LOCAL uint32_t Set_GT2005_Anti_Flicker(uint32_t mode)
{
//PLL Setting 15FPS Under 19.5MHz PCLK
Sensor_WriteReg(0x0116 , 0x01);
Sensor_WriteReg(0x0118 , 0x34);
Sensor_WriteReg(0x0119 , 0x01);
Sensor_WriteReg(0x011a , 0x04);
Sensor_WriteReg(0x011B , 0x01);
Sensor_WriteReg(0x0313 , 0x34);
Sensor_WriteReg(0x0314 , 0x3B);
switch(mode) {
case FLICKER_50HZ:
Sensor_WriteReg(0x0315 , 0x16);
break;
case FLICKER_60HZ:
Sensor_WriteReg(0x0315 , 0x56);
break;
default:
return 0;
}
SENSOR_TRACE("set_GT2005_anti_flicker-mode=%d",mode);
msleep(200);
return 0;
}
static void lensS5K3E2_focus_gotoPosition(FOCUS_CATEGORY category, INT32 position)
{
unsigned short Step;
g_pFocusPara.iFocusPosition = position;
Step = position;
//debug_msg("%s,%d,%d\r\n",__func__,position,Step);
if(Step)
{
Sensor_WriteReg(0x3130,0x03);
Sensor_WriteReg(0x3131,(Step&0xff00)>>8);
Sensor_WriteReg(0x3132,Step& 0xff);
}else{
static INT32 lensS5K3E2_zoom_initPart2(void)
{
//move from part1,because part1 not init iic
Sensor_WriteReg(0x3130,0x00);
return ERR_OK;
}
LOCAL uint32_t Set_GT2005_Preview_Mode(uint32_t preview_mode)
{
switch (preview_mode) {
case DCAMERA_ENVIRONMENT_NORMAL:
Sensor_WriteReg(0x0312, 0x98); // 1/2 Frame rate
break;
case DCAMERA_ENVIRONMENT_NIGHT:
Sensor_WriteReg(0x0312, 0xa8); // 1/3 Frame rate
break;
default:
break;
}
SENSOR_TRACE("set_GT2005_preview_mode: level = %d", preview_mode);
msleep(100);
return 0;
}
LOCAL uint32_t _ov8830_StreamOn(uint32_t param)
{
SENSOR_PRINT("SENSOR_ov8830: StreamOn");
Sensor_WriteReg(0x0100, 0x01);
return 0;
}
LOCAL void GT2005_Write_Group_Regs( SENSOR_REG_T* sensor_reg_ptr )
{
uint32_t i;
for(i = 0; (0xFF != sensor_reg_ptr[i].reg_addr) || (0xFF != sensor_reg_ptr[i].reg_value) ; i++) {
Sensor_WriteReg(sensor_reg_ptr[i].reg_addr, sensor_reg_ptr[i].reg_value);
}
}
LOCAL uint32_t _ov8830_StreamOff(uint32_t param)
{
SENSOR_PRINT("SENSOR_ov8830: StreamOff");
Sensor_WriteReg(0x0100, 0x00);
usleep(50*1000);
return 0;
}
LOCAL uint32_t _BF3905_StreamOff(uint32_t param)
{
SENSOR_PRINT("SENSOR: _BF3905_StreamOff");
int ret = 0;
ret = Sensor_WriteReg(0x09, 0x01); //81
SENSOR_Sleep(20);
return ret;
}
LOCAL uint32_t Sensor_Write_Regs( SENSOR_REG_T* sensor_reg_ptr )
{
uint32_t i;
for(i = 0; (0xFF != sensor_reg_ptr[i].reg_addr) && (0xFF != sensor_reg_ptr[i].reg_value) ; i++)
{
Sensor_WriteReg(sensor_reg_ptr[i].reg_addr, sensor_reg_ptr[i].reg_value);
