Y W Wclock. 00Y Mof dividing M CLD: CL dividing ratio. W They are used0to0change number stages of external or internal OM .TW W O O W 1 1 T C TW . C . . CLD=0 : not divide. W CLD=1 : 2 divisions. . . . W Y W M Y W 00 M: 00H W M 0 basis. Initial module on block Wspecifies the duty of theW O 0 O W 1 TPB2 CO 1 T C . . C . . + DT4*2 +.DT3*2 + DT2*2 + DT1*2 + DT0*2 W (Numbers of display lines)/4-1=DT5*2 .T W . Y W M Y W M M 0 0 For example, 1/128 duty -> 128/4-1=31 -> (DT5,DT4,DT3,DT2,DT1,DT0) = (0,1,1,1,1,1) W O 0 2 to 16).CinOa frame. .TW W (range.1from O 0 W T C 1 . C . . PB3 specifies number of line cycles W . W Y W 00Y+ LF0*2OM MNumbersW W 00Y M LF2*2 + LF1*2 of line cycles-1=LF3*2 +W O W O W 1 T C 1 T C . . C . . . . For example, 11 line cycles in a frame -> 11-1=10 -> (LF3,LF2,LF1,LF0) = (1,0,1,0) W W Y W W 00Y. O M the default, 11 line cycles in a frameW is selected. 00 W 00Y .COInM W O W 1 .of1commonYscan .Tthe inversion type of frame .Tthe number of duty is not .C cycle M FI decides while divisible by.the W at the end .C W Y W M Y W 0 0 0 number of line cycles per frame. For example, in the application of 1/m duty and n line cycles in a frame set, the W O W W 10 10figure. .CO 10 TW . .Cdifference . . of.T the choice in FI is shownW as the following .C W Y Y W M where W Y W M 0 0 M = n*k+r, m, n, k and r are all wholeW numbers, and0r0is the remainder of m divided by n (r<n). O 0 W W 1 10 .1 .T – Parameter Byte :W . .CO M.T W W. 00Y(7).CSleepOinM(SLPIN) Y W None (95H) W 00Y 0 W W O 0 W W 1 T C . .1 .command .1 .C M.T W This is to. enter the SLEEP MODE. W Y W Y W M W 0 0 0 A0W RD WR D7 D6 0 D5 D4 D3 W D2 D1 D0 O W O W 0 W 10 Command 1 T C 1 T . C . . 0 1 0 1 0 0 1 0 1 0 1 . . . . W W W 00Y W 00Y M W M W O W W O W W (8) Sleep out (SLPOUT) – Parameter Byte : None (94H) 1 1 T . . .C M. .1 W .C M.T W W Y W Y W W 0 0 This command is to exit the SLEEP MODE. W 0 W .CO A0M.T RD WR D7 WWD6 W.D510 D4Y.COD3 M.TD2W D1 D0 W WW W.1 Y W Command 1 W 0 1 0 0 0 1 0 0 01 00 .CO0 W W O 0 W W 1 1 T T . C . . . W (9)WLine addressYset (LASET) . W – Parameter Byte : 2 (75H)W Y W M M 0 0 W O 0 W T area when MPU W .1 is toYspecify CORAM. As.TtheWaddresses are WW .1the0 display line.address makes access to .C the M WWThis command .data W Y W 0start to theOend line in the 0is increasedObyM1 and lineWaddress increased from 0 the scan, the W column address Wline-direction W 0 1 1 T C . C line<end.Tline” must be . . return to the start line. Note that the start and end line must be a pair. Moreover, the relation.“start . W W W Y W Y W M M 0 0 maintained. W O 0 W W O 0 D2 D1 .1D0 .C WR MD7.T D6 D5 D4 D3WW .T W CommandW.1 A00 YRD .C Function W Y W 1 0 0 1 1 1 0 1 0 1 --M 0 0 W O 0 W W O 0 W Parameter Byte 1 (PB1).1 1 1 .C0 SL7 .T SL6 SL5 SL4 SL3 SL2 SL1 SL0 Common .1 .T W .C Scan direction W Y W Y Parameter Byte 1 (PB2) 1 1 0 EL7 EL6 EL5 EL4 EL3 EL2 EL1 EL0 W M M 0 0 O 0 is 0.C W O W Note: The range line.1 address ~ 159. 10 TW T C . . . WW ofW . W Y W 00Y M 00 .COM .TW W W O W 1 1 T . C . . W . W Y W W 00Y M 00 .COM .TW W O W 1 1 TW . C . . W . W Y W Y W M 0 00 .COM .TW W O 0 W 1 1 TW . C . . W . W Y W Y W M M 0 W 00 .CO W W O 0 W 1 1 T T . C . . . W . W WPAGE006Y(LMG-S16016001-LED W 00Y M Serial) W O W OM .T W 1 1 T C . C . . . W . W W 00Y W M 0Y W OM 5 3 4 2 3 1 2 0 1 0 1 T .1 .C M.T W W. 00Y.C OM. W Y W 00 .CO W 1 1 T C TW . . . . . W Y W Y W 00 M M W W O W 100 .CO 1 T TW . C . . . . (10)0Y Column address set (CASET) – ParameterW Byte : 2 (15H) W Y W M M 0 W O 0 command W W O 0 W 1 1 T C . C . . This is to specify the column address area when MPU makes access to the display.T data RAM. As the addresses . W . W W are increased W scan, M is increased 0Y fromOtheMstart to theWend column in the column-direction 0Ythe line address 1 and column 0 W W by“start O 0 W 1 1 T C T . C . address returned to the start .column. Note that the startW and end line must be a pair. Moreover, the relation . . W Ycolumn”O Wcolumn<end W 00Y. OM Mbe maintained. 0 must W 0 W W W 1 1 C T . C . A0 RD .T WR D7 D6 D5 W D4 D3 D2 D1 D0 Function . . W . Y 0 OM WCommand M --W 1 0 0 0 0 1 0 W1 00Y 1 W 010(PB1) W O 0 W 1 Parameter .Byte 1 1 0 SC7 SC6 SC5 SC4 SC3 SC2 SC1 SC0 1 T C . EC1 EC0 . 1 1 M.0 EC7 EC6 EC5 EC4W EC3 EC2 .TScan direction W Parameter .C Common Y W Y Byte 1 (PB2) W M 0 O is 0.T~ W W The range 00 .CO W address 84. 10of column 1 C TW . . . . WNote: W Y W Y M– Parameter M (11) Data scan direction W Byte : 3 (BCH) WW .100 O 00 (DATSDR) W O 1 T C TW . C . . . W . W Y W Y W This command is to setup parameters of display data stored on the0built-in RAMM by MPU. Woperations OMD7 .inTD6the 0A00 various W W O 0 RD C WR D5 D4 D3 D2 WD1 D0 Function 1 1 T . C . . . WCommand W 0 1Y 0 1M 0 1 1 1 W1 0 W0 . Y --OM 0 0 W W O 0 W W 0 W Normal/inverse display of address and 1 T ParameterW Byte 1 (PB1) .1 1 0C * *.T * * * C/LW CI LI .1 C . . . address scan direction W 1 01 0Y0 *OM* * W * * * * 0W Not0Y M Parameter Byte 1 (PB2) used, D0 must be 0. W W O 0 W 1 TW 1 T T C . . . W1 (PB3) W Parameter Byte 1 . 1 0 .C* * * * * GS2 W GS1 GS0 Gray-scale setup . Y Wscanning Mline andW M 0Ydisplay ofOthe 0direction. PB1 is to specify the normal/inverse column address and the address W 0 W W O 0 W 1 T 1 T C T . . C . . . W . LI : Normal/inverse direction of the line address. LI=0. : Normal , LI=1 : Inverse.W Y W 00column address. M W 00Y MCI=0 : Normal M : Normal/inverse W direction of the , CI=1 : Reverse. W W O W O 1 TW CI 1 T C T . . C . . . W . C/L : Address-scan direction. C/L=0 : In Y the. column direction, C/L=1 : In the line direction. W W W 00Y M PB2 is not used, D0 mustW be 0. OM .TW 00 .COM .TW O W 1 1 TW . C . . Wgray scaleWdisplay mode . PB3 is to select desired 2B3P or 3B3PD1 or 3B3PD2 mode. W Y M Y W 00 M M 0 of gray-scale GS2 GS1 GS0W W O 0Numbers O W 1 TW CO 1 T C . . C . 