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771 lines
27 KiB
INI
771 lines
27 KiB
INI
;**************************************************************************************
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; Copyright 2006 Micron Technology, Inc. All rights reserved.
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;
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;
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; No permission to use, copy, modify, or distribute this software and/or
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; its documentation for any purpose has been granted by Micron Technology, Inc.
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; If any such permission has been granted ( by separate agreement ), it
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; is required that the above copyright notice appear in all copies and
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; that both that copyright notice and this permission notice appear in
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; supporting documentation, and that the name of Micron Technology, Inc. or any
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; of its trademarks may not be used in advertising or publicity pertaining
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; to distribution of the software without specific, written prior permission.
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;
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;
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; This software and any associated documentation are provided "AS IS" and
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; without warranty of any kind. MICRON TECHNOLOGY, INC. EXPRESSLY DISCLAIMS
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; ALL WARRANTIES EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO, NONINFRINGEMENT
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; OF THIRD PARTY RIGHTS, AND ANY IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS
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; FOR A PARTICULAR PURPOSE. MICRON DOES NOT WARRANT THAT THE FUNCTIONS CONTAINED
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; IN THIS SOFTWARE WILL MEET YOUR REQUIREMENTS, OR THAT THE OPERATION OF THIS SOFTWARE
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; WILL BE UNINTERRUPTED OR ERROR-FREE. FURTHERMORE, MICRON DOES NOT WARRANT OR
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; MAKE ANY REPRESENTATIONS REGARDING THE USE OR THE RESULTS OF THE USE OF ANY
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; ACCOMPANYING DOCUMENTATION IN TERMS OF ITS CORRECTNESS, ACCURACY, RELIABILITY,
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; OR OTHERWISE.
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;**************************************************************************************/
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;
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; Default INI file for the MI-0380-REV1
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; <<< MT9V113-MTM8.ini >>>
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; $Revision: 1.3 $
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; $Date: 2007/04/22 07:13:21 $
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;
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; This file holds groups of register presets (sections) specific for this sensor. The
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; presets allow you to overwrite the power-on default settings with optimized register
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; settings.
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; The [Default Registers] section contains all optimized register settings for running
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; the sensor in the demo environment. Other sections include settings optimized for a
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; variety of situations like: Running at different master clock speeds, running under
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; different lighting situations, running with different lenses, etc.
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; Most of the demonstration software (DevWare, SensorDemo, ...) make use of this file
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; to load and store the user presets.
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;
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; Keyname description:
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; REG = assign a new register value
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; BITFIELD = do a READ-MODIFY-WRITE to part of a register. The part is defined as a mask.
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; LOAD = load an alternate section from this section
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; STATE = set non-register state
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; DELAY = delay a certain amount of milliseconds before continuing
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;
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; Keyname format:
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; REG = [<page>,] <address>, <value> //<comment>
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; BITFIELD = [<page>,] <address>, <mask>, <value>
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; Some examples:
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; BITFIELD=2, 0x05, 0x0020, 1 //for register 5 on page 2, set the 6th bit to 1
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; BITFIELD=0x06, 0x000F, 0 //for register 6, clear the first 4 bits
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; LOAD = <section>
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; STATE = <state>, <value>
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; DELAY = <milliseconds>
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;
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; <page> Optional address space for this register. Some sensors (mostly SOC's)
