customer approval sheet company name sdic model a035vl01 v4 customer approved title : name : approval for specifications only (spec. ver. ) approval for specifications and es sample (spec. ver. ) approval for specifications and cs sample (spec. ver. 0.4) customer remark : auo pm : helen hua p/n : 97.03a26.400 comment : www.datasheet.co.kr datasheet pdf - http://www..net/
all rights strictly reserved. any portion of this pa per shall not be reproduced, copied, or transformed to any other forms without permission from au optronics corp. doc. version : 0.4 total pages : 46 date : 2009/10/30 product specification 3.5" color tft-lcd module < >preliminary specification < >final specification note: the content of this specification is subject to change. ? 2010 au optronics all rights reserved, do not copy. model name a035vl01 v0 planned lifetime: from 2009/july to 2010/dec phase-out control: from 2010/nov to 2010/dec eol schedule: 2010/dec www.datasheet.co.kr datasheet pdf - http://www..net/
a035vl01 v0 product spec version: 0.4 page: 3/46 all rights strictly reserved. any portion of this p aper shall not be reproduced, copied, or transformed to any other forms without permission from au optronics corp. record of revision version revise date page content 0.0 2009/4/21 - first draft 0.1 2009/6/02 45 driver ic register table 0.2 2009/06/05 9 38 41 44 modify vddio range modify reliability test item: low temperature operat ion add packing form add driver ic register table 0.3 2009/07/10 9 44 update electrical characteristics modify suggested initial command 0.4 2009/10/29 9 15 16 46 update vddio voltage range (for ic2.0) add 36h scan direction function (for ic2.0) add b1h hv/de mode setting (for ic2.0) modify power on/off sequence (for ic2.0) www.datasheet.co.kr datasheet pdf - http://www..net/
a035vl01 v0 product spec version: 0.4 page: 4/46 all rights strictly reserved. any portion of this p aper shall not be reproduced, copied, or transformed to any other forms without permission from au optronics corp. contents a. general information................................ ................................................... .................................................. 5 b. electrical specifications .......................... ................................................... ................................................ 6 1. pin assignment for lcd.......................... ................................................... ................................................ 6 2. absolute maximum ratings ........................ ................................................... ............................................... 9 3. electrical characteristics........................ ................................................... ................................................... 9 3.1 recommended operating conditions (gnd=0v)........ ................................................... .................... 9 3.2 electrical characteristics (gnd=0v) ............... ................................................... ................................ 9 3.3 backlight driving conditions..................... ................................................... ........................................ 9 4. input timing ac characteristic................... ................................................... .............................................. 10 5. input timing format............................. ................................................... ................................................... ...11 5.1 vertical timing................................. ................................................... ................................................11 6. serial control interface ac characteristic .......... ................................................... ..................................... 12 6.1 timing chart................................... ................................................... ................................................ 12 6.2 register table ................................. ................................................... ............................................... 13 c. touch panel command and register map............... ................................................... ............................ 27 1. i2c protocol definition.............................. ................................................... ............................... 27 2. i2c data map ........................................ ................................................... .................................. 29 2.1 register data map ............................. ................................................... ........................................ 29 2.2 default setting ............................... ................................................... ............................................. 29 3. raw data register map .............................. ................................................... ............................ 30 4. coordinate register map ............................ ................................................... ............................ 30 5. sensitivity and noise threshold .................... ................................................... .......................... 31 6. interrupt operation mode ........................... ................................................... ............................. 31 6.1 interrupt mode setting ............................. ................................................... ....................... 32 6.2 sensing periodical mode (int_mode[1:0] = [0,0]). ................................................... .................. 32 6.3 coordinate compare mode (int_mode[1:0] = [0,1]) . .................................................. ............... 32 6.4 touch indicate mode (int_mode[1:0] = [1,0])..... ................................................... ..................... 32 7. power mode ......................................... ................................................... ................................... 34 8. power on/off sequence (both have two cases) .......... ................................................... ............ 35 d. optical specification (note1, note 2 and note 3) ... ................................................... ............................. 36 e. reliability test items ............................. ................................................... ................................................. 39 f. outline dimension.................................. ................................................... ................................................. 42 g. application note ................................... ................................................... ................................................... 43 2. power on/off sequence............................ ................................................... ............................................... 44 2.1 power on (standby disabling)................... ................................................... .................................... 44 2.2 power off (standby enabling) ................... ................................................... .................................... 44 3. recommended power on/off serial command settings.. ................................................... ........................ 45 3.1 recommended power on register setting (just for reference, ) ........................................ .............. 45 3.2 recommended power off register setting .......... ................................................... ........................... 46 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a035vl01 v0 product spec version: 0.4 page: 5/46 all rights strictly reserved. any portion of this p aper shall not be reproduced, copied, or transformed to any other forms without permission from au optronics corp. a. general information n o . i t e m s p e c i f i c a t i o n r e m a r k 1 display resolution dot 800rgb(w) x 480(h) 2 active area mm 75.60 x 45.36 3 screen size inch 3.471 (diagonal) 4 dot pitch um 31.5 x 94.5 5 color configuration r, g, b stripe 6 overall dimension mm 86.1 x 51.66 x 2.495 note 1 7 weight g 25 10% 8 panel surface treatment glare type note 1: refer to f. outline dimension www.datasheet.co.kr datasheet pdf - http://www..net/
