Add reverse engineered PID polls

2025-10-05 19:42:08 +02:00 · 2025-03-29 21:51:48 +02:00 · 2025-03-29 21:51:48 +02:00 · 95aca19120
commit 95aca19120
parent a37b621e99
2 changed files with 171 additions and 3 deletions
--- a/Software/src/battery/CMFA-EV-BATTERY.cpp
+++ b/Software/src/battery/CMFA-EV-BATTERY.cpp
@ -34,11 +34,32 @@ CAN_frame CMFA_3D3 = {.FD = false,
                      .data = {0x47, 0x30, 0x00, 0x02, 0x5D, 0x80, 0x5D, 0xE7}};
 CAN_frame CMFA_59B = {.FD = false, .ext_ID = false, .DLC = 3, .ID = 0x59B, .data = {0x00, 0x02, 0x00}};

+CAN_frame CMFA_ACK = {.FD = false,
+                      .ext_ID = false,
+                      .DLC = 8,
+                      .ID = 0x79B,
+                      .data = {0x30, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00}};
+CAN_frame CMFA_POLLING_FRAME = {.FD = false,
+                                .ext_ID = false,
+                                .DLC = 8,
+                                .ID = 0x79B,
+                                .data = {0x30, 0x22, 0x90, 0x01, 0x00, 0x00, 0x00, 0x00}};
+
+static uint32_t average_voltage_of_cells = 270000;
+static uint16_t highest_cell_voltage_mv = 3700;
+static uint16_t leadAcidBatteryVoltage = 12000;
+static uint16_t highest_cell_voltage_number = 0;
+static uint16_t lowest_cell_voltage_number = 0;
+static uint64_t cumulative_energy_when_discharging = 0;  // Wh
+static uint16_t pack_voltage_polled = 2700;
+static uint32_t poll_pid = PID_POLL_PACKVOLTAGE;
+static uint16_t pid_reply = 0;
 static uint8_t counter_10ms = 0;
 static uint8_t content_125[16] = {0x07, 0x0C, 0x01, 0x06, 0x0B, 0x00, 0x05, 0x0A,
                                  0x0F, 0x04, 0x09, 0x0E, 0x03, 0x08, 0x0D, 0x02};
 static uint8_t content_135[16] = {0x85, 0xD5, 0x25, 0x75, 0xC5, 0x15, 0x65, 0xB5,
                                  0x05, 0x55, 0xA5, 0xF5, 0x45, 0x95, 0xE5, 0x35};
+static unsigned long previousMillis200ms = 0;
 static unsigned long previousMillis100ms = 0;
 static unsigned long previousMillis10ms = 0;

@ -60,7 +81,7 @@ void update_values_battery() {  //This function maps all the values fetched via

  datalayer.battery.status.current_dA = current * 10;

-  datalayer.battery.status.voltage_dV = pack_voltage;
+  datalayer.battery.status.voltage_dV = average_voltage_of_cells / 100;

  datalayer.battery.info.total_capacity_Wh = 27000;

@ -76,9 +97,13 @@ void update_values_battery() {  //This function maps all the values fetched via

  datalayer.battery.status.temperature_max_dC = (highest_cell_temperature * 10);

-  datalayer.battery.status.cell_min_voltage_mV;
+  datalayer.battery.status.cell_min_voltage_mV = highest_cell_voltage_mv;  //Placeholder until we can find minimum

-  datalayer.battery.status.cell_max_voltage_mV;
+  datalayer.battery.status.cell_max_voltage_mV = highest_cell_voltage_mv;
+
+  if (leadAcidBatteryVoltage < 11000) {  //11.000V
+    set_event(EVENT_12V_LOW, leadAcidBatteryVoltage);
+  }
 }

