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【开源获奖案例】智能培养室

——来自迪文开发者论坛

 

本期为大家推送迪文开发者论坛获奖开源案例——智能培养室。工程师通过Modbus协议实现了T5L智能屏控制加热、风机控温功能,还可调节电源功率实现模拟光照功能。系统可根据屏幕上设定的参数自动运行,并保存故障历史记录。


【演示视频】


完整开发资料含迪文屏DGUS工程资料与C51代码,获取方式:

1. 前往迪文开发者论坛获取:http://inforum.dwin.com.cn:20080/forum.php?mod=viewthread&tid=9586&extra=page%3D1

2. 微信公众号中回复“智能培养室”获取。


UI素材展示

0  1


【UI开发示例

.png


【C51工程设计】

主界面温度、湿度、高度等数据获取和更新,以及使用modbus rtu控制控温模块、电机、报警检测等各个从机的主要代码如下:

    主界面代码参考:

#include "main_win.h"

#include "modbus.h"

#include "sys_params.h"

#include "func_handler.h"

#include "uart2.h"

#include <stdio.h>

#include <string.h>

#define TEMP_HUM_SLAVE_ADDR                        2

#define TEMP_HUM_VAL_MAX_NUM                      2

#define ALERT_BIT_MAX_NUM                            30

#define ALERT_BYTE_NUM           (ALERT_BIT_MAX_NUM/8+((ALERT_BIT_MAX_NUM%8)!=0))

#define GET_ALERT_BIT(val, pos)        ((val[pos/8]>>(pos%8))&0x01)

typedef struct{

              char date[17];

              u8 desc;

}ALERT;

#define ALERT_TABLE_LEN                              20

static u8 btn_sta[MAIN_WIN_BTN_MAX_NUM] = {0};

static u8 btn_addr[MAIN_WIN_BTN_MAX_NUM] = {50, 51, 52, 69, 53, 54, 55, 70, 56, 57, 58, 59};

u16 main_win_val[MAIN_WIN_VAL_MAX_NUM];

u16 temp_hum_val[TEMP_HUM_VAL_MAX_NUM] = {0};

u16 date_val[MAIN_WIN_DATE_MAX_NUM] = {0};

u8 alert_val[ALERT_BYTE_NUM] = {0};

u8 old_alert_val[ALERT_BYTE_NUM] = {0};

ALERT alert_table[ALERT_TABLE_LEN];

u16 alert_num = 0;

bit is_main_win = 0;

void main_win_update()

{

}

void main_win_disp_date()

{

              u8 len;

              len = sprintf(common_buf, "%u:%u", (u16)date_val[3], (u16)date_val[4]);

              common_buf[len+1] = 0;

              sys_write_vp(MAIN_WIN_DATE_VP, common_buf, len/2+2);

}

void main_win_process_alert()

{

              u8 i;

              for(i=0;i<ALERT_BIT_MAX_NUM;i++)

              {

                            if(GET_ALERT_BIT(old_alert_val, i))

                                          continue;

                            if(GET_ALERT_BIT(alert_val, i))

                            {

                                          if(alert_num>=ALERT_TABLE_LEN)

                                                        alert_num = ALERT_TABLE_LEN-1;

                                          alert_table[alert_num].desc = i+1;

                                          sprintf(alert_table[alert_num].date, "%u/%u/%u %u:%u",

                                                        date_val[0], date_val[1], date_val[2], date_val[3], date_val[4]

                                          );

                                          alert_num++;

                            }

              }

              memcpy(old_alert_val, alert_val, sizeof(alert_val));

}

void main_win_disp_alert()

{

              u16 i;

              u16 val;

              u16 len = 0;

              common_buf[0] = 0;

              for(i=0;i<ALERT_TABLE_LEN;i++)

              {

                            val = 0;

                            if(i<alert_num)

                            {

                                          val = alert_table.desc;

                                          len += sprintf(common_buf+len, "%s\r\n", alert_table.date);

                            }

                            sys_write_vp(ALERT_WIN_DESC_START_VP+i, (u8*)&val, 1);

              }

              common_buf[len+1] = 0;

              sys_write_vp(ALERT_WIN_DATE_VP, common_buf, len/2+2);

}

void main_win_init()