}
return 0;
}
LOCAL uint32_t _BF3905_StreamOn(uint32_t param)
{
SENSOR_PRINT("SENSOR: _BF3905_StreamOn");
int ret = 0;
uint16_t read_val = 0;
ret = Sensor_WriteReg(0x09, 0x01);
SENSOR_Sleep(20);
//SENSOR_PRINT("SENSOR: read_BF3905, reg:0x3012 val: 0x%x.\n", read_val);
return ret;
}
LOCAL uint32_t OV9660_set_vmirror_enable(uint32_t enable)
{
uint16_t reg04;
Sensor_WriteReg(0xff, 0x01);
reg04 = Sensor_ReadReg(0x04);
if (enable)
{
reg04 = (reg04 | 0x50);
Sensor_WriteReg(0xff, 0x01);
Sensor_WriteReg(0x04, reg04);
}
else
{
reg04 = (reg04 & (~(0x50)));
Sensor_WriteReg(0xff, 0x01);
Sensor_WriteReg(0x04, reg04);
}
return 0;
}
LOCAL uint32_t OV7690_set_whitebalance_mode(uint32_t mode )
{
uint16_t i;
uint16_t temp;
SENSOR_REG_T* sensor_reg_ptr = (SENSOR_REG_T*)OV7690_WB_mode_tab[mode];
if(mode>6)
return 0;
temp = Sensor_ReadReg( 0x13 );
if (mode < 1 ) {
Sensor_WriteReg( 0x13, temp |BIT_1 );// Auto mode : enable auto white balanec
} else {
Sensor_WriteReg( 0x13, temp &( ~BIT_1) );// other mode : disable auto white balanec
}
for(i = 0; (0xFF != sensor_reg_ptr[i].reg_addr) || (0xFF != sensor_reg_ptr[i].reg_value); i++) {
Sensor_WriteReg(sensor_reg_ptr[i].reg_addr, sensor_reg_ptr[i].reg_value);
}
SENSOR_TRACE("OV7690_set_whitebalance_mode: mode = %d", mode);
return 0;
}
LOCAL uint32_t OV9660_set_ae_enable(uint32_t enable)
{
unsigned char value;
SENSOR_PRINT("OV9660_set_ae_enable: enable = %d", enable);
value = Sensor_ReadReg(0x13);
value &= 0xFE;
value |= enable;
Sensor_WriteReg(0x13, value);
return 0;
}
LOCAL uint32_t OV7690_set_work_mode(uint32_t mode)
{
uint16_t i;
SENSOR_REG_T* sensor_reg_ptr = (SENSOR_REG_T*)OV7690_mode_tab[mode];
SENSOR_ASSERT(mode <= 1);
SENSOR_ASSERT(PNULL != sensor_reg_ptr);
for(i = 0; (0xFF != sensor_reg_ptr[i].reg_addr) || (0xFF != sensor_reg_ptr[i].reg_value); i++) {
Sensor_WriteReg(sensor_reg_ptr[i].reg_addr, sensor_reg_ptr[i].reg_value);
}
SENSOR_TRACE("OV7690_set_work_mode: mode = %d", mode);
return 0;
}
LOCAL uint32_t SP0A19_set_brightness(uint32_t level)
{
uint16_t i;
SENSOR_REG_T* sensor_reg_ptr = (SENSOR_REG_T*)SP0A19_brightness_tab[level];
// SCI_ASSERT(PNULL != sensor_reg_ptr);
for(i = 0; (0xFF != sensor_reg_ptr[i].reg_addr) || (0xFF != sensor_reg_ptr[i].reg_value) ; i++)
{
Sensor_WriteReg(sensor_reg_ptr[i].reg_addr, sensor_reg_ptr[i].reg_value);
}
return 0;
}
LOCAL uint32_t set_ov7690_ev(uint32_t level)
{
