RU167477U1 - DEVICE FOR REGISTRATION OF VARIABLE PASSIVE DOUBLE-POLE PARAMETERS - Google Patents

Abstract

The essence of the utility model - A device for recording the changing parameters of a passive two-terminal device contains a generator of a high-frequency harmonic electrical signal. The generator outputs are connected to four electrical circuits, in the first two through gates to the inputs of the differential amplifier, while at the same time one gate is connected to a reference resistor, and the other to a passive bipolar through a filter and a cable line, in the second electrical circuits through phase shifters connected to mixers, electric signal recorder. A new feature in the device is that it is equipped with two analog-to-digital converters connected to digital signal recorders and lower filters frequency, the output of the generator is connected to the inputs of the phase shifters through the first analog-to-digital converter, the second analog-to-digital converter is connected to the output of the differential amplifier, the output of the digital signal recorder is connected to the second input of the mixer, while the outputs of the mixers are connected to the digital signal recorder through low-pass filters. In addition, phase shifters, mixers and signal recorders are made in the form of a computer program. The technical result of the claimed device is possible The device operates in a wide frequency range. In addition, it becomes possible to record readings taken from the studied two-terminal network and the generator on a digital storage medium for their subsequent processing. (1 n.p.f.p.m., 1 z.p. f .p.m., 1. Fig.)

Description

The device relates to techniques for high-frequency (HF) electrical measurements and can be used to determine the complex parameters of a two-terminal device.

A device for measuring the response of a two-terminal to an electrical signal [1], consisting of a harmonic electric signal generator, two electrical circuits connected in parallel to the generator, the first of which consists of two active, reactive or complex resistances of known magnitude, connected in series, and the second of the active , reactive or complex resistance of known magnitude and measured bipolar, connected in series, of a zero-organ, one of the inputs of which is connected to a point with connection of the resistances of the first circuit, and the second to the point of connection of the resistances and the two-terminal network of the second circuit. This device is known as a bridge circuit for measuring conductivity (including integrated). The measurement of the resistance of a two-terminal network is performed by selecting the known bridge resistances in such a way as to achieve zero voltage on the zero organ. If, for example, at zero current in the zero organ, the values of all three resistances are equal, then the value of the unknown resistance of the two-terminal network is equal to the same value.

The disadvantages of this device are the long measurement time, which is determined by the time of resistance selection, and the absence of isolation between the generator and the measured two-terminal device, which can lead to a systematic error, especially with high-frequency measurements.

A device is known for measuring the changing parameters of a passive two-terminal device [2], comprising an HF harmonic electric signal generator, the output of which is connected to the first input of the differential amplifier and to the valve. The output of the valve is connected to the second input of the differential amplifier, as well as through a band-pass filter and cable line to the studied two-terminal network, the parameters of which change under the influence of external factors. The device also contains an electrical signal recorder. The RF generator signal passes through the valve and enters the measured two-terminal network through a filter and a cable line. A wave is reflected in the cable line, reflected from the bipolar, the amplitude and phase of which depends on its complex impedance. The reflected wave does not pass through the valve in the opposite direction, so only the generator signal gets to the first input of the differential amplifier, and the sum of the generator signal and the reflected signal comes to the second. Then at the output of the differential amplifier we get a reflected signal. By the amplitude of the signal, you can set the value of the active resistance of the two-terminal network. The advantage of this device is its high performance. The measurement time constant is about 100 ns.

The disadvantages of this device include the low measurement accuracy compared to the bridge circuit, as well as the impossibility of measuring the complex impedance of a two-terminal device.

A device for measuring the changing parameters of a passive two-terminal on an electrical signal [3], selected as a prototype. This device consists of an HF harmonic electric signal generator, the output of which is connected to four electric circuits through valves. The outputs of the first two gates are connected to the inputs of a differential amplifier. At the same time, one of them is connected to a reference resistor, and the other to a passive bipolar (test sample) through a filter and a cable line. These two circuits and a differential amplifier form a difference impedance measurement circuit. The RF generator signal also arrives at two circuits with phase shifters, the outputs of which are connected through mixers to a differential amplifier and a two-channel electrical signal recorder. In each of the chains of phase shifters, a phase shift is made by a fixed amount of approximately 90 °. At the first inputs of two mixers that perform the analog operation of multiplying the signals, the signals of the generator are shifted by 90 ° relative to each other, and the signal reflected from the two-terminal device is received at the second inputs. Using two signals from the outputs of the mixers (quadrature signals), the impedance of a two-terminal device can be determined.

