SU426195A1 - STROBOSCOPIC OSCILLOGRAPH - Google Patents

Description

one

This invention relates to a radio measuring technique.

Known stroboscopic oscilloscopes containing a cathode-ray tube (CRT) stroboscopic converter connected between vertical and horizontal deflection amplifiers, a comparison circuit and a synchronizer do not automatically obtain a normalized, predetermined horizontal scale image of repeated input signals on a CRT screen and a digital count of their duration .

The purpose of the invention is to improve the measurement accuracy.

For this, the proposed oscilloscope is equipped with an amplitude normalizer connected between the output of the stroboscopic converter and the input of the vertical deflection amplifier, a time scale sensor connected to the second input of the stroboscopic converter and the input of the switch through two series-connected selectors, one of which is connected to the switch output and the other - with the integrator output, as well as with the output of the amplitude normalizer and the counter input through the other two successively connected selectors One of which is connected to the output of the counter and after the scoreboard - to another input of the switch

and the integrator input and simultaneously connected through an additional selector to one of the outputs of the sensor time intervals. The output of the additional selector is connected simultaneously with the second input of the scoreboard and the integrator, equipped with two nilo-generator voltage generators, one of which is connected between the synchronizer and the compensator through a comparison circuit, one output of which is connected to the stroboscopic converter, and the second generator is connected between the second output of the comparison circuit and the second the input of the first sawtooth generator and the compensator through the read signal control circuit. The first two outputs of the second sawtooth voltage generator are connected to a time scale sensor, and the second two outputs are connected simultaneously with a switch and a horizontal deflection amplifier, the second counter output is connected to a read step control circuit.

Pa drawing shows a block diagram of a stroboscopic oscilloscope.

The scheme contains a stroboscopic converter 1, a normalizer 2 pulse amplitudes, a vertical deflection amplifier 3, an electron beam tube 4, a time scale sensor 5, selectors 6, 7, 8, 9, 10, switch 11, counter 12, compensator

13, a comparison circuit 14, a synchronizer 15, sawtooth voltage generators 16, 17, a horizontal deflection amplifier 18, a read step control circuit 19, a .20 board and an integrator 21.

The signal under study after conversion in the stroboscopic converter 1 is fed through the amplitude normalizer 2 and the vertical deflection amplifier 3 on the CRT 4. A time scale sensor 5 is connected to the output of the amplitude normalizer. The time scale sensor is a device, a trace w; it is beyond the horizontal size of the oscillographic image, and outputs control pulses to the blocking circuit consisting of selectors 6, 7 and integrator 21 in the case that the horizontal size of the oscillographic image does not match with a given.

In the case when, the output pulses of the sensor 5 through open selectors 6 and 7 arrive at the switch 11, which at the end of the conversion cycle (sweep cycle) resets the readings of the counter 12 in the reading step control circuit 19 of the stroboscopic converter 1, sets the calibration read step to equal to the calibration conversion cycle, closes the selector 6 and opens the selector 8. At the same time, from the output of the sensor 5 through the open selectors 8 and 9, the counter 12 receives the number

the number of pulses is dr, where t is the duration of the pulse under study.

The digital indicator of the counter 12 shows the duration of the signal under study. At the end of the calibration conversion cycle, the read step control circuit associated with the counter 12 establishes such a read step so that the condition

N.N, N ,,

where A / 1 is the set reading pin; NO is the number of pulses counted by the counter located in sensor 5; Alo is the tolerance from NQ.

In addition, at the end of the conversion calibration cycle, using a compensator 13 in the X path of the stroboscopic oscilloscope, such a value is established so that the beginning of the signal conversion process starts with the start of the sweep voltage. This is accomplished by adjusting the level of operation of the comparison circuit 14 located in the strobe pulses auto-shift system, performing strobe pulses auto-shift relative to the signal.

At the end of the conversion calibration cycle, the switch 11 switches the conversion operation cycle again, which lasts as long as

 +.

The synchronizer 15, the fast sawtooth voltage generator 16, the step sawtooth voltage generator 17 and the horizontal deflection amplifier 18 perform 5 functions as usual in the stroboscopic oscilloscope.

In the case when the duration of the impulse under study is greater than 41 "ax or less" "" ", the process of normalization of the horizontal size of the oscillographic image is not carried out. In this case, the device would work all the time in the search mode, i.e., one conversion cycle occurred during the calibration cycle, the other — during the operating cycle, etc.

 To eliminate this direct and / and max and the maximum allowable readings of the counter 12 from its decoder for digital indication, to the selectors 6, 9 and the warning board 20, intended to warn that the duration of the signals under investigation is beyond the specified measuring limits of the device, a ban signal is received. At the same time selectors 6, 9 and

10 is closed, resulting in pulses. control to the switch does not pass, which would switch the calibration conversion cycle. The light panel 20 from the sensor 5 receives control pulses and it shines with a specific record, for example, 4 41 ° ax cMMutator control pulses are received only (at the present position through the panel 20) when it becomes n 4g max (their duration changes log 5 de device).

Similarly, the device works in the case when 41 n "and" - Then from the time sensor through the open selector 10 on the board 20 and the integrator 21 receives control pulses

0 informing that and / s „„. In this case, a record is ignited on the display 20, for example, 1.41 in 2, the integrator 21 closes the selector 7 when several consecutive pulses arrive at its input, and the control pulses do not arrive at the switch 11. This mode is stopped when (impuls manage on the switch

11 comes from the scoreboard 20 only in the event that Q if it no longer receives impulses

from sensor 5).

Subject invention

A stroboscopic oscilloscope containing a stroboscopic transducer, an electron-beam tube connected between amplifiers of vertical and horizontal deflection, a comparison circuit and a synchronizer, characterized in that, in order to increase the measurement accuracy, it is equipped with an amplitude normalizer connected between the output of the stroboscopic transducer and the input of a vertical amplifier the time scale sensor associated with the second input of the stroboscopic SCOR converter and the input of the switch through the three successively connected selectors, one of which is connected to the switch output, and the other to the integrator's output, as well as the output of the amplitude normalizer and the counter input through two other successively connected selectors, one of which is connected to the counter output and another input of the switch and the input of the integrator and at the same time is connected via an additional selector to one of the outputs of the time interval sensor, the output of the additional selector being simultaneously connected to the second input lo and integrator, provided with two sawtooth generators, one of which

connected between the synchronizer and the compensator through the comparison circuit, one output of which is connected to the stroboscopic converter, and the second generator is connected between the second output of the comparison circuit and the second input of the first sawtooth voltage generator and compensator through the read signal control circuit, the first two outputs of the second sawtooth generator are connected to a time scale sensor, and the second two outputs are connected simultaneously to a switch and a horizontal deflection amplifier, Ora Single Output COUNT is coupled to control circuit reading step.