SU1105822A1 - Cathode-ray ocsillograph - Google Patents

Abstract

ELECTRON-BEAM OSCILLOGRAPH containing an attenuator, the input of which is connected to the signal bus, and the output to the input of the sweep generator and the first input of the second key, the output of which is connected to the input of the vertical deflection amplifier and the input of the first key, and the control input to the output of the first an inverter whose input is connected to the second output of the sweep generator, the first output connected to the input of a horizontal deflection amplifier, the output connected to horizontally deflecting plates of an electron-l A learning tube whose vertically deflecting plates are connected to the output of a vertical deflection amplifier, wherein the output of the first switch is connected to a common length, characterized in that, in order to improve measurement accuracy, it is equipped with a shock excitation generator, a differentiation circuit, a unit for changing and measuring amplitude pulses, BAN and OR elements, the third key and the second inverter, the output of which is connected to the first input of the OR element, and the input - to the output of the differentiating circuit, the second input of the SHSh element and the input the unit changes the measurement of the amplitude of the pulses, connected to the output of the third key, the output of which is connected to the input of the vertical deflection amplifier, and the control input to the output of the OR element and the inverting input of the element. BACKGROUND, the output of which is connected to the control input of the first key, and the non-inverting input is with the second output of the sweep generator and the input of the shock excitation generator, which is connected to the input of the differentiating circuit.

Description

The invention relates to electrical measuring equipment and can be used in the development of a wide-purpose electron beam oscillographs. A cathode ray oscilloscope containing elements of AND, keys, cathode ray tube and a pulse counter G12 is known. A disadvantage of this device is the presence of an additional display error of a constant signal strength resulting from the instability of the gain factor of the vertical deflection. The closest to the invention in its technical essence is an electron-beam oscilloscope containing an attenuator, the input of which is connected to the bus of the signal under study, and the output - to the input of the sweep generator and the first input of the second key, the output of which is connected to the input of the first key, and the control input - with the output of the first inverter, whose input is connected to the second output of the scan generator, the first output connected to the input. The horizontal deflection amplifier, the output connected Our cathode-ray tube, horizontally deflecting plates, the vertically deflecting plates of which are connected to the output of a vertical deflection amplifier, the output of the first key being connected to the community, and the control input to the second output of the scanning generator 2. Disadvantage of this device It is in low accuracy when measuring voltages and time intervals due to parallax, since these values are measured on a slit deposited on a transparent plate located in front of the screen of an electron beam. oh tube. In addition, the introduction of a scale node with backlight elements into the oscilloscope complicates the design of the oscilloscope. The purpose of the invention is to improve the accuracy of measurements of voltages and time intervals. The goal is achieved by the fact that an electron beam oscilloscope containing an attenuator, the input of which is connected to the bus of the signal under study, and the output to the generator 222 ki input and the first input of the second key, the output of which is connected to the vertical amplifier input and the tzerisgo input the key and the control input - with the output of the first inverter, whose input is connected to the second output of the sweep generator, the first output connected to the input of the horizontal deflection amplifier, the output connected to the horizontal deflecting The plates of the electron-beam tube, the vertical deflection plates of which are connected to the output of the vertical deflection amplifier, the output of the first switch connected to the common bus, is equipped with a shock excitation generator, a differentiation circuit, a pulse amplitude measurement and measurement unit, and the third key and the second inBepTopoMj whose output is connected to the first input of the OR element, and the input to the output of the differentiating circuit, the second input of the OR element and the input of the change and amplitude measurement unit pulse connected to the input of the third key, the output of icoToporo is connected to the input of the vertical deflection amplifier, and the control input - to the output of the OR element and inverted input of the BAN element, the output of which is connected to the control input of the first Key, and the non-inverting input - to the second the output of the sweep generator and the input of the shock generator are excited: neither the output of which is connected to the input of the differentiating circuit. The structural electrical circuit of the device is shown in the drawing. The device consists of an attenuator 1, the first inverter 2, the first and second keys 3 and 4, the vertical deflection amplifier 5, the cathode ray tube 6, the horizontal deflection amplifier 7, the sweep generator 8, the BANNER element 9, the shock excitation generator 10, which differentiates circuit 11, unit 12 for changing and measuring the amplitude of the pulses, element 13 OR, the second inverter 14 and the third key 15. The attenuator input 1 is connected to the signal bus, and the output is connected to the input of the sweep generator 8 and the first input of the second key 4, output cat cerned connected to the input

the vertical deflection amplifier 5 and the input of the First key 3, and the control input with the output of the first inverter 2, the input of which is connected to the second output of the sweep generator 8, the first output connected to the input of the horizontal deflection amplifier 7, the output connected to the horizontal deflection plates a ray tube 6 whose vertically deflecting plates are connected to the output of the vertical deflection amplifier 5, the output of the first switch 3 being connected to a common bus.

