SU959302A1 - Redundancy amplifier - Google Patents

Description

(S) BACKUP AMPLIFIER

one

The invention relates to electronic engineering and can be used in amplifying, controlling, and transforming systems of increased reliability.

Known redundant amplifier containing N parallel-connected amplifying blocks, each of which is made on series-connected amplifying element, g ballast resistor and switching element til

However, this redundant amplifier has low reliability.

The purpose of the invention is to increase reliability.

To achieve the goal, N logic matching elements, N threshold elements and N current direction sensors were introduced into the redundant amplifier, one current input of each of which is connected to the output of one of the amplifying elements, the second I current input with the second current inputs.

the inputs of all other current direction sensors, and the output to one of the inputs of the corresponding matching logic element, the output of which is connected to the control input of the corresponding switching element, and the second input to the output of the corresponding threshold element, whose input is connected to the input of the redundant amplifier.

The drawing shows a circuit diagram of the proposed device for the case of three channels.

The redundant amplifier contains amplifying elements C-1z ballast resistors, switching elements, logical elements of coincidence, current direction sensors, pbrogs 6 -, - 6h. load 7.

Redundant amplifier works as follows. 3. 9 Due to the fact that real amplifying elements cannot be absolutely identical in their characteristics, among amplifying elements there is always such an amplifying element, the output voltage of which in idle mode will be greater than the voltage at the output of any other amplifying element. an item. Since the outputs of all amplifying elements are connected via current direction sensors, the amplifying element, the output voltage of which in idle mode exceeds the voltage at the outputs of all other amplifying elements, operates in the source mode and the other amplifying elements serve as a load for this unit. The current direction in each of the current direction sensors () for a given polarity of the input signal depends on whether the corresponding amplifying element is a signal source, what is the normal mode of the amplifying element, or whether it itself serves as a load for some other amplifying element those. working in abnormal mode. Each of these cases correspond to two different levels of the output signal of the current direction sensor. Logic elements of the match -j-tj analyze the signals from the outputs of the corresponding threshold elements and current direction sensors 5 5-1 and, as. only, they detect abnormal operation of the amplifying element. (when the element becomes a load for some other amplifying element) generate a control signal for the corresponding switching element to disconnect the load 7 from the corresponding amplifying element. Thus, in the proposed redundant amplifier, not all amplifying elements are connected to the load, but only those that, if there is opposition from other amplifying elements, are capable of working .50

in source mode. The rest of the reinforcement elements are disconnected from the load and are in a state of unbooted hot springs. Information sources taken into account during the examination.

Claims (1)

1. Japanese patent number 6-53b1, cl. H 03 F C / O, 1971. 2 wa. If the amplifying element connected to the load fails, the signal level at the output of its current direction sensor changes, as a result of which the switching element operates and disconnects this element from the load. Instead, another amplifying element can be connected to the load, which has a close idle output voltage (from the reserve). If replacement of the failed block does not occur, the number of amplifying elements connected to the load is reduced by one. Thus, in a redundant amplifier, most of the amplifying elements are disconnected from the load and are in a state of hot, unloaded reserve, i.e. works in a lightweight mode, which ultimately improves reliability. Claims of the invention A redundant amplifier containing N parallel-connected amplifying blocks, each of which is made on series-connected amplifying element, ballast resistor and switching element, characterized in that, in order to increase reliability, N logical coincidence elements are introduced into it, N threshold elements and N current direction sensors, one current input of each of which is connected to the output of one of the amplifying elements, the second current input with the second current inputs of all the others sensors x direction of the current, and an output - to one input of the corresponding gate; the coincidence element, the output of which is connected to the control input of the corresponding switching element, and the second input - with the output of the corresponding threshold element, the input of which is connected to the input of the redundant amplifier.