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ovcam.c
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ovcam.c
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/*
* Copyright (c) 2007-2010, Regents of the University of California
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* - Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
* - Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
* - Neither the name of the University of California, Berkeley nor the names
* of its contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*
*
* OmniVision OV7660 Camera (ovcam) Configuration Interface (SCCB)
*
* by Fernando L. Garcia Bermudez
*
* v.beta
*
* Revisions:
* Fernando L. Garcia Bermudez 2007-9-10 Initial release
*
* Notes:
* - Uses an I2C(SCCB) port for configuring the camera.
*/
#include "p33Fxxxx.h"
#include "i2c.h"
#include "ovcam.h"
#include "utils.h"
// I2Cx Registers
#if (defined(__IMAGEPROC1) || defined(__IMAGEPROC2))
#define I2C_TRN I2C1TRN
#define I2C_RCV I2C1RCV
#define I2C_BRG I2C1BRG
#define I2C_STATbits I2C1STATbits
#define I2C_CON I2C1CON
#define I2C_CONbits I2C1CONbits
#endif
// Device Slave Addresses
#define IDADDR_W 0x42
#define IDADDR_R 0x43
/* OV7660 Control Registers */
// Common Control
#define COM1 0x04
#define COM2 0x09
#define COM3 0x0C
#define COM5 0x0E
#define COM6 0x0F
#define COM7 0x12
#define COM8 0x13
#define COM9 0x14
#define COM10 0x15
#define COM11 0x3B
#define COM12 0x3C
#define COM13 0x3D
#define COM15 0x40
#define COM16 0x41
#define COM17 0x42
// Data Format
#define CLKRC 0x11
#define PSHFT 0x1B
#define TSLB 0x3A
#define MVFP 0x1E
#define HREF 0x32
#define HSTART 0x17
#define HSTOP 0x18
#define VREF 0x03
#define VSTRT 0x19
#define VSTOP 0x1A
// Edge Enhancement
#define EDGE 0x3F
#define DSPC2 0xA0
// Banding Filter
#define BD50ST 0x9D
#define BD60ST 0x9E
#define HV 0x69
#define DBLV 0x6B
// Gain/Exposure
#define GAIN 0x00
#define BLUE 0x01
#define RED 0x02
#define AECH 0x10
#define AEW 0x24
#define AEB 0x25
// Dummy Line
#define DM_LNL 0x92
#define DM_LNH 0x93
// Array
#define CHLF 0x33
#define ARBLM 0x34
// Matrix Coefficients
#define MTX1 0x4F
#define MTX2 0x50
#define MTX3 0x51
#define MTX4 0x52
#define MTX5 0x53
#define MTX6 0x54
#define MTX7 0x55
#define MTX8 0x56
#define MTX9 0x57
#define MTXS 0x58
// ADC
#define ACOM 0x38
#define OFON 0x39
/*----------------------------------------------------------------------------
* Declaration of private functions
---------------------------------------------------------------------------*/
static void ovcamSetupPeripheral(void);
//static void ovcamSetupOV7660 (void);
static inline void ovcamWriteByte (unsigned char byte);
static inline unsigned char ovcamReadByte (void);
static inline void ovcamNACK (void);
static inline void ovcamStartTx (void);
static inline void ovcamStopTx (void);
static inline void ovcamWaitTillIdle (void);
/*-----------------------------------------------------------------------------
* Public functions
-----------------------------------------------------------------------------*/
void ovcamSetup(void)
{
ovcamSetupPeripheral();
ovcamTurnOn();
delay_us(5000); // Wait for the camera to boot
ovcamSetupOV7660();
}
void ovcamWriteRegister (unsigned char subaddr, unsigned char data)
{
ovcamStartTx();
ovcamWriteByte(IDADDR_W);
ovcamWriteByte(subaddr);
ovcamWriteByte(data);
ovcamStopTx();
}
unsigned char ovcamReadRegister (unsigned char subaddr)
{
unsigned char data;
ovcamStartTx();
ovcamWriteByte(IDADDR_W);
ovcamWriteByte(subaddr);
ovcamStopTx();
ovcamStartTx();
ovcamWriteByte(IDADDR_R);
data = ovcamReadByte();
ovcamNACK();
ovcamStopTx();
return data;
}
/*-----------------------------------------------------------------------------
* Private functions (for internal use only)
-----------------------------------------------------------------------------*/
// Initializes the I2Cx bus for configuring the camera.
static void ovcamSetupPeripheral(void)
{
I2C_BRG = 363; // Fcy(1/Fscl - 1/1111111)-1
I2C_CON = I2C1_ON & I2C1_IDLE_CON & I2C1_CLK_HLD & I2C1_IPMI_DIS &
I2C1_7BIT_ADD & I2C1_SLW_DIS & I2C1_SM_DIS & I2C1_GCALL_DIS &
I2C1_STR_DIS & I2C1_NACK & I2C1_ACK_DIS & I2C1_RCV_DIS &
I2C1_STOP_DIS & I2C1_RESTART_DIS & I2C1_START_DIS;
ovcamWaitTillIdle();
}
// Configures the OV7660 camera.
