SU974278A1 - Oscilloscopic meter of pulse train amplitude and time dstortions - Google Patents

Description

one

The invention relates to electrical measuring equipment and can be used in devices that measure distortion using an eye diagram.

A oscillographic pulse amplitude and time distortion meter is known that contains a pseudo-random sequence generator, the output of which is connected to the input link, the output connected to the input of the vertical path, the electron synchronization input connected to the output of synchronization channel 1.

The disadvantages of this device are low noise immunity and measurement accuracy.

The closest to the proposed technical entity is an oscillographic measuring instrument for amplitude and temporal distortions of a pulsed 1K sequence, containing an amplifier, the input of which is connected to the bus of the pulse sequence under investigation, the first output - to the input of the clock extraction unit, and the second output - to the input of the vertical deviation path electron-beam oscilloscope, the external synchronization input of which is connected to the output of a pseudo-random sequence of pulses, the input with zan10 Nogo yield clock extracting unit 2.

However, this device is characterized by low measurement accuracy.

The purpose of the invention is to increase the resistance to premises.

The goal is achieved by the fact that an oscillographic meter of amplitude and time distortion of a pulse sequence, containing an amplifier,

The 20 input of which is connected to the bus of the pulse sequence under investigation, the first output is connected to the input of the clock pulse selection, and the second output is connected to the input of the vertical path:: the deviation of the electron beam hasscillograph, the external synchronization input of which is connected to the output of the pseudo-random generator of the pulse, is supplied a peak detector, a quartz oscillator of pulse signals and a switch, the first input of which is connected to the output of a block for selecting a clock pulse iCOB and the input of a peak detector, the second one od - yield quartz generatoraimpulsnyh signals control input - with the output of the peak detector, and the output - to the input of pseudo-random generators ra poskhshdovatelnosti pulses. The drawing shows a structural electrical circuit of the device. The device consists of an amplifier 1 of a block 2 for extracting clock pulses of an electron-beam oscilloscope 3, a switch f, a peak detector 5, a quartz oscillator 6 of pulse signals, and a generator 7 of a pseudo-random pulse train. The device works as follows. The pulse sequence under study in the form of alternating zeros and ones affects the input of amplifier 1 and from its output goes to the input of an electron-beam oscilloscope 3. Simultaneously amplified by amplifier 1, the pulse sequence is input to the clock extracting unit 2, which forms a square wave signal. The clock pulses, after passing through the switch k, act on the generator 7 of a pseudo-random sequence of pulses, which involves dividing the frequency of the clock pulses with a variable division factor. As a result, the synchronization of the evolution of the electron-beam oscillograph 3 is produced by pulses of a non-periodic sequence. In this case, an eye diagram is observed on the screen of the oscilloscope 3, which is formed by superimposing all the pulses of the periodic sequence under study. In case of a large interference level on. At the output of block 2, the amplitude of the clock pulses at the output of block 2 decreases significantly. At 3toM, the magnitude of the constant voltage at the output of the peak detector 5 decreases, and the switch C disconnects the input of the generator 7 from the output of the block 2 of the clock pulses and connects it to the output of the crystal oscillator 6 pulse signals. Since the frequency of the oscillator 6 is close to the clock frequency of the pulse sequence C being studied, the frequency of the oscillator b is smoothly controlled within small limits), the synchronization of the oscilloscope 3 is restored and its EFFA does not reproduce the head diagram. When the level of interference induced on the pulse sequence being studied decreases, the DC voltage at the peak detector output increases. The switch k disconnects the crystal oscillator 6 from the generator input 7 and connects to the generator 7 input the output of the clock selection unit 2. The device allows to increase the noise immunity, and the measurements using the eye diagram are carried out when the signal amplitude is less than the noise by several times. F. Formula of the Invention The oscillographic amrhythmic and temporal distortion meter of a pulse sequence, containing an amplifier, the input of which is connected to the bus of the pulse sequence under investigation, the first output - to the input of the clock selection unit, and the second output - to the input of the vertical deviation path of the electron-beam oscilloscope, The external synchronization input of which is connected to the output of a pseudo-random pulse sequence generator, which differs (this is so that, in order to increase noise immunity In particular, it is equipped with a peak detector, a quartz oscillator of pulse signals and a switch, the first input of which is connected to the output of the clock extracting unit and the input of the peak detector, the second input to the output of the quartz oscillator of pulse signals, and the control input to the output of the peak detector and the output is with the input of a pseudo-random pulse train. Sources of information taken into account in the examination 1.EDN. October 5, 1980, p. 2 Electricity, 1975, No. b, p. 25-27 (prototype).

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Claims (1)

Oscillographic meter of amplitude and time distortion of the pulse sequence, contents of the amplifier, the input of which is connected ^s to the bus of the studied pulse sequence, the first output is with the input of the clock extraction unit, and the second output is with the input of the vertical deflection channel of the electron beam oscilloscope, external synchronization input which is connected to the output of the generator of a pseudo-random pulse sequence, characterized in that, in order to increase noise immunity, it is equipped with a peak detector, quarts with a variable fission factor of ₄ . As a result, the synchronization of the sweep of the electron beam oscilloscope 3 is performed by pulses of a non-periodic sequence. Thus on the oscilloscope screen 3 is observed _(eye diagram is given, formed by superimposing pulses all investigated periodic sequence. In the case of a large level of interference induced on the investigated communication line, the amplitude of the clock pulses at the output of block 2 is significantly reduced. With e + ohm, the value of the constant voltage pulse generator and switch, the first input of which is connected to the output of the clock extraction unit and the input of the peak detector, the second input - to the output of the quartz pulse generator, the control input - to the output of the peak detector, and the output - the input of the pseudo-random pulse train generator.