SU892310A1 - Digital indicating device - Google Patents

Description

The invention relates to electrical engineering and is intended for use in digital devices when implementing control of current, voltage, frequency, etc.

Known digital display device that provides dynamic mapping kont- ⁵ roliruemyh quantities and comprising, in particular, individual digital indicator connected to the decoders via the interconnected logic elements are AND, NAND, OR [1].

The disadvantages of the known device are its limited scope and considerable complexity.

The closest technical solution to the invention is a digital indicator device ¹⁵ , made according to the classical method of interrogating readings and containing bitwise memory registers, the outputs of which are connected through the polling unit to the inputs of the decoder, digital indicators, the information inputs of which are connected to the output of the decoder, and the control inputs to the output of the pulse distributor, a pulse generator 2 owls, the output of which is connected to the clock input of the pulse distributor [2],

The disadvantage of this device is also associated with a significant number of components and functional relationships between them.

The aim of the invention is to simplify the measuring device;

This goal is achieved by the fact that in a digital indicator device containing a pulse generator, bitwise memory registers, digital indicators, the information inputs of which are connected to the output of the decoder, and the control inputs are connected to the corresponding outputs of the pulse distributor, a pulse generator is introduced, and the control input of the generator is introduced pulses connected to the output of the pulse generator, the installation input is connected to the installation input of the pulse distributor and the recording inputs of cyclically connected orazryadnyh memory registers, one output connected to the clock pulse input of the distributor, and the other output - to the inputs of bitwise shift

8923GO memory registers, the output of one of which is connected to the decoder input.

The drawing shows a functional diagram of the proposed digital display device.

The device consists of cyclically-connected bitwise registers h “1 _n · memory, decoder 2, digital indicators 3t ~ 3, 4 pulse generator, 5 pulse generator and 6 pulse distributor.

The device works as follows .. After the end of the next counting cycle, the code of the number is written into the memory registers by 11–1 _η · The recording pulse sets the generator of 5 packets of pulses and the distributor of 6 pulses to the initial state. The initial state is characterized by the fact that a signal appears at the output of the 6 pulse distributor, the number of which coincides with the number of the memory register connected to the decoder 2, and there is no signal at the outputs of the generator 5 pulse packets. Thus, a survey of each decade is phased with the operation of the 6 pulse distributor.

Alternate interrogation of decades is carried out as a result of a cyclic shift by one decimal digit of a number recorded in memory registers 11 -1. The shift is carried out by a burst of four pulses generated by the generator 5 by the next clock pulse from the generator 4. Simultaneously with the burst of pulses, the generator 5 generates a pulse, which is fed to the clock input of the pulse distributor 6. The leading edge of this pulse removes the signal from the previous output. Yes, the distributor is 6 pulses, and the trailing edge generates a signal at its next output.

The pulse duration at the input of the distributor of 6 pulses is equal to the duration of the burst of pulses m _p at the output of the generator 5. If we denote the pulse duration at the output of the distributor 6 through m _p , then for the duty cycle Q of the pulses arriving at the control inputs of the digital indicators 3j — 3 _p , it is valid

pT ₀ 'pT ₀ where T _o is the pulse repetition period from the generator 4;

n is the number of decimal places of the displayed number.

Since the switching time of the shift registers, on the basis of which the memory registers can be executed, is much shorter than the polling time of each bit, the condition ^t »Л A will be satisfied

Thus, the duty cycle Q practically does not differ from the duty cycle of pulses in known devices that implement the classical method of polling, and is n

The cyclic interconnection of the bitwise registers 11 -1 of the memory and the use of the generator 5 packs of pulses favorably distinguishes the proposed digital indicator device from the known ones, namely, it allows you to get rid of the use of a special polling unit and, as a result, significantly simplify the overall structural design of the device.

