#include "SIM_BattMonitor_SMBus.h" SITL::SIM_BattMonitor_SMBus::SIM_BattMonitor_SMBus() : SMBusDevice() { add_register("Temperature", SMBusBattDevReg::TEMP, SITL::I2CRegisters::RegMode::RDONLY); add_register("Voltage", SMBusBattDevReg::VOLTAGE, SITL::I2CRegisters::RegMode::RDONLY); add_register("Current", SMBusBattDevReg::CURRENT, SITL::I2CRegisters::RegMode::RDONLY); add_register("Remaining Capacity", SMBusBattDevReg::REMAINING_CAPACITY, SITL::I2CRegisters::RegMode::RDONLY); add_register("Full Charge Capacity", SMBusBattDevReg::FULL_CHARGE_CAPACITY, SITL::I2CRegisters::RegMode::RDONLY); add_register("Cycle_Count", SMBusBattDevReg::CYCLE_COUNT, SITL::I2CRegisters::RegMode::RDONLY); add_register("Design Charge Capacity", SMBusBattDevReg::DESIGN_CAPACITY, SITL::I2CRegisters::RegMode::RDONLY); add_register("Design Maximum Voltage", SMBusBattDevReg::DESIGN_VOLTAGE, SITL::I2CRegisters::RegMode::RDONLY); add_register("Specification Info", SMBusBattDevReg::SPECIFICATION_INFO, SITL::I2CRegisters::RegMode::RDONLY); add_register("Manufacture Date", SMBusBattDevReg::MANUFACTURE_DATE, SITL::I2CRegisters::RegMode::RDONLY); add_register("Serial", SMBusBattDevReg::SERIAL, SITL::I2CRegisters::RegMode::RDONLY); add_block("Manufacture Name", SMBusBattDevReg::MANUFACTURE_NAME, SITL::I2CRegisters::RegMode::RDONLY); add_block("Device Name", SMBusBattDevReg::DEVICE_NAME, SITL::I2CRegisters::RegMode::RDONLY); add_block("Device Chemistry", SMBusBattDevReg::DEVICE_CHEMISTRY, SITL::I2CRegisters::RegMode::RDONLY); add_register("Manufacture Data", SMBusBattDevReg::MANUFACTURE_DATA, SITL::I2CRegisters::RegMode::RDONLY); set_register(SMBusBattDevReg::TEMP, (int16_t)((C_TO_KELVIN(15))*10)); // see update for voltage // see update for current set_register(SMBusBattDevReg::DESIGN_VOLTAGE, (uint16_t(50400U))); // (mV) Design maximum voltage // TODO: remaining capacity connect to sim capacity add to update method below? // TODO: Battery mode bit set to mAh vs 10 mWh set_register(SMBusBattDevReg::REMAINING_CAPACITY, (uint16_t(42042U))); // (mAh) Remaining Capacity // TODO: full capacity fill via SIM parameter set_register(SMBusBattDevReg::FULL_CHARGE_CAPACITY, (uint16_t(45000U))); // (mAh) Full charge capacity set_register(SMBusBattDevReg::DESIGN_CAPACITY, (uint16_t(52500U))); // (mAh) Design capacity set_register(SMBusBattDevReg::CYCLE_COUNT, (uint16_t(42U))); // Set SPECIFICATION_INFO union { struct { uint8_t revision : 4; uint8_t version: 4; uint8_t vscale: 4; uint8_t ipscale: 4; } fields; uint16_t word; } specinfo; // TODO: compute PEC for relevant monitors specinfo.fields.revision = 0b0001; // version 1 // specinfo.fields.version = 0b0011; // 1.1 with PEC; TODO! specinfo.fields.version = 0b0001; // 1.0 specinfo.fields.vscale = 0b0000; // unknown... specinfo.fields.ipscale = 0b0000; // unknown... set_register(SMBusBattDevReg::SPECIFICATION_INFO, specinfo.word); set_register(SMBusBattDevReg::SERIAL, (uint16_t)12345); const char *manufacturer_name = "ArduPilot"; set_block(SMBusBattDevReg::MANUFACTURE_NAME, manufacturer_name); const char *device_name = "SITLBatMon_V0.99"; set_block(SMBusBattDevReg::DEVICE_NAME, device_name); const char *device_chemistry = "LION"; set_block(SMBusBattDevReg::DEVICE_CHEMISTRY, device_chemistry); // Set Manufacture date to 2021 APR 24th const uint16_t manufacturer_date = ((2021 - 1980) << 9) + (04 << 5) + 24; set_register(SMBusBattDevReg::MANUFACTURE_DATE, manufacturer_date); // TODO: manufacturer data } void SITL::SIM_BattMonitor_SMBus::update(const class Aircraft &aircraft) { const uint32_t now = AP_HAL::millis(); if (now - last_update_ms > 100) { const float millivolts = AP::sitl()->state.battery_voltage * 1000.0f; set_register(SMBusBattDevReg::VOLTAGE, uint16_t(millivolts)); // FIXME: is this REALLY what the hardware will do? const int16_t current = constrain_int32(AP::sitl()->state.battery_current*-1000, -32768, 32767); set_register(SMBusBattDevReg::CURRENT, current); last_update_ms = now; } }