Hotline: 0984.843.683 Email: info@ttech.vn  Zalo: 0984.843.683

Impulse voltage test system IP Highvolt

Mã sản phẩm: IP
Sử dụng cho Model:
Hãng SX: Highvolt
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Tình trạng

Tình trạng: Còn hàng

Đặt hàng

Impulse voltage test systems are used for impulse voltage testing of transformers, cables, gas-insulated switchgears (GIS), arresters, and other high-voltage devices. The test systems generate lightning impulse voltage (LI, 1.2/50 µs), chopping lightning impulse voltages (LIC, front time 1.2 µs, front, crest or tail chopped), and switching impulse voltage (SI, 250/2500 µs) in accordance with IEC 60060-1; as well as IEC 60076-3 for transformers, and IEC 62067, 60840 und 60502-1 for cables).

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    • SĐT: 0984 843 683

    • Mail: info@ttech.vn

      • Zalo: 0984.843.683

Thông tin sản phẩm

Impulse voltage test systems are available for factory testing in three product lines (L, M, and G). Voltages ranging from 10 kV to 5700 kV (LI)/4500 kV (SI) can be generated depending on the product line.

There are test systems for voltages up to 1900 kV (LI) for on-site testing available.

The standard test system consists of an impulse voltage generator and three components (voltage divider, chopping sphere gap, and overvoltage correction). HIGHVOLT offers the Connection Point, a space-saving solution combining all three components in one device.

The standard version of the test systems has a digital transient recorder, type HiRES.
It delivers precise voltage measurements and offers a variety of features for controlling the impulse voltage system as well as capturing and evaluating measurement values. The HiRES itself offers no control; it comes with the software of the IPC.


Application


To generate impulse voltages for testing:


Transformers
Cables
Gas-insulated switchgears (GIS)
Arresters and other high-voltage devices
For material testing in research or training programs
For both factory and on-site testing

Benefits


Features a compact design to save space in the test bay
Generates impulses with a low level of overshoot due to the low self-inductance of the impulse voltage test system
Option of using the system to generate impulse currents
Configuration of the generator for the G product line saves time due to walk-in accessibility and storage of the resistances inside the generator
More possibilities to save space and time when used in combination with the

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