RU2207720C2 - Reflected wave transducer - Google Patents

Abstract

FIELD: radio engineering, radio transmitting facilities. SUBSTANCE: input of amplitude detector 3 is connected to input of resonance link 1 through capacitor of phase inverter 2 and to output of resonance link 1 through resistor of phase inverter 2. EFFECT: simplified design of reflecting wave transducer. 1 dwg

Description

 The invention relates to radio engineering and can be used in radio transmitting devices.

 A known sensor of the reflected wave, consisting of voltage and current sensors in one section of the transmission line [1]. The disadvantage of the sensor when applied at high frequencies is the inclusion of a current transformer in the transmission line, into which additional losses and heterogeneity are introduced.

 A known sensor of the reflected wave based on a directional coupler [1]. The sensor consists of two transmission lines with electromagnetic coupling and an amplitude detector. The disadvantage of the sensor is its relatively large size, because the communication area of the transmission lines should be a quarter of the wavelength. The disadvantage of the sensor is the additional attenuation of the signal in the transmission line.

 The aim of the invention is to simplify the sensor of the reflected wave.

 For this, a resonant U-shaped link [2] is introduced into the harmonics filter as a sensor of the phase difference and amplitudes of the input and output signals, depending on the standing wave coefficient of the load. The input and output of the resonant U-shaped link through a phase shifter are connected to an amplitude detector, the output of which is the output of the reflected wave sensor.

 The drawing shows an electrical diagram of the proposed device.

 The reflected wave sensor contains a resonant U-shaped link 1, a phase shifter 2 and an amplitude detector 3, the output of which is the output of the reflected wave sensor.

где ρ - волновое сопротивление,
ω_o - центральная частота,
С, L - емкость и индуктивность.For resonant link 1 should be performed the following relations:

where ρ is the wave impedance,
ω _o is the center frequency,
C, L - capacitance and inductance.

где С1, R - емкость и сопротивление.The values of the elements of the phase shifter 2 must satisfy the following condition:

where C1, R - capacitance and resistance.

The device operates as follows. When the load Z _n equal to the wave impedance of the resonant link 1, the phase shift of the output voltage relative to the input is 90 ^o . The transmission coefficient module is one [2]. The input voltage of the resonant link 1 circuit C1R phase shifter 2 is turned at +45 ^o . The output voltage of the resonant link 1 circuit RC1 phase shifter 2 is turned at -45 ^o . The transmission coefficients of both the input and output voltages for the phase shifter 2 at the center frequency are 0.707.

 Thus, the sum of the input and output voltages of the resonant link 1, applied to the amplitude detector 3, will be zero. At the output of the reflected wave sensor, the direct voltage is also equal to zero.

When the load Z _n modulo greater or less than the wave impedance of the resonant link 1, the amplitude balance is disturbed. The phase shift is maintained. The sum of the input and output voltages of the resonant link 1, applied to the amplitude detector 3, is not equal to zero. The output of the reflected wave sensor is a constant voltage.

At a complex load Z _n, the balance of the amplitudes and phases of the input and output voltages of the resonant link 1 is applied, which is applied through the phase shifter 2 to the amplitude detector 3. The sum of the voltages is not equal to zero. The output of the reflected wave sensor is a constant voltage.

Thus, for all values of the load Z _n , except for the nominal one equal to the wave impedance of the resonant link 1, a constant voltage proportional to the standing wave coefficient appears at the output of the reflected wave sensor.

 The frequency properties of the proposed sensor of the reflected wave based on the resonant link 1 with the phase shifter 2 correspond to the frequency properties of the sensor based on the directional coupler with strip quarter-wave lines. However, the proposed sensor based on the resonant link 1 does not introduce additional attenuation into the transmission line, because is one of the elements of the harmonic filter.

Sources of information
1 H. Meinke and F.V. Gundlach. Radio technical reference. T.2. - M.: Energoizdat, 1962.

 2 N.S. Shumilin, V.B. Kozyrev, V.A. Vlasov. Design of transistor cascades of transmitters. - M .: Radio communication, 1987.

Claims (1)

 A reflected wave sensor containing a resonant link, a phase shifter and an amplitude detector, the output of which is the output of the sensor, characterized in that the input and output of the resonant link are connected to the input of the amplitude detector through a phase shifter, the input of the amplitude detector being connected to the input of the resonant link through the capacitor of the phase shifter and the output of the resonant link through a phase shifter resistor.