SU1270873A1 - Output stage of amplifier with inductive load - Google Patents

Abstract

The invention relates to radio engineering. The purpose of the invention is to increase reliability. The output contains in each arm transistors 1, 3

Description

The invention relates to radio engineering and can be used in various radio engineering devices.

The purpose of the invention is to increase reliability. 5

The drawing shows a circuit diagram of the output stage of an amplifier with inductive load.

The output stage of an amplifier with an inductive load contains in each shoulder a first transistor 1 (2), a second transistor 3 (4), a resistor 5 (6), a switching diode 7 (8 \, a low-voltage power supply 9 (.10), 15 high-voltage power supply 11 (12), inductive load 13, additional resistor 14.

The output stage of the amplifier with inductive load operates as follows 20.

Upon receipt of a stepwise increasing voltage, for example, of negative polarity in the inductive load 13, a stepwise 25 increasing current of positive polarity is formed. During the transition process of establishing the current in the inductive load 13, an increased voltage is applied to it, provided by the positive voltage boost circuit of the second transistor 3. At the same time, a voltage equal to the sum of the voltages of the low-voltage power supply 10 of negative polarity and the high-voltage power supply JI positive is applied to the first transistor 2 of the negative arm polarity. The reverse current of the second transistor 4 of the negative voltage boost circuit is closed by the circuit: additional resistor 14, switching diode 7, low-voltage power supply 9 of positive polarity, if the circuit is in a steady state current, or by circuit: additional resistor 14, positive voltage boost circuit on the second transistor. 3, high-voltage power supply 1 ительной positive polarity, if the circuit is in a transient state. The value of the additional resistor 14 is selected from the condition

R 55

-L d where E _WT , E _Pig - voltage values of low-voltage power supplies 9 and 10;

op4 “the maximum value of the reverse current of the second transistor 4.

In this case, the switching diode 8 is open. A current flows through it, equal to the difference between the current flowing through the additional resistor 14 and the reverse current of the second transistor 4. Thus, the voltage does not exceed the voltage of the low-voltage power supply 9 on the collector of the first transistor 2 when the current is generated in the inductive load 13 of a stepwise increasing form of positive polarity.

The output stage of the amplifier with an inductive load works similarly when a stepwise-increasing positive polarity signal is applied to the amplifier input. In this case, the reverse current of the second transistor 3 is closed by the circuit: additional resistor 14 - switching diode 8 low voltage power supply 10 of negative polarity or additional resistor 14 - second transistor 4 - high voltage power supply 12 of negative polarity.

Claims (1)

Claim The output stage of the amplifier with an inductive load, containing first and second transistors in each arm, the emitter of the first transistor connected to the inductive load through a resistor, the collector through a switching diode connected to a low-voltage power source and directly to the emitter of the second transistor, the collector of which is connected to a high-voltage source power supply, while the first and second transistors of one shoulder have one structure, and the other shoulder has another structure, characterized in that, in order to increase the NOSTA, introduced an additional resistor between the collectors of the first tranzistodob. VNIIPI Order 6252/56 ______ Circulation 816 __ Subscription Custom polygr. pr-tie, city garden, st. Project, 4