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ozone_cp/APP/main.c

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#include "main.h"
#include <stdbool.h> //定义布尔
#include <string.h>
#include "adc.h"
#include "board.h"
#if 0
#define PWM_FREQHZ 25000 //硬件pwm频率
/***********************************************************************************************************************
* =====================================================函数声明====================================================== *
***********************************************************************************************************************/
void onkey(zkey_t* key, zkey_state_t key_state);
/***********************************************************************************************************************
* =====================================================全局变量====================================================== *
***********************************************************************************************************************/
static zkey_t s_keys[] = {
ZKEY_INIT("timerkey", port_gpio_get_timer_key_state), //左2
ZKEY_INIT("levelkey", port_gpio_get_level_key_state), //左1
ZKEY_INIT("intervalkey", port_gpio_get_interval_key_state), //左3
ZKEY_INIT("powerkey", port_gpio_get_power_key_state),
};
zkey_module_t key_module = ZMODULE_INIT(s_keys, onkey);
void onkey(zkey_t* key, zkey_state_t key_state) {
if (key == &s_keys[2] /*左3*/ && zks_falling_edge == key_state) {
ozone_pwm_control_update();
printf("onkey2\n");
}
if (key == &s_keys[0] /*左2*/ && zks_falling_edge == key_state) {
ozone_pwm_control_update();
printf("onkey0\n");
}
if (key == &s_keys[1] /*左2*/ && zks_falling_edge == key_state) {
}
if (key == &s_keys[3] /*左2*/ && zks_falling_edge == key_state) {
printf("onkey3\n");
ozone_pwm_control_update();
}
}
/***********************************************************************************************************************
* =================================================INTERNAL_FUNCTION================================================= *
***********************************************************************************************************************/
void UART0_IRQHandler(void) {
/**
* @brief 接收来自串口的数据并做回显
*
*/
// rx_data = UART_RecByte(UART0);
// if (!s_rxbuf_is_ready) {
// if (rx_count < sizeof(rx_buffer) - 1) {
// rx_buffer[rx_count++] = rx_data;
// uart0_lastreceive_ticket = get_sys_ticket();
// }
// }
UART_ClearITPendingBit(UART0, UART_FLAG_TB);
UART_ClearITPendingBit(UART0, UART_FLAG_RB);
UART_ClearITPendingBit(UART0, UART_FLAG_FE);
}
/**
* @brief
*
* @param freq
* @param us
*/
float get_duty_by_freq_and_valid_time(uint32_t freq, uint32_t us) {
float period = 1000000.0 / freq;
float duty = us * 100 / period;
return duty;
}
void ozone_pwm_control_update() {
printf("freqhz:%d duty:%d us\n", freqhz, dutyus);
set_pwm_modbul_freq_duty2(freqhz, get_duty_by_freq_and_valid_time(freqhz, dutyus));
}
#define DO_IT_EACH_MS(time) \
{ \
static uint32_t __ticket = 0; \
if (port_haspassedms(__ticket) > (time)) { \
__ticket = get_sys_ticket();
#define END() \
} \
}
/***********************************************************************************************************************
* ======================================================主函数=======================================================
***********************************************************************************************************************/
bool strcontains(const char* sonstr, const char* fatherstr) { return (strncmp(sonstr, fatherstr, strlen(sonstr)) == 0); }
void process_rx_order() {
if (strcontains("AT+PWM_FREQ_UP_FINE_TUNING", rx_buffer)) {
freqhz += 50;
ozone_pwm_control_update();
} else if (strcontains("AT+PWM_FREQ_DOWN_FINE_TUNING", rx_buffer)) {
freqhz -= 50;
if (freqhz <= 0) freqhz = 1;
ozone_pwm_control_update();
} else if (strcontains("AT+PWM_FREQ_UP", rx_buffer)) {
freqhz += 1000;
ozone_pwm_control_update();
} else if (strcontains("AT+PWM_FREQ_DOWN", rx_buffer)) {
freqhz -= 1000;
if (freqhz <= 0) freqhz = 1;
ozone_pwm_control_update();
} else if (strcontains("AT+PWM_DUTY_UP", rx_buffer)) {
dutyus += 1;
ozone_pwm_control_update();
} else if (strcontains("AT+PWM_DUTY_DOWN", rx_buffer)) {
dutyus -= 1;
if (dutyus < 0) dutyus = 0;
ozone_pwm_control_update();
} else if (strcontains("AT+PWM=", rx_buffer)) {
/**
* AT+PWM=25000,8
*/
int _dutyus = 0;
int _freq = 0;
sscanf(rx_buffer, "AT+PWM=%d,%d", &_freq, &_dutyus);
if (_dutyus < 0 || _freq < 10000) {
printf("Error\n");
return;
}
dutyus = _dutyus;
freqhz = _freq;
ozone_pwm_control_update();
} else if (strcontains("AT+MAT2=", rx_buffer)) {
/**
* AT+PWM=25000,8
*/
int mat2 = 0;
sscanf(rx_buffer, "AT+MAT2=%d", &mat2);
set_pwm_mat2(mat2);
} else if (strcontains("AT+FAN=", rx_buffer)) {
/**
* AT+PWM=25000,8
*/
int mat2 = 0;
sscanf(rx_buffer, "AT+FAN=%d", &mat2);
if (mat2 > 0) {
port_fan_set(true);
} else {
port_fan_set(false);
}
}
}
void try_process_rx_order() {
if (port_haspassedms(uart0_lastreceive_ticket) > 100) {
if (rx_count != 0) {
s_rxbuf_is_ready = true;
process_rx_order();
rx_count = 0;
memset(rx_buffer, 0, sizeof(rx_buffer));
s_rxbuf_is_ready = false;
}
}
}
float power_filter(float nowpower, float factor) {
static float last = 0;
float now_raw = nowpower;
float now = ((float)last * (1.0f - factor)) + ((float)now_raw * factor);
last = now;
return now;
}
uint16_t capture(int timeoff);
#endif
int main(void) {
HRC_Config(Enable, SCU_HRC_48M, Enable); //时钟源SCU_CLK_HRC
SystemInit(); //
DeviceClockAllEnable(); //打开所有外设时钟
#if 0
//硬件初始化
unused_gpio_init();
gpio_init();
uart0_init();
t16_pa4_init();
//模块初始化
zkey_init(&key_module);
//上电默认开机并高档工作
port_fan_set(true);
//启动结束
printf("Initialization completed \r\n");
printf("version:%s\r\n", VERSION);
ozone_pwm_control_update();
// stop_pwm_output();
while (true) {
// End..................................
}
#endif
}