NV3035C Data Sheet 960X240 TFT LCD Single Chip Digital Driver Version 0.4 March.13.2013 NewVision Microelectronics, Inc. Confidential Information NV3035C -- 960X240 TFT LCD Single Chip Digital Driver ©2013 Contents 1. GENERAL DESCRIPTION .............................................................................................................................................1 2. FEATURES ........................................................................................................................................................................1 3. BLOCK DIAGRAM ..........................................................................................................................................................2 4. PAD DESCRIPTION.........................................................................................................................................................3 4.1. PAD SEQUENCE (BUMP SIDE).............................................................................................................................................3 4.2. PAD DESCRIPTION:.............................................................................................................................................................4 5. FUNCTION DESCRIPTIONS .........................................................................................................................................7 5.1. POWER SUPPLY CIRCUITS ..................................................................................................................................................7 5.2. INPUT DATA VS OUTPUT ...................................................................................................................................................8 5.3. GAMMA ADJUSTMENT FUNCTION ......................................................................................................................................8 5.4. INPUT VIDEO FORMATS ................................................................................................................................................... 10 5.4.1. RGB (NTSC) input timing .................................................................................................................... 10 5.4.2. CCIR601 input timing.......................................................................................................................... 11 5.5.CCIR601/656 INPUT VIDEO RESIZING.............................................................................................................................. 14 5.5.1. Horizontal (X-direction) scale down method ............................................................................................ 14 5.5.2. PAL Decimation for CCIR601/656 mode ................................................................................................ 16 5.5.3. Display mode for CCIR601/656............................................................................................................. 16 5.6. 3-WIRE SPI...................................................................................................................................................................... 18 6. COMMAND DESCRIPTION ........................................................................................................................................... 19 6.1 REGISTERS TABLE............................................................................................................................................................. 19 6.2 COMMAND DESCRIPTIONS ................................................................................................................................................ 21 7. POWER ON/OFF SEQUENCE ..................................................................................................................................... 28 7.1. POWER-ON TIMING SEQUENCE ....................................................................................................................................... 28 7.2. POWER-OFF TIMING SEQUENCE ...................................................................................................................................... 28 8. DC ELECTRICAL CHARACTERISTICS................................................................................................................... 29 9. AC ELECTRICAL CHARACTERISTICS................................................................................................................... 30 9.1. INPUT DATA FORMAT ..................................................................................................................................................... 30 9.2. TIME DIAGRAM ................................................................................................................................................................ 30 9.3. SPECIFICATIONS .............................................................................................................................................................. 34 10. ABSOLUTE MAXIMUM RATINGS .......................................................................................................................... 35 11. CHIP BUMP INFORMATION .................................................................................................................................... 36 11.1. PAD LOCATION .............................................................................................................................................................. 36 11.2. PAD COORDINATION....................................................................................................................................................... 38 REVISION HISTORY ........................................................................................................................................................ 47 NewVision Microelectronics, Inc. Confidential Information NV3035C -- 960X240 TFT LCD Single Chip Digital Driver ©2013 1. General Description NV3035C is a single chip digital driver for 320RGB×240 dot color TFT-LCD panels. It contains 960 channels source driver and 240 channels gate driver with timing controller and build-in power circuits. NV3035C incorporates 8-bit serial and 24-bit parallel RGB interface to receive digital display data. It generates 64level gamma-corrected gray scale voltages and supports maximum 16M colors display with dithering function. The system function control commands can be set by using 3-wire serial peripheral interface. NV3035C is designed for wide voltage supply range and small output deviation for better display quality. With advanced design, the NV3035C incorporates special designed architecture to achieve lower power dissipation, making this driver best suitable for small or mid sized portable devices such as cell phones, PDAs, mobile TV devices, etc. 2. Features ¾ One-Chip solution for 960×240 dot TFT LCD Driver ¾ 8-bit resolution 256 gray scale with Dithering ¾ 8-bit/24-bit digital(RGB) data interface ¾ 3-Wire SPI for parameters programming ¾ 1.8~3.6V power supply for I/O circuits ¾ 3.0~3.6V power supply for charge pump circuits ¾ Build-in 1.8V LDO for internal circuits ¾ Build-In DC-DC for power circuits (VGH/VGL/VCOMAC/VCOMDC voltage supply) ¾ Configurable color filter type for both Delta and Stripe type ¾ Operating frequency: 30MHz(max) ¾ Right/Left shift, Up and Down scan function selectable ¾ One Line / Two Line / Frame Inversion driving method selectable ¾ Support Cs on Common structure ¾ Build-In PWM circuit for LED Back-light ¾ Stand-by mode for super low power consumption ¾ Built-in Auto Test Pattern ¾ OTP trimming for VCOMAC/VCOMDC with internal burning supply ¾ COG package NewVision Microelectronics, Inc. Ver. 0.4 Page 1 ©2013 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver 3. Block Diagram V1~V7 DIN[23:0] CLKIN HSD VSD DEN 7 Gamma Reference 24 Data Decoder SPENB SPDA SPCK SPSW SPI Decoder DATSEQ POL PINCTLB RSTB STBYB Source Driver Control Interface UPDN,SHLR, 9 SEL[0:3], FPOL, PWMPDB, ATPE VGH VGL VCOMAC VCOMOUT VCOM VCIP VSSP Vint1/2 C1P/M C1AP/M C2P/M C3P/M C4P/M VDDIO VDD VCI VSS VDDA GNDA VPSW SO1 SO2 SO3 Gamma Table SO958 SO959 SO960 GO1 GO2 GO3 Timing Controller GO238 GO239 3 2 2 2 2 2 Gate Driver Power Supply Circuit PWM Controller NV3035C GO240 DRV FB VCOMDC/ VCOMAC Trim Fig1.Block diagram NewVision Microelectronics, Inc. Ver. 0.4 Page 2 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver ©2013 4. Pad Description 4.1. Pad Sequence (Bump Side) NewVision Microelectronics, Inc. Ver. 0.4 Page 3 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver ©2013 4.2. Pad Description: Designation I/O DIN[23..0] I CLKIN I HSD VSD I I I (Pull Low) DEN DATSEQ O POL O V1~V7 I/O SPENB SPDA SPCK SPSW RSTB I (Pull High) I/O I I (Pull Low) I (Pull High) PINCTLB I (Pull High) SO1~SO960 GO1~GO240 ALIGN_T/B O O M TP15 I TP0~14 TP16~18 T I Description Data Input. 