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GC2035 DataSheet

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GC2035 DataSheet

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1/5’’ UXGA CMOS Image Sensor GC2035 DataSheet V1.0 2012-09-07 GalaxyCore Inc. UXGA CMOS Image Sensor Content 1. SENSOR OVERVIEW ............................................................................................................ 4 1.1 GENERAL DESCRIPTION ............................................................................................................... 4 1.2 FEATURES ...................................................................................................................................4 1.3 APPLICATION ............................................................................................................................... 5 1.4 TECHNICAL SPECIFICATIONS ........................................................................................................ 5 2. BLOCK DIAGRAM ................................................................................................................. 6 2.1 BLOCK DIAGRAM.......................................................................................................................... 6 2.2 SIGNAL DESCRIPTIONS ................................................................................................................ 7 2.3 PIN DIAGRAM .............................................................................................................................. 8 3. OPTICAL SPECIFICATIONS ............................................................................................... 9 3.1 SENSOR ARRAY CENTER............................................................................................................... 9 3.2 PIXEL ARRAY ............................................................................................................................. 10 3.3 LENS CHIEF RAY ANGLE (CRA).................................................................................................. 11 3.4 COLOR FILTER SPECTRAL CHARACTERISTICS .............................................................................. 12 4. TWO-WIRE SERIAL BUS COMMUNICATION ................................................................12 4.1 PROTOCOL ................................................................................................................................12 4.2 SERIAL BUS TIMING................................................................................................................... 13 5. APPLICATIONS....................................................................................................................14 5.1 TIMING DVP ............................................................................................................................. 14 5.2 MIPI ........................................................................................................................................15 5.2.1 Clock lane low‐power.......................................................................................................... 15 5.2.2 Data Burst........................................................................................................................... 16 GC2035 DataSheet 2 / 51 UXGA CMOS Image Sensor 5.3 POWER ON/OFF SEQUENCE ....................................................................................................... 17 5.3.1 Power On Sequence ............................................................................................................ 17 5.3.2 Power Off Sequence............................................................................................................ 17 5.4 DC PARAMETERS ....................................................................................................................... 17 6. PACKAGE SPECIFICATIONS .............................................................................................18 7. REGISTER LIST ...................................................................................................................19 7.1 SYSTEM REGISTER ..................................................................................................................... 19 7.2 ANALOG & CISCTL ................................................................................................................... 21 7.3 ISP RELATED ............................................................................................................................ 25 GC2035 DataSheet 3 / 51 UXGA CMOS Image Sensor 1. Sensor Overview 1.1 General Description GC2035 is a high quality 2Mega CMOS image sensor, for mobile phone camera applications and digital camera products. GC2035 incorporates a 1616V x 1232H pixel array, on-chip 10-bit ADC, and image signal processor. The on-chip ISP provides a very smooth AE (Auto Exposure) and accurate AWB (Auto White Balance) control. It provides various data formats, such as Bayer RGB, RGB565, YCbCr 4:2:2. It has a commonly used two-wire serial interface for host to control the operation of the whole sensor. Internal master clock can be generated by on-chip Phase Lock Loop(PLL) oscillator. 1.2 Features  Standard optical format of 1/5 inch  Various output formats: YCbCr4:2:2, RGB565, Raw Bayer  Power supply requirement : AVDD28: 1.7~3.0V  DVDD18: 1.7~1.9V  IOVDD: 1.7~3.0V  PLL support  Windowing support  MIPI interface support  Horizontal /Vertical mirror  Image processing module  Package: CSP/wafer GC2035 DataSheet 4 / 51 UXGA CMOS Image Sensor 1.3 Application  Cellular Phone Cameras  Notebook and desktop PC cameras  PDAs  Toys  Digital still cameras and camcorders  Video telephony and conferencing equipment  Security systems  Industrial and environmental systems 1.4 Technical Specifications Parameter Optical Format Pixel Size Active pixel array ADC resolution Shutter type Max Frame rate Power Supply Power Consumption SNR Dark Current Sensitivity Operating temperature: Stable Image temperature Optimal lens chief ray angle(CRA) Package type Typical value 1/5 inch 1.75um x 1.75um 1616 x 1232 10 bit ADC Electronic rolling shutter 15fps@24Mhz, UXGA ~30fps@24Mhz, SVGA AVDD28: 1.7~3.0V DVDD18: 1.7~1.9V IOVDD: 1.7~3.0V 180mW(Active) <100uA(Standby) TBD TBD TBD -20~70℃ 0~50℃ 25º(non-linear) CSP/wafer GC2035 DataSheet 5 / 51 UXGA CMOS Image Sensor 2. Block Diagram 2.1 Block Diagram Pixel Array 1616H x 1232V (1600H x 1200V) Column CDS Analog Processing 10bit ADC(double) Row Decoder Timing Control Configuration Registers RESET MCLK SDA SCL AWB AEC Image Signal Processing ‐ Interpolation ‐ Denoise ‐ Gamma ‐ Edge enhance Output Mode & Sync Control YUV/RGB data PCLK VSYNC HSYNC GC2035 has an active image array of 1616 x 1232 pixels. The active pixels are read out progressively through column/row driver circuits. In order to reduce fixed pattern noise, CDS circuits are adopted. The analog signal is transferred to digital signal by 10 bit A/D converter. The digital signals are processed in the ISP