SU815641A2 - Oscilloscopic meter of electric signal amplitude characteristics - Google Patents

Description

(54) OSCILLOGRAPHIC METER OF AMPLITUDE CHARACTERISTICS OF ELECTRICAL SIGNALS

The invention relates to electrical measuring technology and can be used in the development of high-precision, high-speed oscillographic nanosecond and subnanosecond measuring instruments and testers for testing high-speed integrated circuits. According to the main author. St. No. 599217 is known an oscillographic measuring instrument of amplitude characteristics of electrical signals, containing an oscilloscope, the first input of which is connected to the first input terminal, the first output - to the first input of the zone level forming unit, the second output - to the first input of the i3OH pulse generator, the output of which is connected to the input the oscilloscope illumination and the second input of the zone level forming unit, and the second input - with the third output of the control unit, the first output of which is connected to the third input of the zone level former, the second output - with the second switch control output, and the fourth output - with the control input of the first switch, the output of which is connected to the first output of the coupling capacitor and the second input of the oscilloscope, and the first and second inputs to the first output w of the first and second reference voltage sources, the second outputs which are connected to the inputs of the voltage difference meter, and the inputs are connected to the second input terminal and the second output of the coupling capacitor, and the inputs of the first and second smoothly adjustable delay lines are connected to the synchronization input of the meter, and the outputs with the first and second outputs of the second switch, the output of which is connected to the synchronization input of the oscilloscope, and the first and second outputs of the unit for jointing levels are connected to the inputs of the voltage equality indicator 1}. The purpose of the invention is to improve accuracy. The goal is achieved by the fact that the oscilloscope measuring the amplitude characteristics of electrical signals contains an oscilloscope whose first input is connected to the first input terminal, the first output to the first input of the zone level generator, the second output to the first input of the zone impulse generator, output which is connected to the input of the oscilloscope and the second

the course of the level formation block is it, and the second input is connected to the third output of the control unit, the first output is connected to the third input of the zone level forwarder, the second switch of the second switch, and the fourth output connects to the control input of the first switch, the output of which is connected to the first switch the output of the capacitor and the first and second inputs to the first first and second reference voltage sources, the second outputs of which are connected to the input of the voltage difference meter, and the inputs to the second input terminal and w The output of the coupling capacitor, the inputs of the first and second smoothly adjustable delay lines are connected to the synchronization input of the meter, and the outputs to the first and second outputs of the second switch, the output of which is connected to the synchronization input of the oscilloscope, and the first and second outputs of the zone level shaping unit connected to the inputs of the voltage equality indicator, provided with the third and fourth sources of reference voltage, an additional meter, voltage difference, a third switch, two communication resistors and An additional coupling capacitor, the first output of which is connected to the second input of the oscilloscope, the first output of the second communication resistor and the output of the third switch, and the second output - to the output of the first switch, the first output of the first communication resistor, and the inputs of the third and fourth reference sources voltages whose second outputs are connected to the inputs of an additional voltage difference meter, and the first outputs from the first and second inputs of the third switch, the control input of which is connected to the fifth output of the block systematic way, the second terminals of resistors connected in communication with a first input of the oscilloscope.

The drawing shows a structural electrical circuit of the device.

The device consists of an oscilloscope 1, the first and second sources 2, 3 of the reference voltage, the first switch 4, the voltage difference meter 5, the first and second smoothly controlled lines b and 7 delay, the second switch 8, the unit 9 for forming zone levels, generator 10 levels of zones, equal voltage indicator 11, control unit 12, first coupling capacitor 13, third and fourth sources 14 and 15 of the reference voltage, third switch 16, additional voltage difference meter 17, additional condensate 18 communications, the first and second resistors 19 and 20 communications.

The internal resistance of the reference voltage sources Ri is much less than the resistances of the resistors 19 and 20 of the communication. The communication resistance of the resistor 20 includes the active component of the input resistance of the oscilloscope 1. The resistance values of the resistors 19 and 20 in the range of variation of the levels of the investigated signal Lx are constant. Condensate connections 13 and 18 ensure the transfer of variables in the spectrum of the signal under investigation and to the input of the oscilloscope 1. The values of the communication capacitors 13 and 18 are selected from the conditions of the undistorted transmission of the form of the test signal to the entrance of the oscilloscope 1.

The inclusion of sources 2, 3 and 14, 1 of the reference voltage {E ... E) in the common bus circuit of the second input of the oscilloscope 1 provides, in combination with the capacitors 13 and 18 of the connection, small distortions of the signals under study in the high frequency range due to the small value of the parasitic capacitance at the input of the oscilloscope 1.

The device works in the following way.

The monitored signal is displayed by oscilloscope controls 1 on a CRT screen. The zone label (using block 12) is set to the monitored part of the signal 0. According to the signals from block 12, the sources 2, 3 and 14, 15 of the reference voltage are synchronized. At the same time, the stresses are collapsed from the sources 2, 31 and 14, 15 in such a way that their differences in voltage have different signs.

The resulting shift in the Ux signal under investigation along the axis axis is perceived by the operator as a split of the signal image and the zone label. The change in the values of the voltage differences of the reference sources 2, 3 and 14, 15 is performed in a manner in order to mutually compensate for the mixing of the signal Ux under study along the amplitude axis, occurring from each of the pairs of reference sources 2, 3 and 14, 15

The alignment test is performed visually on the CRT screen or by the coincidence of the zone impulse marks using the indicator 11 of the equality of stresses.

