SU763929A1 - Pulse counter - Google Patents

Description

The invention relates to computer technology, instrument engineering and can be used, for example, in automated C1 | technological process control systems for counting pulses that arrive simultaneously via several measurement channels from sensors having a pulse output. A reverse pulse counting device is known. and reversible pulse counter. A disadvantage of this device is its low speed, low reliability and the lack of functional performance monitoring. The closest technical solution is a multichannel counting device containing measurement channels, the number of which is equal to the number of sensors, the first pulse generator, the output of which is connected to the input of the summation unit, the first trigger, the set inputs of which are connected to the outputs of the summation unit, reversible counter, control the input inputs of which are connected to the outputs of the first trigger, the first, the output of the reversible counter is connected to the digital indicator 2. The disadvantage of this device is the lack of function ceiling elements control efficiency, resulting in lower reliability. The aim of the invention is to increase the reliability of the device. . The goal is achieved by introducing a second pulse generator, a second trigger, two pulse shapers, two AND elements, an OR element, a switch, an inverter, and two AND elements in each measurement channel, an OR element, a single vibrator and a display element, and each input from the measurement channels connected to one input of the first element AND, the output of which is connected to one of the inputs of the OR element, the other input of which is connected to the output of the second element AND, the output of the OR element to the input of the one-vibration and to the corresponding input the summation unit, one-shot outputs are connected to the display elements, another input of the first elements AND is connected to a switch and to the input of the inverter, the output of which is connected to one of the inputs of the second elements AND, the other inputs of which are connected to the installation zero input of the second trigger and the first pulse generator , the output of the second pulse generator is connected to the input of the second pulse generator, the output of which is connected to the installation single input of the trigger and to the installation input of the addition of the first the trigger, the zero output of the second trigger is connected to one of the inputs of two elements AND, the other input of the first element AND is connected to the second output of the reversible counter, the output of the first element AND is connected to BXOjDiy of the first pulse shaper, the second input of the second element And is connected to the output of the first pulse generator , the third input of the second element AND is connected to the control input of the second pulse generator and to the output of the inverter, the output of the second element AND is connected to one of the inputs of the OR element, the second input of which is connected to a counter to the output of the summation unit; the output of the OR element is connected to the counting input of a reversible counter.

FIG. 1 is a schematic diagram of the device; in fig. 2 - time diagram of his work.

The device contains measurement channels 1 and in each channel the elements AND 2 and 3, the element OR 4, the one-shot 5, the display element 6, the first pulse generator 7, the summation unit 8, the first trigger 9, the reversing counter 10, the digital indicator 11, the second pulse generator 12 , second trigger 13, pulse formers 14, 15, elements AND 16, 17, element OR 18, switch 19, inverter 20, and the input of each of channels 1 is connected to one input of the first element AND 3, the output of which is connected to one of the inputs of the element OR 4 whose output is connected to the corresponding input the current one-shot 5 and with the corresponding input of the summation unit 8, the outputs of the one-shot 5 are connected to the display elements 6, another input of the first elements And 3 is connected to the closing contact of the switch 19 and the input of the inverter 20, the output of which is connected to one input of the second elements And 2, others the inputs of which are connected to the installation zero input of the second trigger 13 and with the output of the pulse generator 15, the outputs of the second elements AND 2 are connected to other inputs corresponding to the elements OR 4 of each channel, the output of the second generation ora pulses 12 is connected to the input of the second pulse shaper 14, the output of which is connected to the adjusting input of the second latch unit 13 and a mounting adding input of the first flip-flop 9, the zero output of the second flip-flop 13 is connected to one input of two AND gates 16,

17, another input element AND 16 is connected to the output of the low-order bit of the reversible counter 10, and the output of element AND 16 is connected to the input of the pulse former 15, the second input of element And 17 is connected to the output of the first pulse generator 7, and the third input of element 17 to the input of the second pulse generator 12 and to the output of the inverter 20, the output of the element AND 17 is connected to one of the inputs of the element OR 18, the second input of which is connected to the counting output of the summation unit 8 ka 10.

The device for counting pulses operates as follows.

The device has modes of operation and control, which are determined by the position of the switch 19. In the mode of operation, the contact of switch 19 is not closed and the elements of the built-in functional control of operability - the second pulse generator 12, the second trigger 13, the elements 16, 17, pulse shapers 14, 15, elements AND 2 are turned off from operation by the zero potential of the inverter 20. At the same time, the input pulse signals arrive through the elements AND 3, OR 4 of each measurement channel to the corresponding inputs of the single-oscillators 5 and the inputs of the summation unit 8, with the progress of which they are successively considered to be a reversible counter 10.

When the input pulse signals arrive at the inputs of the one-shot 5, the latter provide a constant or pulsating (at low values of the frequency of the input signals) burning of the display elements 6 due to the overlap of the period of arrival of the input signals through the measurement channels of the control pulse. In this way, a visual monitoring of the operability of the process sensor and the communication line is provided.

In monitor mode, the device is working. With this, the contact of the switch 19 is closed, the inputs of the elements AND 3 of each measurement channel for incoming input pulses are blocked, and the elements of the embedded function control 2, 12., 17 are unlocked.

With the start of operation of the second pulse generator 12, each of its pulses with a falling edge through the pulse shaper 14 sets the first trigger 9 to a position corresponding to the addition of pulses by a reversing counter 10, and the second trigger 13 to one state that allows the arrival of pulses from the first pulse generator 7 through the elements AND 17, OR 18 to the input of the reversible counter 10. After completing the low-order bit of the counter 10 to ten pulses, the pulse shaper 15 sets the second trigger 13 to the zero state and one temporarily generates a pulse at the inputs of AND 2 for arrival through other inputs of OR elements 4 on respective inputs 5 and monostable summing unit 8 inputs.

With the arrival of the next pulse from the second generator 12 to the input of the pulse former 14, the monitoring process is repeated in a similar way, i.e. at the beginning, the low-order bit is calculated to ten pulses, and then algebraic summation of pulses occurs, corresponding to the number of inputs involved. In this case, in the lower digit of the digital indicator 11, a digit is displayed corresponding to the difference between the number of inputs used for addition and subtraction, and in the remaining bits of the counter, there is an accumulation of pulses after each cycle of the increment of the lower digit of the counter 10.

In order to provide visual monitoring of the device’s operability, the frequency of the second pulse generator 12 is selected from the condition

fj. (12) 2fr (g),

where f (g) is the frequency of the first pulse generator 7.

The technical and economic effect of using the invention is to reduce hardware costs and simplify the process of operational and functional monitoring of the device's performance both in its manufacture and in its operation at technological facilities.

Claims (2)

1. USSR author's certificate 50 No. 368630, cl. Q 06 M 3/08, 1969. 2.Certificate of Certificate No. 2394767 / 18-24 Cl. Q 06 M 3/08, 08/04/76.