Block, including Bayer interpolation, de-noise, and color correction, gamma correction, and data format conversion and so on. Users can easily control these functions via two-wire serial interface bus. GC2035 DataSheet 6 / 51 UXGA CMOS Image Sensor 2.2 Signal Descriptions Name A1 AVDD28 A2 PWDN A3 SBCL A4 VSYNC A5 PCLK A6 IOVDD B1 AGND B2 RESETB B3 SBDA B4 HSYNC B5 DVDD18 B6 D<0> C1 VPIX C2 TXLOW C3 NC C4 DGND C5 D<1> C6 D<2> D1 CGND D2 AGND D3 DVDD18 D4 DGND D5 D<4> D6 D<3> E1 AVDD28 Pin type Description Power Input Power for analog circuit/sensor array power down (active high) Input SCCB input clock Output Vertical reference output Output Power Ground Input I/O Pixel clock output Power Supply for I/O circuits Ground for analog circuit/sensor array reset (active Low) SCCB data Output Horizontal sync output Power Power for digital core Output YUV/RGB video port bit [0] Power Internal analog power Power internal analog reference Ground Output Output Ground Ground Power Ground Output Output Power Ground for digital circuit YUV/RGB video port bit [1] YUV/RGB video port bit [2] Ground for analog circuit Ground for analog circuit/sensor array Power for digital core Ground for digital circuit YUV/RGB video port bit [4] YUV/RGB video port bit [3] Power for analog circuit/sensor array GC2035 DataSheet 7 / 51 UXGA CMOS Image Sensor E2 MDP<0> E3 MDN<1> E4 MCP E5 D<6> E6 D<5> F1 INCLK F2 MDN<0> F3 MDP<1> F4 MCN F5 D<7> F6 DVDD18 & MVDD Output Output Output Output Output Input Output Output Output Output Power MIPI Data<0> (+) MIPI Data<1> (-) MIPI clock (+) YUV/RGB video port bit [6] YUV/RGB video port bit [5] Sensor master input clock MIPI Data<0> (-) MIPI Data<1> (+) MIPI clock (-) YUV/RGB video port bit [7] Power for digital core Power for MIPI 2.3 Pin Diagram GC2035 DataSheet Top View 8 / 51 UXGA CMOS Image Sensor 3. Optical Specifications 3.1 Sensor Array Center Top View GC2035 DataSheet 9 / 51 UXGA CMOS Image Sensor 3.2 Pixel Array Pixel array is covered by Bayer pattern color filters. The primary color BG/GR array is arranged in line-alternating way. If no flip in column, column is read out from 0 to 1615. If flip in column, column is read out from 1615 to 0. If no flip in row, row is read out from 0 to 1231. If flip in row, row is read out from 1231to 0. GC2035 DataSheet 10 / 51 UXGA CMOS Image Sensor 3.3 Lens Chief Ray Angle (CRA) Field (%) 0 10 20 30 40 50 60 70 80 90 100 110 Image Height (mm) Image height(mm) 0 0.177 0.354 0.531 0.708 0.885 1.062 1.239 1.416 1.593 1.77 1.895 CRA(degrees) 0 4.15 8.25 12.2 15.83 18.98 21.61 23.62 24.82 25.39 25.78 25.89 GC2035 DataSheet 11 / 51 UXGA CMOS Image Sensor 3.4 Color Filter Spectral Characteristics The optical spectrum of color filters is shown as follows: 4. Two-wire Serial Bus Communication GC2035 Device Address: serial bus write address = 0x78, serial bus read address = 0x79 4.1 Protocol The host must perform the role of a communications master and GC2035 acts as either a slave receiver or transmitter. The master must do:  Generate the Start(S)/Stop(P) condition  Provide the serial clock on SBCL GC2035 DataSheet 12 / 51 UXGA CMOS Image Sensor Start condition Acknowledge SBDA SBCL S MSB LSB 12345678 A P Address or data byte Stop condition Single Register Writing: S 78H A Register Address A Data A P Incremental Register Writing: S 78H A Register Address A Data(1) A …… Data(N) A P Single Register Reading: S 78H A Register Address A S 79H A Data NA P Notes: From master to slave From slave to master S: Start condition P: Stop condition A: Acknowledge bit NA: No acknowledge Register Address: Sensor register address Data: Sensor register value 4.2 Serial Bus Timing SBDA SBCL stop start tlow tr tbuf start stop tf thd;sta thd;sta thd;dat thigh tsu;dat tsu;dat tsu;stoth Parameter SBCL clock frequency Bus free time between a stop and a start Hold time for a repeated start LOW period of SBCL Symbol fscl tbuf thd;sta tlow Min. 0 1.2 1.0 1.2 Max. 400 * * * Unit KHz s s s GC2035 DataSheet 13 / 51 UXGA CMOS Image Sensor HIGH period of SBCL thigh 1.0 * s Set-up time for a repeated start tsu;sta 1.2 * ns Data hold time thd;dat 1.3 * ns Data Set-up time tsu;dat 250 * ns Rise time of SBCL, SBDA tr * 250 ns Fall time of SBCL, SBDA tf * 300 ns Set-up time for a stop tsu;sto 1.2 * s Capacitive load of bus line (SBCL, SBDA) Cb * * pf 5. Applications 5.1 Timing DVP Supposed Vsync is low active and Hsync is high active, and output format is YCbCr/RGB565, then the timing of Vsync and Hsync is following: Ft =VB+ Vt +8(unit is row_time) VB = Bt + St + Et, Vblank/Dummy line,setting by register 0x07 and 0x08.  Ft -> Frame time, one frame time.  Bt -> Blank time, Vsync no active time.  St -> Start time, setting by register 0x13  Et -> End time, setting by register 0x14  Vt -> valid line time. UXGA is 1200, Vt=win_height-8, win_height is setting by register 0x0d and 0x0e(1232). When exp_time <= win_height+VB, Bt=VB-St-Et. Frame rate is controlled by window_height+VB. When exp_time > win_height+VB, Bt=exp_time-win_height-St-Et. Frame rate is controlled by exp_time. GC2035 DataSheet 14 / 51 UXGA CMOS Image Sensor The following is row_time calculate: row_time = Hb + Sh_delay + win_width + 4. Hb –> HBlank or dummy pixel, Setting by register 0x05 and 0x06. Sh_delay -> Setting by register 0x11. win_width -> Setting by register 0x0f and 0x10, win_width = 1600, final_output_width + 8. So for UXGA, we should set win_width as 1616. 5.2 MIPI 5.2.1 Clock lane low-power Notice: Clock must be reliable during high speed transmission and mode-switching Clock can go to LP only if data lanes are in LP(and nothing relies on it), In Low –Power data lanes are conceptually asynchronous(independent of the high speed clock) TCLK_PRE: setting by Register P3: 0x24 TCLK_POST : setting by Register P3: 0x25 TCLK-ZERO: setting by Register P3: 0x23 TCLK_TRAIL: setting by Register P3: 0x26 GC2035 DataSheet 15 / 51 UXGA CMOS Image Sensor 5.2.2 Data Burst Notice: Clock Keeps running and samples data lanes(except for lanes in LPS) Unambiguous leader and trailer sequences required to distill real ditz, trailer is removed inside PHY(a few bytes) Time-out to ignore line values during line state transition TLPX : setting by Register P3:0x21 THS-PREPARE: setting by Register P3: 0x29 THS-ZERO: setting by Register P3:0x2a THS-TRAIL: setting by Register P3:0x2b THS-EXIT: setting by Register P3: 0x27 GC2035 DataSheet 16 / 51 UXGA CMOS Image Sensor 5.3 Power On/Off Sequence 5.3.1 Power On Sequence 5.3.2 Power Off Sequence 5.4 DC Parameters Symbol Parameter Min Typ Max Unit Supply VAVDD28 Power supply 2.7 2.8 VDVDD18 Supply voltage(digital core) 1.7 1.8 VIOVDD Supply voltage(digital I/O) 1.7 1.8 IAVDD28 30 IDVDD18 IIOVDD 1.8V 2.8V Active(operating) current 20 10 15 3.0 V 1.9 V 3.0 V 50 mA 100 mA 10 mA 10 mA GC2035 DataSheet 17 / 51 UXGA CMOS Image Sensor IDDS_PWD Standby Current 30 60 100 uA Digital Input(Typical conditions: AVDD28 = 2.8V,DVDD = 1.8V,IOVDD = 1.8V) VIH Input voltage HIGH 1.9 V VIL Input voltage LOW 0.5 V Digital Output(AVDD28 = 2.8V,standard Loading 25PF,IOVDD = 1.8V) VOH Output