关键词:ov2640 ESP32S3 LVGL esp32-camera
前言
买的板子还送了一个0v2640的摄像头,今天尝试驱动这个摄像头,之前已经实现了屏幕的驱动了,现在实现一下驱动摄像头显示在屏幕上
下载组件
打开组件注册表,搜索camera组件,点击下载后编译
学习示例
/*** This example takes a picture every 5s and print its size on serial monitor.*/// =============================== SETUP ======================================// 1. Board setup (Uncomment):
// #define BOARD_WROVER_KIT
// #define BOARD_ESP32CAM_AITHINKER
// #define BOARD_ESP32S3_WROOM/*** 2. Kconfig setup** If you have a Kconfig file, copy the content from* https://github.com/espressif/esp32-camera/blob/master/Kconfig into it.* In case you haven't, copy and paste this Kconfig file inside the src directory.* This Kconfig file has definitions that allows more control over the camera and* how it will be initialized.*//*** 3. Enable PSRAM on sdkconfig:** CONFIG_ESP32_SPIRAM_SUPPORT=y** More info on* https://docs.espressif.com/projects/esp-idf/en/latest/esp32/api-reference/kconfig.html#config-esp32-spiram-support*/// ================================ CODE ======================================#include <esp_log.h>
#include <esp_system.h>
#include <nvs_flash.h>
#include <sys/param.h>
#include <string.h>#include "freertos/FreeRTOS.h"
#include "freertos/task.h"// support IDF 5.x
#ifndef portTICK_RATE_MS
#define portTICK_RATE_MS portTICK_PERIOD_MS
#endif#include "esp_camera.h"#define BOARD_WROVER_KIT 1// WROVER-KIT PIN Map
#ifdef BOARD_WROVER_KIT#define CAM_PIN_PWDN -1 //power down is not used
#define CAM_PIN_RESET -1 //software reset will be performed
#define CAM_PIN_XCLK 21
#define CAM_PIN_SIOD 26
#define CAM_PIN_SIOC 27#define CAM_PIN_D7 35
#define CAM_PIN_D6 34
#define CAM_PIN_D5 39
#define CAM_PIN_D4 36
#define CAM_PIN_D3 19
#define CAM_PIN_D2 18
#define CAM_PIN_D1 5
#define CAM_PIN_D0 4
#define CAM_PIN_VSYNC 25
#define CAM_PIN_HREF 23
#define CAM_PIN_PCLK 22#endif// ESP32Cam (AiThinker) PIN Map
#ifdef BOARD_ESP32CAM_AITHINKER#define CAM_PIN_PWDN 32
#define CAM_PIN_RESET -1 //software reset will be performed
#define CAM_PIN_XCLK 0
#define CAM_PIN_SIOD 26
#define CAM_PIN_SIOC 27#define CAM_PIN_D7 35
#define CAM_PIN_D6 34
#define CAM_PIN_D5 39
#define CAM_PIN_D4 36
#define CAM_PIN_D3 21
#define CAM_PIN_D2 19
#define CAM_PIN_D1 18
#define CAM_PIN_D0 5
#define CAM_PIN_VSYNC 25
#define CAM_PIN_HREF 23
#define CAM_PIN_PCLK 22#endif
// ESP32S3 (WROOM) PIN Map
#ifdef BOARD_ESP32S3_WROOM
#define CAM_PIN_PWDN 38
