app_charge.c 6.3 KB

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  1. #include "usr_config.h"
  2. #include "bsp_time.h"
  3. #include "system.h"
  4. #include "hal_led.h"
  5. #include "nrf_gpio.h"
  6. #include "hal_ble_client.h"
  7. #include "hal_ble_host.h"
  8. #include "app_charge.h"
  9. #include "app_flash.h"
  10. #include "hal_battery.h"
  11. #include "ble_comm.h"
  12. #include "hal_ble_uart0.h"
  13. /************************ 函数声明 ***********************************/
  14. /************************ 变量 ***********************************/
  15. static uint8_t app_charge_state = BLE_CHARGE_PULLOUT;
  16. /********************************************************/
  17. uint8_t app_charge_Getstate(void)
  18. {
  19. return app_charge_state;
  20. }
  21. static void app_send_charge(void)
  22. {
  23. uint8_t sbuf[2]={0};
  24. uint8_t L = 0;
  25. if(mFlash.isHost) sbuf[L++] = 0;
  26. else sbuf[L++] = 1;
  27. sbuf[L++] = app_charge_state;
  28. BLE_Client_Tx_Send(0,BLE_CHARGE,sbuf,L);
  29. }
  30. void cb_BLE_Client_R_CHARGE(void* handle)
  31. {
  32. BLE_Client_Rx_t* target = handle;
  33. DEBUG_LOG("!!!!!!!!cb_BLE_Client_R_CHARGE\n");
  34. app_send_charge();
  35. BLE_Host_Tx_Send(0,BLE_CHARGE,target->pDat,target->datLen);
  36. }
  37. void cb_BLE_Host_R_CHARGE(void* handle)
  38. {
  39. BLE_Host_Rx_t* target = handle;
  40. BLE_Client_Tx_Send(0,BLE_CHARGE,target->pDat,target->datLen);
  41. // DEBUG_LOG("cb_BLE_Host_R_CHARGE:%d,%d,%d\n",target->pDat[0],target->pDat[1],target->datLen);
  42. }
  43. static void app_charge_Vol_Charge_Send(void)
  44. {
  45. uint8_t buf[10]={0};
  46. uint8_t L = 0;
  47. buf[L++] = GetBatteryPersent();
  48. buf[L++] = app_charge_state;
  49. if(mFlash.isHost)BLE_Host_Tx_Send(0,BLE_CHAR_VOL,buf,L);
  50. else BLE_Client_Tx_Send(0,BLE_CHAR_VOL,buf,L);
  51. }
  52. static uint8_t OtherShoesVol = 0;
  53. static uint8_t otherShoes_charge = BLE_CHARGE_PULLOUT;
  54. static void cb_BLE_R_CHAR_VOL(void* handle)
  55. {
  56. UART0_Rx_t* target = handle;
  57. OtherShoesVol = target->pDat[0];
  58. otherShoes_charge = target->pDat[1];
  59. if(!mFlash.isHost)app_charge_Vol_Charge_Send();
  60. // DEBUG_LOG("OtherShoesVol=%d\n",OtherShoesVol);
  61. }
  62. static void cb_BLE_Host_R_CHAR_VOL(void* handle)
  63. {
  64. UART0_Rx_t* target = handle;
  65. OtherShoesVol = target->pDat[0];
  66. otherShoes_charge = target->pDat[1];
  67. // DEBUG_LOG("OtherShoesVol=%d\n",OtherShoesVol);
  68. }
  69. static void app_charge_Process(void)
  70. {
  71. static uint8_t client_connect =0;
  72. if(slave_isconnect() && !client_connect){
  73. app_send_charge();
  74. uint8_t data =0;
  75. BLE_Host_Tx_Send(0,BLE_CHARGE,&data,1);
  76. }
  77. else if(!slave_isconnect() && client_connect && (!mFlash.isHost)){
  78. OtherShoesVol = 0;
  79. otherShoes_charge =0;
  80. }
  81. if(client_connect != slave_isconnect())client_connect = slave_isconnect();
  82. uint32_t ch = nrf_gpio_pin_read(PIN_CHARGING);// DEBUG_LOG("charge state:%d\n",ch);
  83. if(!ch){ //没充电
  84. if(app_charge_state!=BLE_CHARGE_PULLOUT){ DEBUG_LOG("charge out...\n");
  85. app_charge_state = BLE_CHARGE_PULLOUT;
  86. Process_SetHoldOn(app_charge_Process,0);
  87. LED_Stop(LED_CHARGE);
  88. app_send_charge();
  89. OtherShoesVol = 0;
  90. otherShoes_charge =0;
  91. }
  92. return;
  93. }
  94. if(mFlash.isHost)app_charge_Vol_Charge_Send(); //共享充电电量和充电状态
  95. if((otherShoes_charge == BLE_CHARGE_INSERT || otherShoes_charge == BLE_CHARGE_DONE) &&
  96. GetBatteryPersent() >=100 &&