voltage HIGH 2.5 VOL Output voltage LOW V 0.2 V 6. Package Specifications Description Package Body Dimension X Package Body Dimension Y Package Height Ball Height Package Body Thickness Thickness from top glass surface to wafer Ball Diameter Total Ball Count Pins Pitch X axis Pins Pitch Y axis Symbol A B C C1 C2 C3 D N J1 J2 Nominal Min. Max. Millimeters 4.570 4.545 4.595 3.840 3.815 3.865 0.780 0.720 0.840 0.160 0.130 0.190 0.620 0.585 0.655 0.445 0.425 0.465 0.300 0.270 0.330 35 0.730 0.600 GC2035 DataSheet 18 / 51 UXGA CMOS Image Sensor Edge to Pin Center Distance along X Edge to Pin Center Distance along Y S1 0.460 0.430 0.490 S2 0.420 0.390 0.450 7. Register List 7.1 System Register Address Name Width Default R/W Description Value 0xf0 Chip_ID_high 8 0x20 RO ChipIDhighbit 0xf1 Chip_ID_low 8 0x35 RO ChipIDlowbit 0xf2 pad_auto_switch_ 8 0x70 RW [7] pad auto switch mode mode [6:4] sync pad io dvp sync_pad_io_dvp [3] pad vb hiz mode pad_vb_hiz_mode [2:0] sync pad io ebi sync_pad_io_ebi 0xf3 data_pad_io_dvp[ 8 0xff RW [7:0] data pad io dvp 7:0] 0xf4 data_pad_io_ebi[7 8 0x00 RW [7:0] data pad io ebi :0] 0xf5 data_pad_io_dvp[ 6 0x30 RW [5:4] data pad io dvp[9:8] 9:8] [1:0] data pad io ebi[9:8] data_pad_io_ebi[9 :8] 0xf6 Up_down 8 0x00 RW [5:4] updn Pwd_dn 00 not pull 01 pull down 10 pull up 11 illegal [0] PWD dn 0 pull down 1 not pull 0xf7 PLL_mode1 6 0x07 RW [5:4] serial clk double [3] clk double [2] Mode 24MHz [1] div2en 1: divider MCLK 1/2 0: not divider [0] pll enable 1: enable GC2035 DataSheet 19 / 51 UXGA CMOS Image Sensor 0xf8 PLL_mode2 0xf9 Cm_mode 0xfa clk_div_mode 0xfb i2c_device_id 0xfc analog_pwc 0xfe Reset related 0: disable 8 0x00 RW [7] pll dg div enable [6] NA [5:0] divx4 8 0xfe RW [7] super clk enable [6] 2pclk enable [5] pclk enable [4] hpclk enable [3] ISP all clock enable [2] serial clock enable [1] re-lock pll [0] not use pll 8 0x00 RW [7:4] +1 represent the frequency division number [3:0]represent the high level in one pulse after frequency division Mclk by Div duty 0x11 2 1:1 0x21 3 1:2 0x22 3 2:1 0x31 4 1:3 0x32 4 2:2 0x33 4 3:1 … 7 0x78 RW [7:1] I2C device ID, can write once [0] NA 3 0x06 RW [2] vpix enable [1] NA [0] analog pwdn 8 0x00 RW [7] soft reset [6] SPI receiver reset [5] NA [4] restart CISCTL, effective low [3:2]NA [1:0] page select 00: registers in REGF0 01: registers in REGF1 10: registers in REGF2 11: registers in REGF3 GC2035 DataSheet 20 / 51 UXGA CMOS Image Sensor 7.2 Analog & CISCTL Address Name P0:0x03 Exposure[12:8] P0:0x04 Exposure[7:0] P0:0x05 HB[11:8] P0:0x06 HB[7:0] P0:0x07 VB[12:8] P0:0x08 VB[7:0] P0:0x09 Row_start[10:8] P0:0x0a Row_start[7:0] P0:0x0b Col_start[10:8] P0:0x0c Col_start[7:1] P0:0x0d win_height[10:8] P0:0x0e win_height[7:0] P0:0x0f win_width[10:8] P0:0x10 win_width[7:1] P0:0x11 sh_delay[9:8] P0:0x12 sh_delay[7:0] P0:0x13 Vs_st P0:0x14 Vs_et P0:0x15 Reserved P0:0x16 Reserved P0:0x17 Mirror_updn P0:0x18 Reserved P0:0x19 Reserved P0:0x1a Reserved P0:0x1b Reserved P0:0x1c Reserved Width Default R/W Description Value 4 0x00 RO [7:5] NA [4:0] exposure[12:8],use line processing time as the unit. 8 0x10 RO Exposure[7:0], controlled by AEC if AEC is in function 4 0x00 RW H Blanking 8 0x94 RW 5 0x00 RW Vertical blanking, if current exposure < 8 0x10 RW ( Vb + window Height) , frame rate will be ( Vb + window Height); otherwise frame rate will be determined by exposure 3 0x00 RW Row Start 8 0x00 RW 3 0x00 RW Col start 8 0x08 3 0x04 RW [7:2] NA [2:0] Window height high bit 8 0xd0 RW Window height low 8 Bit 3 0x06 RW [7:2] NA [2:0] Window width high bit 8 0x50 RW window width low bit 2 0x00 RW [7:3] NA [2:0] sh_delay[9:8] 8 0x28 RW [7:0] sh_delay[7:0] 8 0x02 RW Vs_st 8 0x02 RW for dark row time 8 0x00 RW Reserved 8 0xc1 RW Reserved 8 0X00 RW [7:3] Reserved [1] Flip [0] mirror 8 0x0a RW Reserved 8 0x05 RW Reserved 8 0x00 RW Reserved 8 0x44 RW Reserved 8 0x11 RW Reserved GC2035 DataSheet 21 / 51 UXGA CMOS Image Sensor P0:0x1d Reserved 8 0x00 RW Reserved P0:0x1e Reserved 8 0x13 RW Reserved P0:0x1f Reserved 8 0x00 RW Reserved P0:0x20 Reserved 8 0x00 RW Reserved P0:0x21 Reserved 8 0x40 RW Reserved P0:0x22 Reserved 8 0xb2 RW Reserved P0:0x23 Reserved 8 0x05 RW Reserved P0:0x24 PAD_drv 8 0x15 RW [7:6] NA, [5:4] sync drv 0 0:4mA 0 1:8mA 1 0:12mA 1 1:16mA [3:2] data drv 0 0:2mA 0 1:4mA 1 0:8mA 1 1:10mA [1:0] pclk drv 0 0:2mA 0 1:4mA 1 0:8mA 1 1:10mA P0:0x25 dbrow 8 0x00 RW [7:1] NA [0] db row P0:0x3f RC_P 6 0x11 RW [7:5] RCP[5:0] float 3.3 PRC_mode_enabl [1:0] PRC mode enable e [1] postgain RC enable [0] pregain RC enable CSI/PHY1.0 Address Name Width Default R/W Description Value P3:0x01 DPHY_analog_mo 8 0x00 RW [6] CTD lane1 de1 [5] CTD lane0 [4] CTD clock [2] phy lane1 enable [1] phy lane0 enable [0] phy clock enable P3:0x02 DPHY_analog_mo 8 0x00 RW [6:4] lane0 driver GC2035 DataSheet 22 / 51 UXGA CMOS Image Sensor de2 P3:0x03 DPHY_analog_mo 8 de3 P3:0x04 fifo_prog_full_lev 8 el[7:0] P3:0x05 fifo_prog_full_lev 4 el[11:8] P3:0x06 fifo_mode 8 P3:0x10 CSI2_mode 8 P3:0x11 LDI_set 8 P3:0x12 LWC_set[7:0] 8 P3:0x13 LWC_set[15:8] 8 P3:0x14 SYNC_set 8 P3:0x15 DPHY_mode 8 P3:0x16 LP_set 8 P3:0x17 MIPI_wdiv_set 4 P3:0x20 T_init_set 8 GC2035 DataSheet 0x00 0xa0 [2:0] clock lane driver RW [6] lane1 delay [5] lane0 delay [4] clock delay [2:0] lane1 driver RW [7:0] fifo full level[7:0] 0x00 RW [3:0] fifo full level[11:8] 0x08 0x00 0x2b 0x20 0x03 0xb8 0x00 0x09 0x01 0x80 RW [7] MIPI_CLK_MODULE [6] manual CSI2_up mode [4] FIFO reset mode [3] USE_SRAM1_mode [2] NA [1] switch read [0] switch write RW [7] lane enable [6] NA [5] ULP mode [4] MIPI enable [3] bit10swicth [2] RAW8 [1] line sync mode [0] double lane enable RW RAW10 RW [7:0] LWC set[7:0] RW [7:0] LWC set[15:8] RW [7:0] SYNC set RW [7:4] trigger mode [7] read ready [6] half [5] full [4] programed [3] PP mode XOL mode [2:1] NA [0] clock lane mode RW [7:6] hi-z [3:2] 1 [1:0] 0 RW default 1/2 RW more than 100 us 23 / 51 UXGA CMOS Image Sensor P3:0x21 T_LPX_set 8 P3:0x22 T_CLK_HS_PRE 8 PARE_set P3:0x23 T_CLK_zero_set 8 P3:0x24 T_CLK_PRE_set 8 P3:0x25 T_CLK_POST_set 8 P3:0x26 T_CLK_TRAIL_s 8 et P3:0x27 T_HS_exit_set 8 P3:0x28 T_wakeup_set 8 P3:0x29 T_HS_PREPARE 8 _set P3:0x2a T_HS_Zero_set 8 P3:0x2b T_HS_TRAIL_set 8 P3:0x30 external_global_m 8 ode P3:0x31 external_dvp_mod 8 e P3:0x32 external_spi_mode 8 1 P3:0x33 external_spi_mode 8 2 P3:0x34 external_spi_reset 8 _width P3:0x35 external_row_start 8 [15:8] P3:0x36 external_row_start 8 [7:0] P3:0x37 external_col_start[ 8 15:8] P3:0x38 external_col_start[ 8 0x10 RW more than 50ns 0x05 RW 38ns ~95ns LP00 0x30 0x02 0x10 0x08 RW [7:0] T_CLK_PRE_set ,more than 300ns RW [7:0] T_CLK_PRE_set ,more than 8UI RW [7:0] T_CLK_POST_set, 60ns +52UI RW [7:0] T_CLK_TRAIL_set ,60ns 0x10 0xa0 0x06 0x0a 0x08 0x03 0x00 0x00 0x01 RW [7:0] T_HS_exit_set ,more than 100ns RW [7:0] T_wakeup_set ,1ms RW [7:0] T_HS_PREPARE_set,45+4UI ~85+5UI RW [7:0] T_HS_Zero_se,140ns RW [7:0] T_HS_TRAIL_set ,60ns RW [4] rec dbrow enable flush [3] EBI dbrow enable [2] raw data [1] reg mode [0] use which edge sample RW [7] dvp receive enable [2] dvp decode [1] dvp10bit [0] dvp8bit RW [7] spi receive enable [6] spi1lane2 [5] spi 10 bit [4] spi 10 bit HL [3] don’t care reset [2] no sync [1:0] bandwidth RW [0] spi msb first 0x80 RW External spi reset width 0x00 RW External row start[15:0] 0x00 RW 0x00 RW External col start[15:0] 0x00 RW GC2035 DataSheet 24 / 51 UXGA CMOS Image Sensor 7:0] P3:0x39 external_win_heig 8 ht[15:8] P3:0x3a external_win_heig 8 ht[7:0] P3:0x3b external_win_widt 8 h[15:8] P3:0x3c external_win_widt 8 h[7:0] P3:0x3d pad_delay_cnt 8 P3:0x3e external_interval 8 P3:0x3f fifo_error log 8 P3:0x40 output_buf_mode1 8 P3:0x41 output_buf_mode2 8 P3:0x42 buf_win_width[7: 8 0] P3:0x43 buf_win_width[11 4 :8] P3:0x44 buf_win_height[7: 8 0] P3:0x45 buf_win_height[10 3 :8] 0x01 RW External window height[15:0] 0xe8 RW 0x02 RW External window width[15:0] 0x88 RW 0x20 0x3f 0x00 0x00 0x00 0x40 RW interval of switch pad RW External interval RO Fifo error log RW [7:4]start mode [3]NA [2:1]delay half clk [0] NA RW 2 clk gating 1 pclk polarity 0 hsync polarity RW Buffer window width 0x06 RW 0x00 RW Buffer window height 0x00 RW 7.3 ISP Related Address Name P0:0x80 Block_enable1 GC2035 DataSheet Width Default R/W Description Value 8 0x08 RW [7] BKS enable [6] gamma enable [5] CC enable [4] Edge enhancement enable [3] Interpolation enable [2] second DN enable [1] second DD enable [0] Lens-shading correction enable 25 / 51 UXGA CMOS Image Sensor P0:0x81 Block_enable2 8 P0:0x82 AAAA_enable 8 P0:0x83 Buf_special_effect 8 P0:0x84 Output_format 8 0x00 0x00 0x00 0x02 RW [7] NA [6] low light Y stretch enable [5] skin detection enable [4] skin Y enable [3] new skin mode [2] autogray enable [1] Y gamma enable [0] NA RW [7] Auto SA enable [6] auto EE enable [5] auto DN enable [4] auto DD enable [3] auto LSC enable [2] ABS enable [1] AWB enable [0] auto YEE RW [7:4] effect select [3] edge map2 [2] edge map1 [1] fixed CbCr enable [0] inverse color RW [7] YUV420rowswitch [6] YUV420colswitch [5] shake mode [4:0] output data mode 5’h00 Cb Y Cr Y 5’h01 Cr Y Cb Y 5’h02 Y Cb Y Cr 5’h03 Y Cr Y Cb 5’h04 LSC bypass, C/Y 5’h05 LSC bypass, Y/C 5’h06 RGB 565 5’h0f bypass 10bits 5’h11 only Y 5’h12 only Cb 5’h13 only Cr 5’h14 only R 5’h15 only G 5’h16 only B 5’h17 switch odd/even column /row to controls output bayer pattern 0 0 RGBG GC2035 DataSheet 26 / 51 UXGA CMOS Image Sensor P0:0x86 sync_mode P0:0x87 block_enable3 P0:0x89 bypass_mode P0:0x8a Clock gating P0:0x8b debug_mode1 GC2035 DataSheet 0 1 RGGB 10 BGGR 11 GBRG 5’h18 DNDD out mode, 5’h19 LSC out mode, 5’h1a pregain out mode 5’h1b EEINTP out mode 8 0x3f RW Synchronize signal output mode [7] data delay half [6] hsync delay half [5] allow pclk around hsync [4] allow pclk around vsync [3] opclk gated in HB 0: not gated 1: gated [2] opclk polarity 0: invert of isp_2pclk(isp_pclk) 1: same as isp_2pclk(isp_pclk) [1] hsync polarity 0: low valid 1: high valid [0] vsync polarity 0: low valid 1: high valid 5 0x00 RW [7] middle gamma [5] second DN enable [4] second DD enable [0] auto edge effect 8 0x83 RW [7] allow hsync in row tail [6] single2doublemode [5] first second switch [4] YUV420mode [3] is 8 bit bypass [2] is10 bit bypass for 8 bit data line FPGA [1:0] bypass which 8bits from 11bit, in is 8 bit bypass mode 11: [10:3]----default 10: [9:2] 01: [8:1] 00: [7:0] 8 0x81 RW Reserved 8 0xac RW [7:6] BFF gate mode 27 / 51 UXGA CMOS Image Sensor P0:0x8c debug_mode2 P0:0x8d Debug_mode3 P0:0x8e Bayer_mode P0:0x90 win_mode_buf P0:0x91 Crop_win High P0:0x92 _y1[11:0] Low P0:0x93 Crop_win High P0:0x94 _x1[11:0] Low P0:0x95 out_win_h High P0:0x96 eight[10:0]Low P0:0x97 out_win_ High P0:0x98 width[10:0 Low ] P0:0x99 subsample P0:0x9a Sub_mode GC2035 DataSheet [5:4] YUV BFF gate mode [3:2] pipe gate mode [1] AWB gain mode [0] hide_2_clk_mode 8 0x00 RW [7] low light Y ratio [6] skin Y Map [5] skin show halo mode [4] skin map [3] test image mode 1: UXGA 0: VGA [2] input test image [1] LSC test image [0] test image after EEINP 8 0x01 RW [7:4] test image fix value [3] test image fix value mode [2] close INBF clock [1] NA [0] update gain mode 8 0x18 RW [7] YUV420_legacy_mode [6] odd even row switch [5] odd even column switch [4:0] out count limit 1 0x00 RW [7:1] NA [0] Crop out Window mode 4 0x00 RW Crop_win_y1 8 0x00 RW 4 0x00 RW Crop_win_x1 8 0x00 RW 3 0x04 RW Out window height[10:8] 8 0Xb0 RW Out window height[7:0] 3 0x06 RW Out window width[10:8] 8 0x40 RW Out window width[7:0] 8 0x11 RW [7:4]subsample row ratio [3:0]subsample col ratio 6 0x06 RW [5] use or cut row [4] use or cut col [3] smooth Y [2] smooth Chroma [1] neighbor average mode [0] subsample extend opclk 28 / 51 UXGA CMOS Image Sensor P0:0x9b Sub_row_N1 8 P0:0x9c Sub_row_N2 8 P0:0x9d Sub_row_N3 8 P0:0x9e Sub_row_N4 8 P0:0x9f Sub_col_N1 8 P0:0xa0 Sub_col_N2 8 P0:0xa1 Sub_col_N3 8 P0:0xa2 Sub_col_N4 8 P0:0xc8 output_buf_enable 7 able Y_scaler_binning_ enable Y_scaler_enable Y_scaler_base 0x02 0x04 0x00 0x00 0x02 0x04 0x00 0x00 0x05 RW [7:4] subrownum1 [3:0] subrownum2 RW [7:4] subrownum3 [3:0] subrownum4 RW [7:4] subrownum5 [3:0] subrownum6 RW [7:4] subrownum7 [3:0] subrownum8 RW [7:4] subcolnum1 [3:0] subcolnum2 RW [7:4] subcolnum3 [3:0] subcolnum4 RW [7:4] subcolnum5 [3:0] subcolnum6 RW [7:4] subcolnum7 [3:0] subcolnum8 RW [6] output buffer enable [5] Y scalar binning enable [4] Y scalar enable [3:0] Y scalar base 4/5/6/7/8, scalar ratio = 2/scalar base Ratio=0.4,out=640x480 BLK Address Name Width Default R/W Description Value P0:0x40 Blk_mode1 8 0x23 RW [7] not smooth [6:4] BLK smooth speed [3] piece wise sdark [2] dark current mode [1] dark current enable [0] offset enable P0:0x41 BLK_mode2 8 0x09 RW Reserved P0:0x42 BLK limit value 7 0x7f RW [7] NA [6:0] When Dark data big than it, while get this to replace it for protect dark data. low align 11bits P0:0x43 Black compress 7 0x00 RW [7] Black compress enable enable [6:0] global offset Global offset P0:0x44 current_G1_offset 7 0x74 RO [7] NA GC2035 DataSheet 29 / 51 UXGA CMOS Image Sensor _odd_offset1 P0:0x45 current_G1_offset 7 _even_offset1 P0:0x46 current_R1_offset 7 _odd_offset1 P0:0x47 current_R1_offset 7 _even_offset1 P0:0x48 current_B2_offset 7 _odd_offset1 P0:0x49 current_B2_offset 7 _even_offset1 P0:0x4A current_G2_offset 7 _odd_offset1 P0:0x4B current_G2_offset 7 _even_offset1 P0:0x54 current_G1_offset 7 _odd_dark_current P0:0x55 current_G1_offset 7 _even_dark_curre nt P0:0x56 current_R1_offset 7 _odd_dark_current P0:0x57 current_R1_offset 7 _even__dark_curr ent P0:0x58 current_B2_offset 7 _odd_dark_current P0:0x59 current_B2_offset 7 _even_dark_curre nt P0:0x5a current_G2_offset 7 _odd_dark_current P0:0x5b current_G2_offset 7 _even_dark_curre nt P0:0x5c Exp_rate_darkc 8 P0:0x5d Offset_sub_ 8 mode Darkc_submode P0:0x5e offset_ratio_G1_o 6 dd_temp 0x7c 0x7c 0x7c 0x7c 0x7c 0x7c 0x7c 0x3f 0x3b [6:0] current G1 offset odd offset1 RO [7] NA [6:0] current G1 offset even offset1 RO [7] NA [6:0] current R offset odd offset1 RO [7] NA [6:0] current R offset even offset1 RO [7] NA [6:0] current B offset odd offset1 RO [7] NA [6:0] current B offset even offset1 RO [7] NA [6:0] current G2 offset odd offset1 RO [7] NA [6:0] current G2 offset even offset1 RO [7] NA [6:0] current G1 offset odd dark current RO [7] NA [6:0] current G1offset even dark current 0x44 0x40 RO [7] NA [6:0] current R1offset odd dark current RO [7] NA [6:0] current R1offset even dark current 0x45 0x41 RO [7] NA [6:0] current B1offset odd offset2 RO [7] NA [6:0] current B1offset even dark current 0x3f RO [7] NA [6:0] current G2offset odd dark current 0x3c RO [7] NA [6:0] current G2offset even dark current 0x04 0x00 RW Exp rate darkc RW [7:4] Offset sub mode [3:0] Darkc sub mode 0x16 RW [7:6]NA [5:0] 1.5bits offset_ratio_G1_odd GC2035 DataSheet 30 / 51 UXGA CMOS Image Sensor P0:0x5f offset_ratio_G1_e 6 ven_temp P0:0x60 offset_ratio_R1_o 6 dd_temp P0:0x61 offset_ratio_R1_e 6 ven_temp P0:0x62 offset_ratio_B2_o 6 dd_temp P0:0x63 offset_ratio_B2_e 6 ven_temp P0:0x64 offset_ratio_G2_o 6 dd_temp P0:0x65 offset_ratio_G2_e 6 ven_temp P0:0x66 Dark_current_ 6 G1_ ratio P0:0x67 Dark_current_R1_ 6 ratio P0:0x68 Dark_current_B2_ 6 ratio P0:0x69 Dark_current_ 6 G2_ ratio P0:0x6A manual_G1_odd_o 6 ffset P0:0x6B manual_G1_ 6 even_offset P0:0x6C manual_R1_odd_o 6 ffset P0:0x6D manual_R1_even_ 6 offset P0:0x6E manual_B2_odd_o 6 ffset P0:0x6F manual_B2_even_ 6 offset P0:0x70 manual_G2_odd_o 6 ffset P0:0x71 manual_G2_ 6 even_offset P0:0x77 black_compress 8 P0:0x78 Close frame mode 8 0x16 0x16 0x16 0x16 0x16 0x16 0x16 0x18 0x18 0x18 0x18 0x00 0x00 0x00 0x00 0x00 0x00 0x00 0x00 0xf6 0x44 RW [7:6]NA [5:0] 1.5bits offset_ratio_G1_even RW [7:6]NA [5:0] 1.5bits offset ratio R odd RW [7:6]NA [5:0] 1.5bits offset ratio R even RW [7:6]NA [5:0] 1.5bits offset ratio B odd RW [7:6]NA [5:0] 1.5bits offset ratio B even RW [7:6]NA [5:0] 1.5bits offset ratioG2odd RW [7:6]NA [5:0] 1.5bits offset ratioG2even RW [7:6]NA [5:0] 1.5bits dark current ratioG1 RW [7:6]NA [5:0] 1.5bits dark current ratio R RW [7:6]NA [5:0] 1.5bits dark current ratio B RW [7:6]NA [5:0] 1.5bits dark current ratio G2 RW [7:6] NA [5:0] S5, aligned to lower 8 of 11 bits data RW [7:6] NA [5:0] S5, aligned to lower 8 of 11 bits data RW [7:6] NA [5:0] S5, aligned to lower 8 of 11 bits data RW [7:6] NA [5:0] S5, aligned to lower 8 of 11 bits data RW [7:6] NA [5:0] S5, aligned to lower 8 of 11 bits data RW [7:6] NA [5:0] S5, aligned to lower 8 of 11 bits data RW [7:6] NA [5:0] S5, aligned to lower 8 of 11 bits data RW [7:6] NA [5:0]S5, aligned to lower 8 of 11 bits data RW [7:4] blackcompresst2 [3:0] blackcompresst1 RW [7]NA GC2035 DataSheet 31 / 51 UXGA CMOS Image Sensor Close frame num P0:0x79 Close frame num1 8 P0:0x7a Close frame num2 8 0x12 0x00 [6:4] close frame mode [3:0] close frame number RW [7:0] close frame num1 RW [7:0] close frame num2 GLOBAL/PRE/POSTGAIN Address Name Width Default R/W Description Value P0:0xa3 channel_gain_G1_ 8 0x80 RW [7:0] G1 odd Channel gain, float 1.7 odd P0:0xa4 channel_gain_G1_ 8 0x80 RW [7:0] G1 even Channel gain, float 1.7 even P0:0xa5 channel_gain_R1_ 8 0x80 RW [7:0] R1 odd Channel gain, float 1.7 odd P0:0xa6 channel_gain_R1_ 8 0x80 RW [7:0] R1 even Channel gain, float 1.7 even P0:0xa7 channel_gain_B2_ 8 0x80 RW [7:0] B2 odd channel gain, float 1.7 odd P0:0xa8 channel_gain_B2_ 8 0x80 RW [7:0] B2 even channel gain, float 1.7 even P0:0xa9 channel_gain_G2_ 8 0x80 RW [7:0] G2 odd channel gain, float 1.7 odd P0:0xaa channel_gain_G2_ 8 0x80 RW [7:0] G2 even channel gain, float 1.7 even P0:0xad R_ratio 8 0x80 RW [7:0] R ratio 1.7bits, float 1.7 P0:0xae G_ratio 8 0x80 RW [7:0] G ratio 1.7bits, float 1.7 P0:0xaf B_ratio 8 0x80 RW [7:0] B ratio 1.7bits, float 1.7 P0:0xb0 Global_gain 8 0x40 RW Global gain, float 4.4 P0:0xb1 Auto_pregain 8 0x40 RO [7:0] Controlled by AEC , can be manually controlled when disable AEC P0:0xb2 Auto_postgain 8 0x40 RO [7:0] Controlled by AEC , can be manually controlled when disable AEC P0:0xb3 AWB_R_gain 8 0x40 RO [7:0] AWB R gain float 4.4 P0:0xb4 AWB_G_gain 8 0x40 RO [7:0] AWB G gain float 4.4 P0:0xb5 AWB_B_gain 8 0x40 RO [7:0] AWB B gain float 4.4. controlled by AWB DNDD/DITHER Address Name GC2035 DataSheet Width Default R/W Value Description 32 / 51 UXGA CMOS Image Sensor P2:0x86 DN mode 8 P2:0x87 DD mode 8 P2:0x88 DN_auto_disable 8 DN_bilat_b_base P2:0x89 DN_bilat_n_base 8 DN_C_weight P2:0x8a DD_dark_bright_ 8 TH P2:0x8b DD_flat_TH 8 P2:0x8c DD_limit 8 DN_b_in_dark_in c_or_dec DD_ratio P2:0x8d DN_b_in_dark_ 8 enable DD_mm_TH P2:0x8e DN_b_in_dark_ 8 th DN_b_in_dark_ slope P2:0x8f DN skin mode 5 P2:0x9d Reserved 3 P2:0x9e Reserved 8 0x87 0x22 0x15 0x05 0x05 0x86 0xf2 0x8a 0xff RW [7:5] Auto DD mode [4] zero weight mode [3] share mode [2] Reserved [1] dn lsc mode [0] Reserved RW [7:6] bad ratio [5:4] C weight adaptive ratio [3:2] dn lsc ratio [1:0] dn b mode ratio RW [7] DN auto disable [6] NA [5:0] Fixed bilateral b value RW [7:4] DN bilat_n base [3:0] base center pixel weight RW [7:4] DD dark THD [3:0] DD bright THD RW [7:4] dd th subtract one [3:0] dd th subtract two RW [7:4] DD limit, threshold of a defect pixel [3] NA [2] DN datk mode [1:0] DD ratio RW [7] DN bin dark enable [6] DD select weight [3:0] DD mm TH RW [7:4] DN bin dark THD [3:0] DN bin dark slope 0x00 0x03 0x00 RW Reserved RW Reserved RW Reserved INTPEE (Interpolation and Edge Enhancement) Address Name P2:0x90 EEINTP mode 1 Width Default R/W Description Value 8 0x6c RW [7] edge1 mode [6] new edge mode [5] edge2 mode [4] interpolation select mode GC2035 DataSheet 33 / 51 UXGA CMOS Image Sensor P2:0x91 EEINTP mode 2 8 P2:0x92 Direction TH1 6 P2:0x93 Direction TH2 6 P2:0x94 Edge THD 8 P2:0x95 direction_diff_TH 8 P2:0x96 direction_mode 2 P2:0x97 Edge1 effect 8 Edge2 effect P2:0x98 Edge_pos_ratio 8 Edge_neg_ratio P2:0x99 Edge1_max 8 Edge1_min P2:0x9a Edge2_max 8 Edge2_min P2:0x9b Edge1_th 8 Edge2_th P2:0x9c Edge_pos_max 8 Edge_neg_max 0x00 0x08 0x03 0x00 0x83 0x00 0x48 0x88 0x81 0x81 0x22 0xf8 [3] LP interpolation enable [2] LP edge enable [1:0] LP edge mode RW Reserved RW [7:6] NA [5:0] Lower Criteria for direction detection RW [7:6] NA [5:0] Upper Criteria for direction detection RW Reserved RW [3:0] Direction diff TH1 [3:0] Direction diff TH2 RW direction_mode RW [7:4] edge1 effect [3:0] edge2 effect RW [7:4] pos edge ratio [3:0] neg edge ratio RW [7:4] edge1 max [3:0] edge1 min RW [7:4] edge2 max [3:0] edge2 min RW [7:4] edge1 threshold [3:0] edge2 threshold RW [7:4] Positive edge max [3:0] Negative edge max ASDE (auto saturation de-noise and edge enhancement) Address Name Width Default R/W Description Value P2:0xa2 ASDE_LSC_gain_ 8 0x80 RW [7:0] LSC gain decrease slope dec_slope P2:0xa3 ASDE_low_luma_ 8 0x20 RW [7:0] ASDE Offset dark THD value_th P2:0xa4 ASDE_low_luma_ 4 0x02 RW [3:0] ASDE low luminance value offset value_offset_slope slope P2:0xa5 ASDE_low_luma_ 8 0x20 RW [7:0] ASDE LSC dark THD value_LSC_th P2:0xa6 ASDE_low_luma_ 8 0x20 RW [7:0] ASDE DD dark THD value_DD_th P2:0xa7 ASDE_low_luma_ 8 0x20 RW [7:0] ASDE OT dark THD value_OT_th P2:0xa9 ASDE DN b 8 0x66 RW Reserved GC2035 DataSheet 34 / 51 UXGA CMOS Image Sensor P2:0xaa ASDE DN c 8 P2:0xab DN&EEINTP 8 mode P2:0xac Reserved 6 P2:0xad Reserved 5 P2:0xae ASDE_DD_bright 8 _th_slope ASDE_DD_limit_ slope P2:0xaf ASDE_DD_bright 8 _th ASDE_DD_limit P2:0xb0 ASDE EE low 8 P2:0xb1 ASDE EE1 high 8 P2:0xb2 ASDE edge effect 8 P2:0xb3 ASDE_auto_satur 8 ation_dec_slope P2:0xb4 ASDE_auto_satur 8 ation_low_limitAS DE_sub_saturation _slope P2:0xb5 ASDE_DD_mm_t 4 h_slope P2:0x48 Reserved 8 P2:0x49 Reserved 8 P2:0x4a Reserved 8 P2:0x38 auto_gray_dec_slo 4 pe P2:0x39 auto_gray_dec_th 8 P2:0x3a Reserved 8 P1:0xec Reserved 8 0xaa RW Reserved 0x00 RW Reserved 0x15 0x10 0x5f RO Reserved RO Reserved RW [7:4] ASDE DD bright Thd slope [3:0] ASDE DD limit slope 0x5f RO [7:4] ASDE DD bright THD [3:0] ASDE DD limit 0x12 RW Reserved 0x12 RW Reserved 0x48 RO [7:4] ASDE_edge1_effect [3:0] ASDE_edge2_effect 0x10 RW [7:4] Auto saturation decrease slope Float 6.2bit Ox31 RW [7:4] ASDE auto saturation low limit [3:0] ASDE sub saturation slope 0xaa RW [7:0] ASDE DD mm THD slope 0x04 0x01 0x79 0x08 RW Reserved RW Reserved RO Reserved RW [3:0] autogray decrease slope 0x40 RW Autograydecth 0x10 RO Reserved 0x03 RO Reserved AUTO_CC Address Name P2:0xc0 CC_mode P2:0xc1 CC_CT1_11 GC2035 DataSheet Width Default R/W Description Value 8 0x00 RW [7:6] NA [5:4] CCT mode [3:1] NA [0] CCT enable 8 0x40 RW D-light cc 35 / 51 UXGA CMOS Image Sensor P2:0xc2 CC_CT1_12 P2:0xc3 CC_CT1_13 P2:0xc4 CC_CT1_21 P2:0xc5 CC_CT1_22 P2:0xc6 CC_CT1_23 P2:0xc7 CC_CT2_11 P2:0xc8 CC_CT2_12 P2:0xc9 CC_CT2_13 P2:0xca CC_CT2_21 P2:0xcb CC_CT2_22 P2:0xcc CC_CT2_23 P2:0xcd CC_CT3_11 P2:0xce CC_CT3_12 P2:0xcf CC_CT3_13 P2:0xe3 CC_CT3_21 P2:0xe4 CC_CT3_22 P2:0xe5 CC_CT3_23 8 0x00 RW 8 0x00 RW 8 0x00 RW 8 0x40 RW 8 0x00 RW 8 0x40 RW Cwf-light,TL84-light cc 8 0x00 RW 8 0x00 RW 8 0x00 RW 8 0x40 RW 8 0x00 RW 8 0x40 RW A-light,U30-light cc 8 0x00 RW 8 0x00 RW 8 0x00 RW 8 0x40 RW 8 0x00 RW RGB GAMMA Address Name P2:0x15 Gamma_out1 P2:0x16 Gamma_out2 P2:0x17 Gamma_out3 P2:0x18 Gamma_out4 P2:0x19 Gamma_out5 P2:0x1a Gamma_out6 P2:0x1b Gamma_out7 P2:0x1c Gamma_out8 P2:0x1d Gamma_out9 P2:0x1e Gamma_out10 P2:0x1f Gamma_out11 P2:0x20 Gamma_out12 P2:0x21 Gamma_out13 P2:0x22 Gamma_out14 P2:0x23 Gamma_out15 P2:0x24 Gamma_out16 P2:0x25 Gamma_out17 P2:0x26 Gamma_out18 P2:0x27 Gamma_out19 Width Default R/W Description Value 8 0x0a RW Each out value of knee i. Knee0=2 8 0x12 RW Knee1=4 8 0x19 RW Knee2=6 8 0x1f RW Knee3=8 8 0x2c RW Knee4=12 8 0x38 RW Knee5=16 8 0x42 RW Knee6=20 8 0x4e RW Knee7=24 8 0x63 RW Knee8=32 8 0x76 RW Knee9=40 8 0x87 RW Knee10=48 8 0x96 RW Knee11=56 8 0xa2 RW Knee12=64 8 0xb8 RW Knee13 =80 8 0xca RW Knee14 = 96 8 0xd8 RW Knee15 = 112 8 0xe3 RW Knee16 = 128 8 0xf0 RW Knee17 =160 8 0xf8 RW Knee18 = 192 GC2035 DataSheet 36 / 51 UXGA CMOS Image Sensor P2:0x28 Gamma_out20 P2:0x29 Gamma_out21 8 0xfd RW Knee19 = 224 8 0xff RW Knee20 = 256 Y GAMMA Address Name Width Default R/W Description Value P2:0x2b Y_Gamma_out0 8 0x00 RW Each out value of knee i. Knee0=0 P2:0x2c Y_Gamma_out1 8 0x10 RW Knee1=8 P2:0x2d Y_Gamma_out2 8 0x1c RW Knee2=16 P2:0x2e Y_Gamma_out3 8 0x30 RW Knee3=32 P2:0x2f Y_Gamma_out4 8 0x43 RW Knee4=48 P2:0x30 Y_Gamma_out5 8 0x54 RW Knee5=64 P2:0x31 Y_Gamma_out6 8 0x65 RW Knee6=80 P2:0x32 Y_Gamma_out7 8 0x75 RW Knee7=96 P2:0x33 Y_Gamma_out8 8 0x93 RW Knee8=128 P2:0x34 Y_Gamma_out9 8 0xb0 RW Knee9=160 P2:0x35 Y_Gamma_out1 8 0xcb RW Knee10=192 0 P2:0x36 Y_Gamma_out1 8 0xe6 RW Knee11=224 1 P2:0x37 Y_Gamma_out1 8 0xff RW Knee12=256 2 YCP Address Name Width Default R/W Description Value P2:0xd0 Global saturation 8 0x40 RW [7:0] Global saturation, controlled by auto saturation P2:0xd1 saturation_Cb 8 0x30 RW [7:0] Cb saturation 3.5bits, 0x20=1.0 P2:0xd2 saturation_Cr 8 0x30 RW [7:0] Cr saturation 3.5bits, 0x20=1.0 P2:0xd3 luma_contrast 8 0x40 RW [7:0] Luma contrast P2:0xd4 Contrast center 8 0x80 RW [7:0] Contrast center value P2:0xd5 Luma_offset 8 0x00 RW [7:0] Add offset on luma value. S7. P2:0xd6 skin_Cb_center 8 0xec RW [7:0] Cb criteria for skin detection. P2:0xd7 skin_Cr_center 4 0x12 RW [7:0] Cr criteria for skin detection. P2:0xd8 Skin radius 6 0x10 RW [7:0] Defines skin range square P2:0xd9 Skin brightness 8 0xe3 RW [7:4] skin brightness high threshold GC2035 DataSheet 37 / 51 UXGA CMOS Image Sensor P2:0xda Fixed_Cb 8 P2:0xdb Fixed_Cr 8 P2:0xdc exp_under_sun_t 8 h P2:0xdd Edge sa-mode 8 P2:0xde Asde autogray 8 mode P2:0xdf saturation_sub_st 8 rength P2:0xe0 skin_bright_cent 5 er P2:0xe1 Y_delta 5 P2:0xe2 Skin_RR_halo_r 6 adius P2:0xe7 center_U 8 P2:0xe8 center_V 8 P2:0xea U_bius_div_Rad 8 ius P2:0xeb V_bius_div_Rad 8 ius P2:0xec Skin__mode 4 0x00 0x00 0x32 [3:0] skin brightness low threshold RW S7, if fixed CbCr function is enabled, current image Cb value will be replace by this value to achieve special effect RW S7, if fixed CbCr function is enabled, current image Cr value will be replace by this value to achieve special effect RW Exp under sun THD 0x08 0x38 0x00 RW [7] under sun mode [6:4] edge saturation enable [3:0] edge saturation slope RW [7] asde auto gray enable [6] NA [5:4] sa autogray mode [3:0] sa autogray RO 0x0f RW Skin bright center 0x18 0x20 0xe8 0x1f 0x2b RW Gt than 0x18 RO Chroma offset in low light Gt than 0x10 RW Amplitude of skin correction towards Cb RW Amplitude of skin correction towards Cr RW U bius div Radius 0x14 RW V bius div Radius 0x03 RW Reserved Measure Window Address Name P0:0xec big_win_x0 P0:0xed big_win_y0 P0:0xee big_win_x1 P0:0xef big_win_y1 Width Default R/W Description Value 8 0x04 RW 8 0x02 RW Big win use by AEC and AWB 8 0x60 RW 8 0x90 RW AEC GC2035 DataSheet 38 / 51 UXGA CMOS Image Sensor Address Name Width Default R/W Description Value P0:0xb6 AEC_up_enable 2 0x00 RW [7:2] NA AEC_enable [1] AEC up enable [0] AEC enable P1:0x01 aec_x1 8 0x04 RW [7:0] X16 local measure window P1:0x02 aec_x2 8 0x60 RW [7:0] X16 local measure window P1:0x03 aec_y1 8 0x02 RW [7:0] aec_y1, X8 P1:0x04 aec_y2 8 0x90 RW [7:0] aec_y2,X8 P1:0x05 aec_center_x1 8 0x20 RW [7:0] aec_center_x1, X16 P1:0x06 aec_center_x2 8 0x40 RW [7:0] aec_center_x2,X16 P1:0x07 aec_center_y1 8 0x40 RW [7:0] aec_center_y1,X8 P1:0x08 aec_center_y2 8 0x60 RW [7:0] aec_center_y2,X8 P1:0x09 AEC_mode 8 0x40 RW [7] Reserved P1:0x0a AEC_mode1 8 0x01 RW [7] low light mode, [6] measure point [5] exposure mode [4] fix frame rate mode [3:2] EC parameters [1:0] skip mode P1:0x0b AEC_mode2 8 0x21 RW [7] fix target [6:4] AEC take action every N frame [3:2] close frame number to eliminate bad frame [1] change exposure gain mode [0] Reserved P1:0x0c AEC_mode3 8 0x01 RW [7] map measure point [6:4] center weight mode [3:2] skin weight mode [1] raw skip mode [0] fix target high P1:0x0d AEC_mode4 8 0x00 RW [7] new exposure mode [6:4] new exposure mode index [3:0] Reserved P1:0x0e AEC_thd[7:0] 8 0x40 RW AEC parameters P1:0x0f AEC_thd[15:8] 8 0x60 RW AEC parameters P1:0x10 skin_exp_thd 8 0x09 RW Skin mode exposure thd P1:0x11 AEC_slope 8 0x40 RW AEC Y target slope P1:0x12 AEC_target_skin 8 0x60 RW AEC target skin P1:0x13 AEC_target_Y 8 0x50 RW expected luminance value P1:0x14 Y_average 8 0x80 RO Current frame luminance average GC2035 DataSheet 39 / 51 UXGA CMOS Image Sensor P1:0x15 AEC_high_low 8 _range P1:0x16 AEC_number_li 