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; have multiple register pages (see the sensor spec or developer's guide)
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; <address> the register address
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; <value> the new value to assign to the register
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; <mask> is the part of a register value that needs to be updated with a new value
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; <section> the name of another section to load
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; <state> non-register program state names [do not modify]
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; <milliseconds> wait for this ammount of milliseconds before continuing
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; <comment> Some form of C-style comments are supported in this .ini file
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;
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;*************************************************************************************/
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[Default Registers]
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LOAD=Initialize Camera
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DELAY=300
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//STATE=Gamma, 9
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//STATE=Black Correct, 5
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//STATE=Contrast, 25
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LOAD=Image Setting ExtClk=16.76MHz Op_Pix=27.5MHz 15fps
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//LOAD=Image Setting ExtClk=6.75MHz Op_Pix=27.5MHz 15fps
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//LOAD=Fixed 15fps
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LOAD=Lens Correction
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LOAD=Auto Exposure
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LOAD=Auto White Balance
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LOAD=Gamma Correction
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LOAD=Sharpness : 0
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LOAD=Refresh
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[Initialize Camera]
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IMAGE=320,240
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REG=0x001A, 0x0011 // RESET_AND_MISC_CONTROL
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DELAY=10
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REG=0x001A, 0x0010 // RESET_AND_MISC_CONTROL
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DELAY=10
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REG=0x0018, 0x4028 // STANDBY_CONTROL
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REG=0x001A, 0x0210 // RESET_AND_MISC_CONTROL
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REG=0x001E, 0x0777 // PAD_SLEW
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REG=0x0016, 0x42DF // CLOCKS_CONTROL
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//REG=0x0010, 0x0231 // PLL_DIVIDERS
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//REG=0x0012, 0x0000 // PLL_P_DIVIDERS
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REG=0x0014, 0x2147 // PLL_CONTROL
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DELAY=10
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REG=0x0014, 0x2047 // PLL_CONTROL
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DELAY=10
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REG=0x0014, 0xA046 // PLL_CONTROL
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DELAY=10
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REG=0x3040, 0x0027 // READ_MODE
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REG=0x301A, 0x1218 // RESET_REGISTER
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DELAY=100
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REG=0x301A, 0x121C // RESET_REGISTER
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//VAR=7, 0x03, 0x0140 // MODE_OUTPUT_WIDTH_A
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//VAR=7, 0x05, 0x00F0 // MODE_OUTPUT_HEIGHT_A
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//VAR=7, 0x07, 0x0280 // MODE_OUTPUT_WIDTH_B
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//VAR=7, 0x09, 0x01E0 // MODE_OUTPUT_HEIGHT_B
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VAR=7, 0x17, 0x0026 // MODE_SENSOR_READ_MODE_A
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VAR=7, 0x2D, 0x0026 // MODE_SENSOR_READ_MODE_B
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VAR8=1, 0x03, 0x06 //(1) SEQ_CMD
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////////////////////////////////////////////////////////////////////////////////
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; This file was generated by: MT9V113 (SOC0380) Register Wizard
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; Version: 2.8.0.53 Build Date: 06/06/2007
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;
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; [PLL PARAMETERS]
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;
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; Bypass PLL: Unchecked
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; Input Frequency: 6.750
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; Use Min Freq.: Unchecked
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; Target System Frequency: 27.844
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; Target VCO Frequency: Unspecified
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; "M" Value: Unspecified
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; "N" Value: Unspecified
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;
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; Target PLL Frequency: 27.500 MHz
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; MT9V113 Input Clock Frequency: 6.750 MHz
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; MT9V113 Internal Clock Frequency: 27.844 MHz