The disadvantage of this device is the inability to quickly adjust the operating frequency, since the phase shifters have a fixed operating frequency. Thus, its change is associated with the replacement of structural elements of the device, i.e. cannot be performed promptly.

The objective of the utility model is to realize the possibility of quick tuning of the operating frequency without replacing structural elements.

The technical result of the claimed device is the ability to operate the device in a wide range of frequencies.

An additional technical result is the ability to record readings taken from the studied bipolar and generator on a digital storage medium for their subsequent processing.

The technical result is achieved as follows.

The device for recording the changing parameters of a passive two-terminal device includes an HF harmonic electric signal generator, the outputs of which are connected to four electric circuits, in the first two of which are through valves. The outputs of the first two gates are connected to the inputs of the differential amplifier. At the same time, one valve is connected to a reference resistor, and the other to a passive two-terminal device (test sample) through a filter and a cable line. The second two electric circuits contain a phase shifter connected to the first input of the mixer, the output of which is connected to the signal recorder.

New in the device is that it is equipped with two analog-to-digital converters connected to digital signal recorders and low-pass filters; the output of the generator is connected to the inputs of the phase shifters through the first analog-to-digital converter, the second analog-to-digital converter is connected to the output of the differential amplifier, the output of the digital signal recorder is connected to the second input of the mixer, while the outputs of the mixers are connected to the registrar of the processed digital signal through low-pass filters.

In addition, phase shifters, mixers and signal recorders are made in the form of a computer program.

The presence of analog-to-digital converters and digital signal recorders in the device makes it possible to perform phase shifters and mixers in the form of computer programs, which in turn allows the device to operate in a wide frequency range. Also, analog-to-digital converters and digital signal recorders make it possible to record readings taken from the studied two-terminal network and the generator on a digital storage medium for their subsequent processing.

In FIG. 1 shows the electrical circuit of the device, where: 1 - generator, 2 - valve, 3 - valve, 4 - bandpass filter, 5 - cable line, 6 - studied two-terminal network, 7 - differential amplifier, 8 - reference resistor, 9 - analog-digital converter, 10 - digital signal recorder, 11 - analog-to-digital converter, 12 - digital signal recorder, 13 - phase-shifting link, 14 - mixer, 15 - phase-shifting link, 16 - mixer, 17 - low-pass filter, 18 - low-pass filter , 19 - digital signal recorder.

The device for recording the changing parameters of a passive two-terminal device includes an HF harmonic electric signal generator 1, which can be used as a Hewlett-Packard "НР33120А generator, which generates a harmonic signal with a frequency from 100 KHz to 5 MHz and an amplitude of 1 V. The outputs of generator 1 are connected to four electrical circuits, in the first two of which through valves 2,3, which are assembled according to a single-stage transistor amplifier circuit in a circuit with a common emitter with a gain equal to unity and an input by 51 Ω rotational voltage. KT939A transistors can be used in them. The outputs of gates 2,3 are connected to the inputs of differential amplifier 7, which can be used as an AD510A microcircuit. At the same time, valve 3 is connected to a reference resistor 8 with a selected resistance of 51 Ohms, and valve 2 connected to a passive bipolar 6 (test sample) through a band-pass filter 4 and a cable line 5. Band-pass filter 4 is implemented on passive elements. The impedance of cable line 5 is 51 ohms. These two circuits and differential amplifier 7 form a differential circuit for measuring impedance. The output of the generator 1 in two other electrical circuits is connected to the inputs of the mixers 14, 16, in the first of which through the first analog-to-digital converter 9, the primary digital signal recorder 10 and phase shifters 13, 15, and in the second through the first analog-to-digital converter 11, and a primary digital signal recorder 12. The output of the mixer 14 is connected to the electric signal recorder 19 through a low-pass filter 18. The output of the mixer 16 is connected to the electric signal recorder 19 through a low-pass filter 17. As the first and the second analog-to-digital converters 9, 11, as well as the digital signal recorders 10, 12, the channels of the NationalInstruments NI PXI-5105 oscilloscope board are used, built-in hardware in the NationalInstruments PXI backbone and modular platform (NI PXI-8183 Celeron 850 MHz controller and NI PXI chassis -1036), it is also a digital signal recorder 10. In addition, phase shifters 13, 15, mixers 14.16 and digital signal recorders 10.12 are made in the form of a computer program.

