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Add Solax CAN mappings for SOC and limits
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3 changed files with 108 additions and 33 deletions
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@ -3,47 +3,114 @@
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#include "CAN_config.h"
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/* Do not change code below unless you are sure what you are doing */
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static unsigned long previousMillis2s = 0; // will store last time a 2s CAN Message was send
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static unsigned long previousMillis10s = 0; // will store last time a 10s CAN Message was send
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static unsigned long previousMillis60s = 0; // will store last time a 60s CAN Message was send
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static const int interval2s = 2000; // interval (ms) at which send CAN Messages
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static const int interval10s = 10000; // interval (ms) at which send CAN Messages
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static const int interval60s = 60000; // interval (ms) at which send CAN Messages
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static unsigned long previousMillis100ms = 0; // will store last time a 100ms CAN Message was sent
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static const int interval100ms = 100; // interval (ms) at which send CAN Messages
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static int temp = 0; //Temporary variable used for bitshifting
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static int max_charge_rate_amp = 0;
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static int max_discharge_rate_amp = 0;
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CAN_frame_t SOLAX_1872 = {.FIR = {.B = {.DLC = 8,.FF = CAN_frame_ext,}},.MsgID = 0x1872,.data = {0x03, 0x16, 0x00, 0x66, 0x00, 0x33, 0x02, 0x09}};
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//CAN message translations from this amazing repository: https://github.com/rand12345/solax_can_bus
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CAN_frame_t SOLAX_1872 = {.FIR = {.B = {.DLC = 8,.FF = CAN_frame_ext,}},.MsgID = 0x1872,.data = {0x8A, 0xF, 0x52, 0xC, 0xCD, 0x0, 0x5E, 0x1}}; //BMS_Limits
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CAN_frame_t SOLAX_1873 = {.FIR = {.B = {.DLC = 8,.FF = CAN_frame_ext,}},.MsgID = 0x1873,.data = {0x6D, 0xD, 0x0, 0x0, 0x5D, 0x0, 0xA3, 0x1}}; //BMS_PackData
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CAN_frame_t SOLAX_1874 = {.FIR = {.B = {.DLC = 8,.FF = CAN_frame_ext,}},.MsgID = 0x1874,.data = {0xCE, 0x0, 0xBC, 0x0, 0x29, 0x0, 0x28, 0x0}}; //BMS_CellData
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CAN_frame_t SOLAX_1875 = {.FIR = {.B = {.DLC = 8,.FF = CAN_frame_ext,}},.MsgID = 0x1875,.data = {0x0, 0x0, 0x2, 0x0, 0x0, 0x0, 0x3A, 0x0}}; //BMS_Status
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CAN_frame_t SOLAX_1876 = {.FIR = {.B = {.DLC = 8,.FF = CAN_frame_ext,}},.MsgID = 0x1876,.data = {0x0, 0x0, 0xD4, 0x0F, 0x0, 0x0, 0xC9, 0x0F}}; //BMS_PackTemps
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CAN_frame_t SOLAX_1877 = {.FIR = {.B = {.DLC = 8,.FF = CAN_frame_ext,}},.MsgID = 0x1877,.data = {0x0, 0x0, 0x0, 0x0, 0x53, 0x0, 0x1D, 0x10}};
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CAN_frame_t SOLAX_1878 = {.FIR = {.B = {.DLC = 8,.FF = CAN_frame_ext,}},.MsgID = 0x1878,.data = {0x6D, 0xD, 0x0, 0x0, 0xB0, 0x3, 0x4, 0x0}}; //BMS_PackStats
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CAN_frame_t SOLAX_1879 = {.FIR = {.B = {.DLC = 8,.FF = CAN_frame_ext,}},.MsgID = 0x1879,.data = {0x1, 0x8, 0x1, 0x2, 0x1, 0x2, 0x0, 0x3}};
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CAN_frame_t SOLAX_1801 = {.FIR = {.B = {.DLC = 8,.FF = CAN_frame_ext,}},.MsgID = 0x1801,.data = {0x2, 0x0, 0x1, 0x0, 0x1, 0x0, 0x0, 0x0}};
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CAN_frame_t SOLAX_1881 = {.FIR = {.B = {.DLC = 8,.FF = CAN_frame_ext,}},.MsgID = 0x1881,.data = {0x0, 0x36, 0x53, 0x42, 0x4D, 0x53, 0x46, 0x41}}; // 0 6 S B M S F A
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CAN_frame_t SOLAX_1882 = {.FIR = {.B = {.DLC = 8,.FF = CAN_frame_ext,}},.MsgID = 0x1882,.data = {0x0, 0x32, 0x33, 0x41, 0x42, 0x30, 0x35, 0x32}}; // 0 2 3 A B 0 5 2
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CAN_frame_t SOLAX_100A001 = {.FIR = {.B = {.DLC = 8,.FF = CAN_frame_ext,}},.MsgID = 0x100A001,.data = {0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0}};
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void update_values_can_solax()
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{ //This function maps all the values fetched from battery CAN to the correct CAN messages
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//SOC (100.00%)
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temp = SOC/100; //Remove decimals, inverter takes only integer in a byte
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SOLAX_1873.data.u8[4] = temp;
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//max_target_charge_power (30000W max)
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if(SOC > 9999) //99.99%
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{ //Additional safety incase SOC% is 100, then do not charge battery further
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max_charge_rate_amp = 0;
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}
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else
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{ //We can pass on the battery charge rate (in W) to the inverter (that takes A)
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if(max_target_charge_power >= 30000)
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{
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max_charge_rate_amp = 75; //Incase battery can take over 30kW, cap value to 75A