0 0 1 32 gray-scale 2Byte 3Pixel mode . . .T W . W Y W M Y W M 0W 1 0 32 gray-scale 0 2Byte 3Pixel ditherM 1 mode 0 O W O 03Byte 3Pixel W 32 gray-scale O 0 W 1 T C 1 0 0 dither 2 mode.T 1 C . . C . . . W . W Y W 00Y M2B3P 32W W 00Y M M O W O Gray Scale Display W O W 1 T C 1 T C . . C . . . . W W W 00Y MD6 D5 D4WD3 D2 D1 D0 W 00Y. O M 00Y .COD7 W O W W P0 P0 P0 .1 .TP0 P0 P1 P1 P1 1 st writeW .1 .C M.T .C W Y Y W M Y W P1 P1 D P2 P2 P2 P2 P2 2nd write 0 0 0 W Oand it is.written W W 10 10 as shown, Tof data is read after the W 10 TW in the display RAM. C . . single pixel second write operation "X" are .CAO . . .C W Y Y W M whichW Y W M 0 0 dummy bits, are ignored for display, "D" are dither bits, which are used for dither. 0 O 0 W 0 W 1 10 .T .C 32M . .CO M.T WW W.1 W Gray Scale Display W. 00Y3B3PD1 Y W 00Y 0 W O W O 0 W W 1 . D7 D6 D3 D2 .1 .TD1 D0 .CD5 D4 M .1 .C M.T W W Y W Y W W 0 0 P0 P0 P0 P0 P0 D X X 1 st write 0 W W O 0 W 0 W 10P1 P1 P1.CP1OP1 D .XTW 1 1 T . C . . . . X 2nd write W W W P200P2YP2 P2 P2OM W 00Y W M D X X W 3rd write W W O W W 1 1 T T RAM. "X" are W .A single pixel C the .display . and it Y . .Cof data M .1 W W as shown, is read after the third write operation is .written in M Y W W W 0 0 Wdisplay, "D" are dither W W O dummy bits, which are W 10used for.dither. Tfor T .10 bits,Ywhich C . . .COare ignored . WW W W W W 00Y M W M 0 Gray Scale 3B3PD2032 Display W O W W O W W 1 1 T C T . C . . W D7WD6 D5 D4 D3Y.D2 D1 D0 M. . W W Y W M 0 0 W O 0 W write T W TW .10 Y.CO . . WWP0P1 P0P1WP0P1.1P0P1 P0P1 DDY.DDC DD 12ndstM W W write W M 0 W 00 .CO W W O 0 W P2 P2 P2 P2 P2 D D D 3rd write .T 1 1 T . C . . WA single W . W W Ydisplay RAM. Mthird write M pixel of data0isY read after the operation as shown, and it isW written in the "X" are 0 W O 0 W W O 0 dummy which dither. .1 are ignored .1 .T"D" are dither bits, whichWareWused for .Cfor display, W bits,W .C M.T W Y Y W M 0 0 W O 0 (12) Memory write (RAMWR) – Parameter Byte : Numbers of data written (5CH) W W O 0 W .1 .1 .C M.T .T W .C will W Y W Y W M This command turns on the0 data entry mode when MPU writes data to the display memory. This command always 0 W executed. The following O 0 at .the W Ocontents.ofTW W parameter 1address 10byte rewrites Twhile C sets the W line and column start address . C . . . W Y Wmode is0automatically M the display data RAM address automatically. The write cancelled 0Y W 00 the.ClineOorMcolumn WWand.1increases W O W 1 T if any otherW command is entered. T C . . . . W Y W W D0 00YFunctionOM A0 RD D5 D4 D3 D2 D1 0 RW OD7M D6 W 0 W W 1 T C TW . C . 0 1 0 0 1 0 1 1 1 0 01 — . Command . . W . W Y W Y W M 0 to be writtenOM 000 1 Data Parameter Byte 1 (PB1)W 1 WData to be written O W 0 W 1 1 T C . . . . W .C M.T W Y W Y W M 0 W 00 .CO W W O 0 W 1 1 T T . C . . . W . W PAGE 7 (LMG-S16016001-LED Serial) W 00Y W 00Y M W O W OM .T W 1 1 T C . C . . . W . W W 00Y W M 0Y W OM 1 T .1 .C M.T W W. 00Y.C OM. W Y W 00 .CO W 1 1 T C TW . . . . . W Y W Y W 00 M M W W O W 100 .CO 1 T TW . C . . . . (13)0Memory readM (RAMRD) – Parameter ByteW : NumbersW of data read (5DH) Y W Y M 0 W O 0 command W W O 0 W 1 1 T C T . C . . This turns on the data entry mode when MPU read data to the display memory. This command will always sets . . W . W Y columnOaddress W the line WThe contents M at theWstart address while executed. Mdata RAM 0and 0Yof the display be read in 0 W Wiswill O 0 W 1 1 T C T . C . following parameter byte and. increases the line or column address automatically. The data read mode automatically . . W W Wcancelled00if Y W 00Y. OM M is entered. any otherO command W W WFunction W 1 C . . A0 .T RD RW D7 D6 W D5 D4 .1D3 D2 .CD1 D0 .T W W Command W 1 001Y 0 OM 0 1 W 0 0 1 0 1 1 00Y .COM W W— W 1 1 T T . C . . . W Parameter . W Data to be read be read Y 1OM0 1W W Byte010(PB1) W 00Y M Data toW W O W .1in (PTLIN) .1 Byte: 2 (A8H) .T .C- Parameter W(14) Partial .C M.T W Y W Y W M 0 0 (dividing W O display 0specify .theCpartial O screen.TbyW 0screen ThisW command .is1to area. It will turn on partialW display of the lines) to 1 T C . . W . W save power.W Since ST7529 processes the liquid crystal display signal on 4-line basis (block basis), the display and Y Y W M M 0 W basis). O4-bit 00specified W W O 0 W no-display areas are.1also on lineT (block 1 C T C . . . . W . W W 00A0Y RD ORW M D7 WD6 D5 D4 D3 WD2W D1 00D0Y Function M W W W O 1 1 T Command 0 1 0 1 0 1 0 1 0 0 0 — C T . C . . . . W . W W 01 0Y 1 O M Parameter Byte 1 (PB1) 0 M* * PTS5 PTS4 PTS3 PTS2 W PTS1 PTS00Y Start block address W W W O 0 W 1 TW 1 T T C Parameter * . * PTE5 PTE4 PTE3WPTE2 PTE1 . PTE0 End block address . WByte 2 (PB2)W. 1 1Y.C 0 M . Y to be displayed Wan address M 0 can be specified 0not Only the address of the display block for the partial display. Do not specify W W O 0 W W O 0 W 1 T 1 T C T . . C . . . . when scrolled.W . W Y M W 00Y M M W O WW - Parameter W O W (PTLOUT) none (A9H) 100 Byte: TW (15) Partial out W 1 T C T . . C . . . . . W Y W W 00Y M M 0 This command is to exit the PARTIAL0DISPLAY MODE. OM .TW W O W O W 1 1 T C TW . C . . W RD WRW D7 Y.D6 D5M. D4 D3 D2 D1W D0 W . A0 M Y M 0 0 O1 0 W1 0 0 1 W 0 W O 0 Command 0 1 0 .101 TW CO 1 T C . C . . . .T W . W Y W M Y W M M 0 0 W modify write in (RMWIN) O (16) Read W Onone (E0H) 0 Byte: W - Parameter O 0 W 1 T C 1 T C . . C . . . . W . W Y MThis command W (CASET), is used along with the (9)W line address set commandM (LASET), (10) column address set command M 0Y 0Y W O W O 0 W O 0 W 1 T and (17) read modify write out command (RMWOUT). This function is for frequently modified data on a specific area, C 1 T C . . C . . . . W . W Yusing theO Mas blinking M and line cursor. First, set a specificW display area column address commands. Then, W execute this0Y 0 W 00Y .COsuch W 0 W O 0 W 1 start address Tto set the column and lineWaddresses as.the command of the specific area. When this operation is complete, 1 T C . C . . . . W Y W by the0display M andW Mcommand.WIt is increased only whenWtheWdisplay 00Y the column line address will not be modified read 0Y data O Owrite 100 .Cdata T command is executed. YouW canW cancel this.1 mode by entering read.T modify write out or any other command. C . .1 . the M .C W Y Y W M Y W 0 0 A0 RD RW D7 D6 D50 D4 D3 D2 D1 D0 0 W O 0 W O W 1 10 .C M.T 0 1 . 