8-bit mode: DIN7:MSB; DIN0:LSB; the remainder should be connect to GND. 24-bit mode: DIN[7:0]=R[7:0] data; DIN[15:8]=G[7:0] data; DIN[23:16]=B[7:0] data. For 18bit RGB interface, connect two LSB bits of all the R/G/B data bus to GND. Clock for Input Data. Data latched at rising/falling edge of this signal. Default positive edge latch data. Horizontal Sync input. Default Negative polarity, can be change by HSDPOL register. Vertical Sync input. Default Negative polarity, can be change by VSDPOL register. Data Input Enable. Active High to enable the data input Bus under “DE Mode”. Normally pull low. Data sequence control pin for external T-CON. Output “1”: for Odd line, “0”: for Even line Frame polarity output. Amplitude of signal is from 0V to 3.3V Gamma correction reference voltage. When VSET=”1” is used. The voltage of pins V1~V7 must be swing and must be AVDD-0.1V>V1>V2>V3 V5>V6>V7>AGND+0.1V when POL=”1” and AGND+0.1V<V1’<V2’<V3’ V5’<V6’<V7’<AVDD-0.1V when POL=”0”, Where V1-V2=V2’-V1’, V2-V3=V3’-V2’,…V5-V6=V6’-V5’,V6-V7=V7’-V6’. Note: V1~V7 must be supplied voltage external when VSET=”1”. Vx is external power of positive polarity and Vx’ is external power of negative polarity 3-Wire Communication Enable. Active Low. Normally pull high. Please pull high or floating under PINCTLB=0 mode. 3-Wire Communication Data input/output. 3-Wire Communication Clock input. Rising edge latch. 3-Wire register map select. “0” for default 3-Wire register map, “1” for optional 3-Wire register map. Global reset pin. Active Low to enter Reset State. Suggest connecting with a RC reset circuit for stability. Normally pull high. Enable pin control function. Normally pull high PINCTLB=”0”, Enable pin control function. TP0~14 and TP16~18 active as input pin for function control propose. Refer to the TP0~18 description for more information. PINCTLB=”1”, Default mode. TP0~14 and TP16~18 active as unknown state; Don’t connect TP0~14 and TP16~18 to any state under this mode. Note: The 3-wire control register will be disabled under PINCTLB=0 mode. Source Driver Output Signals. Gate Driver Output Signals. For assembly alignment. Charge pump on/off control pin. TP15=CPMPDB CPMPDB=”0”, internal charge pump will be shut down CPMPDB=”1”, internal charge pump normal operating TP15 active as input pin under any state of PINCTLB. If floating this pin, the charge pump will turn off TEST Pin/Function control pin. When PINCTLB=“1”, TP0~14, TP16~18 act as test pin. Floaating those pins for normal operation. When PINCTLB=“0”, TP0~14, TP16~18 act as function control input pin. All the input pin should be connect to GND or VDD. Floating those pins will result in input unknown problem. NewVision Microelectronics, Inc. Ver. 0.4 Page 4 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver Designation I/O VPSW I (Pull Low) VGH VGL VCOMAC VCOM VCOMOU T VDDA GNDA VCI VSS VCIP VSSP PO PI PI PI PI PI VDD C C1P/M C1AP/M C2P/M C3P/M C4P/M Vint1/2 C FB_P I FB_N O FB DRV COM1_L/ R COM2_L/ R TOSC, TVREF, T-1U DUM Note: PS PS PS PS O ©2013 Description Voltage control switch. Normally pull low. VPSW=”0”. Default mode. VGH、VGL、VCOMAC and VCOMDC active as normal use and control by 3-wire. VPSW=”1”. Voltage fix mode. VGH=15V,VGL=-7V, VCOMAC=5.0V and VCOMDC=1.86V. Under the mode voltage can’t control by 3-wire Capacitor pin. Positive power supply for Gate Driver output Capacitor pin. Negative power supply for Gate Driver ouput Capacitor pin. Power supply for VCOMOUT output VCOM DC voltage output pin for DC re-construction Frame polarity output for panel VCOM. Amplitude of signal is from GNDA1 to VDDA1 The polarity of VCOMOUT is inversed with internal signal “POL” when “FPOL”=0 Power supply for source driver and gamma circuit Ground pins for source driver and gamma circuit Power supply for digital and analog circuits Ground pins for digital circuits Power supply for charge pump circuits Ground pins for charge pump circuits Capacitor connect pin for internal regulator Refer to the section of “Power Circuit” for the application. Capacitor connect pin for internal charge pump Refer to the section of “Power Circuit” for the application. VI O Internal power switch current input pad. Note: Voltage on this pad should be <5.5V. Pull low in more than one LED case. Internal power switch current output pad. Note: Voltage on this pad should be <5.5V. Pull low in more than one LED case. PWM controller feedback input. FB threshold is 0.6V nominal PWM output driver signal for the boost converter S The internal link together between input side and Output side. S The internal link together between input side and Output side. T Test pin .Float these pins for normal operation. D Don’t connect to any signal or pull high/low. I: Input, O: Output, P: Power, D: Dummy, S: Shorted line, M: Mark, PI:Power input, PO: Power output, T: Testing I/O: Input/Output. PS: Power Setting, C: Capacitor pin. NV3035C Align Mark: ALIGN_T ALIGN_B M M For assembly alignment. For assembly alignment. NV3035C Pass Line Description: Pass Line No: 1 2 NewVision Microelectronics, Inc. Pad Name COM1_L COM1_R COM2_L COM2_R Ver. 0.4 Page 5 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver ©2013 TP0~14 and TP16~18 Function Control Pin Mapping Table (When PINCTLB=”0”): TPX 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 16 17 18 PINCTLB=”0” Input control function (Related to 3-wire control register) STBYB UPDN SHLR SEL0 SEL1 SEL2 SEL3 DUM VDDIO VDDIO VDDIO VDDIO TEST2 TEST1 FPOL PWMPDB DUM Auto Test Pattern Enable Note 1: PINCTLB function has higher priority then the 3-wire command. The 3-wire control register will be disabled when PINCTLB=”0”. Please pull high or floating SPENB under PINCTLB=0 mode. Remark: TP15=CPMPDB, Charge pump on/off control pin. CPMPDB=”0”, internal charge pump will be shut down. CPMPDB=”1”, internal charge pump normal operating. TP15 active as input pin under any state of PINCTLB. NewVision Microelectronics, Inc. Ver. 0.4 Page 6 ©2013 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver 5. Function Descriptions 5.1. Power Supply Circuits NV3035C built in charge pump circuit for gate driver VGH/VGL voltage and panel VCOMAC/VCOMDC voltage.Following block diagram illustrate how the charge pump circuit works. < Value of wiring resistance and Cap. > Pin name C1P C1M C2P C2M C3P C3M C4P C4M C1AP C1AM Resistor of wiring (ohm) <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 Cap no. CAP (uF) C1 C2 C3 ≥1uF C4 C1A *Note: Others Cap. Suggest value≥4.7uF Schottky diode turn-on voltage=0.2V NewVision Microelectronics, Inc. Ver. 0.4 Page 7 ©2013 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver 5.2. Input Data VS Output Source Driver data output sequence can be control by “SHLR”. Output SHLR=”1” SHLR=”0” SO1 First data Last data SO2 SO3 … → ← SO958 SO959 SO960 Last data First data … → ← GO238 GO239 GO240 Last data First data Gate Driver scan output sequence can be control by “UPDN”. Scan UPDN=”1” UPDN=”0” GO1 First data Last data GO2 GO3 5.3. Gamma Adjustment Function The figure below shows the relationship between the input data and the output voltage. Refer to the following pages to get the relative resistor value and voltage calculation method, please. NewVision Microelectronics, Inc. Ver. 0.4 Page 8 ©2013 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver Input Data and Output Voltage Reference Table(VSET=”0”) @VDDA=5V,VCOMOUT=L,POL= Vno. Unit=V V1 4.610 V2 3.680 V3 3.115 V4 2.585 V5 2.185 V6 1.790 V7 0.390 @VDDA=5V,VCOMOUT=H,POL= Vno. Unit=V V1 0.390 V2 1.320 V3 1.885 V4 2.415 V5 2.815 V6 3.210 V7 4.610 Data (V1)00H 01H 02H 03H 04H (V2)05H 06H 07H 08H 09H 0AH 0BH (V3)0CH 0DH 0EH 0FH 10H 11H 12H 13H 14H 15H 16H 17H 18H 19H (V4)1AH 1BH 1CH 1DH 1EH 1FH 20H 21H 22H 23H 24H 25H 26H 27H 28H 29H (V5)2AH 2BH 2CH 2DH 2EH 2FH 30H 31H 32H 33H 34H 35H 36H 37H (V6)38H 39H 3AH 3BH 3CH 3DH 3EH (V7)3FH NewVision Microelectronics, Inc. VCOMOUT=H,POL= VDDA×0.078 VDDA×0.107 VDDA×0.153 VDDA×0.201 VDDA×0.236 VDDA×0.264 VDDA×0.288 VDDA×0.308 VDDA×0.325 VDDA×0.340 VDDA×0.354 VDDA×0.366 VDDA×0.377 VDDA×0.388 VDDA×0.398 VDDA×0.408 VDDA×0.416 VDDA×0.424 VDDA×0.431 VDDA×0.438 VDDA×0.446 VDDA×0.453 VDDA×0.459 VDDA×0.465 VDDA×0.472 VDDA×0.478 VDDA×0.483 VDDA×0.488 VDDA×0.493 VDDA×0.499 VDDA×0.505 VDDA×0.510 VDDA×0.514 VDDA×0.519 VDDA×0.525 VDDA×0.530 VDDA×0.535 VDDA×0.540 VDDA×0.545 VDDA×0.550 VDDA×0.554 VDDA×0.558 VDDA×0.563 VDDA×0.568 VDDA×0.573 VDDA×0.578 VDDA×0.583 VDDA×0.588 VDDA×0.593 VDDA×0.598 VDDA×0.603 VDDA×0.609 VDDA×0.615 VDDA×0.621 VDDA×0.626 VDDA×0.632 VDDA×0.642 VDDA×0.648 VDDA×0.656 VDDA×0.665 VDDA×0.677 VDDA×0.693 VDDA×0.719 VDDA×0.922 Ver. 0.4 Data (V1)00H 01H 02H 03H 04H (V2)05H 06H 07H 08H 09H 0AH 0BH (V3)0CH 0DH 0EH 0FH 10H 11H 12H 13H 14H 15H 16H 17H 18H 19H (V4)1AH 1BH 1CH 1DH 1EH 1FH 20H 21H 22H 23H 24H 25H 26H 27H 28H 29H (V5)2AH 2BH 2CH 2DH 2EH 2FH 30H 