AC6428

1-3/8 INCH THROUGH BORE IN 60, 72, 84 AND 96, 2 AMP CIRCUIT VERSIONS

 

Operating Speed 250 rpm*
Number of Circuits 60, 72, 84, 96
Lead Lengths 40 inches (1000 mm)
Voltage 220 VAC
Current Ratings 2 amps / circuits
Lead Size / Type 26 AWG
Operating Temp. -40°C to +80°C max.
Noise 100 milliohms max.

*Please note that the operational life of the unit is dependent upon rotational speed, environment and temperature.

A slip ring capsule can be used in any electromechanical system that requires unrestrained, intermittent, or continuous rotation while transferring power and / or data. A slip ring is also called a rotary electrical joint, collector, commutator, or swivel. A slip ring can improve system performance by simplifying operations and eliminating damage prone wires.

The AC6428 and AC6429 slip ring with through bores provides an economical, readily available solution when a compact, through bore configuration is required. This unit provides a 1-3/8 inch through bore for routing of hydraulic or pneumatic lines, and a compact 3.9 inch outside diameter for minimal space applications. The AC6428 provides 2 amp circuits in 60, 72, 84 and 96 ring configurations. The AC6429 provides 48, 2 amp rings coupled with either 6 or 12, 10 amp circuits. Similar in design to our very popular AC4598 and AC6200 series, this design features long life, fiber brush contact technology for ultimate performance in many challenging applications.

Features

  • 1-3/8 inch through-bore
  • Speeds up to 250 rpm
  • Multiple circuit configurations
  • Continuous rotation of power and / or data signals
  • High-impact thermoplastic construction
  • Sealed to exclude dust and light fluid splash
  • Available with Ethernet

Benefits

  • Transfers power, as well as analog and digital signals
  • Compatible with data bus protocols
  • Fiber brush technology provides long life and maintenance free operation
  • Compact packaging

Typical Applications

  • Precision rotary equipment
  • Semiconductor handling systems
  • Industrial machinery
  • Robotics

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