SU949793A1 - Pulse monitoring device - Google Patents

Description

(54) DEVICE FOR PULSE CONTROL

The invention relates to a pulse technique and can be used in automation and computing devices for detecting faults in branched chains.

A device for controlling pulses is known, which contains the elements AND, OR, differentiation of drivers and RS flip-flop 1.

A disadvantage of the known device is the impossibility of detecting faulty sources of pulses in the case of faults of the constant O or constant 1 type, as well as low reliability.

The closest in technical essence to the present invention is a device for controlling pulses, containing a two-input element OR, its inputs connected to the outputs of elements AND, the inputs of the first of which are connected to the inputs of the second C2 through corresponding inverters.

A disadvantage of the known device lies in the lack of functionality, since it does not reveal faulty sources with permanent O faults or

1, as well as lack of reliability due to the proportionally increasing amount of equipment with increasing number of monitored channels.

The purpose of the invention is to enhance functionality and increase reliability.

The goal is achieved by the fact that in the control device

10 pulses containing a two-input OR element, inputs connected to the outputs of the AND elements, the inputs of the first of which are connected to the inputs of the second through corresponding inverters, a control channel generator, pulse generator, multiplexer and counter, input connected to the output of the OR element, and outputs of bits - with address

The 20 inputs of the multiplexer, one of the information inputs of which is connected to the output of the pilot channel generator, and the rest are the device's inputs, the output of the multiplex 25 plexer connected to the first input of the first And element, the second input connected to the output of the pulse shaper.

The drawing shows a diagram of a device for controlling pulses.

The device contains a control channel generator 1, a multiplexer 2, a counter 3, a shaper 4 pulses, an inverter 5 and b, the first and in the era elements And 7 and 8, the element OR 9 ,. information inputs 10, the output of the generator 1 of the control channel is connected to one of the information inputs of multiplexer 2, its address inputs associated with the outputs of the counter 3. The output of the pulse shaper 4 is connected to the second input of the And 7 element and through the inverter b to the second input of the And element 8. The first input of the first element And 7 is connected to the output of the multiplexer 2 and through the inverter 5 to the first input of the second element And 8. The outputs of the first 7 and second 8 elements And are connected to the inputs of the element OR 9, the output of which is connected to the input Touch 3. The information inputs 10 of multiplexer 2 are the inputs of the entire Device.

The device is working: as follows.

When all sources of input pulses are working properly, periodic information pulses are sent to the information inputs of multiplexer 2. At the output of multiplexer 2, a pulse passes from the input allowed by the corresponding binary code combination coming from counter 3. From the output of multiplexer 2, a pulse passes through the AND 7 element opened by the signal from the 4 pulse generator, and the OR 9 element enters the input of the binary counter 3 and adds information in it by one. At the same time, the next controlled channel is connected to the input of the multiplexer 2. If there is no signal in the monitored channel (the level of the logical 0 or logical 1), the counter 3 does not switch and its status corresponds to the number of the failed source of pulses. In this case, the switching of the counter 3 is produced by a signal coming from the driver 4 pulses, which coincides with a constant level on the element And 7 or on the element And 8 and through the element OR 9 enters the counter 3. When there is no malfunction, the code at the output of the counter 3 varies with the frequency of the input pulses. The control information input of the multiplexer 2 sends pulses from the generator 1 of the control channel, and the frequency of the pulses of the generator of the control channel is many times lower than the frequency of the input monitored pulses and determines the frequency of polling of the monitored channels.

Thus, this technical solution allows to detect all types of faults in the monitored channel: (including those at which voltage levels corresponding to logical 1 or logical .0 are set in the monitored channel, the device’s ability to detect the source faults impulses with their simultaneous failure, the ability of the device to work with both coincident and non-coincident controlled impulses, as well as the possibility of increasing the number of channels monitored without increasing the number of f nktsionalnyh elements. Increasing the number of monitored channels does not require a proportional increase in the equipment, and only leads to a corresponding increase in the number of multiplexer inputs and increase the discharge of clarity meter.

Claims (2)

1. USSR author's certificate No. 445143, .kl. H 03 K 5/18, 1973. 2. USSR author's certificate number 586557, cl. H 03 K 5/18, 1974 (prototype.