//
// The initial reset is to be followed by at least 5ms of settling time. After
// that, the contents of all important registers are set to the required
// values. It seems that even though one needs to change only a few values
// from their defaults, the rest of the rewrites are necessary for proper
// functioning. Since some of the registers are undocumented in the datasheet,
// they might be calibration data (provided by the manufacturer). More testing
// is needed to make sure this is the right interpretation.
void ovcamSetupOV7660 (void)
{
// SCCB Register Reset
ovcamWriteRegister(COM7,0x80);
delay_us(5000); // Wait for the camera to boot
// Pixel Clock, Banding Filter, Exposure, Gain
ovcamWriteRegister(CLKRC,0x81); // PCLK = (XCLK/2)/2
ovcamWriteRegister(DM_LNL,0x48);
ovcamWriteRegister(DM_LNH,0x01);
ovcamWriteRegister(BD50ST,0x62);
ovcamWriteRegister(BD60ST,0x52);
ovcamWriteRegister(COM11,0x02); // 60Hz Banding Filter
ovcamWriteRegister(COM8,0xF2); // Banding Filter ON
ovcamWriteRegister(AECH,0x00);
ovcamWriteRegister(GAIN,0x00);
ovcamWriteRegister(BLUE,0x80);
ovcamWriteRegister(RED,0x80);
ovcamWriteRegister(COM8,0xF7); // AGC Gain + AWB + AEC Exposure
// Format
ovcamWriteRegister(COM7,0x10); // QVGA & YUV
ovcamWriteRegister(COM1,0x24); // QQVGA + HREF skip 3/4 rows (every other in QQVGA)
ovcamWriteRegister(COM3,0x02); // Horizontal no pixel average + VarioPixel Off (extra)
// Windowing
ovcamWriteRegister(HSTART,0x23); // Horizontal Frame Start (8 MSb's)
ovcamWriteRegister(HSTOP,0x4B); // Horizontal Frame Stop (8 MSb's)
ovcamWriteRegister(HREF,0xBF); // 3 LSb's for Horizontal Frame Start/Stop
ovcamWriteRegister(VSTRT,0x02); // Vertical Frame Start (8 MSb's)
ovcamWriteRegister(VSTOP,0x3E); // Vertical Frame Stop (8 MSb's)
ovcamWriteRegister(VREF,0x00); // 2 LSb's for Vertical Frame Start/Stop
ovcamWriteRegister(COM5,0x84); // Enable higher frame rates
ovcamWriteRegister(COM6,0x62); // Reset all timing on format change + BLC input
ovcamWriteRegister(COM10,0x02); // VSYNC Negative
ovcamWriteRegister(0x16,0x02);
ovcamWriteRegister(PSHFT,0x01);
ovcamWriteRegister(MVFP,0x39); // Mirror On and VFLIP On
ovcamWriteRegister(0x29,0x3C); // 20 for internal regulator
ovcamWriteRegister(CHLF,0x00);
ovcamWriteRegister(ARBLM,0x07);
ovcamWriteRegister(0x35,0x84);
ovcamWriteRegister(0x36,0x00);
ovcamWriteRegister(ACOM,0x13);
ovcamWriteRegister(OFON,0x43);
ovcamWriteRegister(TSLB,0x00); // YUYV output
ovcamWriteRegister(COM12,0x6C);
ovcamWriteRegister(COM13,0x90); // Gamma used for raw data before interpolation
ovcamWriteRegister(EDGE,0x29);
ovcamWriteRegister(COM15,0xC1); // Output Range 00-FF
ovcamWriteRegister(COM16,0x20); // Edge Enhancement for YUV
ovcamWriteRegister(DBLV,0x0A);
ovcamWriteRegister(0xA1,0xC8);
ovcamWriteRegister(HV,0x40);
ovcamWriteRegister(0x43,0xF0);
ovcamWriteRegister(0x44,0x10);
ovcamWriteRegister(0x45,0x78);
ovcamWriteRegister(0x46,0xA8);
ovcamWriteRegister(0x47,0x60);
ovcamWriteRegister(0x48,0x80);
