RU2488220C1 - Transceiver - Google Patents

Abstract

FIELD: radio engineering, communication.

SUBSTANCE: invention consists in receiving and transmitting signals simultaneously through the same antenna; the output of the antenna is connected to the input of the forward arm of an additional directional coupler; the input of the amplifier is connected to the output of the tapping arm of the directional coupler, and the output of the amplifier is connected to the output of the forward arm of the directional coupler, wherein the amplifier gain should not exceed the decoupling between the forward and tapping arms of the directional coupler.

EFFECT: invention enables to exclude one antenna from the composition of the transceiver, thereby improving its weight and size characteristics.

2 dwg

Description

The invention relates to radio engineering, and more particularly to transceivers, repeaters.

Known transceiver high-frequency equipment (Handbook of electronic systems. C74. In two volumes. T.1. Edited by B.Kh. Krivitsky - M .: Energy, 1979, p. 266), containing filters, mixers and local oscillators. The parameters of these elements are selected in such a way that signals are received and transmitted at different frequencies. Known equipment is not capable of receiving and transmitting signals simultaneously at the same frequency.

The simplest version of the relay-type response jamming station is known (UDC 623.62. A.I. Paly "Radio-electronic warfare. Vol. 2, Moscow, Military Publishing House, 1989, p. 38, 39), consisting of two antennas (receiving and transmitting) and a receiving amplifier devices. In it, signals from suppressed radar stations received by the receiving antenna are amplified, converted and emitted by the transmitting antenna at the frequency of the suppressed means. However, to ensure stable operation of the repeater, the receiving and transmitting antennas must be spaced apart and measures taken for their electromagnetic isolation. At the same time, to ensure stable operation of the repeater, the magnitude of the electromagnetic isolation must be greater than the gain of the receiving amplifier. The need to fulfill these conditions leads to an increase in the overall dimensions of the repeater and makes it impossible to use it on small objects, for example, in the wing of an aircraft.

The essence of the invention lies in the fact that the reception and transmission of signals are carried out simultaneously, through the same antenna, the output of which is connected to the first arm of an additionally introduced three-arm circulator (UFK 621.27 J. Altman, "Microwave Unit". Publishing House "Mir", Moscow, 1968, p. 423). To the second, in the direction of circulation, the arm of the circulator is connected the input of the amplifier, the output of which is connected to the third, in the direction of circulation, the arm of the circulator. In the present invention, a directional coupler can be used instead of a circulator. If necessary, a modulator can be added to the amplifier.

The technical result consists in the fact that the reception and transmission of the signal in the proposed transceiver are carried out simultaneously through the same antenna at the same frequency. This result allows you to exclude one antenna from the composition of the transceiver and thereby improve its overall dimensions.

The figure 1 shows a diagram of a transceiver using a three-arm circulator.

Figure 2 shows a diagram of a transceiver using a directional coupler.

The transceiver operates as follows. The received signal from the output of the antenna 1 is fed to the first input of the three-arm circulator 2. From the second, in the direction of circulation, shoulder of the circulator 2, the received signal is sent to the input of the amplifier 3, amplified in it, and fed to the third, in the direction of circulation, shoulder of the circulator. If the gain of the amplifier 3 does not exceed the electromagnetic isolation between the second and third arms of the circulator, the amplified signal at the frequency of the received signal is fed to the first arm of the circulator 2, then to the antenna 1 and is emitted.

Similarly, a transceiver operates using a directional coupler according to the circuit shown in figure 2. In this embodiment, the antenna 1 is connected to the input of the direct arm of the directional coupler 4. The input of the amplifier 3 is connected to the output of the branch arm of the directional 4, and the output of amplifier 3 is connected to the output of the direct arm of the directional coupler 4. The gain of the amplifier should not exceed the isolation between straight and branching shoulders of a directional coupler.

In the experiment, according to the proposed scheme, it was possible to build a transceiver operating in a tenfold frequency band (0.4-4.0) GHz and having a gain of the relay path (without taking into account the antenna gain) of 15 dB.

Claims (1)

A transceiver comprising an antenna and an amplifier, characterized in that the antenna output is connected to the input of the direct arm of the additionally introduced directional coupler, the amplifier input is connected to the output of the branch arm of the directional coupler, and the amplifier output is connected to the output of the direct arm of the directional coupler, while the amplifier gain is not must exceed the isolation between the direct and branch arms of the directional coupler.

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