SU961124A1 - Apparatus for timing the signal of electromechanical switch - Google Patents

Description

The invention relates to a pulse technique and can be used in synchronization systems.

. A device for synchronizing an asynchronous signal is known, comprising an electromechanical device with contacts and triggers-Cl

The disadvantage of this device is that the influence of contact bounce of the electromechanical device when they are switched is not reduced to a level that guarantees reliable operation of the device.

The closest to the technical essence of the invention is a device for synchronizing an asynchronous signal, containing an electromechanical device with normally closed and normally open contacts, the moving contact being connected to a common bus, inverters, element I, the shift register, in which the clock inputs of the shift and recording are connected with clock bus 2.

The disadvantages of this device are a large amount of equipment and an insufficient degree of protection from the influence of contact bounce.

The purpose of the invention is to simplify the device.

Claims (2)

This goal is achieved by the fact that in device 0 for synchronizing the signal of an electromechanical switch, containing an electromechanical switch, the movable contact of which is connected to a common bus, two 15 inverters, element I and the shift register, clock inputs of the shift and recording which are connected to the bus of clock pulses, input the first bit of the shift register is connected to a normally open contact of an electromechanical switch, the normally closed contact of which through the first inverter is connected to a series The first input of the shift register, the output of the first digit of which is connected to its control input and the input of the second digit, as well as through a second inverter with one of the inputs of the And element, the other input of which is connected to the output of the second digit of the shift register. device schema. The device contains an Electromechanical switch 1 with a normally closed and normally open, contacts, inverters 2 and 3, the element And k, the shift register 5, the bus 6 clock pulses, common bus 7 and the output bus 8. The device operates as follows. In the initial state, both bits of the shift register 5 are in a single state. The register is set to such a position independently when the supply voltage is applied to the device. For example, after powering up the first bit of register 5 was set to 1, i.e., the output of the first bit was high. This high level goes to the control input of the register, allowing writing to the register via parallel inputs, the first of which receives a high level from the normally open contact of the electromechanical switch 1, and the second input receives a high level from the output of the first register bit. This recording is made by the very first pulse from the series, constantly appearing on the register clock inputs. If, on the contrary, the first bit of register 5 is set to O, i.e., the output of the first bit is low, then this level switches to the control input to receive signals from the serial input (information shift mode), at which a high level is set by an inverter 2, which inverts a low level from a normally closed contact of an electromechanical switch 1. This high level is received in the first register bit at the first pulse input to the clock inputs. The same pulse produces a shift of information in the register from the first bit to the second, i.e. O switches to the output of the second bit of the register. Now, the output of the first register bit is set to a high level. Further, the device operates as described above. So, in the initial state, register 5 is in state 1 and a high level from the output of its first bit, arriving at the control input, prepares it for receiving information on the parallel inputs, blocking the input on the serial input. At that moment, when the electromechanical switch 1 starts to work, its normally closed contact starts to open, which causes the voltage level on the contact to oscillate at 1. bounce, which are transmitted via inverter 2 to the sequential input of the register. However, the register is set to mode. recordings on parallel inputs, and on signals arriving at the serial input, does not respond. At the end of the transient, when a normally closed contact opens, a high level is established without hesitation and through inverter 2 as a low level is fed to the serial input of register 5. This occurs during the overvoltage of the electromechanical switch between fixed contacts. Then, when the moving contact touches a normally open contact, a transient process of changing the voltage level from 1 to the next bounce starts. Since the register is set to write mode to parallel inputs, one of the clock pulses from bus 6 low level is received in the first register bit and through inverter 2 goes to element I C, the output of which is set to high level. On the exit of the first bit of register 5, a low level is set which switches the register to the shift mode of information received via a serial input on which the low level is set. The next clock pulse arriving on bus 6 performs reception O via a serial input, confirming the zero state of the first bit, and shifting O from the first bit to the second, from the output of which the low level goes to the AND t and sets its output is also low. Thus, on the output bus 8, a positive signal is generated with a duration equal to the time interval between a pair of adjacent clock pulses and a synchonic one to these pulses. Subsequently, the zero state of register 5 is confirmed by successive clock pulses, which does not lead to a change in the state of the output element And t. When the electromechanical switch 1 returns to its original position, bounce occurs first on the open (normally open) contact and enters the input of the first register bit that does not respond to these changes, since it is set to the information shift mode. When the normally closed contact of the electromechanical switch is touched, the bounce through Inverter 2 is fed to the serial input and one of the clock pulses a high level is received in the first bit of the register 5 whose output switches registration p in the recording mode. At the moment of entry of the first discharge, a high level is established. The next clock pulse is the transfer 1 from the first bit to the second along the parallel input of the second bit —jj, i.e. the device returns to its original state. At the output of the And element during these switchings, the low level does not change, since when a high Q level appears at the output of the first bit of register 5, inverter 2 prohibits the operation of the And k element. Thus, the proposed device in comparison with the known provides for synchronization of the signal of the electromechanical switch by simpler means. The invention includes a device for synchronizing an electromechanical switch signal, comprising an electromechanical switch, the movable contact of which is connected to a common bus, two inverters, the AND element and the shift register, the clock inputs of the shift and the recording of which are connected to the clock pulse bus, which is device, the input of the first digit of the shift register is connected to a normally open contact of an electromechanical switch, a normally closed contact of which through rvy inverter is connected to the serial input of the shift register, the output of the first discharge which is connected with its control input and the input of the second discharge, as well as through a second inverter to one input of AND gate, the other input of which is connected to the output of the second discharge shift register. Information sources. taken into account in the examination 1. Computer Reference. Kiev, 197, p. 402, fig. 8.25: 2. Potemkin I.S. Functional nodes on potential elements. M., Energie, 1976, p. 98, rice, b5 (prototype).