UA48641A - Method for measuring phase shift - Google Patents

Abstract

The proposed method for measuring phase shift involves forming the first and the second voltage signals with different nonmultiple frequencies. From these signals, the third and fourth, the fifth and the sixth voltage signals, and the first and the second comparable signals are accordingly formed with frequencies within a specified high-frequency range. Te comparable signals so obtained are modulated with the third and the sixth voltage signals in order to form the first combined signal. From the first combined signal, the second combined signal is formed, and additional measurable voltage signals are isolated. The fourth and the fifth voltage signals are switched so that the seventh and eighth voltage signals are formed within one of the switching intervals, and these signals are used for forming a reference signal. Within the other switching interval, the seventh and the eighth signals are not present. The phase shift angle is measured between the reference signal and the measurable signal with frequencies that are equal to the combination frequencies of the first and the second voltage signals. The first and the second voltage signals are modulated by employing preferably amplitude or balanced modulation.

Description

Description of the invention

The invention relates to phase radio engineering and can be used to measure phase shifts between 2 signals and phase characteristics of multipoles in high-frequency (HF) ranges.

There are known methods of measuring the phase shift. They are described, for example, in the following scientific and technical (NT) literature: 1. Bondarenko I.K., Deinega G.A., Magrachev 3.8. Automation of measured parameters of microwave channels. - M.:

Sov. radio, 1969. - ЗО04p. 70 2. Larkin Y.F. Double serrodination in transmission and reflection coefficient meters on IEDs. - Izvestiya UZov USSR. Radiotechnique, 1965, Mob, pp. 715 - 718.

Z. Ogorodniychuk L.D. Microwave phase meter with two phase modulators. - Izvestiya UZov USSR.

Radiotechnique, 1968, Mo4, p. 370 - 373.

A common feature of the known methods is the use of single-band modulation (OM), receiving 12 composite RF signals, forming the measuring and reference voltages, and measuring the phase shift.

The closest to the proposed method is the method described in (3). In accordance with it, the first and second voltages of unequal and multiple frequencies are generated, they are branched, respectively, into the third and fourth, fifth and sixth voltages. The first and second signals, the frequencies of which are selected in one of the RF ranges and between which the phase shift is measured, are modulated by the third and sixth voltages, respectively, form a composite signal, carry out 20 frequency conversions, isolate the measuring voltage, form the reference voltage and measure the phase shift.

This method is accepted as a prototype.

The disadvantage of the prototype method is the presence of a large measurement error caused by insufficient resolution between signal circuits and modeling voltages, as well as low resolution of the phase shift indication.

The purpose of the invention is to increase the accuracy of measurements. 29 The invention is based on the complex task of improving the method in which, by introducing new operations and the corresponding sequence of operations, a significant increase in accuracy is ensured.

With the help of the prototype, it is impossible to obtain such results, since it does not have those new essential features that are part of the set of essential features of the invention.

In the proposed method of measuring the phase shift, in accordance with which the first and second - 30 voltages of unequal and multiple frequencies are generated, they are branched, respectively, into the third and fourth, fifth and sixth "Her voltages. The first and second comparison signals, the frequencies of which are selected in one of the VU ranges and between which the phase shift is measured, are modulated by the third and sixth voltages, respectively, form a composite signal, carry out frequency conversion, isolate the measuring voltage, form the reference voltage and measure the phase shift , the goal is achieved by forming a second composite signal from the composite signal and 3o converting the frequencies of its components, additionally isolating (n - 1) » 1 measuring voltages, the fourth and fifth Z voltages are switched synchronously in such a way that in one time interval commutations receive, respectively, the seventh and eighth voltages and form a reference voltage from them, and in the second time interval of commutation ensure the absence of the seventh and eighth voltages, and the phase shift is measured by the reference and measuring voltages, the frequencies of which are "equal to the combination frequencies of the first and second voltages, moreover, comparison signals modulate Z7Z mainly in terms of amplitude. c The essence of the method is as follows. Two signals are received, the phase shift between which must be measured. Signals have one frequency, which is selected in one of the RF bands. Signals are modulated by voltages of unequal and multiple PE frequencies. and Ro respectively. These frequencies are fixed or can change, their values are chosen much lower than the signal frequencies: вв, (1)

After independent modulation, modulated signals are obtained in the general case with a two-band spectrum. (ee) The spectrum can be symmetrical with respect to the carrier frequency or asymmetrical. It can be provided using amplitude modulation (AM), balance modulation (BM), or, for example, single-band modulation (OM).

