SU734584A1 - Device for measuring amplitude-phase characteristics of multi-pole networks - Google Patents

Description

(54) DEVICE FOR MEASUREMENT OF AMPLITUDE-PHASE CHARACTERISTICS YES NO GO FOR LAW NIKOV The invention relates to the field of radio metering technology and can be used, in particular, in the development of zone-dependent attenuators and control multi-poles. A device is known for measuring the amplitude-phase characteristic of an attenuator by measuring twice the amplitude-41st characteristic. The disadvantage of such a device is a significant measurement error. The closest in technical terms to the proposed invention is a device that contains a high-frequency generator, a quadrupole under study, a high-frequency amplifier, an amplitude detector, a phase detector, the second input of which receives a signal from a low-frequency generator, and an integrator connected to the output of the phase detector, the signal of which is fed to the frequency control of the high-frequency generator J2. The disadvantage of this device is the large error in the determination of the amplitude-phase error of the quadrupole. The aim of the invention is to reduce the measurement error. The goal is achieved by the fact that ycf is a device for measuring the amplitude-phase characteristics of multipoles, containing: its high-frequency generator, a cascade-connected high-frequency amplifier, an amplitude detector, a phase detector and an integrator, as well as a low-frequency generator connected to the phase detector, is equipped with phase shifter, phase splitter, two-channel switch, as well as an electronic interpolation phase shifter and adder, while the quadrupole input is the first output. the multipole is connected to the input of a circular phase shifter, the output of which is 373 connected to the phase splitter code, the second output of the multipole is connected to the input of the electronic interpolation phase shifter, the input of the phase control of which is connected to the output of the integrator, the output of the electronic interpolation phase shifter is connected to the input of the adder, the second input of which is connected to the integrator's output, the output of the electronic interpolation phase shifter is connected to the input of the adder, the second input of which integrates the output of the electronic interpolation phase shifter connected to the input of the adder; the output of a two-channel switch, the inputs of which are connected to the corresponding outputs of the splitters, the output to the input of the high-frequency amplifier, and switch state control input - with the output of a low-frequency generator. The drawing shows a block diagram of the proposed device for measuring the amplitude-response characteristics of many pole members. The device contains a high-frequency generator 1, the studied binge-hole 2, an electronic interpolation phase shifter 3, a circular phase shifter 4, a phase shifter 5, a two-channel switch 6, an adder 7, a high frequency amplifier 8, an amplitude detector 9, and a low-phase generator frequency 12. The device works as follows. The control units of the output signal of the multipole 2 and the magnitude of the voltage of the generator 1 set the voltage equal to the reference voltage at the first output, and the voltage, taken as the average, at the second output of the multipole. The signal from the first output through the phase shifter 4 enters the input of the phase splitter 5, the outputs of which have two signals equal in amplitude and shifted in phase by 180 °. The low frequency generator 12 controls the state of the switch 6 during the half period opening one channel and during the second semi-period, the second channel. At the output of the switch, a signal takes place whose phase changes by leO every half-period. The signal from the second output of the multi-terminal 2 through the electronic interpolation phase shifter 3 is fed to the input of the adder 7, the second input of which receives a signal from the two-channel switch 6. In the general case, the output of the adder in the first half period is not equal to the voltage in the second half period. This voltage is fed to a high-frequency amplifier 8 and then to an amplitude detector O, the output of which is an alternating voltage with a frequency of a low-frequency generator and a phase equal to zero or 180, depending on the phase ratio of the working and reference channels. The voltage from the output of the amplitude detector enters the phase detector U, from which the signal goes through the integrator 11 to control the phase of the electronic interpolation phase shifter. The circular phase shifter 4 is set to such a phase in which the voltage value as a result of the geometric addition at the output of the adder remains constant. Obviously, this will be the case when the phase difference between the working and reference signals in one half period will be equal to the phase differences between the working and reference channel signals in the other half period. The reading of the electronic interpolation phase shifter is then set to zero. Then, at the second output of the multipole, the voltage is changed to the upper and lower CTOpoHyi and, if there is a change in the phase difference between the voltages of both outputs, the output of the phase detector is the error of the controller of the electronic interpolation phase shifter. The indicator of this phase shifter determines the phase shift corresponding to the given signal level. Formula of the Invention Amplitude Measurement Device | a) the basic characteristics of multipoles, containing a high-frequency generator, a cascade-connected high-frequency amplifier, an amplitude detector, a phase detector and an integrator, as well as a low-frequency generator connected to the phase detector, in order to reduce measurement error, it is equipped with a circular phase shifter, a phase splitter, a two-channel switch, and an electronic interpolation phase shifter and adder, with the first output of the multipole connected to the circular zovraschatel whose output is connected to. the input of the phase splitter, the second output of the multipole is connected to the input of the electronic interpolation phase shifter, the input of the phase control KOToppi o is connected to the output 5734

the integrator's home, the output of the electronic interpolation phase shifter is connected to the input of the adder, the second input of which is connected to the output of a two-channel switch, the inputs of which are connected to the corresponding 5 corresponding outputs of the phono-splitter, the output to the input of the high-frequency amplifier, and the state control input of the switch is connected to the output low frequency generator. About

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Information signs taken into account during the examination

1. Pozdnok I. K .. Self-test methods in phase metering. Questions radio electronics, ser. U1, RT, vol. 3, 1962, p. 31.

2.Stickband w.3. Jectimq, ues -tlje ANeaswemenl, u (aHi cnstaE parctmeiers hNarcom Gnstromen-toii-ion NoEVI. No. 4, 1968 G.

Claims (1)

Claim A device for measuring the amplitude-phase characteristics of multipoles, comprising a high-frequency generator, cascaded high-frequency amplifier, an amplitude detector, a phase detector and an integrator, as well as a low-frequency generator connected to a phase detector, characterized in that, in order to reduce the measurement error, it is equipped with a circular phase shifter, phase shifter — a feeder, a two-channel switch, as well as an electronic interpolation phase shifter and an adder, with the first output multipole connected to the input circular phase shifter output is connected with. the input of the phase splitter, the second output of the multipole is connected to the input of the electronic interpolation phase shifter, the phase control input of which is connected to the output of the integrator, the output of the electronic interpolation phase shifter is connected to the input of the adder, the second input of which is connected to the output of the two-channel switch, the inputs of which are connected to the 5 corresponding outputs phase splitter, the output is to the input of the high-frequency amplifier, and the input of the state control of the switch is connected to the output of the low-frequency generator. '0