SU884135A1 - Automatic change-over switch of reserve - Google Patents

Description

The invention relates to automation 'and is intended for use in systems for ensuring the reliability of electronic equipment by duplicating the main channel identical, located in cold or hot reserve.

Known automatic switching devices containing a timing circuit, a reset unit and logic elements [I].

However, the device does not have universality, since it is suitable only for switching sources of pulse signals and only for one of the signal parameters - duration.

The technical solution closest to the invention is an automatic reserve switch containing the main and backup channels, an input converter, an AND gate, a detector, a switch, and a timing circuit [a].

A disadvantage of the known device is the relatively low reliability. Since the malfunction signal is removed from the control output of the main channel, in the event of a malfunction of only the control output, the channels are switched despite the fact that the normal signal is maintained at the main output. On the other hand, in the event of a malfunction at the main output and a normal signal at the control output, the unit does not switch. In addition, the presence of a control signal input also reduces the reliability of the device, since it requires special nodes and circuits that form and transmit a control signal, while the device is essentially semi-automatic and non-autonomous,

In order to increase reliability, an automatic reserve switch containing a detector, a timing circuit connected to the power bus, a switch, the first and second outputs of which are connected to the inputs of the main and backup channels, connected by their outputs to the output of the device, is equipped with an OR element and a switch the control input of which is connected to the first output of the switch, the output to the input of the detector, and the signal input to the output of the device, while the first input of the OR element is connected to the output of the detector, W swarm input - yield vre.myazadayuschey circuit, and an output - to the input of the switch.

The drawing shows a functional diagram of the device.

The automatic reserve converter contains a time setting. circuit 1, switch 2, detector 3, element OR 4, switch 5, main and backup channels 6 and 7, the combined outputs of the main and backup. channels b and 7 are connected to the output 8 of the device.

The device operates as follows. /

When you turn on the supply voltage E _PiT at the output of the timing circuit 1 for a time determined by its parameters, an installation signal is generated corresponding to the logical level I. During this time, the output of the OR element 4 is the logical signal 1, through which switch 5 connects the main channel 6 to load and through the switch 2 to the input of the detector 3.

During the operation of the installation signal at the output of the detector 3, due to the inertia of the main channel b or the non-synchronization of the supply voltage, a false malfunction signal corresponding to the level of logical O may occur, which does not cause a change in the output signal of the OR 4 element and, therefore, switching channels 6 and 7 By the time the action of the installation signal in the device is completed, the transients end and a logic I signal is generated at the output of the detector 3, which, after the end of the operation of the device new signal, when a logic O signal is generated at the output of the timing circuit I, confirms logical 1 at the output of the OR element 4 and, therefore, the state of the main channel 6 is on.

\ In the event of a malfunction in the main channel 6, a signal corresponding to the level of logical O is generated at the output of detector 3, and at the output of the element OR> 5 ”, 4

- a fault signal corresponding also to the level of logical О, according to which switch 5 disables the main channel b and turns on the backup channel 7. At the same time, the signal from the first output of switch 5 activates switch 2 and removes the signal from the input of detector 3. the output of detector 3 confirms a logical O signal, which completely excludes the possibility of secondary operation of switch 5. Thus, in the event of a malfunction of the main channel 6, it will be disconnected once and for all 15 backup channel 7.

The introduction of the OR element 4 and switch 2 makes it possible to provide reliable failover of channels with substantially lower hardware costs and direct control of the output of the main channel. In addition, the device works completely automatically, without requiring additional input signals, 25 which is extremely important in the conditions of special instrument engineering.

Claims (2)

The invention is related to automation and is intended for use in systems for ensuring the reliability of electronic equipment by duplicating the main channel with an identical one located in a cold or hot reserve. Automatic switching devices are known that contain a timing circuit, a reset unit and logic elements W-. However, the device does not possess universality, since it is suitable only for switching sources of pulsed signals and only in one of the signal parameters — duration. The closest technical solution to the invention is an automatic reserve switch containing the main and backup channels, the input converter, the AND gate, the detector, the switch, and the C 2 down circuit time. A disadvantage of the known device is relatively low reliability. Since the malfunction signal is removed from the control output of the main channel, in the event of a malfunction of the control output only, the channels are switched despite the fact that a normal signal remains at the main output. On the other hand, in the event of a malfunction at the main output and a normal signal at the control output, the switch does not occur. In addition, the presence of a control signal input also reduces the reliability of the device, since it requires special nodes and circuits that form and transmit a control signal, while the device is essentially semi-automatic and non-autonomous. In order to increase reliability, an automatic switch for the reserve, containing a detector, is time for setting the circuit connected to the power bus, the switch, the first and second outputs of which are connected to the inputs respectively of the new and backup channels connected by their outputs to the output of the device, is entered OR and a switch whose control input is connected to the primary output of the switch, an output to the detector input, and a signal input to the output of the device, the first input of the element OR connected to the output of the detector , The second input - to the output vre .m drive circuit, and an output - to the input of the switch. The drawing shows the functional diagram of the device. The automatic converter of the reserve contains the time setting. circuit 1, commutator 2, detector 3, element OR 4, switch 5, the main and backup channels 6 and 7, the combined outputs of the main and backup channels 6 and 7 are connected to the output 8 of the device. The device works as follows. When the supply voltage C is turned on, the output time of the master circuit 1 at the time, determined by its parameters, generates a setting signal corresponding to the logic level 1 During this time, the output of the OR 4 element has a logic 1, through which switch 5 connects the main channel 6 to the load and through switch 2 to the input of the detector 3. During the effect of the setting signal at the output of the detector 3, due to the inertia of the main channel 6 or non-synchronization of the supply voltage, it is possible that the signal is false state of health, corresponding to the logical level of O, which does not cause a change in the output signal of the & tape OR 4 and, consequently, switch channels 6 and 7. By the time the setup signal ends, the transients are terminated and the output of the detector 3 forms the logical signal 1 which, after the termination of the setting signal, when a logical O signal is generated at the output of the latching circuit I, confirms the logical I at the output of the element OR 4 and, therefore, the state of the switched on bases When channel 6 fails, a signal is generated at the output of detector 3 that corresponds to the logic level O and at the output of the element OR 8 5. 4 4 - a fault signal that also corresponds to the level of logic O through which switch 5 switches off the main channel 6 and switching on the backup channel 7. At the same time, the signal from the first output of switch 5 triggers switch 2 and removes the signal from the input of detector 3. At the same time, the logical O signal is confirmed at the output of detector 3, which completely excludes The possibility of the secondary actuation of the switch 5. Thus, when the main channel 6 fails, a one-time reliable disconnection of it occurs and the backup channel 7 is turned on. The introduction of the OR 4 element and the switch 2 ensures reliable emergency switching of the channels significantly less hardware costs and direct control of the output of the main channel. In addition, the device operates fully automatically, without the need for additional input signals, which is extremely important in the conditions of special instrumentation. The invention includes an automatic reserve switch, comprising a detector, a timing circuit connected to a power supply, a switch, a first and a second output; which are connected to the inputs of the main and backup channels, respectively, connected by their outputs to the output of the device, characterized in that, in order to increase reliability, an OR element and a switch are entered into it, the control input of which is connected to the first output of the switch, the output to the detector input, a signal input from the output of the device, the first input of the OR element is connected to the detector output, the second input to the output of the master circuit, and the output to the input of the switch, the sources of radiation taken into account When the examination certificate of the USSR 1.Avtorskoe N9 SO9993, cl. H 03 K 17 / OO, 1974. 2. USSR author's certificate number 438116, cl. H 03 K, 17/60, 1973,