Monitoring

Battery

Battery parameters are summarized in the "Battery" section:

In this section:

• Voltage – voltage of the battery, V;
• Current – current of the battery, A;
• Internal resistance – internal resistance of the battery, Ohm;
• Main voltage – supply voltage on the BMS, V;
• Power switch voltage – supply voltage on the power switches, V;
• Board temperature – internal temperature of the BMS, °C;
• Board humidity – relative humidity measured by the BMS, %;
• Temperature 1, 2 – temperature measured by the external temperature sensors, °C;
• Number of Logic devices – number of connected Logic devices;
• Logic command rate – number of commands transmitted to Logic devices, com/s;
• Minimum Logic temperature – minimum temperature among Logic devices, °C;
• # of Logic with minimum temperature – number of Logic with minimum temperature;
• Maximum Logic temperature – minimum temperature among Logic devices, °C;
• # of Logic with maximum temperature – number of Logic with maximum temperature;
• Number of cells – number of connected cells;
• Average cell temperature, °C;
• Minimum cell temperature, °C;
• # of Logic with minimum cell temperature – number of Logic with minimum cell temperature;
• # of cell with minimum temperature – number of cell with minimum temperature;
• Maximum cell temperature, °C;
• # of Logic with maximum cell temperature – number of Logic with maximum cell temperature;
• # of cell with maximum temperature – number of cell with maximum temperature;
• Minimum cell voltage, V;
• # of Logic with minimum cell voltage – number of Logic with minimum voltage;
• # of cell with minimum voltage – number of cell with minimum voltage;
• Maximum cell voltage, V;
• # of Logic with maximum cell voltage – number of Logic with maximum voltage;
• # of cell with maximum voltage – number of cell with maximum voltage;
• Minimum cell SOC, %;
• # of Logic with minimum cell SOC – number of Logic with minimum SOC;
• # of cell with minimum SOC – number of cell with minimum SOC;
• Maximum cell SOC, %;
• # of Logic with maximum cell SOC – number of Logic with maximum SOC;
• # of cell with maximum SOC – number of cell with maximum SOC;
• Number of balancing cells;
• State:
  • Discharging ON;
  • Discharging OFF;
  • Relaxed (after discharging) – battery is in a state of relaxation after discharging;
  • Charing ON;
  • Charging OFF;
  • Relaxed (after charging) – battery is in a state of relaxation after charging;
• Duration – duration of the battery in the "State" state, s;
• SOC – state of charge of the battery, %;
• DOD – depth of discharge of the battery, %;
• SOH – state of health of the battery, %;
• Balancing efficiency – balancing efficiency of the battery, %;
• Effective capacity, А×h;
• Instant capacity – instantaneous value of the effective capacity (used to calculate the SOC), А×h;
• Coulomb counter + – charge received by the battery from the charger, А×h;
• Coulomb counter - – charge transferred to the battery load, А×h;
• Charge current limit – maximum allowed charge current of the battery, A;
• Discharge current limit – maximum allowed discharge current of the battery, A;
• High voltage 1 – voltage before the contactors, V;
• High voltage 2 – voltage after the contactors, V;
• Work charge+ - amount of charge received from charger (positive direction) since device startup, Ah;
• Work charge- - amount of charge transmitted to the load (negative direction) since device startup, Ah;
• Work energy+ - amount of energy received from charger (positive direction) since device startup, Wh;
• Work energy- - amount of energy transmitted to the load (negative direction) since device startup, Wh;
• Total energy+ - total energy received by the battery modules from the charger and during recuperation, Wh;
• Total energy- - total energy spent by the battery modules on the load, Wh;
• Total balanced energy – total energy dissipated by the battery modules on balancing resistors, Wh;
• Internal signals – device internal signals:
  • Low SOC – a signal indicating the discharged battery;
  • High charging current;
  • Charging – state of the charging contactor;
  • Allow charging signal – signal allowing the operation of the charger;
  • Charging current present – charging current is detected;
  • Discharging – state of the discharging contactor;
  • Discharging current present – discharging current is detected;
  • Voltage is too high for charging;
  • Heater – signal to turn on heater;
  • Cooler – signal to turn on cooler;
  • Shutdown request (HYG/Spirit) – request to open the discharging contactor received from the HYG forklift;
  • Init – initialization of the device (calibration of the current sensor and searching BMS Logic devices);
  • Precharging – state of the precharging contactor;
  • Shutdown request (Combilift) – request to open the discharging contactor received from the Combilift forklift;
  • Cell analysis – operation of the algorithm for determining the discharge characteristics;
  • Balancing 1 – balancing the first series of cells;
  • Balancing 2 – balancing the second series of cells;
  • Discharging (AUX) – state of the discharging (AUX) contactor (powering of external equipment is on);
  • Power down ACK – signal to acknowledge powering down the battery system;
  • Crown EWS – signal sent to the Crown truck before opening the discharging contactor;
  • Main contactor – state of the main contactor;
  • Service reset;
  • Charging/Discharging – state of the charging/discharging contactor;
  • Ready to charge – the battery is ready to charge;
  • Ready to discharge – the battery is ready to discharge;
  • Power up – system power status;
• Errors 1 – errors of the battery 1:
  • Overcurrent;
  • Undervoltage;
  • Overvoltage;
  • Low temperature (DCH) – temperature is too low for discharging;
  • High temperature (DCH) – temperature is too high for discharging;
  • Battery cover error – battery cover is open;
  • High humidity – humidity of the battery is increased;
  • Water – there is water in the battery enclosure;
  • High Logic temperature – at least one of the Logic devices is overheated;
  • Logic offline – at least one of the Logic devices is offline;
  • Critical error;
  • Crown error – connection with a Crown forklift is lost;
  • Cell count error – number of cells does not match the specified value;
  • HYG offline – connection with a HYG forklift is lost;
  • Combilift offline – connection with a Combilift forklift is lost;
  • Short circuit;
  • High contactor temperature;
  • ADC error – current cannot be measured;
  • Current sensor error – error in the current sensor circuit;
  • CH contactor cycles error – switching frequency of the charging contactor is too high;
  • DCH contactor cycles error – switching frequency of the discharging contactor is too high;
  • Shunt offline – connection with the shunt current sensor is lost;
  • Shunt error – internal error of the shunt current sensor;
  • WDT reset – watchdog timer reset the device;
  • No temperature sensors – the device has no temperature sensors connected;
  • Temperature sensor is shorted – some temperature sensors are shorted;
  • Spirit offline – connection with a Spirit forklift is lost;
• Errors 2 – errors of the battery 2:
  • Low temperature (CH) – temperature is too low for charging;
  • High temperature (CH) – temperature is too high for charging;
  • Unallowable charging – charging the battery through the discharging contactor;
  • Stuck contactor;
  • CH contactor feedback error – the control signals for the charging contactor and the contactor feedback differ;
  • DCH contactor feedback error – the control signals for the discharging contactor and the contactor feedback differ;
  • Insulation fault;
  • PCH contactor feedback error – the control signals for the precharging contactor and the contactor feedback differ;
  • CH/DCH contactor feedback error – the control signals for the charging/discharging contactor and the contactor feedback differ;
  • Main contactor feedback error – the control signals for the main contactor and the contactor feedback differ;
  • General error;
  • High voltage fault – failure of high voltage measuring circuits;
  • Power switch error – short circuit in contactor coil control circuit or power switch overheating;
  • HVIL error – breakage of high-voltage interlock current loop;
  • Precharge error – capacitive load pre-charge process did not end during the estimated time;
  • Power fault – external devices power supply error: current sensors, HVIL, BMS Logic or CAN2 (int) bus powered devices.