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}
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else
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{ //Calculate the W value into A
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max_charge_rate_amp = (max_target_charge_power/(battery_voltage*0.1)); // P/U = I
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}
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}
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//Increase decimal amount
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max_charge_rate_amp = max_charge_rate_amp*10;
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//Write the calculated charge rate to the CAN message
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SOLAX_1872.data.u8[4] = (uint8_t) max_charge_rate_amp; //TODO, test that values are OK
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SOLAX_1872.data.u8[5] = (max_charge_rate_amp << 8);
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//max_target_discharge_power (30000W max)
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if(SOC < 100) //1.00%
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{ //Additional safety incase SOC% is below 1, then do not charge battery further
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max_discharge_rate_amp = 0;
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}
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else
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{ //We can pass on the battery discharge rate to the inverter
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if(max_target_discharge_power >= 30000)
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{
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max_discharge_rate_amp = 75; //Incase battery can be charged with over 30kW, cap value to 75A
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}
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else
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{ //Calculate the W value into A
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max_discharge_rate_amp = (max_target_discharge_power/(battery_voltage*0.1)); // P/U = I
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}
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}
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//Increase decimal amount
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max_discharge_rate_amp = max_discharge_rate_amp*10;
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//Write the calculated charge rate to the CAN message
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SOLAX_1872.data.u8[6] = (uint8_t) max_discharge_rate_amp; //TODO, test that values are OK
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SOLAX_1872.data.u8[7] = (max_discharge_rate_amp << 8);
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//Todo (ranked in priority)
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//Add current
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//Add voltage
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//Add remaining kWh
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//Add temperature
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//Add cell voltages
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//Add pack voltage min/max for alarms
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//Add cell voltage min/max for alarms
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}
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void send_can_solax()
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{
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unsigned long currentMillis = millis();
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// Send 2s CAN Message
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if (currentMillis - previousMillis2s >= interval2s)
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// Send 100ms CAN Message
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if (currentMillis - previousMillis100ms >= interval100ms)
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{
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previousMillis2s = currentMillis;
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previousMillis100ms = currentMillis;
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}
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// Send 10s CAN Message
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if (currentMillis - previousMillis10s >= interval10s)
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{
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previousMillis10s = currentMillis;
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ESP32Can.CANWriteFrame(&SOLAX_1872);
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ESP32Can.CANWriteFrame(&SOLAX_1873);
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ESP32Can.CANWriteFrame(&SOLAX_1874);
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ESP32Can.CANWriteFrame(&SOLAX_1875);
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ESP32Can.CANWriteFrame(&SOLAX_1876);
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ESP32Can.CANWriteFrame(&SOLAX_1877);
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ESP32Can.CANWriteFrame(&SOLAX_1878);
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//Serial.println("CAN 10s done");
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}
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//Send 60s message
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if (currentMillis - previousMillis60s >= interval60s)
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{
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previousMillis60s = currentMillis;
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//ESP32Can.CANWriteFrame(&BYD_190);
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//Serial.println("CAN 60s done");
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//Todo, how often should the messages be sent? And the other messages, only on bootup?
