int sensor_reset() { /* Reset the sesnor state */ sensor.pixformat=0xFF; sensor.framesize=0xFF; sensor.framerate=0xFF; sensor.gainceiling=0xFF; mutex_lock(&fb->lock); fb->ready=0; mutex_unlock(&fb->lock); /* Hard reset the sensor */ switch (sensor.reset_pol) { case ACTIVE_HIGH: DCMI_RESET_HIGH(); systick_sleep(10); DCMI_RESET_LOW(); systick_sleep(10); break; case ACTIVE_LOW: DCMI_RESET_LOW(); systick_sleep(10); DCMI_RESET_HIGH(); systick_sleep(10); break; } /* Call sensor-specific reset function */ sensor.reset(); return 0; }
int sensor_init() { /* Do a power cycle */ DCMI_PWDN_HIGH(); systick_sleep(10); DCMI_PWDN_LOW(); systick_sleep(100); /* Initialize the SCCB interface */ SCCB_Init(); systick_sleep(10); /* Configure the external clock (XCLK) */ extclk_config(XCLK_FREQ); systick_sleep(10); /* Reset the sesnor state */ memset(&sensor, 0, sizeof(struct sensor_dev)); /* Some sensors have different reset polarities, and we can't know which sensor is connected before initializing SCCB and reading the PID register, which in turn requires pulling the sensor out of the reset state. So we try to read a register with both polarities to determine line state. */ sensor.reset_pol = ACTIVE_HIGH; DCMI_RESET_HIGH(); systick_sleep(10); DCMI_RESET_LOW(); systick_sleep(10); /* Check if we can read PID */ if (SCCB_Read(REG_PID) == 255) { /* Sensor is held in reset, so reset is active high */ sensor.reset_pol = ACTIVE_LOW; DCMI_RESET_LOW(); systick_sleep(10); DCMI_RESET_HIGH(); systick_sleep(10); } /* Read the sensor information */ sensor.id.MIDH = SCCB_Read(REG_MIDH); sensor.id.MIDL = SCCB_Read(REG_MIDL); sensor.id.PID = SCCB_Read(REG_PID); sensor.id.VER = SCCB_Read(REG_VER); /* Call the sensor-specific init function */ switch (sensor.id.PID) { case OV9650_PID: ov9650_init(&sensor); break; case OV2640_PID: ov2640_init(&sensor); break; default: /* sensor not supported */ return -1; } /* Configure the DCMI DMA Stream */ if (dma_config() != 0) { return -1; } /* Configure the DCMI interface. This should be called after ovxxx_init to set VSYNC/HSYNC/PCLK polarities */ if (dcmi_config() != 0){ return -1; } /* init/re-init mutex */ mutex_init(&fb->lock); return 0; }
int sensor_init() { /* Do a power cycle */ DCMI_PWDN_HIGH(); systick_sleep(10); DCMI_PWDN_LOW(); systick_sleep(100); /* Initialize the SCCB interface */ SCCB_Init(); systick_sleep(10); /* Configure the sensor external clock (XCLK) to XCLK_FREQ (13MHz). Note: The sensor's internal PLL (when CLKRC=0x80) doubles the XCLK_FREQ (XCLK=XCLK_FREQ*2), and the unscaled PIXCLK output is XCLK_FREQ*4 */ extclk_config(XCLK_FREQ); /* Uncomment this to pass through the MCO1 clock (HSI=16MHz) this results in a 64MHz PIXCLK output from the sensor. Note: The maximum pixel clock input on the STM32F4xx is 54MHz, the STM32F7 can probably handle higher input pixel clock. */ //(void) extclk_config; //HAL_RCC_MCOConfig(RCC_MCO1, RCC_MCO1SOURCE_HSI, RCC_MCODIV_1); /* Reset the sesnor state */ memset(&sensor, 0, sizeof(struct sensor_dev)); /* Some sensors have different reset polarities, and we can't know which sensor is connected before initializing SCCB and reading the PID register, which in turn requires pulling the sensor out of the reset state. So we try to read a register with both polarities to determine line state. */ sensor.reset_pol = ACTIVE_HIGH; DCMI_RESET_HIGH(); systick_sleep(10); DCMI_RESET_LOW(); systick_sleep(10); /* Check if we can read PID */ if (SCCB_Read(REG_PID) == 255) { /* Sensor is held in reset, so reset is active high */ sensor.reset_pol = ACTIVE_LOW; DCMI_RESET_LOW(); systick_sleep(10); DCMI_RESET_HIGH(); systick_sleep(10); } /* Read the sensor information */ sensor.id.MIDH = SCCB_Read(REG_MIDH); sensor.id.MIDL = SCCB_Read(REG_MIDL); sensor.id.PID = SCCB_Read(REG_PID); sensor.id.VER = SCCB_Read(REG_VER); /* Call the sensor-specific init function */ switch (sensor.id.PID) { case OV9650_PID: ov9650_init(&sensor); break; case OV2640_PID: ov2640_init(&sensor); break; default: /* sensor not supported */ return -1; } /* Configure the DCMI DMA Stream */ if (dma_config() != 0) { return -2; } /* Configure the DCMI interface. This should be called after ovxxx_init to set VSYNC/HSYNC/PCLK polarities */ if (dcmi_config(DCMI_JPEG_DISABLE) != 0){ return -3; } /* init/re-init mutex */ mutex_init(&fb->lock); // blocks usbdbg until the sensor is configured fb->ready=0; return 0; }