The modulated signals are summed up and a composite signal is obtained. A second composite 50th signal is formed from it, for example, with the help of filters, amplifiers, etc. Its structure corresponds to the value of the overall measurement error component. The frequencies of the second composite signal are converted and obtained by measuring intermediate frequency (IF) voltages, which carry information about the phase shift x Kf, where the integer K » 1.

The value of the IF in the general case is determined by the formula

Epch z sh ag Ki choi, (2) where di ch - whole numbers.

R" In a separate case

Epchi»a 51 same 4 same P2i. (3)

To modulate the signals, the first and second voltages of unequal and multiple frequencies E 3 and P are generated. They are branched into the third and fourth, fifth and sixth voltages, respectively. The third and sixth voltages are used to modulate the first and second signals, respectively. The fourth and fifth voltages are switched synchronously.

Thanks to this, respectively, the seventh and eighth voltages are obtained, which are intermittent. Let's call the time segments of the switching periods the first and second, respectively. The reference voltage is formed from the seventh and eighth voltages. It is present in the first periods of time, and absent in the second. 65 Phase shift measurements are carried out by measuring voltages in the second time segments. For example, at K - 1, a phase shift of 2f is obtained, at K - 2, 4Ff is obtained, etc. The coefficients in front of Ф mean that the resolution during measurement increases by the corresponding number of times. This makes it possible to increase the accuracy of the measurements, but at the same time the uncertainty of the measurements arises. In order to avoid this drawback, a scale of 0...360" is formed using a reference voltage and one of the measuring voltages, for example, which is characterized by a coefficient of K - 1. Such a scale helps to "roughly" measure the phase shift and reveal the uncertainty of the measurements.

And accurate measurements are carried out using measuring voltages.

The peculiarity of this method of measuring the phase shift is that accurate measurements are carried out in the second intervals of the switching time, when there are no seventh, eighth, and therefore reference voltages. And this means that the circuits between the signals and the fourth and fifth voltages are broken. This makes it possible to avoid parasitic leads and cancel 70 the corresponding measurement errors, which are large in the prototype.

In the first intervals of the switching time, there is a reference voltage. Unambiguity of measurements is ensured. At the same time, only the disclosure of the uncertainty within 0...3600 is provided, which is not affected by the mentioned error.

Since the disclosure of uncertainty is also a measurement, it means that it is carried out on the reference and measuring voltages.

Let's consider the methods of modulation during measurements. For the first example, we will assume that (as an exception) n - 1, K - 1 is the reference voltage. Measurements are carried out between the reference and the first measuring voltages. In this example, AM, BM, OM can be used to form the first measuring voltage. With these types of modulation, it is possible to ensure the formation of the same structure of the second composite signal, and, therefore, the same result when measuring the phase shift. Therefore, all methods with these different types of modulation should be considered equivalent.

Consider the second example: n - 2, K - 1. For measurement, you need to form a reference voltage and two measuring voltages. One of the options for the formation of two measuring voltages is the formation of a two-band second composite signal. For this purpose, two-band modulation of AM, or/and BM, as well as OM with relatively small attenuation of side parasitic components should be used. It is also possible to use a combination of these methods of generating measuring voltages. All methods of forming the second composite signal, which provide the same results of measuring the phase shift, are equally accurate. But they differ from the methods that characterize the method described in the first example. Thus, for each implementation of the method, there are options for forming the second composite signal, which can be considered equivalent.

It follows from the above explanations of the method that the measurements are independent of the connections between the signals and the Modeling voltages.

Let's consider three possible variants of the implementation of the method with other ratios between frequencies. -

The first option. It is characterized by the fact that Ge

SCHEZ KE, E2 2-0, Epch - I7- (4)

To implement conditions (4), it is necessary to build the interchannel circuit of the phase meter according to the scheme in which the first so

Switch, distributor, second switch. The frequency generator Pi is connected to the input of the splitter, the outputs of the synchronizer are connected to the control inputs of the switches, the outputs of the switches are connected to the control inputs of the modulators (mixers).

The operation of the scheme is as follows. With the help of switches, the voltage of the generator is alternately switched.

