SU1334220A1 - Microwave protective device - Google Patents

Abstract

The invention relates to microwave radio technology and provides an increase in the effectiveness of protection by ensuring the operation of the diode in a key mode. When the power of the microwave input signal is less than the ignition threshold / resonant discharge (PP) 1, diode 4 has a large impedance, since the bias circuit of diode 4 is open. The microwave signal with low losses passes to the output of the device, when the power of the microwave signal is sufficient to ignite PP 1, the bias circuit of diode 4 through the plasma in the region of the low-frequency electrode 6 of the PP 1 occurs. The impedance of diode 4 decreases , which leads to an additional reduction in the power of the microwave signal that is leaking at the output of the device. When the power of the microwave signal decreases to the level, when the discharge in PP 1 stops, the bias circuit of diode 4 is broken and the device returns to its original state. 1 il. i (L 00 00 y GS / l -2 O

Description

The invention relates to microwave radio technology and can be used to protect the input part of radio receiving equipment from intense random interference.

The aim of the invention is to increase the protection efficiency by ensuring the diode operation in the key mode.

The drawing shows a diagram of the microwave protection device,.

The ultrahigh-precision chilling device contains a resonant discharge 1., a section of a rectangular waveguide 2 connected to it cascadely, a constant voltage source 3, and a diode 4. The first terminal: 5 of a constant voltage source 3 is connected to a low-frequency 6 resonant electrode arrester 1. A second terminal 7 of a constant voltage source 3 is connected to one electrode 8 of diode 4, which is isolated at a constant current from the wall of a segment of a rectangular waveguide 2, the other electrode 9 of diode 4 is connected to a wall of a straight line segment nogo diode waveguide 2. 4 concerning a dc voltage included in the forward direction.

Microwave protection device operates as follows.

When the power of the input microwave signal is less than the ignition threshold of the resonant discharge 1, diode 4 has a large impedance, since the bias diode

the key mode, the second DC terminal is connected to the insulated diode electrode, and the diode is relatively open. An ultrahigh-frequency signal with low losses passes to the source of a constant voltage switch-on device. In the forward direction.

Editor M. Bandura

Compiled by M. Litvinenko

Tehred L. Serdyukova Proofreader A. Zimokosov

Order 3969/49 Circulation 625

VNIIPI USSR State Committee

for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5

Production and printing company, Uzhgorod, st. Project, 4

When the power of the input microwave signal is sufficient for the Cs of burning the resonant gadget 1, the diode 4 is biased by the plasma in the region of the low-frequency electrode 6 of the resonant glitch 1. The impedance of the diode 4 decreases, resulting in an additional decrease in the power of the microwave signal ,, leaking device output.

When the power of the input microwave signal decreases to the level at which the discharge in the resonant discharge 1 stops, the bias circuit of the diode 4 is broken and the device returns to its original state.

Claims (1)

Invention Formula A superhigh-frequency protection device containing a cascade-connected segment of a rectangular waveguide and a resonant arrester with a low-frequency electrode connected to the first terminal of a constant voltage source, a diode installed in a segment of a rectangular waveguide, one electrode of which is isolated from the wall of a rectangular waveguide DC, and the other electrode is connected to it, o t Likewise with that to increase the effectiveness of protection by ensuring the operation of the diode in the key mode, the second terminal of the constant voltage source is connected to the insulated electrode of the diode, and the diode with respect to the dc source is switched on in the forward direction. Subscription