SU411428A1 - - Google Patents

Description

one

The invention relates to the field of digital measurement technology and can be used to measure the temporal characteristics of non-periodic processes, for example, the propagation of a combustion front, pressure drop, temperature, etc.

Measuring the temporal characteristics of such processes is reduced to measuring the intervals between pulses from special sensors, in general, it is not periodic.

Known time interval meters containing a digital indicator, a register counter, connected via a switch to a reference frequency generator and output device, a memory device and a code converter, when measuring a non-periodic pulse sequence, require forming a start pulse before the next measurement cycle.

To expand the functionality and increase the efficiency of measurements, the proposed device is equipped with an address register, which is a binary counter connected at the output to a storage device and code converter, and at the input through a switch to the input device, an address change generator connected through a switch to another input address register and a single-channel converter switch, connected to the converter and a digital display. The drawing shows a block diagram of the described device.

The device contains the address register 1, which is a binary counter, which is made on dynamic triggers with parallel issuance of a number code, memory 2 with a capacity of 256 16-bit binary numbers, register-counter 3 pulses of the reference frequency with parallel sequential writing and parallel output of information, made on dynamic triggers, generator 4 pulses of the reference frequency, converter 5 codes of numbers from the binary number system to decimal, made on dynamic triggers, to switch 6, made on dynamic triggers, digital indicator 7,

made on digital gas discharge indicator lamps, and the address-changing generator 8, which is a multivibrator with an adjustable pulse repetition period.

The address register 1 and the register counter 3 through the switch 9 are applied to measuring pulses, the time intervals between which must be measured. In addition, the register counter 3 through switch 9

reference frequency pulses are sent from geyerator 4. Number codes from address register 1 and counter register 3 are fed to memory 2 and to converter 5. Number code from address register 1 indicates the address (number) of the memory cell 2 to which it should be written the code of the number from the register-counter 3. The digital indicator 7 serves to visually indicate the numbers and values of the measured time intervals. The address-change generator 8 serves to set and change the contents of the address register when indicating the values of measured time intervals. Indication of the values of time intervals directly in the measurement process is impossible because of their quick change. Therefore, a memory device is inserted into the installation, and the installation has two modes of operation: “Measurement and“ Display. In the Measurement mode (switch 9 is set to the lower position in the diagram), the non-periodic pulse sequence is applied to address register 1 and register-counter 3. The first pulse sets address to address register 1 equal to 1, and resets register-counter 3 to zero. -the counter 3 produces the counting of the pulses of the reference frequency from the generator 4. The contents of the register-counter 3 are continuously recorded in the cell of the storage device 2 with the address equal to 1. The second pulse of the sequence causes the addition of This unit is the address register of address 1 and resets the register counter to zero. The address register 1 is set to the address of the cell equal to 2. The register-counter 3 again counts the pulses of the reference frequency, but its contents are written into the memory cell with the address equal to HbiiM 2. In the cell with address 1 there remains a code of a number equal to the register- counter 3 at the time of arrival of the second pulse of the sequence. This number expresses the duration of the time interval between the first and second impulses. The third pulse of the sequence sets in the address register 1 an address equal to 3, and in the cell of the memory 2 with address 2 there remains a number code expressing the duration of the time interval between the second and third pulse, etc. Thus, the counter-register 3 together with the generator 4 works as a time-pulse converter. After the end of the sequence of pulses, the installation is switched to the "Display" mode (switch 9 is set to the upward position). Using the address-change generator 8, the initial content of the address register 1 (the source address) is in the range from 0 to 255, and the rate of change of the address that is most acceptable to the operator is set. In this case, all the cells of the memory device are sequentially recited, in which codes of numbers are written, expressing the time intervals between pulses in a non-periodic sequence. The code of the number from the cell being scanned is provided to register-counter 3. The codes of the address of the cell and the number contained in the cell are from the register of address 1 and the register-counter 3, respectively, to the converter 5, which converts the binary codes to binary-decimal. Binary-decimal codes are fed to a digital indicator 7 for visual indication. Indications are produced in decimal notation. In order to reduce the equipment, the conversion of the codes by the converter 5 is performed alternately. The conversion order is determined by switch 6. Switch 6 connects converter 5 to address register I or register counter 3 with a frequency of 5 Hz, which eliminates the flashing of numbers on the Cyphrases indicator 1. At the same time, switch 6 connects the corresponding display of digital indicator 7 to converter 5. A device for measuring time intervals in non-periodic sequences of pulses, comprising a digital indicator, a register-counter, connected through a switch to a reference generator Frequency and output device, memory device and code converter, characterized by the fact that, in order to expand the functionality and increase measurement efficiency, it is equipped with an address register, which is a binary counter connected at the output to the memory device and code converter, and at the input, through a switch with an input device, a change of address generator connected through a switch to another input of the address register and a single-channel converter switch, nym with the transmitter and digital display.