8 mit_high_range P1:0x17 AEC_ignore 8 P1:0x18 AEC_slow_marg 8 in AEC_slow_spee d P1:0x19 AEC_fast_margi 8 n AEC_fast_speed P1:0x1a AEC_exp_chang 8 e _gain_ratio P1:0x1b AEC_step2_sunl 8 ight P1:0x1c AEC_I_frames 6 AEC_D_ratio P1:0x1d AEC_I_stop_L 7 _margin P1:0x1e AEC_I_stop_ma 8 rgin AEC_I_ratio P1:0x1f AEC_max_postg 8 ain P1:0x20 AEC_max_pregg 8 ain P1:0x21 AEC_ASDE_sel 8 ect_luma_value AEC_low_light_ exp_THD_max[ 12:8] P1:0x22 AEC_low_light_ 8 GC2035 DataSheet 0xf2 0x35 RW [7:4] x16, count limit for high luminance pixels [3:0] x4, count limit for low luminance pixels RW AEC number limit high range 0x18 0x9 0x1 RW [7] high luminance limit mode [6] only center limit mode [5:4] aec ignore enable [3:0] ignore same level RW [7:4] AEC slow margin, X4 [2:0] AEC slow speed 0x96 0x96 0x01 RW [7:4] AEC fast margin, X4 [3] NA [2:0] AEC fast speed RW Gain change criteria, float 1.7, default use 1.2x RW AEC step2 sunlight 0x33 0x07 0x61 RW [7:6] NA [5:4] mode for Y difference selection [3:0] differential coefficient in AEC control algorithm RW [7] NA [6:0] x2, Will be used as AEC convergence margin when P0:0xd1[0]=0 RW [7:4] AEC adjust stop margin [3:0] integration coefficient 0xc0 RW Max postgain 2.6, 3X 0x60 RW Max pregain 2.6, 1.5X 0x8f RW [7:5] select div luminance value [4:0]AEC low light exposure THD max 0x00 RW dbrow enter mode 40 / 51 UXGA CMOS Image Sensor exp_THD_max[ 7:0] P1:0x23 AEC_low_light_ 5 exp_THD_min[1 2:8] P1:0x24 AEC_low_light_ 8 exp_THD_min[7 :0] P1:0x25 AEC_low_light_ 8 gain_High P1:0x26 AEC_low_light_ 8 gain_Low P1:0x27 AEC_anti_flicke 8 r_step[12:8] P1:0x28 AEC_anti_flicke 8 r_step[7:0] P1:0x29 AEC_exp_level_ 8 1[12:8] P1:0x2a AEC_exp_level_ 8 1[7:0] P1:0x2b AEC_exp_level_ 8 2[12:8] P1:0x2c AEC_exp_level_ 8 2[7:0] P1:0x2d AEC_exp_level_ 8 3[12:8] P1:0x2e AEC_exp_level_ 8 3[7:0] P1:0x2f AEC_exp_level_ 8 4[12:8] P1:0x30 AEC_exp_level_ 8 4[7:0] P1:0x31 AEC_exp_level_ 8 5[12:8] P1:0x32 AEC_exp_level_ 8 5[7:0] P1:0x33 AEC_exp_level_ 8 6[12:8] P1:0x34 AEC_exp_level_ 8 6[7:0] P1:0x35 AEC_exp_level_ 8 0x06 RW aec low light invalid exposure thd dbrow exit mode, exp/2 0x40 RW 0x40 RW 3.5bits aec low light valid gain THD 0x30 RW 3.5bits aec low light invalid gain THD 0x01 0x68 RW [7:5]NA [4:0] AEC anti flicker step[12:8] RW AEC anti flicker step[7:0] 0x04 0x38 RW [7:5] NA [4:0] AEC exposure level1[12:8] RW AEC exposure level1[7:0] 0x05 0xa0 RW [7:5] NA [4:0] AEC exposure level2[12:8] RW AEC exposure level2[7:0] 0x09 0xd8 RW [7:5] NA [4:0] AEC exposure level3[12:8] RW AEC exposure level_3[7:0] 0x0e 0x10 RW [7:5] NA [4:0] AEC exposure level 4[12:8] RW AEC exposure level 4 [7:0] 0x10 0xe0 RW [7:5] NA [4:0] AEC exposure level 5[12:8] RW AEC exposure level 5 [7:0] 0x1c 0x20 RW [7:5] NA [4:0] AEC exposure level 6[12:8] RW AEC exposure level 6[7:0] 0x1c RW [7:5] NA GC2035 DataSheet 41 / 51 UXGA CMOS Image Sensor 7[12:8] P1:0x36 AEC_exp_level_ 8 7[7:0] P1:0x37 AEC_max_dg_g 8 ain1 P1:0x38 AEC_max_dg_g 8 ain2 P1:0x39 AEC_max_dg_g 8 ain3 P!:0x3a AEC_max_dg_g 8 ain4 P1:0x3b AEC_max_dg_g 8 ain5 P1:0x3c AEC_max_dg_g 8 ain6 P1:0x3d AEC_max_dg_g 8 ain7 P1:0x3e AEC_max_exp_l 8 evel AEC_exp_min_l [12:8] P1:0x3f AEC_exp_min_l 8 [7:0] P1:0x40 L_AEC_anti_flic 8 ker_step[12:8] P1:0x41 L_AEC_anti_flic 8 ker_step[7:0] P1:0x42 L_AEC_exp_lev 8 el_1[12:8] P1:0x43 L_AEC_exp_lev 8 el_1[7:0] P1:0x44 L_AEC_exp_lev 8 el_2[12:8] P1:0x45 L_AEC_exp_lev 8 el_2[7:0] P1:0x46 L_AEC_max_ex 2 p_level P1:0x47 AEC parameters 8 [4:0] AEC exposure level7[12:8] 0x20 RW AEC exposure level 7[7:0] 0x40 RW 4.4bits, AEC max dg gain1 0x40 RW 4.4bits, AEC max dg gain2 0x40 RW 4.4bits, AEC max dg gain3 0x40 RW 4.4bits, AEC max dg gain4 0x40 RW 4.4bits, AEC max dg gain5 0x40 RW 4.4bits, AEC max dg gain6 0x40 RW 4.4bits, AEC max dg gain7 0x20 RW [6:5] Max level setting [4:0] exposure min[12:8] 0x04 RW exposure min[7:0] 0x00 0xb4 RW [7:5] NA [4:0] Low light AEC anti flicker step[12:8] RW Low light AEC anti flicker step[7:0] 0x02 0x1c RW [7:5] NA [4:0] Low light AEC exposure level1[12:8] RW In low light exposure level 1 0x02 0xd0 RW [7:5] NA [4:0] Low light AEC exposure level 2[12:8] RW In low light exposure level 2 0x01 RW Low light AEC max exposure level 0x80 RW AEC parameters GC2035 DataSheet 42 / 51 UXGA CMOS Image Sensor P1:0x48 AEC parameters 8 0x40 RW AEC parameters AWB Address Name Width Default R/W Description Value P1:0x50 AWB PRE mode 8 0x00 RW [7] PRE enable [6:0] Reserved P1:0x51 AWB parameters 8 0x80 RW AWB parameters P1:0x52 AWB parameters 8 0x01 RW AWB parameters P1:0x53 AWB parameters 8 P1:0x54 AWB parameters 8 P1:0x55 AWB parameters 8 P1:0x56 AWB parameters 8 P1:0x57 AWB parameters 8 P1:0x58 AWB parameters 8 P1:0x59 AWB parameters 8 P1:0x5a AWB parameters 8 P1:0x5b AWB parameters 8 P1:0x5c AWB parameters 8 P1:0x5d AWB parameters 8 P1:0x5e AWB parameters 8 P1:0x5f AWB parameters 8 P1:0x60 AWB parameters 6 P1:0x61 AWB parameters 8 P1:0x62 AWB parameters 8 P1:0x63 AWB parameters 4 P1:0x65 Reserved P1:0x66 Reserved P1:0x67 Reserved P1:0x68 Reserved P1:0x69 Reserved P1:0x6a Reserved P1:0x6b Reserved P1:0x6c Reserved P1:0x6d Reserved P1:0x6e Reserved P1:0x6f Reserved P1:0x70 AWB parameters 8 P1:0x71 AWB parameters 8 P1:0x72 AWB parameters 8 0x80 0x0f 0x00 0x00 0x20 0x00 0x01 0xf0 0x0f 0xf0 0x01 0xa4 0x8a 0x00 0xdc 0xca 0x00 0xff 0x10 0x18 RW AWB parameters RW AWB parameters RW AWB parameters RW AWB parameters RW AWB parameters RW AWB parameters RW AWB parameters RW AWB parameters RW AWB parameters RW AWB parameters RW AWB parameters RW AWB parameters RW AWB parameters RW AWB parameters RW AWB parameters RW AWB parameters RW AWB parameters RO Reserved RO Reserved RO Reserved RO Reserved RO Reserved RO Reserved RO Reserved RO Reserved RO Reserved RO Reserved RO Reserved RW AWB parameters RW AWB parameters RW AWB parameters GC2035 DataSheet 43 / 51 UXGA CMOS Image Sensor P1:0x73 AWB parameters 8 P1:0x74 AWB parameters 8 P1:0x75 AWB parameters 8 P1:0x76 AWB parameters 8 P1:0x77 AWB parameters 8 P1:0x78 AWB parameters 8 P1:0x79 AWB parameters 8 P1:0x7a AWB parameters 8 P1:0x7b AWB parameters 8 P1:0x7c AWB parameters 8 P1:0x7d AWB parameters 8 P1:0x7e AWB parameters 8 P1:0x7f AWB parameters 8 P1:0x80 AWB parameters 8 P1:0x81 AWB parameters 8 P1:0x84 AWB_skip_mod 4 e P1:0x85 AWB parameters 8 P1:0x86 AWB parameters 8 P1:0x87 AWB parameters 6 P1:0x88 show_and_mode 8 P1:0x89 adjust_speed 8 adjust_margin P1:0x8a AWB_move_mo 8 de P1:0x8b AWB parameters 8 P1:0x8c AWB parameters 8 P1:0x8d AWB_R_gain_li 8 mit P1:0x8e AWB_G_gain_li 8 mit P1:0x8f AWB_B_gain_li 8 mit P1:0x90 Reserved 8 P1:0x91 Reserved 8 P1:0x92 Reserved 8 0x10 0x20 0xf8 0x10 0x10 0xf8 0xff 0xff 0x00 0xfe 0x00 0x00 0x00 0x12 0xa0 0x00 0x60 0x30 0x22 0x0f 0x42 0x00 0x00 0x00 0x70 0x58 RW AWB parameters RW AWB parameters RW AWB parameters RW AWB parameters RW AWB parameters RW AWB parameters RW AWB parameters RW AWB parameters RW AWB parameters RW AWB parameters RW AWB parameters RW AWB parameters RW AWB parameters RW AWB parameters RW AWB parameters RW [7:2] Reserved [1:0]AWB skip mode RW AWB parameters RW AWB parameters RW [5:4] adjust every