SU439759A1 - Strobe Oscilloscope - Google Patents

Description

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The invention relates to radio metering technology.

Known stroboskonichesky oscilloscope comprising a stroboscopic converter with the circuit ZBTOsdviga pulses, controlled by the attenuator, amplifier vertical tract elektrotnoluchevuyu tube block forming scale, the reset circuit si1nhr01nizator, sweep generator unit generating a voltage proportional-tional d.c. of the signal, decoding matrix, equation schemes, co: Muted trigger, pulse count generator and differentiating circuit.

A disadvantage of the known device is the violation of the automatic installation of the scale in the study of signals with a constant voltage.

The purpose of the invention is to introduce an automatic image scale setting in the study of a signal with a constant component.

This is achieved by introducing an additional controllable divider into the described oscilloscope, one input of which is connected to a voltage shaping unit proportional to the constant component of the signal under study, and the second input to the output of the decoding matrix, the outputs of the additional divider being connected to the comparison circuit.

The drawing shows the block diagram of the described oscilloscope.

The oscilloscope contains a stroboscopic transducer 1 with a strobe pulse auto-shift circuit, an attenuator 2, a vertical channel amplifier 3, an electron-beam tube 4, a comparison circuit 5, a generator 6

counting pulses, a counter 7, a decoding matrix 8, a comparison circuit 9, a differentiating circuit 10, a switching trigger 11, a key 12, a reset generator 13, a constant voltage shaping unit 14, an additional controlled attenuator 15, a sweep generator 16 and a synchronizer 17.

The oscilloscope works as follows.

After being transformed in a stroboscopic converter, the signal under study is fed through an electrically controlled attenuator and an amplifier of vertical kiaal to the electron beam tube. A comparison circuit 5 is connected to the attenuator output,

serially connected to a counting pulse generator, a counter, and a decoding matrix. This is a vertical scale control system with increasing amplitude of the signal under study. A system consisting of a comparison circuit 9, a differentiating circuit 10, a switching trigger 11, a key 12 and a reset generator 13 is used to adjust the vertical scale with decreasing amplitude from tala. The trigger levels of the comparison circuits with a CONSTANT component of the input signal equal to zero (or signal amplitude equal to zero), respectively, are Uoi and Uo2, and t / oi is {/ o2 D +, where Af) is the amplitude step of the output signal amplitude attenuator, b (7 is the error of normalization. The response threshold UQ of the comparison circuit is 5 and the vertical scale of the oscillographic image with the amplitude of the signal (without a constant component) close to it). The output of the attenuator is between t / 02 and t / oi, and the vertical scale of the oscillographic image is a constant value (in the case of the signal under study without a constant component). In the case where t / c L / co +, where t / c is the amplitude of the signal, f / co is the amplitude of the constant component, the voltage of the variable component at the output of the attenuator after the ravio control process is Lc, the amplitude of the entire signal

   -Ken -Jaat t / 02, where LSP

and / Sat are the transmission coefficients of the stroboscopic converter and attenuator, respectively. At the same time, the normalization of the vertical scale of the oscillographic image (the variable component of the signal) is violated, since UQI / c UQ- is required for normalization, and only U. ,, is provided and the reset circuit does not work.

To eliminate this, designate a constant voltage shaping unit proportional to a constant component of the signal under study. This voltage passes through a control divider, the transmission coefficient of which depends on the output voltage of the decoding matrix, which also controls the transmission coefficient of the attenuator. In the initial state / Sat 1 And

(cn. When the Uc-Lco + + signal arrives, the response levels of the comparison circuits 5 and 9 will be equal to:

{Voo1 01 + oCh Uoz + t / co Ken If (t / co + f / c) +, TO

the comparison circuit 5 and the attenuator transmitting coefficients and dividers become, / Csp- This i / co Lat Xp (+) decreases by the value of Af /, and the response thresholds of the comparison circuits 5 and 9, which become equal

and, t / o, -I- f / co Xd, UoZ + U ,, - K,

respectively.

The adjustment process lasts as long as the voltage at the output of the attenuator becomes less than the UQI level. To maintain the ratio between the variable and the: cost component after normalization. CII requires that f / cn sp.

Thus, the trigger levels of the comparison circuits 5 and 9 will always be set relative to the constant component level, regardless of the attenuation of the attenuator, and the oscilloscope screen will show only the normalized image of the variable component (pulse).

Information about the magnitude and fullness of the constant component of the signal under investigation can be obtained by measuring the output voltage of the OP |

Sweep generator 16 and synchronizer 17 perform functions known in the stroboscopic oscilloscope.

Subject invention

Stroboscopic oscilloscope, containing. ROS Bosko1PIC converter with strobe pulse autoshift circuit, controlled attenuator, vertical path amplifier, electron beam tube, scale control unit, reset circuit, synchronizer, sweep generator, voltage shaping unit proportional to the constant component of the signal under study, decoder matrix, decoder matrix, decoder matrix, voltage shaping unit, proportional to the constant component of the test signal, decoding matrix, decoder matrix, voltage shaping unit, proportional to the constant component of the test signal, decoding matrix, decoder matrix, voltage shaping unit , switching trigger, pulse counting generator and differentiating circuit, characterized in that, for the purpose of automatic installation of the amplitude scale of the image When studying a signal with a constant component, an additional

a controlled divider, one input of which is connected to a voltage shaping unit proportional to the constant component of the signal under study, and the second input to the output of the decoding matrix,

the outputs of the additional divider are connected to the comparison circuits.