{

              float fixed_val;

              u8 i;

              is_main_win = 1;

 

              main_win_val[5] = (u16)(temp_hum_val[0]/10.0+0.5f);

              main_win_val[6] = (u16)(temp_hum_val[1]/10.0+0.5f);

              for(i=0;i<MAIN_WIN_VAL_MAX_NUM;i++)

              {

                            if(i==0)

                                          continue;

sys_write_vp(MAIN_WIN_WIND_SPEED_VP+MAIN_WIN_VAL_OFFSET*i, (u8*)&main_win_val, 1);

              }

              fixed_val = main_win_val[0]/WIND_SPEED_SCALE+FLOAT_FIX_VAL;

              sys_write_vp(MAIN_WIN_WIND_SPEED_VP, (u8*)&fixed_val, 2);

}

void main_win_click_handler(u16 btn_val)

{

              u8 index;

              if(btn_val==0x0B)

              {

                            main_win_disp_alert();

                            return;

              }

              index = btn_val-1;

              btn_sta[index] = !btn_sta[index];

              if((index==3)||(index==7))

                            btn_sta[index] = 1;

              modbus_write_bit(btn_addr[index], btn_sta[index]?0xFF00:0x0000);

              btn_val = btn_sta[index];

sys_write_vp(MAIN_WIN_BTN_STA_START_VP+MAIN_WIN_BTN_STA_OFFSET*index, (u8*)&btn_val, 1);

              if(index==9)

                            is_main_win = 0;

              else if((index==3)||(index==7))

              {

                            while(sys_get_touch_sta());

                            modbus_write_bit(btn_addr[index], 0x0000);

              }

}

void main_win_msg_handler(u8 *msg,u16 msg_len)

{

              u8 f_code = msg[MODBUS_RESPOND_POS_FUNC_CODE];

              u8 data_len = msg[MODBUS_RESPOND_POS_DATA_LEN];

              u8 i;

              u8 offset;

              msg_len = msg_len;

              if(!is_main_win)

                            return;

if((f_code==MODBUS_FUNC_CODE_03)&&(data_len==MAIN_WIN_VAL_MAX_NUM*2))

              {

                            offset = MODBUS_RESPOND_POS_DATA;

                            for(i=0;i<MAIN_WIN_VAL_MAX_NUM;i++)

                            {

                                          main_win_val = SYS_GET_U16(msg[offset], msg[offset+1]);

                                          offset += 2;

                            }

                            main_win_update();

              }else if((f_code==MODBUS_FUNC_CODE_01)&&(data_len==ALERT_BYTE_NUM))

              {

                            offset = MODBUS_RESPOND_POS_DATA;

                            for(i=0;i<ALERT_BYTE_NUM;i++)

                            {

                                          alert_val = msg[offset];

                                          offset++;

                            }

                            main_win_process_alert();

              }else if((f_code==MODBUS_FUNC_CODE_03)&&(data_len==TEMP_HUM_VAL_MAX_NUM*2))

              {

                            offset = MODBUS_RESPOND_POS_DATA;

                            for(i=0;i<TEMP_HUM_VAL_MAX_NUM;i++)

                            {

                                          temp_hum_val = SYS_GET_U16(msg[offset], msg[offset+1]);

                                          offset += 2;

                                          modbus_write_word(5+i, temp_hum_val);

                            }

                            main_win_update();

              }else if((f_code==MODBUS_FUNC_CODE_03)&&(data_len==MAIN_WIN_DATE_MAX_NUM*2))

              {

                            offset = MODBUS_RESPOND_POS_DATA;

                            for(i=0;i<MAIN_WIN_DATE_MAX_NUM;i++)

                            {

                                          date_val = SYS_GET_U16(msg[offset], msg[offset+1]);

                                          offset += 2;

                            }

                            main_win_disp_date();

              }

}

void main_win_read_temp_hum()

{

              u8 old_slave_addr = SLAVE_ADDR;

       

              sys_params.user_config[5] = TEMP_HUM_SLAVE_ADDR;

              modbus_read_words(0, TEMP_HUM_VAL_MAX_NUM);

              sys_params.user_config[5] = old_slave_addr;//还原

}

void main_win_handler()

{

              static u8 flag = 0;

              if(is_main_win)