uint16_t i;
SENSOR_REG_T* sensor_reg_ptr = (SENSOR_REG_T*)ov7690_ev_tab[level];
if(level>6)
return 0;
for(i = 0; (0xFF != sensor_reg_ptr[i].reg_addr) && (0xFF != sensor_reg_ptr[i].reg_value) ; i++) {
Sensor_WriteReg(sensor_reg_ptr[i].reg_addr, sensor_reg_ptr[i].reg_value);
}
SENSOR_TRACE("SENSOR: set_ov7690_ev: level = %d", level);
return 0;
}
LOCAL uint32_t SP0A19_set_image_effect(uint32_t effect_type)
{
uint16_t i;
SENSOR_REG_T* sensor_reg_ptr = (SENSOR_REG_T*)SP0A19_image_effect_tab[effect_type];
// SCI_ASSERT(PNULL != sensor_reg_ptr);
for(i = 0; (0xFF != sensor_reg_ptr[i].reg_addr) || (0xFF != sensor_reg_ptr[i].reg_value) ; i++)
{
Sensor_WriteReg(sensor_reg_ptr[i].reg_addr, sensor_reg_ptr[i].reg_value);
}
return 0;
}
LOCAL uint32_t set_OV9660_video_mode(uint32_t mode)
{
uint16_t i;
SENSOR_REG_T* sensor_reg_ptr = PNULL;
sensor_reg_ptr = (SENSOR_REG_T*)OV9660_video_mode_nand_tab[mode];
for(i = 0; (0xFF != sensor_reg_ptr[i].reg_addr)|| (0xFF != sensor_reg_ptr[i].reg_value); i++) {
Sensor_WriteReg(sensor_reg_ptr[i].reg_addr, sensor_reg_ptr[i].reg_value);
}
msleep(100);
SENSOR_PRINT("SENSOR: set_vodeo_mode: %d ",mode);
return 0;
}
LOCAL uint32_t _BF3905_set_anti_flicker(uint32_t mode)
{
SENSOR_REG_T_PTR sensor_reg_ptr=(SENSOR_REG_T_PTR)BF3905_anti_banding_flicker_tab[mode];
uint16_t i=0x00;
for(i=0x0; (0xff!=sensor_reg_ptr[i].reg_addr)||(0xff!=sensor_reg_ptr[i].reg_value); i++)
{
Sensor_WriteReg(sensor_reg_ptr[i].reg_addr, sensor_reg_ptr[i].reg_value);
}
SENSOR_PRINT("SENSOR: _BF3905_set_anti_flicker = 0x%02x \n", mode);
return 0;
}
LOCAL uint32_t set_OV9660_ev(uint32_t level)
{
uint16_t i;
SENSOR_REG_T* sensor_reg_ptr = (SENSOR_REG_T*)OV9660_ev_tab[level];
if(level >= 7) {
SENSOR_PRINT("set_OV9660_ev:param error,level=%d .\n",level);
return SENSOR_FAIL;
}
for(i = 0;(0xFF != sensor_reg_ptr[i].reg_addr) || (0xFF != sensor_reg_ptr[i].reg_value); i++) {
Sensor_WriteReg(sensor_reg_ptr[i].reg_addr, sensor_reg_ptr[i].reg_value);
}
msleep(100);
SENSOR_PRINT("SENSOR: set_ev: level = %d", level);
return 0;
}
LOCAL uint32_t set_OV9660_anti_flicker(uint32_t mode)
{//107 us
uint16_t i;
SENSOR_REG_T* sensor_reg_ptr = (SENSOR_REG_T*)OV9660_banding_flicker_tab[mode];
// SCI_ASSERT(PNULL != sensor_reg_ptr);
for(i = 0; (0xFF != sensor_reg_ptr[i].reg_addr)|| (0xFF != sensor_reg_ptr[i].reg_value); i++)
{
Sensor_WriteReg(sensor_reg_ptr[i].reg_addr, sensor_reg_ptr[i].reg_value);
