SU118081A1 - Measuring receiver for ultra high frequencies - Google Patents

Description

Devices are known for receiving signals lying below the noise level in which the mechanical switching of the signal is replaced by electronic.

However, they have a low sensitivity.

The proposed measuring receiver of ultra-high frequencies (UHF) has a higher sensitivity.

A feature of this receiver is the use of a noise generator, which serves to counter-phase the compensation of the parasitic modulation of the receiver's own noise, which occurs when the signal is modulated at the input of the intermediate frequency amplifier.

FIG. 1 shows the block diagram of the proposed receiver; Fig 2 is a diagram of the operation of the electronic switch

The block diagram consists of a local oscillator /; mixer 2; intermediate frequency amplifier (UHF) 3; detector 4; narrowband modulation frequency amplifier 5; phase detector 6; zero indicator 7; electronic switch S; compensating noise generator 9; exemplary limit attenuator 10 at intermediate frequency and intermediate frequency generator (THD) or noise generator 11- In addition, the receiver has two inputs / and / / to an intermediate frequency amplifier (IFCH) 3 and one microwave input to mixer 2.

The electronic switch 8 alternately transmits signals to the IF amplifier 3 from the input / and input I. When the signals are not equal, the detector 4 at the output of the IF amplifier 3 will select the variable component of the modulation frequency. The voltage pulses from detector 4 through narrowband amplifier 5 are fed to phase detector 6 and cause the zero indicator 7 to deviate.

The noise generator 9 is designed for anti-phase compensation of the modulation of the receiver's own noise.

An intermediate frequency generator with an exemplary limit attenuator 10 is designed to accurately measure the power difference at the input of the mixer 2.

The electronic modulation circuit at the input of the intermediate frequency amplifier is given in FIG. 2. The lamps and the pairs are used as the input of the amplifier under the grounded cathode – grounded grid circuit. With alternate locking of the cathode of the lamps / 7i and L on the total load of these stages, there will be an antiphase modulation of the intrinsic noise of the lamps A and A and the signals arriving at their inputs. In the absence of the microwave signal and the signal from the intermediate frequency generator 11, by changing the power of the compensating oscillator made on the DK-B4 crystal detector, the total load of the lamps L and JIz can be obtained from the mixer on the one hand and from the mixer lamps Lz and shumov from the generator 9j on the other hand. If the above mentioned equality alternates locking the Lg and Lg lamps, it will not cause the receiver's own sound modulation in the total load of the modulated lamps i and Lz. converted signal. Thus, after antiphase compensation of the intrinsic noise modulation, the operation of the receiver when receiving a non-modulated signal is similar to the operation of a conventional receiver when receiving a modulated microwave signal. The use of modulation in the UPCH channel with compensation of modulation of its own sounds ensures the operation of the receiver according to the modulation method in the entire microwave range. The use of the L trigger in the circuit of the electronic switch ensures operation without any adjustments when the starting frequency is changed within wide limits.

Subject invention

Measuring receiver for ultra-high frequencies with modulation of the signal by means of an electronic switch, characterized in that, in order to increase the sensitivity of the receiver, it uses a sound generator, which serves to counter-phase the compensation of the receiver's twitch modulation of the noise at the input of the intermediate amplifier frequencies.

SHOUBHOZ