SU731399A1 - Meter of integral coeffiecient of the second-type pulses shape - Google Patents

Description

The invention relates to electrical measuring equipment and can be used in Olya installations for assessing the quality of multichannel long-distance communication using a pulse code module. The measured coefficient characterizes the ratios in which the front and decay durations and the base duration of the studied pulses are found under the condition of a large irregularity and variety of forms of the latter. The known meter of the integral pulse shape factor, which contains the integral transducer w, the processing unit of the conversion results and the display unit 1 The disadvantage of this device is the low accuracy of the pulse shape estimation in the case of their large irregularity. Closest to the proposed invention to the technical essence is an integral pulse shape factor meter of the Q kind, containing integral transducers, relation determination units, multiplication unit and display unit 2. The disadvantage of this device is the narrow range of durations of the pulses under study due to the narrow bandwidth. The purpose of the invention is to expand the range of durations of the pulses under study. To achieve this goal, an IT kind of integral pulse shape meter, containing integral transducers, whose inputs are connected to the device input, the output of the first converter to the first input of the first ratio determination unit, the output of the second converter with the second input of the first relationship determination unit and the first input of the second block determining the relationship, the output of the third converter is with the second input of the second relationship determining unit, the output of which is connected to the second input of the unit n multiplication, the first input of which is connected with the output of the first relation determining unit, and the output - with the input of the display unit, and the detection unit and linear extension of pulses, the input of which is connected to the input of the device, it is equipped with a function multiplier generator, synchronization unit and pulse voltage converter into a quasi-constant, the first input of which is connected to the output of the detection unit and linear extension of pulses, the second input with the output of the synchronization unit, and the output to the third input of the alternating unit tim, first and fourth inputs of which are coupled to the input and the output of the multiplier funktsionalnoto.

The drawing shows the structural electrical circuit of the proposed device. I It consists of integral converters 1, 2, 3, ratios 4, 5, definition multipliers, multiplication unit 6, display unit 7, detection unit 8 and linear extension of pulses of a functional multiplier generator 9, impulse voltage converter into quasi-constant and block 11 sync.

The integral transducers 1,2,3 used elements whose current-voltage characteristics described functions of an exponential form.

The device works as follows.

The pulses under study are fed to the inputs of integrated converters 1, 2, 3 and the detection unit 8 and the linear extension of the pulses. The amplitudes of the signals at the outputs of the integrated converters I, 2, 3 linearly depend on the duration and non-linearly on the amplitude Uj to the shape of the input pulses. The dependence of the amplitudes of the transformed signals on the amplitudes of the input signals is described by functions of an exponential form, as a result of which the multiplication result, the output signals of the ratio determination blocks, is a function of the integral coefficient of the pulse shape H, the type and amplitude of the input signals. To eliminate the dependence of the measurement result on the amplitude of the input pulses, blocks 8, 9, 10, 11 synthesize the factors introduced into multiplication unit 6.

The unit 8 for detecting and linearly extending the pulses detects (in the case of a radio pulse signal) and increases the frequency of the input pulses without changing the amplitude. The output pulses of block 8 are converted in block 10, controlled by synchronization block 11, to a quasi-constant voltage, the value of which is proportional to the amplitude of the input signal U.

Block 9 forms the functional factor Cfii (l - -) / HI

where C is a constant factor;

h, is a value proportional to the signal at the output of the vure block 5 of the definition of relations.

5 Output signals of blocks 4, 5 definition

the ratios, the shaper 9 of the functional multiplier and the converter 10 of the pulse voltage into the quasi-constant are multiplied in block 6. The output signal of the alternating block 6, the value of which is proportional to the integral form factor I kind, is displayed in block 7.

The invention allows to extend the aid of the transmission meter and, as a result, 5 to extend the range of durations of the studied

Imp) Formula of invention

The meter of the integral pulse shape factor I kind, containing integral transducers, the inputs of which are connected to the input of the device, the output of the first converter to the first input of the first ratio determination unit, the output of the second converter to the second input of the first

5 of the definition block and the first input BTOpoio of the relation definition block, the output of the third converter is with the second input of the second relation definition block, the output of which is connected to. the second entrance

0 of the multiplication unit, the first, the 1st input of which is connected with the output of the tiepBoro relationship determining unit, and the output - with the input of the display unit, and the detection and linear extension unit of the pulses, whose input is connected to the input of the device, characterized in that in the range of the duration of the pulses under study, it is equipped with a function multiplier, a synchronization unit and a converter.

0 The pulse voltage is quasi-constant, the first input of which is connected to the output of the detection unit and the linear extension of pulses, the second input - to the output of the synchronization unit, and the output - to the third input

5 of the multiplication unit, the first and fourth inputs of which are associated with the input and output of the functional multiplier driver.

Sources of information taken into account in the examination

1. Grznov M.I. Integral method of pulse measurement. M., Soviet Radio, 1975.

2. Grznov M.I. Integral method of pulse measurement. M., .Soviet Radio, 1975, p. 140-143 (prototype).

Claims (1)

Formula of the invention The measuring instrument of the integral shape factor of pulses of the type containing integral converters whose inputs are connected to the input of the device, the output of the first converter with the first input of the first relationship determination unit, the output of the second converter with the second input of the first relationship determination unit and the first input of the second determination unit relations, the output of the third Converter is with the second input of the second block determining relations, the output of which is connected to. the second input of the multiplication unit, the first input of which is connected to the output of the first unit for determining relations, and the output is connected to the input of the display unit, and the unit for detecting and linearly extending pulses, the input of which is connected to the input of the device, characterized in that, in order to expand the range duration of the studied pulses, it is equipped with a shaper of the functional factor, a synchronization unit and a converter. the pulse voltage to the quasi-constant, the first input of which is connected to the output of the detection and linear extension pulses, the second input to the output of the synchronization unit, and the output to the third input of the multiplication unit, the first and fourth inputs of which are connected to the input and output of the functional factor shaper.