CS231741B1 - Pulse amplifier branch - Google Patents

Abstract

The invention relates to electrical engineering - pulse amplifiers. It solves the problem of reducing the thermal effects of short-circuit currents, mainly in low-frequency amplifiers. The essence of the invention is the structure of the amplifier performing time reductions of output pulses ■in case of overload or short-circuit. After the arrival of each pulse, the amplifier tests whether the load at its output is within the specified limits and if this condition is not met, it automatically disconnects by the end of the input pulse duration. At its output, current-limited and time-shortened pulses are output in case of an impermissible load, thereby achieving relief of the output stage. When switching from an impermissible load to an permissible load, the amplifier automatically restores its normal function. The block diagram of the circuit is PV 9171-81.

Description

The present invention relates to a pulse amplifier branch in which the thermal effects of short-circuit currents are reduced.

In previously known amplifiers, mostly current negative feedback is used to reduce the effects of short-circuit currents. Some connections are supplemented by a thermal fuse for a longer time.

The drawback of these wiring is that in the case of short-circuit or overload, the power loss to the output stage is considerable, which places increased demands on the sizing of the heatsink and the end transistors cannot usually be fully utilized due to the permissible pulse load characteristics.

These drawbacks are eliminated by the circuit according to the invention, by shortening the current, limited pulses at short circuit or overload, the principle being that the output terminal is connected to the input of the pulse time short circuit and the blocking input of the comparator whose output is connected to the first positive input. the output of the summation element is connected via the excitation stage to the output stage input, whose output is connected both to the comparator input of the comparator and partly to the dependency input of the current limiting circuit and through the current sensor to the output terminal, the current sensor output is connected to the current input of the current limiting circuit, whose output is connected to the negative input of the summation element *

By utilizing the invention, pulse amplifiers can be constructed with improved current utilization of the output stages and reduced cooling surface requirements.

The attached drawing shows a block diagram of a pulse amplifier branch according to the invention.

In Fig. 1, the input terminal 1 is connected to the input of the pulse time short circuit 6 and to the blocking input 22 of the comparator 2. The pulse time short circuit 2 output is connected to the second positive input of the summation member 4. The output of the radio element 4 is connected to the input of the driver stage 5, the output of which is connected to the input of the output stage 6. The output of the output stage 6 is connected to the comparator input 32 of the comparator 2. The output of the current sensor is connected to the current input 72 of the current limiting circuit, the output of which is connected to the negative input of the summation element 4 ·

Upon arrival of the pulse at the input terminal 1, the comparator 2 is unlocked and at the same time the input pulse passes the time-shifting circuit 2, the summation member 4 ^{and the} driving stage na to the output of the output stage.. If the output at terminal 2 is not overloaded, the output stage opens fully. The output voltage is evaluated by comparator 2 and the output stage is permanently energized by the summation element and the driving stage. In the event of an overload, the current limiting circuit 2 via the negative input of the summing member of the excitation and thus the output stage does not reach the full level, but establishes a value corresponding to the current limiting characteristic determined by the current sensor g signal and current limiting circuit.

If the output voltage does not reach the decision level of the input 32 of the comparator 2, the continuous excitation is not performed and after the time-shorted and current-limited pulse on the amplifier output has subsided, the amplifier remains disconnected until the next pulse arrives. The ratio of the duration of the shortened pulse to the input pulse determines the reduction coefficient of the effects of short-circuit currents.

Claims (1)

SUBJECT OF THE INVENTION Pulse amplifier branch, characterized in that the input terminal (,) is connected to the input of the pulse time-short circuit (2). and with the blocking input (3,) of the comparator (3) whose output is connected to the first positive input of the summation member (4), to the second positive input of the summation member (4) is the output of the pulse shortening circuit (2) 4) is connected via the driving stage (5) to the input of the output stage (6), the output of which is connected both to the comparator input (32) of the comparator (3) and to the dependency input (71) of the current limiting circuit (7) and a current sensor (8) to the output terminal (9), the output of the current sensor (8) being connected to the current input (72) of the current limiting circuit (7), the output of which is connected to the negative input of the summation member (4).