SU964970A1 - Bidirectional amplifier - Google Patents

Description

The invention relates to amplifying devices and can be used, in particular, in portable transceivers using the same path for receiving and transmitting signals.

Known bi-directional amplifier containing two amplifying elements, power sources and blocking voltage, in which the change in the direction of signal transmission is carried out by locking one of the amplifying elements [1].

The disadvantages of this amplifier are a large number of active elements and the need to use a source of blocking voltage.

Closest to the proposed one is a bi-directional amplifier containing the first and second transformers, an amplifying element, power sources and diodes, with the help of which the output and control electrodes of the amplifying element are switched, providing a change in the direction of signal transmission (2].

A disadvantage of the known device is the small transmission bandwidth, the size of which is limited due to the presence of capacitive negative feedback from the output electrode of the amplifier element to its control electrode through the capacitance of a reverse biased diode.

The purpose of the invention is the expansion of “transmission band.

The goal is achieved in that in a bi-directional amplifier containing the first and second transformers, the first terminals of the secondary windings of which are connected through opposite-series connected first and second diodes, the connection point of which is connected to the control electrode of the amplifier element, as well as a power source, emitting and output electrodes the amplifying element is connected respectively to the second terminals of the secondary windings of the first and second transformers, in parallel which are connected in series connected third and fourth, fifth and sixth diodes, the connection points of which are connected to the corresponding buses of the power source, and the first and second resistors are connected in parallel with the first and second diodes.

The drawing shows a circuit diagram of a bi-directional amplifier.

The amplifier contains the first and second transformers 1 and 2, diodes 3-8, the first and second resistors 9 and 10, an amplifier element 5 and a power source 12.

The device operates as follows.

', When connecting the negative bus-E of the power supply 12 to the connection point of the diodes 5 and 6, and the positive bus + E of the power supply to the connection point of the diodes 7 and 8, the diodes 3, 6 and 8 open, and the diodes 4,5 15 and 7 are locked.

In this case, the secondary winding of the first transformer 1, the primary winding of which in this case is used. the input signal for the bi-directional amplifier, through the open diode 3 is connected to the control electrode of the amplifier element 11, and the secondary winding of the second transformer 2, playing in this case the role of the load of the amplifier element 11, is turned on through the open sixth diode 8 between the positive bus + E of the power source 12 and the output electrode of the amplifying element 11 and the amplified output signal is removed from the primary winding '. the second transformer 2. Thus, the amplification and transmission of the input signal from the primary winding of the first transformer 1 to the primary winding of the second transformer 2, in this case the output of a bi-directional amplifier, is carried out

When the polarity of the power supply changes to, (+ E) and (-E) diodes 3.6 and 8 are closed, diodes 4.5 and 7 are opened and the input signal is transmitted from the second transformer 2, the primary winding of which in this case is connected to an input signal source through an amplifying element 11, the load of which is the secondary winding of the first transformer 1 to the output of the device, which in this case is the primary winding of the first transformer 1.

The proposed bi-directional amplifier allows maximum use of the frequency properties of the amplifying elements, since it does not contain capacitive negative feedback.

As an amplifying element therein, it is preferable to use amplifying devices with symmetrical characteristics in direct inverse switching.

Claims (2)

The invention relates to amplifying devices and can be used, in particular, in portable receiving-transmitting devices using dp receiving and transmitting signals of the same path. A bi-directional amplifier is known that contains two amplifying elements, power supplies and a blocking voltage, in which the direction of signal transmission is changed by locking one of the amplifying elements 1. The disadvantages of this amplifier are (a large number of active elements and the need to use a blocking voltage source). Closest to the present invention is a bidirectional amplifier comprising a first and second transformers, an amplifier element, power sources and a diode. s, with which the output and control electrodes of the amplification element are modulated, which provide a change in the direction of signal transmission 23. The disadvantage of the known devices is the small transmission bandwidth, the size of which is limited due to the presence of capacitive negative feedback from the output the electrode of the amplifying element to its control electrode through the capacitance of the reverse-biased diode. The purpose of the invention is to expand the transmission band. The goal is achieved by the fact that in a bidirectional amplifier containing the first and second transformers, the first terminals of the secondary windings of which are connected via counter-connected first and second diodes, the connection point of which is connected to the control electrode of the amplifying element, as well as the power supply, output and output the electrodes of the amplifying element are connected respectively to the second terminals of the secondary windings of the first and second transformers, in parallel to which the according-sequence are connected but the combined third and fourth, fifth and sixth diodes Melting compounds which are connected to corresponding power supply buses, and in parallel to the first and second diodes are connected first and second resistors. The drawing shows a circuit diagram of a bidirectional amplifier. The amplifier contains the first and second transformers 1 and 2, diodes 3-8, the first and second resistors 9 and 10, the amplifier element 11 and the power source 12. The device operates as follows. When the negative bus line -E of the power source 12 is connected to the junction point of diodes 5 and 6, and the positive bus + E of the power source to the junction point of diodes 7 and 8, diodes 3, b and 8 open, and diodes 4.5 and 7 are closed. In this case, the secondary winding of the primary transformer 1, the primary winding of which in this case is not the input signal for a bidirectional amplifier, through the open diode 3 is connected to the control electrode of the amplifying element 11, but the secondary winding of the second transformer 2, which in this case plays the role of load of the amplifying element 11, is switched on through the open sixth diode 8 by the positive bus + E of the power supply 12 and the output electrode of the amplifying element 11 and the amplified output signal is removed from the first ary winding of the second transformer 2. Thus, the amplification is carried out and the transmission signal input to the primary winding of the first transformer 1, the primary winding of the second transformer torus 2, in this case is the output decoupling bidirectional amplifier. When the polarity of the power source changes. (+ E) and (-E) diodes 3.6 and 8 are closed, diodes 4.5 and 7 open and the input signal is transmitted from the second transformer 2, the primary winding of which In this case, it is connected to the input signal source, through the amplifying element 11, the load of which is the secondary winding of the first transformer 1 to the output of the device, which in this case is the primary winding of the first transformer 1. The proposed bidirectional amplifier allows maximum use of the frequency properties of the reinforcing elements, as it contains no capacitive negative feedback. As an amplifying element in it, it is preferable to use touching devices with symmetrical characteristics in direct and inverse switching. The invention Bidirectional amplifier containing the first and second transformers, the first conclusions of the secondary windings of which are connected through oppositely connected first and second diodes, the connection point of which is connected to the control electrode of the amplifying element, as well as the power source u and with the fact that, in order to expand the bandwidth, the emitting and output electrodes of the amplifying element are connected respectively to the second terminals of the secondary windings of the first and second transformers matrices, in parallel, which are connected according to the series-connected third and fourth, fifth and sixth diodes, the connection points of which are connected to the corresponding power supply lines, and the first and second resistors are connected to the first and second diodes. Sources of information taken into account during the examination 1. Short-wave handbook, Kiev, Technika, 1978, p. 132. 2. Authors certificate of the USSR I 288057, cl. H 03 F 3/62, 1968 (prototype). v Jljljul . A / five ff VAAXA - / rwvw v ffjfG f ff / Jfffff)