0 0 .T 0 0 W1 W 1 W.11 0 Y.C0 M W W. 00YCommand W 00Y 0 W O W O 0 W W 1 T out (RMWOUT) -W C modify.write (17) .Read Parameter Byte: . .1 none (EEH) .1 .C M.T W Y W Y W M W 0 0 0 O cancels.TtheW W W read modify write mode. W O 0 0 W 10This command 1 C 1 T . C . . . . . W W 00Y D6 D5W D4 D3Y D2 D1 D0 MA0 RDW RW D7 W W M 0 O W W O 0 W W Command 0 1 0 1 1 1 0 1 1 1 0 1 1 T . . .C M. .1 W .C M.T W W Y W Y W W 0 0 (18)1Area - Parameter Byte: 4 (AAH) W O W W 10 TW CsetO(ASCSET) T . 0 scroll C . . . . WW W . W W Y W by 0lines). M portion W M specifies It is to scroll only the specified of the screen (dividing the screen the scrolling 0YThis command W O 00 fixed W W O W W 1 1 T type of area, area and scrolled area. C T . C . . W . W Y. OA0M.RD RWWD7 D6 D5 W W Y M 0 D4 D3 WD2 D1 D0 Function 0 0 W 0 .101 0.CO W 1 TW 1 .T 0 1 0 1 0W 1 .C 0 M . WW W.Command W Y Y W Maddress W Parameter Byte010 (PB1) 1O 1 0 * * TB5 TB4 TB3 TB2 TB100 TB0 TopO block W W W 1 1 T C . C . . . .T Byte 2 (PB2) 1 1 0 * * BB5 BB4 W BB3 BB2 BB1 BB0 . Bottom block address W Parameter W Y W Y W M M 0 0 Parameter Byte 3 (PB3) 1 O 1 0 * W * NSB5 NSB4 NSB3 NSB2 NSB1 0 NSB0 NumberO of specified blocks 0 W W .41(PB4) Y1.C 1 0 .*T * * * * WW* SCM1.1 SCM0 Y Area WParameter Byte .Cscroll modeM.T W W W M 0 0 W O 0 W W O 0 W PB4: It is used to specify .1 the scrolling .1 .C mode.M.T W .C M.T W Y W Y W 0 Settings 0 Scrolling 0 O W O 0 W 1 Top block SCM1 SCM0 1Number TW Bottom block address C T . C . . . . WW Mode . W address (TB) (BB) of specified blocks (NSB) Y W 00 W 00Y M M W O W W O W Bottom(fixed area) height = 1 1 T C T . . . . 0 0 WCenter mode Top(fixed area) .height = Top address Bottom start address.=C Specified number W 39-Bottom address Y W W 00Y M 00 .COM .TW W W O W 1 Bottom(fixed area) height = 1 . C . W . 0 1 Top mode 0 Bottom start address = Specified number .T W Y 39-Bottom address W Y W M M 039 W 39 00 .CO W O 0 W 1 0 Bottom mode Top(fixed area) height = Top address 1 1 T TW . C . . . W . W W 1 1 Whole mode 00Y 39 39 Y W M M 0 W O 0 8 (LMG-S16016001-LED W W O 0 W 1 1 T C T . PAGE Serial) C . . . . W . W W 00Y W 00Y M W O W OM .T W 1 1 T C . C . . . W . W W 00Y W M 0Y W OM 1 T .1 .C M.T W W. 00Y.C OM. W Y W 00 .CO W 1 1 T C TW . . . . . W Y W Y W 00 M M W W O W 100 .CO 1 T TW . C . . . . W Since ST7529 processes the liquid crystal display signals Y W Y W M M 0 W Obasis (block 00the four-line W W O 0 on basis), fixed and scrolled W 1 1 T C T . C . . . . W . W specified basis (block basis). W W areas0are Mon the four-line M 0Yalso 0Y W O W W O 0 W DDRAM address of the top fixed area is set in the block 1 1 T C T . C . . . . W . W with the 0 block. Waddress 0increasing W 00Y MstartingW M 0Y ofdirection O W W O W DDRAM address the bottom fixed area is set in the 1 1 T C T . C . . . . W block . W address decreasing direction starting with 39 block. W 00Y W 00Y M M W O W W O W The DDRAM address C of other blocksTfixed areas are 1 1 T . C . . . . W assigned . W to the scrolled + background areas. Y W 00 W 00Y M M W O W O W PB1 is to specify the top block address of the scrolled + 1 1 T C TW . C . . . . W background . W areas. Specify the 0 block for the top Y W Y W 00 M M W O 00 screen W O W screen scroll or whole scroll. PB2 specifies the 1 1 T C TW . C . . . + background . W address . W bottom of the scroll areas. Specify Y W Y W M M 0 W Oscreen 00 or whole W O 0 W the 39 W block for the bottom 1 1 T C T . C . . . . W . W scroll. The W relation that W 00Y M < bottom M 0Ytop blockOaddress W W W W O W block address must .1 be0 maintained. PB3 specifies a 1 T C T C . . . . W . W specific number ofW blocks {Numbers (Top W 00Y Mfixed area M 0Yof theofbottom W O 0case W W O W +Scroll area) block-1}. In.the 1 TW 1 T C T C . . . . W . W scroll or whole screen value is identical PB2. W scroll,0the W 00Y M withW M 0Y W O W W O W The user can turn on the area scroll function by executing the area scroll set command first and then specifying the display 1 T 1 T C T . . C . . . . W . W start block of the scroll area with the scroll start set command. Y W 00 M W 00Y M M W O W W O W 1 TW (19) Scroll start W 1 T C T . . C . . address set (SCSTART) - .Parameter Byte: 1 (ABH) . . W Y W W 00Y M OM .TW OM to.TbeWthe start line content shown 00address .ofCDDRAM W O W This command is to specify which .line on screen. Note thatCyou 1 1 TW . . W . W Y must execute this command afterW executing the area scroll set command. Scroll becomes available by dynamically changing M Y W 00 M M W O W 100 .CO TtheWstart block address. WW CO 1 T . . C . . .T . WD0 W Y W M Y M A0 RD RW D7 D6 D5 D4 D3 D2 D1 Function M 0 0 WCommand O W1 0.10 1 .0CO1 0.TW1 0 1 1 W O 0 T C 1 0 — . C . . W . W Y W0 *00Y* SB5OMSB4 SB3W SB2 SB1 SB0 Start blockWaddress 0Y M Parameter M Byte 1 (PB1) 1 1 W O W O 0 W 1 T C 1 T C . . C . . . . W Note : Don't repeat "Area scroll set(AAH)" instruction when W 00Y "ScrollOstart M M addressWset" is executed. W WW 00Y. O W 00Y .CO(20) W Internal none .1 Byte: Y .T oscillation on (OSCON) .1 .C(D1H) M.T W - Parameter .C W Y W M Y W 0 0 0 This command turns on the internal oscillation circuit. It is valid only when the internal oscillation circuit CLS = HIGH. W W 10 10D5 D4.COD3 D2.TWD1 D0 10 .CO M.T A0 RD RWWW . .C W D7 D6 . Y Y W Y W M 0 0 0 W O 0 0 1 1 00 1 0 0 1 W 1 10 .CCommandM.T 0 1 . .TW .C0O M WW W.1 W W. 00Y(21) Y W 00Y 0 Internal oscillation off (OSCOFF) - Parameter Byte: none (D2H) O W O W 0 W W 1 1 . .turned .T oscillation circuit. TheW .C internal .1 .C M.T W Y W It turns off the M circuit is also off in the reset mode. Y W W 0 0 0 O A0.TWRD RW D7 D6W D5 .1D40 D3 CD2O D1 .TW W 0 W 10 C 1 . D0 . . . W Y W 0Command M0 1W 0 1 W1 W0 W 1 000Y 0 OM W 0 1 0 W O W W 1 1 T C . . . .control .1 W .C M.T W W Y W Y W M W (22) Power set (PWRCTRL) - Parameter Byte: 1 (20H) 0 0 O 0 W O W W TW T .1command C .10 circuit, .isCused . WW W . W This to M turn. on or off the Booster circuit, voltageW regulator and reference voltage. W Y W 0Y D2 OD1M D0 WFunction 00 .CO A0 .TRDW RW D7 D6 W W W D5 D4 10 D3 1 T . C . 