VmodCAM 初始化

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; WIP Last Changed Rev: 2172;**************************************************************************************       ; Copyright 2011 Aptina Imaging Corporation. All rights reserved.                             ;                                                                                             ;                                                                                             ; No permission to use, copy, modify, or distribute this software and/or                      ; its documentation for any purpose has been granted by Aptina Imaging Corporation.           ; If any such permission has been granted ( by separate agreement ), it                       ; is required that the above copyright notice appear in all copies and                        ; that both that copyright notice and this permission notice appear in                        ; supporting documentation, and that the name of Aptina Imaging Corporation or any            ; of its trademarks may not be used in advertising or publicity pertaining                    ; to distribution of the software without specific, written prior permission.                 ;                                                                                             ;                                                                                             ;      This software and any associated documentation are provided "AS IS" and                ;      without warranty of any kind.   APTINA IMAGING CORPORATION EXPRESSLY DISCLAIMS         ;      ALL WARRANTIES EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO, NONINFRINGEMENT       ;      OF THIRD PARTY RIGHTS, AND ANY IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS        ;      FOR A PARTICULAR PURPOSE.  APTINA DOES NOT WARRANT THAT THE FUNCTIONS CONTAINED        ;      IN THIS SOFTWARE WILL MEET YOUR REQUIREMENTS, OR THAT THE OPERATION OF THIS SOFTWARE   ;      WILL BE UNINTERRUPTED OR ERROR-FREE.  FURTHERMORE, APTINA DOES NOT WARRANT OR          ;      MAKE ANY REPRESENTATIONS REGARDING THE USE OR THE RESULTS OF THE USE OF ANY            ;      ACCOMPANYING DOCUMENTATION IN TERMS OF ITS CORRECTNESS, ACCURACY, RELIABILITY,         ;      OR OTHERWISE.                                                                          ;*************************************************************************************/       ; Default INI file for the A-2020SOC-REV3 ;; $Revision: 28073 $; $Date: 2011-05-24 14:58:00 -0700 (Tue, 24 May 2011) $ ;; This file holds groups of register presets (sections) specific for this sensor. The ; presets allow you to overwrite the power-on default settings with optimized register ; settings. ; The [Demo Initialization] section contains all optimized register settings for running; the sensor in the demo environment. Other sections include settings optimized for a; variety of situations like: Running at different master clock speeds, running under; different lighting situations, running with different lenses, etc.; Most of the demonstration software (DevWare, SensorDemo, ...) make use of this file; to load and store the user presets.;; Keyname description:; REG      = assign a new register value; BITFIELD = do a READ-MODIFY-WRITE to part of a register. The part is defined as a mask.; FIELD_WR = Write any register, variable or bitfield, specified by its symbol name; LOAD     = load an alternate section from this section; STATE    = set non-register state; DELAY    = delay a certain amount of milliseconds before continuing ; POLL_REG = Read a register a specified number of times, or until the register;            value no longer meets a specified condition. You specify the;            register by its address, and it only works with simple registers.;            You also specify a delay between each iteration of the loop.; POLL_FIELD = Like POLL_REG except you specify the register by its symbol name;            as defined in the sensor data file. POLL_FIELD works with any kind;            of register or variable.;; Keyname format:; REG      = [<page>,] <address>, <value>             //<comment>; BITFIELD = [<page>,] <address>, <mask>, <value>;            Some examples: ;            BITFIELD=2, 0x05, 0x0020, 1 //for register 5 on page 2, set the 6th bit to 1;            BITFIELD=0x06, 0x000F, 0    //for register 6, clear the first 4 bits; FIELD_WR = <registername>, [<bitfieldname>,] <value>; LOAD     = <section>; STATE    = <state>, <value>; DELAY    = <milliseconds>; POLL_REG = [<page>,]<address>,<mask>,<condition>,DELAY=<milliseconds>,TIMEOUT=<count> //<comment>;            Example:  Poll every 50ms, stop when value <= 8 or after 5 times (250ms).;            POLL_REG= 2, 0x3F, 0xFFFF, >8, DELAY=50, TIMEOUT=5; POLL_FIELD = <registername>, [<bitfieldname>,] <condition>, DELAY=<milliseconds>, TIMEOUT=<count> //<comment>;            Example:  Poll every 10 ms, stop when the value = 0, or after 500ms.;            POLL_FIELD= SEQ_CMD, !=0, DELAY=10, TIMEOUT=50;; <page>         Optional address space for this register. Some sensors (mostly SOC's);                have multiple register pages (see the sensor spec or developer's guide); <address>      the register address; <value>        the new value to assign to the register; <mask>         is the part of a register value that needs to be updated with a new value; <registername> Name of a register or variable as defined the sensor data (.sdat) file; <bitfieldname> Optional name of a bitfield; <condition>    <  <=  ==  !