Overview

Features

  • -4°F to 122°F operating temperature
  • 600 V AC/DC operating voltage for the 2062R receiver and 2000T transmitter
  • 1000 V AC operating voltage for the i400 AC current clamp
  • Receiver and transmitter operating frequency: energized: 6.25 kHz / de-energized: 32.768 kHz
  • IP 40

What's in the Box

  • Fluke 2062R Advanced Pro Wire Tracer Receiver with Smart Sensor
  • Fluke 2000T Advanced Wire Tracer Transmitter
  • i400 AC Current Clamp
  • Fluke 2000ACC Test Lead Accessory Kit for 2052/2062
  • Smart strap magnetic hanger
  • Premium hard carrying case
  • Batteries
  • Quick reference guide

Description

The Fluke 2062 Advanced Pro Wire Tracer Kit troubleshoots energized and de-energized wires in residential, commercial, and industrial environments up to CAT IV 600 V. This CAT rating offers the highest protection available on any wire tracer. It’s designed to protect against the most dangerous levels of transient overvoltage, spikes up to 8,000 V, that can occur in industrial and utility environments. This is especially important for environments like industrial plants, factories, and hospitals where critical equipment cannot be taken offline.

The patented Smart Sensor, available only on the Fluke 2062, makes wire tracing faster. It locates and displays energized wires within walls, floors, and ceilings on a high-resolution 3.5-inch TFT LCD color display. Embedded help screens on the display make it easy to use. While the tip sensor provides an audible tone when locating wires, the Smart Sensor helps visualize and pinpoint the orientation of energized wires.

The 2062-R Receiver detects the signal in wires and cables using two methods: passive tracing without the transmitter for non-contact voltage detection and active tracing with the transmitter for all other modes. The receiver’s tip sensor can trace wires in corners, tight spaces, and junction boxes.

The 2000-T Transmitter works on energized and de-energized circuits up to CAT IV 600 V and features high, low, and loop modes. These modes change the strength of the induced signal and can help provide more accurate results, depending on the circuit that is being traced.