              {

                            if(alert_read_period==ALERT_READ_PERIOD)

                            {

                                          alert_read_period = 0;

                                          modbus_read_bits(510, ALERT_BIT_MAX_NUM);

                                          return;

                            }

                            if(date_update_period==DATE_UPDATE_PERIOD)

                            {

                                          date_update_period = 0;

                                          modbus_read_words(180, MAIN_WIN_DATE_MAX_NUM);

                                          return;

                            }

                            flag = !flag;

                            if(flag)

                                          modbus_read_words(0, MAIN_WIN_VAL_MAX_NUM);

                            else

                                          main_win_read_temp_hum();

              }

}

 

    modbus rtu代码参考:

#include "modbus.h"

#include "crc16.h"

#include "sys_params.h"

#define UART_INCLUDE                               "uart2.h"

#define UART_INIT                                    uart2_init

#define UART_SEND_BYTES                           uart2_send_bytes

#define UART_BAUD                                  9600

#define MODBUS_RECV_TIMEOUT                     (u8)(35000.0f/UART_BAUD+2)

#define MODBUS_SEND_INTERVAL                    150

#include UART_INCLUDE

static bit is_modbus_recv_complete = 0;

static u8 modbus_recv_buff[270];

static u16 modbus_recv_len = 0;//接受的总字节长度

static u8 modbus_recv_timeout = 0;//接受溢出时间

static volatile u16 modbus_send_interval = 0;

MODBUS_PACKET packet;

void modbus_init()

{

              UART_INIT(UART_BAUD);

}

void modbus_send_bytes(u8 *bytes,u16 len)

{

              UART_SEND_BYTES(bytes,len);

}

void modbus_recv_byte(u8 byte)

{

              if(is_modbus_recv_complete)

                            return;

              if(modbus_recv_len<sizeof(modbus_recv_buff))

                            modbus_recv_buff[modbus_recv_len++] = byte;

}

void modbus_check_recv_timeout()

{

              if(modbus_recv_timeout)

              {

                            modbus_recv_timeout--;

                            if(modbus_recv_timeout==0)

                            {

                                          is_modbus_recv_complete = 1;

                            }

              }

}

u8 modbus_send_packet(u8 *packet)

{

              u16 len;

              u16 crc;

              u8 func_code = packet[1];

              while(modbus_send_interval);

              if(func_code==MODBUS_FUNC_CODE_10)

              {

                            ((MODBUS_10_PACKET*)packet)->byte_num = ((MODBUS_10_PACKET*)packet)->word_num*2;

                            len = 9+((MODBUS_10_PACKET*)packet)->byte_num;

              }else if(func_code==MODBUS_FUNC_CODE_0F)

              {

                            len = ((MODBUS_0F_PACKET*)packet)->bit_num;

                            ((MODBUS_0F_PACKET*)packet)->byte_num = len/8+(len%8?1:0);

                            len = 9+((MODBUS_0F_PACKET*)packet)->byte_num;

              }else

              {

                            len = sizeof(MODBUS_PACKET);

              }

              crc = crc16(packet,len-2);

              packet[len-2] = (u8)(crc>>8);

              packet[len-1] = (u8)crc;

              modbus_send_bytes(packet,len);

              modbus_send_interval = MODBUS_SEND_INTERVAL;

              return 0;//成功

}

extern void modbus_msg_handler(u8 *msg,u16 msg_len);

void modbus_handler()

{

              u16 crc;

              if(!is_modbus_recv_complete)

                            return;

              //校验crc值

              crc = ((u16)modbus_recv_buff[modbus_recv_len-2]<<8)+modbus_recv_buff[modbus_recv_len-1];

              if(crc16(modbus_recv_buff,modbus_recv_len-2)==crc)

              {

                            modbus_msg_handler(modbus_recv_buff,modbus_recv_len);

              }

              modbus_recv_len = 0;

              is_modbus_recv_complete = 0;       

}

u8 modbus_send_fcode(u8 fcode, u16 addr, u16 len)

{

              packet.slave_addr = SLAVE_ADDR;

              packet.func_code = fcode;//功能码

              packet.start_addr = addr;//地址

              packet.data_len = len;//写入的值

              len = modbus_send_packet((u8*)&packet);

              return len;

}