=  >  or  >=  followed by a numerical value; <count>        Number of iterations of the polling loop; <section>      the name of another section to load; <state>        non-register program state names [do not modify]; <milliseconds> wait for this ammount of milliseconds before continuing ; <comment>      Some form of C-style comments are supported in this .ini file;;*************************************************************************************/[Reset]//-------------------------------------// Reset Image Sensor by Resetting MCU//-------------------------------------FIELD_WR=MCU_BOOT_MODE, RESET_MCU, 1  //RESET_MCU  stop MCUFIELD_WR=MCU_BOOT_MODE, RESET_MCU, 0  //RESET_MCU  start MCUDELAY=100[Demo Initialization]//-----------------------------------------------------------// This Section Loads all the defaults from the sub-sections//-----------------------------------------------------------LOAD=PowerupDELAY=500LOAD=PLL Setup 24Mhz/80Mhz OutLOAD=Lens Correction_Largan 971ALOAD=LUT_ModerateLOAD=AELOAD=ModeLOAD=Sequencer_Optimized_HiSat_SharpLOAD=Noise Reduction Test;LOAD=Low Power Preview 15 FPSLOAD=State SetupLOAD=Refresh// Resync FPS reportingDELAY= 20STATE= Detect Master Clock, 1[Powerup]//---------------------------------------------// Per default the sensor comes up in standby, // this enables the image output//---------------------------------------------REG=0x301A,0x0ACC                  //Reset RegisterFIELD_WR= STANDBY_CONTROL,0x0008   //Allow Standby  [Refresh]//---------------------------------------// This Section refreshes the variables//---------------------------------------REG= 0x338C, 0xA103 // MCU_ADDRESS [SEQ_CMD]REG= 0x3390, 0x0005 // MCU_DATA_0DELAY=500//Wait[State Setup]//---------------------------------------//These settings are used by DevWare to //Desplay the correct framerate and select//The correct image capture mode//----------------------------------------STATE=Still Mode, 1//STATE=Num Capture Frames, 4//STATE=Still Capture Average, 1STATE=Save 24bpp BMP, 1STATE=Save RAW, 0STATE=Save TXT, 1STATE=Save HEX, 0STATE=Save RAW TIFF, 0STATE=Save 48bpp COLOR TIFF, 0STATE=Save RAW JPEG, 0STATE=Save BMP Info, 0STATE=Display Zoom, 4[Viewfinder ON]FIELD_WR = SEQ_CAP_MODE, VIDEO, 0 //VIDEO OffFIELD_WR = SEQ_CMD, 1          //Back to preview[Viewfinder OFF]FIELD_WR = SEQ_CAP_MODE, VIDEO, 1 //VIDEO OnFIELD_WR = SEQ_CMD, 2          //Capture on[Video Capture ON]FIELD_WR = SEQ_CAP_MODE, VIDEO, 1 //VIDEO OnFIELD_WR = SEQ_CMD, 2          //Capture on[Video Capture OFF]FIELD_WR = SEQ_CMD, 1          //Back to preview[Enable Capture with LED Flash]REG= 0x338C, 0xA106 // MCU_ADDRESS [SEQ_FLASHTYPE]REG= 0x3390, 0x0001 // MCU_DATA_0REG= 0x338C, 0xA135 // MCU_ADDRESS [SEQ_PREVIEW_2_FLASH]REG= 0x3390, 0x0001 // MCU_DATA_0REG= 0x338C, 0xA13C // MCU_ADDRESS [SEQ_PREVIEW_3_FLASH]REG= 0x3390, 0x0001 // MCU_DATA_0[Disable Capture with Flash]REG= 0x338C, 0xA106 // MCU_ADDRESS [SEQ_FLASHTYPE]REG= 0x3390, 0x0000 // MCU_DATA_0REG= 0x338C, 0xA135 // MCU_ADDRESS [SEQ_PREVIEW_2_FLASH]REG= 0x3390, 0x0000 // MCU_DATA_0REG= 0x338C, 0xA13C // MCU_ADDRESS [SEQ_PREVIEW_3_FLASH]REG= 0x3390, 0x0000 // MCU_DATA_0 [Enable stepper motor AF]REG= 0x338C, 0xA602 // MCU_ADDRESS [AFM_TYPE]REG= 0x3390, 0x0082 // MCU_DATA_0REG= 0x338C, 0xA12C // MCU_ADDRESS [SEQ_PREVIEW_1_AF]REG= 0x3390, 0x0001 // MCU_DATA_0REG= 0x338C, 0xA103 // MCU_ADDRESS [SEQ_CMD]REG= 0x3390, 0x0005 // MCU_DATA_0DELAY=1000REG= 0x338C, 0xA12C // MCU_ADDRESS [SEQ_PREVIEW_1_AF]REG= 0x3390, 0x0000 // MCU_DATA_0REG= 0x338C, 0xA13A // MCU_ADDRESS [SEQ_PREVIEW_3_AF]REG= 0x3390, 0x0001 // MCU_DATA_0[Enable helimorph AF]REG= 0x338C, 0xA602 // MCU_ADDRESS [AFM_TYPE]REG= 0x3390, 0x0081 // MCU_DATA_0REG= 0x338C, 0xA12C // MCU_ADDRESS [SEQ_PREVIEW_1_AF]REG= 0x3390, 0x0001 // MCU_DATA_0REG= 0x338C, 0xA103 // MCU_ADDRESS [SEQ_CMD]REG= 0x3390, 0x0005 // MCU_DATA_0DELAY=1000REG= 0x338C, 0xA12C // MCU_ADDRESS [SEQ_PREVIEW_1_AF]REG= 0x3390, 0x0000 // MCU_DATA_0REG= 0x338C, 0xA13A // MCU_ADDRESS [SEQ_PREVIEW_3_AF]REG= 0x3390, 0x0001 // MCU_DATA_0[Enable AD5398 AF]REG= 0x338C, 0xA602 // MCU_ADDRESS [AFM_TYPE]REG= 0x3390, 0x0083 // MCU_DATA_0REG= 0x338C, 0xA103 // MCU_ADDRESS [SEQ_CMD]REG= 0x3390, 0x0005 // MCU_DATA_0DELAY=500REG= 0x338C, 0xA60A // MCU_ADDRESS [AFM_CUSTCTRL]REG= 0x3390, 0x0080 // MCU_DATA_0REG= 0x338C, 0xA102 // MCU_ADDRESS [SEQ_MODE]REG= 0x3390, 0x001F // MCU_DATA_0REG= 0x338C, 0xA622 // MCU_ADDRESS [AFM_SI_SLAVEADDR]REG= 0x3390, 0x0018 // MCU_DATA_0[Disable AF]REG= 0x338C, 0xA602 // MCU_ADDRESS [AFM_TYPE]REG= 0x3390, 0x0080 // MCU_DATA_0REG= 0x338C, 0xA12C // MCU_ADDRESS [SEQ_PREVIEW_1_AF]REG= 0x3390, 0x0000 // MCU_DATA_0REG= 0x338C, 0xA103 // MCU_ADDRESS [SEQ_CMD]REG= 0x3390, 0x0005 // MCU_DATA_0REG= 0x338C, 0xA13A // MCU_ADDRESS [SEQ_PREVIEW_3_AF]REG= 0x3390, 0x0000 // MCU_DATA_0 [Refocus]REG= 0x338C, 0xA102 // MCU_ADDRESS [SEQ_MODE]REG= 0x3390, 0x001F // MCU_DATA_0REG= 0x338C, 0xA504 // MCU_ADDRESS [AF_MODE]REG= 0x3390, 0x0001 // MCU_DATA_0[Mode]//-------------------------------------------// This Section sets up Preview/Capture Mode//// Preview: 640 x 480 at 15 FPS// Capture: 1600 x 1200 at 15 FPS//-------------------------------------------REG= 0x338C, 0x2703 // MCU_ADDRESS [MODE_OUTPUT_WIDTH_A] = 640REG= 0x3390, 0x0280 // MCU_DATA_0REG= 0x338C, 0x2705 // MCU_ADDRESS [MODE_OUTPUT_HEIGHT_A] = 480REG= 0x3390, 0x01E0 // MCU_DATA_0REG= 0x338C, 0x2707 // MCU_ADDRESS [MODE_OUTPUT_WIDTH_B] = 1600REG= 0x3390, 0x0640 // MCU_DATA_0REG= 0x338C, 0x2709 // MCU_ADDRESS [MODE_OUTPUT_HEIGHT_B] = 1200REG= 0x3390, 0x04B0 // MCU_DATA_0REG= 0x338C, 0x270D // MCU_ADDRESS [MODE_SENSOR_ROW_START_A] = 0REG= 0x3390, 0x0000 // MCU_DATA_0REG= 0x338C, 0x270F // MCU_ADDRESS [MODE_SENSOR_COL_START_A] = 0REG= 0x3390, 0x0000 // MCU_DATA_0REG= 0x338C, 0x2711 // MCU_ADDRESS [MODE_SENSOR_ROW_END_A] = 1213REG= 0x3390, 0x04BD // MCU_DATA_0REG= 0x338C, 0x2713 // MCU_ADDRESS [MODE_SENSOR_COL_END_A] = 1613REG= 0x3390, 0x064D // MCU_DATA_0REG= 0x338C, 0x2715 // MCU_ADDRESS [MODE_SENSOR_X_DELAY_A] = 1230REG= 0x3390, 0x04CE // MCU_DATA_0REG= 0x338C, 0x2717 // MCU_ADDRESS [MODE_SENSOR_ROW_SPEED_A] = 8465REG= 0x3390, 0x2111 // MCU_DATA_0REG= 0x338C, 0x2719 // MCU_ADDRESS [MODE_SENSOR_READ_MODE_A] = 1132REG= 0x3390, 0x046C // MCU_DATA_0REG= 0x338C, 0x271B // MCU_ADDRESS [MODE_SENSOR_SAMPLE_TIME_PCK_A] = 591REG= 0x3390, 0x024F // MCU_DATA_0REG= 0x338C, 0x271D // MCU_ADDRESS [MODE_SENSOR_FINE_CORRECTION_A] = 258REG= 0x3390, 0x0102 // MCU_DATA_0REG= 0x338C, 0x271F // MCU_ADDRESS [MODE_SENSOR_FINE_IT_MIN_A] = 633REG= 0x3390, 0x0279 // MCU_DATA_0REG= 0x338C, 0x2721 // MCU_ADDRESS [MODE_SENSOR_FINE_IT_MAX_MARGIN_A] = 341REG= 0x3390, 0x0155 // MCU_DATA_0REG= 0x338C, 0x2723 // MCU_ADDRESS [MODE_SENSOR_FRAME_LENGTH_A] = 1279REG= 0x3390, 0x04FF // MCU_DATA_0REG= 0x338C, 0x2725 // MCU_ADDRESS [MODE_SENSOR_LINE_LENGTH_PCK_A] = 2084REG= 0x3390, 0x0824 // MCU_DATA_0REG= 0x338C, 0x2727 // MCU_ADDRESS [MODE_SENSOR_DAC_ID_4_5_A] = 8224REG= 0x3390, 