RU2087004C1 - Transceiver - Google Patents

Abstract

FIELD: radars, in particular, security systems. SUBSTANCE: device has microstrip resonator antenna, mixing diode, generator diode, power supply circuit of generator diode, intermediate frequency circuit. Both mixing diode and generator diode are connected to antenna in points of 0.25 b and 0.63 b respectively, where b is length of antenna resonator. Diodes are isolated using space. EFFECT: simplified design, decreased power losses in feeder and connection circuit of mixing diode. 1 dwg

Description

 The invention relates to radar devices and can be used, in particular, to create security systems based on the Doppler effect.

 A device for generating and receiving microwave oscillations is known, in which the first and second adjacent waveguides comprise an oscillator, as well as first and second mixing diodes.

 The microwave energy generated in the first waveguide partially exits through one of its ends, and partly through communication elements enters the second waveguide through its side wall. Received microwave power is supplied through one end of the second waveguide. The device is designed for Doppler radar.

 The disadvantages of the known devices are complex design and configuration. The need for application for the manufacture of precision casting or galvanic building.

 The closest technical solution, selected as a prototype, is a receiving system containing a microstrip antenna in the form of a square with the lambda side / 2, connected to the feeder of the local local oscillator, a mixing diode connected to the antenna at a point offset from the center of the diagonal of the square.

 However, the presence of a separate local oscillator, feeder, connection circuit of the mixing diode significantly increases the cost and complicates the design. In addition, there is a loss of microwave power in the feeder and the connection circuit of the mixing diode.

 The aim of the invention is to simplify the design and eliminate losses of microwave power in the feeder and the connection circuit of the mixing diode.

 This goal is achieved by the fact that in a transceiver module containing a resonator-type microstrip antenna, a mixing diode, a generator diode, a generator diode power supply circuit, an intermediate frequency circuit, a mixing and generator diodes, are connected directly to the microstrip antenna resonator at points 0.25v and 0.63 respectively, where "in" the length of the antenna cavity, and are galvanically isolated by a gap.

 The drawing shows a cross section of a transceiver module.

 The module contains a microstrip antenna of resonator type 1 with a length of "b", a dielectric substrate 2, a mixing diode 3 and a generator diode 4, galvanically isolated by a gap 5, a metal base 6, a power circuit of a generator diode 7, an intermediate frequency circuit 8.

 The module works as follows.

 Through circuit 7, a supply voltage is supplied to the generator diode 4, as a result, the generator diode excites microwave oscillations in the microstrip antenna. Part of the microwave power is radiated, part of the power is supplied to the mixing diode 3, being for it the power of the local oscillator.

 The microwave power reflected from the moving object, the vibration spectrum of which contains the Doppler component, is received by the antenna 1 and fed to the mixing diode 3, where an intermediate frequency signal is extracted as a result of interaction with the local oscillator power.

 The points of inclusion in the resonator antenna of the mixing and generator diodes, 0.25 V and 0.63 V, respectively, are determined from the condition of optimal matching of the diodes with the antenna.

 The inclusion of diodes directly in the antenna allows to reduce the loss of microwave power and greatly simplify the design, which is especially important when creating radar systems for mass use, for example in security devices.

Claims (1)

 A transceiver module comprising a resonator-type microstrip antenna, a mixing diode, a generator diode, a generator diode power supply circuit, an intermediate frequency circuit, characterized in that the mixing and generator diode are connected directly to the antenna at points 0.25b and 0.63b, respectively, and are galvanically separated by a gap where b is the length of the antenna cavity.