Battery Electric Vehicle Model in Simscape - In this model, motor is not getting power from battery pack

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In this model, I have change the paramters as per my vehicle calculation, few calculation results are okay but the battery pack is not providing current to motor because of which i am not getting final result as per my drive cycle.

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Namnendra
Namnendra 2024년 4월 10일
Hi Bhavin,
When you're working with a MATLAB simulation model, especially one involving vehicle dynamics and components like battery packs and motors, there are several common areas to investigate if the battery pack is not providing current to the motor as expected. This kind of issue can stem from various sources, including parameter misconfigurations, model setup issues, or even deeper problems within the simulation logic. Here are steps to troubleshoot and potentially resolve this issue:
1. Verify Battery and Motor Parameters
Ensure that all parameters related to the battery pack and motor are correctly set according to your vehicle calculations. This includes checking:
- Battery Capacity: The total energy storage capacity of the battery.
- Voltage and Current Limits: Ensure that the nominal voltage of the battery matches the motor's requirements and that the current limits are within the operational range needed for your drive cycle.
- State of Charge (SoC) Initialization: The initial state of charge of the battery can affect its ability to supply current. Make sure it's set to a realistic value.
2. Check the Connection Between Battery and Motor
In the simulation model, ensure that the battery and motor are correctly connected. This might seem basic, but it's easy to overlook connections in complex models.
- Electrical Connections: Verify that the electrical circuit formed by the battery, motor, and any intermediate components (like converters or controllers) is correctly set up.
- Signal Connections: Check if there are control signals (for example, from a vehicle controller) that are not correctly configured or missing, which could prevent the motor from operating even if the battery is capable of supplying current.
3. Review the Drive Cycle Implementation
The way the drive cycle is implemented can affect how the battery and motor interact. Ensure that:
- Drive Cycle Demands: The demands of your drive cycle (speed, acceleration) are within the operational capabilities of both the battery and the motor.
- Control Logic: Any control logic that manages power flow between the battery and motor is correctly implemented. This includes checking for any conditional logic that might inadvertently prevent current flow under certain conditions.
4. Simulate Under Simplified Conditions
To isolate the issue, try simplifying the model or the conditions under which you're running the simulation:
- Simplified Drive Cycle: Run the simulation under a very simple drive cycle (e.g., constant speed or acceleration) to see if the issue persists.
- Component Isolation: If possible, test the battery and motor components separately in a simplified setup to ensure they function as expected on their own.
5. Use Diagnostic Tools and Visualization
MATLAB offers various tools for diagnosing and visualizing simulation behavior:
- Scope Blocks: Use scope blocks or dashboard instruments to monitor the current, voltage, and power at various points in the model, especially between the battery and motor.
6. Consult Documentation
- MATLAB Documentation: Review the documentation for the specific blocks or components you're using. There might be specific settings or configurations required for your use case.
By systematically checking these areas, you should be able to identify and resolve the issue with the battery pack not providing current to the motor in your vehicle simulation model.
I hope the above steps help resolve the issue.
Thank you.

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