0x2020 // MCU_DATA_0REG= 0x338C, 0x2729 // MCU_ADDRESS [MODE_SENSOR_DAC_ID_6_7_A] = 8224REG= 0x3390, 0x2020 // MCU_DATA_0REG= 0x338C, 0x272B // MCU_ADDRESS [MODE_SENSOR_DAC_ID_8_9_A] = 4128REG= 0x3390, 0x1020 // MCU_DATA_0REG= 0x338C, 0x272D // MCU_ADDRESS [MODE_SENSOR_DAC_ID_10_11_A] = 8199REG= 0x3390, 0x2007 // MCU_DATA_0REG= 0x338C, 0x272F // MCU_ADDRESS [MODE_SENSOR_ROW_START_B] = 4REG= 0x3390, 0x0004 // MCU_DATA_0REG= 0x338C, 0x2731 // MCU_ADDRESS [MODE_SENSOR_COL_START_B] = 4REG= 0x3390, 0x0004 // MCU_DATA_0REG= 0x338C, 0x2733 // MCU_ADDRESS [MODE_SENSOR_ROW_END_B] = 1211REG= 0x3390, 0x04BB // MCU_DATA_0REG= 0x338C, 0x2735 // MCU_ADDRESS [MODE_SENSOR_COL_END_B] = 1611REG= 0x3390, 0x064B // MCU_DATA_0REG= 0x338C, 0x2737 // MCU_ADDRESS [MODE_SENSOR_X_DELAY_B] = 1230REG= 0x3390, 0x04CE // MCU_DATA_0REG= 0x338C, 0x2739 // MCU_ADDRESS [MODE_SENSOR_ROW_SPEED_B] = 8465REG= 0x3390, 0x2111 // MCU_DATA_0REG= 0x338C, 0x273B // MCU_ADDRESS [MODE_SENSOR_READ_MODE_B] = 36REG= 0x3390, 0x0024 // MCU_DATA_0REG= 0x338C, 0x273D // MCU_ADDRESS [MODE_SENSOR_SAMPLE_TIME_PCK_B] = 288REG= 0x3390, 0x0120 // MCU_DATA_0REG= 0x338C, 0x2745 // MCU_ADDRESS [MODE_SENSOR_FRAME_LENGTH_B] = 1279REG= 0x3390, 0x04FF // MCU_DATA_0REG= 0x338C, 0x2747 // MCU_ADDRESS [MODE_SENSOR_LINE_LENGTH_PCK_B] = 2048REG= 0x3390, 0x0824 // MCU_DATA_0REG= 0x338C, 0x2751 // MCU_ADDRESS [MODE_CROP_X0_A] = 0REG= 0x3390, 0x0000 // MCU_DATA_0REG= 0x338C, 0x2753 // MCU_ADDRESS [MODE_CROP_X1_A] = 800REG= 0x3390, 0x0320 // MCU_DATA_0REG= 0x338C, 0x2755 // MCU_ADDRESS [MODE_CROP_Y0_A] = 0REG= 0x3390, 0x0000 // MCU_DATA_0REG= 0x338C, 0x2757 // MCU_ADDRESS [MODE_CROP_Y1_A] = 600REG= 0x3390, 0x0258 // MCU_DATA_0REG= 0x338C, 0x275F // MCU_ADDRESS [MODE_CROP_X0_B] = 0REG= 0x3390, 0x0000 // MCU_DATA_0REG= 0x338C, 0x2761 // MCU_ADDRESS [MODE_CROP_X1_B] = 1600REG= 0x3390, 0x0640 // MCU_DATA_0REG= 0x338C, 0x2763 // MCU_ADDRESS [MODE_CROP_Y0_B] = 0REG= 0x3390, 0x0000 // MCU_DATA_0REG= 0x338C, 0x2765 // MCU_ADDRESS [MODE_CROP_Y1_B] = 1200REG= 0x3390, 0x04B0 // MCU_DATA_0REG= 0x338C, 0x222E // MCU_ADDRESS [AE_R9_STEP] = 160REG= 0x3390, 0x00A0 // MCU_DATA_0REG= 0x338C, 0xA408 // MCU_ADDRESS [FD_SEARCH_F1_50] = 31REG= 0x3390, 0x001F // MCU_DATA_0REG= 0x338C, 0xA409 // MCU_ADDRESS [FD_SEARCH_F2_50] = 33REG= 0x3390, 0x0021 // MCU_DATA_0REG= 0x338C, 0xA40A // MCU_ADDRESS [FD_SEARCH_F1_60] = 37REG= 0x3390, 0x0025 // MCU_DATA_0REG= 0x338C, 0xA40B // MCU_ADDRESS [FD_SEARCH_F2_60] = 39REG= 0x3390, 0x0027 // MCU_DATA_0REG= 0x338C, 0x2411 // MCU_ADDRESS [FD_R9_STEP_F60_A] = 160REG= 0x3390, 0x00A0 // MCU_DATA_0REG= 0x338C, 0x2413 // MCU_ADDRESS [FD_R9_STEP_F50_A] = 192REG= 0x3390, 0x00C0 // MCU_DATA_0REG= 0x338C, 0x2415 // MCU_ADDRESS [FD_R9_STEP_F60_B] = 160REG= 0x3390, 0x00A0 // MCU_DATA_0REG= 0x338C, 0x2417 // MCU_ADDRESS [FD_R9_STEP_F50_B] = 192REG= 0x3390, 0x00C0 // MCU_DATA_0REG= 0x338C, 0x2799 // MCU_ADDRESS [MODE_SPEC_EFFECTS_A] Dither for Noise ReductionREG= 0x3390, 0x6408 // MCU_DATA_0REG= 0x338C, 0x279B // MCU_ADDRESS [MODE_SPEC_EFFECTS_B] Dither for Noise ReductionREG= 0x3390, 0x6408 // MCU_DATA_0REG= 0x338C, 0xA103 // MCU_ADDRESS [SEQ_CMD]  RefreshREG= 0x3390, 0x0005 // MCU_DATA_0REG= 0x338C, 0xA103 // MCU_ADDRESS [SEQ_CMD]  Refresh ModeREG= 0x3390, 0x0006 // MCU_DATA_0[PLL Setup 24Mhz/80Mhz Out]//----------------------------------------------// This Section sets up the PLL for en external// Masterclock of 24 MHZ and an internal clock// of 80 MHz.//----------------------------------------------REG = 0, 0x341E, 0x8F09        //PLL/ Clk_in control: BYPASS PLL = 36617REG = 0, 0x341C, 0x0250        //PLL Control 1 = 592REG = 0, 0x341E, 0x8F09        //PLL/ Clk_in control: PLL ON, bypassed = 36617DELAY = 5            // More than ample time to allow PLL to lockREG = 0, 0x341E, 0x8F08        //PLL/ Clk_in control: USE PLL = 36616//STATE=Master Clock, 80000000REG=1, 0x3214, 0x06E6       //default 0x0480  -> make Slope work for 80 MHz Mclk[PLL Setup 48Mhz In/80Mhz Out]//----------------------------------------------// This Section sets up the PLL for en external// Masterclock of 48 MHZ and an internal clock// of 80 MHz.//----------------------------------------------REG = 0, 0x341E, 0x8F09        //PLL/ Clk_in control: BYPASS PLL = 36617REG = 0, 0x341C, 0x0550        //PLL Set M=80, N=5REG = 0, 0x341E, 0x8F09        //PLL/ Clk_in control: PLL ON, bypassed = 36617DELAY = 5            // More than ample time to allow PLL to lockREG = 0, 0x341E, 0x8F08        //PLL/ Clk_in control: USE PLL = 36616STATE=Master Clock, 80000000REG=1, 0x3214, 0x06E6       //default 0x0480  -> make Slope work for 80 MHz Mclk[PLL Setup 24Mhz In/48Mhz Out]REG = 0, 0x341E, 0x8F09        //PLL/ Clk_in control: BYPASS PLL = 36617REG = 0, 0x341C, 0x0120        //PLL Control 1 = 288REG = 0, 0x341E, 0x8F09        //PLL/ Clk_in control: PLL ON, bypassed = 36617DELAY = 5            // More than ample time to allow PLL to lockREG = 0, 0x341E, 0x8F08        //PLL/ Clk_in control: USE PLL = 36616REG=1, 0x3214, 0x06E6       //default 0x0480  -> make Slope work for 80 MHz Mclk[Lens Correction_Largan 971A]REG=0x34CE, 0x01A0 //LENS_CORRECTION_CONTROLREG=0x34D0, 0x6633 //ZONE_BOUNDS_X1_X2REG=0x34D2, 0x319A //ZONE_BOUNDS_X0_X3REG=0x34D4, 0x9463 //ZONE_BOUNDS_X4_X5REG=0x34D6, 0x4B25 //ZONE_BOUNDS_Y1_Y2REG=0x34D8, 0x2670 //ZONE_BOUNDS_Y0_Y3REG=0x34DA, 0x724C //ZONE_BOUNDS_Y4_Y5REG=0x34DC, 0xFF04 //CENTER_OFFSETREG=0x34DE, 0x00FD //FX_REDREG=0x34E6, 0x00E8 //FY_REDREG=0x34EE, 0x0EE5 //DF_DX_REDREG=0x34F6, 0x0CC8 //DF_DY_REDREG=0x3500, 0xE3F3 //SECOND_DERIV_ZONE_0_REDREG=0x3508, 0x11E5 //SECOND_DERIV_ZONE_1_REDREG=0x3510, 0x262E //SECOND_DERIV_ZONE_2_REDREG=0x3518, 0x2633 //SECOND_DERIV_ZONE_3_REDREG=0x3520, 0x373D //SECOND_DERIV_ZONE_4_REDREG=0x3528, 0x393F //SECOND_DERIV_ZONE_5_REDREG=0x3530, 0x12B0 //SECOND_DERIV_ZONE_6_REDREG=0x3538, 0xDC9F //SECOND_DERIV_ZONE_7_REDREG=0x354C, 0x07FF //K_FACTOR_IN_K_FX_FY_R_TLREG=0x3544, 0x07FF //K_FACTOR_IN_K_FX_FY_R_TRREG=0x355C, 0x0472 //K_FACTOR_IN_K_FX_FY_R_BLREG=0x3554, 0x07FF //K_FACTOR_IN_K_FX_FY_R_BRREG=0x34E0, 0x00DB //FX_GREENREG=0x34E8, 0x008A //FY_GREENREG=0x34F0, 0x0FF2 //DF_DX_GREENREG=0x34F8, 0x0E41 //DF_DY_GREENREG=0x3502, 0xF1E6 //SECOND_DERIV_ZONE_0_GREENREG=0x350A, 0x02C3 //SECOND_DERIV_ZONE_1_GREENREG=0x3512, 0x112B //SECOND_DERIV_ZONE_2_GREENREG=0x351A, 0x1C26 //SECOND_DERIV_ZONE_3_GREENREG=0x3522, 0x2428 //SECOND_DERIV_ZONE_4_GREENREG=0x352A, 0x271E //SECOND_DERIV_ZONE_5_GREENREG=0x3532, 0x02E0 //SECOND_DERIV_ZONE_6_GREENREG=0x353A, 0xFC17 //SECOND_DERIV_ZONE_7_GREENREG=0x354E, 0x07FF //K_FACTOR_IN_K_FX_FY_G1_TLREG=0x3546, 0x07FF //K_FACTOR_IN_K_FX_FY_G1_TRREG=0x355E, 0x0600 //K_FACTOR_IN_K_FX_FY_G1_BLREG=0x3556, 0x018E //K_FACTOR_IN_K_FX_FY_G1_BRREG=0x34E4, 0x00B2 //FX_BLUEREG=0x34EC, 0x0059 //FY_BLUEREG=0x34F4, 0x0FDF //DF_DX_BLUEREG=0x34FC, 0x0D95 //DF_DY_BLUEREG=0x3506, 0x14F5 //SECOND_DERIV_ZONE_0_BLUEREG=0x350E, 0x06C6 //SECOND_DERIV_ZONE_1_BLUEREG=0x3516, 0x1A26 //SECOND_DERIV_ZONE_2_BLUEREG=0x351E, 0x2219 //SECOND_DERIV_ZONE_3_BLUEREG=0x3526, 0x1423 //SECOND_DERIV_ZONE_4_BLUEREG=0x352E, 0x0E14 //SECOND_DERIV_ZONE_5_BLUEREG=0x3536, 0xF4EC //SECOND_DERIV_ZONE_6_BLUEREG=0x353E, 0xDD1D //SECOND_DERIV_ZONE_7_BLUEREG=0x3552, 0x05A1 //K_FACTOR_IN_K_FX_FY_B_TLREG=0x354A, 0x03FF //K_FACTOR_IN_K_FX_FY_B_TRREG=0x3562, 0x018E //K_FACTOR_IN_K_FX_FY_B_BLREG=0x355A, 0x018E //K_FACTOR_IN_K_FX_FY_B_BRREG=0x34E2, 0x00AA //FX_GREEN2REG=0x34EA, 0x0066 //FY_GREEN2REG=0x34F2, 0x0E92 //DF_DX_GREEN2REG=0x34FA, 0x0D63 //DF_DY_GREEN2REG=0x3504, 0x0E1B //SECOND_DERIV_ZONE_0_GREEN2REG=0x350C, 0x0DE7 //SECOND_DERIV_ZONE_1_GREEN2REG=0x3514, 0x1D22 //SECOND_DERIV_ZONE_2_GREEN2REG=0x351C, 0x2A2A //SECOND_DERIV_ZONE_3_GREEN2REG=0x3524, 0x1A26 //SECOND_DERIV_ZONE_4_GREEN2REG=0x352C, 0x1420 //SECOND_DERIV_ZONE_5_GREEN2REG=0x3534, 0xF2AB //SECOND_DERIV_ZONE_6_GREEN2REG=0x353C, 0xD2E0 //SECOND_DERIV_ZONE_7_GREEN2REG=0x3550, 0x03FF //K_FACTOR_IN_K_FX_FY_G2_TLREG=0x3548, 0x07FF //K_FACTOR_IN_K_FX_FY_G2_TRREG=0x3560, 0x03FF //K_FACTOR_IN_K_FX_FY_G2_BLREG=0x3558, 0x07FF //K_FACTOR_IN_K_FX_FY_G2_BRREG=0x3540, 0x0000 //X2_FACTORSREG=0x3542, 0x0004 //GLOBAL_OFFSET_FXY_FUNCTIONSTATE=Lens Correction Falloff, 90STATE=Lens Correction Center X, 820STATE=Lens Correction Center Y, 600BITFIELD=0x3210, 0x0004, 1 //LENS_CORRECTION[CCM]//-------------------------------------------// Demo Boards. (Derived with Largan Lens)//-------------------------------------------REG= 0x338C, 0xA34A // MCU_ADDRESS [AWB_GAIN_MIN]REG= 0x3390, 0x005A // MCU_DATA_0  (Needed so we get enough Red Gain....)[AE]//--------------------------------------------------// This Section sets up the AE. // - Target is lower than default (50 compared to 60)// - MDR uses MaxRGB for upper Clipping Detection// - Reduce the Maximum EV shift for MDR//--------------------------------------------------REG= 0x338C, 0xA206 // MCU_ADDRESS [AE_TARGET]REG= 0x3390, 0x0030 // MCU_DATA_0[one step MDR]REG= 0x338C, 0xA218 // MCU_ADDRESS [AE_STATUS]   set bit 5 to 1REG= 0x3390, 0x00A4 // MCU_DATA_0REG= 0x338C, 0xA130 // MCU_ADDRESS [SEQ_PREVIEW_2_AE]REG= 0x3390, 0x0000 // MCU_DATA_0[LUT_sRGB]//---------------------------------------------------// This Settings produce sRGB output from the Sensor// (No contrast and low saturation)//---------------------------------------------------REG= 0x338C, 0xA352 // MCU_ADDRESS [AWB_SATURATION]REG= 0x3390, 0x0064 // MCU_DATA_0REG= 0x338C, 0xA118 // MCU_ADDRESS [SEQ_LLSAT1]REG= 0x3390, 0x0064 // MCU_DATA_0REG= 0x338C, 0xA119 // MCU_ADDRESS [SEQ_LLSAT2]REG= 0x3390, 0x0019 // MCU_DATA_0REG= 0x338C, 0xA76D // MCU_ADDRESS [MODE_GAM_CONT_A]REG= 0x3390, 0x0003 // MCU_DATA_0REG= 0x338C, 0xA76E // MCU_ADDRESS [MODE_GAM_CONT_B]REG= 0x3390, 0x0003 // MCU_DATA_0REG= 0x338C, 0xA76F // MCU_ADDRESS [MODE_GAM_TABLE_A_0]REG= 0x3390, 0x0000 // MCU_DATA_0REG= 0x338C, 0xA770 // MCU_ADDRESS [MODE_GAM_TABLE_A_1]REG= 0x3390, 0x0027 // MCU_DATA_0REG= 0x338C, 0xA771 // MCU_ADDRESS [MODE_GAM_TABLE_A_2]REG= 0x3390, 0x0035 // MCU_DATA_0REG= 0x338C, 0xA772 // MCU_ADDRESS [MODE_GAM_TABLE_A_3]REG= 0x3390, 0x0049 // MCU_DATA_0REG= 0x338C, 0xA773 // MCU_ADDRESS [MODE_GAM_TABLE_A_4]REG= 0x3390, 0x0064 // MCU_DATA_0REG= 0x338C, 0xA774 // MCU_ADDRESS [MODE_GAM_TABLE_A_5]REG= 0x3390, 0x0077 // MCU_DATA_0REG= 0x338C, 0xA775 // MCU_ADDRESS [MODE_GAM_TABLE_A_6]REG= 0x3390, 0x0088 // MCU_DATA_0REG= 0x338C, 0xA776 // MCU_ADDRESS [MODE_GAM_TABLE_A_7]REG= 0x3390, 0x0097 // MCU_DATA_0REG= 0x338C, 0xA777 // MCU_ADDRESS [MODE_GAM_TABLE_A_8]REG= 0x3390, 0x00A4 // MCU_DATA_0REG= 0x338C, 0xA778 // MCU_ADDRESS [MODE_GAM_TABLE_A_9]REG= 0x3390, 0x00AF // MCU_DATA_0REG= 0x338C, 0xA779 // MCU_ADDRESS [MODE_GAM_TABLE_A_10]REG= 0x3390, 0x00BA // MCU_DATA_0REG= 0x338C, 0xA77A // MCU_ADDRESS [MODE_GAM_TABLE_A_11]REG= 0x3390, 0x00C5 // MCU_DATA_0REG= 0x338C, 0xA77B // MCU_ADDRESS [MODE_GAM_TABLE_A_12]REG= 0x3390, 0x00CE // MCU_DATA_0REG= 0x338C, 0xA77C // MCU_ADDRESS [MODE_GAM_TABLE_A_13]REG= 0x3390, 0x00D8 // MCU_DATA_0REG= 0x338C, 0xA77D // MCU_ADDRESS [MODE_GAM_TABLE_A_14]REG= 0x3390, 0x00E0 // MCU_DATA_0REG= 0x338C, 0xA77E // MCU_ADDRESS [MODE_GAM_TABLE_A_15]REG= 0x3390, 0x00E8 // MCU_DATA_0REG= 0x338C, 0xA77F // MCU_ADDRESS [MODE_GAM_TABLE_A_16]REG= 0x3390, 0x00F1 // MCU_DATA_0REG= 0x338C, 0xA780 // MCU_ADDRESS [MODE_GAM_TABLE_A_17]REG= 0x3390, 0x00F8 // MCU_DATA_0REG= 0x338C, 0xA781 // MCU_ADDRESS [MODE_GAM_TABLE_A_18]REG= 0x3390, 0x00FF // MCU_DATA_0REG= 0x338C, 0xA782 // MCU_ADDRESS [MODE_GAM_TABLE_B_0]REG= 0x3390, 0x0000 // MCU_DATA_0REG= 0x338C, 0xA783 // MCU_ADDRESS [MODE_GAM_TABLE_B_1]REG= 0x3390, 0x0027 // MCU_DATA_0REG= 0x338C, 0xA784 // MCU_ADDRESS [MODE_GAM_TABLE_B_2]REG= 0x3390, 0x0035 // MCU_DATA_0REG= 0x338C, 0xA785 // MCU_ADDRESS [MODE_GAM_TABLE_B_3]REG= 0x3390, 0x0049 // MCU_DATA_0REG= 0x338C, 0xA786 // MCU_ADDRESS [MODE_GAM_TABLE_B_4]REG= 0x3390, 0x0064 // MCU_DATA_0REG= 0x338C, 0xA787 // MCU_ADDRESS [MODE_GAM_TABLE_B_5]REG= 0x3390, 0x0077 // MCU_DATA_0REG= 0x338C, 0xA788 // MCU_ADDRESS [MODE_GAM_TABLE_B_6]REG= 0x3390, 0x0088 // MCU_DATA_0REG= 0x338C, 0xA789 // MCU_ADDRESS [MODE_GAM_TABLE_B_7]REG= 0x3390, 0x0097 // MCU_DATA_0REG= 0x338C, 0xA78A // MCU_ADDRESS [MODE_GAM_TABLE_B_8]REG= 0x3390, 0x00A4 // MCU_DATA_0REG= 0x338C, 0xA78B // MCU_ADDRESS [MODE_GAM_TABLE_B_9]REG= 0x3390, 0x00AF // MCU_DATA_0REG= 0x338C, 0xA78C // MCU_ADDRESS [MODE_GAM_TABLE_B_10]REG= 0x3390, 0x00BA // MCU_DATA_0REG= 0x338C, 0xA78D // MCU_ADDRESS [MODE_GAM_TABLE_B_11]REG= 0x3390, 0x00C5 // MCU_DATA_0REG= 0x338C, 0xA78E // MCU_ADDRESS [MODE_GAM_TABLE_B_12]REG= 0x3390, 0x00CE // MCU_DATA_0REG= 0x338C, 0xA78F // MCU_ADDRESS [MODE_GAM_TABLE_B_13]REG= 0x3390, 0x00D8 // MCU_DATA_0REG= 0x338C, 0xA790 // MCU_ADDRESS [MODE_GAM_TABLE_B_14]REG= 0x3390, 0x00E0 // MCU_DATA_0REG= 0x338C, 0xA791 // MCU_ADDRESS [MODE_GAM_TABLE_B_15]REG= 0x3390, 0x00E8 // MCU_DATA_0REG= 0x338C, 0xA792 // MCU_ADDRESS [MODE_GAM_TABLE_B_16]REG= 0x3390, 0x00F1 // MCU_DATA_0REG= 0x338C, 0xA793 // MCU_ADDRESS [MODE_GAM_TABLE_B_17]REG= 0x3390, 0x00F8 // MCU_DATA_0REG= 0x338C, 0xA794 // MCU_ADDRESS [MODE_GAM_TABLE_B_18]REG= 0x3390, 0x00FF // MCU_DATA_0REG= 0x338C, 0xA103 // MCU_ADDRESS [SEQ_CMD]REG= 0x3390, 0x0006 // MCU_DATA_0[LUT_Vivid]//------------------------------------------------------// This Settings produce a Vivid output from the Sensor// (Lots of contrast and Saturation//------------------------------------------------------REG= 0x338C, 0xA352 // MCU_ADDRESS [AWB_SATURATION]REG= 0x3390, 0x004B // MCU_DATA_0REG= 0x338C, 0xA118 // MCU_ADDRESS [SEQ_LLSAT1]REG= 0x3390, 0x004B // MCU_DATA_0REG= 0x338C, 0xA119 // MCU_ADDRESS [SEQ_LLSAT2]REG= 0x3390, 0x000A // MCU_DATA_0REG= 0x338C, 0xA76D // MCU_ADDRESS [MODE_GAM_CONT_A]REG= 0x3390, 0x0003 // MCU_DATA_0REG= 0x338C, 0xA76E // MCU_ADDRESS [MODE_GAM_CONT_B]REG= 0x3390, 0x0003 // MCU_DATA_0REG= 0x338C, 0xA76F // MCU_ADDRESS [MODE_GAM_TABLE_A_0]REG= 0x3390, 0x0000 // MCU_DATA_0REG= 0x338C, 0xA770 // MCU_ADDRESS [MODE_GAM_TABLE_A_1]REG= 0x3390, 0x001B // MCU_DATA_0REG= 0x338C, 0xA771 // MCU_ADDRESS [MODE_GAM_TABLE_A_2]REG= 0x3390, 0x002E // MCU_DATA_0REG= 0x338C, 0xA772 // MCU_ADDRESS [MODE_GAM_TABLE_A_3]REG= 0x3390, 0x004C // MCU_DATA_0REG= 0x338C, 0xA773 // MCU_ADDRESS [MODE_GAM_TABLE_A_4]REG= 0x3390, 0x0078 // MCU_DATA_0REG= 0x338C, 0xA774 // MCU_ADDRESS [MODE_GAM_TABLE_A_5]REG= 0x3390, 0x0098 // MCU_DATA_0REG= 0x338C, 0xA775 // MCU_ADDRESS [MODE_GAM_TABLE_A_6]REG= 0x3390, 0x00B0 // MCU_DATA_0REG= 0x338C, 0xA776 // MCU_ADDRESS [MODE_GAM_TABLE_A_7]REG= 0x3390, 0x00C1 // MCU_DATA_0REG= 0x338C, 0xA777 // MCU_ADDRESS [MODE_GAM_TABLE_A_8]REG= 0x3390, 0x00CF // MCU_DATA_0REG= 0x338C, 0xA778 // MCU_ADDRESS [MODE_GAM_TABLE_A_9]REG= 0x3390, 0x00D9 // MCU_DATA_0REG= 0x338C, 0xA779 // MCU_ADDRESS [MODE_GAM_TABLE_A_10]REG= 0x3390, 0x00E1 // MCU_DATA_0REG= 0x338C, 0xA77A // MCU_ADDRESS [MODE_GAM_TABLE_A_11]REG= 0x3390, 0x00E8 // MCU_DATA_0REG= 0x338C, 0xA77B // MCU_ADDRESS [MODE_GAM_TABLE_A_12]REG= 0x3390, 0x00EE // MCU_DATA_0REG= 0x338C, 0xA77C // MCU_ADDRESS [MODE_GAM_TABLE_A_13]REG= 0x3390, 0x00F2 // MCU_DATA_0REG= 0x338C, 0xA77D // MCU_ADDRESS [MODE_GAM_TABLE_A_14]REG= 0x3390, 0x00F6 // MCU_DATA_0REG= 0x338C, 0xA77E // MCU_ADDRESS [MODE_GAM_TABLE_A_15]REG= 0x3390, 0x00F9 // MCU_DATA_0REG= 0x338C, 0xA77F // MCU_ADDRESS [MODE_GAM_TABLE_A_16]REG= 0x3390, 0x00FB // MCU_DATA_0REG= 0x338C, 0xA780 // MCU_ADDRESS [MODE_GAM_TABLE_A_17]REG= 0x3390, 0x00FD // MCU_DATA_0REG= 0x338C, 0xA781 // MCU_ADDRESS [MODE_GAM_TABLE_A_18]REG= 0x3390, 0x00FF // MCU_DATA_0REG= 0x338C, 0xA782 // MCU_ADDRESS [MODE_GAM_TABLE_B_0]REG= 0x3390, 0x0000 // MCU_DATA_0REG= 0x338C, 0xA783 // MCU_ADDRESS [MODE_GAM_TABLE_B_1]REG= 0x3390, 0x001B // MCU_DATA_0REG= 0x338C, 0xA784 // MCU_ADDRESS [MODE_GAM_TABLE_B_2]REG= 0x3390, 0x002E // MCU_DATA_0REG= 0x338C, 0xA785 // MCU_ADDRESS [MODE_GAM_TABLE_B_3]REG= 0x3390, 0x004C // MCU_DATA_0REG= 0x338C, 0xA786 // MCU_ADDRESS [MODE_GAM_TABLE_B_4]REG= 0x3390, 0x0078 // MCU_DATA_0REG= 0x338C, 0xA787 // MCU_ADDRESS [MODE_GAM_TABLE_B_5]REG= 0x3390, 0x0098 // MCU_DATA_0REG= 0x338C, 0xA788 // MCU_ADDRESS [MODE_GAM_TABLE_B_6]REG= 0x3390, 0x00B0 // MCU_DATA_0REG= 0x338C, 0xA789 // MCU_ADDRESS [MODE_GAM_TABLE_B_7]REG= 0x3390, 0x00C1 // MCU_DATA_0REG= 0x338C, 0xA78A // MCU_ADDRESS [MODE_GAM_TABLE_B_8]REG= 0x3390, 0x00CF // MCU_DATA_0REG= 0x338C, 0xA78B // MCU_ADDRESS [MODE_GAM_TABLE_B_9]REG= 0x3390, 0x00D9 // MCU_DATA_0REG= 0x338C, 0xA78C // MCU_ADDRESS [MODE_GAM_TABLE_B_10]REG= 0x3390, 0x00E1 // MCU_DATA_0REG= 0x338C, 0xA78D // MCU_ADDRESS [MODE_GAM_TABLE_B_11]REG= 0x3390, 0x00E8 // MCU_DATA_0REG= 0x338C, 0xA78E // MCU_ADDRESS [MODE_GAM_TABLE_B_12]REG= 0x3390, 0x00EE // MCU_DATA_0REG= 0x338C, 0xA78F // MCU_ADDRESS [MODE_GAM_TABLE_B_13]REG= 0x3390, 0x00F2 // MCU_DATA_0REG= 0x338C, 0xA790 // MCU_ADDRESS [MODE_GAM_TABLE_B_14]REG= 0x3390, 0x00F6 // MCU_DATA_0REG= 0x338C, 0xA791 // MCU_ADDRESS [MODE_GAM_TABLE_B_15]REG= 0x3390, 0x00F9 // MCU_DATA_0REG= 0x338C, 0xA792 // MCU_ADDRESS [MODE_GAM_TABLE_B_16]REG= 0x3390, 0x00FB // MCU_DATA_0REG= 0x338C, 0xA793 // MCU_ADDRESS [MODE_GAM_TABLE_B_17]REG= 0x3390, 0x00FD // MCU_DATA_0REG= 0x338C, 0xA794 // MCU_ADDRESS [MODE_GAM_TABLE_B_18]REG= 0x3390, 0x00FF // MCU_DATA_0REG= 0x338C, 0xA103 // MCU_ADDRESS [SEQ_CMD]REG= 0x3390, 0x0006 // MCU_DATA_0[LUT_Moderate]//-----------------------------------------------------// This Settings produce a moderatly contrast enhanced // and saturated image output from the Sensor//-----------------------------------------------------REG= 0x338C, 0xA352 // MCU_ADDRESS [AWB_SATURATION]REG= 0x3390, 0x003C // MCU_DATA_0REG= 0x338C, 0xA118 // MCU_ADDRESS [SEQ_LLSAT1]REG= 0x3390, 0x003C // MCU_DATA_0REG= 0x338C, 0xA119 // MCU_ADDRESS [SEQ_LLSAT2]REG= 0x3390, 0x000A // MCU_DATA_0REG= 0x338C, 0xA76D // MCU_ADDRESS [MODE_GAM_CONT_A]REG= 0x3390, 0x0003 // MCU_DATA_0REG= 0x338C, 0xA76E // MCU_ADDRESS [MODE_GAM_CONT_B]REG= 0x3390, 0x0003 // MCU_DATA_0REG= 0x338C, 0xA76F // MCU_ADDRESS [MODE_GAM_TABLE_A_0]REG= 0x3390, 0x0000 // MCU_DATA_0REG= 0x338C, 0xA770 // MCU_ADDRESS [MODE_GAM_TABLE_A_1]REG= 0x3390, 0x0029 // MCU_DATA_0REG= 0x338C, 0xA771 // MCU_ADDRESS [MODE_GAM_TABLE_A_2]REG= 0x3390, 0x003B // MCU_DATA_0REG= 0x338C, 0xA772 // MCU_ADDRESS [MODE_GAM_TABLE_A_3]REG= 0x3390, 0x0053 // MCU_DATA_0REG= 0x338C, 0xA773 // MCU_ADDRESS [MODE_GAM_TABLE_A_4]REG= 0x3390, 0x0076 // MCU_DATA_0REG= 0x338C, 0xA774 // MCU_ADDRESS [MODE_GAM_TABLE_A_5]REG= 0x3390, 0x0091 // MCU_DATA_0REG= 0x338C, 0xA775 // MCU_ADDRESS [MODE_GAM_TABLE_A_6]REG= 0x3390, 0x00A7 // MCU_DATA_0REG= 0x338C, 0xA776 // MCU_ADDRESS [MODE_GAM_TABLE_A_7]REG= 0x3390, 0x00B8 // MCU_DATA_0REG= 0x338C, 0xA777 // MCU_ADDRESS [MODE_GAM_TABLE_A_8]REG= 0x3390, 0x00C5 // MCU_DATA_0REG= 0x338C, 0xA778 // MCU_ADDRESS [MODE_GAM_TABLE_A_9]REG= 0x3390, 0x00CF // MCU_DATA_0REG= 0x338C, 0xA779 // MCU_ADDRESS [MODE_GAM_TABLE_A_10]REG= 0x3390, 0x00D8 // MCU_DATA_0REG= 0x338C, 