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; MT9V113 SOC Clock Frequency: 27.844 MHz
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; M = 33
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; N = 0
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; Fpdf = 6.750 MHz
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; Fvco = 445.500 MHz
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;
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; [CONTEXT A PARAMETERS]
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;
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; Requested Frames Per Second: 14.645
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; Output Columns: 640
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; Output Rows: 480
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; Allow Skipping: Unchecked
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; Use Context B Line Time: Unchecked
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; Low Power: Unchecked
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; Blanking Computation: HB Min then VB
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;
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; Max Frame Time: 68.2827 msec
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; Max Frame Clocks: 950623.0 clocks (13.922 MHz)
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; Pixel Clock: divided by 1
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; Skip Mode: 1x cols, 1x rows, Bin Mode: No
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; Horiz clks: 648 active + 194 blank = 842 total
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; Vert rows: 488 active + 641 blank = 1129 total
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; Extra Delay: 5 clocks
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;
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; Actual Frame Clocks: 950623 clocks
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; Row Time: 60.480 usec / 842 clocks
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; Frame time: 68.282685 msec
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; Frames per Sec: 14.645 fps
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;
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; 50Hz Flicker Period: 165.34 lines
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; 60Hz Flicker Period: 137.79 lines
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;
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; [CONTEXT B PARAMETERS]
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;
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; Requested Frames Per Second: 14.645
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; Output Columns: 640
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; Output Rows: 480
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; Allow Skipping: Unchecked
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; Use Context A Line Time: Unchecked
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; Low Power: Unchecked
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; Blanking Computation: HB Min then VB
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;
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; Max Frame Time: 68.2827 msec
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; Max Frame Clocks: 950623.0 clocks (13.922 MHz)
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; Pixel Clock: divided by 1
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; Skip Mode: 1x cols, 1x rows, Bin Mode: No
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; Horiz clks: 648 active + 194 blank = 842 total
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; Vert rows: 488 active + 641 blank = 1129 total
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; Extra Delay: 5 clocks
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;
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; Actual Frame Clocks: 950623 clocks
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; Row Time: 60.480 usec / 842 clocks
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; Frame time: 68.282685 msec
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; Frames per Sec: 14.645 fps
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;
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; 50Hz Flicker Period: 165.34 lines
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; 60Hz Flicker Period: 137.79 lines
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;
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;
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[Image Setting ExtClk=6.75MHz Op_Pix=27.5MHz 15fps]
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BITFIELD= 0x14, 1, 1 // Bypass PLL
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BITFIELD= 0X14, 2, 0 // Power-down PLL
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REG = 0x0010, 0x0021 //PLL Dividers = 0x21
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REG = 0x0012, 0x0000 //PLL P Dividers = 0x0
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REG = 0x0014, 0x244B //PLL control: TEST_BYPASS on = 0x244B
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DELAY = 1 // Allow PLL to lock
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REG = 0x0014, 0x304B //PLL control: PLL_ENABLE on = 0x304B
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POLL_REG=0x0014, 0x8000, ==0, DELAY=50, TIMEOUT=20 // Verify PLL lock
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BITFIELD= 0x14, 1, 0 //PLL_BYPASS_OFF
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REG = 0x98C, 0x2703 //Output Width (A)
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REG = 0x990, 0x0280 // = 640
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REG = 0x98C, 0x2705 //Output Height (A)
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REG = 0x990, 0x01E0 // = 480
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REG = 0x98C, 0x2707 //Output Width (B)
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REG = 0x990, 0x0280 // = 640