a035vl01 v0 product spec version: 0.4 page: 6/46 all rights strictly reserved. any portion of this pa per shall not be reproduced, copied, or transformed to any other forms without permission from au optronics corp. b. electrical specifications 1. pin assignment for lcd pin no symbol i/o description remark 1 vled+ p backlight led anode 2 vled- p backlight led cathode 3 dr7 i red data input (msb) 4 dr6 i red data input 5 dr5 i red data input 6 dr4 i red data input 7 dr3 i red data input 8 dr2 i red data input 9 dr1 i red data input 10 dr0 i red data input (lsb) 11 dg7 i green data input (msb) 12 dg6 i green data input 13 dg5 i green data input 14 dg4 i green data input 15 dg3 i green data input 16 dg2 i green data input 17 dg1 i green data input 18 dg0 i green data input (lsb) 19 db7 i blue data input (msb) 20 db6 i blue data input 21 db5 i blue data input 22 db4 i blue data input 23 db3 i blue data input 24 db2 i blue data input 25 db1 i blue data input 26 db0 i blue data input (lsb) 27 sda i/o data input/output of spi 28 cs i chip select (low active) of spi 29 scl i clock input of spi 30 gnd p ground for digital circuit 31 dclk i data clock input note 32 gnd p ground for digital circuit 33 den i data enable input (high active) www.datasheet.co.kr datasheet pdf - http://www..net/
a035vl01 v0 product spec version: 0.4 page: 7/46 all rights strictly reserved. any portion of this pa per shall not be reproduced, copied, or transformed to any other forms without permission from au optronics corp. 34 hsync i horizontal sync input 35 vsync i vertical sync input 36 reset i h/w reset pin. (low active) 37 vddio p digital interface supply voltage of digital 38 vcc c intermediate voltage for charge pump 39 vref c intermediate voltage for charge pump 40 ngvdd c intermediate voltage for charge pump 41 gvdd c intermediate voltage for charge pump 42 vdd p analog power supply voltage 43 vci1 c intermediate voltage for charge pump 44 c11p c pins to connect capacitance for power circui try 45 c11n c pins to connect capacitance for power circui try 46 c12p c pins to connect capacitance for power circui try 47 c12n c pins to connect capacitance for power circui try 48 vdda c intermediate voltage for charge pump 49 c41p c pins to connect capacitance for power circui try 50 c41n c pins to connect capacitance for power circui try 51 c42p c pins to connect capacitance for power circui try 52 c42n c pins to connect capacitance for power circui try 53 nvdda c intermediate voltage for charge pump 54 c31n c pins to connect capacitance for power circui try 55 c31p c pins to connect capacitance for power circui try 56 c32n c pins to connect capacitance for power circui try 57 c32p c pins to connect capacitance for power circui try 58 vcl c intermediate voltage for charge pump 59 c21n c pins to connect capacitance for power circui try 60 c21p c pins to connect capacitance for power circui try 61 c22n c pins to connect capacitance for power circui try 62 c22p c pins to connect capacitance for power circui try 63 vgl c pins to connect capacitance for power circuitry 64 vgh c pins to connect capacitance for power circuitry 65 vcomdc c pins to connect capacitance for power circuitry 66 vdd_tp p voltage input pin for touch panel 67 int o touched interrupt indicator 68 sda_tp i data input pin of spi mode for touch panel 69 scl_tp i clock input pin of spl mode for touch panel www.datasheet.co.kr datasheet pdf - http://www..net/
a035vl01 v0 product spec version: 0.4 page: 8/46 all rights strictly reserved. any portion of this pa per shall not be reproduced, copied, or transformed to any other forms without permission from au optronics corp. 70 gnd_tp p ground of touch panel i input, o output, c capacitor, p power, d dummy note: dclk signal can not be stopped when panel is o perating or display off mode. definition of scanning direction, refer to figure as below pin 1 pin 35 pin 70 pin 36 www.datasheet.co.kr datasheet pdf - http://www..net/
all rights strictly reserved. any portion of this paper shall not b e reproduced, copied, or transformed to any other forms without permission from au optronics corp. 2. absolute maximum ratings i t e m s y m b o l c o n d i t i o n m i n . m a x . u n i t r e m a r k supply voltage vdd gnd=0v -0.3 4.2 v vddio gnd=0v -0.3 3.6 v input signal voltage cs,sda,scl,vsync, hsync,dclk,d0~d7 gnd=0v -0.3 vddio+ 0.3 v storage temperature tstg - tbd tbd ambient temperature operating temperature topa - tbd tbd ambient temperature 3. electrical characteristics 3.1 recommended operating conditions (gnd=0v) item symbol min. typ. max. unit remark vdd 3.1 3.3 3.5 v power supply vddio 1.65 3.3 3.6 v h level v ih 0.7* vddio - vddio v input signal l level v il gnd - 0.3* vddio v 3.2 electrical characteristics (gnd=0v) symbol condition min. typ. max. unit remark i vdd v vdd =3.3v - 17.5 25 ma note i vddtp v vddtp =3.3v - 3.5 5 ma note i vddio v vddio =3.3v 2.2 3 ma note i vddio v vddio =2.0v 2.2 3 ma note i vddio v vddio =1.8v 2.0 3 ma note note 1: test condition: 8colorbar+grayscale pattern, frame rate: 60hz, other registers are default sett ing. 3.3 backlight driving conditions parameter symbol min. typ. max. [note1] unit remark backlight current 25 ma note2 backlight voltage v l 15 16.5 17.5 v note1: to consider led driver and feedback resistor t olerance. note2: if using lcd internal led driver controller t he maximum setting should be typical value. ta=25 www.datasheet.co.kr datasheet pdf - http://www..net/
all rights strictly reserved. any portion of this paper shall not b e reproduced, copied, or transformed to any other forms without permission from au optronics corp. 4. input timing ac characteristic (vdd=3.0 ~3.6v, agnd=gnd=0v, ta=25 ) parameter symbol min. typ. max. unit remark dclk duty cycle tcw 40 50 60 % vsync setup time tvst 15 - - ns vsync hold time tvhd 15 - - ns hsync setup time thst 15 - - ns hsync hold time thhd 15 - - ns data setup time tdst 15 - - ns data hold time tdhd 15 - - ns // 70 % dclk vsync hsync 30 % 30 % 30 % 30 % 30 % 30 % tvst tvhd tvsw thhd thst thsw // // www.datasheet.co.kr datasheet pdf - http://www..net/
all rights strictly reserved. any portion of this paper shall not b e reproduced, copied, or transformed to any other forms without permission from au optronics corp. 5. input timing format 5.1 vertical timing v t vp t vb t vd t vf t 5.2 horizontal timing hp t hb t hd t h t hf t 5.3 timing parameters parameter symbol min typ max unit clock cycle 1/t clk 20 27 30 mhz hsync cycle 1/t fh 24.2 29.3 31.3 khz vsync cycle 1/t fv 50 60 65 hz horizontal signal horizontal cycle t h 824 920 956 clk horizontal display period t hd - 800 - clk horizontal front porch t hf 2 50 52 clk horizontal pulse width t hp 2 20 52 clk horizontal back porch t hb 2 50 52 clk vertical signal vertical cycle t v 486 488 492 h vertical display period t vd - 480 - h vertical front porch t vf 2 3 4 h vertical pulse width t vp 2 2 4 h vertical back porch t vb 2 3 4 h www.datasheet.co.kr datasheet pdf - http://www..net/
all rights strictly reserved. any portion of this paper shall not b e reproduced, copied, or transformed to any other forms without permission from au optronics corp. 6. serial control interface ac characteristic item symbol min typical max unit cs input setup time t css 60 - - ns cs input hold time t scc 60 - - ns cs pulse high width t chw 40 - - ns serial data input setup time t sds 10 - - ns serial data input hold time t sdh 10 - - ns serial data output disable time t oh 15 - - ns serial clock cycle(write) t scycw 66 - - ns scl pulse low width(write) t slw 20 - - ns scl pulse high width(write) t shw 20 - - ns serial clock cycle(read) t scycr 150 - - ns scl pulse low width(read) t slr 60 - - ns scl pulse high width(read) t shr 60 - - ns 6.1 timing chart first transmit second transmit www.datasheet.co.kr datasheet pdf - http://www..net/
