SU769742A1 - Delay setting device - Google Patents

Description

one

The invention relates to an electrical measuring technique and can be used to set the amount of delay output and in digital delay generators.

A device for setting a delay is known, comprising a display, a decoding unit, a delay counter, a write pulse generator, and a setup counter 1.

A disadvantage of the known device is the low speed of setting the required amount of delay in the meter of the installation.

A device for setting the delay contains an input busbar, a load bus, a reset bus, a reverse bus, a write pulse generator, an L-bit delay counter, each bit of which contains a control input and setting inputs, a decoding unit, a display, an N-bit the reversible installation counter, each bit of which contains a reset input, a clock input, a control input and a transfer output, three-position switches and 7V-1 OR element, the output of the write pulse generator is connected to the first and third pins of the first pair ehpozitsionnyh switches: reverse cleat and tire casing are connected respectively to the first and third contacts of the second pairs of three-position switches, second contacts of which are connected together and to the control inputs of bits reversing the installation counter reset inputs of which are connected to

5, the reset input, the clock input of each bit of the reversible counter of the installation, with the exception of the first bit, is connected to the output of the corresponding OR element, the first input of which is connected to the output

The transfer of the previous bit, and the second input with the second contact of the first of the corresponding three-position switches, the clock input of the first discharge of the reversible installation counter is connected to the second contact of the first of the first three-position switches, the load bus is connected to the control inputs of the bits of the delay counter , the installation inputs of each bit of which are connected to the outputs of the corresponding discharge of the installation reverse counter and with the corresponding inputs of the decoding unit, the outputs to connected to the inputs of the display, input

25 is connected to the clock input of the first bit of the delay counter 2.

In the known device used three-position switches with the elimination of 30 bounce contacts.

The output of the write pulse generator receives the corresponding contacts of pairs of three-position switches, pulses with a frequency of about 3 Hz. One position of the three-position switch sets the direct counting mode of the corresponding n all higher bits of the reversible counter of the installation, the other position - deduction mode and the third - the code mode when the pulses from the pulse generator do not go to the clock input of the corresponding discharge of the reversible counter of the installation, however the pulses to the clock input of this bit can come from the transfer output of the previous bit, which can correspond either to the transfer signal or to the loan signal depending on and pairs of the position of the previous trehpozitsioiiyh nereklyuchateley.

The latency discharge bits can be constructed for both the addition mode and the subtraction operation. In the first case, in the bits of the counter, the conversion of the binary decimal code 8-4-2-1, coming from the outputs of the bits of the installation counter, into the additional code, in the second case, without this conversion is performed.

Preset of the delay counter bits occurs when a pulse is applied to the loads.

A disadvantage of the known device is low reliability due to the use of mechanical L pairs of three-position switches.

The aim of the invention is to increase the reliability of the device.

This is achieved by the fact that a delay setting device containing an input bus, a load bus, a reset bus, a write pulse generator, an L -digit counter of delays, each bit of which contains a worsion input and setting inputs, a decoding unit, Disnley, N- a bit reversible set counter, each bit of which contains a reset input, a clock input, a control input and a transfer output, N three-position switches and an N-1 OR element, the output of a recording pulse generator is connected to the first contacts of all three positions switches, reset inputs of the installation reversible counter bits are connected to the reset bus, the clock input of each bit of the installation reversible counter, except for the first bit, is connected to the output of the corresponding OR element, the first input of which is connected to the transfer output of the previous bit of the installation reversible counter, the loading bus is connected to the control inputs of the bits of the delay counter, the installation inputs of each discharge are connected to the outputs of the corresponding discharge of the reversible counter of the installation and with the corresponding inputs of the decoding unit, the outputs of which are connected to the inputs of the displace, the input section is connected to the clock input of the first bit of the delay counter, three additional OR elements are added and the installation trigger, the output of which is connected to the inputs of the bits of the reversible counter of the installation, and the inputs are connected to the outputs first and second

additional elements OR whose inputs are connected respectively to the second and third contacts of three-position switches, the second and third contacts of which, except for the first non-switch, are connected to the second and third inputs of the corresponding elements OR, the second and third contacts of the nerve three-position switch are connected to the inputs of the third additional element

OR, the output of which is connected to the clock input of the first discharge of the installation's up / down counter.

The drawing shows a block diagram of the device installation delay.

It includes a generator of 1 write pulses, three-position switches 2-6 with contacts 2 / 1-2 / 3, 3 / 1-3 / 3, 4 / 1-4 / 3, 5 / 1-5 / 3 and 6 / 1- 6/3; elements OR 7-1-7-7; installation trigger 8, bits 9-13 of the installation reversing counter; reset inputs 9-1-13-1, clock inputs 9-2-13-2, control inputs 9-3-13-3 and transfer outputs 9-4-13-4 bits 9-13 of the installation reverse counter; ranks 14-18

delay counter; control inputs 14-1-18-1, respectively, bits 14-18 of the delay counter; clock input 14–2 bit 14 delay counter; decoding unit 19; the display 20, the reset bus 21,

the input bus 22 and the load bus 23.