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REG = 0x98C, 0x2709 //Output Height (B)
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REG = 0x990, 0x01E0 // = 480
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REG = 0x98C, 0x270D //Row Start (A)
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REG = 0x990, 0x004 // = 4
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REG = 0x98C, 0x270F //Column Start (A)
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REG = 0x990, 0x004 // = 4
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REG = 0x98C, 0x2711 //Row End (A)
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REG = 0x990, 0x1EB // = 491
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REG = 0x98C, 0x2713 //Column End (A)
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REG = 0x990, 0x28B // = 651
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REG = 0x98C, 0x2715 //Row Speed (A)
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REG = 0x990, 0x0001 // = 1
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REG = 0x98C, 0x2717 //Read Mode (A)
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REG = 0x990, 0x0026 // = 38
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REG = 0x98C, 0x2719 //sensor_fine_correction (A)
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REG = 0x990, 0x001A // = 26
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REG = 0x98C, 0x271B //sensor_fine_IT_min (A)
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REG = 0x990, 0x006B // = 107
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REG = 0x98C, 0x271D //sensor_fine_IT_max_margin (A)
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REG = 0x990, 0x006B // = 107
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REG = 0x98C, 0x271F //Frame Lines (A)
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REG = 0x990, 0x0469 // = 1129
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REG = 0x98C, 0x2721 //Line Length (A)
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REG = 0x990, 0x034A // = 842
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REG = 0x98C, 0x2723 //Row Start (B)
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REG = 0x990, 0x004 // = 4
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REG = 0x98C, 0x2725 //Column Start (B)
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REG = 0x990, 0x004 // = 4
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REG = 0x98C, 0x2727 //Row End (B)
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REG = 0x990, 0x1EB // = 491
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REG = 0x98C, 0x2729 //Column End (B)
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REG = 0x990, 0x28B // = 651
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REG = 0x98C, 0x272B //Row Speed (B)
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REG = 0x990, 0x0001 // = 1
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REG = 0x98C, 0x272D //Read Mode (B)
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REG = 0x990, 0x0026 // = 38
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REG = 0x98C, 0x272F //sensor_fine_correction (B)
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REG = 0x990, 0x001A // = 26
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REG = 0x98C, 0x2731 //sensor_fine_IT_min (B)
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REG = 0x990, 0x006B // = 107
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REG = 0x98C, 0x2733 //sensor_fine_IT_max_margin (B)
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REG = 0x990, 0x006B // = 107
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REG = 0x98C, 0x2735 //Frame Lines (B)
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REG = 0x990, 0x0469 // = 1129
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REG = 0x98C, 0x2737 //Line Length (B)
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REG = 0x990, 0x034A // = 842
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REG = 0x98C, 0x2739 //Crop_X0 (A)
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REG = 0x990, 0x0000 // = 0
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REG = 0x98C, 0x273B //Crop_X1 (A)
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REG = 0x990, 0x027F // = 639
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REG = 0x98C, 0x273D //Crop_Y0 (A)
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REG = 0x990, 0x0000 // = 0
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REG = 0x98C, 0x273F //Crop_Y1 (A)
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REG = 0x990, 0x01DF // = 479
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REG = 0x98C, 0x2747 //Crop_X0 (B)
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REG = 0x990, 0x0000 // = 0
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REG = 0x98C, 0x2749 //Crop_X1 (B)
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REG = 0x990, 0x027F // = 639
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REG = 0x98C, 0x274B //Crop_Y0 (B)
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REG = 0x990, 0x0000 // = 0
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REG = 0x98C, 0x274D //Crop_Y1 (B)
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REG = 0x990, 0x01DF // = 479
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REG = 0x98C, 0x222D //R9 Step
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REG = 0x990, 0x008A // = 138
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REG = 0x98C, 0xA408 //search_f1_50
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REG = 0x990, 0x19 // = 25
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REG = 0x98C, 0xA409 //search_f2_50
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REG = 0x990, 0x1C // = 28
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REG = 0x98C, 0xA40A //search_f1_60
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REG = 0x990, 0x1F // = 31
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REG = 0x98C, 0xA40B //search_f2_60
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REG = 0x990, 0x22 // = 34
