SU1460704A1 - Method of monitoring the onset of nominal value of generalized duration of pulses of recurrent single-pulse sequence - Google Patents

Abstract

The invention relates to a measurement technique and can be used in adjusting nanosecond pulse generators. The aim of the invention is to increase productivity while simultaneously improving the accuracy of monitoring the establishment of the minimum nominal value of the generalized pulse duration. According to the method, using the frequency meter 1, the calculated critical value of the signal repetition ceriod () of the controlled generator 2 is established, which is related to the nominal value of the generalized duration () by the calculated ratio С T КР ---. The temporal components of the voltage of the direct and inverse signals are selected. Produces an exponential transformation of the voltage of the selected pulses. The mean value of the voltages of the non-linear transformed pulses is measured and compared in modulus, and the adjustment of the pulse duration is stopped when the compared voltages are balanced. The device that implements the rescue contains the first 3 and second 4 voltmeters, capacitors 5 and 6 and resistors 7 and 8. 2 Il. SP

Description

The invention relates to measuring equipment and can be ¹ Call The use when adjusting nanosecond pulse generators.

The purpose of the invention is to increase productivity while improving the accuracy of monitoring the establishment of the nominal value of the generalized pulse duration. ed

Figure 1 shows the timing diagrams illustrating the implementation of the method; in FIG. 2 is a structural diagram of a device for implementing the method.

The device includes a frequency meter 1, ed controlled generator 2, the first 3 and second 4 voltmeters, the first 5 and second 6 capacitors, the first 7 and second 8 resistors.

The direct and inverse outputs of the counter 20 of the generator 2 are connected through the first 5 and second 6 capacitors to the inputs of the first 3 and second 4 voltmeters and to the first terminals of the first 7 and second 8 resistors, the second conclusions of which are connected to a common mud. In addition, the direct output of the generator 2 is connected to the input of the frequency counter 1.

The device can be used with standard voltmeters VZ-49, 30 realizing exponential transformations.

On figa (b) shows a direct (inverse) sequence of rectangular pulses of the same amplitude 35 amplitude at a critical value of the signal repetition period Q _kp = 2, figv, d - positive pulses isolated from the variable components of the voltage of the direct and inverse signals - 4Q catches after the exponential transformation (the dotted lines show the lines of the average voltage value), Figs 1e, e (g, h) show similar time diagrams for Q £ 2 (Q ® 4). 45

To actively control the establishment of the nominal generalized pulse duration of the adjustable generator according to the proposed method, it is necessary to use the frequency meter 1 to establish the calculated critical value of the repetition period of the signal T of the controlled generator 2, associated with the nominal value of the generalized duration (2) by the calculated ed ratio c = · Then, the variables are isolated components of the voltages of the direct and inverse signals, perform the exponential conversion of the voltages of the selected pulses, measuring m and compared modulo average voltage pulses nonlinearly transformed with direct and inverse outputs during the pulse duration adjustment.

The pulse width adjustment is stopped when balancing the compared voltages,

PRI me R. They actively monitor the establishment of the nominal generalized pulse duration in the process of adjusting the generator having direct and inverse outputs of a signal of the same amplitude. For definiteness, they are specified by the rectangular shape of the pulses, with a nominal duration of 10 ns, and with a nominal pulse amplitude of 5V.

The measuring device (figure 2) works as follows.

Set the calculated critical value of the signal repetition period equal to twice the nominal generalized pulse duration, according to the readings of frequency counter 1. Then, the voltages from the direct and inverse outputs of the signal of the controlled generator 2 are measured using voltmeters 3 and 4 with the initial signal duty cycle set to more than 2. After that, at increasing the duration of the pulses during the adjustment process (setting the nominal pulse duration) support the compensation voltage of voltmeters 3 and 4 in such a way that would arrow embedded equilibrium indicators of both voltmeters in coarse mode does not deviate by more than half of the scale (in a more precise but time-consuming balancing is not necessary). When the approximate equality of the voltages is achieved, the compensation of the voltmeters proceeds to a more accurate adjustment (narrow the permissible unbalance zone), and then to the exact voltage measurement at the final stage of adjustment until the voltage is completely balanced at the nominal pulse duration.

Replacing the measurement of the duration with the control of setting the nominal value provides an increase in the performance of the control, since there is no need to accurately balance the voltages with many intermediate values of the pulse duration.

Improving accuracy is achieved using a wider than quadratic exponential transformation.

Claims (1)

Claim A method for controlling the establishment of the nominal value of the generalized pulse duration of a periodic single-pulse sequence, including the establishment of a critical value of the repetition period (T _kg ) of the controlled signal associated with the controlled generalized pulse duration (ΐ) and a priori known critical duty cycle values (Q _kp ) of the signal with the calculated relation ΐ = _} the formation of Ч Кр of two pulse sequences, the first of which is a periodic sequence of unipolar (positive or negative, pulses of the variable component of the voltage of the controlled signal, non-linear transformation of the voltages generated by δ b Se w pulse sequences, measuring and comparing the average voltage values of non-linearly converted pulse sequences, adjusting the time parameters of the monitored signal to balance the compared voltages, characterized in that, in order to increase productivity while increasing the accuracy of control of generators having direct and inverse signal outputs of the same amplitude, before starting the adjustment, the calculated critical value of the signal repetition period is set equal to double the nominal generalized duration of the pulses, and to form a second pulse of a 20-second sequence, pulses of the variable component of the signal voltage from the inverse output of the generator, the same polarity as the selected pulses of the variable 25 component of the voltage of the signal being monitored, use exponential voltage conversion both formed pulsed 30 sequences, and the time parameters are adjusted by adjusting the pulse duration of the controlled signal to balance the compared voltages. I Fie. 1