0 Y0 . 0 0 . — W W1 W W Y W Command 0 1 1 0 0 0 M M 0 0 W O 0 O VR .LCD W VF drive power TW .1 Byte 1 (PB1) .10 0 Y.C .C 1 M.1T 0 * * W* W 0 WVB WW Parameter W Y W M 0 referenceOvoltage generation VR turns on/off0the VR = "1": ON, VR =" 0": OFF 0 WVF =circuit. W W O 0 W 1 1 T C T . C VF turns on/off the circuit voltage follower. "1": ON, VF =" 0": OFF . . . . W . W W YBooster.OVB Won or off Y W M= "1": ON, M 0 VB: It turns the VB =" 0": OFF 0 W 0 W W O 0 W 1 .volume .1 .T - Parameter Byte: 2W .C (VOLCTRL) WElectronic .C M.T W (23) control (81H) W Y W Y M 0 0 W O 0 W W O 0 W .1 to program .1 .TLCD supply voltage V0. The W command is used Refer to 7.10.2. .Cthe optimum .C M.T W Y W Y W M 0 0 O RW .TD7W D6 D5 D4 W D3 D2 0 D1 W 1 0 .D01CO—Function .TW .10 A00 Y.RDC . W Command W 1 0M 1 0 0 0W 0 0 M 0YVPR0 VPR[5:0] 01 0 1 .CO0 * .TW* VPR5 VPR4 VPR3WW W W O 0 Parameter Byte 1 (PB1) VPR2 1 VPR1 1 T . C . . W . W Y Parameter Byte 2 (PB2)W 1 1 0 * * * * * VPR8 VPR7 VPR6 VPR[8:6] W 00Y M M W and therewith the contrast O 00 command W O W 1 With the VOLUP and VOLDOWN the V0 voltage of the LCD can be 1 T C TW . C . . . . W . W Y W Y W adjusted. M 0 00 .COM .TW W O 0 W 1 1 TW . C . . W . W Y W Y W M M 0 W O 00 9 (LMG-S16016001-LED W W O 0 W 1 1 T C T . PAGE Serial) C . . . . W . W W 00Y W 00Y M W O W OM .T W 1 1 T C . C . . . W . W W 00Y W M 0Y W OM th st th th 1 T .1 .C M.T W W. 00Y.C OM. W Y W 00 .CO W 1 1 T C TW . . . . . W Y W Y W 00 M M Wcontrol (VOLUP) - Parameter O W O W 100(24) Increment 1 T C TW . C . . electronic Byte: none (D6H) . . . W Y W Y W M M 1.W 0 W control offset value O 00command W O 0 W This incrementsT electronic of voltage regulator (V0) circuit byT Each step is 0.04V. 1 1 C . C . . . . W . W Y W Y W M D1 M D0 OA0 RD WRW D7 D6 D5 D4 D30 D21 CO 00 W WW W.1Command Y.C 0 M.1T 0 1 1 W0W 1W.100 Y . 1 M0 .T If you set is set to 000000 has Wto 111111, the control value Ocontrol .value Wbeen executed. Ocommand 00 after.Cthis W 100the electronic 1 T C T . . . . WW (25) W Yelectronic WDecrement control (VOLDOWN) - Parameter Byte: Wnone (D7H) M M 0 0Y W O 0 W W O 0 W 1 1 T C T . C . . . electronic W This W . command decrements control offset value of W voltage regulator (V0) circuit by 1. Each .step is 0.04V. Y Y W M M 0 0 RW TW D7 D6 D5 D4 WD3 D2 D0O 10 D1 .C TW .10 A00Y.CRDO . . . WWCommand W W Y 1 0 1 1 0 1 0 1 1 1 W 00 M M Wthe control value is set W O 00 control W W O 1 If you set the electronic value to 000000, to 111111 after this command has been 1 T C Texecuted. . C . . . . W . W Y W Y W M 0 (26) Reserved (82H) 00 .COM .TW W W O 0 W 1 1 T . C . . W . W W 00Y M M Do not use this W command. 0Y W W O 0 W W O W 1 1 T C T . C . . . . W . A0 RD RW D7 D6 D5 D4 D3 W D2 D1 D0 W 01 0Y 0 O1 M 0 W0 0 0 0 W Y M Command W 0 1 0 00 W O W 1 TW 1 T C T . C . . . . W . W W 00Y M M 0YCommand: (27) Read Register 1W (EPSRRD1) 1 Parameter Byte: none (7CH) W W O 0 W W O W 1 T 1 T C T . . C . . . . W . W Execute the EPSRRD1 and STREAD (Status Read) commands in succession to read the Electronic Control value. Y W 00 M W 00Y M M O W W O A0 RD 1 RW D7 D6 D5 TW D4 D3 D2 D1 W D0 TW 1 C T . . C . . . . W . W Y W Command 0 1 0 0 1 1 1 1 1 0 0 W 00Y M OM .TWExecute the Status Read W W OthisMcommand 00 .after O W 1 command immediately and execute the NOP command after the STREAD 1 T C TW . C . . . W . W Y W M Y W 00 (Status M W Read) command. W 00 .COM .TW O W 1 T(28) CO 1 . . C . .T W . W Read Register 2 (EPSRRD2) Command: Y 1 ParameterM Byte: none (7DH) W M Y W M 0 0 Wthe EPSRRD2 and STREAD O Execute W to read the built-in resistance O in succession 0Read) commands W (Status O 0 W ratio. 1 T C 1 T C . . C . . . . W . W Y WD7 0D60Y D5 OD4M D3 WD2 D1 D0 M W 00Y M A0 RD RW W O W O W 1 T C 1 T C . . C . . . . W 0 1 0 0 1 1 0 1 W Y1 1OM1 W W MCommand Wthe 00Y. O 0 W 00Y .COExecute 0 the Status Read command immediately after this command and execute the NOP(Reset) command after W W .1 .T(Status Read) command.W .1 .C M.T .C W STREAD Y Y W M Y W 0 0 0 W O Non-operating O 0 W W 10 T (NOP) - Parameter 10 TW Byte: none.1 (25H) C . .C(29) . . . W .C W Y Y W M Y W M 0 0 0 W O 0 This command does affect the operation but has the function canceling IC testW W to .10 1 .10andofsoY .T not .C it periodically .T mode. Thus, it is recommended .CO theM WWdue toWnoise W to prevent malfunctioning on. W. 00Yenter M W 00Y 0 W O W O 0 W W A0 RD RW D7 D6 D5 D4 D3 D2 D1 D0 1 . .C M.T0 1 .1 W 0 W1 .1 0 Y.0C 1 M.0T 1 W Y W W Command 0 0 0 0 0 W O W W O 0 W 0 W 10(30) Status 1 T C 1 T . C . . . . . . Wnone W W - Parameter Byte: W 00Y readO(STREAD) Y M W M 0 W W W O 0 W W 1 1 T . The command the . can be displayed . internal condition of theWIC. One status .Cis to read .1 .Ton the setting status afterW W .C depending Y W Y W M W M 0 reset or after NOP operation. 