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REG = 0x98C, 0x2411 //R9_Step_60_A
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REG = 0x990, 0x008A // = 138
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REG = 0x98C, 0x2413 //R9_Step_50_A
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REG = 0x990, 0x00A5 // = 165
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REG = 0x98C, 0x2415 //R9_Step_60_B
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REG = 0x990, 0x008A // = 138
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REG = 0x98C, 0x2417 //R9_Step_50_B
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REG = 0x990, 0x00A5 // = 165
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REG = 0x98C, 0xA40D //Stat_min
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REG = 0x990, 0x02 // = 2
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REG = 0x98C, 0xA410 //Min_amplitude
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REG = 0x990, 0x01 // = 1
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////////////////////////////////////////////////////////////////////////////////
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; This file was generated by: MT9V113 (SOC0380) Register Wizard
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; Version: 2.9.0.2 Build Date: 06/29/2007
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;
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; [PLL PARAMETERS]
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;
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; Bypass PLL: Unchecked
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; Input Frequency: 16.760
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; Use Min Freq.: Unchecked
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; Target System Frequency: 27.759
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; Target VCO Frequency: Unspecified
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; "M" Value: Unspecified
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; "N" Value: Unspecified
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;
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; Target PLL Frequency: 27.500 MHz
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; MT9V113 Input Clock Frequency: 16.760 MHz
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; MT9V113 Internal Clock Frequency: 27.759 MHz
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; MT9V113 SOC Clock Frequency: 27.759 MHz
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; M = 53
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; N = 3
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; Fpdf = 4.190 MHz
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; Fvco = 444.140 MHz
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;
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; [CONTEXT A PARAMETERS]
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;
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; Requested Frames Per Second: 15.000
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; Output Columns: 640
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; Output Rows: 480
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; Allow Skipping: Unchecked
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; Use Context B Line Time: Unchecked
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; Low Power: Unchecked
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; Blanking Computation: HB Min then VB
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;
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; Max Frame Time: 66.6667 msec
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; Max Frame Clocks: 925291.6 clocks (13.879 MHz)
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; Pixel Clock: divided by 1
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; Skip Mode: 1x cols, 1x rows, Bin Mode: No
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; Horiz clks: 648 active + 194 blank = 842 total
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; Vert rows: 488 active + 610 blank = 1098 total
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; Extra Delay: 775 clocks
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;
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; Actual Frame Clocks: 925291 clocks
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; Row Time: 60.666 usec / 842 clocks
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; Frame time: 66.666619 msec
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; Frames per Sec: 15 fps
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;
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; 50Hz Flicker Period: 164.84 lines
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; 60Hz Flicker Period: 137.37 lines
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;
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; [CONTEXT B PARAMETERS]
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;
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; Requested Frames Per Second: 15.000
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; Output Columns: 640
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; Output Rows: 480
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; Allow Skipping: Unchecked
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; Use Context A Line Time: Unchecked
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; Low Power: Unchecked
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; Blanking Computation: HB Min then VB
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;
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; Max Frame Time: 66.6667 msec
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; Max Frame Clocks: 925291.6 clocks (13.879 MHz)
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; Pixel Clock: divided by 1
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; Skip Mode: 1x cols, 1x rows, Bin Mode: No
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; Horiz clks: 648 active + 194 blank = 842 total
