SU932589A1 - Power amplifier - Google Patents

Description

The invention relates to radio engineering and can be used in the output stages of low frequency power amplifiers.

A power amplifier is known that contains N power supplies, N main transistors and (Ν-1) auxiliary transistors of the opposite type of conductivity, the collector of the Nth main transistor connected to the Nth power source directly, the collector of each Kth (where K - 1 , 2, 3 ... Ν-1) the main transistor is connected to the base of the K-th auxiliary transistor and to the K-m power supply through the corresponding diodes, the collector of each K-th auxiliary transistor is connected to the base of the (K + 1) -th main transistors, emitters are all basic transistors connected to the same concentration, zu load whose other end is connected to the common bus power sources.

However, the known amplifier has a relatively large distortion and is difficult.

The purpose of the invention is to reduce distortion when switching the main transistors and simplification of the amplifier.

This goal is achieved by the fact that in the amplifier the input of the power amplifier is connected to the emitter of the (Ν-1) th auxiliary transistor, and the corresponding resistors are connected between the emitters of all neighboring auxiliary transistors, as well as between the base of the first main and emitter of the first auxiliary transistor.

The drawing shows a circuit diagram of the proposed amplifier.

The power amplifier contains N main transistors 1, N power supplies 2, Ν-1 auxiliary transistors 3 of the opposite conductivity type, diodes 4 and 5, load 6 and resistors 7.

The amplifier operates as follows.

In the absence of input voltage, the current does not pass through the main and auxiliary transistors 1 and 3, and there is no voltage at load 6. When an input voltage is applied to the amplifier, the first (lower) main transistor I opens first. Current flows from the corresponding source 2 through diode 5, main transistor 1, and load 6.

The collector-emitter voltage of the first main transistor 1 locks, the diode 4 and the first auxiliary transistor 3. But as the input voltage increases 5, the voltage at the load 6 increases, and the collector-emitter voltage of the first main transistor 1 decreases. When this voltage becomes small, 10 opens the diode .4 and the first auxiliary transistor 3, and hence the second main transistor 1. In this case, the diode 5 is blocked by the increasing voltage at the load 6 and turns off the source 2 with a lower voltage. The resistor 7 connected to the base of the first main transistor 1, due to the voltage drop across it, creates an excess of voltage at the 20 emitter of the first auxiliary transistor 3 over the voltage at the base of the first main transistor 1. This excess compensates for the residual voltage at the first main transistor 1 and diode 4 and thereby prevents the delay in opening the first auxiliary transistor 3 and the second main transistor 1. With a further increase in the input voltage, everything happens the same way. ⁵⁰ When the input voltage decreases, the process proceeds in the reverse order. Diodes 4 protect against breakdown the emitter junctions of auxiliary transistors 3, and also provide their 35 rapid opening. This leads, in combination with resistors 7, to reduce distortion when switching the main and auxiliary transistors 1 and 3. 40

The proposed amplifier can reduce distortion during switching transistors and ensures operability without a bias source.

Claims (1)

source 2 through the diode 5, the main transistor 1 and the load 6. The collector-emitter voltage of the first main transistor 1 is locked to the diode 4 and the first auxiliary transistor 3. But as the input voltage increases, the voltage across the load 6, increases, and the collector-emitter voltage of the first main transistor 1 decreases When this voltage becomes low, the diode .4 and the first auxiliary transistor 3 open, and hence the second main transistor 1. At the same time, the diode 5 is blocked by increasing with the voltage on the load 6 and from switches on source 2 with less voltage. A resistor 7 connected to the base of the first main transistor by decreasing the voltage across it creates an excess voltage on the emitter of the first auxiliary transistor 3 over the voltage on the ba of the first main transistor 1. This excess compensates for the residual voltage on the first main transistor 1 and diode 4 and thereby prevents a delay in opening the first auxiliary transistor 3 and the second main transistor 1. With a further increase in the input voltage, everything happens in a similar way. When the input voltage decreases, the process proceeds in reverse order. Diodes 4 protect the emitter junctions of the auxiliary transistors 3 from the breakdown and also provide for their accelerated opening. This leads, in combination with resistors 7, to a reduction in distortion when switching the main and auxiliary transistors 1 and 3. The proposed amplifier reduces distortion when switching transistors and ensures operation without a source bias. Claims of the Invention A power amplifier comprising N power sources, N main transceivers of sources and (N-1) auxiliary transistors of opposite conductivity type, the collector of the N-ro main transistor being connected to the NM power source directly, the collector of each K-th (where K-1,2,3, .. N-1) main transistor is connected to the base of the K-th auxiliary transistor and to the K-m power source through the corresponding diodes, the collector of each K-th auxiliary transistor is connected to the base (K + 1) th main transistor emitter All the main transistors are connected to one end of the load, the other end is connected to the common power supply busbar, so that, in order to reduce distortions when switching the main transistors and simplifying the amplifier, the input of the power amplifier is connected with the emitter {Nl) -ro of the auxiliary transistor, and between the emitters of all neighboring auxiliary transistors, as well as between the base of the first-ground and emitter of the first auxiliary transistors, the corresponding E ezististos are included. Sources of information taken into account in the examination 1..The author's certificate of the USSR 677057, cl. And 03 F 3/20, 1977 (prototype).