After the coincidence of the zone labels on the signal U under study, at certain values of the differences in the voltages of the reference sources 2, 3 and 14, 15, the active magnitude is calculated with the principle RX s of the output impedance of the source

UilL RV

IA E "1

where de n ed. voltage differences measured by blocks 5 and 17. The sampling frequency of the samples RDS, the measured resistance R is determined in the general case from the ratio where f is the highest frequency in the spectrum of the studied cHraanaUy. After determining the signal zones with practically unchanged values of Rj, the degree of shunting of the source of the investigated signals 11 by the input resistance of the oscilloscope is estimated and a decision is made on whether the measurements are acceptable. With this input resistance of the oscilloscope P R This t L RX P this I L E, I does not cause the image of the investigated signal to shift on the screen of a CRT | L uj, | The compensation of the displacement of the image from (FU does not take place. The measurement of the amplitude of the tested signal and (or the setting of reference levels during time; measurements) were measured as follows. Signal sections between which amplitude measurements are carried out are combined on the screen of a CRT using op Oscilloscope control channels 1, lines 6 and 7 of the delays and adjustment of the reference voltage sources 2, 3 or 14, 15. The relationship between {& E,}, {& and | uUo, I, lAUeal is defined by the following relations I & U 1 -UE I (- 1 | DE, | D ft jhftxI w ftxW JuUoal ° | fi.E2l (l-R, (jRgQ + R, Rgp If the resistance value R is significantly changed, zones (time intervals) are determined, within which the value of -R is practically unchanged (from the point of view of the required measurement accuracy), and then the signal levels are measured in the limit of certain zones with constant values of R, in this case, the desired amplitude is determined as the sum of the individual amplitudes i: x. The division of the total measured signal amplitude and into separate components is also performed in the case. if the device under investigation is critical to the quantities,) / iUxa | (e.g. when the oscilloscope input is connected to the discriminator input with a certain threshold). Fixing the boundaries of zones with constant values of resistances 1 is performed using zone marks or at characteristic points of the waveform, and the generator of 10 pulse markers produces a required number of zone mark pulses. The measurements of the individual amplitudes of the signals of each zone are carried out sequentially between adjacent zones. When using sources 2, 3 and 14, 15 of the reference voltage as a means of influencing the device under study, an analysis is made of the effect of the voltage drop | & Uxif, on the device under study. Oscillo1: 1 af 1 is connected to the discriminator input and the trigger threshold of the latter is within the voltage difference jluUxaii then there is a galvanic connection between the discriminator input and the oscilloscope input 1, where the switching process of the discriminator is investigated. The presence of galvanic coupling is necessary because the capacitance of the second input of the oscilloscope 1 relative to the housing, significantly limits the rate of rise of the voltage drops | iUx, | iAUxa | .o The basic relations (for the case of using the high-resistance input of the oscilloscope 1) are of the form T × CG UUx, (ii Ux2I-H | (- |)., -) y - i Ei () R RjQ, “R , The use of sources 2, 3 and 4, 15 of the reference voltage, as a means of influencing the device under investigation, depends on the ratio R Rgx and becomes ineffective with y RBX. In the study of circuits with periodically varying active resistance by resistance L (in the absence of a source of signals and) on the screen of oscillograph 1, at voltages of reference sources 2, 3 and 14, 15 other than ulevyh, the dependence RX 1 is displayed ({) - Changes

R) at the selected point in this case is similar.

The proposed device provides for the relative amplitude measurements, as well as setting the relative reference levels when conducting temporary measurements. The device allows to increase the accuracy of measurements of the amplitude and temporal characteristics of electrical signals, which provides enhanced functionality of oscillographic meters.

invention formula

Oscillographic measuring instrument of amplitude characteristics of electrical signals according to the author ;. St. No. 599217, about tl and cha. SUS, and with the fact that, in order to increase accuracy, it is equipped with the third and fourth sources of reference voltage, an additional, voltage difference meter.

a third switch, two coupling resistors and an additional coupling capacitor, the first output of which is connected to the second input of the oscilloscope, the first output of the second communication resistor and the output of the third switch, and the second output - to the output of the first switch, the first output of the first communication resistor, and the inputs of the third and fourth source of the reference voltage, the second outputs of which are connected to the inputs of the additional voltage difference meter, and the first outputs with the first and second inputs of the third switch, the input at systematic way of which is connected to said fifth vy5 .hodu control unit, wherein the second terminals of resistors connected in communication with a first input of the oscilloscope.

Sources of information 0 taken into account in the examination

1. USSR author's certificate No. 599217, cl. G 01 R 13/30, 1976 (prototype).

Claims (1)

Claim Oscillographic meter for the amplitude characteristics of electrical signals according to ed. No. 599217, with the exception that, in order to improve accuracy, it is equipped with a third and fourth voltage reference sources, additional voltage difference meter, a third switch, two coupling resistors and an additional coupling capacitor, the first output which is connected to the second input of the oscilloscope, the first output of the second communication resistor and the output of the third switch, and the second output to the output of the first switch, the first output of the first communication resistor, and the inputs of the third and fourth reference sources voltages, the second outputs of which are connected to the inputs of the additional voltage difference meter, and the first outputs with the first and second inputs of the third switch, the control input of which is connected to the fifth output of the control unit, and the second terminals of the communication resistors are connected to the first input of the oscilloscope.