Sunday, 5 November 2017

Surge Arrestor based on Quarter wave shorting stub

This technology is based on quarter wave transformation line.
The coaxial shorting stub applied for this purpose is short circuited at its end and its length is matched to the mid-band frequency of the operation band.It threby forms a band-pass filter.
Since lightning interference have a low frequency spectrum the shorting stub act as a short circuit, conducting the current to ground.

In regular operation, the RF signal reaches the entry of the shorting stub (shown here as point 1).
It then runs along the shorting stub up to the short (point 2). This corresponds to a 90° phase shift.
 At the short, the signal is reflected (point 2') –a sudden phase shift of 180° is created – and flows back to the start of the shorting stub (point 1'), where it arrives after another 90° phase shift.
As a result, the reflected signal is again in phase with the arriving signal. Therefore, the RF signal does not detect the short.
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Surge Arrestor based on High Pass Filter


The concept behind this filter is that the low-frequency components of the lightning surge gets shunted to ground. As lightning energy has low frequency (lesser than 100KHz), these SA works as a high pass filter blocking surge energy.

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Surge Arrestor based on GDT Principle



Depends on the working of Gas Discharge Tube.
A gas tube is an over voltage device that shunts current when a threshold voltage (the spark-over voltage) is reached. These are typically rated from 90V to 600V. It contains ionized gases.

When a voltage disturbance reaches the GDT sparkover value, the GDT practically shorts the line, diverting the surge current through the GDT to ground.

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BASIC PRINCIPLE FOR RF SURGE ARRESTOR

There are basically three principles for coaxial SA devices.
Component based
1. Gas dischage tube (spark gap) Click here to know more about this principle
Filter based
2. High pass filter Click here to know more about this principle
3. Quarter wave shorting stub (Band pass filter) Click here to know more about this principle

Besides of these three, Designer uses Hybrid technolgy which combine two principles from above for its desired working.




RF Surge Arrestor

SA is a device to protect electrical equipment from over voltage transients caused by external (lightning) or internal (switching) events.

Concept behind Protection - Shunting
The goal of these devices is to protect the end product by shunting energy away. When the protection devices turn on, their impedance are reduced substantially. The circuit becomes current divider with most current going through the protection device.

Major Categories of RF Surge Protection Devices
1. Circuit Protection Components
Most common method of shunting transient energy is through circuit protection components such as Gas Tubes.

2. Filtering Components
Major method of shunting transient energy is through filter components such as inductors and capacitors.
Filter based RF SA's would have inductors and capacitors designed to handle kiloamp levels of surge.

To know on what principle these RF Surge Arrestor please click here.Basic Principle for RF Surge Arrestor