Claims (2)

The invention relates to electrical measuring equipment and is intended for use in digital devices in the implementation of current control, voltage, frequency, etc. A digital indicator device is known that provides a dynamic display of the monitored values and contains, in particular, individual digital indicators connected to the decoder via interconnected logic elements AND, AND-NOT, OR 1 The disadvantages of the known device are its limited scope and considerable complexity. The closest technical solution to the invention is a digital indicator device, made according to the classical method of interrogation of readings and containing memory memory registers, the outputs of which are connected to the decoder inputs through the interrogation unit, digital indicators, whose information inputs are connected to the decoder output, and the control indicators inputs - to the output of the pulse distributor, a pulse generator, the output of which is connected to the pulse input of the pulse distributor 2. The disadvantage of this device is also with a significant number of components and functional linkages therebetween. The purpose of the invention is to simplify the measuring device: The goal is achieved by the fact that a digital indicator device containing a pulse generator, memory memory registers, digital indicators, whose information inputs are connected to the output of the decoder, and the control inputs to the corresponding outputs of the pulse distributor , a pulse burst generator is introduced, the control input of the pulse burst generator is connected to the pulse generator output, the setup input is connected to the setup input distributor vhodalp1 recording pulses and cyclically included dnyh porazr memory registers, one output is coupled to the clock input of the pulse distributor and the other output - with the inputs / schiga iorazr / schyh registers fallen "1ti, one output of which is connected to the input of the decoder. The drawing shows a functional diagram of the proposed digital display device. The device consists of cyclically switched bit registers L-1, - memory, decoder 2, digital indicators 3in 4 pulse generator, generator 5 packs of pulses and distributor 6 pulses. The device works as follows. After the end of the next counting cycle, the number of pulses is written to the memory registers li-1p. At the same time, the write pulse sets in the initial state the generator of 5 pulse bursts and the distributor of 6 pulses. The initial state is characterized by the fact that at the output of the distributor 6 pulses, the number of which coincides with the number of the memory register connected to the decoder 2, a signal appears, and at the outputs of the generator 5 bursts of pulses there is no signal. Thus, the polling of each decade turns out to be phased with the work of the distributor of 6 pulses. An alternate polling of decades is performed by cyclically shifting by one decimal digit of the number recorded in memory regasters. The shift is carried out by a bundle of four pulses produced by the generator 5 according to the next clock pulse from the generator 4. Simultaneously with the pulse packet, the generator 5 generates a pulse that arrives at the clock input of the distributor 6 pulses. The leading edge of this pulse removes the signal from the previous output of the distributor of 6 pulses, and the rear frame generates a signal at its next output. The pulse duration at the input of the distribution of bodies of 6 pulses is equal to the duration of a pack of pulses Tjj at the output of generator 5. If we denote the duration of the pulse at the output of the distributor 6 through g, then for the duty ratio Q of pulses fed to the control inputs of digital indicators 3i-3, lTo pTo where TO is the period of the pulse following from the generator 4; n is the number of decimal places of the displayed number. Since the switching time of the shift registers, on the basis of which the memory registers can be performed, is significantly less than the polling time of each bit, the condition To gn will be fulfilled. Thus, the duty cycle Q practically does not differ from the pulse duty cycle in known devices that implement the class polling method, and makes up a ticking connection between each of the bit registers li -} memory and the use of the generator of 5 packs of pulses favorably distinguishes the proposed digital indicator device from the known Namely, it allows you to get rid of the use of a special polling unit and, as a result, significantly simplify the overall structural design of the device. DETAILED DESCRIPTION OF THE INVENTION A digital indicator device comprising a pulse generator, serial memory registers, digital indicators, the information inputs of which are connected to the output of the decoder, and control inputs C corresponding to the output distributor of the pulse distributor, in order to simplify the generator bursts of pulses, with the control input of the generator of bursts of pulses connected to the output of the pulse generator, the installation input is connected to the installation input of the pulse distributor and the inputs of the pulse are cyclically turned on byte memory registers, one output is connected to the clock input of the pulse distributor, and the other output is connected to the shift inputs of the bit memory registers, the output of one of which is connected to the input of the decoder. Sources of information taken into account in the examination 1. The author's certificate of the USSR N 600391, cl. & 01 D 7/00, 1975. 2. Lerner MI, and others. Digital display. M., Energie, 1970, p. 59. Jf  7  , 7V7 Vi