31H 32H 33H 34H 35H 36H 37H (V6)38H 39H 3AH 3BH 3CH 3DH 3EH (V7)3FH VCOMOUT=L,POL=H VDDA×0.922 VDDA×0.893 VDDA×0.847 VDDA×0.799 VDDA×0.764 VDDA×0.736 VDDA×0.712 VDDA×0.692 VDDA×0.675 VDDA×0.660 VDDA×0.646 VDDA×0.634 VDDA×0.623 VDDA×0.612 VDDA×0.602 VDDA×0.592 VDDA×0.584 VDDA×0.576 VDDA×0.569 VDDA×0.562 VDDA×0.554 VDDA×0.547 VDDA×0.541 VDDA×0.535 VDDA×0.528 VDDA×0.522 VDDA×0.517 VDDA×0.512 VDDA×0.507 VDDA×0.501 VDDA×0.495 VDDA×0.490 VDDA×0.486 VDDA×0.481 VDDA×0.475 VDDA×0.470 VDDA×0.465 VDDA×0.460 VDDA×0.455 VDDA×0.450 VDDA×0.446 VDDA×0.442 VDDA×0.437 VDDA×0.432 VDDA×0.427 VDDA×0.422 VDDA×0.417 VDDA×0.412 VDDA×0.407 VDDA×0.402 VDDA×0.397 VDDA×0.391 VDDA×0.385 VDDA×0.379 VDDA×0.374 VDDA×0.368 VDDA×0.358 VDDA×0.352 VDDA×0.344 VDDA×0.335 VDDA×0323 VDDA×0.307 VDDA×0.281 VDDA×0.078 Page 9 ©2013 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver 5.4. Input Video Formats NV3035C should support 22 types of input video formats: # (1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12) (13) (14) (15) (16) (17) (18) (19) (20) (21) (22) Format Sub-type1 8-bit serial RGB (NTSC only) 24-bit parallel CCIR656 (YUV) 1440 only, NTSC 1440 only, PAL 280 lines 1440 only, PAL 288 lines 1440, NTSC CCIR601 (YUV) 1440, PAL 280 lines 1440, PAL 288 lines 1280, NTSC 1280, PAL 280 lines 1280, PAL 288 lines Sub-type2 HV mode DE mode HV mode DE mode Mode A Mode B Mode A Mode B Mode A Mode B Mode A Mode B Mode A Mode B Mode A Mode B Mode A Mode B Mode A Mode B Mode A Mode B Comments Cb/Y/Cr/Y Cr/Y/Cb/Y Cb/Y/Cr/Y Cr/Y/Cb/Y Cb/Y/Cr/Y Cr/Y/Cb/Y Cb/Y/Cr/Y Cr/Y/Cb/Y Cb/Y/Cr/Y Cr/Y/Cb/Y Cb/Y/Cr/Y Cr/Y/Cb/Y Cb/Y/Cr/Y Cr/Y/Cb/Y Cb/Y/Cr/Y Cr/Y/Cb/Y Cb/Y/Cr/Y Cr/Y/Cb/Y Support 2 type of color encode systems: RGB (8-8-8) and YUV (YCbCr) 4:2:2. YUV4:2:2: Y is the luminance (Luma) factor, it is the brightness of the pixel. Cb and Cr is the chrominance (Chroma) for “blue” and “red” sub respectively. 5.4.1. RGB (NTSC) input timing (1) HV mode timing: DE signal is not necessary, host float this pin. Horizontal: NewVision Microelectronics, Inc. Ver. 0.4 Page 10 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver ©2013 Vertical: (2) DE mode: Hsync and Vsync are not needed in DE mode, host float these pins. Notes: (1) both CLKIN, HSD, VSD and DE supports active polarity selection. In the diagrams above, the VSD and HSD is low active, CLKIN samples data at negedge, DE is high active, and however, other kinds of polarity of these signals are also supported. (2) signal relationship timing specification please refers the reference datasheet. 5.4.2. CCIR601 input timing Features of the CCIR601 supported by this chip: (1) (2) (3) (4) only 8-bit I/F supported Both PAL and NTSC support. For PAL, both 280 and 288 lines supported Both 1440 and 1280 horizontal cycles are supported For all supported CCIR601 input format, the data sequence can be two types: mode A is Cb/Y/Cr/Y, mode NewVision Microelectronics, Inc. Ver. 0.4 Page 11 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver ©2013 B is Cr/Y/Cb/Y Horizontal signal: For CCIR601, 1 image frame = 1 odd field + 1 even field. The odd/even filed is recognized by the inter relationship of Hsync and Vsync signals. A coincident low transition of both HSYNC and VSYNC inputs indicates the start of an odd field. A VSYNC low transition when HSYNC is high indicates the start of an even field. HSYNC VSYNC The width of the VSYNC pulse do not affect the recognition of O/E field HSYNC VSYNC The width of the VSYNC pulse do not affect the recognition of O/E field Vertical signal: NewVision Microelectronics, Inc. Ver. 0.4 Page 12 ©2013 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver Vertical Blank Active Area VSD Even Field Active Area Odd Field tvs (odd) PAL288: PAL280: 622 623 624 625 1 2 3 7 8 9 20 21 22 23 24 622 623 624 625 1 2 3 7 8 9 20 21 22 23 24 NTSC: 522 525 1 2 3 7 8 9 20 21 22 23 24 523 524 HSD Valid data Active Area Odd Field PAL288: PAL280: NTSC: Active Area Vertical Blank Even Field tvs (even) 305 306 307 308 309 310 311 323 324 325 337 338 339 340 341 297 298 299 300 301 302 303 331 332 333 345 346 347 348 349 257 258 259 260 261 262 263 271 272 273 285 286 287 288 289 Valid data NTSC mode: active area=240 lines; PAL 280 mode: active area=280 lines; PAL 288 mode: active area=288 lines. 5.4.3. CCIR656 input timing The CCIR656 use the YUV color encoding too. The difference of CCIR656 is that sync signals are embedded into the code stream. By this mode, VSD, HSD, DEN signals are not needed. Horizontal: EAV/SAV Format: the “XY” byte in EAV/SAV plays a critical role for synchronization: XY B7 B6 B5 B4 B3 B2 B1 EAV 1 F V H Protection bits by ITU 656 SAV 1 F V H Protection bits by ITU 656 B0 F: Field bit. This is for vertical timing. F=0 indicates this is the line of the 1st field (odd field). F=1 indicates this is the line of the 2nd field (even field). V: Vertical blanking bit. This is for vertical timing. V=1 indicates vertical blanking lines, V=0 indicates an active video line. H: Horizontal recognizing bit. H=0: SAV, H=1: EAV. Vertical: NewVision Microelectronics, Inc. Ver. 0.4 Page 13 ©2013 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver 5.5. CCIR601/656 Input Video Resizing Input image size (1 field): CCIR601-1440 CCIR601-1280 CCIR656-1440 NTSC 720RGB*240 640RGB*240 720RGB*240 PAL-280 720RGB*280 640RGB*280 720RGB*280 PAL-288 720RGB*288 640RGB*288 720RGB*288 Display 320RGB*240 320RGB*240 320RGB*240 5.5.1. Horizontal (X-direction) scale down method For 640RGB (1280 clocks) source input: 640RGBÆscale down to 320RGB (2:1). For 720RGB (1440 clocks) source input, there are four types of skip & scaling method for choice: HDNC1-0 00 01 10 11 SnS mode 720RGBÆ(scale down) 320RGB 720RGBÆ(skip L/R 10RGB) 700RGBÆ(scale down) 320RGB 720RGBÆ(skip L/R 20RGB) 680RGBÆ(scale down) 320RGB 720RGBÆ(skip L/R 40RGB) 640RGBÆ(scale down) 320RGB Scaling Ratio 9:4 35:16 17:8 2:1 9 HDNC[1:0]=2’b00 (1280 clocks) 1280 clk Æ 640 RGB Æ 320 RGB Scale ratio: 2:1 No skip. 9 HDNC[1:0]=2’b00 (1440 clocks) 1440 clk Æ 720 RGB Æ 320 RGB Scale ratio: 9:4 NewVision Microelectronics, Inc. Ver. 0.4 Page 14 ©2013 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver AVGY=0, Y2n’=Y2n; AVGY=1, Y2n’=(Y2n+Y2n-1)/2. After AVGY process, the scale ratio is 9:8 (360 Æ 320). For direct skip, skip the 5th data every 9 counts; for weighting skip, skip the 5th data every 9 counts, and the 6th data is the average of the 5th and 6th data. (this average include Y, Cb and Cr factors.) 9 HDNC[1:0]=2’b01 1440 clk Æ 720 RGB Æ (Skip right/left 10 RGB) 700 RGB Æ 320 RGB Scale ratio: 35:16 1 Input 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 2' AVGY proc. 1 Direct Skip 1 Weighting skip Input 1 10 '5 12 '1 14 '2 16 '3 18 '4 20 '5 22 '6 5 12 '1 14 '2 16 '3 18 '4 20 '5 22 '6 14 5 12 '1 16 ' 3 18 '4 20 '5 22 '6 2 24 '7 26 '8 28 '9 30 '10 32 ' 34 ' 36 ' 26 '8 28 '9 30 '10 32 ' 34 ' 36 ' (24'+26')/2 28 30 '10 32 ' 34 ' 36 ' '9 8 11 12 11 13 12 11 13 12 13 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 38 ' 1 38 ' 1 38 '1 AVGY proc. Direct Skip Weighting skip Input Weighting skip 42 '3 42 '3 42 '3 44 '4 44 '4 44 '4 46 ' 5 46 ' 5 46 '5 48 ' 6 50 '7 50 '7 52 '8 52 '8 (48'+50')/2 52 '8 7 54 '9 54 '9 54 '9 56 ' 10 56 ' 10 56 ' 10 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 AVGY proc. Direct Skip 40 ' 2 40 '2 40 '2 68 ' 5 68 ' 5 68 '5 70 ' 6 72 '7 72 '7 (70'+72)/2 7 74 '8 74 '8 74 '8 76 ' 9 76 '9 76 '9 78 ' 10 78 ' 10 78 ' 10 80 ' 11 80 '11 80 '11 82 '1 82 '1 82 '1 84 '2 84 '2 84 '2 58 ' 11 58 '11 58 '11 60 '1 60 ' 1 60 '1 62 '2 62 '2 62 '2 66 ' 4 66 ' 4 66 '4 64 ' 3 64 ' 3 64 '3 71 711 71 0 2 71 71 72 8 9 0 710' 718' 11 712 ' 1 9 720 ' 10 710' 11 710' 11 AVGY=0, Y2n’=Y2n; AVGY=1, Y2n’= (Y2n+Y2n-1)/2. After AVGY process, the scale ratio is 35:32 (350 Æ 320). For direct skip, skip the 6th , 19th, 30th data every 35 counts; for weighting skip, skip the 6th , 19th, 30th data every 35 counts and the 7th, 20th, 31st data are: D(7th) = [D(6th)+D(7th)]/2 D(20th) = [D(19th)+D(20th)]/2 D(31st) = [D(30th)+D(31st)]/2 9 HDNC[1:0]=2’b10 1440 clk Æ 720 RGB Æ (Skip right/left 20 RGB) 680 RGB Æ 320 RGB Scale ratio: 17:8 AVGY=0, Y2n’=Y2n; AVGY=1, Y2n’=(Y2n+Y2n-1)/2. After AVGY process, the scale ratio is 17:16 (340 Æ 320). For direct skip, skip the 9th data every 17 counts; for weighting skip, skip the 9th data every 9 counts, and the 10th data is the average of the 9th and 10th data. NewVision Microelectronics, Inc. Ver. 0.4 Page 15 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver ©2013 9 HDNC[1:0]=2’b11 1440 clk Æ 720 RGB Æ (Skip right/left 40 RGB) 640 RGB Æ 320 RGB Scale ratio: 2:1 The same as HDNC[1:0]=2’b00, 1280 clk mode. 5.5.2.PAL Decimation for CCIR601/656 mode PAL280: direct skip up/down 40 lines. PAL288: direct skip up/down 44 lines. 