Development of commercial vehicle power systems

RDNEV

Development of commercial vehicle power systems

Research and development of power systems for commercial vehicle models

Case Study on the Integrated Power System Project for Rotary Tillers

   
I. Project Background
With the continuous advancement of new energy policies, the traditional fuel-powered light truck market is accelerating its transition toward new energy. Although battery-electric logistics vehicles offer advantages such as convenient urban access, they have notable limitations in scenarios involving heavy loads, long-range requirements, and mountainous terrain. Hybrid technology has emerged as the optimal solution to balance environmental regulations with practical performance.
To meet the demands for smarter and more efficient upgrades in modern agricultural equipment, we have developed an integrated solution for the powertrain system matching of rotary tillers. Through customized development of core components, vehicle control strategy R&D, and comprehensive engineering services, we have achieved deep powertrain adaptation and significant performance enhancements, providing robust and reliable power support for intelligent farming in complex operating conditions.
II. Core Service Capabilities
1. Customized Development of Core Powertrain Components
Based on the operating scenarios and system architecture of rotary tillers, we provide customized R&D and delivery of key components to build a highly adaptable and reliable powertrain hardware system:
1.1 High-Voltage Power Supply & Distribution Unit (DC/DC, PDU) Development: Ensures system power supply safety and optimal energy efficiency.1.2 Customized High-Efficiency Thermal Management System: Achieves thermal balance and stable operation during prolonged equipment use.1.3 Integrated High- and Low-Voltage Wiring Harness Design: Meets the anti-interference and protection requirements under complex operating conditions.
2. Vehicle Control & System Integration R&D
We provide end-to-end technical services from electrical architecture design to real-vehicle validation, creating an intelligent and synergistic vehicle control system:
2.1 High- and Low-Voltage Electrical Architecture & Communication Protocol Planning: Enables highly efficient multi-system collaboration.2.2 VCU (Vehicle Control Unit) Strategy Development: Adapts to dynamic power response and load regulation across various rotary tillage conditions.2.3 Hardware-Software Integration Testing & Real-Vehicle Validation: Ensures functional safety and performance compliance of the system.
III. Project Quality & Delivery Assurance
All products and services strictly adhere to the customer's corporate standards as well as national and industry regulations. We provide complete design drawings, technical documentation, and inspection reports. A full-lifecycle quality control system is established, supported by a robust warranty and after-sales service mechanism to ensure the long-term and stable operation of the equipment.
IV. Project Value & OutcomesThis project has successfully achieved deep optimization of the rotary tiller's powertrain system, significantly improving the equipment's operational efficiency, adaptability to working conditions, and reliability. It has helped the customer rapidly complete product iteration and upgrades, creating high-performance intelligent rotary tillage equipment tailored for modern agriculture and providing efficient power support for large-scale and precision farming operations.

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