 void handle_incoming_can_frame_battery(CAN_frame rx_frame) {
@ -126,6 +151,43 @@ void handle_incoming_can_frame_battery(CAN_frame rx_frame) {
      break;
    case 0x5E1:
      datalayer.battery.status.CAN_battery_still_alive = CAN_STILL_ALIVE;
+      break;
+    case 0x7BB:                           // Reply from battery
+      if (rx_frame.data.u8[0] == 0x10) {  //PID header
+        transmit_can_frame(&CMFA_ACK, can_config.battery);
+      }
+
+      pid_reply = (rx_frame.data.u8[2] << 8) + rx_frame.data.u8[3];
+
+      switch (pid_reply) {
+        case PID_POLL_PACKVOLTAGE:
+          pack_voltage_polled =
+              (uint16_t)((rx_frame.data.u8[5] << 8) | rx_frame.data.u8[4]);  //Hmm, not same LSB as others
+          break;
+        case PID_POLL_AVERAGE_VOLTAGE_OF_CELLS:
+          average_voltage_of_cells =
+              (uint16_t)((rx_frame.data.u8[5] << 16) | (rx_frame.data.u8[6] << 8) | (rx_frame.data.u8[7]));
+          break;
+        case PID_POLL_HIGHEST_CELL_VOLTAGE:
+          highest_cell_voltage_mv = (uint16_t)((rx_frame.data.u8[4] << 8) | rx_frame.data.u8[5]);
+          break;
+        case PID_POLL_CELL_NUMBER_HIGHEST_VOLTAGE:
+          highest_cell_voltage_number = rx_frame.data.u8[4];
+          break;
+        case PID_POLL_CELL_NUMBER_LOWEST_VOLTAGE:
+          lowest_cell_voltage_number = rx_frame.data.u8[4];
+          break;
+        case PID_POLL_12V_BATTERY:
+          leadAcidBatteryVoltage = (uint16_t)((rx_frame.data.u8[4] << 8) | rx_frame.data.u8[5]);
+          break;
+        case PID_POLL_CUMULATIVE_ENERGY_WHEN_DISCHARGING:
+          cumulative_energy_when_discharging = (uint64_t)((rx_frame.data.u8[4] << 24) | (rx_frame.data.u8[5] << 16) |
+                                                          (rx_frame.data.u8[6] << 8) | (rx_frame.data.u8[7]));
+          break;
+        default:
+          break;
+      }
+
      break;
    default:
      break;
@ -157,6 +219,53 @@ void transmit_can_battery() {
    transmit_can_frame(&CMFA_59B, can_config.battery);
    transmit_can_frame(&CMFA_3D3, can_config.battery);
  }
+  //Send 200ms message
+  if (currentMillis - previousMillis200ms >= INTERVAL_200_MS) {
+    previousMillis200ms = currentMillis;
+
+    switch (poll_pid) {
+      case PID_POLL_PACKVOLTAGE:
+        CMFA_POLLING_FRAME.data.u8[2] = (uint8_t)(PID_POLL_PACKVOLTAGE >> 8);
+        CMFA_POLLING_FRAME.data.u8[3] = (uint8_t)PID_POLL_PACKVOLTAGE;
+        poll_pid = PID_POLL_AVERAGE_VOLTAGE_OF_CELLS;
+        break;
+      case PID_POLL_AVERAGE_VOLTAGE_OF_CELLS:
+        CMFA_POLLING_FRAME.data.u8[2] = (uint8_t)(PID_POLL_AVERAGE_VOLTAGE_OF_CELLS >> 8);
+        CMFA_POLLING_FRAME.data.u8[3] = (uint8_t)PID_POLL_AVERAGE_VOLTAGE_OF_CELLS;
+        poll_pid = PID_POLL_HIGHEST_CELL_VOLTAGE;
+        break;
+      case PID_POLL_HIGHEST_CELL_VOLTAGE:
+        CMFA_POLLING_FRAME.data.u8[2] = (uint8_t)(PID_POLL_HIGHEST_CELL_VOLTAGE >> 8);
+        CMFA_POLLING_FRAME.data.u8[3] = (uint8_t)PID_POLL_HIGHEST_CELL_VOLTAGE;
+        poll_pid = PID_POLL_CELL_NUMBER_HIGHEST_VOLTAGE;
+        break;
+      case PID_POLL_CELL_NUMBER_HIGHEST_VOLTAGE:
+        CMFA_POLLING_FRAME.data.u8[2] = (uint8_t)(PID_POLL_CELL_NUMBER_HIGHEST_VOLTAGE >> 8);
+        CMFA_POLLING_FRAME.data.u8[3] = (uint8_t)PID_POLL_CELL_NUMBER_HIGHEST_VOLTAGE;
+        poll_pid = PID_POLL_CELL_NUMBER_LOWEST_VOLTAGE;
+        break;
+      case PID_POLL_CELL_NUMBER_LOWEST_VOLTAGE:
+        CMFA_POLLING_FRAME.data.u8[2] = (uint8_t)(PID_POLL_CELL_NUMBER_LOWEST_VOLTAGE >> 8);
+        CMFA_POLLING_FRAME.data.u8[3] = (uint8_t)PID_POLL_CELL_NUMBER_LOWEST_VOLTAGE;
+        poll_pid = PID_POLL_12V_BATTERY;
+        break;
+      case PID_POLL_12V_BATTERY:
+        CMFA_POLLING_FRAME.data.u8[2] = (uint8_t)(PID_POLL_12V_BATTERY >> 8);
+        CMFA_POLLING_FRAME.data.u8[3] = (uint8_t)PID_POLL_12V_BATTERY;
+        poll_pid = PID_POLL_CUMULATIVE_ENERGY_WHEN_DISCHARGING;
+        break;
+      case PID_POLL_CUMULATIVE_ENERGY_WHEN_DISCHARGING:
+        CMFA_POLLING_FRAME.data.u8[2] = (uint8_t)(PID_POLL_CUMULATIVE_ENERGY_WHEN_DISCHARGING >> 8);
+        CMFA_POLLING_FRAME.data.u8[3] = (uint8_t)PID_POLL_CUMULATIVE_ENERGY_WHEN_DISCHARGING;
+        poll_pid = PID_POLL_PACKVOLTAGE;
+        break;
+      default:
+        poll_pid = PID_POLL_PACKVOLTAGE;
+        break;
+    }
+
+    transmit_can_frame(&CMFA_POLLING_FRAME, can_config.battery);
+  }
 }