all rights strictly reserved. any portion of this paper shall not b e reproduced, copied, or transformed to any other forms without permission from au optronics corp. 6.2 register table register d/c d7 d6 d5 d4 d3 d2 d1 d0 function 01h 0 0 0 0 0 0 0 0 1 software reset 10h 0 0 0 0 1 0 0 0 0 sleep in & booster off 11h 0 0 0 0 1 0 0 0 1 sleep out & booster on 28h 0 0 0 1 0 1 0 0 0 display off 29h 0 0 0 1 0 1 0 0 1 display on 36h 0 0 0 1 1 0 1 1 0 scan direction b1h 0 1 0 1 1 0 0 0 1 hv/de mode selection c5h 0 1 1 0 0 0 1 0 1 vcom setting c6h 0 1 1 0 0 0 1 1 0 gvdd/gvss setting c7h 0 1 1 0 0 0 1 1 1 ngvdd/ngvss setting e0h 0 1 1 1 0 0 0 0 0 positive polarity gamma setti ng e1h 0 1 1 1 0 0 0 0 1 negative polarity gamma setti ng register 01h (software reset) description when the software reset command is written, it caus es a software reset. it resets the commands and parameters to their s/w reset default values and all source & gate outputs ar set to vss(display off). note: the frame memory contents are not affected by this command. restriction it will be necessary to wait 10 msec before sending new command following software reset. register 10h (sleep in) description this command causes the lcd module to enter the min imum power consumption mode. in this mode the dc/dc conveter is stopped, interna l display oscillator is stopped, and panel scanning is stopped. note: the memory keeps its contents. restriction it will be necessary to wait 5 msec before sending n ext command, this is to allow time for the supply voltage and clock circuits to stabilize. register 11h (sleep out) description this command turns off sleep mode. in this mode the dc/dc conveter is enabled, interna l display oscillator is started, and panel scanning is started. restriction it will be necessary to wait 120 msec before sending next command, this is to allow time for the supply voltage and clock circuits to stabil ize. www.datasheet.co.kr datasheet pdf - http://www..net/
all rights strictly reserved. any portion of this paper shall not b e reproduced, copied, or transformed to any other forms without permission from au optronics corp. register 28h (display off) description this command is used to enter into display off mode. in this mode, the output from frame memory is disab led and blank page inserted. restriction - register 29h (display on) description this command is used to recover from display off mod e. output from frame memory is enabled. restriction - 36h scan direction d/cx d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 0 0 1 1 0 1 1 0 36 1 st parameter 1 my mx 0 0 0 0 0 0 00h description set the scan direction of lcd. my = 0: scan direction is from top to bottom, my = 1: scan direction is from bottom to top. mx = 0: scan direction is from left to right, mx = 1: scan direction is from right to left. default default value is {0000 0000} b1h hv/de mode setting d/cx d7 d6 d5 d4 d3 d2 d1 d0 hex www.datasheet.co.kr datasheet pdf - http://www..net/
all rights strictly reserved. any portion of this paper shall not b e reproduced, copied, or transformed to any other forms without permission from au optronics corp. command 0 1 0 1 1 0 0 0 1 b1 1 st parameter 1 0 0 0 0 0 1 hv/de 0 04h 2 nd parameter 1 hblanking 00h 3 rd parameter 1 vblanking 00h description hv/de: hv/de mode setting. hv/de description 0 de mode is selected. de signal is needs input exte rnally. hblanking and vblanking parameters are ineffective. 1 hv mode is selected. de signal doesnt need input. blanking settings are controlled by hblanking/vblank ing parameters. hblanking[7:0]: horizontal blanking setting. hblank ing should be set as value of t hp add t hb . ex: t hp = 20(decimal), t hb = 50(decimal). hblanking = 20 + 50 = 70(decimal) = 0100 0110(bin ary) vblanking[7:0]: vertical blanking setting. vblankin g should be set as value of t vp add t vb . ex: t vp = 2 (decimal), t vb = 3(decimal). vblanking = 2 + 3 = 5(decimal) = 0000 0101(binary ) c5h vcomdc(vcom setting) d/cx d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 1 1 0 0 0 1 0 1 c5 1 st parameter 1 nvm2 vcomd cgnd - - - - - - 00h 2 nd parameter 1 comdc7 comdc6 comdc5 comdc4 comdc3 comdc2 comdc1 comdc0 note: - dont care description nvm2=0, vcomdc setting is from nvm, nvm2=1, vcomdc setting is from register restriction register availability default default value is {0101 1101} flow chart - comdc[7:0] vcomdc(v) comdc[7:0] vcomdc(v) comdc[7:0] vcomdc(v) comdc[7:0] vcomdc(v) ffh 1.905 bfh 0.945 7fh 0.000 3fh -0.960 feh 1.890 beh 0.930 7eh -0.015 3eh -0.975 fdh 1.875 bdh 0.915 7dh -0.030 3dh -0.990 fch 1.860 bch 0.900 7ch -0.045 3ch -1.005 fbh 1.845 bbh 0.885 7bh -0.060 3bh -1.020 www.datasheet.co.kr datasheet pdf - http://www..net/
all rights strictly reserved. any portion of this paper shall not b e reproduced, copied, or transformed to any other forms without permission from au optronics corp. fah 1.830 bah 0.870 7ah -0.075 3ah -1.035 f9h 1.815 b9h 0.855 79h -0.090 39h -1.050 f8h 1.800 b8h 0.840 78h -0.105 38h -1.065 f7h 1.785 b7h 0.825 77h -0.120 37h -1.080 f6h 1.770 b6h 0.810 76h -0.135 36h -1.095 f5h 1.755 b5h 0.795 75h -0.150 35h -1.110 f4h 1.740 b4h 0.780 74h -0.165 34h -1.125 f3h 1.725 b3h 0.765 73h -0.180 33h -1.140 f2h 1.710 b2h 0.750 72h -0.195 32h -1.155 f1h 1.695 b1h 0.735 71h -0.210 31h -1.170 f0h 1.680 b0h 0.720 70h -0.225 30h -1.185 efh 1.665 afh 0.705 6fh -0.240 2fh -1.200 eeh 1.650 aeh 0.690 6eh -0.255 2eh -1.215 edh 1.635 adh 0.675 6dh -0.270 2dh -1.230 ech 1.620 ach 0.660 6ch -0.285 2ch -1.245 ebh 1.605 abh 0.645 6bh -0.300 2bh -1.260 eah 1.590 aah 0.630 6ah -0.315 2ah -1.275 e9h 1.575 a9h 0.615 69h -0.330 29h -1.290 e8h 1.560 a8h 0.600 68h -0.345 28h -1.305 e7h 1.545 a7h 0.585 67h -0.360 27h -1.320 e6h 1.530 a6h 0.570 66h -0.375 26h -1.335 e5h 1.515 a5h 0.555 65h -0.390 25h -1.350 e4h 1.500 a4h 0.540 64h -0.405 24h -1.365 e3h 1.485 a3h 0.525 63h -0.420 23h -1.380 e2h 1.470 a2h 0.510 62h -0.435 22h -1.395 e1h 1.455 a1h 0.495 61h -0.450 21h -1.410 e0h 1.440 a0h 0.480 60h -0.465 20h -1.425 dfh 1.425 9fh 0.465 5fh -0.480 1fh -1.440 deh 1.410 9eh 0.450 5eh -0.495 1eh -1.455 ddh 1.395 9dh 0.435 5dh -0.510 1dh -1.470 dch 1.380 9ch 0.420 5ch -0.525 1ch -1.485 dbh 1.365 9bh 0.405 5bh -0.540 1bh -1.500 dah 1.350 9ah 0.390 5ah -0.555 1ah -1.515 d9h 1.335 99h 0.375 59h -0.570 19h -1.530 d8h 1.320 98h 0.360 58h -0.585 18h -1.545 d7h 1.305 97h 0.345 57h -0.600 17h -1.560 d6h 1.290 96h 0.330 56h -0.615 16h -1.575 d5h 1.275 95h 0.315 55h -0.630 15h -1.590 d4h 1.260 94h 0.300 54h -0.645 14h -1.605 d3h 1.245 93h 0.285 53h -0.660 13h -1.620 d2h 1.230 92h 0.270 52h -0.675 12h -1.635 d1h 1.215 91h 0.255 51h -0.690 11h -1.650 d0h 1.200 90h 0.240 50h -0.705 10h -1.665 cfh 1.185 8fh 0.225 4fh -0.720 0fh -1.680 ceh 1.170 8eh 0.210 4eh -0.735 0eh -1.695 cdh 1.155 8dh 0.195 4dh -0.750 0dh -1.710 cch 1.140 8ch 0.180 4ch -0.765 0ch -1.725 cbh 1.125 8bh 0.165 4bh -0.780 0bh -1.740 cah 1.110 8ah 0.150 4ah -0.795 0ah -1.755 c9h 1.095 89h 0.135 49h -0.810 09h -1.770 c8h 1.080 88h 0.120 48h -0.825 08h -1.785 c7h 1.065 87h 0.105 47h -0.840 07h -1.800 c6h 1.050 86h 0.090 46h -0.855 06h -1.815 c5h 1.035 85h 0.075 45h -0.870 05h -1.830 c4h 1.020 84h 0.060 44h -0.885 04h -1.845 c3h 1.005 83h 0.045 43h -0.900 03h -1.860 c2h 0.990 82h 0.030 42h -0.915 02h -1.875 www.datasheet.co.kr datasheet pdf - http://www..net/
all rights strictly reserved. any portion of this paper shall not b e reproduced, copied, or transformed to any other forms without permission from au optronics corp. c1h 0.975 81h 0.015 41h -0.930 01h -1.890 c0h 0.960 80h 0.000 40h -0.945 00h -1.905 www.datasheet.co.kr datasheet pdf - http://www..net/
