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Resources

Equivalent-Circuit Cell Models

What is Open Circuit Voltage ? - YouTube

Open Cell Voltage - DC

  • Voltage is function of SOC

  • The voltage across positive and negative terminal of battery while not discharging current to a load

  • The internal resistance of the battery causes the OCV to decrease when current is discharged from it.

Open Cell Voltage - AC

  • Voltage is function of SOC

  • In this model, R0 is internal resistance, R1 & C1 model the short term transient response, and R2 & C2 model the long term transient response.

Table Lookup

  • The table relates capacity to voltage, current, temperature, and age.

  • Not practical takes time to collect and test data

  • Does not require a cell model

Voltage Lookup

  • Accurate voltage measurements can be made while a cell is resting

  • The relation between capacity and voltage is non-linear. A typical model is shown below

Coulomb Counting

  • Involves counting the charges going into the battery by integrating the current

  • Requires knowledge of the initial amount of charges

  • Defining Q as the total capacity of the battery in Ah/mAh leaves us with the following equation sets of equations

Factors that Affect Capacity Estimation

  • PCB component accuracy

    • Ideally components with low drift/offset

    • Trace length may affect resistance

  • Instrumentation accuracy

    • ADC resolution

    • Sampling rate - Is the sampling fast enough to capture waveforms and integrate

    • Voltage drift (RESEARCH THIS MORE)

    • Noise immunity

  • Cell model accuracy

    • Capacity is susceptible to degradation upon repeat cycles, how does the model accurately capture this.

    • Hard and time consuming to extract adequate parameters using collected data, for resistances and OCV

  • Temperature

    • Impact parameters, especially resistance, and including max capacity, OCV, capacitance

  • Aging

Protection

  • Protect against short circuits, over/under voltage, FET failure, comm failure

  • AFE lowers the voltage before inputting them into ADC, and can be programmed to turn off the MOSFET’s

Cell-Balancing (Example)

  • Each cell is controlled by FET on the voltage input pin, which is pulled to ground when a cell needs to be bealnced.

  • Balancing occurs by diverting some of the current to the 40 ohm resistor, which is controlled by the External FET as chargin occurs

Other Features of BMS

  • Communication with host using I2X, SMBus, etc

  • Displays with LEDs to indicate SOC or errors

  • Logging to record max/min measurements and data for failure analysis (similiart to blackbox)

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