frame [3:0] Reserved RW Reserved RW [7] NA [6:4] AWB gain adjust speed, the bigger the quicker. [3:0] if average of R/G/B’s difference is smaller than margin, it means AWB is OK, and AWB will stop. RW [7] move mode enable [6:0] AWB move THD RW AWB parameters RW AWB parameters RW Channel gain limit for R, G, B. Float 2.6 RW 0x78 RW 0x50 0x58 0x46 RW Reserved RW AWB parameters RW AWB parameters GC2035 DataSheet 44 / 51 UXGA CMOS Image Sensor P1:0x93 Reserved P1:0x94 Reserved P1:0x95 Reserved P1:0x96 Reserved P1:0x97 Reserved P1:0x98 Reserved 8 0x40 RW AWB parameters 8 0x40 RW AWB parameters 8 0x40 RW AWB parameters 8 0x40 RW AWB parameters 8 0x40 RW AWB parameters 8 0x40 RW AWB parameters ABS Address Name Width Default R/W Description Value P1:0x9a ABS mode 8 0xf3 RW Reserved P1:0x9b ABS_stop_margi 4 0x02 RW [7:4] NA n [3:0] margin for ABS to stop adjustment P1:0x9c ABS_manual_K 8 0x00 RW [7:4] Reserved [3:0] manual ABS slope adjustment, default 0 P1:0x9d Y_stretch_limit 8 0x40 RW [7:0] Y stretch limit P1:0x9e Reserved RO Reserved P1:0x9f Reserved RO Reserved LSC Address Name Width Default R/W Description Value P1:0xa0 LSC_row_x2 8 0x03 RW [7:6] NA LSC_col_x2 [5] LSC_row_x2 auto_LSC_AWB [4] LSC_col_x2 LSC_ADlight_p [3] Reserved arameter_select [2] LSC AD light parameter select LSC_pixel_array [1:0] LSC pixel array select _select P1:0xa1 LSC_row_center 8 0x80 RW LSC row center P1:0xa2 LSC_col_center 8 0x80 RW LSC col center P1:0xa4 LSC_Sign1 P1:0xa5 LSC_Sign2 8 0x00 RW [6] LSC_Q1_red_b1_sign [5] LSC_Q1_green_b1_sign [4] LSC_Q1_blue_b1_sign [2] LSC_Q2_red_b1_sign [1] LSC_Q2_green_b1_sign [0] LSC_Q2_blue_b1_sign 8 0x00 RW [6] LSC_Q3_red_b1_sign GC2035 DataSheet 45 / 51 UXGA CMOS Image Sensor P1:0xa6 LSC_Sign3 8 P1:0xa7 LSC_Sign4 8 P1:0xa8 LSC_Sign5 8 P1:0xa9 LSC_Sign6 8 P1:0xaa LSC_Q1_red_b1 8 _0 P1:0xab LSC_Q1_green_ 8 b1 P1:0xac LSC_Q1_blue_b 8 1 P1:0xad LSC_Q2_red_b1 8 _0 P1:0xae LSC_Q2_green_ 8 b1 P1:0xaf LSC_Q2_blue_b 8 1 P1:0xb0 LSC_Q3_red_b1 8 GC2035 DataSheet 0x00 0x00 0x00 0x00 0x20 [5] LSC_Q3_green_b1_sign [4] LSC_Q3_blue_b1_sign [2] LSC_Q4_red_b1_sign [1] LSC_Q4_green_b1_sign [0] LSC_Q4_blue_b1_sign RW [6] LSC_right_red_b4_sign [5] LSC_right_green_b4_sign [4] LSC_right_blue_b4_sign [2] LSC_left_red_b4_sign [1] LSC_left_green_b4_sign [0] LSC_left_blue_b4_sign RW [6] LSC_up_red_b4_sign [5] LSC_up_green_b4_sign [4] LSC_up_blue_b4_sign [2] LSC_down_red_b4_sign [1] LSC_down_green_b4_sign [0] LSC_down_blue_b4_sign RW [6] LSC_right_up_red_b22_sign [5] LSC_right_up_green_b22_sign [4] LSC_right_up_blue_b22_sign [2] LSC_right_down_red_b22_sign [1] LSC_right_down_green_b22_sign [0] LSC_right_down_blue_b22_sign RW [6] LSC_left_up_red_b22_sign [5] LSC_left_up_green_b22_sign [4] LSC_left_up_blue_b22_sign [2] LSC_left_down_red_b22_sign [1] LSC_left_down_green_b22_sign [0] LSC_left_down_blue_b22_sign RW LSC Q1 red b10 0x20 RW LSCQ1 green b1 0x20 RW LSC Q1 blue b1 0x20 RW LSC Q2 red b10 0x20 RW LSC Q2 green b1 0x20 RW LSC Q2 blue b1 0x20 RW LSC Q3 red b10 46 / 51 UXGA CMOS Image Sensor _0 P1:0xb1 LSC_Q3_green_ 8 b1 P1:0xb2 LSC_Q3_blue_b 8 1 P1:0xb3 LSC_Q4_red_b1 8 _0 P1:0xb4 LSC_Q4_green_ 8 b1 P1:0xb5 LSC_Q4_blue_b 8 1 P1:0xb6 LSC_right_red_b 8 2_0 P1:0xb7 LSC_right_green 8 _b2 P1:0xb8 LSC_right_blue_ 8 b2 P1:0xb9 LSC_right_red_b 8 4_0 P1:0xba LSC_right_green 8 _b4 P1:0xbb LSC_right_blue_ 8 b4 P1:0xbc LSC_left_red_b2 8 _0 P1:0xbd LSC_left_green_ 8 b2 P1:0xbe LSC_left_blue_b 8 2 P1:0xbf LSC_left_red_b4 8 _0 P1:0xc0 LSC_left_green_ 8 b4 P1:0xc1 LSC_left_blue_b 8 4 P1:0xc2 LSC_up_red_b2 8 _0 P1:0xc3 LSC_up_green_ 8 b2 P1:0xc4 LSC_up_blue_b 8 2 0x20 RW LSC Q3 green b1 0x20 RW LSC Q3 blue b1 0x20 RW LSC Q4 red b10 0x20 RW LSC Q4 green b1 0x20 RW LSC Q4 blue b1 0x20 RW LSC right red b20 0x20 RW LSC right green b2 0x20 RW LSC right blue b2 0x20 RW LSC right red b40 0x20 RW LSC right greenb4 0x20 RW LSC right blue b4 0x20 RW LSC left red b20 0x20 RW LSC left green b2 0x20 RW LSC left blue b2 0x20 RW LSC left red b40 0x20 RW LSC left green b4 0x20 RW LSC left blue b4 0x20 RW LSC up red b20 0x20 RW LSC up green b2 0x20 RW LSC up blue b2 GC2035 DataSheet 47 / 51 UXGA CMOS Image Sensor P1:0xc5 LSC_up_red_b4 8 _0 P1:0xc6 LSC_up_green_ 8 b4 P1:0xc7 LSC_up_blue_b 8 4 P1:0xc8 LSC_down_red_ 8 b2_0 P1:0xc9 LSC_down_gree 8 n_b2 P1:0xca LSC_down_blue 8 _b2 P1:0xcb LSC_down_red_ 8 b4_0 P1:0xcc LSC_down_gree 8 n_b4 P1:0xcd LSC_down_blue 8 _b4 P1:0xd0 LSC_right_up_re 8 d_b22_0 P1:0xd1 LSC_right_up_re 8 d_b22_1 P1:0xd2 LSC_right_up_g 8 reen_b22_0 P1:0xd3 LSC_right_up_bl 8 ue_b22_0 P1:0xd4 LSC_right_down 8 _red_b22_0 P1:0xd5 LSC_right_down 8 _red_b22_1 P1:0xd6 LSC_right_down 8 _green_b22_0 P1:0xd7 LSC_right_down 8 _blue_b22_0 P1:0xd8 LSC_left_up_red 8 _b22_0 P1:0xd9 LSC_left_up_red 8 _b22_1 P1:0xda LSC_left_up_gre 8 en_b22_0 P1:0xdb LSC_left_up_blu 8 0x20 RW LSC up red b40 0x20 RW LSC up green b4 0x20 RW LSC up blue b4 0x20 RW LSC down red b20 0x20 RW LSC down green b2 0x20 RW LSC down blue b2 0x20 RW LSC down red b40 0x20 RW LSC down green b4 0x20 RW LSC down blue b4 0x20 RW LSC right up red b220 0x20 RW LSC right up red b221 0x20 RW LSC right up green b220 0x20 RW LSC right up blue b220 0x20 RW LSC right down red b220 0x20 RW LSC right down red b221 0x20 RW LSC right down green b220 0x20 RW LSC right down Blue b220 0x20 RW LSC left up red b220 0x20 RW LSC left up red b221 0x20 RW LSC left up green b22_0 0x20 RW LSC left up blue b220 GC2035 DataSheet 48 / 51 UXGA CMOS Image Sensor e_b22_0 P1:0xdc LSC_left_down_ 8 red_b22_0 P1:0xdd LSC_left_down_ 8 red_b22_1 P1:0xde LSC_left_down_ 8 green_b22_0 P1:0xdf LSC_left_down_ 8 blue_b22_0 P1:0xe0 LSC_Q1_red_b1 8 _1 P1:0xe1 LSC_Q2_red_b1 8 _1 P1:0xe2 LSC_Q3_red_b1 8 _1 P1:0xe3 LSC_Q4_red_b1 8 _1 P1:0xe4 LSC_right_red_b 8 2_1 P1:0xe5 LSC_right_red_b 8 4_1 P1:0xe6 LSC_left_red_b2 8 _1 P1:0xe7 LSC_left_red_b4 8 _1 P1:0xe8 LSC_up_red_b2 8 _1 P1:0xe9 LSC_up_red_b4 8 _1 P1:0xea LSC_down_red_ 8 b2_1 P1:0xeb LSC_down_red_ 8 b4_1 P1:0x4a LSC_right_green 8 _b4_1 P1:0x4b LSC_left_green_ 8 b4_1 P1:0x4c LSC_up_green_ 8 b4_1 P1:0x4d LSC_down_gree 8 n_b4_1 0x20 RW LSC left down red b220 0x20 RW LSC left down red b221 0x20 RW LSC left down green b220 0x20 RW LSC left down blue b220 0x20 RW LSC Q1 red b11 0x20 RW LSC Q2 red b11 0x20 RW LSC Q3 red b11 0x20 RW LSC Q4 red b11 0x20 RW LSC right red b21 0x20 RW LSC right red b41 0x20 RW LSC left red b21 0x20 RW LSC left red b41 0x20 RW LSC up red b21 0x20 RW LSC up red b41 0x20 RW LSC down red b21 0x20 RW LSC down red b41 0x20 RW LSC right green b41 0x20 RW LSC left green b41 0x20 RW LSC up green b41 0x20 RW LSC down green b41 GC2035 DataSheet 49 / 51 UXGA CMOS Image Sensor P1:0x4e LSC_right_up_g 8 reen_b22_1 P1:0x4f LSC_right_down 8 _green_b22_1 P1:0xce LSC_left_up_gre 8 en_b22_1 P1:0xcf LSC_left_down_ 8 green_b22_1 0x20 RW LSC right up green b221 0x20 RW LSC right down green b221 0x20 RW LSC left up green b221 0x20 RW LSC left down green b221 GC2035 DataSheet 50 / 51 UXGA CMOS Image Sensor Revision History Version1.0 2012.09.07  Document Release GC2035 DataSheet 51 / 51

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