  97. OtherShoesVol >=100 ){ //左右鞋都充满电的情况下
  98. if(app_charge_state!=BLE_CHARGE_DONE){ DEBUG_LOG("charge done:%d...\n",OtherShoesVol);
  99. app_charge_state = BLE_CHARGE_DONE;
  100. Process_SetHoldOn(app_charge_Process,1);
  101. LED_Start(LED_CHARGE,COLOR_GREEN);
  102. app_send_charge();
  103. }
  104. }else{ //正在充电
  105. if(app_charge_state!=BLE_CHARGE_INSERT){ DEBUG_LOG("charge in...\n");
  106. app_charge_state = BLE_CHARGE_INSERT;
  107. Process_SetHoldOn(app_charge_Process,1);
  108. LED_Start(LED_CHARGE,COLOR_ORANGE);
  109. app_send_charge();
  110. }
  111. }
  112. }
  113. static void app_charge_monitor_battery_charge_data_process(void)
  114. {
  115. #define BATTERY_VOL_THRESHOLD_MIN 2500 //2.5V
  116. #define BATTERY_VOL_THRESHOLD_MAX 4000 //4V
  117. #define CHARGE_VOL_THRESHOLD 80 //充电前和充电期间的充电电压变化值,单位mv
  118. //监测电池和充电数据
  119. int16_t bat_vol = 0;
  120. int16_t charge_vol = 0;
  121. int16_t charge_threshold = 0;
  122. uint32_t ch = nrf_gpio_pin_read(PIN_CHARGING);
  123. static uint32_t charge_cycle = 50;
  124. static int16_t before_charge_vol = 0; //充电前的电压值
  125. static int16_t charge_vol_max = 0; //充电期间最大的电压值
  126. if(!ch)//没充电
  127. {
  128. charge_vol = ADC_RESULT_IN_MILLI_VOLTS(ADC_GetValue(PIN_ADC_CHARGMEASURE_CHANNEL));
  129. before_charge_vol = before_charge_vol > charge_vol ? charge_vol : before_charge_vol;
  130. charge_vol_max = 0;
  131. charge_cycle = 50;
  132. }else //充电
  133. {
  134. /* 过筛50轮 */
  135. if(charge_cycle != 0){
  136. charge_vol = ADC_RESULT_IN_MILLI_VOLTS(ADC_GetValue(PIN_ADC_CHARGMEASURE_CHANNEL));
  137. charge_vol_max = charge_vol_max < charge_vol ? charge_vol : charge_vol_max;
  138. charge_cycle--;
  139. return;
  140. }
  141. charge_vol = ADC_RESULT_IN_MILLI_VOLTS(ADC_GetValue(PIN_ADC_CHARGMEASURE_CHANNEL));
  142. charge_vol_max = charge_vol_max < charge_vol ? charge_vol : charge_vol_max;
  143. bat_vol = ADC_RESULT_IN_MILLI_VOLTS(ADC_GetValue(PIN_ADC_BAT_CHANNEL))*5/3;
  144. //当电池电量没满,充电(经测试,电量没满的充电电压跟电池电压有关,最小充电电压100+mv)
  145. charge_threshold = charge_vol_max - before_charge_vol; //充电前和充电期间的充电电压变化值
  146. // DEBUG_LOG("charge_threshold:%d,%d,%d,%d\n",charge_vol_max,before_charge_vol,charge_threshold,CHARGE_VOL_THRESHOLD);
  147. // if(charge_threshold < CHARGE_VOL_THRESHOLD && bat_vol < BATTERY_VOL_THRESHOLD_MAX)
  148. // {
  149. // Except_SetExceptype(EXCEPT_DATA_CHARGE);
  150. // Except_TxError(EXCEPT_DATA_CHARGE,"except_charging_chip");
  151. // }
  152. // else
  153. // {
  154. // Except_ClearExceptype(EXCEPT_DATA_CHARGE);
  155. // }
  156. // //电池小于2.5V或充电电压变化小于阈值且电池电压大于4V
  157. // if(bat_vol <= BATTERY_VOL_THRESHOLD_MIN || (charge_threshold < CHARGE_VOL_THRESHOLD && bat_vol > BATTERY_VOL_THRESHOLD_MAX))
  158. // {
  159. // Except_SetExceptype(EXCEPT_DATA_BATTERY);
  160. // Except_TxError(EXCEPT_DATA_BATTERY,"except_battery");
  161. // }
  162. // else
  163. // {
  164. // Except_ClearExceptype(EXCEPT_DATA_BATTERY);
  165. // }
  166. }
  167. }
  168. void app_charge_Init(void)
  169. {
  170. nrf_gpio_cfg_input(PIN_CHARGING,NRF_GPIO_PIN_NOPULL);
  171. BLE_Client_Rx_Regist(BLE_CHAR_VOL,cb_BLE_R_CHAR_VOL);
  172. BLE_Host_Rx_Regist(BLE_CHAR_VOL,cb_BLE_Host_R_CHAR_VOL);
  173. BLE_Client_Rx_Regist(BLE_CHARGE,cb_BLE_Client_R_CHARGE);
  174. BLE_Host_Rx_Regist(BLE_CHARGE,cb_BLE_Host_R_CHARGE);
  175. Process_Start(1000,"app_charge",app_charge_Process);
  176. app_charge_Process();
  177. Process_Start(10,"app_charge_monitor_battery_charge_data_process",app_charge_monitor_battery_charge_data_process);
  178. }