The success of the Daewoo Matiz electric vehicle retrofit relies heavily on an efficient and reliable charging system. The 96V 25A high-power onboard charger serves as the core of the entire charging architecture, enabling fast and safe energy replenishment within limited installation space, directly enhancing vehicle convenience and overall value. This article will provide a detailed analysis of the charger's technical specifications, design philosophy, safety features, and integration points, clarifying its critical role in optimizing charging efficiency and user experience.

1. OBC Core Specifications and Performance

1.1 Key Electrical Parameters

1.2 Efficiency and Power Density

2. System Architecture and Design Considerations

2.1 Hardware Design

• Power Topology: Utilizes resonant LLC converter with high efficiency and low electromagnetic interference (EMI); front-end includes PFC ensuring grid-side power factor >0.99
• Cooling System: Intelligent air-cooled design automatically adjusts fan speed based on load and temperature, balancing cooling and noise
• Protection and Structure: Housing protection rating up to IP67, vibration resistance compliant with ISO 16750, suitable for complex vehicle operating conditions

2.2 Software and Intelligent Control

• Adaptive Charging Algorithm: Dynamically adjusts output based on battery SOC, temperature, and grid status to ensure safety and extend battery life
• Configurable Charging Strategy: Supports setting charging schedules, current limits, etc., via vehicle screen or mobile app
• Communication and Expansion: In addition to CAN, some models already support Ethernet or 4G remote communication for easy integration with smart grids and remote diagnostics

3. Safety and Compliance Assurance

3.1 Multiple Electrical Protections

• Input/Output Protection: Multi-level protection mechanisms including overvoltage/undervoltage, overcurrent, short circuit, and leakage
• High/Low Voltage Isolation: Reinforced insulation (≥5 kV AC) between AC and DC ensures safety for personnel and equipment
• Comprehensive Certification: Complies with IEC 61851-1, ISO 17409, UN ECE R100, and other EV charging safety and EMC standards

3.2 Grid Compatibility

• Power Factor Correction: Active PFC maintains high power factor, reducing grid burden
• Soft Start and Harmonic Suppression: Reduces grid impact during charging initiation, meeting stricter grid connection requirements

4. Integration Installation and User Benefits

4.1 Convenient Integration Solution

The charger can be directly connected to the vehicle's AC charging port, high-voltage battery pack, and vehicle communication network. Its compact size allows installation in the engine compartment, trunk, or chassis area, with all connections using automotive-grade connectors for high reliability.

4.2 Practical Usage Advantages

5. Future Development Trends

• Bidirectional Charging (V2G): Some next-generation OBCs already support power feedback to the grid for peak shaving or emergency power supply
• Higher Power Density: Use of SiC/GaN power devices to further improve efficiency and reduce size and weight
• Cloud Platform and AI Management: Integration with cloud energy management systems for intelligent charging scheduling based on electricity prices and usage patterns

6. Summary

The 96V 25A onboard charger provides an efficient, safe, and intelligent charging solution for the Daewoo Matiz electric vehicle retrofit. Its design balancing power output with compact layout is particularly suitable for small car retrofit projects with space constraints. As charging technology evolves toward bidirectional capabilities, higher integration, and networking by 2025, such OBCs not only meet current charging needs but also reserve space for future functional upgrades, making them a key component for enhancing the practicality and market competitiveness of the Matiz EV.