all rights strictly reserved. any portion of this paper shall not b e reproduced, copied, or transformed to any other forms without permission from au optronics corp. c6h gvdd/gvss(gvdd/gvss setting) d/cx d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 1 1 0 0 0 1 1 0 c6 1 st parameter 1 gvdd7 gvdd6 gvdd5 gvdd4 gvdd3 gvdd2 gvdd1 gvdd0 2 nd parameter 1 nvm4 - gvss5 gvss4 gvss3 gvss2 gvss1 gvss0 note: - dont care description nvm4=0, gvdd setting is from nvm, nvm4=1, gvdd sett ing is from register restriction register availability default gvdd default value is {1010 1011} ; gvss default va lue is {0000 0100} flow chart - - gvdd voltage setting gvdd[7:0] gvdd(v) gvdd[7:0] gvdd(v) gvdd[7:0] gvdd(v) gvdd[7:0] gvdd(v) ffh 6 bfh 5.04 7fh 4.08 3fh 3.12 feh 5.985 beh 5.025 7eh 4.065 3eh 3.105 fdh 5.97 bdh 5.01 7dh 4.05 3dh 3.09 fch 5.955 bch 4.995 7ch 4.035 3ch 3.075 fbh 5.94 bbh 4.98 7bh 4.02 3bh 3.06 fah 5.925 bah 4.965 7ah 4.005 3ah 3.045 f9h 5.91 b9h 4.95 79h 3.99 39h 3.03 f8h 5.895 b8h 4.935 78h 3.975 38h 3.015 f7h 5.88 b7h 4.92 77h 3.96 37h 3 f6h 5.865 b6h 4.905 76h 3.945 36h 2.985 f5h 5.85 b5h 4.89 75h 3.93 35h 2.97 f4h 5.835 b4h 4.875 74h 3.915 34h 2.955 f3h 5.82 b3h 4.86 73h 3.9 33h 2.94 f2h 5.805 b2h 4.845 72h 3.885 32h 2.925 f1h 5.79 b1h 4.83 71h 3.87 31h 2.91 f0h 5.775 b0h 4.815 70h 3.855 30h 2.895 efh 5.76 afh 4.8 6fh 3.84 2fh 2.88 eeh 5.745 aeh 4.785 6eh 3.825 2eh 2.865 edh 5.73 adh 4.77 6dh 3.81 2dh 2.85 ech 5.715 ach 4.755 6ch 3.795 2ch 2.835 ebh 5.7 abh 4.74 6bh 3.78 2bh 2.82 eah 5.685 aah 4.725 6ah 3.765 2ah 2.805 www.datasheet.co.kr datasheet pdf - http://www..net/
all rights strictly reserved. any portion of this paper shall not b e reproduced, copied, or transformed to any other forms without permission from au optronics corp. e9h 5.67 a9h 4.71 69h 3.75 29h 2.79 e8h 5.655 a8h 4.695 68h 3.735 28h 2.775 e7h 5.64 a7h 4.68 67h 3.72 27h 2.76 e6h 5.625 a6h 4.665 66h 3.705 26h 2.745 e5h 5.61 a5h 4.65 65h 3.69 25h 2.73 e4h 5.595 a4h 4.635 64h 3.675 24h 2.715 e3h 5.58 a3h 4.62 63h 3.66 23h 2.7 e2h 5.565 a2h 4.605 62h 3.645 22h 2.685 e1h 5.55 a1h 4.59 61h 3.63 21h 2.67 e0h 5.535 a0h 4.575 60h 3.615 20h 2.655 dfh 5.52 9fh 4.560 5fh 3.600 1fh 2.655 deh 5.505 9eh 4.545 5eh 3.585 1eh 2.655 ddh 5.49 9dh 4.530 5dh 3.570 1dh 2.655 dch 5.475 9ch 4.515 5ch 3.555 1ch 2.655 dbh 5.46 9bh 4.500 5bh 3.540 1bh 2.655 dah 5.445 9ah 4.485 5ah 3.525 1ah 2.655 d9h 5.43 99h 4.470 59h 3.510 19h 2.655 d8h 5.415 98h 4.455 58h 3.495 18h 2.655 d7h 5.4 97h 4.440 57h 3.480 17h 2.655 d6h 5.385 96h 4.425 56h 3.465 16h 2.655 d5h 5.37 95h 4.410 55h 3.450 15h 2.655 d4h 5.355 94h 4.395 54h 3.435 14h 2.655 d3h 5.34 93h 4.380 53h 3.420 13h 2.655 d2h 5.325 92h 4.365 52h 3.405 12h 2.655 d1h 5.31 91h 4.350 51h 3.390 11h 2.655 d0h 5.295 90h 4.335 50h 3.375 10h 2.655 cfh 5.28 8fh 4.320 4fh 3.360 0fh 2.655 ceh 5.265 8eh 4.305 4eh 3.345 0eh 2.655 cdh 5.25 8dh 4.290 4dh 3.330 0dh 2.655 cch 5.235 8ch 4.275 4ch 3.315 0ch 2.655 cbh 5.22 8bh 4.260 4bh 3.300 0bh 2.655 cah 5.205 8ah 4.245 4ah 3.285 0ah 2.655 c9h 5.19 89h 4.230 49h 3.270 09h 2.655 c8h 5.175 88h 4.215 48h 3.255 08h 2.655 c7h 5.16 87h 4.200 47h 3.240 07h 2.655 c6h 5.145 86h 4.185 46h 3.225 06h 2.655 c5h 5.13 85h 4.170 45h 3.210 05h 2.655 www.datasheet.co.kr datasheet pdf - http://www..net/
all rights strictly reserved. any portion of this paper shall not b e reproduced, copied, or transformed to any other forms without permission from au optronics corp. c4h 5.115 84h 4.155 44h 3.195 04h 2.655 c3h 5.1 83h 4.140 43h 3.180 03h 2.655 c2h 5.085 82h 4.125 42h 3.165 02h 2.655 c1h 5.07 81h 4.110 41h 3.150 01h 2.655 c0h 5.055 80h 4.095 40h 3.135 00h 2.655 - gvss voltage setting gvss[5:0] gvss (v) gvss[5:0] gvss (v) 3fh 1.05 1fh 0.57 3eh 1.035 1eh 0.555 3dh 1.02 1dh 0.54 3ch 1.005 1ch 0.525 3bh 0.99 1bh 0.51 3ah 0.975 1ah 0.495 39h 0.96 19h 0.48 38h 0.945 18h 0.465 37h 0.93 17h 0.45 36h 0.915 16h 0.435 35h 0.9 15h 0.42 34h 0.885 14h 0.405 33h 0.87 13h 0.39 32h 0.855 12h 0.375 31h 0.84 11h 0.36 30h 0.825 10h 0.345 2fh 0.81 0fh 0.33 2eh 0.795 0eh 0.315 2dh 0.78 0dh 0.3 2ch 0.765 0ch 0.285 2bh 0.75 0bh 0.27 2ah 0.735 0ah 0.255 29h 0.72 09h 0.24 28h 0.705 08h 0.225 27h 0.69 07h 0.21 26h 0.675 06h 0.195 25h 0.66 05h 0.18 24h 0.645 04h 0.165 23h 0.63 03h 0.15 www.datasheet.co.kr datasheet pdf - http://www..net/
all rights strictly reserved. any portion of this paper shall not b e reproduced, copied, or transformed to any other forms without permission from au optronics corp. 22h 0.615 02h 0.135 21h 0.6 01h 0.12 20h 0.585 00h 0.105 c7h ngvdd/ngvss(ngvdd/ngvss setting) d/cx d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 1 1 0 0 0 1 1 1 c7 1 st parameter 1 ngvdd7 ngvdd6 ngvdd5 ngvdd4 ngvdd3 ngvdd2 ngvdd1 ngvdd0 2 nd parameter 1 nvm5 - ngvss5 ngvss4 ngvss3 ngvss2 ngvss1 ngvss0 note: - dont care description nvm5=0, ngvdd setting is from nvm, nvm5=1, ngvdd se tting is from register restriction register availability default ngvdd default value is {1010 1011} ; ngvss default value is {0000 0100} flow chart - - ngvdd voltage setting ngvdd[7:0] ngvdd(v) ngvdd[7:0] ngvdd(v) ngvdd[7:0] ngvdd(v) ngvdd[7:0] ngvdd(v) ffh -6 bfh -5.04 7fh -4.08 3fh -3.12 feh -5.985 beh -5.025 7eh -4.065 3eh -3.105 fdh -5.97 bdh -5.01 7dh -4.05 3dh -3.09 fch -5.955 bch -4.995 7ch -4.035 3ch -3.075 fbh -5.94 bbh -4.98 7bh -4.02 3bh -3.06 fah -5.925 bah -4.965 7ah -4.005 3ah -3.045 f9h -5.91 b9h -4.95 79h -3.99 39h -3.03 f8h -5.895 b8h -4.935 78h -3.975 38h -3.015 f7h -5.88 b7h -4.92 77h -3.96 37h -3 f6h -5.865 b6h -4.905 76h -3.945 36h -2.985 f5h -5.85 b5h -4.89 75h -3.93 35h -2.97 f4h -5.835 b4h -4.875 74h -3.915 34h -2.955 f3h -5.82 b3h -4.86 73h -3.9 33h -2.94 f2h -5.805 b2h -4.845 72h -3.885 32h -2.925 f1h -5.79 b1h -4.83 71h -3.87 31h -2.91 f0h -5.775 b0h -4.815 70h -3.855 30h -2.895 efh -5.76 afh -4.8 6fh -3.84 2fh -2.88 eeh -5.745 aeh -4.785 6eh -3.825 2eh -2.865 edh -5.73 adh -4.77 6dh -3.81 2dh -2.85 www.datasheet.co.kr datasheet pdf - http://www..net/
all rights strictly reserved. any portion of this paper shall not b e reproduced, copied, or transformed to any other forms without permission from au optronics corp. ech -5.715 ach -4.755 6ch -3.795 2ch -2.835 ebh -5.7 abh -4.74 6bh -3.78 2bh -2.82 eah -5.685 aah -4.725 6ah -3.765 2ah -2.805 e9h -5.67 a9h -4.71 69h -3.75 29h -2.79 e8h -5.655 a8h -4.695 68h -3.735 28h -2.775 e7h -5.64 a7h -4.68 67h -3.72 27h -2.76 e6h -5.625 a6h -4.665 66h -3.705 26h -2.745 e5h -5.61 a5h -4.65 65h -3.69 25h -2.73 e4h -5.595 a4h -4.635 64h -3.675 24h -2.715 e3h -5.58 a3h -4.62 63h -3.66 23h -2.7 e2h -5.565 a2h -4.605 62h -3.645 22h -2.685 e1h -5.55 a1h -4.59 61h -3.63 21h -2.67 e0h -5.535 a0h -4.575 60h -3.615 20h -2.655 dfh -5.52 9fh -4.56 5fh -3.6 1fh -2.655 deh -5.505 9eh -4.545 5eh -3.585 1eh -2.655 ddh -5.49 9dh -4.53 5dh -3.57 1dh -2.655 dch -5.475 9ch -4.515 5ch -3.555 1ch -2.655 dbh -5.46 9bh -4.5 5bh -3.54 1bh -2.655 dah -5.445 9ah -4.485 5ah -3.525 1ah -2.655 d9h -5.43 99h -4.47 59h -3.51 19h -2.655 d8h -5.415 98h -4.455 58h -3.495 18h -2.655 d7h -5.4 97h -4.44 57h -3.48 17h -2.655 d6h -5.385 96h -4.425 56h -3.465 16h -2.655 d5h -5.37 95h -4.41 55h -3.45 15h -2.655 d4h -5.355 94h -4.395 54h -3.435 14h -2.655 d3h -5.34 93h -4.38 53h -3.42 13h -2.655 d2h -5.325 92h -4.365 52h -3.405 12h -2.655 d1h -5.31 91h -4.35 51h -3.39 11h -2.655 d0h -5.295 90h -4.335 50h -3.375 10h -2.655 cfh -5.28 8fh -4.32 4fh -3.36 0fh -2.655 ceh -5.265 8eh -4.305 4eh -3.345 0eh -2.655 cdh -5.25 8dh -4.29 4dh -3.33 0dh -2.655 cch -5.235 8ch -4.275 4ch -3.315 0ch -2.655 cbh -5.22 8bh -4.26 4bh -3.3 0bh -2.655 cah -5.205 8ah -4.245 4ah -3.285 0ah -2.655 c9h -5.19 89h -4.23 49h -3.27 09h -2.655 c8h -5.175 88h -4.215 48h -3.255 08h -2.655 www.datasheet.co.kr datasheet pdf - http://www..net/