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}
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}
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void receive_can_solax(CAN_frame_t rx_frame)
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{
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Serial.println("Inverter sending CAN message");
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//Serial.println("Inverter sending CAN message");
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//0x1871 [0x01, 0x00, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00]
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//Todo, should we respond with something once the inverter sends a message?
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}
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@ -27,7 +27,7 @@ extern uint16_t max_volt_byd_can;
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#define FAULT 4
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#define UPDATING 5
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void update_values_can_byd();
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void update_values_can_solax();
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void send_can_solax();
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void receive_can_solax(CAN_frame_t rx_frame);
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#endif
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@ -28,7 +28,7 @@ CAN_device_t CAN_cfg; // CAN Config
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const int rx_queue_size = 10; // Receive Queue size
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//Interval settings
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const int intervalModbusTask = 4800; //Interval at which to refresh modbus registers
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const int intervalInverterTask = 4800; //Interval at which to refresh modbus registers / inverter values
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const int interval10 = 10;
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//ModbusRTU parameters
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@ -58,7 +58,7 @@ uint16_t StateOfHealth = 9900; //SOH 0-100.00% //Updates later on from CAN
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uint16_t capacity_Wh = BATTERY_WH_MAX; //Updates later on from CAN
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uint16_t remaining_capacity_Wh = BATTERY_WH_MAX; //Updates later on from CAN
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uint16_t max_target_discharge_power = 0; //0W (0W > restricts to no discharge) //Updates later on from CAN
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uint16_t max_target_charge_power = 4312; //4.3kW (during charge), both 307&308 can be set (>0) at the same time //Updates later on from CAN
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uint16_t max_target_charge_power = 4312; //4.3kW (during charge), both 307&308 can be set (>0) at the same time //Updates later on from CAN. Max value is 30000W
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uint16_t temperature_max = 50; //reads from battery later
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uint16_t temperature_min = 60; //reads from battery later
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uint16_t bms_char_dis_status; //0 idle, 1 discharging, 2, charging
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handle_contactors(); //Take care of startup precharge/contactor closing
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}
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if (millis() - previousMillisModbus >= intervalModbusTask) //every 5s
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if (millis() - previousMillisModbus >= intervalInverterTask) //every 5s
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{
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previousMillisModbus = millis();
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handle_modbus(); //Update values heading towards modbus
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handle_inverter(); //Update values heading towards inverter
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}
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}
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@ -227,7 +227,7 @@ void handle_can()
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#endif
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}
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void handle_modbus()
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void handle_inverter()
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{
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#ifdef BATTERY_TYPE_LEAF
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update_values_leaf_battery(); //Map the values to the correct registers
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@ -238,8 +238,16 @@ void handle_modbus()
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#ifdef RENAULT_ZOE_BATTERY
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update_values_zoe_battery(); //Map the values to the correct registers
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#endif
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handle_update_data_modbusp201(); //Updata for ModbusRTU Server for GEN24
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handle_update_data_modbusp301(); //Updata for ModbusRTU Server for GEN24
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#ifdef SOLAX_CAN
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update_values_can_solax();
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#endif
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#ifdef CAN_BYD
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update_values_can_byd();
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#endif
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//Updata for ModbusRTU Server for GEN24
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handle_update_data_modbusp201();
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handle_update_data_modbusp301();
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}
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void handle_contactors()
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