}
msleep(100);
SENSOR_PRINT("SENSOR: set_OV9660_flicker: 0x%x .\n", mode);
return 0;
}
LOCAL uint32_t set_OV9660_awb(uint32_t mode)
{
uint16_t i;
SENSOR_REG_T* sensor_reg_ptr = (SENSOR_REG_T*)OV9660_awb_tab[mode];
if(mode >= 7) {
SENSOR_PRINT("set_OV9660_awb:param error,mode=%d\n",mode);
return SENSOR_FAIL;
}
for(i = 0; (0xFF != sensor_reg_ptr[i].reg_addr) || (0xFF != sensor_reg_ptr[i].reg_value); i++) {
Sensor_WriteReg(sensor_reg_ptr[i].reg_addr, sensor_reg_ptr[i].reg_value);
}
msleep(100);
SENSOR_PRINT("SENSOR: set_awb_mode: mode = %d", mode);
return 0;
}
LOCAL uint32_t set_ov7690_video_mode(uint32_t mode)
{
uint16_t i;
SENSOR_REG_T* sensor_reg_ptr = PNULL;
SENSOR_ASSERT(mode <= 1);
if(1 == mode)
s_preview_mode = DCAMERA_ENVIRONMENT_MAX;
sensor_reg_ptr = (SENSOR_REG_T*)ov7690_video_mode_nand_tab[mode];
SENSOR_ASSERT(PNULL != sensor_reg_ptr);
for(i = 0; (0xFF != sensor_reg_ptr[i].reg_addr) || (0xFF != sensor_reg_ptr[i].reg_value); i++) {
Sensor_WriteReg(sensor_reg_ptr[i].reg_addr, sensor_reg_ptr[i].reg_value);
}
DCAM_Sleep(150);
SENSOR_TRACE("SENSOR: set_ov7690_video_mode: mode = %d", mode);
return 0;
}
LOCAL void GT2005_Set_Shutter(void)
{
uint16_t shutter,AGain_shutter,DGain_shutter;
Sensor_WriteReg(0x020B , 0x28);
Sensor_WriteReg(0x020C , 0x44);
Sensor_WriteReg(0x040B , 0x44);
Sensor_WriteReg(0x0300 , 0xc1);
shutter = (Sensor_ReadReg(0x0012)<<8 )|( Sensor_ReadReg(0x0013));
AGain_shutter = (Sensor_ReadReg(0x0014)<<8 )|( Sensor_ReadReg(0x0015));
DGain_shutter = (Sensor_ReadReg(0x0016)<<8 )|( Sensor_ReadReg(0x0017));
Sensor_WriteReg(0x0300 , 0x41); //close ALC
shutter = shutter / 2;
Sensor_WriteReg(0x0305 , shutter&0xff);
Sensor_WriteReg(0x0304 , (shutter>>8)&0xff);
Sensor_WriteReg(0x0307 , AGain_shutter&0xff);
Sensor_WriteReg(0x0306 , (AGain_shutter>>8)&0xff); //AG
Sensor_WriteReg(0x0308, DGain_shutter&0xff); //DG
}
LOCAL uint32_t _BF3905_set_ev(uint32_t level)
{
SENSOR_REG_T_PTR sensor_reg_ptr=(SENSOR_REG_T_PTR)BF3905_ev_tab[level];
uint16_t i=0x00;
if(level>6)
return 0;
for(i=0x00; (0xff!=sensor_reg_ptr[i].reg_addr)||(0xFF!=sensor_reg_ptr[i].reg_value); i++)
{
Sensor_WriteReg(sensor_reg_ptr[i].reg_addr, sensor_reg_ptr[i].reg_value);
}
SENSOR_PRINT("SENSOR: _BF3905_set_ev = 0x%02x \n", level);
return 0;
}
LOCAL uint32_t GT2005_Before_Snapshot(uint32_t sensor_snapshot_mode)
{
switch(sensor_snapshot_mode) {
