Sales & Advice 8am- 5.30pm 0800 270 7 250

My Basket:

0 item(s) - £0.00
You have no items in your shopping cart.

More Views

More Views

T&R 200A-3PH mk2 Three Phase Current Injection

Part No : 234

Quick Overview

Provides commissioning and maintenance engineers with a compact, portable and flexible system for the testing and timing of protective relays, circuit breakers and thermal overloads.

Availability: In stock

£7,732.00
OR

Details

The 200A-3PH test system is equally at home testing solid state or electro-mechanical relays, and has a rating suitable for testing thermal trips.

The 200A-3PH/ED has independent true RMS digital metering for each output with independently selectable ranges. The outputs are isolated and independently variable, and allow the injection of currents up to 200A. The outputs are protected by electronic over-current trips and fuses.

T&R 200A-3PH/ED Three Phase Current Injection features:

  • 0-200A 3 phase output
  • Accurate true RMS digital metering(200A-3PH/ED)
  • All outputs fully isolated
  • Multi-function 1ms resolution timing system
  • Auxiliary AC output
  • Electronic over-current protection
  • Compact and portable

The timing system on the 200A-3PH is flexible and exceptionally easy to use, allowing trip times to be measured to a high degree of accuracy. Units with auxiliary contacts may be timed using the NC or NO timer modes, and devices with no auxiliary contacts may be timed using the current operated mode.

The unit is ideal for testing the following devices:

  • Over and under current relays
  • IDMT relays
  • Thermal overloads
  • Magnetic circuit breakers

The units may also be used in conjunction with the DVS3 digital voltage source to test protection systems requiring three voltages and three currents.

Protection that may be tested in conjunction with the DVS3 includes:

  • Directional relays
  • Distance protection
  • Power relays and transducers
This site uses cookies. By continuing to browse this site you are agreeing to our use of cookies. Find out more here.
X