#define CAM_PIN_RESET -1 //software reset will be performed
#define CAM_PIN_VSYNC 6
#define CAM_PIN_HREF 7
#define CAM_PIN_PCLK 13
#define CAM_PIN_XCLK 15
#define CAM_PIN_SIOD 4
#define CAM_PIN_SIOC 5
#define CAM_PIN_D0 11
#define CAM_PIN_D1 9
#define CAM_PIN_D2 8
#define CAM_PIN_D3 10
#define CAM_PIN_D4 12
#define CAM_PIN_D5 18
#define CAM_PIN_D6 17
#define CAM_PIN_D7 16
#endif
static const char *TAG = "example:take_picture";#if ESP_CAMERA_SUPPORTED
static camera_config_t camera_config = {.pin_pwdn = CAM_PIN_PWDN,.pin_reset = CAM_PIN_RESET,.pin_xclk = CAM_PIN_XCLK,.pin_sccb_sda = CAM_PIN_SIOD,.pin_sccb_scl = CAM_PIN_SIOC,.pin_d7 = CAM_PIN_D7,.pin_d6 = CAM_PIN_D6,.pin_d5 = CAM_PIN_D5,.pin_d4 = CAM_PIN_D4,.pin_d3 = CAM_PIN_D3,.pin_d2 = CAM_PIN_D2,.pin_d1 = CAM_PIN_D1,.pin_d0 = CAM_PIN_D0,.pin_vsync = CAM_PIN_VSYNC,.pin_href = CAM_PIN_HREF,.pin_pclk = CAM_PIN_PCLK,//XCLK 20MHz or 10MHz for OV2640 double FPS (Experimental).xclk_freq_hz = 20000000,.ledc_timer = LEDC_TIMER_0,.ledc_channel = LEDC_CHANNEL_0,.pixel_format = PIXFORMAT_RGB565, //YUV422,GRAYSCALE,RGB565,JPEG.frame_size = FRAMESIZE_QVGA, //QQVGA-UXGA, For ESP32, do not use sizes above QVGA when not JPEG. The performance of the ESP32-S series has improved a lot, but JPEG mode always gives better frame rates..jpeg_quality = 12, //0-63, for OV series camera sensors, lower number means higher quality.fb_count = 1, //When jpeg mode is used, if fb_count more than one, the driver will work in continuous mode..fb_location = CAMERA_FB_IN_PSRAM,.grab_mode = CAMERA_GRAB_WHEN_EMPTY,
};static esp_err_t init_camera(void)
{//initialize the cameraesp_err_t err = esp_camera_init(&camera_config);if (err != ESP_OK){ESP_LOGE(TAG, "Camera Init Failed");return err;}return ESP_OK;
}
#endifvoid app_main(void)
{
#if ESP_CAMERA_SUPPORTEDif(ESP_OK != init_camera()) {return;}while (1){ESP_LOGI(TAG, "Taking picture...");camera_fb_t *pic = esp_camera_fb_get();// use pic->buf to access the imageESP_LOGI(TAG, "Picture taken! Its size was: %zu bytes", pic->len);esp_camera_fb_return(pic);vTaskDelay(5000 / portTICK_RATE_MS);}
#elseESP_LOGE(TAG, "Camera support is not available for this chip");return;
#endif
}挺短的,短短188行代码,首先配置不同的开发版,根据开发板配置不同的引脚,同时需要打开PSRAM的支持,提高相机的性能
初始化阶段需要配置相机的参数,初始化后进入循环,每5秒钟获取一次图片的参数,并将图片大小打印出来,其后释放图片
下面是一下相关参数的配置
.xclk_freq_hz这个参数是设置摄像头的时钟频率,默认20MHz,提高频率可以提高帧率
.pixel_format配置输出的图像格式