0 W 0 W 10 D3 .COD2 .D1TW . .COA0 MRD.T RW D7 D6 WW D5 D4 WW W.1 W Y W 00Y W M Command 1 Status data 00 .C0O 0 .TW W W O W W 1 1 T . C . . W D7:WArea scrollYmode M Refer to SCM1 (ASCSET) . W W Y W M 0 0 W O 0 W T to SCM0 (ASCSET)WW Area TW .1scroll mode .10 Y.CO .C M.Refer . WWD6: W Y W W M D5: RMW on / 0 1: In 0 W 0 off .CO 0:0: Out W W O 0 W 1 1 T T D4: Scan direction Column 1: Line . C . . . WD3: Display . W W W on / 0off0Y Y W M M 0: Off W 1: On 0 O W W O 0 W D2: EEPROM.1 access OutAccess 1: InAccess W .1 .T .C 0: M W .C M.T W Y W Y W D1: Display normal/inverse 0: Inverse W 1: Normal 0 0 O 0 W W O 0 W D0: W Partial display .1 .1 .C 0: OffM.T 1: On .C M.T W Y W Y W 0 0 W O (31) Initial W (EPINT) W 10 TW: 1 (07H) T .10 Command C . . .CO1; Parameter . Wcode (1)W . W Y Y Function W M A0 RD D7 M D6 W D5 D4 D3 D2 D1 D0 0 00 RW.CO W W O 0 W 1 1 T T . C . . Command 0 1 0 0 0. 0 0 0 1 1 1 07H W . W Y W M0 0 W 1 1 0 W0W 1 00Y 19H OM Parameter(P1) 1 1 00 0 0 O W 1 Tgenerating ,suggest usingWthis command.1before EEPROM C TW . C . . ACK signal . . This commandW is used forW EEPROM internal Y Y W M internal 0system. OM read/write operation .W This command power W ACK signal under unstable 00improve.CtheOEEPROM W 0 W 1 1 T . . . W .C M.T W Y W Y W M 0 W 00 .CO W W O 0 W 1 1 T T . C . . . W . PAGE 10 (LMG-S16016001-LED Serial) W W 00Y W 00Y M W O W OM .T W 1 1 T C . C . . . W . W W 00Y W M 0Y W OM 1 T .1 .C M.T W W. 00Y.C OM. W Y W 00 .CO W 1 1 T C TW . . . . . W Y W Y W 00 M M W O W O W 100EXT="1" 1 T C TW . C . . . . . W Y W Y W M M 0 EveryOgray W O 16-gray 00ST7529.Capplies W 0 W 1 The level and 2 FRC to achieve 32-gray scale display. level isW in the strength controlled 1 T T . C . . . W . W Y W Y W M by 31-PWM (5-bit). The following 2 commands are to set the gray scale value. W 00 .CO 00 .COM .TW W 1 T . . WW W(1).1 SetYGray 1 value (Gray 1 set) - ParameterW Byte: 16 (20H) W 00Y M M 0 W O 0 W W O W 1 1 T T . C . Command .C A0 RD WR D7 D6 D5 D4 WD3 D2. D1 D0 Function . W . Y W Y W M M 0 0 0 W 0 0 1 0 0 W 0 0 O O D D F R A M E GW ray PWM Set 10 Set .CO0 1 .T 100 T C . . WW W.Gray1 . W Y W G0F1100Y Mlevel 0 at W Parameter Byte 1 0 *W * * G0F14 G0F13 G0F12 G0F10 Set Gray odd frames 010(PB1) .C1OM W O W 1 1 T T . C . . . W Parameter . W 1 M 0 * * * G1F14 G1F13 G1F12 W G1F11 G1F10 frames Y 1 O WByte 2 (PB2) Y Set GrayOlevel M 1 at odd W 0 0 W 0 W 0 W : .1 :.C : : : .T : : : : : .1 : : .C .T W W: Y W Y W M M 0 0 W O 13 at odd.Tframes Parameter 0 * * T * W G13F14 G13F13 G13F12 W G13F11 G13F10 level 10 Set Gray .10 1 Y1.CO C . . WWByte 14W(PB14) . W W : 0:0Y M 0: : : O: M: : W : : : : : W 0 W W O W 1 1 T C T . C . . . . W . W Parameter Byte 16 (PB16) W 1 001 Y 0 * O* M* G15F14WG15F13 G15F12 G15F11 G15F10 W Set0Gray 0Ylevel 15 atOoddMframes W W W 1 TW 1 T C . 2 set)Y-.Parameter . . W 2 valueW(Gray .C M.T W (2) Set Gray Byte: 16 (21H) Y W M 0 0 O W W 10 TW TWD3 D2 D1WWD0 .10 Function.CO T . . W Command A0. RD WR D7.C D6 D5 D4 . Y W 00 M W 00Y M M W O W W O W Gray1 Set 0 1.1 0 0 0 C 1 0 0 0 0 0 E V E N F R A M E G r a y P W M S e t TW 1 T T . C . . . . W . W Y W Y frames OM M G0F23 WG0F22 G0F21 G0F20WSetW 0even Gray level 0 0 at OM .TW Parameter Byte 1 (PB1) W1 1 .010*0 * * CG0F24 O 1 T TW C . . G1F22 G1F21 G1F20 . W 1 1W 0 * * Y*. G1F24 MG1F23 . W M Y Parameter Byte 2 (PB2) Set Gray level 1 at even frames W 00 M W 00 .CO W O W 1 TW : CO 1 T . . C . . .T W: : W . : : : : : : : : : W : Y M Y W M M 0 0 W Byte 14 (PB14) 1 1W 0 * .*10* G13F23CO O Parameter WG13F21 G13F20 Set Gray 0 frames .CO Wlevel 13 at.even G13F23 G13F22 T C 1 T . . . . W W Y W: : : 00Y: M W 00Y M : W: M W : : : W : : : : O O O W 1 T C 1 T C . . C . . . . W . W YG15F23 OG15F22 M ByteW16 (PB16) 1 1 0 W M G15F21 * W * * G15F24 G15F20 Set Gray level 15 atW even frames 0Y 0 00Y .COParameter W 0 O 0 W 1 T 1 T C . . C . . . W . W Y (3) M Weight Set (Wt. set) - Parameter Byte: W 3 (22H) W 00Y W 00Y .COM .TW W W 100 .CO 1 T . . .1 A0 RD W RW D7 D6 D5 D4 D3 D2 D1 D0 Function .C W Y Y W M Y W M 0 0 0 Command W 0 1 0 0W 0 1 0 0 0 0 1 0 — O 0 O W 1 10 TW .*1 * Y* .CWT2 .T . W Byte 1 (PB1) 1 1 0 W* * WT1 .WT0 W. 00Y.CParameter W M W 00Y M 0 O Parameter Byte 2 (PB2) W 1 1 0 * W * * ED4 ED3 ED2 O ED1 ED0 W set edge detector detect value W 0 1 . .1* * Y.*C EE WE.T .T 1 1 0 W .C .1 W Parameter ByteM 3 (PB3) * * * Y W W W M 0 0 0 W O W W O 0 W 0 W 10 (4) .Analog 1 T C 1 T . C . . . . . circuit set (ANASET) - Parameter (32H) W Byte: 3W W W 00Y Y M W M 0 W O W W O 0 W W A0 RD RW D7 D6 D5 D4 D3 D2 D1 D0 Function 1 1 T . .C M. 0 1 0 0 0W 1 1W. 0 0 Y.C1 0 M.T .1 W W Y W Command — W 0 0 O 1.TW 0 Byte.C W O OSC.frequency 0 OSF1.COSF0 W 1 (PB1) 1 0 * * * W* * .1OSF2 T WW W.1Parameter W W Y Y BE0OBooster W W Parameter 2 (PB2) M1 1 0 * * * * * * 0BE1 Set M Efficiency W O 00Byte W W 0 W W 1 1 T Parameter Byte 3 (PB3) 1 1 0 * * * * * BS2 BS1 BS0 Bias setting C T . C . . W . W W Y. OM. W W Y W M 0 0 0 O W W Oscillator 10 T TW .1 frequency C . . .C adjustment . WWPB1: . W W Y OSF2W OSF1 OSF0 Frequency (KHz) Y W M M 0 W 00 .CO W W O 0 W 0 0 .1 0 12.7 (Default) 1 T T C . . . W 0 W . W W Y W M 0 1 0Y 13.2 M 0 W O 0 W W O 0 W .1 .C 14.3 M.T W00 11 W.101 .C M.T W W Y Y W 15.7 0 0 W O 0 W W O 0 W .1 .T 1W 0 0 .1 17.3 .C .C M.T W Y W Y W M 0 0 1 0W 1 19.3 W 0 W O W 10 T C . .CO M.T . W1 0 W.1 . W 1 21.9 Y W 00Y M W 00 25.4 .CO W W O W 1 1 1 1 1 T T . C . . . W . W Y W W 00Y M * (duty+1dummy) Condition ; 1/160 duty, fCL(Hz) =0Frame frequency M W O 0 W O W 1 1 T C TW . C . . . . W . W Y W Y W M 0 00 .COM .TW W O 0 W 1 1 TW . C . . W . W Y W Y W M M 0 W O 00 11 (LMG-S16016001-LED W W O 0 W PAGE Serial) 1 1 T C T . C . . . . W . W W 00Y W 00Y M W O W OM .T W 1 1 T C . C . . . W . W W 00Y W M 0Y W OM 1 T .1 .C M.T W W. 00Y.C OM. W Y W 00 .CO W 1 1 T C TW . . . . . W Y W Y W 00 M M W O W O W 100PB2: Booster 1 T C TW . C . . Efficiency set . . . W Y W Y W M M BE1 Booster On booster capacitors (Hz) 0 W O 000 BE0 W W O 0 W 1 1 T C T . C 0 3K . . . . W . W W 0 00Y1 W 00Y M6K (Default)W M O W W O W 1 1 T C T . C . . . . 1 0 12K W . W W 1 010Y W 00Y M24K W M O W W O W 1 1 T C T . C . . . . W . W W Select0LCD W 00Y M M 0YBias ratio PB3: of the voltage required for driving the LCD. W O W W O W 1 1 T C T . LCD .Bias C . . W BS2WBS1 BS0Y. . W W 00Y M1/14 W M 00 0 0 O 0 W O W 1 1 T C TW . C . 