SU1100570A1 - Stroboscopic oscilloscope amplitude calibrator - Google Patents

Abstract

AMPLITUDE KA.T IBRATOR sampling oscilloscope, calibration soderZhststsy source voltage d.c. whose output is connected to the input control eyugo voltage divider, characterized in that, in order to increase the accuracy of the calibration it is provided with a switching converter and a voltage converter stepwise sawtooth in a sequence of controls, the input of which is connected to the tire of a stepped sawtooth image

Description

This invention relates to electrical measuring technology and can be used in stroboscopic oscilloscopes. The amplitude calibrator is known which contains a source of calibration voltage and an adjustable SI voltage divider. The disadvantage of this device is low calibration accuracy. Closest to the invention. The technical entity is an amplitude calibrator of a stroboscopic oscilloscope, containing a source of a calibration pulse signal and a DC voltage whose output is connected to the input of a controlled voltage divider, the output connected to the inputs of vertical and horizontal deviation tracks C23. A disadvantage of the known device is: low calibration accuracy due to speducleation: calibration error due to low frequency distortion of calibration signals in the vertical deviation path of the stroboscopic oscilloscope and error component due to temperature drift of the zero level of the oscillograph; calibration error due to measurement ambiguity caused by distortions of the flat part of the vertices of the calibration pulses of the ground test component caused by the temperature drift of the zero level of the calibration direction; The purpose of the invention is to improve the accuracy of calibration. This goal is achieved by the fact that the amplitude calibrator of the oscilloscope stroboscopic170, containing a source of calibration voltage of direct current, the output of which is connected to the input of the controlled voltage body, is equipped with a switching voltage converter and a converter of stepwise sawtooth voltage. , the input of which is connected to the mine of the step sawtooth voltage of the stroboscopic sweep, and the output with the control input of the switching transducer voltage guide, whose movable contact is connected to the input bus of the vertical deviation path, the first fixed contact to the output of the controllable voltage divider, and the second fixed contact to the common BUS. The drawing shows the structures on the electrical circuit of the device. The device consists of a dc calibration voltage source 1, a controlled voltage divider 2, a switching voltage converter 3, a 4-step sawtooth-voltage converter into a sequence of control pulses, a 5-step strobe voltage bus and an input path signal vertical deflection. The output of a source of calibration voltage of direct current is connected to the input of a controlled voltage divider 2. The input of the 4-step saw-tooth converter into a sequence of control pulses is connected to the 5-step saw-tooth bus of a stroboscopic sweep, and the output is connected to the control input of the switching voltage converter 3, the movable contact of which is connected to the bus 6 of the vertical deviation tract input signal, the first stationary the contact is with the output of the controlled voltage divider 2, and the second fixed contact is with the common bus. The device works in the following way. From the output of source 1, the calibration voltage of the direct current goes to the input voltage of the controlled voltage divider 2. The calibration voltage level set by the divider 2 is applied to the first fixed contact of the switching converter 3. The control input of the switching converter 3 receives control pulses from the output of the converter 4, as a result of which its moving contact is alternately connected to the first and second fixed contacts. The voltage on the movable contact has the shape of a 7 pseudomeander, the upper level of which corresponds to the set level of the calibration voltage, and the lower level to the zero potential of the Shared Bus. The use of pulses obtained from the steps of the sawtooth voltage sweep as control signals ensures the synchronization of the pseudomeander oscilloscope observed on the screen with the sweep. Since the stroboscopic sweep points are synchronous with the steps of the stepped sawtooth sweep step, then under the condition

the switching process will not be noticeable on the screen of the calibrated strobe oscilloscope. In this case, the operator observes the ideal meander.

To eliminate the temperature error, the calibrator controls are set to the position corresponding to the zero level of the calibration voltage. In this case, in the case of the presence of temperature drift voltage, the oscilloscope displays a pseudomeander on the indicator, the upper level of which corresponds to the value of the temperature-g, th drift, and the lower level - to the instrument case. By adjusting the device, which is removed to the front panel of the device, the operator achieves a combination of the above levels. The absolute error in the calibration of the vertical deviation path of the stroboscopic oscilloscope is determined by the expression

Jjv

where dVyct is the component of the error due to

the accuracy of the calibration voltage source;

op - error due to maximum

oscilloscope sensitivity, beam focusing, subject. opportunities of the operator.

The device makes it possible to increase the accuracy of calibration of vertical paths of stroboscopic oscillographs due to a decrease in the number of components of the error to 1 of the vibration.

Claims (1)

AMPLIFIER CALIBRATOR OF STROBOSCOPIC OSCILLOGRAPH, containing a source of calibration DC voltage, the output of which is connected to the input of a controlled voltage divider, characterized in that, in order to increase the accuracy of calibration, it is equipped with a switching voltage converter and a converter of step sawtooth voltage to the sequence of control impulses, which is connected to the bus of 'stepped sawtooth' voltage of stroboscopic sweep, and the output - with the control input m switching voltage converter, the movable contact of which is connected to a bus input The signal _(Nala vertical deflection path, the first fixed contact - with the output controls a voltage divider, and the second fixed contact - to the common bus _ S.