all rights strictly reserved. any portion of this paper shall not b e reproduced, copied, or transformed to any other forms without permission from au optronics corp. c7h -5.16 87h -4.2 47h -3.24 07h -2.655 c6h -5.145 86h -4.185 46h -3.225 06h -2.655 c5h -5.13 85h -4.17 45h -3.21 05h -2.655 c4h -5.115 84h -4.155 44h -3.195 04h -2.655 c3h -5.1 83h -4.14 43h -3.18 03h -2.655 c2h -5.085 82h -4.125 42h -3.165 02h -2.655 c1h -5.07 81h -4.11 41h -3.15 01h -2.655 c0h -5.055 80h -4.095 40h -3.135 00h -2.655 - ngvss voltage setting ngvss[5:0] ngvss (v) ngvss[5:0] ngvss (v) 3fh -1.050 1fh -0.570 3eh -1.035 1eh -0.555 3dh -1.020 1dh -0.540 3ch -1.005 1ch -0.525 3bh -0.990 1bh -0.510 3ah -0.975 1ah -0.495 39h -0.960 19h -0.480 38h -0.945 18h -0.465 37h -0.930 17h -0.450 36h -0.915 16h -0.435 35h -0.900 15h -0.42 34h -0.885 14h -0.405 33h -0.870 13h -0.39 32h -0.855 12h -0.375 31h -0.840 11h -0.36 30h -0.825 10h -0.345 2fh -0.810 0fh -0.33 2eh -0.795 0eh -0.315 2dh -0.780 0dh -0.3 2ch -0.765 0ch -0.285 2bh -0.750 0bh -0.27 2ah -0.735 0ah -0.255 29h -0.720 09h -0.24 28h -0.705 08h -0.225 27h -0.690 07h -0.21 26h -0.675 06h -0.195 www.datasheet.co.kr datasheet pdf - http://www..net/
all rights strictly reserved. any portion of this paper shall not b e reproduced, copied, or transformed to any other forms without permission from au optronics corp. 25h -0.660 05h -0.18 24h -0.645 04h -0.165 23h -0.630 03h -0.15 22h -0.615 02h -0.135 21h -0.600 01h -0.12 20h -0.585 00h -0.105 e0h gmctrp1(gamma correction characteristics setting (p ositive polarity)) d/cx d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 1 1 1 0 0 0 0 0 e0 1 st parameter 1 gp1r5 gp1r4 gp1r3 gp1r2 gp1r1 gp1r0 2 nd parameter 1 gp2r5 gp2r4 gp2r3 gp2r2 gp2r1 gp2r0 3 rd parameter 1 gp3r5 gp3r4 gp3r3 gp3r2 gp3r1 gp3r0 4 th parameter 1 - gp4r4 gp4r3 gp4r2 gp4r1 gp4r0 5 th parameter 1 - gp5r4 gp5r3 gp5r2 gp5r1 gp5r0 6 th parameter 1 - gp6r4 gp6r3 gp6r2 gp6r1 gp6r0 7 th parameter 1 - - gp7r3 gp7r2 gp7r1 gp7r0 8 th parameter 1 - - gp8r3 gp8r2 gp8r1 gp8r0 9 th parameter 1 - - gp9r3 gp9r2 gp9r1 gp9r0 10 th parameter 1 - - gp10r3 gp10r2 gp10r1 gp10r0 11 th parameter 1 - gp11r4 gp11r3 gp11r2 gp11r1 gp11r0 12 th parameter 1 - gp12r4 gp12r3 gp12r2 gp12r1 gp12r0 13 th parameter 1 - gp13r4 gp13r3 gp13r2 gp13r1 gp13r0 14 th parameter 1 gp14r5 gp14r4 gp14r3 gp14r2 gp14r1 gp14r0 15 th parameter 1 gp15r5 gp15r4 gp15r3 gp15r2 gp15r1 gp15r0 16 th parameter 1 gp16r5 gp16r4 gp16r3 gp16r2 gp16r1 gp16r0 note: - dont care www.datasheet.co.kr datasheet pdf - http://www..net/
all rights strictly reserved. any portion of this paper shall not b e reproduced, copied, or transformed to any other forms without permission from au optronics corp. description gamma adjustment for positive polarity setting. gp1r : for positive polarity gamma level 0 gp2r : for positive polarity gamma level 4 gp3r : for positive polarity gamma level 8 gp4r : for positive polarity gamma level 16 gp5r : for positive polarity gamma level 32 gp6r : for positive polarity gamma level 52 gp7r : for positive polarity gamma level 80 gp8r : for positive polarity gamma level 108 gp9r : for positive polarity gamma level 147 gp10r : for positive polarity gamma level 175 gp11r : for positive polarity gamma level 203 gp12r : for positive polarity gamma level 223 gp13r : for positive polarity gamma level 239 gp14r : for positive polarity gamma level 247 gp15r : for positive polarity gamma level 251 gp16r : for positive polarity gamma level 255 restriction register availability default flow chart - e1h gmctrn1(gamma correction characteristics setting (n egative polarity)) d/cx d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 1 1 1 0 0 0 0 1 e1 1 st parameter 1 gn1r5 gn1r4 gn1r3 gn1r2 gn1r1 gn1r0 2 nd parameter 1 gn2r5 gn2r4 gn2r3 gn2r2 gn2r1 gn2r0 3 rd parameter 1 gn3r5 gn3r4 gn3r3 gn3r2 gn3r1 gn3r0 4 th parameter 1 - gn4r4 gn4r3 gn4r2 gn4r1 gn4r0 5 th parameter 1 - gn5r4 gn5r3 gn5r2 gn5r1 gn5r0 6 th parameter 1 - gn6r4 gn6r3 gn6r2 gn6r1 gn6r0 7 th parameter 1 - - gn7r3 gn7r2 gn7r1 gn7r0 8 th parameter 1 - - gn8r3 gn8r2 gn8r1 gn8r0 9 th parameter 1 - - gn9r3 gn9r2 gn9r1 gn9r0 10 th parameter 1 - - gn10r3 gn10r2 gn10r1 gn10r0 11 th parameter 1 - gn11r4 gn11r3 gn11r2 gn11r1 gn11r0 12 th parameter 1 - gn12r4 gn12r3 gn12r2 gn12r1 gn12r0 13 th parameter 1 - gn13r4 gn13r3 gn13r2 gn13r1 gn13r0 14 th parameter 1 gn14r5 gn14r4 gn14r3 gn14r2 gn14r1 gn14r0 15 th parameter 1 gn15r5 gn15r4 gn15r3 gn15r2 gn15r1 gn15r0 www.datasheet.co.kr datasheet pdf - http://www..net/
all rights strictly reserved. any portion of this paper shall not b e reproduced, copied, or transformed to any other forms without permission from au optronics corp. 16 th parameter 1 gn16r5 gn16r4 gn16r3 gn16r2 gn16r1 gn16r0 note: - dont care description gamma adjustment for negative porlarity setting. gn1r : for negative polarity gamma level 0 gn2r : for negative polarity gamma level 4 gn3r : for negative polarity gamma level 8 gn4r : for negative polarity gamma level 16 gn5r : for negative polarity gamma level 32 gn6r : for negative polarity gamma level 52 gn7r : for negative polarity gamma level 80 gn8r : for negative polarity gamma level 108 gn9r : for negative polarity gamma level 147 gn10r : for negative polarity gamma level 175 gn11r : for negative polarity gamma level 203 gn12r : for negative polarity gamma level 223 gn13r : for negative polarity gamma level 239 gn14r : for negative polarity gamma level 247 gn15r : for negative polarity gamma level 251 gn16r : for negative polarity gamma level 255 restriction register availability default flow chart - www.datasheet.co.kr datasheet pdf - http://www..net/
all rights strictly reserved. any portion of this paper shall not b e reproduced, copied, or transformed to any other forms without permission from au optronics corp. c. touch panel command and register map 1. i2c protocol definition figure 1. standard i 2 c transaction unit the sensor controller supports standard i 2 c protocol with scl up to 400khz. the device address is 0x5c. the chip also provides both single and sequential access. figure 2 shows the write operation using singl e or sequential mode. figure 3 also depicts the standard i2c transaction for single for sequential read mechanism. write operation single start device address (w) a mem addr a data[0] a stop sequential start device address (w) a mem addr a data[0] a data[1] a a data[n] a stop figure 2. write operation with single/multiple access read operation single start device address (w) a mem addr a start device address (r) a data[0] na stop sequential start device address (w) a mem addr a start device address (r) a data[0] a a data[n] na stop figure 3. read operation with single/multiple access b7 b6 b5 b4 b3 b2 b1 b0 ack clock start stop scl sda www.datasheet.co.kr datasheet pdf - http://www..net/
all rights strictly reserved. any portion of this paper shall not be reproduced, copied, or transformed to any other forms without permission from au optronics corp. b 7 b 6 b 5 b 4 b 3 b 2 b 1 b 0 a c k b 7 b 6 b 5 b 4 b 3 b 2 b 1 b 0 a c k b 7 b 6 b 5 b 4 b 3 b 2 b 1 b 0 a c k b 7 b 6 b 5 b 4 b 3 b 2 b 1 b 0 a c k b 7 b 6 b 5 b 4 b 3 b 2 b 1 b 0 n a c k start stop scl sda start device address(0x5c) write memory address(0x06) device address(0x5c) read suppose the y[3] raw data is 321. if only y[3] is read, user should issue the waveform as follo wing: www.datasheet.co.kr datasheet pdf - http://www..net/