1/13 . . W 0 W0 1 Y. . W Y W 00 M M 0W 1 0 00 1/12 W O O W 1 1 T C TW . C . . . 1/11 M . W0 1 W 1 . W Y Y W M 0 W 00 .C1/10O 1 0 0 W W O 0 W 1 1 T T . C . . . W . W 1 0 W1 W 00Y M M 0Y 1/9 W W O 0 W O W 1 1W 0 1/7 1 1 T C T . C . . . . W . W W 00Y 1 1 1W M 0Y1/5 OM W 0 W W O W 1 TW 1 T C T . C . . . . W . W WOFF (DITHOFF) (5) Color Dither None (34H) W 00Y M Byte: M 0Y - Parameter W W O 0 W W O W 1 T 1 T C T . C . . . . Turn off dithering circuit. . W . W Y W 00 M W 00Y M M O W W O A0 RD 1 RW D7 D6 D5 TW D4 D3 D2 D1 W D0 TW 1 C T . . C . . . . W . W Y W Command 0 1 0 0 0 1 1 0 1 0 0 W 00Y M OM .TW 00 .COM .TW W O W 1 1 TW . C . . WON (DITHON) . W (6) Color Dither - Parameter Byte: None (35H) Y W M Y W 00 M Won dithering circuit. W 00 .COM .TW O W 1 TTurn CO 1 . . C . .T W . W Y W M Y W M M 0 0 A0 RD WRW D7 0 D6 D5O D4 D3 W O W D2 D1 D0 W O 0 1 T C 1 T C . . C . . . . W . W Command 0 1 0 0 0 1 1 0 1 0 1 Y W 00Y M W 00Y M M W O W O W O W 1 T C 1 T C . (7) . Control EEPROM (EPCTIN) - Parameter Byte: 1 (CDH) . C . . . W W W 00Y W 00Y. O M 00Y .COM .TW W O W W A0 RD RW D7 .1 D6 D5 .1 .C D4 MD3.T D2 D1 D0 W W .C Y Y W M Y W Command 0 1 0 1 1 0 0 1 1 0 1 0 0 0 W W 10 T 1 (PB1) 1 1 W0W 0 .010 EEWR .C0O 0 .T0 W 0 0 10 . Byte .COParameter . .C W Y Y W EEWR M Y W M willWbe Read Enable. 0 0 0 WhenO EEWR = "1", EEPROM will be Write W Enable; when0 = "0",O EEPROM W 0 W 1 T 10 .1 . .T .C NoneM W W W. 00Y(8).C OCancel Y M. EEPROM Command (EPCOUT)W - Parameter Byte: (CCH) W 00Y 0 W W O 0 W W 1 T C . .1 .command .1 .C M.T W Enable. This is to. cancel the EEPROM Read/Write W Y W Y W M W 0 0 0 D0 O A0.TWRD RW D7 D6W D5 .1D40 D3 CD2O D1 .TW W 0 W 10 Command C 1 . . . . W 0 0 W 00Y M0 1W 0 1 W1 W0 W 0 001Y 1 OM W O W W W 1 1 T . (9) Y . None (FCH) . Write (EPMWR) - Parameter .C data toMEEPROM .1 W .C M.T W Byte: W W Y W W 0 0 W W O W W This 10 T .10command C . .isCtoOWriteMdata.Tto EEPROM. . WW W . W W Y W A0 RD RW D7 D6 D5 D4W D3 D0 0 0D2Y D1 OM W O 0 W W 0 W W 1 1 T C T . C Command W W Y. 0 O1M. 0 W1 1 1W 1 W1. 1 0Y. 0 0 M. W 0 0 O WNone (FDH) W from Byte: 10 T(EPMRD) - Parameter W TW .1 data Y C . . .CEEPROM . WW(10) WRead . W Y W M EEPROM. M 0 This command 0 is0 to Read data W Ofrom W W O 0 W 1 1 T C T . C . . . . W . W W RW D7 D6 D5 D4 D3 W D2 D1 Y D0 W 0A00Y RD OM M 0 W W W O 0 1 1 .1 0 1 C .T WCommand W.1 0 Y.1C 0 M.1T 1 1 1 WW . W Y W M 0 0 W O 0 W W O 0 W .1 .1 .C M.T W .C M.T W Y W Y W 0 0 W 0 W O W 10 T C . .CO M.T . WW W.1 . W Y W 00Y M W 00 .CO W W O W 1 1 T T . C . . . W . W Y W W 00Y M 00 .COM .TW W O W 1 1 TW . C . . W . W Y W Y W M 0 00 .COM .TW W O 0 W 1 1 TW . C . . W . W Y W Y W M M 0 W 00 .CO W W O 0 W 1 1 T T . C . . . PAGE 12 (LMG-S16016001-LED Serial) W . W W 00Y W 00Y M W O W OM .T W 1 1 T C . C . . . W . W W 00Y W M 0Y W OM 1 T .1 .C M.T W W. 00Y.C OM. W Y W 00 .CO W 1 1 T C TW . . . . . W Y W Y W 00 M M W O W O W 10011. Memory 1 T C TW . C . . . . . Map W Y W Y W M 0mode) OM W 00 .CO W W 0 W Memory Map (2B3P,.8-bit 1 1 T T . C . . W . W W 00Y W Column M M 0Y W O W W 84 O 0 W LCD CI = 0 0 1 1 1 T C T . C . . . . W . W Wread 00YCI = 1 OM W83 00Y 84 0 M W W W O direction W 1 1 T Pixel P0 P1 P2 P3 P4 P5 P252 P253 . . .C MD7. 1, D21, D4' ,0 W .T D2'1,84 D4'P254,84 W .C D7'1,84 Y W Y W D7'1,1 D2'1,1 D4' ,1 M 00 Line.CO D6'1, .TW W D3' ,84 0,10 .COD6'1,84 .TD1'1,84 D1'1,0 D3' ,0 D6'1,1 W D1'1,1 D3' 1 . WW W.1 Data Y W D5'1, D0'1,0 D2' ,0 D5'1,1 D0'1,1W D2' ,1 D5'1,84 D0'1,84 ,84 Y D4'1,84 M D7'W M D7' ,84W D2' 0 D41, ,0 D1’2,0 D4'1,1 D7'2,1 D1' ,1 00 D1' ,84 O 0 W O W 1 D3'1, D6' ,0 D0' ,0 D3'1,1 WD6' ,1 D0'2,1 .1 .T WBlock W.1LI 0= 0 LIY159=.C .CD3'1,84 MD6'.T,84 D0' ,84 Y W M 0 W 0 158 .CO W 00 .CO W 1 1 T TW . 1 . . . W W 0 Y W Y W M 0 0 2 OM .TW 0157 W W O 0 W 1 1 C T . C . . . 3 156 W . W W W 00Y M M 0Y 4 155 W W O 0 W W O W 1 1 T C T . C . . . . W . W 5 154 W 153 00Y W 00Y M 1 M W O 6 W W O W 1 TW 1 T C T . C . . . . W 7 W . W 152 W 00Y M M 0Y W W O 0 W O W 8 W 151 1 T 1 T C T . . C . . 2 . . W . W Y 9 150 W 00 M W 00Y M M W O W W O W 1 TW 1 T C T . . C . . . . W . W Y 152 7 W W 00Y M OM .TW 00 .COM .TW O W 153 6 W 1 1 TW . C . . W . 38 W Y W M Y 154 5 W 00 M 00 .COM .TW W O W 1 TW 155 4 CO 1 . . C . .T W . W Y W M Y W M M 156 3 0 0 W 157 2 O W O 0 W O 0 W 1 T C 1 T C . . C . . . . W . W 39 Y W 00Y M W 00Y M M 158 1 W O W O W O W 1 T C 1 T C . . C . . . 159 0 . W W W 2 00Y 3 O4M 5 W M W 254 00Y. O 0 1 252 253 W 00Y .COSEGout W W .1 .T .1 .C M.T W .C W Y Y W M Y W 0 0 0 W Memory Map (3B3PD1 / 3B3PD2, 8-bit mode) O W W 10 10 10 TW C . .CO M.T . . . Column W .C W Y Y W 00 1 OM Y W 0 0 LCD O CI =W 0 0 W 84 0 W 1 10 TW .1 83Y.C .C M.CIT= 1 . . W W 84 0 W. 00YRead W W 00Y M direction 0 O W Pixel W P0 P1 P2 P3 0 P4 P5 O P252 P253 P254 W W 1 . .1 D7'2,1 YD7’3,1 .T .C M .1 .C M.TD7'1,84 D7' ,84 D7' ,84W Data Line D71, D7' ,0W D7' ,0 D71,1 Y W W W 0 0 0 W D6'1, D6'2,0 D6' ,0W D61,1 .1D6'0,1 D6' ,1 CO O D6'1,84 D6' ,84 W W D6'2,84 0 W 10 T C 1 T . . . . . D5'1, D5' ,0 D5' ,0 D5 1,1 D4' 2 ,1 D5’3,1 D5'1,84 D5' ,84 D5' ,84 . W W W 00Y Y W D3'2,1 00D4’3,1 M W MD4'1,84 W D4'1, D4' ,0 D4' ,0 D41,1 D4' ,84 D4' ,84 W O W O W Block LI = 0 LI = 1 W 1 D3'1, D3' ,0 D3' ,0 D3 1,1 D3’3,1 D3'1,84 D3' ,84 D3' ,84 1 T .0 . .C 0 M159. .1 W .C M.T W W Y W Y W W 0 0 W 0 W O W W 1 158 T 10 T C . . .CO . WW W.1 . W W Y W 00Y 2 M W M W O157 00 .C W W O W W 1 3 156 1 T T . C . . W 1W . W W Y 4 155OM. W Y W M 0 0 0 O W W 10 T TW 5 .C 154 C . . . WW W.1 . W W Y Y W M M 0 W O 00 67 153 W W O 0 W 1 1 T C T . C . . . . 