RU2066903C1 - Received and transmitted signal separating device - Google Patents

Abstract

FIELD: transceiver antenna change-over systems. SUBSTANCE: device has central conductor of high-frequency cable. Switching diode is connected via capacitor between final stage of transmitter and antenna amplifier. The latter and final stage of transmitter are connected to transceiver through bus. Switching diode anode is connected through resistor to anode of detecting diode and cathode, through other resistor to detecting diode cathode. Switching diode cathode is connected through additional resistor to ground potential and anode, through inductance coil to bus. EFFECT: improved design. 1 dwg

Description

 The invention relates to radio engineering and can be used in antenna switching systems of transceivers.

 A known antenna switching system according to the application of Japan 64-12129 from 07.14.82, H 04 V 1/44, in which two separate buses for the receiver and transmitter are used, these buses are switched to the antenna using two switching diodes connected by a quarter-wave length lines connected between the collector of the transistor of the transmitter excitation cascade and the collector of the transistor of the terminal cascade, to the connection point of the collector of the transistor of the terminal cascade and the second switching diode are connected the terminals of the power source I and to a connection point of the quarter segment of a long line and the first switching diode is connected to the receiver terminals.

 Due to the fact that the connection point of the first switching diode and the collector of the transistor of the excitation cascade is connected through the capacitance to the point under the ground potential, both diodes open when the transistor of the transmitter excitation cascade is open, and close when the transistor is closed.

 The disadvantage is that to control the known system, buses are needed: an antenna switching control bus, a receiver bus and a power bus, which makes it difficult to place the transmitter end stage in the immediate vicinity of the antenna if the antenna is placed at a considerable distance from the transceiver.

 The aim of the invention is to reduce the number of buses, the exclusion of a separate power bus, providing the possibility of the receiver and the transmitter end stage on one bus, reducing the loss of useful signals and energy costs, the possibility of placing the transmitter end stage in the immediate vicinity of the antenna.

 The goal is achieved in that the proposed antenna switching system uses one bus in the form of a central core of the RF cable, through which a supply voltage is supplied to the transmitter end stage, a switching diode and an antenna amplifier. The excitation signal is fed to the terminal stage of the transmitter via the same bus and the signal received by the antenna through the antenna amplifier is input to the receiver. The switching diode is connected through the capacitance between the terminal stage of the transmitter and the antenna amplifier, the detection diode is connected in parallel with the switching diode via resistors, the cathode of the switching diode is connected to the ground potential through the resistor, and the anode is connected to the bus through the inductor.

 Figure 1 shows a circuit diagram of the proposed antenna switching system.

 The antenna switching system comprises a transceiver 1, a remote end stage of the transmitter 2, an antenna amplifier 3, an inductor 4, a power and control bus 5, a switching diode 6, a detecting diode 7, capacitors 8 and 12, resistors 9-11.

 The antenna control system operates as follows.

 In transmission and reception modes, the supply voltage is supplied via bus 5 to the terminal stage of transmitter 2, to antenna amplifier 3, and to switching diode 6.

 In the receiving mode, the supply voltage is supplied through the bus 5 through the inductor 4 to the anode of the switching diode 6, the cathode of the switching diode 6 is connected via a resistor 11 to the ground potential, the switching diode 6 is open.

 The signal from the antenna through the capacitance 12 and 8, the switching diode 6, the antenna amplifier 3 is fed via bus 5 to the input of the receiver. Due to the fact that the transistor of the transmitter end stage operates in class C, it is in the closed state without supplying an input signal from the transmitter excitation stage. Antenna amplifier 3 compensates for signal loss in the RF cable (bus 5).

 In transmission mode, the signal from the transmitter excitation cascade is transmitted via bus 5 to the input of the terminal stage of the transmitter 2, amplified, and fed to the antenna.

 Part of the signal through the capacitance 8 and the resistor 9 is fed to the anode of the detecting diode 7. The detected signal from the cathode of the diode 7 is fed through the resistor 10 to the cathode of the switching diode 6 and the diode 6 is closed in this direction, which exceeds the supply voltage, the high-frequency voltage does not reach the input of the antenna amplifier 3.

 In the proposed antenna switching system, the number of buses is reduced, a separate power bus is excluded, the operation of the receiver and the transmitter end stage on one bus is ensured, the loss of useful signals and energy costs are reduced, because when the transmitter end stage and the antenna amplifier are located in the immediate vicinity of the antenna energy losses of the transmitter end stage due to losses in a long cable are eliminated, and the antenna amplifier compensates for losses in the cable, allowing to increase the sensitivity of the receiver.

Claims (1)

 A device for separating transmitted and received signals, comprising a transmit signal amplifier, the input of which is connected to the first terminal of the device, and the output through the first capacitor is connected to the second terminal of the device, the second capacitor, a switching diode, an inductor connected to the first terminal by the first terminal, and a common the bus, while the first terminal is for connecting the transceiver, and the second terminal for connecting the antenna, characterized in that the received signal amplifier is entered, a toroidal diode and three resistors, the first of which is connected between the cathode of the switching diode and the common bus, the second resistor is connected between the cathodes of the detector and switching diodes, and the third resistor is connected between the anode of the detection diode and the interconnected anode of the switching diode, the second output of the inductor and the first the lining of the second capacitor, the second lining of which is connected to the output of the amplifier of the transmitted signal, while the input of the amplifier of the received signal is connected to the cathode a single diode, and its output is connected to the first terminal of the device.