SU418803A1 - STROBOSCOPIC OSCILLOGRAPH - Google Patents

Description

one

This invention relates to the field of radio metering technology.

According to the main author. St. LI 337722 is well known for a stroboscopic oscillating graph containing a system for automatically shifting gating pulses, a vertical deflection amplifier, an electron-beam tube, a sweep generator, a synchronizer, a vertical scale control system consisting of a slip circuit, a decoding matrix and an attenuator, as well as a reset system including a differentiating circuit, trigger, selector, comparison circuit and counting pulse generator.

However, in such an oscilloscope, the vertical size of the oscillographic image depends on the time and constant components of the studied signals. At the same time, the dynamic range of the studied signals (variable component) is reduced, and the normalization of the vertical size of the oscillographic image is also disturbed, since the sensitivity of the oscilloscope is set according to the condition

and with

where a is the set sensitivity of the oscilloscope, Uc is the variable component of the signal, Uc is the constant component of the signal, / - is the specified normalized size of the oscillographic image.

The purpose of the invention is to increase the sensitivity of the oscilloscope. To this end, the proposed oscilloscope provides a device for compensating a DC component of the measured signal containing a mixer, a series-connected DC amplifier, an adder, filters and an indicator, a series-connected phase shifter and a time-amplifier, the output of which is connected to one of the inputs adder. Moreover, the first input of the mixer is connected to the inputs of the DC amplifier and phase shifter, the second input is connected to the filter output, and the output is connected to the input of the stroboscopic oscilloscope, the gating pulse generator of which is connected to the third input of the mixer.

The invention is illustrated in the drawing, wherein: 1 is a constant-frequency device in a stroboscopic oscilloscope, 2 is a mixer, 3 is an amplifier

direct current, 4 - phase shifter, 5 - stroboscopic oscilloscope, b - amplifier of alternating current, 7 - adder, 8 - low-pass filter and 9 - switch. The analyzed signal is fed in parallel to the mixer 2, the DC amplifier 3 and the phase shifter 4. The output of the mixer 2

connected to a stroboscopic oscilloscope 5, from which strobe pulses come to the mixer.

The load resistance of the alternating current of amplifier 3 is zero, with the result that at its output a constant voltage is obtained, mainly depending on the polarity of the constant component of the signal under study. Phaser 4 turns the phase of the signal under study 180 °, which from the output of the latter goes to the amplifier of non-temporal current 6. The transfer coefficient of amplifier 3 is equal to the transfer ratio of nodes 4 and 6. The output constant voltage of amplifier 3, depending on the magnitude and number is constant the component of the signal under study, and the output signal of the amplifier 6 {amplified variable component of the signal under study with the opposite phase) goes to the adder 7, and from its output through the filter 8 to the mixer 2. The size of the sigpal at the output f Filter 8 depends only on the magnitude and polarity of the constant component of the signal under study and does not depend on the size and polarity of the variable component of the signal under study. The output signal of filter 8 sets the working point of the mixer (offset) so that the “strobe line” on the CRT screen of the stroboscopic oscilloscope is in the same place and is shifted by the constant component of the signal under study.

The indicator 9, mounted on the device and attached to itself by a DC voltmeter connected in a bridge circuit, records the value of the polarity of the constant component of the signal under study.

Subject invention

Stroboscopic oscilloscope, by author. swith No. 337722, characterized in that, in order to increase sensitivity, it is provided with a device for compensating a constant component of a measured signal containing a mixer, a series-connected DC amplifier, an adder, a filter, an indicator, a series-connected phase shifter and an AC amplifier, the output of which is connected to one of the inputs of the adder; moreover, the first input of which is connected to one of the inputs of the adder; the first input of the mixer is connected to the inputs of the DC amplifier and the phase shifter, the second input is connected to the output of the filter, and the output is connected to the input of a stroboscopic oscilloscope, the gating emulsion generator of which is connected

to the third entrance of the mixer.