Braided Copper Busbars are vital in electrical systems, offering enhanced flexibility, conductivity, vibration resistance, and heat dissipation through their braided structure. Customizable in various types and sizes, they are widely used in power distribution for industries like EVs and renewable energy storage.
RHI customizes flexible busbars in various sizes and types. Send your specifications or drawings.
Material: T2 Copper with a minimum copper content of 99.9%.
Braided busbar connectors offer flexibility, stable electrical conductivity, and oxidation resistance. They are widely used in mechanical equipment and electrical systems for grounding, conduction, shielding, and interference suppression, and are well-suited for flexible connections in new energy busbar applications.
Product Show:
Different types and sizes can be made. Pls send us your size or drawing.
Specifications:
| Material: | T2 Copper |
| Insulated Finishes: | Heat Shrink Sleeve |
| Edge: | Full Round Edges Rounded Corners Square Corners |
| Plating Options: | Nickel Plating Silver Plating Tin Plating |
| Production Capabilities: | Brazing Drilling Forming Milling Plating Punching Sawing |
| Industries Served: | Automotive Electrical |
| Engineering Capabilities: | Design Assistance Design Verification |
| File Formats Accepted: | JPG DWG DXF |
Product Gallery:
Flexible Busbar VS Rigid Busbar:
Press-bonded laminations help improve electrical conductivity by reducing contact resistance.
Its flexibility enables the design of flexible busbars in more diverse forms.
Flexible busbar can be made with longer length.
Flexible busbar is not easy to be broken after thousands times of bending.
Graduated laminates increase power efficiency.
Applications:
Battery pack connections for new energy electric vehicles
Wind and solar power systems
High-voltage power distribution
Circuit breakers, generators, and prefabricated power networks
Expansion joints
Transformers
Equipment and machinery connections
