SU936378A1 - Power amplifier - Google Patents

Description

(5) POWER AMPLIFIER

one

The invention relates to radio engineering, in particular, to bridge type amplifiers, and can be used to amplify different polarity signals with pulse modulation time.

Known power amplifier containing preliminary differential cascade, push-pull pre-terminal cascade and push-pull terminal cascade on transistors of the same type, Q conduction, made by a bridge circuit, the opposite shoulders of which are formed by the transistors of the push-pull terminal cascade and the first and second power sources, respectively, and The first diagonal of the bridge is load 1.

However, in the well-known power amplifier, the transistors of the terminal and terminal stages are connected according to the 20-collector circuit, they have voltage gains less than unity, as a result of which the gain of the entire amplifier is low

and the coe (| x1) is determined by the amplification pre-diff (|) of the potential cascade. And since the amplitude of the SI1 – nal at the output of the last A is the amplitude of the signal at the output of the amplifier, the voltage of the additional power source must be greater than the voltage of the main sources, which requires the use of medium power transistors with a large permissible collector-emitter voltage.

The purpose of the invention is to increase the gain while maintaining reliability by reducing the maximum voltage of the collector-emitter transistor of the pre-terminal cascade.

Claims (1)

To achieve this goal, a power amplifier containing a preliminary differential cascade, a push-pull pre-end cascade and a two-stroke terminal cascade on transistors of the same conductivity type, bridged opposite arms of which are formed by the transistors of the two-stroke power supply, respectively, and first the diagonal of the bridge is switched on, a parametric stabilizer consisting of a zener diode, the first and second resistors and the first dividing diodes and second dividing diodes, transistors of two-stroke pre-terminal and terminal cascades are switched on according to a common emitter circuit, the two-cycle pre-terminal cascade is made on transistors of a different type with 4-way power, while the collectors of transistors of the two-stroke pre-terminal Cascade are connected to the bases of two-stroke terminal transistors cascade, base through the third and fourth division diodes - with collectors of transistors of the preliminary differential cascade, and emitters through the third and fourth resistors and black of fifth and sixth diodes separator - to the collectors of transistors of opposite shoulders push-pull output stage, the first and second resistors parametric stabilizer connected between the third connection points, respectively. and the fourth resistors with the fifth and sixth separation diodes and a zener diode, the second output of which is connected to the second diagonal of the bridge through the first and second separation diodes. The drawing shows the principal of the proposed power amplifier. The power amplifier contains two transistors 1 and 2. The preliminary differential cascade and two transistors 3 and A of a push-pull terminal cascade of the same conductivity type, two transistors 5 and 6 of the pre-end cascade of another conductivity type, the first and second dividing diodes 7 and 8, the zener diode 9, the first and the second resistors 10 and 11 of the parametric stabilizer, the third, fourth, fifth, sixth separation diodes 12-15, the third and fourth resistors 16 and 17 of the pre-end stage, the load 18, the first and second power sources with poles respectively 19-22, in addition, the power amplifier contains resistors 2329. The power amplifier works as follows. In the idle state, in the absence of an input signal, transistors 1 and 2 are open and a current flows through them, the value of which ensures the voltage drop across resistors 2b and 27 is less than the required voltage for opening transistors 5 and 6. Transistors 3-6 are closed. When a positive half-wave input signal arrives at the base of transistor 1, it opens and through the emitter-base transition of transistor 5 a current flows in the direction of: the positive pole 20 of the first power source, the fifth isolation diode T, the third resistor 1b, the emitter base of transistor 5, the third separation diode 12, the collector-emitter of the transistor 1, the resistor 25, the first separating diode 7. the negative pole 19 of the first power source. Transistor 5 opens and through the base-emitter junction of transistor 3 a current flows in the direction: the positive pole 20 of the first power source, the fifth separation diode 14, the third resistor 16, the emitter-collector of the transistor 5, the base emitter of the transistor 3, the negative pole 19 of the first food source. Transistor 3 opens and a current flows in the direction of the load 18: the positive pole 20 of the first power source, the load 18, the collector-emitter of the transistor 3. the negative pole 19 of the first power source. The greater the amplitude of the positive signal supplied to transistor 1, the greater the current of transistors 1.5, 3 and the greater the voltage across the load 18. In this case, the voltage on the load 18 is added to the voltage of the power supply with the wires 21, 22 and the voltage between the collector and the emitter of transistor A is equal to the sum of these voltages. This total voltage causes an increase in the current flowing in the circuit of the fifth crossover diode 1, the first resistor 10, the zener diode 9 and the second crossover diode 8. As a result, the voltage drop across the riepBOM 10 pp. Parametric stabilizer increases by an amount equal to the amplitude of the output signal . Since this voltage drop is directed oppositely to the total voltage of the load 18 with the second power source with poles 21 and 22, the emitter potential of the transistor 6 of the push-pull pre-end cascade relative to the negative pole 22 of the second power source will not change from, i. the collector-emitter voltage of the push-pull pre-end cascade, both working and non-working in a given transistor cycle, does not exceed the voltage of the power source. The maximum voltage between the collector and the emitter of the transistor when operating at an active load does not exceed the total voltage of the wallpaper of the power sources. When a positive half-wave arrives at the base of transistor 2, it opens, transistors 6, 4 open, and the current through the load 18 flows in a different direction: the positive pole 21 of the second power source, the load 18, the collector-emitter of transistor A, the negative pole of the second source and power . The proposed power amplifier has a higher gain due to the circuit design by switching on the transistors of the terminal and pre-terminal stages according to the circuit with a common emitter. In addition, the introduction of the parametric stabilizer Vi of the separation diodes reduces the required number of power sources and reduces the maximum operating voltage of the collector-emitter transistors of the pre-final cascade to the value of the voltages of the corresponding power sources, and also makes the amplifier uncritical to the sequence of switching on and off nutrition A power amplifier comprising a preliminary differential cascade, a push-pull pre-tip cascade and a push-pull terminal cascade on transistors of the same conductivity type, performed according to a bridge circuit, the opposite shoulders of which are formed respectively by the transistors of the push-pull terminal cascade and the first and second power sources, and in the first diagonal of the bridge a load is included, characterized in that, in order to increase the gain while maintaining reliability by reducing the maximum the voltage of the collector-emitter of transistors of the pre-end cascade, a parametric stabilizer is introduced, consisting of a zener diode, a first and a second resistors and a first and second cross-section diodes, two-stroke pre-end and end stage transistors are connected according to a common emitter circuit, the two-stroke pre-end cascade is connected to a transistor pax is a friend of the conductivity type, with the collectors of the push-pull pre-terminal cascade transistors connected to the bases of the transistors of the push-pull terminal cascade, bases The third and fourth isolating diodes with the collectors of transistors of the preliminary differential cascade, and the emitters through the third and fourth resistors and through the fifth and sixth separating diodes with the collectors of the transistors of opposite arms of the push pull terminal cascade between the connection points the third and fourth resistors with the fifth and sixth separation diodes and a zener diode, respectively, the second output of which through the first and Ora separating diodes connected to the second bridge diagonal. Sources of information taken into account in the examination of G. Radio, 1978, No. 8, p. kS- (, Fig. 3 (prototype).