SU983549A1 - Cathode ray oscilloscope - Google Patents

Description

{5) ELECTRON BEAM OSCILLOGRAPH

one

The invention relates to electrical measuring technique and can be used in the development of oscillographic time interval meters.

A known electron beam oscilloscope contains a vertical beam deflection amplifier, a clock generator, a sweep generator, a switch, a beam horizontal deflection amplifier, a brightness control unit, an electron beam tube, a GH and a sweep calibration unit.

The disadvantage of this device is the significant measurement error of time intervals and instantaneous values of the voltages of the studied signals.

This disadvantage is caused by the limited bandwidth of the sweep amplifier. The closest to the invention in its technical essence is an electron beam oscilloscope containing a swept saw voltage generator, the first input of which is connected to the output of the sync pulse generator, the second input to the first output of the switch, the first output - with the input of the brightness control unit, and the second output - with the first input of the horizontal deflection amplifier, the output connected to the horizontal input for the declination of a cathode ray tube whose brightness control input is connected to the output of the brightness control unit, and the vertical deflection input to the output of the vertical deflection amplifier, the first input of which is connected to the output of the deflection coefficient calibration unit, and the second input to the tire of the signal under study, and a highlight ki, and the input of the sync pulse generator is connected to the bus of the signal under study 23.

A disadvantage of this device is the reduced accuracy of measuring time intervals due to the limited bandwidth of the voltage sweep amplifier

The aim of the invention is to improve the accuracy of measuring time

, intervals by providing correction of the amplitude-frequency and transient characteristics of the amplifier horizontal deviation.

This goal is achieved by the fact that an electron-beam oscilloscope containing a rammer sawtooth voltage generator, the first input of which is connected to a clock generator, is connected to the first output of the switch, the first output to the input of the brightness control unit, and the second output to the first input of the horizontal amplifier deviation, the output connected to the input of the horizontal deflection of the cathode-ray tube, the brightness control input of which is connected to the output of the brightness control unit, and the vertical input is rejected and - with the output of the vertical deflection amplifier, the first input of which is connected to the output of the calibration deviation calibration unit's house, and the second input with the bus of the signal under study, is equipped with a variable delayed counting unit and a variable-value reactive element unit whose input is connected to the second the output of the switch, and the output is with the second input of the horizontal deflection amplifier, the output of the block of adjustable and counting delay is connected to the input of the sync pulse generator, and the input with the bus is investigated signal

The drawing shows a structural electrical circuit of the device.

The device consists of a deflection coefficient calibration unit 1, a vertical deflection amplifier 2, a switch 3, a reactive element block k, with variable parameters, an adjustable and counted delay unit 5, a synchroimizer 6% of the generator, a 7 sweep voltage generator, a horizontal amplifier 8 deviation of the cathode ray tube (ELT) 9 and the brightness control unit 10.

The device operates as follows isoM. The signal under study simultaneously arrives at the input of amplifier 2 of the vertical beam deflection and of the delay unit 5. The amplifier 2 provides the deflection of the beam by the signal under study by the magnitude of the working field 9ЛТ 9. In block 5 of the delay, the required delay of the signal under study is set, which provides a shift in the start of the sweep relative to the signal by an amount close to the signal repetition period. The delayed signal is fed to the input of the imaging unit 6, which generates the clock pulses that trigger the generator 7 The generator 7 generates linearly variable (sawtooth 7 voltage and synchronous square impulses received through the bone control unit 10 to the control input of the CRT 9o 9 -growth of the sawtooth voltage and with the help of the reactive elements block t the magnitude of the gain of the amplifier B of the horizontal deflection of the beam They are designed to compensate for the decrease in the amplitude of the sawtooth voltage due to the final speed of the amplifier (i.e. so that the oscilloscope is calibrated at two extreme points on the horizontal scale).

The magnitude of the correction (gain) gain is determined from the expression: Tfc

DK - j5 (.l :), (1) d - t-7d (1-1g-t / 4)

where K is the gain without

accounting correction; mTGD - equivalent to constant

time amplifier; T is the duration of the forward stroke of the sawtooth voltage. The measurement error of the time intervals is equal to:

, t

-

f - 1X

...,

Ul- (i-e- Me- 3, (2)

Claims (2)

where ifc | the position of the measured time interval relative to the start of the sweep; (- the duration of the measured time interval. The error cG is zero when the -b position is equal to: 4.0 - r.jbel | q, i; The scale of reference of block 5 is calibrated so that it indicates the position of the measured time interval corresponding to The proposed device allows to increase the accuracy of measuring the time intervals between the pulses of the signal under investigation Claims of the invention An electron-beam oscilloscope containing a sawtooth voltage sweep generator, the first input of which is connected to the output sync pulse generator, the second input to the first output of the switch, the first output to the input of the brightness control unit, and the second output to the first input of the horizontal deflection amplifier, the output connected to the horizontal deflection of the cathode ray tube, the input of which is connected to control of brightness, and the input BepTjj .., Y and f - "- 7 I I $ its deviation is from the output of the vertical deviation amplifier, the first input of which is connected to the output of the deviation coefficient calibration unit, and the second input to the signal bus under test, characterized in that, in order to increase the exact time interval measurement by providing amplitude correction frequency and transient characteristics of a horizontal deflection amplifier, - it is equipped with a block of adjustable and countable delay and a block of reactive elements with variable parameters, the input of which is connected to the second the output of the switch, and the output with the second input of the horizontal deflection amplifier, the output of the adjustable and counting delay unit connected to the input of the clock generator, and the input with the bus of the signal under study. Sources of information taken into account in the examination 1, Technical description oscilloscope type C1-71, USSR, 1980. 2. Technical description of the oscilloscope type C1-E9, USSR, 1980 (prototype).