Secure High Voltage with EV Wiring Harnesses for New Energy
Introduction What makes EV wiring harnesses different from traditional car wiring? The answer lies in the High Voltage (HV) requirements. EV harnesses must handle significantly higher currents and voltages (up to 800V+), necessitating specialized orange insulation and electromagnetic shielding.
As the electric vehicle market grows, understanding the safety and composition of these harnesses is non-negotiable for engineers and technicians.
1. What Is an EV High Voltage Harness?
It is the neural network of an electric vehicle, transmitting power between the charging port, battery pack, inverter, and motor.
Visual ID: Bright Orange color (Safety Standard).
Structure: Conductors, XLPE insulation, shielding braid, and outer jacket.
2. Why Use Specialized HV Cable?
Safety: The orange color alerts technicians to high voltage danger.
Heat Resistance: They withstand higher temperatures generated by high amperage.
EMI Shielding: Prevents electrical noise from interfering with vehicle sensors.
3. Types of EV Cables
| Type |
Voltage Rating |
Application |
| Unshielded |
Low (12V/24V) |
Ancillary systems (Lights, Windows). |
| Shielded HV |
600V - 1000V |
Battery to Motor, Inverter. |
| Charging Cable |
300V - 1000V |
External Charging Port to Battery. |
4. How to Choose
When selecting HV cables, consider flexibility and durability. Just as you would select a robust waterproof inline fuse holder wiring harness for wet environments, EV cables must resist moisture and road debris.
| Feature |
Requirement |
| Conductor |
Copper (High conductivity) or Aluminum (Lightweight). |
| Insulation |
XLPE or Silicone (200°C rating). |
| Flexibility |
Class 5 or 6 stranding for tight routing. |
Refer to SAE International for high-voltage cable standards in automobiles.
5. How to Use / Install
Step 1: De-energize the High Voltage system (Service Plug Disconnect).
Step 2: Wear Class 0 rated insulated gloves.
Step 3: Route cables away from sharp moving parts.
Step 4: Ensure grounding of the shielding braid at connector points.
Step 5: Torque terminals to specification to prevent arcing.
6. Applications
BEVs (Battery Electric Vehicles): Main powertrain.
HEVs (Hybrid Vehicles): Connecting ICE and Electric motors.
Energy Storage: Commercial battery banks.
Conclusion
High Voltage harnesses are the lifeline of modern transportation. Using certified, shielded orange cables ensures efficiency and prevents catastrophic electrical failures. Trust Fuqiang for harnesses that meet rigorous automotive standards.
About Fuqiang
Fuqiang specializes in New Energy Vehicle (NEV) solutions, producing high-voltage cabling and precision molded parts for top-tier EV manufacturers.
FAQ
Q: Why are EV cables orange? A: It is an international safety standard to visually identify cables carrying potentially lethal voltages.