 void setup_battery(void) {  // Performs one time setup at startup
--- a/Software/src/battery/CMFA-EV-BATTERY.h
+++ b/Software/src/battery/CMFA-EV-BATTERY.h
@ -9,6 +9,65 @@
 #define MAX_CELL_VOLTAGE_MV 4250  //Battery is put into emergency stop if one cell goes over this value
 #define MIN_CELL_VOLTAGE_MV 2700  //Battery is put into emergency stop if one cell goes below this value

+// OBD2 PID polls
+/*
+#define PID_POLL_UNKNOWN1 0x9001 //122 in log
+#define PID_POLL_UNKNOWNX 0x9002 //5531 (Possible SOC candidate)
+*/
+#define PID_POLL_PACKVOLTAGE 0x9003                  //Best guess, not confirmed
+#define PID_POLL_AVERAGE_VOLTAGE_OF_CELLS 0x9006     //Guaranteed pack voltage
+#define PID_POLL_HIGHEST_CELL_VOLTAGE 0x9007         //Best guess, not confirmed
+#define PID_POLL_CELL_NUMBER_HIGHEST_VOLTAGE 0x9008  // Cell number with highest voltage
+#define PID_POLL_CELL_NUMBER_LOWEST_VOLTAGE 0x900A   // Cell number with the lowest voltage
+//#define PID_POLL_UNKNOWNX 0x900D
+#define PID_POLL_12V_BATTERY 0x9011  //Confirmed 12v lead acid battery
+/*
+#define PID_POLL_UNKNOWNX 0x9012 //749 in log
+#define PID_POLL_UNKNOWN3 0x9013 //736 in log
+#define PID_POLL_UNKNOWN4 0x9014 //752 in log
+#define PID_POLL_UNKNOWN4 0x901B // Multi frame message, lots of values ranging between 0x30 - 0x52
+#define PID_POLL_UNKNOWNX 0x912F // Multi frame message, empty
+#define PID_POLL_UNKNOWNX 0x9129
+#define PID_POLL_UNKNOWNX 0x9131
+#define PID_POLL_UNKNOWNX 0x9132
+#define PID_POLL_UNKNOWNX 0x9133
+#define PID_POLL_UNKNOWNX 0x9134
+#define PID_POLL_UNKNOWNX 0x9135
+#define PID_POLL_UNKNOWNX 0x9136
+#define PID_POLL_UNKNOWNX 0x9137
+#define PID_POLL_UNKNOWNX 0x9138
+#define PID_POLL_UNKNOWNX 0x9139
+#define PID_POLL_UNKNOWNX 0x913A
+#define PID_POLL_UNKNOWNX 0x913B
+#define PID_POLL_UNKNOWNX 0x913C
+#define PID_POLL_UNKNOWN5 0x912F
+#define PID_POLL_UNKNOWNX 0x91B7
+#define PID_POLL_UNKNOWNX 0x91C1
+#define PID_POLL_UNKNOWNX 0x91CD
+#define PID_POLL_UNKNOWNX 0x91CF
+#define PID_POLL_UNKNOWNX 0x91F6
+#define PID_POLL_UNKNOWNX 0x91F7
+#define PID_POLL_UNKNOWNX 0x920F
+#define PID_POLL_UNKNOWNx 0x9242
+#define PID_POLL_UNKNOWNx 0x9243
+*/
+#define PID_POLL_CUMULATIVE_ENERGY_WHEN_DISCHARGING 0x9245  //OK
+/*
+#define PID_POLL_UNKNOWNx 0x9256
+#define PID_POLL_UNKNOWNx 0x9261
+#define PID_POLL_UNKNOWN7 0x9284
+#define PID_POLL_UNKNOWNx 0xF012
+#define PID_POLL_UNKNOWNx 0xF1A0
+#define PID_POLL_UNKNOWNx 0xF182
+#define PID_POLL_UNKNOWNx 0xF187
+#define PID_POLL_UNKNOWNx 0xF188
+#define PID_POLL_UNKNOWNx 0xF18A
+#define PID_POLL_UNKNOWNx 0xF18C
+#define PID_POLL_UNKNOWNx 0xF191
+#define PID_POLL_UNKNOWNx 0xF194
+#define PID_POLL_UNKNOWNx 0xF195
+*/
+
 void setup_battery(void);
 void transmit_can_frame(CAN_frame* tx_frame, int interface);