The output of the second inverter 14 is connected to the first input of the element 13 OR, and the input to the output of the differentiating circuit 11, the second input of the element 13 OR, and the input of the block 12 for changing and measuring the amplitude of pulses, which is connected to the input of the third key 15, the output of which is connected to the input of the third key 5 vertical deviation, and the control input - with the output of the element 13 OR and the inverting input of the element 9 BANGE, the output of which is connected to the control input of the first key 3, and the non-inverting input with the second output of the generator 8 sweep and the input gene generator 10 shock excitation, the output of which is connected to the input of the differentiating circuit 11.

The device works as follows.

During the forward stroke of the sweep, the signal under study from the output of the attenuator 1 through the key 4 opened by the signal from the output of the inverter 2 is fed to the input of the vertical deflection amplifier 5. On the screen of the cathode ray tube 6, the signal under investigation is displayed. During the reverse sweep stroke, the sweep generator 8 generates a rectangular pulse, which, from the output of the sweep generator 8, is fed to the inputs of the inverter 2, the shock excitation generator 10, and the BANNER element 9. This pulse closes through inverter 2 key 4, closes through element 9 BAN key 3, and

Impact stage generator 10 is switched to the generation of rectangular pulses. From the output of the differentiation circuit 11, narrow two-pole pulses are fed to the input of block 12, which allows the amplitude to be varied and measured with a readout element. Since the key 15 is opened by the control input during the operation as positive, negative and negative narrow pulses by the output signals of the OR element 13, two-pole strong pulses through the key 15 are fed to the input of the vertical deflection amplifier 5 and are highlighted on the screen of the cathode ray tube 6 in the form of narrow vertical lines, which are calibration marks. The amplitudes of these pulses, read from the readout element of block 12, determine the voltage value at any point in the waveform relative to the zero potential (abscissa lines that are displayed on the screen of the cathode ray tube 6), and by the number of calibration marks, their Price, determine time parameters of the signal under study. During the operation of the calibration pulses, the key 3 must be open in order not to short-circuit these pulses onto the common bus. For this, the inverting input of the BANCH element 9 receives pulses from the output of element 13 OR, which combines the positive and negative pulses, since the latter change their polarity after passing through the inverter 14. At the moment both positive and negative pulses are prevented from passing an extinguishing pulse of the sweep generator 8 through the element 9 BANKS, at these moments the key 3 remains open.

The device makes it possible to increase the accuracy of measuring voltages and time intervals by using for generating calibration marks pulses impulsively excited during the reverse stroke of a sweep, and reading the magnitude of the voltage from the reading element of the amplitude regulator of these pulses.

Claims (1)

ELECTRON BEAM Oscilloscope containing an attenuator, the input of which is connected to the bus of the signal under study, and the output is connected to the input of the scan generator and the first input of the second key, the output of which is connected to the input of the vertical deviation amplifier and the input of the first key, and the control input is connected to the output of the first inverter the input of which is connected to the second output of the scan generator, the first output connected to the input of the horizontal deflection amplifier, the output connected to the horizontally deflecting plates of the electron beam felling, vertically deflecting plates of which are connected to the output of the amplifier of vertical deviation, and the output of the first key is connected to a common bus, characterized in that, in order to improve the accuracy of measurements, it is equipped with a shock excitation generator, a differentiating circuit, a unit for changing and measuring the pulse amplitude, BAN and OR elements, a third key and a second inverter, the output of which is connected to the first, the input of the OR element, and the input - to the output of the differentiating circuit, the second input of the OR element and the input of the block is changed I b. measuring the amplitude of the pulses, the output connected to the input of the third key, the output of which is connected to the input of the amplifier of the vertical deviation, and the control input to the output of the OR element and the inverting input of the BAN element, the output of which is connected to the control input of the first key, and the non-inverting input to the second output the sweep generator and the input of the shock excitation generator, the output of which is connected to the input of the differentiating circuit. SU .... 1105822 eleven