Design of Intelligent Energy-Saving Control System for New Energy Vehicles Based on Embedded System

Intelligent energy-saving control system for new energy vehicles refers to the control system that uses intelligent technology to achieve efficient use of vehicle energy and energy saving and consumption reduction in new energy vehicles such as electric vehicles and hybrid vehicles. In recent years, a lot of research and exploration have been carried out at home and abroad in the field of intelligent energy-saving control system for new energy vehicles, and a series of important research results have been achieved.

 

1. Domestic Research Status

 

• Power Management Strategy

Domestic researchers have conducted power management research based on different strategies such as model predictive control and optimal control by modeling and simulating the power systems of electric vehicles and hybrid vehicles. Researchers have achieved efficient utilization of vehicle power systems by accurately predicting and controlling the energy demand of vehicles, thereby reducing energy consumption. Our product, the new energy fuse contact cap, provides stability and thermal conductivity for the power system of electric vehicles.

• Energy Management System

Domestic researchers have achieved efficient energy utilization by designing and optimizing vehicle energy management systems. Researchers have improved the charging and discharging efficiency of energy storage systems by optimizing the control of vehicle energy storage systems, thereby reducing energy waste.

• Intelligent Driving

Domestic researchers have achieved coordinated control of intelligent driving and energy management of vehicles by combining intelligent driving technology with new energy vehicle control systems. Researchers have achieved intelligent management and optimized control of vehicle energy by real-time perception and analysis of vehicle driving environment and road conditions, thereby improving the energy utilization efficiency of vehicles.

 

2. Current Development Status Abroad

 

Europe is relatively active in the research of intelligent energy-saving control systems for new energy vehicles. Researchers mainly focus on the fields of power management, energy management and intelligent driving of new energy vehicles. For example, researchers use model predictive control (MPC) technology to optimize the battery charging and discharging strategy and improve the energy utilization rate of new energy vehicles; use machine learning and artificial intelligence technology to perceive and analyze the vehicle driving environment to achieve coordinated optimization of intelligent driving and energy-saving control.

 

The United States has made many achievements in the research of intelligent energy-saving control systems for new energy vehicles. Researchers mainly focus on the fields of energy management and intelligent driving of new energy vehicles. For example, researchers use optimization algorithms and predictive control technology to achieve optimized management of energy storage systems for new energy vehicles and improve vehicle range and energy utilization; use high-precision maps and sensor data to achieve precise positioning and path planning of vehicles and achieve coordinated control of intelligent driving and energy management.

 

 

1. Power Management
The system should have an efficient power management strategy and be able to accurately control the vehicle power system to maximize energy efficiency. The system should be able to monitor the vehicle's energy needs in real time, and intelligently select the appropriate power source and control strategy, such as battery, engine or other auxiliary energy, according to different driving conditions and road conditions, to reduce energy consumption and extend vehicle range. Our product, New Energy Fuse Cap and Contact High Temperature Soldering, can provide safety protection for automotive fuses. Comprehensive quality control and assembly testing ensure that the outer cap and terminal welding assembly group meet strict automotive standards.

 

2. Energy Management
The system should have advanced energy management technology to optimize the energy flow of the vehicle, including energy collection, storage and distribution. The system should be able to monitor and manage the vehicle's energy storage system, such as the battery management system (BMS), in real time to ensure its charging and discharging efficiency and life, and make rational use of energy reserves to reduce energy waste. Outer Cap and Terminal Welding Components can provide super strong conductivity to ensure the safety of vehicle energy flow.

 

3. Intelligent driving
The system should be combined with intelligent driving technology to achieve intelligent management and optimized control of vehicle energy through real-time perception and analysis of the vehicle's driving environment and road conditions. For example, the system can intelligently control the vehicle's speed, acceleration and braking force based on real-time traffic conditions and route information to reduce energy consumption and improve driving safety. New energy Outer End Cap and Terminal Welded Components are produced using high-precision and cutting-edge technology and can provide good performance for intelligent driving.

 

4. Data communication and interconnection
The system should have efficient data communication and interconnection capabilities, and be able to conduct real-time data interaction and collaborative control with various subsystems within the vehicle (such as power systems, energy storage systems, vehicle control units, etc.), and realize intelligent collaborative work between various components within the system. At the same time, the system should have the ability to communicate and interconnect with the external environment, such as data interaction with vehicle cloud platforms, charging piles, and traffic management systems, to achieve more intelligent and efficient energy management.

 

5. Safety and reliability
The system should have a high degree of safety and reliability to ensure safe operation of the vehicle. The system should have complete safety measures, such as fire prevention, explosion prevention, electrical isolation, etc., to ensure the safety of vehicles and passengers. At the same time, the system should have high reliability and be able to operate stably under various complex driving conditions to avoid increased energy consumption or energy management failure caused by system failure. Our Copper Cap and L-Type Termial for Vehicle Fuse improve the overall safety and functionality of electric vehicle electrical systems.

 

 

Our product Fuse Cap and Contact High Temperature Soldering is made of high-end aluminum alloy materials. It provides high-precision accuracy and reliability for the fuses of new energy vehicles, ensures the safety of electric vehicles during driving, and provides reliable support for them as a whole.

 

 

We invite you to contact us to learn more about Fuse Cap and Contact Resistance Brazing. Whether you are looking for the latest technology solutions for electric vehicles or are interested in the optimization of energy management systems, our team is ready to provide you with professional advice and support.