A device for recording the changing parameters of a passive two-terminal network operates as follows.

The signal of the RF generator 1 enters simultaneously to four electrical circuits, in the first two through gates 2, 3 to the inputs of the differential amplifier 7. At the same time, one valve is connected to a reference resistor 8, and the other to a passive two-terminal 6 through a filter 4 and a cable line 5. On the second electric circuit, on the one hand, the RF generator signal enters through the first analog-to-digital converter 9 and the digital signal recorder 10 to the phase shifters 13, 15 and then to the first inputs of the mixers 14, 16. On the other hand, to the second electric of sul circuit signal output from the differential amplifier 7 through a second analog-to-digital converter 11 and a digital signal recorder 12 to the second inputs of mixers 14, 16. The output signal from mixers falls on the electric signal recorder 19 via lowpass filters 17, 18.

Signal processing in phase shifters 13, 15, mixers 14, 16, as well as in low-pass filters 17, 18 is performed in digital form. Due to this, a quick adjustment of the operating frequency in the device is possible.

Mixers perform the operation of multiplying signals with the same carrier frequencies (operating frequency of the generator), therefore, the signals at the output of the mixers consist of the sum of the useful signal and the spurious signal with a carrier frequency equal to twice the working frequency. To eliminate the spurious signal, you can use low-pass filters at the outputs of the mixers with a cutoff frequency lying below twice the operating frequency, but above the upper cutoff frequency of the useful signal.

It should be noted that in order to eliminate errors in the digitization of analog signals, the following requirements must be fulfilled: a large number of points in time (for example, 100 points per 1 period of the working signal, the number of periods in the waveform 1000, the total number of points in time 105 ), as well as a large depth of digitization of the signal in amplitude (as a rule, at least 12 binary bits).

The proposed device can also be used in delayed signal processing. For this, digital signal recorders are additionally connected to the outputs of analog-to-digital converters. Further processing can be carried out after the end of the experiment using a computer program. In this case, there are no restrictions on the signal processing time, as it happens in real time.

Sources of information taken into account:

1. T.M. Aliev, A.A. Ter-Khachaturov Measuring equipment M. Higher School, 1991

2. Yu.B. Kudasov, High-frequency conductivity measurements by the non-contact method in superstrong magnetic fields, PTE. - 1999. - Vol. 4. - S. 527

3. Patent RU No. 2307365 publ. September 27, 2007 on the invention “A device for measuring the changing parameters of a passive two-terminal device” by the authors Yu.B. Kudasova, A.V. Filippova

Claims (2)

1. The device for recording the changing parameters of a passive two-terminal device includes an HF harmonic electric signal generator, the outputs of which are connected to four electric circuits, the first two of which are connected through the gates, the outputs of two gates to the inputs of a differential amplifier, at the same time one gate is connected to a reference resistor, and the other - to the passive bipolar through a filter and cable line, the second two electrical circuits, each of which contains a phase shifter connected to the first input amplifier, and their outputs are connected to a signal recorder, characterized in that it is equipped with two analog-to-digital converters connected to digital signal recorders and low-pass filters, the output of the generator is connected to the inputs of phase shifters through the first analog-to-digital converter, and the second analog-to-digital the converter is connected to the output of the differential amplifier, the output of the digital signal recorder is connected to the second input of the mixer, while the outputs of the mixers are connected to the digital signal recorder ala through lowpass filters. 2. A device for recording the changing parameters of a passive two-terminal device according to claim 1, characterized in that the phase shifters, mixers and signal recorders are made in the form of a computer program.