SU311324A1 - Antenna system - Google Patents

Description

The invention relates to antenna technology and can be used in the aviation industry.

A known antenna system comprising a transceiver antenna and an amplifier configured as in reflection.

The purpose of the invention is to simplify the reception channel scheme.

To this end, in the proposed system, next to the main antenna, there is a strongly associated auxiliary antenna into which the amplifier is integrated.

FIG. 1 shows a block diagram of an amplifier made in the reflection circuit; in fig. 2 is a block diagram of an amplifier included in a transceiver path; in fig. 3 - the proposed antenna system.

The device contains a receiving antenna 1, a connecting element 2, directional couplers 3 and 4, band-pass filters 5 and 6, matched loads 7 and 8, limiter 9, circulator 10, matched load 11, amplifier module 12 on a tunnel diode, RF output 13 amplifier, receiving antenna 14, transmitting antenna 15, directional couplers 16 and 17, bandpass filters 18 and 19, matched loads 20 and 21, limiter 22, circulator 23, matched load 24, amplifier module 25 on a tunnel diode.

transmitting antenna 26, RF-connected 27, bandpass filters 28 and 29, directional couplers 30 and 31, matched load 32, RF output 33, transmitting antenna 34, RF connector 35, receiving antenna 36, band-pass filter 37, limiter 38, the amplifier module 39 on the tunnel diode, the transmitting antenna 40, the receiving integrated antenna 41.

Claims (1)

Amplifiers on tunnel diodes are made in the form of reflection amplifiers, i.e. they have a common high-frequency input-output. As a consequence, a mandatory element of the amplifier circuit is a directionally diverting device, which is usually used as a circulator. To the receiving antenna 1, the amplifier is connected via element 2, which can be either a rigid coaxial or threaded coaxial connection. The RF signals received by antenna 1 are fed to a directional filter formed by directional couplers 3 n 4, bandpass filters 5 and 6, and matched loads 7 and 8. Matched loads 7 and 8 are connected to one of the inputs of the directional couplers. The amplifier circuit of a directional filter is caused by the fact that we are protected from possibly powerful signals of neighboring frequency bands (for example, signals from aircraft station transmitters). In principle, such a task can be performed by a band-pass filter, but its use in the circuit does not ensure the high-quality operation of subsequent elements due to the effect of an imperfectly matched antenna on them. A directional filter virtually eliminates this effect. The directional filter is followed by a limiter 9 of the signal level in the reception band to protect the tunnel diode from burnout with strong signals. Its presence in the circuit is not necessary and is necessary only in cases of possible strong signals. Such a case is, for example, the use of a circuit in aircraft equipment (close to the ground station). The limiter 9 can be performed on ferrites or restrictive diodes. The final elements of the amplifier circuit are circulator 10 (in the drawing there is an X-circulator with a matched load I), one of whose arms is connected to the amplifier module 12 on a tunnel diode operating in a reflection circuit. The amplified signal from the other leg of the circulator is fed to the receiver via an RF cable, the losses in which are compensated by the signal strength in the amplifier. The amplifier is used in a radio receiver. However, airplanes usually use radio equipment that operates in both receive and transmit mode and has one RF output connected by cable to a transmitting / receiving antenna. In order to ensure the operation of the receiving-non-detecting equipment when amplifying signals on the receiving channel with the help of an amplifier for reflection, it is necessary to use a separate transmitting antenna. The elements of the circuit 14-25 (see Fig. 2) are completely similar to the elements of the 1-12 scheme (see Fig. 1). FIG. 2, in addition to receiving antenna 14, there is a transmitting antenna 26, which is connected via connection 27 to a separation device built according to the principle of a bridge directional filter and consisting of band-pass filters 28 and 29 and directional couplers 30 and 31. One of the outputs of one coupler is loaded on a matched load 32, and one of the arms of the other is the connection point for the RF cable from the transceiver. A separator output is connected to a circulator output 23. In a transceiver antenna, with a force on the receiving channel (see Fig. 3), the transmitting antenna 34, via RF connector 35, is connected to a cable that conducts energy to the transceiver. Near the antenna 34 in the Fresnel zone for the reception channels, an antenna 36 is installed, designed for the reception channels, with strong coupling at the reception frequencies with the antenna 34. The antenna 36 through the band-pass filter 37 and the limiter 38 is connected to the amplifier module 39 on the tunnel diode. The bandpass filter is designed to protect the tunnel diode from the transmitter signals and the limiter against strong signals in the receive band. Thus, limiter 38 (see Fig. 3) is similar to limiter 9 (see Fig. 1) or limiter 22 (see Fig. 2), and filter 37 performs the functions of directional filters in circuits (see Fig. 1 and 2), however, easier to device. Module 39 is similar to module 12 (see Fig. 1) or module 25 (see Fig. 2). The signals received by the antenna 36 pass through the filter 37 and the limiter 38, amplified in the module 39 operating on reflection, passing in the opposite direction. come to antenna 36 and, due to strong communication with antenna 34, pass through it to the receiver through a cable connected to RF connector 35. It also seems appropriate in some cases to perform antenna 34 for operation at both the receiving frequency and and on the transmission frequency. In such a case, the antenna 34 will be able to independently operate the receiver of the system with large signals, and the antenna 36 will act as an auxiliary antenna strongly associated with the antenna 34. With weak signals on the receiving channel, the gain device (antenna 36, filter 37 , limiter 38 and module 39). By setting the level of restriction in the limiter 38, re-entry of information can be avoided, i.e. a threshold is set at which the amplifier circuit begins to operate. The magnitude of this threshold is simply determined by the known parameters of the on-board and ground-based radio equipment. The device is simplified if the amplification channel is executed according to the integrated antenna circuit with an amplifier for reflection. 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