SU460503A1 - Electronic oscilloscope - Google Patents

Description

This invention relates to electrical measuring technology.

Electro-oscilloscopes are known that contain amplifiers for horizontal and vertical deviations, the input signal terminals of which are connected to the signal source, and the output signal terminals are connected to the deflection system of the electro-ray tube.

However, measuring the coordinates of characteristic points of Lissajous figures or the hysteresis tool on such oscilloscopes does not provide the necessary accuracy due to the fact that in each particular case it is necessary to determine the geometric center of the figure and align it with the center of the grid of the screen oscilloscope.

A proposed oscilloscope contains a recurring device, two coincidence circuits and two key elements, the symmetric outputs of the counter device being connected to the key elements through the coincidence circuits; the output of the first key element is connected in parallel to the output signal terminals of the horizontal deflection amplifier, the output of the second key element is connected to the output signal terminals of the amplifiers of the vertical displacement bodies, and

The input of the counting device is connected to one of the input signal terminals.

Such a construction of the device makes it possible to improve the accuracy of measurement of the characteristics of the processes observed in the rectangular axes of coordinates, at the beginning of which the center of the measured figure is attached.

The drawing shows the described oscilloscope containing amplifiers 1 and 2 of horizontal and vertical deviations, respectively, and the electron-beam tube 3. Amplifier I has 4.5 input and 6-7 output signal terminals, and 2 has input 8-9 and output 10 11 signal clips. The output signal clips of the b-7 and 10-11 amplifiers 1, 2 are connected to the deflection system of the cathode ray tube 3, and the input sigal clips 4-5, 8-9 are connected to the signal sources 12-13. In parallel with the output signal terminals 6-7, 10-11 of amplifiers 1, 2, key elements 14, 15 are connected, which are associated with coincidence circuits 16, 17. The latter switches to the balanced outputs 18-20 and 21-23, respectively, of the counting device 24. Input and recalculated The device is connected to the input signal terminals 4-5 of the horizontal deflection amplifier.

The oscilloscope works as follows.

Signals from signal sources 12 and 13 are received iia input signal terminals 4-5 and 8-9 amplifiers of horizontal and vertical deviations. The amplified signals from the outputs of 6-7 n 10-11 amplifiers are put on the deflection system of the cathode ray tube 3. In this case, the characteristic of the process under study is displayed on the oscilloscope screen.

At the same time, the signal from the signal source 12 arrives at the input of a counting device 24 consisting of several series-connected flip-flops. As a result, at the symmetric outputs 18-20 and 21-23 of the scaling device, but there are heteropolar rectangular impulses that are fed to the inputs of the coincidence circuits 16, 17, controlling the key elements 14, 15.

At the time when all outputs 21–23 of the off-design device have negative polarity pulses, a coincidence circuit 17 is triggered, and a negative pulse arrives from its output to the key element 15, the duration of which is equal to the period of the signal that connects to the recalculated device.

At the next point in time, all outputs 18-20 of the recalculation device will receive pulses of positive polarity, as a result of which the coincidence circuit 16 is triggered, and the input of the key element 14 receives a positive impulse, the duration of which is also equal to the period of the input signal of the recaller 24.

Acting one after another, the different-field impulses cause sequential operation of key elements 14, 15, which for short periods of time short-circuit the output signal terminals 6-7, 10-11 of amplifiers of horizontal and vertical deviations, with a frequency lower than the frequency of the input signal of the counting device 24.

When the output signal clips 10-11 of the vertical deflection amplifier on the oscilloscope screen are shorted by a signal to the input signal clips 4-5 from the signal source 12, an abscissa axis is formed. When the output signal terminals 6-7 of the horizontal deflection amplifier 1 on the oscilloscope screen are shorted by a signal to the input signal terminals 8-9 from the signal source 13, the axis of ordinates is formed.

As a result, on the screen of an electron-beam oscilloscope, the characteristic of the process under study is depicted in rectangular electric axes of coordinates, rigidly attached to the geometric center of the figure.

Subject invention

An electronic oscilloscope containing amplifiers of horizontal and vertical deviations, the input signal clips of which are connected to a signal source, and the output signal clips are connected to a deflection system of a cathode ray tube, characterized in that, in order to improve the accuracy of measurement of the characteristics of the processes observed in the angle axis x coordinates, it is equipped with a scaling device, two coincidence circuits and two key elements, and the symmetric outputs of the scaling device through the circuits tim associated with key elements, the output of the first key elemepta connected in parallel to the signal output terminals of the horizontal deflection amplifier, the output of the second key elemepta connected to the signal output terminals of the vertical deflection amplifier, a scaler input connected to one of input signal terminals.

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