152 W . W W W 08 0Y151 OM Y W M 0 2 W W W O 0 W .1 9 150Y.C .1 .T W .C M.T W W W Y W M 0 0 W O 0 W W O 0 W .1 7 Y.C .1 .T .C M.T W 38 W 152 W Y W M 0 0 153 W O 06 W O W 10 T C . . WW 154W.15 Y.C M.T . W W 00Y M 0 W O 155 4 10 W W O W 1 T C T . C . . . . W 156 W3 . W 39 Y W 00Y M 00 .COM .TW O W 157W 2 1 1 TW . C . . W158 1W . W Y Y W M 0 00 .COM .TW O 0 W 159 W0 1 1 TW . C . . W . W Y W Y W M SEGout 0 1 2 3 4 5 252 253 254 M 0 W 00 .CO W W O 0 W 1 1 T T . C . . . W . PAGE 13 (LMG-S16016001-LED Serial) W W 00Y W 00Y M W O W OM .T W 1 1 T C . C . . . W . W W 00Y W M 0Y W OM ’ ’ 0 ’ 2 2 2 0 0 2 2 2 0 2 2 0 2 0 2 2 2 2 ’ 2 2 2 2 2 ’ 0 2 3 2 3 ’ 0 3 2 3 3 ’ 0 2 3 0 2 3 2 3 2 3 2 3 ’ ’ 0 2 3 1 T .1 .C M.T W W. 00Y.C OM. W Y W 00 .CO W 1 1 T C TW . . . . . W Y W Y 12.0Initializing And Programming W 00 M M W O W O W 10 1 T C TW . C . . . . . W Y W Y W Mode 0 : ST7529 Interface : 80-8bit M M 0 W O 0 W W O 0 W ;-------------------------------------------------------------------------------------1 1 T C T . C . . . . W . W W 00Ywrite_inst(0x30); W 00Y //EXT = 0 M M W O W W O W write_inst(0x04); // 1 1 T C T . C . . . . W . W W 0write_data(0x3E); W 00Y // M M 0Y W O W W O W write_inst(0x94); //sleep out 1 1 T C T . C . . . . W . W W write_inst(0xD1); W 00Y //OSC on M 00Y .COM .TW //display W W O write_inst(0xCA); control W 1 1 T . C . . W . W Y W write_data(0x04); W 00Y dividing ratio = 2 M 00 .COM .TW//CL W O W write_data(0x1D); //duty 1 1 TW . C . . W . W Y W Y W write_data(0x00); M 0 W scan direc. = 0~65 /W 00 .COM .T//N-Line W O write_inst(0xBB); //com 131~66 .10 1 TW . C . W write_data(0x01); . W Y W Y W // M 0 W= 1 00 .COM .//EXT W W O 0 W write_inst(0x31); 1 1 T T . C . . W write_inst(0x32); . W W 00Y W 00Y M//analogW M W O W W O W write_data(0x00); //OSC freq 1 1 T C T . C . . . . Wwrite_data(0x01); . W W 00Y W 00Y //booster effic. M M W O W W O W write_data(0x05); //bias 1 TW 1 T C T . C . . . . W . W W 00Y W 00Y write_inst(0x30); //EXT M= 0 W M W O W W O W 1 write_inst(0x81); //EC control T 1 T C T . . C . . . . W . W Y W 00 //vop[5:0] M W 00Y write_data(0x2F); M M W O W W O W 1 write_data(0x02); //vop[8:6] TW 1 T C T . . C . . . . W . W Y W W 00Y write_inst(0x20); control M M OM .TW W O 00 //power W O W 1 write_data(0x0B); //D0 = regulator / D1 = follwer / D3 = booster 1 T C TW . C . . . . W . W Y W M Y W 00 write_inst(0x07); M 00//// .COM .TW W O W 1 TW write_data(0x19); CO 1 . . C . .T W . W Y W M Y W write_inst(0x31); //EXT =1 M M 0 0 Wwrite_inst(0xCD); W O W O 0 O 0 W 1 // T C 1 T C . . C . . . . W . W Y W //EEPROM M W 00Y write_data(0x00); M M 0Y Enable W O W O 0 W O W 1 T delay(100); //delay 100mS C 1 T C . . C . . . . W W Yread OM W//EEPROM W 00Y. O 0 W 00Y .COM .write_inst(0xFD); W 0 W W T delay(100); //delay .1 100mSY.C .1 .T W .C W Y W M Y W M write_inst(0xCC); //EEPROM disable 0 0 0 W O W//EXT =.100 W 10 write_inst(0x30); 10 TW C .T .CO M . . . W .C W Y Y W Y W M write_inst(0xA6); //normal display0 0 0 W O 0 W W 1 10 write_inst(0xBC); //data scan.direc. 10 TW CO .T . . . W W W. 00Y.C O Y W M W 00Y M write_data(0x02); //address direc. 0 W W O 0 W W 1 //BGR . .1 .T .C write_data(0x01); .1 .C M.T W W Y W Y M W write_data(0x01); //gray scaleW 0 0 0 W O W W O 0 W 0 W 10 1 T write_inst(0xAF); //display on C 1 T . C . . . . . . W W W 00Y write_inst(0x15); W 00Y M W M //column range W O W W O W W 1 1 T write_data(000); //start . . .C M. .1 W .C M.T W W Y W Y W W write_data(239); //end 0 0 0 W O W W 10 TW //page range CO T C . . . . WW W.1 write_inst(0x75); . W W Y W 00Y M W M write_data(040); //start 0 W O 0write_data(119); W W O W W 1 1 T //end C T . C . . W . W Y. OM. W //EXT = 1 W W Y W M write_inst(0x31); 0 0 0 W W 1 write_inst(0x34); //dither off TW .10 Y.CO .C M.T //weight . WW W.write_inst(0x22); W W Y W M 0 W// 00 .CO W W O 0 W 1 1 T write_data(0x00); T . C . . . W . W W Y W Y W M //W M write_data(0x00); 0 0 O 0 W W O 0 W write_data(0x00); // .1 .1 .C M.T//gamma W write_inst(0x20); .C M.T W W Y W Y W 0 0 W O 0 W W O 0 W .1 .1 .C M////.T W write_data(00); .C M.T W Y W Y W write_data(03); 0 0 O // .TW W W O W 10 10 write_data(06); C T . C . . . W . W Y W 00Y M : W 00 .COM .TW W W O W 1 1 : T . C . . W: W . W Y W 00Y M 00 .COM .TW W O W 1 1 : TW . C . . W . W Y W Y W M 0 00 .COM .TW W O 0 W 1 1 TW . C . . W . W Y W Y W M M PAGE Serial) 0 W O 00 14 (LMG-S16016001-LED W W O 0 W 1 1 T C T . C . . . . W . W W 00Y W 00Y M W O W OM .T W 1 1 T C . C . . . W . W W 00Y W M 0Y W OM 1 T .1 .C M.T W W. 00Y.C OM. W Y W 00 .CO W 1 1 T C TW . . . . . W Y W Y 13.0Reliability Condition W 00 M M W O W O W 10 1 T C TW STN Type . C TN Type . . . . . W Y W Y W M M Temp. 0Temp. ONormal Normal Temp. Wide Wide Temp. W 00 .CO W W 0 W 1 1 T T . C . . . W . W Horizontal Φ ±30° ±30° W Viewing W ±30° M M±30° W 0Y 0Y W O 0 W O 0 W 1 Angle 1 T . -10°to -10°to 40° . 30° Y.C -10°to 40° .Θ(㎜) -10°to 30° .CVertical .T W W Y W W M M * 0 0 0O to 50℃ TW -20 to 70℃ 10 TW -10 to 70℃ WW-25 to .80℃ CO .10 YTemperature C . . . WW WOperating . * Y W M Storage0 Temperature -20 to 80℃ -35 to 90℃ -20 to 70℃ -30 to 80℃ M 0 W O 0 W W O 0 W 1 1 T C T . . . . (Power M W HighW .CHoursM. 240 Hours Temperature Off) 240 Hours W 240 Hours 240 Y Y W 0 0 W @90℃ @75℃ O W 10 @65℃ TW@70℃ TW .10 Y.CO C . . . WLow . W W Y W 0240 M 240 Temperature0(Power Off) Hours 240 Hours Hours 0 HoursOM 240W W O 0 W W 1 1 T C T . C . . @-20℃ @-35℃ @-15℃ @-25℃ . W . W W 00Y. OM Y W M 0 W W W High Temperature 240 Hours 240 Hours 240 Hours 0 Hours.CO 240.T W 1 (Power.On) 1 T C . . . W W W 00Y @80℃ Y W @60℃ M @70℃ M@70℃ W 0 W W O W O 0 W 1 T .(Power On) .1HoursY.C 240 Hours .Hours Low Temperature 240 Hours 240 .C 240 .T W W Y W W M M 0 0 @-25℃ @-20℃ W W O @-10℃ W O 0 W @-10℃ 10 TW 1 T C . C . . . .T W . W High Temperature & High0Y 55℃/90%RH W 75℃/90%RH 45℃/90%RH 65℃/90%RH Y W M M 0 W 240 Hours O W OHours .TW W240 Hours 10 TW 10 Humidity C . . 