5.5.3.Display mode for CCIR601/656 WNSEL1 0 0 1 1 WNSEL0 0 1 0 1 Display Mode Normal display(Default) Narrow display Wide display 234-Line Normal display: Narrow display: Remove the fourth column in every four columns (initial 40 columns and last 40 columns display black). Wide display: NewVision Microelectronics, Inc. Ver. 0.4 Page 16 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver ©2013 Remove the fourth line in every four lines. (initial 30 lines and last 30 lines display black) 234-Line: The initial 3 lines and last 3 lines are removed and display black. NewVision Microelectronics, Inc. Ver. 0.4 Page 17 ©2013 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver 5.6. 3-Wire SPI 3-Wire Command Format NV3035C uses the 3-wire serial port as communication interface for all the function and parameter setting. 3-Wire communication can be bi-directional controlled by the “R/W” bit in address field. NV3035C 3-Wire engine act as a “slave mode” for all the time, and will not issue any command to the 3-Wire bus itself. Under read mode, 3-Wire engine will return the data during “Data phase”. The returned data should be latched at the rising edge of SPCK by external controller. Data in the “Hi-Z phase” will be ignored by 3-Wire engine during write operation, and should be ignored during read operation also. During read operation, external controller should float SPDA pin under “Hi-Z phase” and “Data phase”. Refer to the section of “3-Wire Timing Diagram” for the detail timing, please. 3-Wire Command Format: Bit Description D15-D10 Register Address [5:0] D9 W/R control bit. “1” for Write; “0” for Read D8 Hi-Z bit during read mode. Any data within this bits will be ignored during write mode D7-D0 Data for the W/R operation to the address indicated by Address phase 3-Wire Writer Format: MSB D15 LSB D14 D13 D12 D11 D10 Register Address [5:0] D9 D8 1 X D7 D6 D5 D4 D3 D2 D1 D0 DATA (Issue by external controller) 3-Wire Read Format: MSB D15 LSB D14 D13 D12 D11 Register Address [5:0] NewVision Microelectronics, Inc. D10 D9 D8 0 Hi-Z D7 Ver. 0.4 D6 D5 D4 D3 D2 D1 D0 DATA (Issue by NV3035C) Page 18 ©2013 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver 6. Command Description 6.1. Registers Table Following table list the default 3-Wire control registers and bit name definition for NV3035C. Refer to the next section for detail register function description, please. NV3035C 3-Wire Control Register List (Default) 3-Wire Registers Register Description D[15:10] Name Init. R/W Function Description 000000b R00 03h R/W System control register 000001b R01 00h R/W Timing Controller function register 000010b R02 03h R/W Operation control register 000011b R03 8Ch R/W Input data Format control register 000100b R04 46h R/W Source Timing delay control register 000101b R05 0Dh R/W Gate Timing delay control register 000111b R07 00h R/W Internal function control register 001000b R08 08h R/W RGB Contrast control register 001001b R09 40h R/W RGB Brightness control register 001011b R0B 88h R/W R/B Sub-Contrast control register 001100b R0C 20h R/W R Sub-Brightness control register 001101b R0D 20h R/W B Sub-Brightness control register 001110b R0E 2bh R/W VCOMDC Level Control Register 001111b R0F A5h R/W VCOMAC Level Control Register 010000b R10 04h R/W VGAM2 level Control Register 010001b R11 24h R/W VGAM3/4 level control register 010010b R12 24h R/W VGAM5/6 level control register 011101b R1D 00h R/W OTP operation control register 011110b R1E 00h R/W OTP operation control register 011111b R1F 00h R/W OTP operation control register NewVision Microelectronics, Inc. Ver. 0.4 Page 19 ©2013 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver NV3035C 3-Wire Register Bit Definition (Default) 3-Wire Control Register Bit Map Reg. Bit[7] Bit[6] Bit[5] Bit[4] Bit[3] Bit[2] Bit[1] Bit[0] R00 PAT3 PAT2 PAT1 PAT0 PWMPDB X STBYB RESETB R01 X X X SWD2 SWD1 SWD0 DITHB CFTYP R02 SKIPMO D HDNC1 HDNC0 X FPOL VSET UPDN SHLR R03 DENPOL CLKPOL HSDPOL VSDPOL SEL3 SEL2 SEL1 SEL0 R04 DDLY7 DDLY6 DDLY5 DDLY4 DDLY3 DDLY2 DDLY1 DDLY0 HDLY1 HDLY0 R05 X HDLY6 HDLY5 HDLY4 HDLY3 HDLY2 R07 FRAD1 FRAD[0] INVSL[1] INVSL[0] PAL PALM R08 X X X CON4 CON3 CON2 CON1 CON0 R09 X BRI6 BRI5 BRI4 BRI3 BRI2 BRI1 BRI0 HUE[1] HUE[0] SAT[1] SAT[0] R0A HUE[3] HUE[2] R0B SCONB1 SCONB0 R0C X X SBRIR5 R0D X X R0E X R0F VGLSL1 R10 AVGY SAT[3] SAT[2] SCONR1 SCONR0 SBRIR4 SBRIR3 SBRIR2 SBRIR1 SBRIR0 SBRIB5 SBRIB4 SBRIB3 SBRIB2 SBRIB1 SBRIB0 OTP_BYPS VCDCSL5 VCDCSL4 VCDCSL3 VCDCSL2 VCDCSL1 VCDCSL0 VGLSL0 VGHSL1 VGHSL0 VCACSL3 VCACSL2 VCACSL1 VCACSL0 X X X GAMEN X V2GAM2 V2GAM1 V2GAM0 R11 X X V4GAM2 V4GAM1 V4GAM0 V3GAM2 V3GAM1 V3GAM0 R12 R1D R1E X PDIN[7] PPROG X PDIN[6] PSWSL V6GAM2 PDIN[5] PWE V6GAM1 PDIN[4] POR V6GAM0 PDIN[3] PTM[1] V5GAM2 PDIN[2] PTM[0] V5GAM1 PDIN[1] PA[1] V5GAM0 PDIN[0] PA[0] WNSEL[1] WNSEL[0] R1F OTPSEL R20 Note: Register function active at the falling edge of VSD except STBYB, RESETB register bits. Registers list below require Vsync trigger: DITHB, CFTYP, FPOL, VSET, UPDN, SHLR, DDLY, HDLY, INVSL, CON, BRI, HUE, SAT, SCONB, SCONR, SBRIR, SBRIB NewVision Microelectronics, Inc. Ver. 0.4 Page 20 ©2013 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver 6.2. Command Descriptions R00: System Control Register Bit Name Initia l R/W Bit [7:4] PAT[3:0] 0000b R/W Bit [3] PWMPDB 0b (R) R/W Bit [2] - - - Bit [1] STBYB 1b (R) R/W Bit [0] RESETB 1b R/W Description Internal Test Pattern Selection PAT[3:0]: Select chip embedded test pattern. Internal PWM controller Power Down bit PWMPDB=”0”, internal PWM controller will be shut down PWMPDB=”1”, internal PWM controller normal operating Reserve Standby Mode function control. STBYB=”0”, TCON, Source output will turn off and outputs are High-Z. STBYB=”1”, Normal operation Global Reset Register. Write “0” to reset whole chip. This bit will set to “1” automatically after chip was reset. PAT[3:0]: Embedded Auto Test Pattern Selection Register PAT[3:0] 00H 01H 02H 03H 04H 05H 06H 07H 08H 09H 0AH 0BH 0CH 0DH 0EH 0FH Test Pattern Disable Internal Test Pattern Function White Black Red Green Blue Yellow Cyan Magenta Gray Level 8 Gray Level 16 Color Bar Checker Board Cross Talk Pattern Horizontal Flick Pattern Test Pattern Auto Run Mode Note Default R01: Timing Controller Function Register Bit Name Initial R/W Bit[4:2 ] SWD[2:0] 000b R/W Bit[1] DITHB 0b R/W Bit[0] CFTYP 0b R/W NewVision Microelectronics, Inc. Description Control and switch the relationship between the R, G, B and outputs. This register is used to match different types of color filters on LCD panel Dithering enable. Active low DITHB=”0”, Dithering on, (Pseudo 8-bits resolution). (Default mode) DITHB=”1”, Dithering off, (6-bits resolution, truncation last 2-bits of the input data) Note 1: Recommend user to enable this function under all modes except for 18 bit RGB input application. Color Filter Type Select. Select Delta or Stripe mode for data arrangement. CFTYP=”0”, Stripe mode, Data arrangement keep in the “odd line” state of SWD[2:0] selection. CFTYP=”1”, Data arrangement controlled by SWD[2:0] setting. Ver. 0.4 Page 21 ©2013 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver SWD [2:0] function control: SWD2 SWD1 SWD0 0 0 0 0 0 1 0 1 X 1 0 0 1 0 1 1 1 X Output (n=0 to 319) 3n+1 3n+2 3n+3 R G B Odd Line G B R Even Line G B R Odd Line B R G Even Line B R G Odd Line R G B Even Line G B R Odd Line R G B Even Line B R G Odd Line G B R Even Line R G B Odd Line B R G Even Line Condition SHLR=”1” UPDN=”1” Note 1: X= Don’t care Note 2: Data arrangement will keep in the “odd line” state when CFTYP=0 for stripe mode. R02: Operation Control Register Bit Name Initial R/W Bit [7] SKIPMOD 0b Bit [6:5] HDNC[1:0] 00b Bit [4] - - (R) R/W - Bit[3] FPOL 0b R/W Bit[2] VSET 0b R/W Bit[1] UPDN 1b (R) R/W Bit[0] SHLR 1b (R) R/W (R) R/W NewVision Microelectronics, Inc. Description Horizontal data processing algorithms select register. SKIPMOD = “0”: Horizontal data weighting skip mode. (Default mode) SKIPMOD = “1”: Horizontal data direct skip mode. Horizontal Data scaling mode select register. This function is active under CCIR601 and CCIR656 mode only. Reserve VCOMOUT polarity inverse control. FPOL=”0”: VCOMOUT normal polarity (Default mode). FPOL=”1”: VCOMOUT inverse polarity. Gamma correction source select. VSET=”0”,used internal Gamma Reference voltage (VDDA). (Default mode) VSET=”1”,used external Gamma Reference Input (V1~V7). Gate Driver Up/down scan control of gate driver. UPDN=”0”, Shift from down to up, First line=L240→L239→…→L2→L1=Last line UPDN=”1”, Shift from up to down, First line=L1→L2→…→L239→L240=Last line (Default mode) Right/Left sequence control of source driver. SHLR=”0”, shift left: Last data=S1←S2←S3…←S960= First data. SHLR=”1”, shift right: First data=S1→S2→S3…→S960= Last data. Ver. 0.4 Page 22 ©2013 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver HDNC [1:0] function setting for different horizontal data skip mode HDNC1 HDNC0 Source Data 0 0 1440/1280 clock 0 1 1440 clock 1 0 1440 clock 1 1 1440 clock Data Skip Mode 720RGBÆ(scale down) 