SU918861A1 - Electric signal time parameter oscilloscopic meter - Google Patents

Description

  ... The invention relates to electrical measuring technique and can be used to provide high accuracy in oscillographic measurements of signal time parameters at predetermined levels. The closest to the invention in its technical nature is an oscillographic temporal parameter meter for electrical signals, comprising a vertical deflection amplifier, the input of which is connected to the output of the switch, the first output. with vertically deflecting plates of the electron-beam tube, and the second output — with the first input of the second comparator, the second input of which is connected to the output of the second adjustable voltage source, and the output to the input of the first pulse shaper, the first output of which is connected to the first input of the backlight pulse amplifier and the second output is from the input of the sawtooth generator. The output of which is connected to horizontally deflecting plates of the electron beam tube, a modulator connected to the output of the amplifier of the light pulses, the second input connected to the output of the second pulse generator, the second output of which is connected to the first input of the digital time interval meter, and the input to the output of the first comparator The second input of which is connected to the output of the second regulated voltage source, the first input of the switch is connected to the bus of the signal under study, the second input is connected to the second output torogo pulse shaper and the second input of the third comparator - with the output of a third adjustable voltage source famous tONedostatkom oscillographic meter is the low accuracy of measurement caused by the need to align the rectangular pulses was measured emym time invariant. The first is visually on the screen of the CRT, which, moreover, requires a lot of time. The aim of the invention is to improve the accuracy while reducing the measurement time. The goal is achieved by an oscillographic time meter. parameters of electrical signals, containing two comparators, two adjustable voltage sources, a vertical deflection amplifier, in which is connected to the bus of the test signal, the first output is with vertically deflecting plates of the electron beam tpybki, and the second output is with the first input of the second. whose second input is connected to the output of the second adjustable voltage source, and the output to the INPUT of the first pulse shaper, the first output of which is connected to the first input of the backlight amplifier, and the second output - with the input of the sawtooth generator; the output of which is connected to horizontally deflecting plates of a cathode ray tube, a modulator connected to the output of the backlight pulse amplifier, the second input connected to the output of the second pulse body, the second output of which is connected to the first digital input the time interval meter, and the input - with the output of the first comparator whose second input is connected to the output of the second adjustable voltage source, is equipped with a differential level determination unit The inputs of which are connected to the outputs of adjustable voltage sources, and the output with the second input of a digital time interval meter, the third input of which is connected to the third output of the vertical tilt amplifier, the second output of which is connected to the first input of the First Comparator .1 on the electrical circuit meter. The meter consists of a vertical deflection amplifier 1, a cathode ray tube (CRT) 2, an amplifier of 3 light pulses, a first comparator of detector A, a second comparator 5, a sawtooth generator 6, a first driver 7 for pulses of the first adjustable voltage source 8, a second adjustable a voltage source 9, a digital time meter 10, a second pulse shaper 11, and a differential level determination unit 12. The meter works as follows. Investigated signal affects. vertical deflection amplifier 1 and amplified by it. From the output of amplifier 1, the signal arrives at the first input of the second comparator 5, and when the value of this signal reaches the value of the reference voltage of the second regulated source 9, a voltage drop is generated at the output of the second comparator 5, affecting the first pulse shaper 7. The value of the reference level of the second regulated source 9 is set equal to the amplitude value of the signal under investigation at the beginning of the image of the screen on the CRT 2. The output signal of the first pulse generator 7 starts the sawtooth 6 generator 6, which scans the image of the signal under study on the CRT 2. Simultaneously rectangular the pulse from the output of the first driver 7 pulses affects the first input of the amplifier 3 light pulses. The analyzed signal from the output of the amplifier 1 is also fed to the input of the first comparator k. The reference voltage of this comparator (the voltage of the adjustable voltage source 8) is set to the level at which the pulse width is measured. As a result, the second pulse shaper 11 generates a rectangular pulse, which is placed at the input of the amplifier 3 illumination and provides additional illumination above the level of the measured time interval. At the same time, this pulse acts on the input of the digital meter 10 to measure its duration, which is equal to the duration of the measured time interval. The measurement result is induced on the digital indicator of the meter 10, the Difference Level Determining Unit 12 subtracts the voltages of the reference levels of the sources 8 and 9. The difference obtained is proportional to the level at which the pulse duration is measured and displayed on the digital indicator. A digital code, coming from the output of amplifier 1 vertical from cloning (from an attenuator switch) to the input of a digital meter Yu, transmits information about the amount of signal attenuation in the attenuator of amplifier 1.

The proposed oscillographic meter makes it possible to reduce the measurement accuracy of time intervals to 1–1.5% when measured at a level of 0.1–0.9 of the signal amplitude while simultaneously reducing the measurement time.

 , -. Invention Formula

An oscillographic time meter for electrical signals containing two crimpers, two adjustable voltage sources, a vertical deflection amplifier, whose input is connected to the wider signal under study, a first output with vertical deflection plates of a CRT tube, and a second output with the first input of the second comparator The second input of which is connected to the output of the second regulated voltage source, and the output to the input of the first pulse shaper, the first output of which is connected to the first input amplifier momentum G

illumination pulses, and the second output - with the input of the sawtooth generator, the output of which is connected to horizontally deflecting plates of the electron-beam tube, the modulator connected to the output of the amplifier of the illumination pulses, the second input connected to the output of the second pulse shaper, the second output of which is connected to the first input digital time interval meter, and the input is with the output of the first comparator, the second input of which is connected to the output of the second adjustable voltage source, about which there is Then, in order to increase accuracy while reducing the measurement time, it is equipped with a differential level determination unit, the inputs of which are connected to the outputs of adjustable voltage sources, and the output - to the BTS1-OP input of a digital time interval meter, the third input of which is connected to the third output of the vertical amplifier deviation, the second output of which is connected to the first input of the first comparator.

Sources of information taken into account during the examination 1. Technical description, oscilloscope model 790 (with block 7D15). Firm Tektronika. (USA), 1980 Gprotioty).

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Claims (1)

Claim An oscillographic time meter of electrical signals, containing two comparators, two adjustable voltage sources, a vertical deviation amplifier, the input of which is connected to the bus of the signal under study, the first output with vertically deflecting plates of the cathode ray tube, and the second output with the first input of the second comparator, the second input of which connected to the output of the second adjustable-30 voltage source, and the output to the input of the first pulse shaper, the first output of which is connected to the first input the amplifier amplifier has backlight pulses, and the second output is connected to the sawtooth voltage generator, the output of which is connected to horizontally deflecting plates of 5 cathode ray tubes, a modulator connected to the output of the backlight pulse amplifier, the second input connected by the t output of the second pulse shaper, the second 10 output of which connected to the first input of a digital time interval meter, and the input to the output of the first comparator, the second input of which is connected to the output of the second regulated voltage source , characterized in that, in order to improve accuracy while reducing measurement time, it is equipped with a differential level determination unit 20, the inputs of which are connected to the outputs of adjustable voltage sources, and the output is connected to the second input of a digital time interval meter, the third input of which is connected with 25 third output of the vertical deviation amplifier, the second output of which is connected to the first input of the first comparator.