240 Hours.T 240 C . . W . W Y W M Y W 0060min@-30℃ M M Shock C 60min@-35℃ 60min@-20℃ W O 0A0 60min@-20℃ W W O W 1 TWThermal 1 T C T . . C . . . . W . W 5 Cycle B Y W B 5min@25℃ 5min@25℃ 5min@25℃ 5min@25℃ W 00Y M M 0 OM .TW W O 0 W O W A 1 1 T C TW . C . . C 60min@70℃ 60min@90℃ 60min@70℃ 60min@80℃ . . W . W Y W M Y W 50,000 M 50,000 0 Hours 0 HoursOM WHours 50,000 Hours O 050,000 W 0 W 1 TW Expected Lift CO 1 T C . . . . . PleaseMconsult our sales engineer orW W .C M.T Y Wide temp. version may not availableW for some products, respresentative. M Y W 0 0 W O W O 0 W O 0 W 1 T C 1 T C . . C . . . . W . W Y W MFunctional W 00Y M M 0Y 14. Test & Inspection Criteria W O W O 0 W O W 1 T C 1 T C . . C . . . . W 14.1 Sample plan W W 00Y levelO2,Mand acceptance/rejection Y. O W 0 W 00Y .COM .Sample W plan according to MIL-STD-105D criteria is. W 0 W T .:1AQL 0.65 .1 .Tdefect : AQL 2.5 W .C Minor W defect .C Y Base on : Major Y W M Y W M 0 0 0 W O W 10 10 Inspection condition WW 10 TW C . .T .CO14.2M . . . .C W Y Y W 0is030cm with Y W M 0 ViewingW distance for cosmeticW inspection bare eyes, and under an environment of 0 O 0 W 1 10 TW should be within .1 for inspecting .T(20W) light intensity. . .CO M 800 the.sample 45° W All direction W W. 00Y.C O Y W Mlus W 00Y 0 W W O 0 W W against perpendicular line. 1 . .1 .C M.Tof Inspection ZoneW .1 .C M.T W Y W Y 14.3 Definition in LCD W W 0 0 0 W O W W O 0 W 0 W 10 1 T C 1 T . C . . . . . . W W W 00Y W 00Y M W M W O W W O W W 1 1 T . . .C M. .1 W .C M.TC W W Y W Y W W 0 0 W 0 W W 10 AW BO T C . .CO M.T . WW W.1 . W W Y W 00Y W M W 00 .CO W W O W W 1 1 T T . C . . . W . W W Y W Y W M M 0 0 W O 0 W W 1 A : Character TW .10 Y.CO .T area .C M/ Digit . WW W.Zone W W Y W M areaW) 0 W Zone A ( Zone A +WZone B.=10minimum O area except 0B0: Viewing W O Zone Viewing 1 T C . C . . .T ) W . W Y W Y W M Zone C : 0Outside viewing area ( invisible areaW after assembly in customer’s product M 0 W O 0 W W O 0 T defects in ZoneWCW .:1 As aYgeneral are permissible, when trouble .1 .visual .C rule, .T for W Note .C it is no W W Y W M M 0 0 quality and assembly of customer’s product. W O 0 W W O 0 W .1 .1 .C M.T W MajorWDefect .C M.T W 14.4 Y Y W 0 0 O as open W O excess AllW functional or missing segment ),W short, contrast 10defects.such 10 differential, T(W C T . C . . . W . W Y W 00 smearing, Y the W 00beyond power consumption, dimension drawing. Mleakage,Wetc. and overall outline M O W W O W 1 1 T C T . Are classified as major defects. C . . . . W . W Y W W 00Y M 00 .COM .TW W O W 1 1 TW . C . . W . W Y W Y W M 0 00 .COM .TW W O 0 W 1 1 TW . C . . W . W Y W Y W M M 0 W PAGE Serial) O 00 15 (LMG-S16016001-LED W W O 0 W 1 1 T C T . C . . . . W . W W 00Y W 00Y M W O W OM .T W 1 1 T C . C . . . W . W W 00Y W M 0Y W OM * 1 T .1 .C M.T W W. 00Y.C OM. W Y W 00 .CO W 1 1 T C TW . . . . . W Y W Y 14.5 Minor Defect W 00 M W defects above, allW OM Major W O 100 .C 1 Except the.T cosmetic defects are classified asW minor defects. T . C . . . W Y W Y W M M 0 0 Item Inspection 0 Standard O W Oto be Inspected 0 No. Item W Classification of W 1 T C T C . . . . WW W.1 . W defects Y W 00Y M M 0 W O 0 W W O W Spot defect.T Zone size (mm) Minor .1.1 CQty .T .1Acceptable .C W . W Y W Y W M M A Oin) spot.TW 00 ( Defects 00 B .CO C .TW W 1 C . . from WW W.1 Acceptable Φ≦0.15 W Y Y AcceptaW of0spot M M 0 0 W O 0 W W O ( clutering ble W 1 1 T C T . C . . . . W . W Y W 00 not allowed W ) 00Y M M W O W O W 1 1 T 1 2 0.15≦Φ≦0.20 C TW . C . . . . W . W Y W Y W M 0 W 1 00 W 00 .COM0.20≦Φ≦0.25 W O 1 1 T TW . C . . . W . W Y W Y 0 0 Φ>0.25 W M M 0 W 00 .CO W W O 0 W 1 1 T T . C . . Remarks : for dark/white spot, size Φ is defined as . W . W W 00Y W 00Y M Φ=1/2(X+Y) M W W O W W O W 1 1 T C T . C . . . . W . W Wdefect00Y W Qty00Y Minor MSize (mm) 2. Line Acceptable M W O W W O W 1 TW 1 T T C Zone . . W( DefectsWin. line Y.CL M. W . W Y W M form ) 100 LengthO W Width W A B W C 100 W W O T T C T . . C . . . . W . W Y Accep- AccepW 00Accep- OM W≦0.02 M W 00Y M W W W O W 1 TW table table table 1 T C T . . C . . . . W . W Y W W 00Y M 2 L≦3.0 W≦0.03W OM .TW 00 .COM W O W 1 1 T TW . C . . . W . W 0 L>2.5 W≦0.03 Y W M Y W 00 M OM .TW 2 00 .0.03<W≦0.05 W O W 1 TW CO 1 L≦3.0 C . . C . .T W . W Y W M Y W M M 0 0 W O W 0 O 0 0.03<W≦0.05 W L>2.5 O 0 W 1 T C 1 T C . . C . . . . W . W Y W 00Y W>0.05 M Counted as spot W 00Y M M W O W O W O W 1 T C 1 T defect ( Follows W C . . C . . . . W W 00Y W 00Y. O M item 14.5.1 ) 00Y .COM .TW W O W W .1 total Y .1 .T W .C W Remarks: The of.C spot defect and line defect Y W M Y W M 0 0 0 W O 0 exceed.Cfour. W shall.1not W 10 10 TW .CO M.T . . W .C W Y Y W Y 3. O Orientation defect Not allowed inside viewing areaM ( Zone A or Zone MinorW 0 0 0 W 0 0 B ).CO W 1 10 TW .T( such as . . WW W.1 W W. 00Y.C OM Y W 00Y M 0 misalignment of W W O 0 W W 1 . .1 .C M.T .1 .C M.T W W L/C) Y W Y W W 0 0 0 W 14.5.4.1 Polarizer W W O 0 W 0 Position Minor W 10 4. .CO Polarizing 1 T 1 T . C . . . . . W W W 00Y Ynot exceed W Should M W Mthe W 1. Shifting in Position 0 W O W O 0 W W 1 1 T . . .C M. .1 glass outline W .C M.T W dimension. W Y W Y W W 0 0 area W 2. Incomplete covering 0 O due .toTW W of.1the0 viewing W C .CO M.T WW W.1 . W W Shifting is not allowed. Y W 00Y W M W 00 .CO W W O W W 1 14.5.4.2 Seratches, bubble or dent on Glass/ 1 T T . C . . . W . W W Y W Y W M M 0 Polarizer/Reflector, Bubble between 0 W O 0 W W TW .10 Y.CO .C M.T . Polarizer & Reflector/Glass: WW W.1 W W Y W 0Qty OM W (mm) 00 .CO W W Size Acceptable 0 W 1 1 T T . C . . . W . W W W 00Y Zone 0Y W M M W O W W O 0 .1 AWW B .1 C .C .C M.T .T W W Y W Y W M 0 0 AccepAcceptable Φ≦0.20 W O 0 W W O 0 W .1 .1 table Y.C .T .C 0.20<Φ≦0.50 .T W W Y 3 W W M M 0 0 0 W O W 10 TW T C . 2W . 0.50<Φ≦1.00 .CO . WW W.1 . Y W 00Y M M W 00 .COΦ>1.00 W W 0 O W 1 1 T T . C . . . W . W Y W W 00Y M 00 .COM .TW W O W 1 1 TW . C . . W . W Y W Y W M 0 00 .COM .TW W O 0 W 1 1 TW . C . . W . W PAGE 16 (LMG-S16016001-LED Serial) Y W Y W M M 0 W 00 .CO W W O 0 W 1 1 T T . C . . . W . W W 00Y W 00Y M W O W OM .T W 1 1 T C . C . . . W . W W 00Y W M 0Y W OM