320RGB 720RGBÆ(skip L/R 10RGB) 700RGBÆ(scale down) 320RGB 720RGBÆ(skip L/R 20RGB) 680RGBÆ(scale down) 320RGB 720RGBÆ(skip L/R 40RGB) 640RGBÆ(scale down) 320RGB R03: Input Data Format Control Register Bit Name Initial R/W Bit[7] DENPOL 1b R/W Bit[6] CLKPOL 0b R/W Bit[5] HSDPOL 0b R/W Bit[4] VSDPOL 0b R/W Bit[3:0] SEL[3:0] 1100b (R) R/W Description DEN input pin polarity control. DENPOL=”0”, DEN negative polarity. DENPOL=”1”, DEN positive polarity. (Default mode) CLKIN pin polarity control. CLKPOL=”0”, CLKIN negative edge latch data. CLKPOL=”1”, CLKIN positive edge latch data. (Default mode) HSD pin polarity control. HSDPOL=”0”, HSD negative polarity. (Default mode) HSDPOL=”1”, HSD positive polarity. VSD pin polarity control. VSDPOL=”0”, VSD negative polarity. (Default mode) VSDPOL=”1”, VSD positive polarity Input data format selection. Note: Different SEL[3:0] setting resolution in different AC timing. SEL [3:0]: Data input mode SEL3 0 0 0 0 0 0 0 0 1 1 SEL2 0 0 0 0 1 1 1 1 0 0 SEL1 0 0 1 1 0 0 1 1 0 0 SEL0 0 1 0 1 0 1 0 1 0 1 Data input format CCIR601 YUV 1280 input format(YUV mode A) CCIR601 YUV 1280 input format(YUV mode B) CCIR601 YUV 1440 input format(YUV mode A) CCIR601 YUV 1440 input format(YUV modeB) CCIR656 YCbCr input format(YCbCr mode A) CCIR656 YCbCr input format(YCbCr modeB) 8-bit digital RGB input format HV Mode (NTSC only) 8-bit digital RGB input format DE Mode (NTSC only) 8-bit digital RGB through mode input format HV Mode 1 0 1 0 (NTSC only) 8-bit digital RGB through mode input format DE Mode 1 0 1 1 (NTSC only) 1 1 0 0 24-bit digital RGB input format HV Mode(NTSC only) 1 1 0 1 24-bit digital RGB input format DE Mode(NTSC only) 1 1 1 * Note: Hsync and Vsync will be ignored in DE mode Operating frequency 24.54MHz 24.54MHz 27MHz 27MHz 27MHz 27MHz 27MHz 27MHz 27MHz 27MHz 6.4MHz 6.4MHz - Remark:RGB through mode will bypass 3-wire SWD[2:0] function; TCON will not arrange data color mapping. R04: Source Timing Delay Control Register NewVision Microelectronics, Inc. Ver. 0.4 Page 23 ©2013 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver Bit Name Initial R/W Description Select the HSD signal to 1st input data delay timing Under RGB 8/24 bit mode, Ths=DDLY[7:0], (Unit=CLKIN) Bit[7:0] DDLY[7:0] 46h R/W The register value will be update to the different default value each time when SEL[3:0] changed. Read the section of 9.3 for the detail, please. Note: DDLY function will be disabled under 8/24 bit DE mode and PINCTLB=0 condition. The default value list in the section 9.3 will be used when PINCTLB=0. R05: Gate Timing Delay Control Register Bit Bit[7] Name - Initial - R/W - Description Reserve Select the Gate start pulse output delay timing Tvs=HDLY[6:0], (Unit=HSD) Bit[6:0] HDLY[6:0] 0Dh R/W The register value will be update to the different default value each time when SEL[3:0] changed. Read the section of 9.3 for the detail, please. Note: HDLY function will be disabled under 8/24 DE mode and PINCTLB=0 condition. The default value list in the section 9.3 will be used when PINCTLB=0. R07: Internal Function Control Register Bit Bit[7:6] Bit[5:4] Name FRAD[1:0] INVSL[1:0] Initial 00b 00b R/W R/W R/W Bit[3] PAL 0b (R) RW Bit[2] PALM 0b (R) RW Bit[1] - - - Bit[0] AVGY 0b R/W Description Odd frame or Even frame advance control Source Driving Mode Selection Register NTSC or PAL mode selection Only for 601 and 656 mode. PAL=“0”,Select NTSC Interface mode。(Default mode)) PAL=“1”,Select PAL interface mode。 PAL mode input date format selection. PAL=“0”,Select NTSC Interface mode。(Default mode)) PAL=“1”,Select PAL interface mode。 Reserve Average YUV interface Luminance Y. AVGY=“0”,Only used odd Y sample for YUV conversion. AVGY =“1”,Used odd and even Y sample for YUV conversion. This function active under YUV mode only! INVSL [1:0] INVSL1 0 0 1 1 INVSL0 0 1 0 1 Driving Mode 1-Line Inversion 2-Line Inversion Frame Inversion Reserved Notes Default FRAD [1:0] INVSL1 INVSL0 Driving Mode Notes 0 0 Default Odd/Even frame Tstv are the same 0 1 1 1 0 1 Odd frame Even frame Reserve Even frame Tstv=HDLY setting+1 Odd frame Tstv=HDLY setting+1 Reserve R08: Contrast Control Register Bit Bit[7:5] Name - Initial - R/W - Bit[4:0] CON[4:0] 08h R/W NewVision Microelectronics, Inc. Description Reserve Display Contrast level adjustment register. (0.125/Step) Adjust range from 0x00(level=0) to 0x1F(level=3.875) Default value 08h(level=1.0) Ver. 0.4 Page 24 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver ©2013 R09: Brightness Control Register Bit Bit[7] Name - Initial - R/W - Bit[6:0] BRI[6:0] 40h R/W Description Reserve Display Brightness level adjustment register. (2/Step) Adjust range from 0x00(level=-128) to 0x7F(level=+126) Default value 0x40(level=+0) R0A: Hue and Saturation Control Register Bit Name Initial R/W Bit [7:4] HUE[3:0] 08h R/W Bit [3:0] SAT[3:0] 08h R/W Description YUV Hue level adjustment register. (5 Deg/Step) Adjust range from 0x00(level = -40 Deg) to 0x0F(level = +35 Deg) Default value 0x08(level = 0 Deg) Cb’ = Cb * cosθ+ Cr * sinθ Cr = Cr * cosθ+ Cb * sinθ YUV saturation level adjustment register. (0.125/Step) Adjust range from 0x00(level = 0) to 0x0F(level = 1.875) Default value 0x08(level = 1.00) Note: Hue and Saturation function was available under YUV input mode only. R0B: R/B Sub-Contrast Control Register Bit Name Initial R/W Bit[7:6] SCONB[1:0] 02h R/W Bit[3:2] SCONR[1:0] 02h R/W Description B Data Contrast level adjustment register. (0.125/Step) Adjust range from 0x00(level=0.75) to 0x0F(level=1.125) Default value 08h(level=1.0) R Data Contrast level adjustment register.(0.125/Step) Adjust range from 0x00(level=0.75) to 0x0F(level=1.125) Default value 08h(level=1.0) R0C: R Sub-Brightness Control Register Bit Bit[7:6] Name - Initial - R/W - Bit[5:0] SBRIR[5:0] 20h R/W Description Reserve R Data Brightness level adjustment register.(1/Step) Adjust range from 0x00(level=-32) to 0x3F(level=+31) Default value 20h(level=0) R0D: B Sub-Brightness Control Register Bit Bit[7:6] Name - Initial - R/W - Bit[5:0] SBRIB[5:0] 20h R/W Description Reserve B Data Brightness level adjustment register.(1/Step) Adjust range from 0x00(level=-32) to 0x3F(level=+31) Default value 20h(level=0) R0E: VCOMDC Level Control Register Bit Bit[7] Name - Initial - R/W - Description Reserve VCDCSL[5:0] data source selection register OTP_BYPS=”0”, VCDCSL [5:0] is read from OTP memory. Bit[6] OTP_BYPS 0h R/W OTP_BYPS=”1”, VCDCSL [5:0] is switch to the 3-wire register memory when user want to adjust the VCOMDC level for test propose. Refer to the “TRMEN” control register for the proper OTP write operation. VCOMDC level control register (20mV/Step @ VDDA=5.0V) VCDCSL[5:0]=00h, VCOMDC=1.00V VCDCSL[5:0]=01h, VCOMDC=1.02V Bit[5:0] VCDCSL[5:0] 2bh R/W …… VCDCSL[5:0]=10h, VCOMDC=1.32V …… VCDCSL[5:0]=3eh, VCOMDC=2.24V VCDCSL[5:0]=3fh, VCOMDC=2.26V Note: VCOMDC always keep 1.86V When VPSW=”1”. The OTP value effect in VPSW=0. NewVision Microelectronics, Inc. Ver. 0.4 Page 25 ©2013 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver R0F VCOMAC Level Control Register Bit Name Initial R/W Bit[7:6] VGLSL 10 R/W Bit[5:4] VGHSL 10 R/W Bit[3:0] VCACSL[3:0] 0101 R/W Description VGLSL level control register VGLSL Level=1V/Step VGHSL level control register VGHSL Level=1V/Step VCOMAC level control register VCOMAC level=0.1V/Step @ VDDA =5.0V VCACSL [3:0] VCSL3 VCSL2 VCSL1 VCSL0 Level(V) 0 0 0 0 4.6 0 0 0 1 4.7 0 0 1 0 4.8 0 0 1 1 4.9 0 1 0 0 5.0 0 1 0 1 5.1(Default) 0 1 1 0 5.2 0 1 1 1 5.3 1 0 0 0 5.4 1 0 0 1 5.5 1 0 1 0 5.6 1 0 1 1 5.7 1 1 * * Note: When VPSW=”1”. The register can’t be used and VCOMAC always keep 5.0V. Make sure to set VCOMAC < VINT1-0.3V. VGHSL [5:4] VGHSL1 VGHSL0 0 0 0 1 1 1 1 0 When VPSW=”1”. The register can’t be used and VGH always keep 15V. VGH(V) 12 13 14 15(default) VGHSL [7:6] VGLSL1 VGLSL0 0 0 0 1 1 1 1 0 When VPSW=”1”. The register can’t be used and VGL always keep -7V. VGL(V) -7(default) -8 -9 -10 R10: VGAM2 Level Control Register Bit Bit[7:5] Name - Initial - R/W - Bit[4] GAMEN 0b R/W Bit[3] V2GAM [2:0] - - 100b R/W Bit[2:0] NewVision Microelectronics, Inc. Description Reserve GAMMA adjustment enable control register. (adjustable voltage for V2-V6) GAEN=”0” or VSET=1, Gamma correction disabled. GAEN=”1” & VSET=0, Gamma correction enabled. Reserve V2 GAMMA voltage level setting. Function enabled when VSET=”0” Adjust level=22mV /Step Ver. 0.4 Page 26 ©2013 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver R11: VGAM3/4 Level Control Register Bit Bit[7:6] Name - Initial - R/W - Bit[5:3] V4GAM [2:0] 100b R/W Bit[2:0] V3GAM [2:0] 100b R/W Description Reserve V4 GAMMA voltage level setting. Function enabled when VSET=”0” Adjust level=22mV/Step V3 GAMMA voltage level setting. Function enabled when VSET=”0” Adjust level=22mV /Step R12: VGAM5/6 Level Control Register Bit Bit[10:6] Bit[5:3] Bit[2:0] Name V6GAM [2:0] V5GAM [2:0] Initial - R/W - 100b R/W 100b