all rights strictly reserved. any portion of this paper shall not b e reproduced, copied, or transformed to any other forms without permission from au optronics corp. 2. i2c data map 2.1 register data map addr. addr.(hex) description r/w b7 b6 b5 b4 b3 b2 b1 b0 0 y[0]_lsb r adc_0[7] adc_0[6] adc_0[5] adc_0[4] adc_0[3] adc_0[2] adc_0[1] adc_0[0] 1 y[0]_msb r adc_0[15] adc_0[14] adc_0[13] adc_0[12] adc_0[11] adc_0[10] adc_0[ 9] adc_0[8] 2 y[1]_lsb r adc_1[7] adc_1[6] adc_1[5] adc_1[4] adc_1[3] adc_1[2] adc_1[1] adc_1[0] 3 y[1]_msb r adc_1[15] adc_1[14] adc_1[13] adc_1[12] adc_1[11] adc_1[10] adc_1[ 9] adc_1[8] 4 y[2]_lsb r adc_2[7] adc_2[6] adc_2[5] adc_2[4] adc_2[3] adc_2[2] adc_2[1] adc_2[0] 5 y[2]_msb r adc_2[15] adc_2[14] adc_2[13] adc_2[12] adc_2[11] adc_2[10] adc_2[ 9] adc_2[8] 6 y[3]_lsb r adc_3[7] adc_3[6] adc_3[5] adc_3[4] adc_3[3] adc_3[2] adc_3[1] adc_3[0] 7 y[3]_msb r adc_3[15] adc_3[14] adc_3[13] adc_3[12] adc_3[11] adc_3[10] adc_3[ 9] adc_3[8] 8 y[4]_lsb r adc_4[7] adc_4[6] adc_4[5] adc_4[4] adc_4[3] adc_4[2] adc_4[1] adc_4[0] 9 y[4]_msb r adc_4[15] adc_4[14] adc_4[13] adc_4[12] adc_4[11] adc_4[10] adc_4[ 9] adc_4[8] 10 y[5]_lsb r adc_5[7] adc_5[6] adc_5[5] adc_5[4] adc_5[3] adc_5[2] adc_5[ 1] adc_5[0] 11 y[5]_msb r adc_5[15] adc_5[14] adc_5[13] adc_5[12] adc_5[11] adc_5[10] adc_ 5[9] adc_5[8] 12 y[6]_lsb r adc_6[7] adc_6[6] adc_6[5] adc_6[4] adc_6[3] adc_6[2] adc_6[ 1] adc_6[0] 13 y[6]_msb r adc_6[15] adc_6[14] adc_6[13] adc_6[12] adc_6[11] adc_6[10] adc_ 6[9] adc_6[8] 14 y[7]_lsb r adc_7[7] adc_7[6] adc_7[5] adc_7[4] adc_7[3] adc_7[2] adc_7[ 1] adc_7[0] 15 y[7]_msb r adc_7[15] adc_7[14] adc_7[13] adc_7[12] adc_7[11] adc_7[10] adc_ 7[9] adc_7[8] 16 x[0]_lsb r adc_8[7] adc_8[6] adc_8[5] adc_8[4] adc_8[3] adc_8[2] adc_8[ 1] adc_8[0] 17 x[0]_msb r adc_8[15] adc_8[14] adc_8[13] adc_8[12] adc_8[11] adc_8[10] adc_ 8[9] adc_8[8] 18 x[1]_lsb r adc_9[7] adc_9[6] adc_9[5] adc_9[4] adc_9[3] adc_9[2] adc_9[ 1] adc_9[0] 19 x[1]_msb r adc_9[15] adc_9[14] adc_9[13] adc_9[12] adc_9[11] adc_9[10] adc_ 9[9] adc_9[8] 20 x[2]_lsb r adc_10[7] adc_10[6] adc_10[5] adc_10[4] adc_10[3] adc_10[2] adc_ 10[1] adc_10[0] 21 x[2]_msb r adc_10[15] adc_10[14] adc_10[13] adc_10[12] adc_10[11] adc_10[10] ad c_10[9] adc_10[8] 22 x[3]_lsb r adc_11[7] adc_11[6] adc_11[5] adc_11[4] adc_11[3] adc_11[2] adc_ 11[1] adc_11[0] 23 x[3]_msb r adc_11[15] adc_11[14] adc_11[13] adc_11[12] adc_11[11] adc_11[10] ad c_11[9] adc_11[8] 24 x[4]_lsb r adc_12[7] adc_12[6] adc_12[5] adc_12[4] adc_12[3] adc_12[2] adc_ 12[1] adc_12[0] 25 x[4]_msb r adc_12[15] adc_12[14] adc_12[13] adc_12[12] adc_12[11] adc_12[10] ad c_12[9] adc_12[8] 26 x[5]_lsb r adc_13[7] adc_13[6] adc_13[5] adc_13[4] adc_13[3] adc_13[2] adc_ 13[1] adc_13[0] 27 x[5]_msb r adc_13[15] adc_13[14] adc_13[13] adc_13[12] adc_13[11] adc_13[10] ad c_13[9] adc_13[8] 28 x[6]_lsb r adc_14[7] adc_14[6] adc_14[5] adc_14[4] adc_14[3] adc_14[2] adc_ 14[1] adc_14[0] 29 x[6]_msb r adc_14[15] adc_14[14] adc_14[13] adc_14[12] adc_14[11] adc_14[10] ad c_14[9] adc_14[8] 30 x[7]_lsb r adc_15[7] adc_15[6] adc_15[5] adc_15[4] adc_15[3] adc_15[2] adc_ 15[1] adc_15[0] 31 x[7]_msb r adc_15[15] adc_15[14] adc_15[13] adc_15[12] adc_15[11] adc_15[10] ad c_15[9] adc_15[8] 32 x[8]_lsb r adc_16[7] adc_16[6] adc_16[5] adc_16[4] adc_16[3] adc_16[2] adc_ 16[1] adc_16[0] 33 x[8]_msb r adc_16[15] adc_16[14] adc_16[13] adc_16[12] adc_16[11] adc_16[10] ad c_16[9] adc_16[8] 34 x[9]_lsb r adc_17[7] adc_17[6] adc_17[5] adc_17[4] adc_17[3] adc_17[2] adc_ 17[1] adc_17[0] 35 x[9]_msb r adc_17[15] adc_17[14] adc_17[13] adc_17[12] adc_17[11] adc_17[10] ad c_17[9] adc_17[8] 36 x[10]_lsb r adc_18[7] adc_18[6] adc_18[5] adc_18[4] adc_18[3] adc_18[2] adc_18 [1] adc_18[0] 37 x[10]_msb r adc_18[15] adc_18[14] adc_18[13] adc_18[12] adc_18[11] adc_18[10] ad c_18[9] adc_18[8] 38 x[11]_lsb r adc_19[7] adc_19[6] adc_19[5] adc_19[4] adc_19[3] adc_19[2] adc_19 [1] adc_19[0] 39 x[11]_msb r adc_19[15] adc_19[14] adc_19[13] adc_19[12] adc_19[11] adc_19[10] ad c_19[9] adc_19[8] 40 x[12]_lsb r adc_20[7] adc_20[6] adc_20[5] adc_20[4] adc_20[3] adc_20[2] adc_20 [1] adc_20[0] 41 x[12]_msb r adc_20[15] adc_20[14] adc_20[13] adc_20[12] adc_20[11] adc_20[10] ad c_20[9] adc_20[8] 42 x[13]_lsb r adc_21[7] adc_21[6] adc_21[5] adc_21[4] adc_21[3] adc_21[2] adc_21 [1] adc_21[0] 43 x[13]_msb r adc_21[15] adc_21[14] adc_21[13] adc_21[12] adc_21[11] adc_21[10] ad c_21[9] adc_21[8] 64 x1 (lsb) r x1[7] x1[6] x1[5] x1[4] x1[3] x1[2] x1[1] x1[0] 65 y1 (lsb) r y1[7] y1[6] y1[5] y1[4] y1[3] y1[2] y1[1] y1[0] 66 x2 (lsb) r x2[7] x2[6] x2[5] x2[4] x2[3] x2[2] x2[1] x2[0] 67 y2 (lsb) r y2[7] y2[6] y2[5] y2[4] y2[3] y2[2] y2[1] y2[0] 68 x1 (msb) r 0 0 0 0 0 0 x1[9] x1[8] 69 y1 (msb) r 0 0 0 0 0 0 y1[9] y1[8] 70 x2 (msb) r 0 0 0 0 0 0 x2[9] x2[8] 71 y2 (msb) r 0 0 0 0 0 0 y2[9] y2[8] 103 6 f x_sensitivity r/w 104 7 0 y_sensitivity r/w 110 7 1 int_setting r/w 0 0 0 0 en_int int_p ol int_mode[1] int_mode[0] 111 7 2 i nt_width r/w 112 7 3 powe r m ode r/w idle_period[3] idle_p eriod[2] idle_p eriod[1] idle_p eriod[0] 0 allow_sleep p ower_mode[1] power_mode[0] int_width[7:0] x_s ens itivity[7:0] y_s ens itivity[7:0] 2.2 default setting 103 67 x_sensitivity x_sensitivity x_sensitivity x_sensitivity r/w r/wr/w r/w 104 68 y_sensitivity y_sensitivity y_sensitivity y_sensitivity r/w r/wr/w r/w 110 6e int_s etting r/w 0 0 0 0 1 1 0 0 111 6f int_width r/w 0 0 0 0 0 1 0 1 112 70 power mode r/w 1 0 1 0 0 0 0 0 tbd tbd www.datasheet.co.kr datasheet pdf - http://www..net/
all rights strictly reserved. any portion of this paper shall not b e reproduced, copied, or transformed to any other forms without permission from au optronics corp. 3. raw data register map addr. addr.(hex) description r/w b7 b6 b5 b4 b3 b2 b1 b0 0 y[0]_lsb r adc_0[7] adc_0[6] adc_0[5] adc_0[4] adc_0[3] adc_0[2] adc_0[1] adc_0[0] 1 y[0]_msb r adc_0[15] adc_0[14] adc_0[13] adc_0[12] adc_0[11] adc_0[10] adc_0[ 9] adc_0[8] 2 y[1]_lsb r adc_1[7] adc_1[6] adc_1[5] adc_1[4] adc_1[3] adc_1[2] adc_1[1] adc_1[0] 3 y[1]_msb r adc_1[15] adc_1[14] adc_1[13] adc_1[12] adc_1[11] adc_1[10] adc_1[ 9] adc_1[8] 4 y[2]_lsb r adc_2[7] adc_2[6] adc_2[5] adc_2[4] adc_2[3] adc_2[2] adc_2[1] adc_2[0] 5 y[2]_msb r adc_2[15] adc_2[14] adc_2[13] adc_2[12] adc_2[11] adc_2[10] adc_2[ 9] adc_2[8] 6 y[3]_lsb r adc_3[7] adc_3[6] adc_3[5] adc_3[4] adc_3[3] adc_3[2] adc_3[1] adc_3[0] 7 y[3]_msb r adc_3[15] adc_3[14] adc_3[13] adc_3[12] adc_3[11] adc_3[10] adc_3[ 9] adc_3[8] 8 y[4]_lsb r adc_4[7] adc_4[6] adc_4[5] adc_4[4] adc_4[3] adc_4[2] adc_4[1] adc_4[0] 9 y[4]_msb r adc_4[15] adc_4[14] adc_4[13] adc_4[12] adc_4[11] adc_4[10] adc_4[ 9] adc_4[8] 10 y[5]_lsb r adc_5[7] adc_5[6] adc_5[5] adc_5[4] adc_5[3] adc_5[2] adc_5[ 1] adc_5[0] 11 y[5]_msb r adc_5[15] adc_5[14] adc_5[13] adc_5[12] adc_5[11] adc_5[10] adc_ 5[9] adc_5[8] 12 y[6]_lsb r adc_6[7] adc_6[6] adc_6[5] adc_6[4] adc_6[3] adc_6[2] adc_6[ 1] adc_6[0] 13 y[6]_msb r adc_6[15] adc_6[14] adc_6[13] adc_6[12] adc_6[11] adc_6[10] adc_ 6[9] adc_6[8] 14 y[7]_lsb r adc_7[7] adc_7[6] adc_7[5] adc_7[4] adc_7[3] adc_7[2] adc_7[ 1] adc_7[0] 15 y[7]_msb r adc_7[15] adc_7[14] adc_7[13] adc_7[12] adc_7[11] adc_7[10] adc_ 7[9] adc_7[8] 16 x[0]_lsb r adc_8[7] adc_8[6] adc_8[5] adc_8[4] adc_8[3] adc_8[2] adc_8[ 1] adc_8[0] 17 x[0]_msb r adc_8[15] adc_8[14] adc_8[13] adc_8[12] adc_8[11] adc_8[10] adc_ 8[9] adc_8[8] 18 x[1]_lsb r adc_9[7] adc_9[6] adc_9[5] adc_9[4] adc_9[3] adc_9[2] adc_9[ 1] adc_9[0] 19 x[1]_msb r adc_9[15] adc_9[14] adc_9[13] adc_9[12] adc_9[11] adc_9[10] adc_ 9[9] adc_9[8] 20 x[2]_lsb r adc_10[7] adc_10[6] adc_10[5] adc_10[4] adc_10[3] adc_10[2] adc_ 10[1] adc_10[0] 21 x[2]_msb r adc_10[15] adc_10[14] adc_10[13] adc_10[12] adc_10[11] adc_10[10] ad c_10[9] adc_10[8] 22 x[3]_lsb r adc_11[7] adc_11[6] adc_11[5] adc_11[4] adc_11[3] adc_11[2] adc_ 11[1] adc_11[0] 23 x[3]_msb r adc_11[15] adc_11[14] adc_11[13] adc_11[12] adc_11[11] adc_11[10] ad c_11[9] adc_11[8] 24 x[4]_lsb r adc_12[7] adc_12[6] adc_12[5] adc_12[4] adc_12[3] adc_12[2] adc_ 12[1] adc_12[0] 25 x[4]_msb r adc_12[15] adc_12[14] adc_12[13] adc_12[12] adc_12[11] adc_12[10] ad c_12[9] adc_12[8] 26 x[5]_lsb r adc_13[7] adc_13[6] adc_13[5] adc_13[4] adc_13[3] adc_13[2] adc_ 13[1] adc_13[0] 27 x[5]_msb r adc_13[15] adc_13[14] adc_13[13] adc_13[12] adc_13[11] adc_13[10] ad c_13[9] adc_13[8] 28 x[6]_lsb r adc_14[7] adc_14[6] adc_14[5] adc_14[4] adc_14[3] adc_14[2] adc_ 14[1] adc_14[0] 29 x[6]_msb r adc_14[15] adc_14[14] adc_14[13] adc_14[12] adc_14[11] adc_14[10] ad c_14[9] adc_14[8] 30 x[7]_lsb r adc_15[7] adc_15[6] adc_15[5] adc_15[4] adc_15[3] adc_15[2] adc_ 15[1] adc_15[0] 31 x[7]_msb r adc_15[15] adc_15[14] adc_15[13] adc_15[12] adc_15[11] adc_15[10] ad