The output of the generator 1 pulse loading is connected to contacts 2-1-6-1 three-position switches 2-6, contacts 2-2-6-2 and 2-3-6-3 which are connected respectively to the inputs of the element OR 7-6, the first inputs the elements OR 7-1-7-5 and the inputs of the element OR 7-7, the second inputs of the elements OR 7-1-7-5, the third inputs of the elements OR 7-2-7-5 are connected respectively to the outputs of the transfers 9-4-12 -4 bits 9-12, the outputs of the elements OR 7-1-7-5 are connected to clock inputs 9-2-13-2 bits 9-13, inputs 9-1 - 13-1 and 9-3-13- 3 of which are connected respectively with the reset bus 21 and with the output of the installation trigger 8, the inputs of which are connected to the outputs of the elements OR 7-6 and 7-7, the loading bus 23 is connected to the control inputs 14-1 to 18-1 of bits

a delay counter 14-18, the setup inputs of which are connected to the outputs of the corresponding bits 9-13 of the installation reverse counter and with the corresponding inputs of the decoding unit 19,

Claims (2)

the outputs of which are connected to the inputs of the display 20, the input bus 22 is connected to the clock input 14-2 of the discharge 14 of the delay counter. In the device, each of the three-position switches 2-6 (with eliminating contact bounce), having three positions "addition - output of generator 1, is connected respectively to contacts 2-2-6-2," subtraction - output of generator 1 is connected respectively to contacts 2- 3-6-3 and "off" - the output of the generator 1 is not connected to either the 2-2-6-2 contact, or to the 2-3-6-3 contacts. The device works as follows. If any of the three-position switches is in the “add” position, for example, switch 2, then the first impulse of the generator 1 will set the trigger 8 to a position at which the control inputs 9-3-13-3 of discharge bits 9-13 will be an addition resolution potential is applied, and bits 9–13 of the reversible counter of the installation will sum the generator 1 pulses fed to the clock input 9–2 of bit 9. When the switch 2 is switched to the “subtracting” position, the first pulse from the generator 1 will change the state of the trigger 8 and the contents of bits 9-13 of the installation reversible counter will decrease. The control of the contents of bits 9–13 of the installation counter is performed using the display 20. When the bits 9–13 of the installation counter have reached the required value, the switches 2–6 are turned to the off position. The contents of bits 9–13 are rewritten, respectively, into bits 14–18. When a pulse arrives on the load bus 23, a predetermined delay time interval is formed between the start of a series of pulses of the reference frequency received on bus 22 and the moment of irradiation of bits 14–18 of the delay counter ( in the case of a subtracting delay counter). Thus, by reducing the number of mechanical switches by half, compared with the known device, the reliability of the delay setting device increased. Claim device A delay setting device comprising an input bus, a load bus, a reset bus, a write pulse generator, a vV-bit delay counter, each bit of which contains a control input and setup inputs, a decoding unit, a display, an L-bit reversing counter units, each bit of which contains a reset input, a clock input, a control input and a transfer output, L three-position switches and a .V-1 OR element, the output of the write pulse generator is connected to the first contacts of all three-position switches The switches, the reset inputs of the bits of the reversible counter of the installation are connected to the reset bus, the clock input of each discharge of the reversible counter of the installation, except for the first bit, is connected to the output of the corresponding OR element, the first input of which is connected to the output of the previous discharge of the reversible counter. of the installation, the loading bus is connected to the control inputs of the bits of the delay counter, the installation inputs of each discharge are connected to the outputs of the corresponding discharge of the reversible counter of the installation and with The corresponding inputs of the decoding unit, the outputs of which are connected to the inputs of the display, are connected to the clock input of the first bit of the delay counter, characterized in that, in order to increase the number of inputs, three additional OR elements are introduced, and an installation trigger whose output is connected to the control inputs of the bits of the reversible counter of the installation, and the inputs to the outputs of the first and second additional OR elements, whose inputs are connected to the second and third contacts of the three-position, respectively switches, the second and third contacts of which, with the exception of the first switch, are connected to the second and third inputs of the corresponding OR elements, the second and third contacts of the first three-position switch are connected to the inputs of the third additional OR element, the output of which is connected to the clock input of the first discharge of the installation reversible counter. Sources of information taken into account at the time of examination 1. Technical description of the 7D11 digital delay unit from Tektronix, 1976. 2. US patent L 3.764.783, cl. P OZK 21/00, 1975 (prototype). 22 18Z3 0V i. P1 / f u j / f u f | / h / f / u P V nineteen