electronic throttle body

Optimized Airflow Control for Engine Efficiency

The UCAL electronic throttle body offers advanced airflow control to optimize engine performance, responding precisely to the driver’s accelerator input. Designed for engines ranging from 0.8L to 1.3L, this throttle body assembly ensures accurate air intake, enhancing engine efficiency and overall vehicle dynamics. Its modular design and high-resolution position sensing provide quick and efficient throttle response, ensuring a seamless driving experience.

Built for Versatile OEM Integration

Engine Airflow Management

The UCAL Throttle Body Assembly regulates the amount of air entering the engine, improving fuel efficiency and reducing emissions. It adapts dynamically to driving conditions to enhance the overall performance of the engine.

Seamless Integration with Engine Management Systems

This assembly integrates easily with various engine management systems, allowing real-time adjustments to meet driver demands and optimize fuel economy.

Reliable Across Harsh Conditions

Engineered to withstand extreme temperatures and challenging environments, the UCAL Throttle Body Assembly delivers consistent performance across a wide range of automotive applications.

Salient Features of UCAL electronic throttle body

Supplementary Applications

Benefits

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Your Frequent Questions Answered

It regulates the airflow based on driver input, adjusting in real-time to ensure that the engine receives the optimal amount of air for efficient combustion and enhanced performance.

The UCAL Throttle Body Assembly is designed for engines ranging from 0.8L to 1.3L, making it versatile for various compact automotive applications.

UCAL’s integrated position sensor ensures high precision in airflow control, contributing to quick throttle response and improved overall engine efficiency.

The use of a DC motor drive and efficient design ensures low power consumption while maintaining durability and high performance, leading to reduced fuel usage.

Yes, it is engineered to withstand extreme temperatures and tough environmental conditions, ensuring reliable operation across a wide range of applications.