R/W Description Reserve V6 GAMMA voltage level setting. Function enabled when VSET=”0” Adjust level=22mV/Step V5 GAMMA voltage level setting. Function enabled when VSET=”0” Adjust level=22mV /Step V2GAM/ V3GAM/ V4GAM/ V5GAM/ V6GAM Level Control Register Setting Table VxGMA2 VxGMA1 0 0 0 0 0 1 0 1 1 0 1 0 1 1 1 1 Note: x=2, 3, 4, 5, 6 VxGMA0 0 1 0 1 0 1 0 1 Voltage level +88 +66 +44 +22 +0(Default) -22 -44 -66 Unit mV mV mV mV mV mV mV mV Note Refer to the Gamma Table for the default voltage level of V2~V6 R1D: OTP Operation Control Register Bit Name Initial R/W Bit[7:0] PDIN 00b R/W Description Program data for OTP R1E: OTP Operation Control Register Bit Name Bit[7] Bit[6] Bit[5] Bit[4] Bit[3:2] Bit[1:0] PPROG PSWSL PWE POR PTM[1:0] PA[1:0] Initia l 0b 0b 0b 0b 00b 00b R/W Description R/W R/W R/W R/W R/W R/W Program mode enabling. Power supply select. Define program cycle. Generate a pulse to read OTP. Test mode. Programming address. R1F OTP Operation Control Register Bit Name Initial R/ W Bit[0] OTPSEL 0b R/W Description OTP bank select. Note: Burning data for VCDCSL/VCACSL do not need external HV power supply and can be programmed 3 times. NewVision Microelectronics, Inc. Ver. 0.4 Page 27 ©2013 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver 7. Power On/Off Sequence 7.1. Power-On Timing Sequence TPOR VCI/VCIP/VDDIO RSTB SPI I/F STBYB Invalid Valid Invalid 1 2 3 4 5 6 7 8 9 VSD VDDA SO0~SO959 ground VCOMOUT ground Normal operation Normal operation Backlight 7.2 Power-Off Timing Sequence NewVision Microelectronics, Inc. Ver. 0.4 Page 28 ©2013 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver 8. DC Electrical Characteristics (Test Condition: VCI=VCIP=3.3V, VDDA=5.0V, VSS=GNDA=VSSP=0V, TA=25℃) Parameter Power Supply Voltage I/O power supply Pump circuits supply Low power supply Low Level Input Voltage High Level Input Voltage Input Leakage Current High Level Output Voltage Low Level Output Voltage 2xVCI pump output level Symbol VCI VDDIO VCIP VDD Min. 3.0 VDD 3.0 1.6 Typ. 3.3 3.3 3.3 1.8 Max. 3.6 3.6 3.6 2.0 Unit V V V V Vil VSS - 0.2xVDDIO V Digital input pins TA=25℃ Vih 0.8xVDDIO - VDDIO V Digital input pins TA=25℃ Ii - - ±1 μA Voh VDDIO-0.4 - VDDIO V Vol VSS - VSS+0.4 V Digital input pins Digital output pins; Ioh=400μA Digital output pins; Iol= -400μA VINT1 5.2 5.5 5.8 V Analog power voltage VDDA 4.5 5.0 VINT1-0.3 V VCOMAC output level VCOMA C 4.6 - VINT1-0.3 V VCOMDC output level VCOMD C 1.0 - 2.26 V Positive power supply Negative power supply Base drive current DRV output voltage VGH VGL IDRV VDRV 14.5 -10 VSS+0.1 15 -8 - 15.5 -6 10 VCI-0.1 V V mA V Feed back voltage VFB 0.55 0.6 0.65 V Voltage Deviation of Outputs Vvd - ±20 ±35 mV ±15 ±25 mV Low-Level Output Current of VCOMOUT IOLF - -10 - mA High-Level Output Current of VCOMOUT IOHF - 10 - mA IOLS - -30 - μA Son=Vo V.S. (Vo+0.9) IOHS - 30 - μA Son=Vo V.S. (Vo-0.9) IOLG - -250 - μA IOHG - 250 - μA Chip Stand-by Current Idds - 15 50 μA Chip Operating Current Idda - 10 - mA Source Low-Level Output Current Source High-Level Output Current Gate Low-Level Output Current Gate High-Level Output Current NewVision Microelectronics, Inc. Ver. 0.4 Conditions VCIP=3.3V, w/o panel loading Analog circuit power from Power Block By VCSL[2:0] setting VCOMAC=V(VCSL[3:0])±100mV By VCDCSL[5:0] setting VCOMDC= V(VCDCSL[5:0])±50mV Gate driver load + procard load Gate driver load + procard load VCIP=3.3V, DRV=0.7V DC/DC operating, VBL current=20mA Vo=0.1V~0.5V & VDDA-0.5V~VDDA-0.1V Vo=0.5V~VDDA-0.5V Force VCOMAC=6.0V VCOMOUT output=0V V.S 0.9V Force VCOMAC=6.0V VCOMOUT output=6.0V V.S 5.1V GOn; Vo=VGL V.S. (VGL+0.5) GOn; Vo=VGL V.S. (VGH0.5) STBYB=”0”, all function are shutdown, CLKIN/VSD/HSD halted No load, CLKIN=27MHz, Fld=15KHz Page 29 ©2013 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver 9. AC Electrical Characteristics 9.1 Input Data Format HSD CLKIN Ths (RGB HV mode) DIN[7:0] DIN[7:0] (RGB DE mode 0 1 2 3 4 5 6 7 8 R G B R G B R G - - - - - - - - - R G B R G B R G - - - - - - - - - Active Area DEN Total Area Input Format 8bit RGB 24bit RGB Format Standard 8bit RGB 24bit RGB CLKIN(MHz) HSD(CLKIN) 27 6.4 1 1 Total Area (CLKIN) 1716 408 Active Area (CLKIN) 960 320 Note 960×240 9.2. Time Diagram Clock and Data Input Timing Diagram NewVision Microelectronics, Inc. Ver. 0.4 Page 30 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver ©2013 3-Wire Timing Diagram Source Driver Output Timing Diagram NewVision Microelectronics, Inc. Ver. 0.4 Page 31 ©2013 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver Gate Driver Output Timing Diagram 1 2 Tstv 1 2 239 240 Vertical Timing Diagram (HV Mode) NewVision Microelectronics, Inc. Ver. 0.4 Page 32 ©2013 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver Vertical Timing Diagram (DE Mode) Line 1 Line 2 Line 3 Line N-1 Line N 1 2 3 N-1 N DE faling to Internal VS=2048clk DE faling Internal HS=2clk Tstv: User define Input Data Timing (24 bit RGB mode for 960×240 @ SEL[3:0]=1100b) 1 13 14 2 253 254 Default = 13 lines 1 2 1 2 Display lines = 240 lines Total lines = 263 lines 70 71 Default = 70 R R R R R R R R R R R R R R R R R G G G G G G G G G G G G G G G G G B B B B B B B B B B B B B B B B B Active Area=320 (RGB) Total Area=408 CLKIN NewVision Microelectronics, Inc. Ver. 0.4 Page 33 ©2013 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver 9.3. Specifications Test Condition: (VCI=VCIP=3.3V,VDDA=5.0V,VSS=GNDA=VSSP=0V,TA=25℃) 8 Bit RGB 960 CH Mode Parameter CLKIN frequency CLKIN cycle time CLKIN pulse duty Time that HSD to 1st data input(NTSC) Symbol Fclk Tclk Tcwh Min. 40 Typ. 27 37 50 Max. 30 Conditions VDD=3.0~3.6V 60 Unit MHz ns % Ths 35 70 255 CLKIN DDLY=70,Offset=0(fixed) Tclk 24 Bit RGB Mode (@ SEL[3:0]=1100 or 1101) Parameter CLKIN frequency CLKIN cycle time CLKIN pulse duty Time that HSD to 1st data input(NTSC) Symbol Fclk Tclk Tcwh Min. 6.1 125 40 Typ. 6.4 156 50 Max. 8.0 164 60 Unit MHz ns % Conditions VDD=3.0~3.6V Ths 40 70 255 CLKIN DDLY=70,Offset=0(fixed) NewVision Microelectronics, Inc. Ver. 0.4 Tclk Page 34 ©2013 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver Parameter System Operation Timing VDD power source slew time RSTB active pulse width Input Output Timing CLKIN clock time HSD to CLKIN HSD width VSD width HSD period time VSD setup time VSD hold time HSD setup time HSD hold time Data set-up time Data hold time DEN setup time Time that VSD to 1st line data input Symbol Min. TPOR TRSTB 40 Tclk Thc Thwh Tvwh Th Tvst Tvhd Thst Thhd Tdsu Tdhd Tesd 1 1 60 12 12 12 12 12 12 12 63.56 - Tvs 2 Time that CCIR_V to 1st line Tvs data input st Time that CCIR_V to 1 line Tvs data input Time that VSD to 1st line data Tvs input Source output stable time 1 Tst Gate output stable time Tgst VCOMOUT output stable time Tcst 3-wire serial communication AC timing Serial clock Tspck SPCK pulse duty Tscdut Serial data setup time Tisu Serial data hold time Tihd Serial clock high/low Tssw Chip select distinguish Tcd SPENA to VSD Tcv SPENB input setup time Teck SPENB input hold time Tcke Typ. Max. Unit Conditions 1000 us us From 0V to 90% VDD VDD=3.3V 35.7 1 67 - ns CLKIN CLKIN Th us ns ns ns ns ns ns ns Please refer to timing table(P25) 13 127 Th 12 20 28 Th 17 25 33 Th 2 13 127 Th - 25 500 4 30 1000 8 us ns us 320 40 120 120 120 1 1 150 150 50 - 60 - ns % ns ns ns us us Ns ns DIN[23:0] to CLKIN DIN[23:0] to CLKIN DEN to CLKIN @CIR601/8bit RGB HV mode Control by HDLY[6:0] setting Tvs=HDLY[6:0] @CCIR656 NTSC mode Control by HDLY[6:0] setting Tvs=HDLY[6:0] @CCIR656 PAL mode Control by HDLY[6:0] setting Tvs=HDLY[6:0] @24bit RGB HV mode Control by HDLY[6:0] setting Tvs=HDLY[6:0] 96% final, CL=30pF, RL=2K 96% final, CL=40pF 96% final, CL=33nF, RL=100ohm Tckh/Tspck 10. Absolute Maximum Ratings Logic supply voltage, VCI Analog supply voltage, VDDA Supply voltage, VCIP Supply voltage, V1~V6 VGH~VGL Storage temperature Operating temperature -0.5V to +5V -0.5V to +7.5V -0.5V to +5.5V -0.3~VDDA+0.3 -0.3~+25V -55℃ to +125℃ -20℃ to +85 ℃ Stress above those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only. Functional operation of this device at these or under any other conditions above those indicated in the operational sections of this specification are not implied and exposure to absolute maximum rating conditions for extended periods may affect device reliability. NewVision Microelectronics, Inc. Ver. 0.4 Page 35 ©2013 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver 11. Chip Bump Information 11.1. Pad Location (700) E2 E6 E4 E4 DUM G1 G3 DUM G5 C4M G237 COM1_L G239 COM1_R COM1_L COM1_R DUM COM1_R COM1_R C1AP C1AP COM1_R S960 S959 S958 C1AM C1AM C1M C1M C1P S482 S481 DUM V1 DUM E1 (21310) DUM V2 DUM DUM DUM DUM DUM V6 DUM V7 S480 S479 DIN1 DIN0 DATASEQ VCC VCC VCC S3 S2 S1 GND COM2_R COM2_R GND COM2_R COM2_R GND COM2_R G240 COM2_L G238 COM2_L DUM View G6 G4 G2 Bumper DUM E4 NewVision Microelectronics, Inc. Bumper Chip E4 Ver. 0.4 