PIXFORMAT_JPEG: 压缩的 JPEG 格式(体积小,适合存储/传输)。
PIXFORMAT_RGB565: 未压缩的 16 位颜色格式(适合实时处理,如显示屏输出)。PIXFORMAT_YUV422: YUV 颜色空间格式(某些图像处理算法需要)。
.frame_size这个是配置输出的分辨率大小
FRAMESIZE_QQVGA(160x120)
FRAMESIZE_QVGA(320x240)
FRAMESIZE_SVGA(800x600)
FRAMESIZE_UXGA(1600x1200)
.jpeg_quality这个参数是配置压缩质量,0为最高,63是最低
.fb_count帧缓冲函数
fb_count = 1: 单缓冲区模式(捕获一帧后必须手动释放)。
fb_count > 1: 双缓冲或多缓冲模式(驱动程序自动处理连续捕获)
.fb_location帧缓冲区内存分配位置
CAMERA_FB_IN_PSRAM: 优先使用 PSRAM(需硬件支持,适用于大分辨率)。
CAMERA_FB_IN_DRAM: 使用片上 RAM(仅适用于小分辨率)。
.grab_mode图像捕获触发模式
CAMERA_GRAB_WHEN_EMPTY: 当帧缓冲区空闲时自动捕获新帧(稳定,避免数据冲突)。CAMERA_GRAB_LATEST: 始终保留最新一帧(适合实时性要求高的场景,但可能丢帧)
由于我用的是ESP32-RAM,查看原理图
修改板子引脚,编译程序,下载
能够顺利运行。
在lvgl上显示图片
我们都知道,在lvgl上显示的图片,都是将图片转化为c数组,而数组有一个描述符号
我们在显示图像的时候,也需要给图片创建一个描述符,让LVGL能够识别
void displayPicture() {camera_fb_t *pic = esp_camera_fb_get();if (!pic || pic->format != PIXFORMAT_RGB565) {if (pic) {esp_camera_fb_return(pic);}return;}// 动态创建LVGL图像描述符img_dsc.header.always_zero = 0;img_dsc.header.w = 320; // 使用实际宽度img_dsc.header.h = 240; // 使用实际高度img_dsc.header.cf = LV_IMG_CF_TRUE_COLOR; // 颜色格式为RGB565img_dsc.data = pic->buf;img_dsc.data_size = 76800 * 2; // 数据大小,注意这里不能写错了ESP_LOGI(TAG, "Picture taken! Its size was: %zu bytes", pic->len);if(img == NULL) {img = lv_img_create(scr);}lv_img_set_src(img, &img_dsc);lv_obj_set_height(img, 320);lv_obj_set_width(img, 240);// 释放帧缓冲区esp_camera_fb_return(pic);
}
编译,然后下载
就是这个画质很尴尬,不过240*240还要什么自行车
这里有个问题,在调用这个函数的时候,其实按理应该不能立刻释放这个指针,会造成lvgl崩坏的,原因是lvgl还在使用就不能释放,所以这里需要大家谨慎处理,根据项目需求实现目标
在LVGL上显示视频
既然显示图片可行,那显示视频应该也是可以的,因为视频就是一张张图片在以一定的间隔播放,所以下面修改函数实现
首先我们把单缓冲区改为双缓冲区,剩下的函数不需要修改,只需要加while循环在freertos中调用即可
void displayVideo() {while(1){camera_fb_t *pic = esp_camera_fb_get();if (!pic || pic->format != PIXFORMAT_RGB565) {if (pic) {esp_camera_fb_return(pic);}return;}// 动态创建LVGL图像描述符img_dsc.header.always_zero = 0;img_dsc.header.w = 320; // 使用实际宽度img_dsc.header.h = 240; // 使用实际高度img_dsc.header.cf = LV_IMG_CF_TRUE_COLOR; // 颜色格式为RGB565img_dsc.data = pic->buf;img_dsc.data_size = 76800 * 2; // 数据大小,注意这里不能写错了ESP_LOGI(TAG, "Picture taken! Its size was: %zu bytes", pic->len);if(img == NULL) {img = lv_img_create(scr);}lv_img_set_src(img, &img_dsc);lv_obj_set_height(img, 320);lv_obj_set_width(img, 240);// 释放帧缓冲区vTaskDelay(5 / portTICK_PERIOD_MS);esp_camera_fb_return(pic);}
}
编译下载,查看结果
这个帧率真的难蚌,而且屏幕出现了花屏,这可能和数据不完整有关
总结
总的来说,驱动摄像头还是很简单的,下一节我将尝试将摄像头的画面通过TCP传输到电脑