c_15[9] adc_15[8] 32 x[8]_lsb r adc_16[7] adc_16[6] adc_16[5] adc_16[4] adc_16[3] adc_16[2] adc_ 16[1] adc_16[0] 33 x[8]_msb r adc_16[15] adc_16[14] adc_16[13] adc_16[12] adc_16[11] adc_16[10] ad c_16[9] adc_16[8] 34 x[9]_lsb r adc_17[7] adc_17[6] adc_17[5] adc_17[4] adc_17[3] adc_17[2] adc_ 17[1] adc_17[0] 35 x[9]_msb r adc_17[15] adc_17[14] adc_17[13] adc_17[12] adc_17[11] adc_17[10] ad c_17[9] adc_17[8] 36 x[10]_lsb r adc_18[7] adc_18[6] adc_18[5] adc_18[4] adc_18[3] adc_18[2] adc_18 [1] adc_18[0] 37 x[10]_msb r adc_18[15] adc_18[14] adc_18[13] adc_18[12] adc_18[11] adc_18[10] ad c_18[9] adc_18[8] 38 x[11]_lsb r adc_19[7] adc_19[6] adc_19[5] adc_19[4] adc_19[3] adc_19[2] adc_19 [1] adc_19[0] 39 x[11]_msb r adc_19[15] adc_19[14] adc_19[13] adc_19[12] adc_19[11] adc_19[10] ad c_19[9] adc_19[8] 40 x[12]_lsb r adc_20[7] adc_20[6] adc_20[5] adc_20[4] adc_20[3] adc_20[2] adc_20 [1] adc_20[0] 41 x[12]_msb r adc_20[15] adc_20[14] adc_20[13] adc_20[12] adc_20[11] adc_20[10] ad c_20[9] adc_20[8] 42 x[13]_lsb r adc_21[7] adc_21[6] adc_21[5] adc_21[4] adc_21[3] adc_21[2] adc_21 [1] adc_21[0] 43 x[13]_msb r adc_21[15] adc_21[14] adc_21[13] adc_21[12] adc_21[11] adc_21[10] ad c_21[9] adc_21[8] note: chip provides 10-bit adc capability at least. while the unused adc bit should be reserved as 0 figure 4. reference of channel location diagram 4. coordinate register map addr. ad dr.(hex) de s criptio n r/w b7 b6 b5 b4 b3 b2 b1 b0 64 40 x1 (ls b) r x1 [7] x1[6 ] x1[5] x1 [4 ] x1[3 ] x1[2] x1[1 ] x1[0] 65 41 y1 (ls b) r y1 [7] y1[6 ] y1[5] y1 [4 ] y1[3 ] y1[2] y1[1 ] y1[0] 66 42 x2 (ls b) r x2 [7] x2[6 ] x2[5] x2 [4 ] x2[3 ] x2[2] x2[1 ] x2[0] 67 43 y2 (ls b) r y2 [7] y2[6 ] y2[5] y2 [4 ] y2[3 ] y2[2] y2[1 ] y2[0] 68 44 x1 (ms b) r 0 0 0 0 0 0 x1[9 ] x1[8] 69 45 y1 (ms b) r 0 0 0 0 0 0 y1[9 ] y1[8] 70 46 x2 (ms b) r 0 0 0 0 0 0 x2[9 ] x2[8] 71 47 y2 (ms b) r 0 0 0 0 0 0 y2[9 ] y2[8] note: (1) (x1, y1) means left-up touched point (x2, y2) means right-down touched point (2) the coordinate of x1 = x1(lsb) + x1(msb)*256, x2 = x2(lsb) + x2(msb)*256, y1 = y1(lsb) + y1(msb)*256, y2 = y2(lsb) + y2(msb)*256 (3) if panel resolution is smaller than 256 , user doesnt need reading address 68 ~ 71 (4) www.datasheet.co.kr datasheet pdf - http://www..net/
all rights strictly reserved. any portion of this paper shall not b e reproduced, copied, or transformed to any other forms without permission from au optronics corp. figure 5. reference of touched point diagram if touched point of (x1,y1) (x2, y2) is (14,50) and (280,160), the coordinate register map will be recorded as following: addr. ad dr.(hex) de s criptio n r/w b7 b6 b5 b4 b3 b2 b1 b0 64 40 x1 (ls b) r 0 0 0 0 1 1 1 0 65 41 y1 (ls b) r 0 0 1 1 0 0 1 0 66 42 x2 (ls b) r 0 0 0 1 1 0 0 0 67 43 y2 (ls b) r 1 0 1 0 0 0 0 0 68 44 x1 (ms b) r 0 0 0 0 0 0 0 0 69 45 y1 (ms b) r 0 0 0 0 0 0 0 0 70 46 x2 (ms b) r 0 0 0 0 0 0 0 1 71 47 y2 (ms b) r 0 0 0 0 0 0 0 0 5. sensitivity and noise threshold addr. ad dr.(hex) de s criptio n r/w b7 b6 b5 b4 b3 b2 b1 b0 103 67 x_s ens itivity r/w 104 68 y_s ens itivity r/w x_s ens itivity[7:0] y_s ens itivity[7:0] note: (1) x_sensitivity/y_sensitivity x and y channels sensitivity should be adjustable for coordinate calculation. these parameter doesnt effect the raw data output. (2) the sensitivity is divided into 256 steps; 0 means most sensitive and 255 means least sensitive. the coordinate calculation should according to given sensitivity setting. while the touchs raw data is greater than given parameter x_sensitivity/y_sensitivity, the data is regarded as valid or will be seen as useless. figure 6. sensitivity adjustment 6. interrupt operation mode this chip should support both polling and interrupt way to get the coordinate and r aw data by i2c interface. the figure below depicts the interruption operation. (x1, y1) (x2, y2) www.datasheet.co.kr datasheet pdf - http://www..net/
all rights strictly reserved. any portion of this paper shall not b e reproduced, copied, or transformed to any other forms without permission from au optronics corp. 6.1 interrupt mode setting addr. addr.(hex) des cription r/w b7 b6 b5 b4 b3 b2 b1 b0 110 6e int_s etting r/w 0 0 0 0 en_int int_p ol int_mode[1] int_m ode[0] 111 6f int_width r/w int_width[7:0] note: (1) en_int 0: disable interrupt mechanism 1: enable interrupt mechanism (2) int_pol 0: the interrupt is low-active 1: the interrupt is high-active (3) int_ mode[1:0] 00: int assert periodically 01: int assert only when coordinate difference 10: touch indicate 11: reserved (int disabled) 6.2 sensing periodical mode (int_mode[1:0] = [0,0]). for sensing periodical mode, the int_mode[1:0] should be [0,0]. the data must be ready (including coordinate and raw data) before signal int rising. figure 7: interruption with int_r auto-reset 6.3 coordinate compare mode (int_mode[1:0] = [0,1]). the int signal will be asserted while coordinate changes under comparison mode (int_mo de[1:0] = [0,1]). figure 8: interruption flag under coordinate compare mode 6.4 touch indicate mode (int_mode[1:0] = [1,0]). the interrupt will assert when the touch is valid. the interrupt should keep high until the touch i s released. figure 9: touch indicate mode www.datasheet.co.kr datasheet pdf - http://www..net/
all rights strictly reserved. any portion of this paper shall not be reproduced, copied, or transformed to any other forms without permission from au optronics corp. combination interrupt with i2c sequential read raw data operation for as following (for int_mod e[1:0] = [1,0]) b 7 b 6 b 5 b 4 b 3 b 2 b 1 b 0 a c k b 7 b 6 b 5 b 4 b 3 b 2 b 1 b 0 a c k b 7 b 6 b 5 b 4 b 3 b 2 b 1 b 0 a c k n a c k start stop scl sda start int b7 y[0]_lsb b6 y[0]_lsb b5 y[0]_lsb b2 x[13]_msb b1 x[13]_msb b0 x[13]_msb www.datasheet.co.kr datasheet pdf - http://www..net/
a035vl01 v0 product spec version: 0.4 page: 34/46 all rights strictly reserved. any portion of this paper shall not be reproduced, copied, or transformed to any other forms without permission from au optronics corp. 7. power mode addr. ad dr.(hex) de s criptio n r/w b7 b6 b5 b4 b3 b2 b1 b0 112 70 p owe r mode r/w idle_p eriod[3] idle_p eriod[2] idle_p eriod[1] idle_p eriod[0] 0 allow_s leep p ower_mode[1 ] p ower_mode[0] the capacitive sensor controller support 3 steps of power saving: active, slee p, deep sleep, the following section describe relative scan rate and power consumption: active mode: the scan speed will reach 60hz, this mode makes full-speed sensing an d data process to provide best performance. the power mode is 0. sleep mode: this mode will lower the scan speed down to 10hz. active mode can enter sleep mode automatically or by command. when the system issues a command to change power mode to 1, the scan rate will switch to 10hz at next scan cycle. when allow_sleep parameter is given, and user dont touch the screen longer than idle_pe riod ms. the controller should also enter sleep mode directly and change the scan rate to 10 hz immediately. when user touches the screen in active region , the controller should return to active mode. besides, when system assert a command to change the power mode to 0, the scan rate should also rise to 60 hz deep sleep mode: when the chip enter deep sleep mode, all scan circuit should be shutdown to achiev e minimum power consumption. when the chip enter deep sleep mode, all the registers are still accessi ble. the only way to leave/enter deep sleep mode is change the power mode by specific command. the power mode is defined as 2 figure 7.10. power mode diagram www.datasheet.co.kr datasheet pdf - http://www..net/
a035vl01 v0 product spec version: 0.4 page: 35/46 all rights strictly reserved. any portion of this paper shall not be reproduced, copied, or transformed to any other forms without permission from au optronics corp. 8. power on/off sequence (both have two cases) � power on sequence case1: vdd vdd_tp case2: vdd vdd_tp � power off sequences case1: vdd vdd_tp case2: vdd vdd_tp www.datasheet.co.kr datasheet pdf - http://www..net/
