SU922652A1 - Device for automatic measuring of pulse radio-pickup potential - Google Patents

Description

(54) DEVICE FOR AUTOMATIC MEASUREMENT OF POTENTIAL RADIO PULSE

I

This invention relates to a technique for measuring and measuring.

A device for automatically measuring the potential of a pulse is known. a radio sensor containing a series-connected program-control unit, a time delay unit, a control gain element and a variable calibrated attenuator, whose unthull-out input is connected to the second output of the program control unit, as well as a super high-frequency detector Ll.

However, in the known device, the accuracy of the exhibition of the calibrated attenuation, besides the error of the variable calibrated attenuator, is determined by the error of the mismatch between the units of the device and the instability of their transmission coefficients, which can add up together, which leads to a decrease in measurement accuracy.

The purpose of the invention is to improve the measurement accuracy.

Claims (2)

For this purpose, in the device for automatic measurement of the potential of a pulsed radio sensor containing a sequentially connected program control unit, a unit, a time delay, an element with a controllable transfer factor, and a variable calibrated attenuator, the control input of which is connected to the second output of the program code. A control unit, the output of which is connected to the control input of the element with a controlled coil, is connected to the output of the microwave detector, as well as an ultra-high-frequency detector, to the output of the super-high-frequency detector. transmission efficiency, as well as a series-connected first microwave switch connected to the device, a constant calibrated attenuator and a second microwave switch, the output of which is connected to the input of the microwave detector, and a third microwave switch connected to the device output, the second output of the first the microwave switch is connected to the signal input of the time delay unit, to the input of the third microwave The output of the variable calibrated attenuator, the control inputs of the control unit and the microwave switches are connected to the third output of the software control unit, and the second output of the third microwave switch is connected to the second input of the second super high frequency switch. In addition, the control unit executes in the form of serially connected amplifiers for the amplitude of video pulses, a low-frequency switch, a memory element and a reference element, the second input of which is connected to the second one. output low-frequency switch. The drawing shows a block diagram of the device. . A device for automatically measuring the potential of a pulsed radio sensor contains a sequentially connected software control unit, a time delay unit 2, an element 3 with a controlled transmission coefficient and a variable calibrated attenuator 4, the control input of which is connected to the second output of the program control unit 1, as well as an ultra high-resolution detector 5, to the input of which the control unit 6 is connected, the output of which is connected to the control input of the element 3 with an adjustable transmission coefficient, A connected microwave switch 7 included at the device input, a constant calibrated attenuator 8 and microwave switch 9, the output of which is connected to the input of the microwave detector and microwave switch 1 connected at the device output, while the second output of the microwave switch 7 is connected input unit 2 time delay, to the input of the microwave switch iO connected to the output of a variable calibrated attenuator 4, controlling the input control unit 6 and ultra-high frequency switches 7, 9 and 10 are connected to the third output of the software 1, and the second output of microwave switch 1 is connected to the second input of the microwave switch 9. Control unit 6 in the serially connected transducer 11 amplitude Video pulses, low frequency switch 12, the memory element 13 and the comparison element 14, the second input of which is connected to the second output of the low-frequency switch 12. The device operates as follows. At the first stage, according to the commands of the software control unit 1, the microwave switches 7.9 and 10 are set to the following positions: the RF input pulses of the microwave pass the microwave switch-. 7, a constant calibrated attenuator 8, the nominal value of which is set in accordance with the maximum possible attenuation of the measuring path, the microwave switch 9, the ultrahigh frequency detector 5, the envelope amppiggud from the output that converts into a convenient form of information (constant voltage, code, frequency and the like) in the video pulse amplitude converter 11 and through the low-frequency switch 12 and the memory element 13 is fed to the first; input element 14 of the comparison. At the second stage of operation, the microwave input radio pulses by appropriate switching using the program-control unit 1 pass through the microwave switch 7, the time delay unit 2 set to the required delay value, element 3, variable calibrated attenuator 4 set to the minimum attenuation, superhigh-frequency switches 1O and 9, respectively, an ultra-high-density detector 5, the amplitude of the envelope from the output of which is formed in the 1 converter 11 amplitudes of video pulses and over lowpass kommu1gator 12 is supplied to the second input of comparing element 14. As a result of the comparison with the filled reference value of the information, at the first input of the element 14 and at the output of the comparison element 14, the error signal appears. changes the transmission coefficient of element 3 in such a way that at the end of the transitional 1f the processes, the initial attenuation of the measuring path becomes equal to the established attenuation of the constant calibrated attenuator 8. Thus, the first two stages of work eliminate all instabilities and inaccuracies of the initial attenuation of the measuring path on automatic adjustment of the transmission coefficient of this path to a reference value, ofdelemyema constant calibrated attenuator 8. At the third stage of work The device exposes the required calibrated attenuation value of the measuring path (taking into account the initial setting) by appropriate adjustment of the variable calibrated attenuator 4 according to the signals from the software attenuator unit 1. The microwave RF input pulses pass through the microwave switch 7, time delay block 2, element 3, the variable calibrated attenuator 4, the microwave switch 10 and the output of the device, i.e. on controlled radio tchik. The device imposes an increased accuracy of measuring the potential of radio sensors by increasing the accuracy of the calibrated attenuation of the measuring path. The calibration error of the initial attenuation of the measuring path, which is mainly determined by the block of the time delay, the attenuation of which is 20–40 dB, will amount to about 0.2-O, 5 dB. This value is determined mainly by the accuracy of the exhibition and the stability of the constant calibrated athenator. Claim 1. Device for automatically measuring the potential of a pulse for a sensor, comprising a series-connected gpogram-propelling unit, a time delay unit, an element with a peerable transfer coefficient, And a variable calibrated attenuator, the control input of which is connected to the second output of the program-controlling unit As well as a microwave detector, characterized in that, in order to improve measurement accuracy, a control unit is connected to the output of the microwave detector, The first superhigh-frequency switch connected at the input of the device, a constant calibrated attenuator and the second superhigh-frequency switch, the output of which is connected to the inlet of the superhigh-frequency detector, as well as the third superhigh-frequency switch - v reader included at the device output; 1f this, the second output of the first super-high-frequency switch is connected to the signal the input of the time delay unit, the output of the third calibrated attenuator is connected to the input of the third microwave switch, the control inputs of the control unit and the microwave switches are connected to the third output of the software control unit, and the second output of the third microwave switch is connected to the second input of the second microwave switch. 2. The device according to claim 1, wherein the control unit is designed as a series-connected amplitude converter of video pulses, a low-frequency switch, a memory element and a reference element, the input of the sixth connector is connected to the second output of the low-frequency switch. Sources of information that are taken into account for examination 1. USSR author's certificate NO 442432, cl. G 01 R 21/12, 1972 (phototype). s1