Understanding Delta 30°C (Δ 30°C) in Wire Harness Manufacturing

What is Delta 30°C (Δ 30°C)?

In the manufacturing process of modern electrical and electronic equipment, wire harnesses play a crucial role. To ensure the safety and reliability of these products, wire harness manufacturers must adhere to multiple international standards, including the Delta 30°C (Δ 30°C) standard. This standard is a critical benchmark for evaluating the performance and reliability of wire harnesses.

Delta 30°C (Δ 30°C) Standard Description

The Delta 30°C (Δ 30°C) standard specifies that the temperature rise of a wire harness and its related components (such as connectors) under rated current conditions should not exceed 30°C. This means that the maximum working temperature of the product should be within 30°C of the ambient temperature. For example, if the ambient temperature is 25°C, the surface temperature of the wire harness and its connectors should not exceed 55°C.
The purpose of this standard is to prevent equipment overheating, ensure stable operation, and extend the lifespan of wire harnesses and connectors.

Challenges and Solutions in Wire Harness and Connector Production

Meeting the Delta 30°C standard requires careful consideration throughout the manufacturing process:

1. Material Selection
Material selection directly affects the temperature rise performance.

1.1 Conductor materials: Choosing materials with high thermal conductivity and low electrical resistance is crucial. Copper or tin-plated copper are preferred materials for wire harnesses upon the high conductivity and low heat generation.
1.2 Insulation materials: High-temperature-resistant materials such as PVC, polyethylene, or silicone should be selected, which can withstand working temperatures of up to 105°C or even 200°C.

2. Processing Precision

2.1 Wire specifications: The copper wire after stripping should have no damage or wire breakage, and the number of cut copper wires should meet the specification limits.
2.2 Crimping process: The crimping height and width of the terminal should meet the drawing specifications, and the crimped joint should have no tears or damage, strictly following the technical parameters provided by the terminal manufacturer to ensure crimping force and contact resistance meet the standards.
2.3 Insulation crimping: The insulation layer after crimping should remain intact and pass the bending test.

3. Heat Dissipation Design

3.1 Wire harness layout: Reasonably arrange the wire harness to enhance ventilation and reduce heat accumulation.
3.2 Protective sleeve material: Select materials with good thermal conductivity for the outer protective sleeve to help dissipate heat.

How to Conduct Delta 30°C Standard Testing

As a professional wire harness manufacturer, Avertronics has an independent laboratory that can perform professional temperature rise testing to verify whether products meet the Delta 30°C standard.

Testing Process and Method

1. Ambient temperature: Usually set at 25°C ± 5°C.
2. Load testing: Apply the designed load according to the wire harness design.
3. Thermal equilibrium: Run the product until it reaches a stable thermal equilibrium state, then make a standard judgment.

How Waterproof Connectors Meet the Delta 30°C Standard

As a professional manufacturer of waterproof connectors, Avertronics designs and produces products that meet the Delta 30°C standard.

Product Features

1. High-Quality Material Selection
   Use high-conductivity copper alloy as the internal conductive component to ensure low resistance and low heat generation.
   Use high-temperature-resistant and corrosion-resistant plastic materials for the outer shell, suitable for harsh environments.
2. Excellent Waterproof Performance
   Waterproof rating reaches IP67/IP68, effectively preventing water vapor from entering and reducing the risk of overheating inside the connector.
   Special sealing structure design, suitable for high humidity and high-pressure environments.
3. Precise Processing and Testing
   Each connector undergoes temperature rise testing and strict crimping precision control to ensure compliance with the Delta 30°C standard.
   Introduce automated production equipment in the production process to ensure product stability.

Importance of the Delta 30°C Standard for Wire Harness Products

1. Product Safety
   Wire harnesses that meet the Delta 30°C standard will not overheat during operation, reducing the risk of short circuits, fires, and ensuring the safety of terminal equipment and users.
2. Enhanced Market Competitiveness
   Wire harness products that meet international standards are more easily recognized in the market, enhancing their competitiveness in domestic and international markets.
3. Reduced Maintenance Costs
   Wire harnesses with well-controlled temperature rise have a longer lifespan, reducing customers' maintenance needs and improving product reputation.

Future Outlook

With the rapid development of electric vehicles, smart homes, and industrial automation, the demand for wire harnesses is increasing, and the requirements for temperature rise performance are becoming more stringent. Wire harness manufacturers are actively adopting the following strategies:

1. Developing New Materials: Exploring materials with higher heat resistance and lower electrical resistance.
2. Automated Production: Introducing advanced processing equipment to improve production precision and efficiency.
3. Continuous Testing and Improvement: Regularly conducting temperature rise testing on products to ensure they always meet the Delta 30°C standard.

Conclusion

The Delta 30°C standard is a cornerstone of wire harness quality and safety. By focusing on material selection, precision processing, and rigorous testing, manufacturers can deliver reliable, high-performance products that meet the demands of today's increasingly complex electrical and electronic systems.