all rights strictly reserved. any portion of this prper shall not be reproduced, copied, or transformed to any other forms without permission fro m au optronics corp. d. optical specification (note1, note 2 and note 3) item symbol condition min. typ. max. unit remark response time rise fall tr tf =0 -- -- 15 30 30 50 ms ms note 4 contrast ratio cr at optimized viewing angle 600 800 -- note 5,6 top bottom left viewing angle right t b l r cr 10 R 70 70 70 70 80 80 80 80 -- -- -- -- deg. note 7 brightness y l =0 250 315 -- cd/m 2 note 8 x =0 0.26 0.31 0.36 white y =0 0.28 0.33 0.38 x =0 0.52 0.57 0.62 red y =0 0.29 0.34 0.39 x =0 0.27 0.32 0.37 green y =0 0.52 0.57 0.62 x =0 0.12 0.17 0.22 chromaticity blue y =0 0.04 0.09 0.14 uniformity y l % 70 75 -- % note 9 note 1. ambient temperature =25 . note 2. to be measured in the dark room. note 3.to be measured on the center area of panel wi th a field angle of 1 by topcon luminance meter bm-5a, after 10 minutes operation. note 4. definition of response time: the output signals of photo detector are measured wh en the input signals are changed from black to white(falling time) and from white to black(rising time), respectively. the response time is defined as the time interval b etween the 10% and 90% of amplitudes. refer to figure as below. www.datasheet.co.kr datasheet pdf - http://www..net/
all rights strictly reserved. any portion of this prper shall not be reproduced, copied, or transformed to any other forms without permission fro m au optronics corp. note 5. definition of contrast ratio: contrast ratio is calculated with the following form ula. photo detector output when lcd i s at white state photo detector output when lcd i s at black state note 6. white vi=v i50 1.5v black vi=v i50 2.0v means that the analog input signal swings in phas e with com signal. means that the analog input signal swings out of phase with com signal. v i50 : the analog input voltage when transmission is 50% the 100% transmission is defined as the transmissio n of lcd panel when all the input terminals of module are electrically opened. note 7. definition of viewing angle, , refer to figure as below. x' y x y' l r r =90 l =90 t =90 t 12 o'clock direction 6 o'clock direction b b =90 note 8. measured at the center area of the panel in gray level 255 contrast ratio (cr)= r =90 6 o clock direction l =90 s i g n a l ( r e l a t i v e v a l u e ) "black" tr tf "white" "white" 0% 10% 90% 100% www.datasheet.co.kr datasheet pdf - http://www..net/
all rights strictly reserved. any portion of this prper shall not be reproduced, copied, or transformed to any other forms without permission fro m au optronics corp. note 9. luminance uniformity of these 9 points is d efined as below: 9) - (1 points 9 in luminance maximum 9) - (1 points 9 in luminance minimum uniformity = www.datasheet.co.kr datasheet pdf - http://www..net/
all rights strictly reserved. any portion of this prper shall not be reproduced, copied, or transformed to any other forms without permission fro m au optronics corp. e. reliability test items no. test items conditions remark 1 high temperature storage ta= 70 240hrs 2 low temperature storage ta= -25 240hrs 3 high ttemperature operation tp= 60 240hrs 4 low temperature operation ta= -10 240hrs note 2 5 high temperature & high humidity tp= 60 . 90% rh 240hrs operation 6 heat shock -25 ~ 80 , 50 cycle, 2hrs/cycle non-operation 7 electrostatic discharge air-mode : +/- 8kv contact-mode : +/- 4kv note 3,4 frequency range : 10~55hz stoke : 1.5mm sweep : 10~55hz~10hz 2 hours for each direction of x,y,z 8 vibration (6 hours for total) non-operation jis c7021, a-10 condition a 10 mechanical shock 100g . 6ms, x,y,z 3 times for each direction non-operation jis c7021, a-7 condition c 11 vibration (with carton) random vibration: 0.015g 2 /hz from 5~200hz C6db/octave from 200~500hz iec 68-34 12 drop (with carton) height: 60cm 1 corner, 3 edges, 6 surfaces note 1. ta: ambient temperature. note.2. judged by the on/off testing results of auo s standard w/o functional fail. note 3. esd testing flow as the below, note 4. esd testing method. 1. ambient: 24~26 , 56~65%rh lcd power on, functional check electrostatic discharge functional check & judge the results www.datasheet.co.kr datasheet pdf - http://www..net/
all rights strictly reserved. any portion of this prper shall not be reproduced, copied, or transformed to any other forms without permission fro m au optronics corp. 2. instruments:noisekeness-2000, 3. operation system: cx40fl-b 4. test mode: operating mode, test pattern: colorbar +8gray scale 5. test method: a. contact discharge: 150pf(330?) 1sec, 5 points, 10 times/point b. air discharge: 150pf(330?) 1sec, 5 points, 10 time s/point 6. test point: display area bezel auo 1 2 3 4 5 7. the metal casing is connected to power supply grou nd (0v) at four corners. 8. all register commands are repeating transfer. www.datasheet.co.kr datasheet pdf - http://www..net/
all rights strictly reserved. any portion of this prper shall not be reproduced, copied, or transformed to any other forms without permission fro m au optronics corp. packing form www.datasheet.co.kr datasheet pdf - http://www..net/
all rights strictly reserved. any portion of this prper shall not be reproduced, copied, or transformed to any other forms without permission fro m au optronics corp. f. outline dimension www.datasheet.co.kr datasheet pdf - http://www..net/
all rights strictly reserved. any portion of this prper shall not be reproduced, copied, or transformed to any other forms without permission fro m au optronics corp. g. application note 1. application circuit www.datasheet.co.kr datasheet pdf - http://www..net/
all rights strictly reserved. any portion of this prper shall not be reproduced, copied, or transformed to any other forms without permission fro m au optronics corp. 2. power on/off sequence the register setting of standby mode disabling / en abling is used to control the build-in power on / of f sequence. 2.1 power on (standby disabling) note: 0ust2 R R R R 0us; 0us all rights strictly reserved. any portion of this prper shall not be reproduced, copied, or transformed to any other forms without permission fro m au optronics corp. 3. recommended power on/off serial command settings 3.1 recommended power on register setting (just for reference, ) number command(binary) number command(binary) 1 000000001 sw reset 31 100001101 wait 120ms 32 100000000 2 011000001 33 100000100 3 110101000 34 100001001 4 110110001 35 100010011 5 101000101 36 100010100 6 100000100 vgh/vgl setting 37 100101011 7 011000101 38 100100110 8 110000000 39 100100011 positive gamma setting 9 101101000 vcomdc 40 011100001 10 011000110 41 100000000 11 110111101 42 100000110 12 110000100 gvdd/gvss 43 100001011 13 011000111 44 100001101 14 110111101 45 100001111 15 110000100 ngvdd/ngvss 46 100010011 16 000010001 sleep out 47 100001101 wait 120ms 48 100001101 17 011110010 49 100000000 18 100000000 50 100000100 19 100000000 51 100001001 20 110000010 gamma setting follow 26h, e0h, e1h 52 100010011 21 000100110 53 100010100 22 100001000 enable gamma setting 54 100101011 23 011100000 55 100100110 24 100000000 56 100100011 negative gamma setting 25 100000110 57 000100110 26 100001011 58 100001000 enable gamma setting 27 100001101 59 011111101 28 100001111 60 100000000 29 100010011 61 100001000 enable 2-dot function 30 100001101 positive gamma setting 62 000101001 display on www.datasheet.co.kr datasheet pdf - http://www..net/
all rights strictly reserved. any portion of this prper shall not be reproduced, copied, or transformed to any other forms without permission fro m au optronics corp. 3.2 recommended power off register setting number command(binary) 1 000010000 www.datasheet.co.kr datasheet pdf - http://www..net/
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