0xA77A // MCU_ADDRESS [MODE_GAM_TABLE_A_11]REG= 0x3390, 0x00E0 // MCU_DATA_0REG= 0x338C, 0xA77B // MCU_ADDRESS [MODE_GAM_TABLE_A_12]REG= 0x3390, 0x00E6 // MCU_DATA_0REG= 0x338C, 0xA77C // MCU_ADDRESS [MODE_GAM_TABLE_A_13]REG= 0x3390, 0x00EC // MCU_DATA_0REG= 0x338C, 0xA77D // MCU_ADDRESS [MODE_GAM_TABLE_A_14]REG= 0x3390, 0x00F1 // MCU_DATA_0REG= 0x338C, 0xA77E // MCU_ADDRESS [MODE_GAM_TABLE_A_15]REG= 0x3390, 0x00F5 // MCU_DATA_0REG= 0x338C, 0xA77F // MCU_ADDRESS [MODE_GAM_TABLE_A_16]REG= 0x3390, 0x00F9 // MCU_DATA_0REG= 0x338C, 0xA780 // MCU_ADDRESS [MODE_GAM_TABLE_A_17]REG= 0x3390, 0x00FC // MCU_DATA_0REG= 0x338C, 0xA781 // MCU_ADDRESS [MODE_GAM_TABLE_A_18]REG= 0x3390, 0x00FF // MCU_DATA_0REG= 0x338C, 0xA782 // MCU_ADDRESS [MODE_GAM_TABLE_B_0]REG= 0x3390, 0x0000 // MCU_DATA_0REG= 0x338C, 0xA783 // MCU_ADDRESS [MODE_GAM_TABLE_B_1]REG= 0x3390, 0x0029 // MCU_DATA_0REG= 0x338C, 0xA784 // MCU_ADDRESS [MODE_GAM_TABLE_B_2]REG= 0x3390, 0x003B // MCU_DATA_0REG= 0x338C, 0xA785 // MCU_ADDRESS [MODE_GAM_TABLE_B_3]REG= 0x3390, 0x0053 // MCU_DATA_0REG= 0x338C, 0xA786 // MCU_ADDRESS [MODE_GAM_TABLE_B_4]REG= 0x3390, 0x0076 // MCU_DATA_0REG= 0x338C, 0xA787 // MCU_ADDRESS [MODE_GAM_TABLE_B_5]REG= 0x3390, 0x0091 // MCU_DATA_0REG= 0x338C, 0xA788 // MCU_ADDRESS [MODE_GAM_TABLE_B_6]REG= 0x3390, 0x00A7 // MCU_DATA_0REG= 0x338C, 0xA789 // MCU_ADDRESS [MODE_GAM_TABLE_B_7]REG= 0x3390, 0x00B8 // MCU_DATA_0REG= 0x338C, 0xA78A // MCU_ADDRESS [MODE_GAM_TABLE_B_8]REG= 0x3390, 0x00C5 // MCU_DATA_0REG= 0x338C, 0xA78B // MCU_ADDRESS [MODE_GAM_TABLE_B_9]REG= 0x3390, 0x00CF // MCU_DATA_0REG= 0x338C, 0xA78C // MCU_ADDRESS [MODE_GAM_TABLE_B_10]REG= 0x3390, 0x00D8 // MCU_DATA_0REG= 0x338C, 0xA78D // MCU_ADDRESS [MODE_GAM_TABLE_B_11]REG= 0x3390, 0x00E0 // MCU_DATA_0REG= 0x338C, 0xA78E // MCU_ADDRESS [MODE_GAM_TABLE_B_12]REG= 0x3390, 0x00E6 // MCU_DATA_0REG= 0x338C, 0xA78F // MCU_ADDRESS [MODE_GAM_TABLE_B_13]REG= 0x3390, 0x00EC // MCU_DATA_0REG= 0x338C, 0xA790 // MCU_ADDRESS [MODE_GAM_TABLE_B_14]REG= 0x3390, 0x00F1 // MCU_DATA_0REG= 0x338C, 0xA791 // MCU_ADDRESS [MODE_GAM_TABLE_B_15]REG= 0x3390, 0x00F5 // MCU_DATA_0REG= 0x338C, 0xA792 // MCU_ADDRESS [MODE_GAM_TABLE_B_16]REG= 0x3390, 0x00F9 // MCU_DATA_0REG= 0x338C, 0xA793 // MCU_ADDRESS [MODE_GAM_TABLE_B_17]REG= 0x3390, 0x00FC // MCU_DATA_0REG= 0x338C, 0xA794 // MCU_ADDRESS [MODE_GAM_TABLE_B_18]REG= 0x3390, 0x00FF // MCU_DATA_0REG= 0x338C, 0xA103 // MCU_ADDRESS [SEQ_CMD]REG= 0x3390, 0x0006 // MCU_DATA_0[Low Power Preview 15 FPS]//---------------------------------------------------// Minimum 15 FPS (66 ms Int-Time)//---------------------------------------------------REG= 0x338C, 0xA20C // MCU_ADDRESS [AE_MAX_INDEX]REG= 0x3390, 0x0008 // MCU_DATA_0REG= 0x338C, 0xA214 // MCU_ADDRESS [AE_MAX_DGAIN_AE2]REG= 0x3390, 0x0024 // MCU_DATA_0REG= 0x338C, 0xA103 // MCU_ADDRESS [SEQ_CMD]REG= 0x3390, 0x0005 // MCU_DATA_0DELAY=500//Wait[Low Power Preview 10 FPS]//---------------------------------------------------// Minimum 10 FPS (100 ms Int-Time)//---------------------------------------------------REG= 0x338C, 0xA20C // MCU_ADDRESS [AE_MAX_INDEX]REG= 0x3390, 0x000C // MCU_DATA_0REG= 0x338C, 0xA214 // MCU_ADDRESS [AE_MAX_DGAIN_AE2]REG= 0x3390, 0x0022 // MCU_DATA_0REG= 0x338C, 0xA103 // MCU_ADDRESS [SEQ_CMD]REG= 0x3390, 0x0005 // MCU_DATA_0DELAY=500//Wait[Low Power Preview 7_5 FPS]//---------------------------------------------------// Minimum 7.5 FPS (133 ms Int-Time)//---------------------------------------------------REG= 0x338C, 0xA20C // MCU_ADDRESS [AE_MAX_INDEX]REG= 0x3390, 0x0010 // MCU_DATA_0REG= 0x338C, 0xA214 // MCU_ADDRESS [AE_MAX_DGAIN_AE2]REG= 0x3390, 0x0022 // MCU_DATA_0REG= 0x338C, 0xA103 // MCU_ADDRESS [SEQ_CMD]REG= 0x3390, 0x0005 // MCU_DATA_0DELAY=500//Wait[Low Power Preview 5 FPS]//---------------------------------------------------// Minimum 5 FPS (200 ms Int-Time)//---------------------------------------------------REG= 0x338C, 0xA20C // MCU_ADDRESS [AE_MAX_INDEX]REG= 0x3390, 0x0018 // MCU_DATA_0REG= 0x338C, 0xA214 // MCU_ADDRESS [AE_MAX_DGAIN_AE2]REG= 0x3390, 0x001E // MCU_DATA_0REG= 0x338C, 0xA103 // MCU_ADDRESS [SEQ_CMD]REG= 0x3390, 0x0005 // MCU_DATA_0DELAY=500//Wait[Sequencer_Optimized_HiSat_Sharp]//---------------------------------------------------//  These Sequencer Settings include optimized//  Transition values between bright and low light//  for the following://  - Noise Reduction//  - Saturation//  - Aperture Correction//  and also enable the MDR AE algorithm//---------------------------------------------------REG= 0x338C, 0xA130 // MCU_ADDRESS [SEQ_PREVIEW_2_AE]REG= 0x3390, 0x0004 // MCU_DATA_0REG= 0x338C, 0xA115 // MCU_ADDRESS [SEQ_LLMODE]REG= 0x3390, 0x00EF // MCU_DATA_0REG= 0x338C, 0xA116 // MCU_ADDRESS [SEQ_LLVIRTGAIN1]REG= 0x3390, 0x0030 // MCU_DATA_0REG= 0x338C, 0xA117 // MCU_ADDRESS [SEQ_LLVIRTGAIN2]REG= 0x3390, 0x0055 // MCU_DATA_0REG= 0x338C, 0xA118 // MCU_ADDRESS [SEQ_LLSAT1]REG= 0x3390, 0x005A // MCU_DATA_0REG= 0x338C, 0xA119 // MCU_ADDRESS [SEQ_LLSAT2]REG= 0x3390, 0x0028 // MCU_DATA_0REG= 0x338C, 0xA11A // MCU_ADDRESS [SEQ_LLINTERPTHRESH1]REG= 0x3390, 0x0008 // MCU_DATA_0REG= 0x338C, 0xA11B // MCU_ADDRESS [SEQ_LLINTERPTHRESH2]REG= 0x3390, 0x001E // MCU_DATA_0REG= 0x338C, 0xA11C // MCU_ADDRESS [SEQ_LLAPCORR1]REG= 0x3390, 0x0002 // MCU_DATA_0REG= 0x338C, 0xA11D // MCU_ADDRESS [SEQ_LLAPCORR2]REG= 0x3390, 0x0000 // MCU_DATA_0REG= 0x338C, 0xA11E // MCU_ADDRESS [SEQ_LLAPTHRESH1]REG= 0x3390, 0x0000 // MCU_DATA_0REG= 0x338C, 0xA11F // MCU_ADDRESS [SEQ_LLAPTHRESH2]REG= 0x3390, 0x0004 // MCU_DATA_0[Flip and Mirror]REG= 0x338C, 0x2719 // MCU_ADDRESS [MODE_SENSOR_READ_MODE_A]REG= 0x3390, 0x046F // MCU_DATA_0REG= 0x338C, 0x273B // MCU_ADDRESS [MODE_SENSOR_READ_MODE_B]REG= 0x3390, 0x0027 // MCU_DATA_0REG= 0x338C, 0xA103 // MCU_ADDRESS [SEQ_CMD]REG= 0x3390, 0x0006 // MCU_DATA_0[Noise Reduction Test]//Reduce Histogram to 0% ClippingREG= 0x338C, 0xAB05 // MCU_ADDRESS [HG_PERCENT]REG= 0x3390, 0x0000 // MCU_DATA_0//Use New Gamma Table with Noise KillREG= 0x338C, 0xA76D // MCU_ADDRESS [MODE_GAM_CONT_A]REG= 0x3390, 0x0003 // MCU_DATA_0REG= 0x338C, 0xA76E // MCU_ADDRESS [MODE_GAM_CONT_B]REG= 0x3390, 0x0003 // MCU_DATA_0REG= 0x338C, 0xA76F // MCU_ADDRESS [MODE_GAM_TABLE_A_0]REG= 0x3390, 0x0000 // MCU_DATA_0REG= 0x338C, 0xA770 // MCU_ADDRESS [MODE_GAM_TABLE_A_1]REG= 0x3390, 0x0015 // MCU_DATA_0REG= 0x338C, 0xA771 // MCU_ADDRESS [MODE_GAM_TABLE_A_2]REG= 0x3390, 0x0025 // MCU_DATA_0REG= 0x338C, 0xA772 // MCU_ADDRESS [MODE_GAM_TABLE_A_3]REG= 0x3390, 0x003F // MCU_DATA_0REG= 0x338C, 0xA773 // MCU_ADDRESS [MODE_GAM_TABLE_A_4]REG= 0x3390, 0x0064 // MCU_DATA_0REG= 0x338C, 0xA774 // MCU_ADDRESS [MODE_GAM_TABLE_A_5]REG= 0x3390, 0x0080 // MCU_DATA_0REG= 0x338C, 0xA775 // MCU_ADDRESS [MODE_GAM_TABLE_A_6]REG= 0x3390, 0x0097 // MCU_DATA_0REG= 0x338C, 0xA776 // MCU_ADDRESS [MODE_GAM_TABLE_A_7]REG= 0x3390, 0x00A9 // MCU_DATA_0REG= 0x338C, 0xA777 // MCU_ADDRESS [MODE_GAM_TABLE_A_8]REG= 0x3390, 0x00BA // MCU_DATA_0REG= 0x338C, 0xA778 // MCU_ADDRESS [MODE_GAM_TABLE_A_9]REG= 0x3390, 0x00C7 // MCU_DATA_0REG= 0x338C, 0xA779 // MCU_ADDRESS [MODE_GAM_TABLE_A_10]REG= 0x3390, 0x00D2 // MCU_DATA_0REG= 0x338C, 0xA77A // MCU_ADDRESS [MODE_GAM_TABLE_A_11]REG= 0x3390, 0x00DC // MCU_DATA_0REG= 0x338C, 0xA77B // MCU_ADDRESS [MODE_GAM_TABLE_A_12]REG= 0x3390, 0x00E4 // MCU_DATA_0REG= 0x338C, 0xA77C // MCU_ADDRESS [MODE_GAM_TABLE_A_13]REG= 0x3390, 0x00EA // MCU_DATA_0REG= 0x338C, 0xA77D // MCU_ADDRESS [MODE_GAM_TABLE_A_14]REG= 0x3390, 0x00F0 // MCU_DATA_0REG= 0x338C, 0xA77E // MCU_ADDRESS [MODE_GAM_TABLE_A_15]REG= 0x3390, 0x00F4 // MCU_DATA_0REG= 0x338C, 0xA77F // MCU_ADDRESS [MODE_GAM_TABLE_A_16]REG= 0x3390, 0x00F8 // MCU_DATA_0REG= 0x338C, 0xA780 // MCU_ADDRESS [MODE_GAM_TABLE_A_17]REG= 0x3390, 0x00FC // MCU_DATA_0REG= 0x338C, 0xA781 // MCU_ADDRESS [MODE_GAM_TABLE_A_18]REG= 0x3390, 0x00FF // MCU_DATA_0REG= 0x338C, 0xA782 // MCU_ADDRESS [MODE_GAM_TABLE_B_0]REG= 0x3390, 0x0000 // MCU_DATA_0REG= 0x338C, 0xA783 // MCU_ADDRESS [MODE_GAM_TABLE_B_1]REG= 0x3390, 0x0015 // MCU_DATA_0REG= 0x338C, 0xA784 // MCU_ADDRESS [MODE_GAM_TABLE_B_2]REG= 0x3390, 0x0025 // MCU_DATA_0REG= 0x338C, 0xA785 // MCU_ADDRESS [MODE_GAM_TABLE_B_3]REG= 0x3390, 0x003F // MCU_DATA_0REG= 0x338C, 0xA786 // MCU_ADDRESS [MODE_GAM_TABLE_B_4]REG= 0x3390, 0x0064 // MCU_DATA_0REG= 0x338C, 0xA787 // MCU_ADDRESS [MODE_GAM_TABLE_B_5]REG= 0x3390, 0x0080 // MCU_DATA_0REG= 0x338C, 0xA788 // MCU_ADDRESS [MODE_GAM_TABLE_B_6]REG= 0x3390, 0x0097 // MCU_DATA_0REG= 0x338C, 0xA789 // MCU_ADDRESS [MODE_GAM_TABLE_B_7]REG= 0x3390, 0x00A9 // MCU_DATA_0REG= 0x338C, 0xA78A // MCU_ADDRESS [MODE_GAM_TABLE_B_8]REG= 0x3390, 0x00BA // MCU_DATA_0REG= 0x338C, 0xA78B // MCU_ADDRESS [MODE_GAM_TABLE_B_9]REG= 0x3390, 0x00C7 // MCU_DATA_0REG= 0x338C, 0xA78C // MCU_ADDRESS [MODE_GAM_TABLE_B_10]REG= 0x3390, 0x00D2 // MCU_DATA_0REG= 0x338C, 0xA78D // MCU_ADDRESS [MODE_GAM_TABLE_B_11]REG= 0x3390, 0x00DC // MCU_DATA_0REG= 0x338C, 0xA78E // MCU_ADDRESS [MODE_GAM_TABLE_B_12]REG= 0x3390, 0x00E4 // MCU_DATA_0REG= 0x338C, 0xA78F // MCU_ADDRESS [MODE_GAM_TABLE_B_13]REG= 0x3390, 0x00EA // MCU_DATA_0REG= 0x338C, 0xA790 // MCU_ADDRESS [MODE_GAM_TABLE_B_14]REG= 0x3390, 0x00F0 // MCU_DATA_0REG= 0x338C, 0xA791 // MCU_ADDRESS [MODE_GAM_TABLE_B_15]REG= 0x3390, 0x00F4 // MCU_DATA_0REG= 0x338C, 0xA792 // MCU_ADDRESS [MODE_GAM_TABLE_B_16]REG= 0x3390, 0x00F8 // MCU_DATA_0REG= 0x338C, 0xA793 // MCU_ADDRESS [MODE_GAM_TABLE_B_17]REG= 0x3390, 0x00FC // MCU_DATA_0REG= 0x338C, 0xA794 // MCU_ADDRESS [MODE_GAM_TABLE_B_18]REG= 0x3390, 0x00FF // MCU_DATA_0REG= 0x338C, 0xA103 // MCU_ADDRESS [SEQ_CMD]REG= 0x3390, 0x0006 // MCU_DATA_0//Boost Color In YUV SpaceBITFIELD=0x35A4, 0x0007, 0x0006 //Color kill saturation point//New Sequencer SettingsREG= 0x338C, 0xA118 // MCU_ADDRESS [SEQ_LLSAT1]REG= 0x3390, 0x001E // MCU_DATA_0REG= 0x338C, 0xA119 // MCU_ADDRESS [SEQ_LLSAT2]REG= 0x3390, 0x0004 // MCU_DATA_0REG= 0x338C, 0xA11A // MCU_ADDRESS [SEQ_LLINTERPTHRESH1]REG= 0x3390, 0x000A // MCU_DATA_0REG= 0x338C, 0xA11B // MCU_ADDRESS [SEQ_LLINTERPTHRESH2]REG= 0x3390, 0x0020 // MCU_DATA_0//Noise SetupREG= 0x338C, 0xA13E // MCU_ADDRESS [SEQ_NR_TH1_R]REG= 0x3390, 0x0004 // MCU_DATA_0REG= 0x338C, 0xA13F // MCU_ADDRESS [SEQ_NR_TH1_G]REG= 0x3390, 0x000E // MCU_DATA_0REG= 0x338C, 0xA140 // MCU_ADDRESS [SEQ_NR_TH1_B]REG= 0x3390, 0x0004 // MCU_DATA_0REG= 0x338C, 0xA141 // MCU_ADDRESS [SEQ_NR_TH1_OL]REG= 0x3390, 0x0004 // MCU_DATA_0REG= 0x338C, 0xA142 // MCU_ADDRESS [SEQ_NR_TH2_R]REG= 0x3390, 0x0032 // MCU_DATA_0REG= 0x338C, 0xA143 // MCU_ADDRESS [SEQ_NR_TH2_G]REG= 0x3390, 0x000F // MCU_DATA_0REG= 0x338C, 0xA144 // MCU_ADDRESS [SEQ_NR_TH2_B]REG= 0x3390, 0x0032 // MCU_DATA_0REG= 0x338C, 0xA145 // MCU_ADDRESS [SEQ_NR_TH2_OL]REG= 0x3390, 0x0032 // MCU_DATA_0REG= 0x338C, 0xA146 // MCU_ADDRESS [SEQ_NR_GAINTH1]REG= 0x3390, 0x0005 // MCU_DATA_0REG= 0x338C, 0xA147 // MCU_ADDRESS [SEQ_NR_GAINTH2]REG= 0x3390, 0x003A // MCU_DATA_0[Lens Calibration Setup]//---------------------------------------------------// This Setup can be used to calibrate the lens//---------------------------------------------------REG= 0x338C, 0xA102 // MCU_ADDRESS [SEQ_MODE]REG= 0x3390, 0x0000 // MCU_DATA_0BITFIELD=0x3210, 0x0004, 0 //turn off Enable lens shadingREG=0x3212, 0x0001 // FACTORY_BYPASSDELAY=1000REG=0x3330, 0x0140 // OUTPUT_FORMAT_TEST (LC bypass)DELAY=1000STATE=Lens Correction Overlay, 1[Color Setup]//---------------------------------------------------// This Setup can be used to calibrate the color//---------------------------------------------------REG= 0x338C, 0xAB04 // MCU_ADDRESS [HG_MAX_DLEVEL]REG= 0x3390, 0x0000 // MCU_DATA_0REG= 0x338C, 0xA353 // MCU_ADDRESS [AWB_MODE]REG= 0x3390, 0x0021 // MCU_DATA_0DELAY=1000REG= 0x338C, 0xA102 // MCU_ADDRESS [SEQ_MODE]REG= 0x3390, 0x0000 // MCU_DATA_0DELAY=1000BITFIELD=0x3210, 0x00A0, 0 //turn off gamma correction and color correctionREG=0x3028, 0x0008 //(1) ANALOGUE_GAIN_CODE_GLOBAL[True Gray Setup]//---------------------------------------------------// This Setup can be used to calibrate true grey TH// When calibrating True Gray, we recommend that the//user first load the [Power up] section and then this // [True Gray Setup] preset and not load any other // preset because if noise reduction related preset// is included, the color saturation is altered.  //---------------------------------------------------REG= 0x338C, 0xAB04 // MCU_ADDRESS [HG_MAX_DLEVEL]REG= 0x3390, 0x0000 // MCU_DATA_0REG= 0x338C, 0x2318 // MCU_ADDRESS [AWB_CCM_L_9]REG= 0x3390, 0x0020 // MCU_DATA_0REG= 0x338C, 0x231A // MCU_ADDRESS [AWB_CCM_L_10]REG= 0x3390, 0x0020 // MCU_DATA_0REG= 0x338C, 0x232E // MCU_ADDRESS [AWB_CCM_RL_9]REG= 0x3390, 0x0000 // MCU_DATA_0REG= 0x338C, 0x2330 // MCU_ADDRESS [AWB_CCM_RL_10]REG= 0x3390, 0x0000 // MCU_DATA_0REG= 0x338C, 0xA353 // MCU_ADDRESS [AWB_MODE]REG= 0x3390, 0x0021 // MCU_DATA_0BITFIELD=0x3210, 0x00A0, 0 //turn off gamma correction and color correction[8 bit walking 1 test pattern] REG=0x3212, 0x0000      //(1) FACTORY_BYPASS REG=0x3290, 0x0020      //(1) TEST_PATTERN REG=0x3386, 0x0501      //(1) MCU_BOOT_MODE [10 bit walking 1 test pattern] REG=0x3212, 0x0000      //(1) FACTORY_BYPASS REG=0x3290, 0x0060      //(1) TEST_PATTERN REG=0x3386, 0x0501      //(1) MCU_BOOT_MODE [high power preview mode -  nongated pixclk] //-----------------------------------------------------// This setup enables the user to get non-gated pixclk // running in context A and half of the speed compared// to context B.  The example uses a 24MHz input clk // and an output of 80MHz.  Therefore context A clk // speed is 40MHz and context B is 80MHz.  Please note // user needs to first use Register Wizard v1.2 to // generate timing settings for high power preview mode//-----------------------------------------------------REG = 0, 0x341E, 0x8F09        //PLL/ Clk_in control: BYPASS PLL = 36617 REG = 0, 0x341C, 0x0250        //PLL Control 1 = 288 REG = 0, 0x341E, 0x8F09        //PLL/ Clk_in control: PLL ON, bypassed = 36617 DELAY = 200                   // More than ample time to allow PLL to lock REG = 0, 0x341E, 0x8F08        //PLL/ Clk_in control: USE PLL = 36616 //Set Watermark and enable Half rate mode REG=0x321E, 0x0014      //(1) OF_WATERMARK REG=0x321C, 0x0006      //(1) OF_CONTROL_STATUS REG=0x3216, 0x82DF      //(1) INTERNAL_CLOCK_CONTROL REG=0x3212, 0x0002      //(1) FACTORY_BYPASS [SOC2020 MIPI 640Mbps SVGA EXTCLK=24MHz OP_PIX_CLK=80MHz]// Disable Parallel and StandbyREG=0x301A, 0x0208 // RESET_REGISTERREG=0x3202, 0x0008 // STANDBY_CONTROL// Setup PLLREG=0x341C, 0x0250 // PLL_DIVIDERS1REG=0x341E, 0x8F09 // PLL_CLK_IN_CONTROLDELAY=250REG=0x341E, 0x8F08 // PLL_CLK_IN_CONTROLDELAY=100// Prepare internal clocksREG=0x3216, 0x825F // INTERNAL_CLOCK_CONTROLREG=0x3212, 0x0002 // FACTORY_BYPASSDELAY=100// Misc MIPI settingsREG=0x3410, 0x0F06 // MIPI_PRE_HS_TXREG=0x3414, 0x0A3A // MIPI_CLOCK_OVERLAP//REG=0x3404, 0x002B // MIPI_DATA_TYPEDELAY=250// Enable MIPIREG=0x3400, 0x000D // MIPI_CONTROLDELAY=250REG=0x3400, 0x0009 // MIPI_CONTROL// Enable streamingREG=0x301A, 0x020C // RESET_REGISTER[HIDDEN: 30fps HD]//// Date: 10/18/2010 Probelms with this configuration have been reported - DO NOT USE//// This file was generated by: MT9D112 (SOC2020) Register Wizard//   Version: 2.11.0.16    Build Date: 07/31/2008// // [PLL PARAMETERS]// // Bypass PLL: Unchecked// Input Frequency: 24.000// Use Min Freq.: Unchecked// Target PLL Frequency: 80.000// Target VCO Frequency: Unspecified// "M" Value: Unspecified// "N" Value: Unspecified// // Target PLL Frequency: 80 MHz// Input Clock Frequency: 24 MHz// // Actual PLL Frequency: 80 MHz// // M = 80// N = 2// Fpdf = 8 MHz// Fvco = 640 MHz// // // REG = 0x338C, 0x2703        //Output Width (A)REG = 0x3390, 0x0500        //      = 1280REG = 0x338C, 0x2705        //Output Height (A)REG = 0x3390, 0x02d0        //      = 720REG = 0x338C, 0x270D        //Row Start (A)REG = 0x3390, 0x004        //      = 4REG = 0x338C, 0x270F        //Column Start (A)REG = 0x3390, 0x004        //      = 4REG = 0x338C, 0x2711        //Row End (A)REG = 0x3390, 0x2dB        //      = 731REG = 0x338C, 0x2713        //Column End (A)REG = 0x3390, 0x50b        //      = 1291REG = 0x338C, 0x2715        //Extra Delay (A)REG = 0x3390, 0x65a        //      = 1626REG = 0x338C, 0x2717        //Row Speed (A)REG = 0x3390, 0x2111        //      = 8465REG = 0x338C, 0x2719        //Read Mode (A)REG = 0x3390, 0x0024        //      = 36REG = 0x338C, 0x271B        //sensor_sample_time_pck (A)REG = 0x3390, 0x0120        //      = 288REG = 0x338C, 0x271D        //sensor_fine_correction (A)REG = 0x3390, 0x00A4        //      = 164REG = 0x338C, 0x271F        //sensor_fine_IT_min (A)REG = 0x3390, 0x0169        //      = 361REG = 0x338C, 0x2721        //sensor_fine_IT_max_margin (A)REG = 0x3390, 0x00A4        //      = 164REG = 0x338C, 0x2723        //Frame Lines (A)REG = 0x3390, 737           //      = 781REG = 0x338C, 0x2725        //Line Length (A)REG = 0x3390, 0x06e4        //      = 1764REG = 0x338C, 0x2727        //sensor_dac_id_4_5 (A)REG = 0x3390, 0x2020        //      = 8224REG = 0x338C, 0x2729        //sensor_dac_id_6_7 (A)REG = 0x3390, 0x2020        //      = 8224REG = 0x338C, 0x272B        //sensor_dac_id_8_9 (A)REG = 0x3390, 0x1020        //      = 4128REG = 0x338C, 0x272D        //sensor_dac_id_10_11 (A)REG = 0x3390, 0x2007        //      = 8199REG = 0x338C, 0x2751        //Crop_X0 (A)REG = 0x3390, 0x0000        //      = 0REG = 0x338C, 0x2753        //Crop_X1 (A)REG = 0x3390, 0x0500        //      = 1280REG = 0x338C, 0x2755        //Crop_Y0 (A)REG = 0x3390, 0x0000        //      = 0REG = 0x338C, 0x2757        //Crop_Y1 (A)REG = 0x3390, 0x02d0        //      = 720REG = 0x338C, 0x222E        //R9 StepREG = 0x3390, 0x00bd        //      = 189REG = 0x338C, 0xA408        //search_f1_50REG = 0x3390, 0x2d        //      = 45REG = 0x338C, 0xA409        //search_f2_50REG = 0x3390, 0x30        //      = 48REG = 0x338C, 0xA40A        //search_f1_60REG = 0x3390, 0x36        //      = 54REG = 0x338C, 0xA40B        //search_f2_60REG = 0x3390, 0x39        //      = 57REG = 0x338C, 0x2411        //R9_Step_60 (A)REG = 0x3390, 0x00bd        //      = 189REG = 0x338C, 0x2413        //R9_Step_50 (A)REG = 0x3390, 0x00e3        //      = 227REG = 0x338C, 0xA40D        //Stat_minREG = 0x3390, 0x02        //      = 2REG = 0x338C, 0xA410        //Min_amplitudeREG = 0x3390, 0x01        //      = 1REG = 0x338C, 0xA103        //Refresh Sequencer ModeREG = 0x3390, 0x06        //      = 6POLL_FIELD=SEQ_CMD, !=0, DELAY=10, TIMEOUT=100  // wait for command to be processedREG = 0x338C, 0xA103        //Refresh SequencerREG = 0x3390, 0x05        //      = 5POLL_FIELD=SEQ_CMD, !=0, DELAY=10, TIMEOUT=100  // wait for command to be processedVAR8= 2, 0x000C, 0x04 // AE_MAX_INDEXVAR8= 1, 0x0003, 0x05 // SEQ_CMD
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