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; Vert rows: 488 active + 610 blank = 1098 total
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; Extra Delay: 775 clocks
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;
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; Actual Frame Clocks: 925291 clocks
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; Row Time: 60.666 usec / 842 clocks
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; Frame time: 66.666619 msec
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; Frames per Sec: 15 fps
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;
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; 50Hz Flicker Period: 164.84 lines
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; 60Hz Flicker Period: 137.37 lines
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;
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;
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[Image Setting ExtClk=16.76MHz Op_Pix=27.5MHz 15fps]
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BITFIELD= 0x14, 1, 1 // Bypass PLL
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BITFIELD= 0X14, 2, 0 // Power-down PLL
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REG = 0x0010, 0x0335 //PLL Dividers = 0x335
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REG = 0x0012, 0x0000 //PLL P Dividers = 0x0
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REG = 0x0014, 0x244B //PLL control: TEST_BYPASS on = 0x244B
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DELAY = 1 // Allow PLL to lock
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REG = 0x0014, 0x304B //PLL control: PLL_ENABLE on = 0x304B
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POLL_REG=0x0014, 0x8000, ==0, DELAY=50, TIMEOUT=20 // Verify PLL lock
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BITFIELD= 0x14, 1, 0 //PLL_BYPASS_OFF
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REG = 0x98C, 0x2703 //Output Width (A)
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REG = 0x990, 0x0280 // = 640
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REG = 0x98C, 0x2705 //Output Height (A)
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REG = 0x990, 0x01E0 // = 480
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REG = 0x98C, 0x2707 //Output Width (B)
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REG = 0x990, 0x0280 // = 640
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REG = 0x98C, 0x2709 //Output Height (B)
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REG = 0x990, 0x01E0 // = 480
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REG = 0x98C, 0x270D //Row Start (A)
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REG = 0x990, 0x004 // = 4
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REG = 0x98C, 0x270F //Column Start (A)
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REG = 0x990, 0x004 // = 4
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REG = 0x98C, 0x2711 //Row End (A)
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REG = 0x990, 0x1EB // = 491
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REG = 0x98C, 0x2713 //Column End (A)
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REG = 0x990, 0x28B // = 651
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REG = 0x98C, 0x2715 //Row Speed (A)
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REG = 0x990, 0x0001 // = 1
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REG = 0x98C, 0x2717 //Read Mode (A)
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REG = 0x990, 0x0026 // = 38
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REG = 0x98C, 0x2719 //sensor_fine_correction (A)
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REG = 0x990, 0x001A // = 26
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REG = 0x98C, 0x271B //sensor_fine_IT_min (A)
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|
REG = 0x990, 0x006B // = 107
|
|
REG = 0x98C, 0x271D //sensor_fine_IT_max_margin (A)
|
|
REG = 0x990, 0x006B // = 107
|
|
REG = 0x98C, 0x271F //Frame Lines (A)
|
|
REG = 0x990, 0x044A // = 1098
|
|
REG = 0x98C, 0x2721 //Line Length (A)
|
|
REG = 0x990, 0x034A // = 842
|
|
REG = 0x98C, 0x2723 //Row Start (B)
|
|
REG = 0x990, 0x004 // = 4
|
|
REG = 0x98C, 0x2725 //Column Start (B)
|
|
REG = 0x990, 0x004 // = 4
|
|
REG = 0x98C, 0x2727 //Row End (B)
|
|
REG = 0x990, 0x1EB // = 491
|
|
REG = 0x98C, 0x2729 //Column End (B)
|
|
REG = 0x990, 0x28B // = 651
|
|
REG = 0x98C, 0x272B //Row Speed (B)
|
|
REG = 0x990, 0x0001 // = 1
|
|
REG = 0x98C, 0x272D //Read Mode (B)
|
|
REG = 0x990, 0x0026 // = 38
|
|
REG = 0x98C, 0x272F //sensor_fine_correction (B)
|
|
REG = 0x990, 0x001A // = 26
|
|
REG = 0x98C, 0x2731 //sensor_fine_IT_min (B)
|
|
REG = 0x990, 0x006B // = 107
|
|
REG = 0x98C, 0x2733 //sensor_fine_IT_max_margin (B)
|
|
REG = 0x990, 0x006B // = 107
|
|
REG = 0x98C, 0x2735 //Frame Lines (B)
|
|
REG = 0x990, 0x044A // = 1098
|
|
REG = 0x98C, 0x2737 //Line Length (B)
|
|
REG = 0x990, 0x034A // = 842
|
|
REG = 0x98C, 0x2739 //Crop_X0 (A)
|
|
REG = 0x990, 0x0000 // = 0
|
|
REG = 0x98C, 0x273B //Crop_X1 (A)
|
|
REG = 0x990, 0x027F // = 639
|
|
REG = 0x98C, 0x273D //Crop_Y0 (A)
|
|
REG = 0x990, 0x0000 // = 0
|
|
REG = 0x98C, 0x273F //Crop_Y1 (A)
|
|
REG = 0x990, 0x01DF // = 479
|
|
REG = 0x98C, 0x2747 //Crop_X0 (B)
|
|
REG = 0x990, 0x0000 // = 0
|
|
REG = 0x98C, 0x2749 //Crop_X1 (B)
|
|
REG = 0x990, 0x027F // = 639
|
|
REG = 0x98C, 0x274B //Crop_Y0 (B)
|
|
REG = 0x990, 0x0000 // = 0
|
|
REG = 0x98C, 0x274D //Crop_Y1 (B)
|
|
REG = 0x990, 0x01DF // = 479
|
|
REG = 0x98C, 0x222D //R9 Step
|
|
REG = 0x990, 0x0089 // = 137
|
|
REG = 0x98C, 0xA408 //search_f1_50
|
|
REG = 0x990, 0x19 // = 25
|
|
REG = 0x98C, 0xA409 //search_f2_50
|
|
REG = 0x990, 0x1C // = 28
|
|
REG = 0x98C, 0xA40A //search_f1_60
|
|
REG = 0x990, 0x1F // = 31
|
|
REG = 0x98C, 0xA40B //search_f2_60
|
|
REG = 0x990, 0x22 // = 34
|
|
REG = 0x98C, 0x2411 //R9_Step_60_A
|
|
REG = 0x990, 0x0089 // = 137
|
|
REG = 0x98C, 0x2413 //R9_Step_50_A
|
|
REG = 0x990, 0x00A5 // = 165
|
|
REG = 0x98C, 0x2415 //R9_Step_60_B
|
|
REG = 0x990, 0x0089 // = 137
|
|
