SU951182A1 - Reflectometer - Google Patents

Description

The invention relates to high-frequency measuring equipment and can ₍ be used to control the mode of operation of symmetric feeder lines.

A known reflectometer containing a segment of the measuring line, equipped with directional couplers of the incident and reflected waves, loaded with matching resistors, a generator exciting the incident wave in the measuring line, and indicator K _CT V [11

A disadvantage of the known reflectometer is the inability to control the asymmetry of the symmetric feeder lines.

The purpose of the invention is the ability to control asymmetry.

This goal is achieved by the fact that an additional resistor, a current indicator and a high-frequency transformer with a tap from the midpoint of the primary winding connected to a directional incident wave coupler are inserted into the OTDR, the secondary winding of the high-frequency transformer is connected to the input of automatic adjustment of the power of the high-frequency generator, and the current indicator is switched on between a tap from the middle point and a screen to which one of the terminals of the additional resistor is also connected, while matching the res The directional response waveform 5 of the incident wave is made with. middle tap connected to another terminal of the additional resistor.

The drawing shows a functional diagram of the proposed reflectometer.

The reflectometer contains a piece of shielded two-wire symmetrical. line 1, equipped with a directional coupler of the incident wave 2, loaded on the matching resistors 3 and 4, an additional resistor 5, a directional coupler ^ of the reflected wave 6, loaded on the matching 20 resistor 7, screen 8, current indicator, 9, high-frequency transformer 10, K v _v indicator 11 and a high frequency generator with automatic power adjustment 12.

The device operates as follows.

The generator 12 excites in a two-wire line 1, loaded with a controlled feeder line, a 3Q giving a wave propagating in the direction of the antenna. In directional couplers 2 and 6, EMFs are proportional to, respectively, the voltages of the incident and reflected from the load waves. The voltage of the incident wave from the secondary winding of the transformer 10 is supplied to the input of automatic power control of the high-frequency generator 12, adjusting its power so that the voltage of the incident wave at the output of the directional coupler 2 is maintained at a given constant level regardless of the operating frequency of the generator and the load of the two-wire line 1. In this case, the output device of the indicator K _st V 11, 5 can be uniquely calibrated in the values of K _st V, thereby eliminating the need for on-site operation before measurements. The average load tap of the 2θ directional coupler of the incident wave 2 is connected through an additional resistor 5 to the screen, and the line formed by the parallel connected wires of the coupler of the incident wave 2 and the screen is a ^ζ directed coupler of the incident wave in common mode. 'In this case the voltage at the symmetrical terminals of the directional incident wave coupler is proportional to the voltage of the incident antiphase wave, and the voltage at the midpoint of the transformer primary winding is proportional apryazheniyu falling phase of the wave. 35

The modulus of the symmetry coefficient can be defined as the ratio of the common-mode wave voltage to the antiphase wave voltage. And since the voltage of the antiphase wave 40 at the output of the directional incident wave coupler 2 is maintained at a constant level by the automatic power control circuit of the generator 12, the current indicator 9 can 45 be unambiguously calibrated in the magnitude of the asymmetry coefficient module regardless of the operating frequency of the measurement and the load of the measuring line.

Automatic adjustment of the generator power provides the _ability to control K _6T V and asymmetries Directly on the arrow. indicators, K _with tV and current without preliminary calibration of the OTDR before measurements, and the introduction of a load resistor connected between the midpoint of the load resistor, the directional coupler of the incident wave and the screen, a high-frequency transformer with a midpoint in the primary winding and a current indicator provides the ability to measure the coefficient module asymmetries.

Claims (1)

branch x 2 and b, emf induced, proportional, respectively, to the voltage of the incident and reflected from the load of the waves. The voltage of the incident wave from the secondary winding of the transformer 10 is fed to the input of the automatic power control of the high-frequency generator 12, adjusting its power so that the voltage of the incident wave at the output of the directional coupler 2 is maintained at a given constant level regardless of the operating frequency of the generator and the load two-wire lines 1. In this case, the output device of the indicator K.- V 11 can be unambiguously graduated in terms of V, thereby eliminating the need for a calibrating operations before measured. The average load diversion of the directional incident wave coupler .2 is connected via an additional resistor 5 to the screen, while the line formed by the parallel-connected response wires, the incidental wave 2 and the screen represents the common directional incident wave coupler in the in-phase wave. In this case, for example, on symmetric terminals, the directional coupler of the incident wave is proportional to the voltage of the incident antiphase wave, and the voltage at the midpoint of the primary winding of the transformer is proportionally the incidence of the incident phase wave. The modulus of the symmetry coefficient can be defined as the ratio of the in-phase wave voltage to the anti-phase wave voltage. And since the voltage of the antiphase wave at the output of the directional coupler of the incident wave 2 is maintained at a constant level by the automatic power control circuit of the generator 12, the current indicator 9 can be unambiguously calibrated in terms of the modulus of the asymmetry factor regardless of the measurement frequency and load of the measurement line. Automatic adjustment of the generator power makes it possible to monitor Kg, -, V and asymmetry directly along the arrow. Indicator devices, KstV and current without prior calibration of the OTDR before measurements, and the introduction of a load resistor connected between the midpoint of the load resistor, the directional incident wave coupler and the screen, a high-frequency transformer with a midpoint in the primary winding and a current indicator allows the module to calculate the coefficient of symmetry. The invention includes a reflectometer containing a segment of a shielded two-wire symmetric line, equipped with directional taps of the incident and reflected waves loaded on the terminating resistors, a high-frequency oscillator with automatic power control and an indicator K. V, which is different because, in order to ensure asymmetry control, An additional resistor, a current indicator and a high-frequency transformer with a tap from the midpoint of the primary winding connected to the directional branch are introduced. Any incident wave, the secondary winding of the high-frequency transformer is connected to the input of the automatic power control of the high-frequency generator, and the current indicator is connected between the center point and the screen, to which one of the additional resistor leads is also connected, while the matching impedance of the incident wave coupler is made with the average a tap connected to another pin of an additional resistor. Sources of information taken into account in the examination 1., Fradin A.3.-Ryzhkov E.V. Measurement of parameters of antenna-feeder devices. M., St. Don, 1972, p. 119,122. (prototype).