How to Avoid Pitfalls and Select a "Durable and Smart" Operation Charging Station Motherboard

When selecting an operational charging pile motherboard, multiple factors must be comprehensively considered, including functionality, cost, reliability, compatibility, and level of intelligence. Below is a detailed guide to avoid pitfalls:

1. Functional Requirements

• Network Communication Function: The operational motherboard must possess robust network communication capabilities, enabling real-time data exchange with the charging operation platform. It should support remote upgrades, intelligent monitoring, real-time surveillance, fault diagnosis, user management, and other functionalities.

• Scope of Application: The operational version motherboard is primarily used for commercial charging piles, such as large-scale charging stations, parking lots, and other venues, capable of meeting the charging demands of a large number of users.

2. Cost Consideration

• Hardware Cost: Due to its complex functionality, the operational version of the motherboard requires networking devices such as a 4G module, resulting in relatively higher hardware and development costs.

• Operating Cost: The operating version of the motherboard relies on stable network connectivity. Poor network signal or malfunctions may affect the normal use of certain functions.

3. Reliability

• Hardware Quality: Select high-quality and highly reliable components to ensure the stability of the motherboard during prolonged operation.

• Protection Class: Operational motherboard typically features a high protection class, such as IP54 or higher, to accommodate various usage environments.

4. Compatibility

• Vehicle Compatibility: The operational motherboard should be compatible with most brands and models of electric vehicles on the market, supporting multiple charging protocols.

• Communication Protocol: Supports multiple communication protocols, such as GB/T 27930 for communication with the vehicle BMS, and Modbus or MQTT for communication with the backend management system.

5. Level of Intelligence

• Smart Charging Management: Supports various intelligent charging modes, such as constant current charging, constant voltage charging, and trickle charging, enabling automatic switching between charging modes based on the vehicle's battery status.

• Remote Monitoring and Management: Supports remote monitoring, fault alerts, charging scheduling, and other functions.

6. User Experience

• Multiple startup methods: Supports various ways to initiate, such as card swiping, QR code scanning, and mobile app, enhancing user experience.

• Smart Charging Mode: Supports smart charging modes such as scheduled charging and charging by amount.

7. Supplier Evaluation

• Historical Case: Select suppliers with a wealth of historical cases, including at least three provincial-level operational project experiences.

• Quality Assurance System: Core components shall provide a 5-year warranty with 7×24-hour support.

• Data Integration: Ensure the motherboard can be compatible with the data protocols of the provincial regulatory platform.

8. Data Security

• Data Encryption: During data transmission, encryption algorithms such as AES, RSA, and domestic cryptographic algorithms are used to secure data, ensuring confidentiality and integrity.

• Identity Authentication and Access Control: Verify the identities of both parties in communication through digital certificates or keys to prevent unauthorized devices or users from accessing the system.

By comprehensively considering the above factors, you can select a "durable and smart" operating charging pile motherboard, ensuring stable operation and efficient management of the charging pile under various conditions.

The operational charging pile motherboard produced by Xin Orange Technology features high charging efficiency, safety, stability, and cost-effectiveness. Feel free to inquire and make your purchase!