Due to this, the modulation (frequency conversion) of the signals is carried out in turn: the first, the second, the first, the second, etc. When indicating a phase shift on the measuring voltages of the IF (4v), it is necessary to delay one of the measuring voltages in c for a time interval equal to the interval switching of the second signal (the switch is in the "off" position). "» The second option. It is characterized by the fact that

Ta B, I Go, (5)

Epchya U 1-X, Rdtsa U 17-21 (6) th-» Epcho GR - Rg! (7)

To implement conditions (5), (6), (7), it is necessary to build the inter-channel circuit of the phase meter according to the scheme in which the first splitter, the first switch, the third mixer, the second switch and the second splitter are connected together. To the entrances

Ge) splitters are connected, respectively, the first PE frequency generator. and the second frequency generator Ro. The corresponding outputs of the synchronizer are connected to the control inputs of the switches. The first output of the first splitter is connected to the control input of the first modulator (mixer), and the second output of the second splitter is connected to the control input of the second modulator (mixer).

The operation of the scheme is as follows. The first and second signals enter the signal inputs of the corresponding modulators. In them, modulation (frequency conversion) of signals is carried out with the help of modulating voltages of the first and second generators. At the outputs of the modulators, the first and second measuring voltages of intermediate frequencies (ba), (66) are obtained, respectively. In addition, the modulating voltages are supplied through switches to the inputs » of the third mixer. In it, frequency conversion is carried out and the reference voltage of the IF (7) is obtained at the output.

Commutators - two-position, work in synchronous mode. When the switches are turned on, there is a reference voltage, when they are turned off, there is no voltage. 60 To ensure the measurement of the phase shift in the indicator, it is necessary to: - delay the reference voltage for the switching time interval; - bring the three intermediate frequencies (6), (7) to one value and according to the two measuring voltages by conversion.

The third option. It differs in that four switches are turned on in the interchannel circuit. In circuit 65, the following nodes are connected in sequence: the first switch, the first splitter, the second switch, the third mixer, the third switch, the second splitter and the fourth switch.

To the inputs of the splitters, the generators of the frequencies Gi and P" are connected, respectively, and the outputs of the first and fourth switches are connected to the control inputs of the modulators (mixers) of the corresponding channels. The first and fourth switches and, respectively, the second and third switches in pairs work synchronously, and between pairs - in antiphase. In the indicator, you also need to use a delay and bring the voltages to the same frequency.

In the options considered, a common feature is the switching of the voltages in the interchannel circuit in such a way that the IF voltages are formed in different time segments, and the introduction of a delay of one of the IF voltages to combine it in time with another IF voltage.

Thanks to the switching, the inter-channel circuit is broken during this period of time and theoretically, the 7/0 phase shift measurement error caused by the inter-channel circuit solution disappears.

Thus, in the variants that ensure the fulfillment of conditions (4)... (7), an increase in the accuracy of the phase shift measurement is provided by the switching of the modeling voltages and with the simultaneous delay of the voltage (voltages) of the IF.

The use of the proposed method provides a significant increase in the accuracy of measurements in the VU ranges.

This provides great scientific, technical and economic effects.

Claims (1)

The formula of the invention is the method of measuring the phase shift, in accordance with which the first and second voltages of unequal and multiple frequencies are generated, they are branched, respectively, into the third and fourth, fifth and sixth voltages, the first and second comparison signals, the frequency of which is selected in one of the high-frequency ranges, are modulated by the third and sixth voltages, respectively, form a composite signal, perform frequency conversion and isolate the measuring voltage, form a reference voltage and measure the phase shift, which differs in that a second composite signal is formed from the composite signal and convert the frequencies of its components, additionally isolate ( n -1)21 measuring voltages, the fourth and fifth voltages are switched synchronously in such a way that in one switching time interval the seventh and eighth voltages are obtained, respectively, and form a reference voltage from them, and in the second switching time interval they ensure the absence of the seventh and eighth voltage, and the phase shift is measured by reference and measuring voltages, frequencies and which are equal to the combinational frequencies of the first and second voltages, and the first and second signals are modulated mainly by means of amplitude and/or balance modulation. - "Official Bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2002, M 8, 15.08.2002. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. (ee) " - and? sh» (ee) (o) sh» - 60 b5