Overview
High-current connectors are critical for power electronics reliability. We help you select the right connectors, design effective quick-disconnect systems, and integrate cable assemblies that meet your current-carrying and safety requirements.
Key Benefits
- Ensure reliable high-current connections
- Design for field serviceability
- Meet safety and certification requirements
- Optimize connector costs
- Reduce assembly time and errors
Capabilities
Connector Selection
Selection guidance for high-current connectors based on current rating, voltage class, and application requirements.
Quick Disconnect Design
Custom QD solutions for field serviceability, including interlock and safety features.
Cable Assembly Integration
Cable routing, strain relief, and assembly design for reliable connections.
Contact Analysis
Thermal analysis of connector contacts to ensure adequate current-carrying capacity.
Standards Compliance
Design for UL, IEC, and automotive connector standards.
Our Process
A structured approach that delivers results efficiently
Requirements Definition
Define electrical, mechanical, and environmental requirements
Day 1Connector Selection
Evaluate options and recommend solutions
Days 2-3Integration Design
Design mounting, routing, and strain relief
Days 4-6Validation
Thermal analysis and design review
Day 7Use Cases
How we apply connectors & quick disconnects across industries
EV Charging Connectors
High-power DC charging connectors and cable assemblies for CCS and CHAdeMO systems.
Battery Pack Connections
Service disconnect and module interconnect solutions for battery systems.
Industrial Power
High-current connectors for motor drives, welding equipment, and industrial power distribution.