REG = 0x98C, 0x2417 //R9_Step_50_B
|
|
REG = 0x990, 0x00A5 // = 165
|
|
REG = 0x98C, 0xA40D //Stat_min
|
|
REG = 0x990, 0x02 // = 2
|
|
REG = 0x98C, 0xA410 //Min_amplitude
|
|
REG = 0x990, 0x01 // = 1
|
|
|
|
[Viewfinder ON]
|
|
FIELD_WR = SEQ_CAP_MODE, VIDEO, 0 //capture parameters, VIDEO Off
|
|
FIELD_WR = SEQ_CMD, 1 //Back to preview
|
|
|
|
[Viewfinder OFF]
|
|
FIELD_WR = SEQ_CAP_MODE, VIDEO, 1 //capture parameters, VIDEO On
|
|
FIELD_WR = SEQ_CMD, 2 //Capture on
|
|
|
|
[Video Capture ON]
|
|
FIELD_WR = SEQ_CAP_MODE, VIDEO, 1 //capture parameters, VIDEO On
|
|
FIELD_WR = SEQ_CMD, 2 //Capture on
|
|
|
|
[Video Capture OFF]
|
|
FIELD_WR = SEQ_CMD, 1 //Back to preview
|
|
|
|
[Lens Calibration Setup]
|
|
REG=0x3330, 0x0140 //(2) OUTPUT_FORMAT_TEST
|
|
BITFIELD=0x3040, 0x002, 0
|
|
|
|
[Lens Calibration Exit]
|
|
BITFIELD=0x3040, 0x002, 1
|
|
REG=0x3330, 0x0000 //(4) OUTPUT_FORMAT_TEST
|
|
BITFIELD=0x3210, 0x08, 1
|
|
|
|
[Fixed 15fps]
|
|
VAR8=2, 0x0C, 0x08 //(1) AE_MAX_INDEX
|
|
VAR=7, 0x1F, 0x076C //(1) MODE_SENSOR_FRAME_LENGTH_A
|
|
|
|
[Refresh]
|
|
REG = 0x98C, 0xA103 //Refresh Sequencer Mode
|
|
REG = 0x990, 0x06 // = 6
|
|
POLL_FIELD=SEQ_CMD, !=0, DELAY=10, TIMEOUT=50
|
|
REG = 0x98C, 0xA103 //Refresh Sequencer
|
|
REG = 0x990, 0x05 // = 5
|
|
POLL_FIELD=SEQ_CMD, !=0, DELAY=10, TIMEOUT=50
|
|
|
|
[Auto Exposure]
|
|
VAR8=2, 0x07, 0x1A //(2) AE_GATE
|
|
VAR8=2, 0x4C, 0x10 //(1) AE_TARGETBUFFERSPEED
|
|
VAR8=2, 0x4F, 0x50 //(5) AE_BASETARGET
|
|
|
|
[Gamma Correction]
|
|
VAR8=11, 0x04, 0x80 //(1) HG_MAX_DLEVEL
|
|
|
|
VAR8=11, 0x37, 0x03 //(1) HG_GAMMA_MORPH_CTRL
|
|
VAR=11, 0x38, 0x0080 //(1) HG_GAMMASTARTMORPH
|
|
VAR=11, 0x3A, 0x00B0 //(1) HG_GAMMASTOPMORPH
|
|
VAR8=11, 0x3C, 0x00 //(2) HG_GAMMA_TABLE_A_0
|
|
VAR8=11, 0x3D, 0x02 //(2) HG_GAMMA_TABLE_A_1
|
|
VAR8=11, 0x3E, 0x08 //(2) HG_GAMMA_TABLE_A_2
|
|
VAR8=11, 0x3F, 0x18 //(2) HG_GAMMA_TABLE_A_3
|
|
VAR8=11, 0x40, 0x38 //(2) HG_GAMMA_TABLE_A_4
|
|
VAR8=11, 0x41, 0x55 //(2) HG_GAMMA_TABLE_A_5
|
|
VAR8=11, 0x42, 0x72 //(2) HG_GAMMA_TABLE_A_6
|
|
VAR8=11, 0x43, 0x8E //(2) HG_GAMMA_TABLE_A_7
|
|
VAR8=11, 0x44, 0xA5 //(2) HG_GAMMA_TABLE_A_8
|
|
VAR8=11, 0x45, 0xB6 //(2) HG_GAMMA_TABLE_A_9
|
|
VAR8=11, 0x46, 0xC5 //(2) HG_GAMMA_TABLE_A_10
|
|
VAR8=11, 0x47, 0xD0 //(2) HG_GAMMA_TABLE_A_11
|
|
VAR8=11, 0x48, 0xDA //(2) HG_GAMMA_TABLE_A_12
|
|
VAR8=11, 0x49, 0xE2 //(2) HG_GAMMA_TABLE_A_13
|
|
VAR8=11, 0x4A, 0xE9 //(2) HG_GAMMA_TABLE_A_14
|
|
VAR8=11, 0x4B, 0xF0 //(2) HG_GAMMA_TABLE_A_15
|
|
VAR8=11, 0x4C, 0xF5 //(2) HG_GAMMA_TABLE_A_16
|
|
VAR8=11, 0x4D, 0xFA //(2) HG_GAMMA_TABLE_A_17
|
|
VAR8=11, 0x4E, 0xFF //(2) HG_GAMMA_TABLE_A_18
|
|
VAR8=11, 0x4F, 0x00 //(2) HG_GAMMA_TABLE_B_0
|
|
VAR8=11, 0x50, 0x01 //(2) HG_GAMMA_TABLE_B_1
|
|
VAR8=11, 0x51, 0x02 //(2) HG_GAMMA_TABLE_B_2
|
|
VAR8=11, 0x52, 0x05 //(2) HG_GAMMA_TABLE_B_3
|
|
VAR8=11, 0x53, 0x11 //(2) HG_GAMMA_TABLE_B_4
|
|
VAR8=11, 0x54, 0x1E //(2) HG_GAMMA_TABLE_B_5
|
|
VAR8=11, 0x55, 0x2D //(2) HG_GAMMA_TABLE_B_6
|
|
VAR8=11, 0x56, 0x3F //(2) HG_GAMMA_TABLE_B_7
|
|
VAR8=11, 0x57, 0x53 //(2) HG_GAMMA_TABLE_B_8
|
|
VAR8=11, 0x58, 0x6B //(2) HG_GAMMA_TABLE_B_9
|
|
VAR8=11, 0x59, 0x87 //(2) HG_GAMMA_TABLE_B_10
|
|
VAR8=11, 0x5A, 0xA0 //(2) HG_GAMMA_TABLE_B_11
|
|
VAR8=11, 0x5B, 0xB5 //(2) HG_GAMMA_TABLE_B_12
|
|
VAR8=11, 0x5C, 0xC7 //(2) HG_GAMMA_TABLE_B_13
|
|
VAR8=11, 0x5D, 0xD6 //(2) HG_GAMMA_TABLE_B_14
|
|
VAR8=11, 0x5E, 0xE2 //(2) HG_GAMMA_TABLE_B_15
|
|
VAR8=11, 0x5F, 0xED //(2) HG_GAMMA_TABLE_B_16
|
|
VAR8=11, 0x60, 0xF6 //(2) HG_GAMMA_TABLE_B_17
|
|
VAR8=11, 0x61, 0xFF //(2) HG_GAMMA_TABLE_B_18
|
|
|
|
[Auto White Balance]
|
|
VAR=3, 0x06, 0x019B //AWB_CCM_L_0
|
|
VAR=3, 0x08, 0xFF4D //AWB_CCM_L_1
|
|
VAR=3, 0x0A, 0x001C //AWB_CCM_L_2
|
|
VAR=3, 0x0C, 0xFF00 //AWB_CCM_L_3
|
|
VAR=3, 0x0E, 0x02FE //AWB_CCM_L_4
|
|
VAR=3, 0x10, 0xFF14 //AWB_CCM_L_5
|
|
VAR=3, 0x12, 0xFF24 //AWB_CCM_L_6
|
|
VAR=3, 0x14, 0xFD7F //AWB_CCM_L_7
|
|
VAR=3, 0x16, 0x03E9 //AWB_CCM_L_8
|
|
VAR=3, 0x18, 0x002A //AWB_CCM_L_9
|
|
VAR=3, 0x1A, 0x003A //AWB_CCM_L_10
|
|
VAR=3, 0x1C, 0x0020 //AWB_CCM_RL_0
|
|
VAR=3, 0x1E, 0x0065 //AWB_CCM_RL_1
|
|
VAR=3, 0x20, 0xFFB1 //AWB_CCM_RL_2
|
|
VAR=3, 0x22, 0x0063 //AWB_CCM_RL_3
|
|
VAR=3, 0x24, 0xFE8C //AWB_CCM_RL_4
|
|
VAR=3, 0x26, 0x006A //AWB_CCM_RL_5
|
|
VAR=3, 0x28, 0x0077 //AWB_CCM_RL_6
|
|
VAR=3, 0x2A, 0x0161 //AWB_CCM_RL_7
|
|
VAR=3, 0x2C, 0xFE76 //AWB_CCM_RL_8
|
|
VAR=3, 0x2E, 0x0009 //AWB_CCM_RL_9
|
|
VAR=3, 0x30, 0xFFEC //AWB_CCM_RL_10
|
|
|
|
VAR8=3, 0x5D, 0x73 //(1) AWB_STEADY_BGAIN_OUT_MIN
|
|
VAR8=3, 0x5E, 0x8D //(1) AWB_STEADY_BGAIN_OUT_MAX
|
|
|
|
|
|
[Lens Correction]
|
|
REG=0x3658, 0x7D8F //P_RD_P0Q0
|
|
REG=0x365A, 0x314D //P_RD_P0Q1
|
|
REG=0x365C, 0x7912 //P_RD_P0Q2
|
|
REG=0x365E, 0xA10F //P_RD_P0Q3
|
|
REG=0x3660, 0x6874 //P_RD_P0Q4
|
|
REG=0x3680, 0x1F0B //P_RD_P1Q0
|
|
REG=0x3682, 0xD48C //P_RD_P1Q1
|
|
REG=0x3684, 0x0E72 //P_RD_P1Q2
|
|
REG=0x3686, 0x6B51 //P_RD_P1Q3
|
|
REG=0x3688, 0x91F1 //P_RD_P1Q4
|
|
REG=0x36A8, 0x1293 //P_RD_P2Q0
|
|
REG=0x36AA, 0x04F0 //P_RD_P2Q1
|
|
REG=0x36AC, 0x40D6 //P_RD_P2Q2
|
|
REG=0x36AE, 0x1931 //P_RD_P2Q3
|
|
REG=0x36B0, 0xFCD7 //P_RD_P2Q4
|
|
REG=0x36D0, 0x34D1 //P_RD_P3Q0
|
|
REG=0x36D2, 0x5C92 //P_RD_P3Q1
|
|
REG=0x36D4, 0xEDF5 //P_RD_P3Q2
|
|
REG=0x36D6, 0x56B4 //P_RD_P3Q3
|
|
REG=0x36D8, 0x47F9 //P_RD_P3Q4
|
|
REG=0x36F8, 0x4175 //P_RD_P4Q0
|
|
REG=0x36FA, 0xC7F4 //P_RD_P4Q1
|
|
REG=0x36FC, 0xE738 //P_RD_P4Q2
|
|
REG=0x36FE, 0x8C98 //P_RD_P4Q3
|
|
REG=0x3700, 0x4D5C //P_RD_P4Q4
|
|
REG=0x364E, 0x7D0F //P_GR_P0Q0
|
|
REG=0x3650, 0x31CC //P_GR_P0Q1
|
|
REG=0x3652, 0x47D2 //P_GR_P0Q2
|
|
REG=0x3654, 0xC58F //P_GR_P0Q3
|
|
REG=0x3656, 0x2374 //P_GR_P0Q4
|
|
REG=0x3676, 0x232A //P_GR_P1Q0
|
|
REG=0x3678, 0x6186 //P_GR_P1Q1
|
|
REG=0x367A, 0x1852 //P_GR_P1Q2
|
|
REG=0x367C, 0x1F30 //P_GR_P1Q3
|
|
REG=0x367E, 0x9D14 //P_GR_P1Q4
|
|
REG=0x369E, 0x6A52 //P_GR_P2Q0
|
|
REG=0x36A0, 0x3450 //P_GR_P2Q1
|
|
REG=0x36A2, 0x3A96 //P_GR_P2Q2
|
|
REG=0x36A4, 0x93B4 //P_GR_P2Q3
|
|
REG=0x36A6, 0xF5B8 //P_GR_P2Q4
|
|
REG=0x36C6, 0x3D11 //P_GR_P3Q0
|
|
REG=0x36C8, 0x2832 //P_GR_P3Q1
|
|
REG=0x36CA, 0xA816 //P_GR_P3Q2
|
|
REG=0x36CC, 0x2BD4 //P_GR_P3Q3
|
|
REG=0x36CE, 0x7479 //P_GR_P3Q4
|
|
REG=0x36EE, 0x2175 //P_GR_P4Q0
|
|
