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LHT
Product Description:
As the "intelligent brain" of pure electric vehicles, the pure electric vehicle controller (VCU) is the core component that determines the performance, safety and economy of the vehicle. It collects sensor data such as accelerator pedal, brake pedal, battery management system, and motor speed in real time, and accurately regulates the operation of the vehicle through high-speed computing and intelligent analysis.
In terms of function, the VCU can accurately adjust the speed and torque of the motor to achieve a smooth start, linear acceleration and safe deceleration of the vehicle. Rationally plan the distribution of electric energy, optimize the energy recovery strategy, and extend the battery life and mileage; Built-in fault diagnosis system, real-time monitoring of abnormalities, to ensure driving safety. In terms of product features, VCUs are highly integrated and miniaturized, saving space in the vehicle and reducing the risk of failure. The hardware uses high-performance microprocessors and high-quality components, which can work stably in extreme environments from -40°C to 125°C. The software uses cutting-edge algorithms to optimize control strategies, and also supports OTA remote upgrades to continuously improve vehicle performance.
It has a wide range of application scenarios. In the field of passenger cars, it ensures comfortable driving, realizes sensitive response to acceleration and braking, ensures stable power supply for in-vehicle equipment, and supports intelligent functions such as remote control. In the field of commercial vehicles, pure electric buses and logistics vehicles use VCUs to intelligently adjust power and energy distribution according to routes and tasks, improving operational efficiency and reducing costs. Special vehicles, such as engineering vehicles and airport shuttle vehicles, can ensure the stable operation of vehicles and complete special tasks with strong control capabilities and high reliability even in the face of complex and harsh working conditions.
Parameter Table
| The name of the project | Main parameters: |
| Operating voltage range | 9V~36V |
| Input voltage range | 5.5V~35V |
| Output voltage accuracy | +0.2% |
| Methods of communication | 3-channel CAN communication, the maximum rate is 1Mbps, and the baud rate is 250KHz |
| Protection features | Over-voltage protection, over-current protection, over-temperature protection |
Product Description:
As the "intelligent brain" of pure electric vehicles, the pure electric vehicle controller (VCU) is the core component that determines the performance, safety and economy of the vehicle. It collects sensor data such as accelerator pedal, brake pedal, battery management system, and motor speed in real time, and accurately regulates the operation of the vehicle through high-speed computing and intelligent analysis.
In terms of function, the VCU can accurately adjust the speed and torque of the motor to achieve a smooth start, linear acceleration and safe deceleration of the vehicle. Rationally plan the distribution of electric energy, optimize the energy recovery strategy, and extend the battery life and mileage; Built-in fault diagnosis system, real-time monitoring of abnormalities, to ensure driving safety. In terms of product features, VCUs are highly integrated and miniaturized, saving space in the vehicle and reducing the risk of failure. The hardware uses high-performance microprocessors and high-quality components, which can work stably in extreme environments from -40°C to 125°C. The software uses cutting-edge algorithms to optimize control strategies, and also supports OTA remote upgrades to continuously improve vehicle performance.
It has a wide range of application scenarios. In the field of passenger cars, it ensures comfortable driving, realizes sensitive response to acceleration and braking, ensures stable power supply for in-vehicle equipment, and supports intelligent functions such as remote control. In the field of commercial vehicles, pure electric buses and logistics vehicles use VCUs to intelligently adjust power and energy distribution according to routes and tasks, improving operational efficiency and reducing costs. Special vehicles, such as engineering vehicles and airport shuttle vehicles, can ensure the stable operation of vehicles and complete special tasks with strong control capabilities and high reliability even in the face of complex and harsh working conditions.
Parameter Table
| The name of the project | Main parameters: |
| Operating voltage range | 9V~36V |
| Input voltage range | 5.5V~35V |
| Output voltage accuracy | +0.2% |
| Methods of communication | 3-channel CAN communication, the maximum rate is 1Mbps, and the baud rate is 250KHz |
| Protection features | Over-voltage protection, over-current protection, over-temperature protection |