Page 36 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver ©2013 Alignment Mark Bump Information Symbol Dimension(um) B 17 B3 83 C 100 C1 127 C2 27 C4 90 D2 57 E1 21290(Max) E2 680(Max) E4 65(Max) E5 57(Max) E6 40 *Remark: Chip dimension include scribe line NewVision Microelectronics, Inc. Ver. 0.4 Page 37 ©2013 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver 11.2. Pad coordination Pad Name X Y Pad Name X Y Pad Name X Y 1 2 DUMMY G<2> 10579.575 10545.6 281.5 141.5 53 54 G<104> G<106> 9678.75 9661.75 281.5 141.5 105 106 G<208> G<210> 8794.9 8777.925 281.5 141.5 3 4 G<4> G<6> 10528.6 10511.6 281.5 141.5 55 56 G<108> G<110> 9644.75 9627.75 281.5 141.5 107 108 G<212> G<214> 8760.925 8743.925 281.5 141.5 5 6 G<8> G<10> 10494.6 10477.6 281.5 141.5 57 58 G<112> G<114> 9610.75 9593.775 281.5 141.5 109 110 G<216> G<218> 8726.925 8709.925 281.5 141.5 7 8 G<12> G<14> 10460.6 10443.6 281.5 141.5 59 60 G<116> G<118> 9576.775 9559.775 281.5 141.5 111 112 G<220> G<222> 8692.925 8675.925 281.5 141.5 9 10 G<16> G<18> 10426.6 10409.625 281.5 141.5 61 62 G<120> G<122> 9542.775 9525.775 281.5 141.5 113 114 G<224> G<226> 8658.925 8641.95 281.5 141.5 11 12 G<20> G<22> 10392.625 10375.625 281.5 141.5 63 64 G<124> G<126> 9508.775 9491.775 281.5 141.5 115 116 G<228> G<230> 8624.95 8607.95 281.5 141.5 13 14 G<24> G<26> 10358.625 10341.625 281.5 141.5 65 66 G<128> G<130> 9474.775 9457.8 281.5 141.5 117 118 G<232> G<234> 8590.95 8573.95 281.5 141.5 15 16 G<28> G<30> 10324.625 10307.625 281.5 141.5 67 68 G<132> G<134> 9440.8 9423.8 281.5 141.5 119 120 G<236> G<238> 8556.95 8539.95 281.5 141.5 17 18 G<32> G<34> 10290.625 10273.65 281.5 141.5 69 70 G<136> G<138> 9406.8 9389.8 281.5 141.5 121 122 G<240> COM2_L 8522.95 8483.975 281.5 281.5 19 20 G<36> G<38> 10256.65 10239.65 281.5 141.5 71 72 G<140> G<142> 9372.8 9355.8 281.5 141.5 123 124 COM2_L COM2_L 8449.975 8415.975 281.5 281.5 21 22 G<40> G<42> 10222.65 10205.65 281.5 141.5 73 74 G<144> G<146> 9338.8 9321.825 281.5 141.5 125 126 COM2_L COM2_L 8381.975 8347.975 281.5 281.5 23 24 G<44> G<46> 10188.65 10171.65 281.5 141.5 75 76 G<148> G<150> 9304.825 9287.825 281.5 141.5 127 128 S<1> S<2> 8309 8292 281.5 141.5 25 26 G<48> G<50> 10154.65 10137.675 281.5 141.5 77 78 G<152> G<154> 9270.825 9253.825 281.5 141.5 129 130 S<3> S<4> 8275 8258 281.5 141.5 27 28 G<52> G<54> 10120.675 10103.675 281.5 141.5 79 80 G<156> G<158> 9236.825 9219.825 281.5 141.5 131 132 S<5> S<6> 8241 8224 281.5 141.5 29 30 G<56> G<58> 10086.675 10069.675 281.5 141.5 81 82 G<160> G<162> 9202.825 9185.85 281.5 141.5 133 134 S<7> S<8> 8207 8190 281.5 141.5 31 32 G<60> G<62> 10052.675 10035.675 281.5 141.5 83 84 G<164> G<166> 9168.85 9151.85 281.5 141.5 135 136 S<9> S<10> 8173.025 8156.025 281.5 141.5 33 34 G<64> G<66> 10018.675 10001.7 281.5 141.5 85 86 G<168> G<170> 9134.85 9117.85 281.5 141.5 137 138 S<11> S<12> 8139.025 8122.025 281.5 141.5 35 36 G<68> G<70> 9984.7 9967.7 281.5 141.5 87 88 G<172> G<174> 9100.85 9083.85 281.5 141.5 139 140 S<13> S<14> 8105.025 8088.025 281.5 141.5 37 38 G<72> G<74> 9950.7 9933.7 281.5 141.5 89 90 G<176> G<178> 9066.85 9049.875 281.5 141.5 141 142 S<15> S<16> 8071.025 8054.025 281.5 141.5 39 40 G<76> G<78> 9916.7 9899.7 281.5 141.5 91 92 G<180> G<182> 9032.875 9015.875 281.5 141.5 143 144 S<17> S<18> 8037.05 8020.05 281.5 141.5 41 42 G<80> G<82> 9882.7 9865.725 281.5 141.5 93 94 G<184> G<186> 8998.875 8981.875 281.5 141.5 145 146 S<19> S<20> 8003.05 7986.05 281.5 141.5 43 44 G<84> G<86> 9848.725 9831.725 281.5 141.5 95 96 G<188> G<190> 8964.875 8947.875 281.5 141.5 147 148 S<21> S<22> 7969.05 7952.05 281.5 141.5 45 46 G<88> G<90> 9814.725 9797.725 281.5 141.5 97 98 G<192> G<194> 8930.875 8913.9 281.5 141.5 149 150 S<23> S<24> 7935.05 7918.05 281.5 141.5 47 48 G<92> G<94> 9780.725 9763.725 281.5 141.5 99 100 G<196> G<198> 8896.9 8879.9 281.5 141.5 151 152 S<25> S<26> 7901.075 7884.075 281.5 141.5 49 50 G<96> G<98> 9746.725 9729.75 281.5 141.5 101 102 G<200> G<202> 8862.9 8845.9 281.5 141.5 153 154 S<27> S<28> 7867.075 7850.075 281.5 141.5 51 52 G<100> G<102> 9712.75 9695.75 281.5 141.5 103 104 G<204> G<206> 8828.9 8811.9 281.5 141.5 155 156 S<29> S<30> 7833.075 7816.075 281.5 141.5 NewVision Microelectronics, Inc. Ver. 0.4 Page 38 ©2013 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver Pad Name X Y Pad Name X Y Pad Name X Y 157 S<31> 7799.075 281.5 209 S<83> 6915.25 281.5 261 S<135> 6031.4 281.5 158 159 S<32> S<33> 7782.075 7765.1 141.5 281.5 210 211 S<84> S<85> 6898.25 6881.25 141.5 281.5 262 263 S<136> S<137> 6014.4 5997.425 141.5 281.5 160 161 S<34> S<35> 7748.1 7731.1 141.5 281.5 212 213 S<86> S<87> 6864.25 6847.25 141.5 281.5 264 265 S<138> S<139> 5980.425 5963.425 141.5 281.5 162 163 S<36> S<37> 7714.1 7697.1 141.5 281.5 214 215 S<88> S<89> 6830.25 6813.275 141.5 281.5 266 267 S<140> S<141> 5946.425 5929.425 141.5 281.5 164 165 S<38> S<39> 7680.1 7663.1 141.5 281.5 216 217 S<90> S<91> 6796.275 6779.275 141.5 281.5 268 269 S<142> S<143> 5912.425 5895.425 141.5 281.5 166 167 S<40> S<41> 7646.1 7629.125 141.5 281.5 218 219 S<92> S<93> 6762.275 6745.275 141.5 281.5 270 271 S<144> S<145> 5878.425 5861.45 141.5 281.5 168 169 S<42> S<43> 7612.125 7595.125 141.5 281.5 220 221 S<94> S<95> 6728.275 6711.275 141.5 281.5 272 273 S<146> S<147> 5844.45 5827.45 141.5 281.5 170 171 S<44> S<45> 7578.125 7561.125 141.5 281.5 222 223 S<96> S<97> 6694.275 6677.3 141.5 281.5 274 275 S<148> S<149> 5810.45 5793.45 141.5 281.5 172 173 S<46> S<47> 7544.125 7527.125 141.5 281.5 224 225 S<98> S<99> 6660.3 6643.3 141.5 281.5 276 277 S<150> S<151> 5776.45 5759.45 141.5 281.5 174 175 S<48> S<49> 7510.125 7493.15 141.5 281.5 226 227 S<100> S<101> 6626.3 6609.3 141.5 281.5 278 279 S<152> S<153> 5742.45 5725.475 141.5 281.5 176 177 S<50> S<51> 7476.15 7459.15 141.5 281.5 228 229 S<102> S<103> 6592.3 6575.3 141.5 281.5 280 281 S<154> S<155> 5708.475 5691.475 141.5 281.5 178 179 S<52> S<53> 7442.15 7425.15 141.5 281.5 230 231 S<104> S<105> 6558.3 6541.325 141.5 281.5 282 283 S<156> S<157> 5674.475 5657.475 141.5 281.5 180 181 S<54> S<55> 7408.15 7391.15 141.5 281.5 232 233 S<106> S<107> 6524.325 6507.325 141.5 281.5 284 285 S<158> S<159> 5640.475 5623.475 141.5 281.5 182 183 S<56> S<57> 7374.15 7357.175 141.5 281.5 234 235 S<108> S<109> 6490.325 6473.325 141.5 281.5 286 287 S<160> S<161> 5606.475 5589.5 141.5 281.5 184 185 S<58> S<59> 7340.175 7323.175 141.5 281.5 236 237 S<110> S<111> 6456.325 6439.325 141.5 281.5 288 289 S<162> S<163> 5572.5 5555.5 141.5 281.5 186 187 S<60> S<61> 7306.175 7289.175 141.5 281.5 238 239 S<112> S<113> 6422.325 6405.35 141.5 281.5 290 291 S<164> S<165> 5538.5 5521.5 141.5 281.5 188 189 S<62> S<63> 7272.175 7255.175 141.5 281.5 240 241 S<114> S<115> 6388.35 6371.35 141.5 281.5 292 293 S<166> S<167> 5504.5 5487.5 141.5 281.5 190 191 S<64> S<65> 7238.175 7221.2 141.5 281.5 242 243 S<116> S<117> 6354.35 6337.35 141.5 281.5 294 295 S<168> S<169> 5470.5 5453.525 141.5 281.5 192 193 S<66> S<67> 7204.2 7187.2 141.5 281.5 244 245 S<118> S<119> 6320.35 6303.35 141.5 281.5 296 297 S<170> S<171> 5436.525 5419.525 141.5 281.5 194 195 S<68> S<69> 7170.2 7153.2 141.5 281.5 246 247 S<120> S<121> 6286.35 6269.375 141.5 281.5 298 299 S<172> S<173> 5402.525 5385.525 141.5 281.5 196 197 S<70> S<71> 7136.2 7119.2 141.5 281.5 248 249 S<122> S<123> 6252.375 6235.375 141.5 281.5 300 301 S<174> S<175> 5368.525 5351.525 141.5 281.5 198 199 S<72> S<73> 7102.2 7085.225 141.5 281.5 250 251 S<124> S<125> 6218.375 6201.375 141.5 281.5 302 303 S<176> S<177> 5334.525 5317.55 141.5 281.5 200 201 S<74> S<75> 7068.225 7051.225 141.5 281.5 252 253 S<126> S<127> 6184.375 6167.375 141.5 281.5 304 305 S<178> S<179> 5300.55 5283.55 141.5 281.5 202 203 S<76> S<77> 7034.225 7017.225 141.5 281.5 254 255 S<128> S<129> 6150.375 6133.4 141.5 281.5 306 307 S<180> S<181> 5266.55 5249.55 141.5 281.5 204 205 S<78> S<79> 7000.225 6983.225 141.5 281.5 256 257 S<130> S<131> 6116.4 6099.4 141.5 281.5 308 309 S<182> S<183> 5232.55 5215.55 141.5 281.5 206 207 S<80> S<81> 6966.225 6949.25 141.5 281.5 258 259 S<132> S<133> 6082.4 6065.4 141.5 281.5 310 311 S<184> S<185> 5198.55 5181.575 141.5 281.5 208 S<82> 6932.25 141.5 260 S<134> 6048.4 141.5 312 S<186> 5164.575 141.5 NewVision Microelectronics, Inc. Ver. 0.4 Page 39 ©2013 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver Pad Name X Y Pad Name X Y Pad Name X Y 313 314 S<187> S<188> 5147.575 5130.575 281.5 141.5 365 366 S<239> S<240> 4263.725 4246.725 281.5 141.5 417 418 S<291> S<292> 3379.9 3362.9 281.5 141.5 315 316 S<189> S<190> 5113.575 5096.575 281.5 141.5 367 368 S<241> S<242> 4229.75 4212.75 281.5 141.5 419 420 S<293> S<294> 3345.9 3328.9 281.5 141.5 317 318 S<191> S<192> 5079.575 5062.575 281.5 141.5 369 370 S<243> S<244> 4195.75 4178.75 281.5 141.5 421 422 S<295> S<296> 3311.9 3294.9 281.5 141.5 319 320 S<193> S<194> 5045.6 5028.6 281.5 141.5 371 372 S<245> S<246> 4161.75 4144.75 281.5 141.5 423 424 