REG=0x36F0, 0xC714 //P_GR_P4Q1
|
|
REG=0x36F2, 0xC339 //P_GR_P4Q2
|
|
REG=0x36F4, 0x47B6 //P_GR_P4Q3
|
|
REG=0x36F6, 0x0BBD //P_GR_P4Q4
|
|
REG=0x3662, 0x7CAF //P_BL_P0Q0
|
|
REG=0x3664, 0x6BEC //P_BL_P0Q1
|
|
REG=0x3666, 0x4CD2 //P_BL_P0Q2
|
|
REG=0x3668, 0xE80F //P_BL_P0Q3
|
|
REG=0x366A, 0x7B53 //P_BL_P0Q4
|
|
REG=0x368A, 0x2B8B //P_BL_P1Q0
|
|
REG=0x368C, 0x2C0B //P_BL_P1Q1
|
|
REG=0x368E, 0x0EF2 //P_BL_P1Q2
|
|
REG=0x3690, 0x77F0 //P_BL_P1Q3
|
|
REG=0x3692, 0xA1D4 //P_BL_P1Q4
|
|
REG=0x36B2, 0x53B2 //P_BL_P2Q0
|
|
REG=0x36B4, 0x5670 //P_BL_P2Q1
|
|
REG=0x36B6, 0x1D76 //P_BL_P2Q2
|
|
REG=0x36B8, 0xAD10 //P_BL_P2Q3
|
|
REG=0x36BA, 0x8179 //P_BL_P2Q4
|
|
REG=0x36DA, 0x6611 //P_BL_P3Q0
|
|
REG=0x36DC, 0x09D3 //P_BL_P3Q1
|
|
REG=0x36DE, 0xB976 //P_BL_P3Q2
|
|
REG=0x36E0, 0x7F14 //P_BL_P3Q3
|
|
REG=0x36E2, 0x7AD9 //P_BL_P3Q4
|
|
REG=0x3702, 0x16D5 //P_BL_P4Q0
|
|
REG=0x3704, 0x8CD5 //P_BL_P4Q1
|
|
REG=0x3706, 0xD2F9 //P_BL_P4Q2
|
|
REG=0x3708, 0x9316 //P_BL_P4Q3
|
|
REG=0x370A, 0x1BDD //P_BL_P4Q4
|
|
REG=0x366C, 0x7BEF //P_GB_P0Q0
|
|
REG=0x366E, 0x300C //P_GB_P0Q1
|
|
REG=0x3670, 0x4FF2 //P_GB_P0Q2
|
|
REG=0x3672, 0xA2AF //P_GB_P0Q3
|
|
REG=0x3674, 0x1EF4 //P_GB_P0Q4
|
|
REG=0x3694, 0x570B //P_GB_P1Q0
|
|
REG=0x3696, 0xA4A7 //P_GB_P1Q1
|
|
REG=0x3698, 0x1392 //P_GB_P1Q2
|
|
REG=0x369A, 0x4430 //P_GB_P1Q3
|
|
REG=0x369C, 0x82D4 //P_GB_P1Q4
|
|
REG=0x36BC, 0x5F12 //P_GB_P2Q0
|
|
REG=0x36BE, 0x40D0 //P_GB_P2Q1
|
|
REG=0x36C0, 0x2ED6 //P_GB_P2Q2
|
|
REG=0x36C2, 0x95B4 //P_GB_P2Q3
|
|
REG=0x36C4, 0xEA18 //P_GB_P2Q4
|
|
REG=0x36E4, 0x3191 //P_GB_P3Q0
|
|
REG=0x36E6, 0x3632 //P_GB_P3Q1
|
|
REG=0x36E8, 0xA476 //P_GB_P3Q2
|
|
REG=0x36EA, 0xE411 //P_GB_P3Q3
|
|
REG=0x36EC, 0x7339 //P_GB_P3Q4
|
|
REG=0x370C, 0x2655 //P_GB_P4Q0
|
|
REG=0x370E, 0xE994 //P_GB_P4Q1
|
|
REG=0x3710, 0xA5D9 //P_GB_P4Q2
|
|
REG=0x3712, 0x4777 //P_GB_P4Q3
|
|
REG=0x3714, 0x7B9C //P_GB_P4Q4
|
|
REG=0x3644, 0x0158 //POLY_ORIGIN_C
|
|
REG=0x3642, 0x00E4 //POLY_ORIGIN_R
|
|
STATE=Lens Correction Falloff, 90
|
|
STATE=Lens Correction Center X, 344
|
|
STATE=Lens Correction Center Y, 228
|
|
BITFIELD=0x3210, 0x0008, 1 //PGA_ENABLE
|
|
|
|
[Image Size : VGA]
|
|
VAR=7, 0x03, 0x0280 //MODE_OUTPUT_WIDTH_A
|
|
VAR=7, 0x05, 0x01E0 //MODE_OUTPUT_HEIGHT_A
|
|
VAR8=1, 0x03, 0x05 //SEQ_CMD
|
|
|
|
[Image Size : QVGA]
|
|
VAR=7, 0x03, 0x0140 //MODE_OUTPUT_WIDTH_A
|
|
VAR=7, 0x05, 0x00F0 //MODE_OUTPUT_HEIGHT_A
|
|
VAR8=1, 0x03, 0x05 //SEQ_CMD
|
|
|
|
[Image Size : CIF]
|
|
VAR=7, 0x03, 0x0160 //MODE_OUTPUT_WIDTH_A
|
|
VAR=7, 0x05, 0x0120 //MODE_OUTPUT_HEIGHT_A
|
|
VAR8=1, 0x03, 0x05 //SEQ_CMD
|
|
|
|
[Image Size : QCIF]
|
|
VAR=7, 0x03, 0x00B0 //MODE_OUTPUT_WIDTH_A
|
|
VAR=7, 0x05, 0x0090 //MODE_OUTPUT_HEIGHT_A
|
|
VAR8=1, 0x03, 0x05 //SEQ_CMD
|
|
|
|
[Effect : Off]
|
|
VAR8=1, 0x03, 0x05 //SEQ_CMD
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|
VAR=7, 0x59, 0x6440 //MODE_SPEC_EFFECTS_A
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VAR=7, 0x5B, 0x6440 //MODE_SPEC_EFFECTS_B
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[Effect : Mono]
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VAR=7, 0x59, 0x6441 //MODE_SPEC_EFFECTS_A
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VAR=7, 0x5B, 0x6441 //MODE_SPEC_EFFECTS_B
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VAR8=1, 0x03, 0x05 //SEQ_CMD
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[Effect : Sepia]
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VAR=7, 0x59, 0x6442 //MODE_SPEC_EFFECTS_A
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VAR=7, 0x5B, 0x6442 //MODE_SPEC_EFFECTS_B
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VAR=7, 0x63, 0xA921 //MODE_COMMONMODESETTINGS_FX_SEPIA_SETTINGS
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VAR8=1, 0x03, 0x05 //SEQ_CMD
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[Manual WB -> Auto WB]
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VAR8=1, 0x02, 0x0F //SEQ_MODE
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[Manual White Balance : P1]
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VAR8=1, 0x02, 0x0B //SEQ_MODE
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VAR8=3, 0x53, 0x0 //AWB_CCM_POSITION
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[Manual White Balance : P2]
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VAR8=1, 0x02, 0x0B //SEQ_MODE
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VAR8=3, 0x53, 0x12 //AWB_CCM_POSITION
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[Manual White Balance : P3]
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VAR8=1, 0x02, 0x0B //SEQ_MODE
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VAR8=3, 0x53, 0x24 //AWB_CCM_POSITION
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[Manual White Balance : P4]
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VAR8=1, 0x02, 0x0B //SEQ_MODE
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VAR8=3, 0x53, 0x36 //AWB_CCM_POSITION
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[Manual White Balance : P5]
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VAR8=1, 0x02, 0x0B //SEQ_MODE
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VAR8=3, 0x53, 0x48 //AWB_CCM_POSITION
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[Manual White Balance : P6]
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VAR8=1, 0x02, 0x0B //SEQ_MODE
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VAR8=3, 0x53, 0x5A //AWB_CCM_POSITION
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[Manual White Balance : P7]
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VAR8=1, 0x02, 0x0B //SEQ_MODE
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VAR8=3, 0x53, 0x6C //AWB_CCM_POSITION
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[Manual White Balance : P8]
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VAR8=1, 0x02, 0x0B //SEQ_MODE
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VAR8=3, 0x53, 0x7F //AWB_CCM_POSITION
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[Sharpness : 0]
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REG=0x326C, 0x1600 //APERTURE_PARAMETERS
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