RU2019070C1 - Transistor amplifier - Google Patents

Abstract

FIELD: electronics. SUBSTANCE: transistor amplifier has two circuits parallel with respect to feeding unit. Each circuit is built on first and second transistors connected in series with feeding unit. Collectors of first transistors of these circuits are tied together and are output of amplifier. Base of first transistor of second circuit, base of second transistor of second circuit and base of second transistor of first circuit are correspondingly first, second and third inputs connected to wire of feeding unit through bias resistors. Emitter of first transistor of first circuit is coupled to emitter of first transistor of second circuit through forward-biased diode, backward-biased diode which proper lead is connected to base of second transistor of second circuit is placed into circuit of base of first transistor of first circuit. EFFECT: increased operational stability of amplifier. 2 dwg

Description

 The invention relates to electrical engineering, namely to amplifying devices, and can be used in the output stages of amplifying and key devices with three-channel control and element-by-element backup.

 Known transistor amplifier containing an amplifier stage on four transistors with direct connection (US Patent N 3546610, N. CL. 330-11 from 08.12.70).

 The disadvantage of the amplifier is the complexity of redundancy.

 Known transistor amplifier containing two parallel-connected circuits made on two series-connected transistors each, and the control inputs of the transistors are connected to the inputs of the amplifier through resistors (ed. St. USSR N 527000, class N 03 F 3/04 from 03/04/71) .

 The disadvantage of the amplifier is the low reliability in the initiation of pyroelements.

 The closest in technical essence to the proposed technical solution is a transistor amplifier with three inputs, containing two parallel-connected circuits made in the form of two series-connected transistors, the bases of which are connected through resistors with three inputs, the first and third inputs, respectively, with the bases of the first transistor the second parallel circuit and the second transistor of the first parallel circuit, and the second input with the bases of the remaining transistors, a diode connecting the midpoints of the parallel circuits, bias sources, the first terminals of which are connected to the bases of transistors, and the second terminals are connected to a positive polarity power bus connected to the emitters of the second transistors of parallel circuits, the collectors of the first transistors of which are connected to the amplifier output (ed. St. USSR N 228085, class Н 03 F 3/00, 1967).

 The disadvantage of the amplifier is the malfunction of the majority structure of the amplifier due to the false operation of the second transistor of the second parallel circuit, which is opened by the collector-base current of the first transistor of the first parallel circuit when a potential of negative polarity arrives at its emitter through a diode connecting the midpoints of the parallel circuits at the moment of opening the first transistor the second parallel circuit when applying a control signal of negative polarity only to the first input of the amplifier when channel-by-channel amplifier overhead.

 The aim of the invention is to increase reliability by eliminating violations in the majority structure of the amplifier.

 This is achieved by the fact that a transistor amplifier with three inputs, containing two parallel-connected circuits made in the form of two series-connected transistors, the bases of which are connected through resistors with three inputs, the first and third inputs are respectively connected to the bases of the first transistor of the second parallel circuit and the second transistor the first parallel circuit, and the second input - with the bases of the remaining transistors, a diode connecting the midpoints of the parallel circuits, bias resistors, the first conclusions of which are connected to the base transistors, and the second terminals with a positive polarity power bus connected to the emitters of the second transistors of parallel circuits, the collectors of the first transistors of which are connected to the output of the amplifier, equipped with a second diode included in the open circuit of the first transistor of the first parallel circuit with a negative polarity output to the second input amplifier, and the bias resistor of the first transistor of the first parallel circuit is connected in parallel with the emitter-base junction.

 Comparative analysis with the prototype shows that the proposed device is characterized by the presence of an additional diode with connections to other elements and a change in the connections of the bias resistor of the first transistor of the first parallel circuit.

 Thus, the claimed device meets the criteria of the invention of "Novelty."

 Comparison of the proposed solution with other technical solutions shows that the use of diodes in the isolation circuit and the inclusion of a bias resistor parallel to the emitter-base transistor junction is widely known, however, when introduced in this connection with the other elements of the circuit, the transistor amplifier exhibits new properties, which eliminates the current false control of the second transistor of the second parallel circuit and increases the reliability of the majority structure of the amplifier.

 This allows us to conclude that the technical solution meets the criterion of "significant differences".

 In FIG. 1 shows a schematic diagram of a transistor amplifier (prototype); figure 2 is a schematic diagram of the proposed device.

 The transistor amplifier has (see figure 2) inputs 1,2,3; input resistors 4,5,6,7; bias resistors 8,9,12,14; transistors 10,11,15,16; bus of positive polarity 19; diodes 13.20 with corresponding connections.

 The amplifier operates as follows.

 The input signal through inputs 1, 3 is supplied to transistors 15 and 11, respectively, the input signal through input 2 is supplied to transistors 10, 16, the correct signal appears at the output. If a false signal appears at the input 2 of the amplifier, then although the transistors 10 and 16 are closed, the current will pass through the transistor 11, diode 13, transistor 15 and the correct signal will be at the output of the amplifier. If a false signal or a signal is input during channel-by-channel verification, the transistor 15 opens, through the diode 13 the potential of negative polarity on the emitter opens the transistor 10, but if there is a diode 20, the current of the false processing of the transistor 16 through the input resistors 5 and 6 will be absent and the amplifier will output the correct signal (no signal).

 The proposed device provides amplification of signals without disrupting the majority structure of the amplifier - without false signal formation of a low level when only the first channel is working.

Claims (1)

 A transistor amplifier containing the first and second circuits parallel to the power supply, each of which is made on the first and second transistors connected in series with respect to the power supply, while the collectors of the first transistors are combined and are the output of the device, the base of the first transistor of the second circuit is connected through the first bias resistor to the corresponding bus power supply and is the first input of the device, the base of the second transistor is connected through a second bias resistor to the corresponding power bus and is is the second input of the device, the base of the first transistor of the first circuit is connected to the first output of the third bias resistor, the base of the second transistor is connected through the fourth bias resistor to the corresponding power bus and is the third input of the device, the emitter of the first transistor of the first circuit is connected to the emitter of the first transistor of the second circuit through forward biased diode, characterized in that, in order to increase reliability, a reverse-biased diode is introduced into the base circuit of the first transistor of the first circuit, the corresponding output of which the second is connected to the base of the second transistor of the second circuit, while the second terminal of the third bias resistor is connected to the emitter of the first transistor of the first circuit.

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