Cable test van

XHDLJC555

Product Overview

Vehicle Type: Iveco or Ford Transit bus modified or chassis modified.

Generator: The generator is mounted in the guide rail slot on the left side of the rear door of the test vehicle.

Layout: Balanced weight distribution, overall harmonious and aesthetically pleasing design, and a user-friendly work platform.

Power Supply Configuration: Overcurrent and overvoltage protectors. The installation location is concealed, enhancing power supply and ensuring safety.

Application Sites:

♦ Power systems: power generation, transmission, transformation, and distribution;
♦ Factories and Mines: large-scale manufacturing plants and various mining companies;
♦ Metallurgy and Petrochemicals: smelting, chemical processing, water treatment, etc.;
♦ Transportation: ports/railways/highways/airports and municipal streetlights, etc.;
♦ Enterprises and Institutions: logistics departments of large enterprises and institutions;
♦ Construction Industry: large construction and property management companies;
♦ Power Installation and Testing: power installation and commissioning companies of all levels;

Technical Parameters

Power cable identification system

Imported generator, dedicated workbench, testing software, etc.

AC withstand voltage testing equipment (ultra-low frequency or variable frequency resonant)

Complete cable fault testing equipment

Cable evaluation equipment (oscillating wave partial discharge or ultra-low frequency dielectric loss)

Auxiliary testing tools and high-voltage output conductors

Performance Characteristics

Performs AC withstand voltage tests on cables and other electrical equipment with voltage levels of 10kV and below using ultra-low frequency or variable frequency resonance.

Evaluates cables using oscillating wave partial discharge or ultra-low frequency dielectric loss.

Performs coarse detection of all types of cable faults using the traveling wave reflection principle (pulse method, flashover method, and comprehensive sampling method).

Quickly locates various fault points using the acoustic-magnetic synchronization method.

Quickly locates unknown cable paths and depths using the principle of electromagnetic induction.

Identifies and confirms puncture damage to multiple cables.