S<297> S<298> 3277.925 3260.925 281.5 141.5 321 322 S<195> S<196> 5011.6 4994.6 281.5 141.5 373 374 S<247> S<248> 4127.75 4110.75 281.5 141.5 425 426 S<299> S<300> 3243.925 3226.925 281.5 141.5 323 324 S<197> S<198> 4977.6 4960.6 281.5 141.5 375 376 S<249> S<250> 4093.775 4076.775 281.5 141.5 427 428 S<301> S<302> 3209.925 3192.925 281.5 141.5 325 326 S<199> S<200> 4943.6 4926.6 281.5 141.5 377 378 S<251> S<252> 4059.775 4042.775 281.5 141.5 429 430 S<303> S<304> 3175.925 3158.925 281.5 141.5 327 328 S<201> S<202> 4909.625 4892.625 281.5 141.5 379 380 S<253> S<254> 4025.775 4008.775 281.5 141.5 431 432 S<305> S<306> 3141.95 3124.95 281.5 141.5 329 330 S<203> S<204> 4875.625 4858.625 281.5 141.5 381 382 S<255> S<256> 3991.775 3974.775 281.5 141.5 433 434 S<307> S<308> 3107.95 3090.95 281.5 141.5 331 332 S<205> S<206> 4841.625 4824.625 281.5 141.5 383 384 S<257> S<258> 3957.8 3940.8 281.5 141.5 435 436 S<309> S<310> 3073.95 3056.95 281.5 141.5 333 334 S<207> S<208> 4807.625 4790.625 281.5 141.5 385 386 S<259> S<260> 3923.8 3906.8 281.5 141.5 437 438 S<311> S<312> 3039.95 3022.95 281.5 141.5 335 336 S<209> S<210> 4773.65 4756.65 281.5 141.5 387 388 S<261> S<262> 3889.8 3872.8 281.5 141.5 439 440 S<313> S<314> 3005.975 2988.975 281.5 141.5 337 338 S<211> S<212> 4739.65 4722.65 281.5 141.5 389 390 S<263> S<264> 3855.8 3838.8 281.5 141.5 441 442 S<315> S<316> 2971.975 2954.975 281.5 141.5 339 340 S<213> S<214> 4705.65 4688.65 281.5 141.5 391 392 S<265> S<266> 3821.825 3804.825 281.5 141.5 443 444 S<317> S<318> 2937.975 2920.975 281.5 141.5 341 342 S<215> S<216> 4671.65 4654.65 281.5 141.5 393 394 S<267> S<268> 3787.825 3770.825 281.5 141.5 445 446 S<319> S<320> 2903.975 2886.975 281.5 141.5 343 344 S<217> S<218> 4637.675 4620.675 281.5 141.5 395 396 S<269> S<270> 3753.825 3736.825 281.5 141.5 447 448 S<321> S<322> 2870 2853 281.5 141.5 345 346 S<219> S<220> 4603.675 4586.675 281.5 141.5 397 398 S<271> S<272> 3719.825 3702.825 281.5 141.5 449 450 S<323> S<324> 2836 2819 281.5 141.5 347 348 S<221> S<222> 4569.675 4552.675 281.5 141.5 399 400 S<273> S<274> 3685.85 3668.85 281.5 141.5 451 452 S<325> S<326> 2802 2785 281.5 141.5 349 350 S<223> S<224> 4535.675 4518.675 281.5 141.5 401 402 S<275> S<276> 3651.85 3634.85 281.5 141.5 453 454 S<327> S<328> 2768 2751 281.5 141.5 351 352 S<225> S<226> 4501.7 4484.7 281.5 141.5 403 404 S<277> S<278> 3617.85 3600.85 281.5 141.5 455 456 S<329> S<330> 2734.025 2717.025 281.5 141.5 353 354 S<227> S<228> 4467.7 4450.7 281.5 141.5 405 406 S<279> S<280> 3583.85 3566.85 281.5 141.5 457 458 S<331> S<332> 2700.025 2683.025 281.5 141.5 355 356 S<229> S<230> 4433.7 4416.7 281.5 141.5 407 408 S<281> S<282> 3549.875 3532.875 281.5 141.5 459 460 S<333> S<334> 2666.025 2649.025 281.5 141.5 357 358 S<231> S<232> 4399.7 4382.7 281.5 141.5 409 410 S<283> S<284> 3515.875 3498.875 281.5 141.5 461 462 S<335> S<336> 2632.025 2615.025 281.5 141.5 359 360 S<233> S<234> 4365.725 4348.725 281.5 141.5 411 412 S<285> S<286> 3481.875 3464.875 281.5 141.5 463 464 S<337> S<338> 2598.05 2581.05 281.5 141.5 361 362 S<235> S<236> 4331.725 4314.725 281.5 141.5 413 414 S<287> S<288> 3447.875 3430.875 281.5 141.5 465 466 S<339> S<340> 2564.05 2547.05 281.5 141.5 363 364 S<237> S<238> 4297.725 4280.725 281.5 141.5 415 416 S<289> S<290> 3413.9 3396.9 281.5 141.5 467 468 S<341> S<342> 2530.05 2513.05 281.5 141.5 NewVision Microelectronics, Inc. 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C3M -9525 -9398 -210 -210 1127 1128 G<187> G<185> -8964.875 -8981.875 281.5 141.5 1179 1180 G<83> G<81> -9848.725 -9865.725 281.5 141.5 1231 1232 C3M C3P -9271 -9144 -210 -210 1129 1130 G<183> G<181> -8998.875 -9015.875 281.5 141.5 1181 1182 G<79> G<77> -9882.7 -9899.7 281.5 141.5 1233 1234 C3P C2P -9017 -8890 -210 -210 1131 1132 G<179> G<177> -9032.875 -9049.875 281.5 141.5 1183 1184 G<75> G<73> -9916.7 -9933.7 281.5 141.5 1235 1236 C2P C2M -8763 -8636 -210 -210 1133 1134 G<175> G<173> -9066.85 -9083.85 281.5 141.5 1185 1186 G<71> G<69> -9950.7 -9967.7 281.5 141.5 1237 1238 C2M COM1_L -8509 -8382 -210 -210 1135 1136 G<171> G<169> -9100.85 -9117.85 281.5 141.5 1187 1188 G<67> G<65> -9984.7 -10001.7 281.5 141.5 1239 1240 COM1_L DUMMY -8255 -8128 -210 -210 1137 1138 G<167> G<165> -9134.85 -9151.85 281.5 141.5 1189 1190 G<63> G<61> -10018.68 -10035.68 281.5 141.5 1241 1242 C1AP C1AP -8001 -7874 -210 -210 1139 1140 G<163> G<161> -9168.85 -9185.85 281.5 141.5 1191 1192 G<59> G<57> -10052.68 -10069.68 281.5 141.5 1243 1244 C1AM C1AM -7747 -7620 -210 -210 1141 1142 G<159> G<157> -9202.825 -9219.825 281.5 141.5 1193 1194 G<55> G<53> -10086.68 -10103.68 281.5 141.5 1245 1246 C1M C1M -7493 -7366 -210 -210 1143 1144 G<155> G<153> -9236.825 -9253.825 281.5 141.5 1195 1196 G<51> G<49> -10120.68 -10137.68 281.5 141.5 1247 1248 C1P C1P -7239 -7112 -210 -210 NewVision Microelectronics, Inc. Ver. 0.4 Page 45 ©2013 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver Pad Name X Y Pad Name X Y Pad Name X Y 1249 vssp! -6985 -210 1300 TVREF -508 -210 1351 DIN<15> 5969 -210 1250 vssp! -6858 -210 1301 V<1> -381 -210 1352 DIN<14> 6096 -210 1251 vssp! -6731 -210 1302 V<2> -254 -210 1353 DIN<13> 6223 -210 1252 vcip! -6604 -210 1303 V<3> -127 -210 1354 DIN<12> 6350 -210 1253 vcip! -6477 -210 1304 V<4> 0 -210 1355 DIN<11> 6477 -210 1254 vcip! -6350 -210 1305 V<5> 127 -210 1356 DIN<10> 6604 -210 1255 DUMMY -6223 -210 1306 V<6> 254 -210 1357 DIN<9> 6731 -210 1256 vee! -6096 -210 1307 V<7> 381 -210 1358 DIN<8> 6858 -210 1257 vee! -5969 -210 1308 T_1U 508 -210 1359 DIN<7> 6985 -210 1258 vee! -5842 -210 1309 TP7 635 -210 1360 DIN<6> 7112 -210 1259 DUMMY -5715 -210 1310 TP6 762 -210 1361 DIN<5> 7239 -210 1260 VINT2 -5588 -210 1311 TP5 889 -210 1362 DIN<4> 7366 -210 1261 VINT2 -5461 -210 1312 DUMMY 1016 -210 1363 DIN<3> 7493 -210 1262 VINT2 -5334 -210 1313 TP4 1143 -210 1364 DIN<2> 7620 -210 1263 DUMMY -5207 -210 1314 TP3 1270 -210 1365 DIN<1> 7747 -210 1264 vssa! -5080 -210 1315 DUMMY 1397 -210 1366 DIN<0> 7874 -210 1265 vssa! -4953 -210 1316 TP2 1524 -210 1367 DATASEQ 8001 -210 1266 vssa! -4826 -210 1317 TP1 1651 -210 1368 vdd! 8128 -210 1267 DUMMY -4699 -210 1318 DUMMY 1778 -210 1369 vdd! 8255 -210 1268 VCOMOUT -4572 -210 1319 TP0 1905 -210 1370 vdd! 8382 -210 1269 VCOMOUT -4445 -210 1320 vcc! 2032 -210 1371 vss! 8509 -210 1270 VCOMOUT -4318 -210 1321 vcc! 2159 -210 1372 vss! 8636 -210 1271 VINT1 -4191 -210 1322 vcc! 2286 -210 1373 vss! 8763 -210 1272 VINT1 -4064 -210 1323 vssa! 2413 -210 1374 COM2_L 8890 -210 1273 VINT1 -3937 -210 1324 vssa! 2540 -210 1375 COM2_L 9017 -210 1274 DUMMY -3810 -210 1325 vssa! 2667 -210 1376 DRV 9144 -210 1275 VCOMAC -3683 -210 1326 vss! 2794 -210 1377 DRV 9271 -210 1276 VCOMAC -3556 -210 1327 vss! 2921 -210 1378 FB_PN 9398 -210 1277 VCOMAC -3429 -210 1328 vss! 3048 -210 1379 FB_PN 9525 -210 1278 DUMMY -3302 -210 1329 vci! 3175 -210 1380 FB 9652 -210 1279 VCOM -3175 -210 1330 vci! 3302 -210 1381 FB_PN 9779 -210 1280 VCOM -3048 -210 1331 vci! 3429 -210 1382 FB_PN 9906 -210 1281 VCOM -2921 -210 1332 RSTB 3556 -210 1383 VINT1 10033 -210 1282 POL -2794 -210 1333 DUMMY 3683 -210 1384 VINT1 10160 -210 1283 TOSC -2667 -210 1334 SPDA 3810 -210 1385 VINT1 10287 -210 1284 VPSW -2540 -210 1335 SPSW 3937 -210 1386 DUMMY 10412 -210 1285 DUMMY -2413 -210 1336 PINCTLB 4064 -210 1387 Alignment_L -10532.5 -222.5 1286 TP18 -2286 -210 1337 SPCK 4191 -210 1388 Alignment_R 10532.5 -222.5 1287 TP17 -2159 -210 1338 SPENB 4318 -210 1288 TP16 -2032 -210 1339 DEN 4445 -210 1289 TP15 -1905 -210 1340 HSD 4572 -210 1290 DUMMY -1778 -210 1341 VSD 4699 -210 1291 TP14 -1651 -210 1342 CLKIN 4826 -210 1292 TP13 -1524 -210 1343 DIN<23> 4953 -210 1293 DUMMY -1397 -210 1344 DIN<22> 5080 -210 1294 TP12 -1270 -210 1345 DIN<21> 5207 -210 1295 TP11 -1143 -210 1346 DIN<20> 5334 -210 1296 DUMMY -1016 -210 1347 DIN<19> 5461 -210 1297 TP10 -889 -210 1348 DIN<18> 5588 -210 1298 TP9 -762 -210 1349 DIN<17> 5715 -210 1299 TP8 -635 -210 1350 DIN<16> 5842 -210 NewVision Microelectronics, Inc. Ver. 0.4 Page 46 ©2013 NV3035C -- 960X240 TFT LCD Single Chip Digital Driver Revision history Version No. Date Page Introduction 0.1 2012-12-6 All New build 0.2 2013-1-25 P29 DC Electrical Characteristics : VGL:-10(Min);-8(Typ.) 0.3 2013-2-1 P46 Add Pad coordination: Alignment_L:(-10532.5,-222.5) Alignment_R: (-10532.5,-222.5) 0.4 2013-3-13 P26 VCACSL [3:0]:0101,level:5.1V(Default) Information furnished is believed to be accurate and reliable. However, New Vision Microelectronics Inc. assumes no responsibility for the consequences of use of such information nor for any infringement of patents or other rights of third parties, which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of New Vision Microelectronics Inc. Specifications mentioned in this publication are subject to change without notice. This publication supersedes and replaces all information if previously supplied. NewVision Microelectronics, Inc. Ver. 0.4 Page 47