case SENSOR_MODE_PREVIEW_ONE: //VGA
SENSOR_TRACE("Capture VGA Size");
break;
case SENSOR_MODE_SNAPSHOT_ONE_FIRST: // 1.3 M
case SENSOR_MODE_SNAPSHOT_ONE_SECOND: // 2 M
SENSOR_TRACE("Capture 1.3M&2M Size");
GT2005_Set_Shutter ();
//PLL Setting 3FPS Under 10MHz PCLK
Sensor_WriteReg(0x0119 , 0x02);
break;
default:
break;
}
SENSOR_TRACE("SENSOR_GT2005: Before Snapshot");
return 0;
}
LOCAL uint32_t _BF3905_set_brightness(uint32_t level)
{
uint16_t i=0x00;
uint32_t reg_bits = 0;
uint32_t reg_value = 0;
SENSOR_REG_T* sensor_reg_ptr=(SENSOR_REG_T*)BF3905_brightness_tab[level];
if(level>6)
return 0;
for(i=0x00; (0xff!=sensor_reg_ptr[i].reg_addr)||(0xff!=sensor_reg_ptr[i].reg_value); i++)
{
Sensor_WriteReg(sensor_reg_ptr[i].reg_addr, sensor_reg_ptr[i].reg_value);
}
SENSOR_PRINT("SENSOR: _BF3905_set_brightness = 0x%02x,data=0x%x .\n", level,reg_value);
return 0;
}
LOCAL uint32_t _BF3905_set_awb(uint32_t mode)
{
uint16_t i=0x00;
uint32_t reg_bits = 0;
uint32_t reg_value = 0;
SENSOR_REG_T* sensor_reg_ptr=(SENSOR_REG_T*)BF3905_awb_tab[mode];
if(mode>4)
return 0;
for(i=0; (0xff!=sensor_reg_ptr[i].reg_addr)||(0xFF!=sensor_reg_ptr[i].reg_value); i++)
{
Sensor_WriteReg(sensor_reg_ptr[i].reg_addr, sensor_reg_ptr[i].reg_value);
}
SENSOR_PRINT("SENSOR: _BF3905_set_awb = 0x%02x,reg_value=0x%x \n", mode,reg_value);
return 0;
}
LOCAL uint32_t _BF3905_set_contrast(uint32_t level)
{
uint16_t i=0x00;
uint32_t reg_bits = 0;
uint32_t reg_value = 0;
SENSOR_REG_T* sensor_reg_ptr=(SENSOR_REG_T*)BF3905_contrast_tab[level];
if(level>6)
return 0;
for(i=0x00; (0xff!=sensor_reg_ptr[i].reg_addr)||(0xFF!=sensor_reg_ptr[i].reg_value); i++)
{
Sensor_WriteReg(sensor_reg_ptr[i].reg_addr, sensor_reg_ptr[i].reg_value);
}
//Sensor_SetSensorExifInfo(SENSOR_EXIF_CTRL_CONTRAST, (uint32)level);
SENSOR_PRINT("SENSOR: _BF3905_set_contrast = 0x%02x,data=0x%x .\n", level,reg_value);
return 0;
}
LOCAL uint32_t _BF3905_set_image_effect(uint32_t effect_type)
{
uint16_t i=0x00;
uint32_t reg_bits = 0;
uint32_t reg_value = 0;
SENSOR_REG_T* sensor_reg_ptr=(SENSOR_REG_T*)BF3905_image_effect_tab[effect_type];
if(effect_type>7)
return 0;
for(i=0x00; (0xff!=sensor_reg_ptr[i].reg_addr)||(0xff!=sensor_reg_ptr[i].reg_value); i++)
{
Sensor_WriteReg(sensor_reg_ptr[i].reg_addr, sensor_reg_ptr[i].reg_value);
}
SENSOR_PRINT("SENSOR: _BF3905_set_image_effect = 0x%02x,data=0x%x \n", effect_type,reg_value);
return 0;
}
