Tinned flexible busbar ERIFLEX FLEXIBAR Advanced 2 m 6x15.5x0.8 534008

ERIFLEX FLEXIBAR Advanced flexible busbar is an innovative solution for transmitting electrical energy, especially where high flexibility and ease of installation are required. Made of thin tinned copper lamellas, it provides a reliable connection and high conductivity. This product finds application in various installations, from industrial to commercial, where efficiency and minimization of energy losses are important.

Construction and properties

The FLEXIBAR Advanced busbar is characterized by a unique design that allows for easy bending, twisting and shaping. This allows it to be adapted to almost any installation layout, eliminating the need for costly and time-consuming cable connections. Tinned copper provides excellent corrosion resistance and high temperature resistance, guaranteeing long-lasting and trouble-free operation. Insulation made of a halogen-free, fire-resistant and low-smoke material further increases safety.

Applications and benefits

The ERIFLEX FLEXIBAR Advanced flexible busbar, with dimensions of 6x15.5x0.8 mm and a length of 2 meters, is ideal for applications requiring high current carrying capacity – up to 400A. Its versatility makes it perfect for:

• Power distribution boards: Enables efficient power distribution within switchboards.
• Machines and equipment: Provides a reliable electrical connection in moving machine parts.
• Industrial installations: Ideal for powering high-power devices.
• Data centers: Allows for optimal space utilization and easy cable management.
• Renewable energy systems: Excellent for connections in photovoltaic and wind installations.

It is worth emphasizing that this busbar is laminated, which further increases its mechanical strength and resistance to external factors. The lamella thickness is 0.8 mm and the total busbar thickness is 4.8 mm, which affects its rigidity and ability to carry current. Thanks to its flexibility and ease of installation, it significantly reduces installation time and reduces cabling costs.