ovcamWriteRegister(0x59,0xBA);
ovcamWriteRegister(0x5A,0x9A);
ovcamWriteRegister(0x5B,0x22);
ovcamWriteRegister(0x5C,0xB9);
ovcamWriteRegister(0x5D,0x9B);
ovcamWriteRegister(0x5E,0x10);
ovcamWriteRegister(0x5F,0xE0);
ovcamWriteRegister(0x60,0x85); // 05 for advanced AWB
ovcamWriteRegister(0x61,0x60);
ovcamWriteRegister(0x9F,0x9D);
ovcamWriteRegister(DSPC2,0xA0);
// Matrix Coefficients
ovcamWriteRegister(MTX1,0x66);
ovcamWriteRegister(MTX2,0x6B);
ovcamWriteRegister(MTX3,0x05);
ovcamWriteRegister(MTX4,0x19);
ovcamWriteRegister(MTX5,0x40);
ovcamWriteRegister(MTX6,0x59);
ovcamWriteRegister(MTX7,0x40);
ovcamWriteRegister(MTX8,0x40);
ovcamWriteRegister(MTX9,0x40);
ovcamWriteRegister(MTXS,0x0D);
ovcamWriteRegister(0x8B,0xCC);
ovcamWriteRegister(0x8C,0xCC);
ovcamWriteRegister(0x8D,0xCF);
// Gamma Curve
// GSP
ovcamWriteRegister(0x6C,0x40);
ovcamWriteRegister(0x6D,0x30);
ovcamWriteRegister(0x6E,0x4B);
ovcamWriteRegister(0x6F,0x60);
ovcamWriteRegister(0x70,0x70);
ovcamWriteRegister(0x71,0x70);
ovcamWriteRegister(0x72,0x70);
ovcamWriteRegister(0x73,0x70);
ovcamWriteRegister(0x74,0x60);
ovcamWriteRegister(0x75,0x60);
ovcamWriteRegister(0x76,0x50);
ovcamWriteRegister(0x77,0x48);
ovcamWriteRegister(0x78,0x3A);
ovcamWriteRegister(0x79,0x2E);
ovcamWriteRegister(0x7A,0x28);
ovcamWriteRegister(0x7B,0x22);
// GST
ovcamWriteRegister(0x7C,0x04);
ovcamWriteRegister(0x7D,0x07);
ovcamWriteRegister(0x7E,0x10);
ovcamWriteRegister(0x7F,0x28);
ovcamWriteRegister(0x80,0x36);
ovcamWriteRegister(0x81,0x44);
ovcamWriteRegister(0x82,0x52);
ovcamWriteRegister(0x83,0x60);
ovcamWriteRegister(0x84,0x6C);
ovcamWriteRegister(0x85,0x78);
ovcamWriteRegister(0x86,0x8C);
ovcamWriteRegister(0x87,0x9E);
ovcamWriteRegister(0x88,0xBB);
ovcamWriteRegister(0x89,0xD2);
ovcamWriteRegister(0x8A,0xE6);
ovcamWriteRegister(COM9,0x2E); // Automatic Gain Ceiling (AGC) is 4x + Drop frame policy
ovcamWriteRegister(AEW,0x68);
ovcamWriteRegister(AEB,0x58);
}
// Sends a byte to the camera.
//
// Parameters : byte to send.
static inline void ovcamWriteByte (unsigned char byte)
{
I2C_TRN = byte;
while(I2C_STATbits.TRSTAT);
ovcamWaitTillIdle();
while(I2C_STATbits.ACKSTAT);
}
// Receives a byte from the camera.
//
// Returns : received byte.
static inline unsigned char ovcamReadByte (void)
{
I2C_CONbits.RCEN = 1;
while(I2C_CONbits.RCEN);
I2C_STATbits.I2COV = 0;
return(I2C_RCV);
}
// Sends NACK to the camera.
static inline void ovcamNACK (void)
{
I2C_CONbits.ACKDT = 1;
I2C_CONbits.ACKEN = 1;
while(I2C_CONbits.ACKEN);
}
// Starts communication with the camera.
static inline void ovcamStartTx (void)
{
I2C_CONbits.SEN = 1;
while(I2C_CONbits.SEN);
}
// Stops communication with the camera.
static inline void ovcamStopTx (void)
{
I2C_CONbits.PEN = 1;
while(I2C_CONbits.PEN);
}
// Wait until I2C sus is inactive
static inline void ovcamWaitTillIdle (void)
{
while(I2C_CONbits.SEN || I2C_CONbits.PEN || I2C_CONbits.RCEN ||
I2C_CONbits.RSEN || I2C_CONbits.ACKEN || I2C_STATbits.TRSTAT);
}