SU1077072A1 - Redundancy pulse generator - Google Patents

Abstract

A RESERVED PULSE GENERATOR containing a power supply and, in a backup channel, a pulse generator, the output of which is connected to the input of the integrator, a key, the output of which is connected to the power bus of the pulse generator, and the signal input is connected to the power supply in order to increase reliability, it contains a threshold element and, in each backup channel, an OR element, the inputs of the threshold element are connected respectively to the integrator outputs, and the output is connected to the first input of the OR elements, the second inputs of which are connected vyhodaAfi respective integrators and outputs - with the control inputs of the respective keys.

Description

D

D

N0

The invention relates to a pulse technique and can be used in digital measuring devices, control equipment in control devices of computers as a master clock generator.

A generator is known that contains a main channel with a working generator and several backup channels with cold reserve generators, OR elements whose inputs are connected to the same output generators of all channels, and the outputs to the inputs of the multi-input element And fault detection unit, the output of the multi-input element And it is connected to the input of the counter zeroing, the counting input of which is connected to the output of the autonomous generator 1.

The disadvantage of this redundant generator is the complexity of the power switching device (malfunction detection unit, pulse counter, self-contained pulse generator, etc.).

A redundant pulse generator is also known, which contains a power source and, in each channel, a pulse generator connected to an integrator, and a key 2J.

However, the known generator is characterized by insufficient reliability | due to incomplete use of the reserve.

Closest to the offer is a redundant pulse generator containing a power source and in each channel a pulse generator, connected to the integrator, a key and a prohibition element whose inputs are connected to the integrator outputs of other channels, and the output to the control input of the key of this channel, output Each key is connected to the power bus of the pulse generator of the given channel, and the signal input is connected to the power source 3.

A disadvantage of the known generator is that from the moment of failure of any pulse generator to the moment of switching on the next generator at the output of the redundant pulse generator, there is no signal. In addition, after applying voltage to the pulse generator power supply bus, some time elapses until a stable generation mode is established in the pulse generator, at which the frequency and amplitude of the output signal become equal to its nominal value. As is known, in pulse generators with high quality, time establishing a stable generation mode is several hours.

The purpose of the invention is to increase the reliability of the generator.

The goal is achieved by the fact that a redundant pulse generator containing a power supply and, in each backup kangsha, a pulse generator, the output of which is connected to the integrator input, a key, the output of which is connected to the power bus of the pulse generator, and the signal input 9 of the power supply the threshold element and, in each re-channel channel, the OR element, the inputs of the threshold element are connected respectively to the outlets of the integrators, and the output is connected to the first inputs of the OR elements, the second inputs of which are connected to the outputs of the corresponding integrators, and outputs with control inputs of the corresponding keys.

The drawing shows the scheme of the proposed generator.

The generator contains N pulse generators 1-3, the outputs of which are connected to the inputs of integrators 4-6, the outputs of the integrators connected to the inputs of the threshold element 7 and with the first inputs of the corresponding elements OR 8-10, the second inputs of which are connected to the output of the threshold element. The outputs of the elements OR 8-10 are connected to the control inputs of the corresponding keys 11-13, the signal inputs of which are connected to the power supply unit 14, the outputs of the keys are connected to the power buses of the corresponding pulse generators.

The redundant pulse generator operates as follows.

When the supply voltage is applied from block 14 to the signal inputs of keys 11-13, voltages appear at their outputs, which are applied to the power lines of the generators of their channels. Due to the non-identity characteristics of the elements forming each of the generators 1-3, the instant of the steady state generation will be different for generators 1-3 ,. For example, first the generation mode was previously set for generator 1. The voltage from generator 1

enters integrator 4, output

which the constant voltage is removed, which is fed further to the input of element 7 and the first input of element OR 8. At the same time, the output of element 7 continues to maintain a high potential, as in the initial moment of time when the supply voltage is applied. This high potential across the cells OR 8-10 keeps the keys 11-13 open and the supply voltage of the generators 1-3 continues to flow. Then, due to non-identical characteristics of the elements forming each of the remaining generators 2 and 3, the generation mode will be set for any of the next generator 2

The voltage output from the generator 2 ifocTynaeT to the integrator 5, which is removed from the output DC voltage supplied to the inputs of the threshold element 7 and the first input of the OR element 9. Once the element on the inputs: -7 having threshold 2 at Vits the second high potential from the integrator 5, at its output via a low potential, which through the remaining elements OR 10 closes the keys 13, and the generators 3 will be de-energized.

If one of the generators 1 or 2 fails at the output of the corresponding integrator, the voltage becomes zero, a high potential appears at the output of the threshold element, which through the remaining elements OR opens the remaining keys. Due to the variation in the parameters of the elements that make up each of the pulse generators, the output voltage of one of the remaining integrators is earlier in the output, the corresponding generator will be turned on, and all the others are turned off.

Thus, at any time, two of the N pulse generators are turned on, one of which is connected to the output of the redundant pulse generator, and the other is in hot standby mode. If one of the switched on generators fails, the signal from the other switched on generator continues to arrive at the output of the redundant pulse generator, and the circuit switches from its operating generator to one of the efficient ones. This generator is turned on and is in hot standby mode. The proposed generator compared to the known possesses much

0 greater reliability for devices in which the main characteristic of reliability is the coefficient of readiness of the device. As is known, the availability factor is the probability of the fact that at any arbitrary time the device is in a healthy state. Elimination in the proposed device of the inherent deficiencies leads to an increase in the availability factor and, in general, the reliability of the entire device, since during the switching time from the failed generator to the standby one, the last 5 remains in a healthy state,

The invention can also be used to build frequency sensors and synchronization devices with increased reliability, which will allow to increase the efficiency of solving problems of navigation, radar, precision measurements, etc.

Claims (1)

A RESERVED PULSE GENERATOR containing a power supply unit and, in each backup channel, a pulse generator, the output of which is connected to the integrator input, a key, the output of which is connected to the pulse generator power supply bus, and the signal input - to the power supply unit, and with the fact that, in order to increase reliability, it contains a threshold element and in each backup channel an OR element, inputs of the threshold element are connected respectively to the outputs of the integrator, and the output is connected to the first inputs of the OR elements, the second inputs of which are connected to the outputs of the respective integrators, and the outputs with the control inputs of the corresponding keys