SU936439A1 - Microwave receiver - Google Patents

Description

(54) SUPER-EXTREME FREQUENCY RECEIVER

Claims (1)

The oscillation is a high-frequency technique and can be used to receive weak signals over a wide frequency range. A microwave receiver is known, which contains an input amplitude detector based on a superconducting point contact, the bias circuit of which is formed by connecting the source and the displacement current modulator in series, the control input of the bias current modulator being connected to the output of the frequency generator of the modulator and the output of the amplitude input detector is connected to a series-connected selective amplifier tuned to the modulation frequency, a synchronous detector the input connected to the modulation frequency generator and the output G1 signal recording unit. However, the known receiver has a low signal-to-noise ratio and low stability. The purpose of the invention is to increase the signal-to-noise ratio and increase stability of operation. The goal is achieved by the fact that in a microwave receiver containing an input amplitude detector based on a superconducting point contact, the bias circuit of which is formed by a series connection of the source and bias current modulator, and the bias current modulator control input through the first current element is connected the output of the modulation frequency generator, and the output of the input amplitude detector is connected to a series-connected selective amplifier tuned to the modulation frequency , a synchronous detector, a control input connected to a modulation frequency generator, and an output signal detection unit, a circuit from a series-connected additional selective amplifier tuned to the second harmonic of the modulation frequency, a synchronous detector, is connected to the output amplitude detector; with a modulation frequency generator, an integrator, and a current-setting element, the output of which is connected to the auxiliary input of the bias current modulator. The drawing shows a block diagram of the proposed receiver. The microwave receiver contains an input amplitude detector 1 based on a superconducting point contact, the bias circuit of which is formed by connecting the mixing current source 2 and the bias current modulator 3, selective, amplifier 4, synchronous detector 5, output unit 6, signal generator, 7 o'clock modulation points, additional selective amplifier 8, additional synchronous detector 9, integrator 10, first and second current supply elements 11 and 12, respectively. The receiver works as follows. The input amplitude detector 1 / cooled to a temperature below the critical temperature from the upper conductor of the shche point contact receives a weak microwave signal, for example P 1 OW. The position of the operating point according to the current-voltage characteristic is controlled by the bias current source 2, and its position is modulated by applying the bias current to the modulator 3 through the first current-emitting element 11, a small signal with a frequency of, for example, 100 kHz, from the generator 7. The detected weak The microwave signal is amplified by selective amplifiers 4 and 8 with center frequencies, respectively, and 2, for example, 10OkHz and 2OOkHz. The amplified signals are fed to synchronous detectors S and 9, some reference frequencies, respectively f and 2f, are supplied from generator 7. The output voltage of a weak microwave signal is determined by the output unit 6. The output voltage of the additional synchronous detector 9 is fed to the input of the integrator 10, the output the voltage of which through the second current-supplying element 12 enters the modulator 3 and regulates the mixing current and, at the same time, the position of the operating point according to the current-voltage characteristic. In this case, a closed automatic control system is obtained, which selects the position of the operating point in the natural circuit formed by the current steps on the current-voltage characteristic, since the signal amplitude at frequency 2 at this point is zero: and the amplitude of the recorded signal is at its maximum. This follows from the fact that it is vertical. the current step portion is the bend of the current-voltage characteristic, where its first derivative with respect to current is maximum and the second is equal to zero. By changing the bias current of a superconducting 5 point contact by a bias current source 2, the selective microwave receiver can be continuously tuned in frequency, while changing the setting of the selective microwave reception or changing the frequency of the received signal corresponds to proportional voltage variation at the output of the integrator 10. Thus the use of an automatic control system distinguishes the proposed receiver from the known one, since the increase in the signal-to-noise ratio and the increase in stability are o use a selective microwave receiver in spectral studies, radio astronomy, especially for long-term measurements. Claims of the invention: A microwave receiver comprising an input amplitude detector based on a superconducting point contact, the bias circuit of which is formed by the series connection of a source and a bias current modulator, the bias current modulator control input being connected to the output of the modulation frequency generator and the output of the input amplitude detector is connected to a series-connected selective amplifier tuned to the modulation frequency, synchronous detail A control input connected to a modulation frequency generator and an output signal acquisition unit, characterized in that, in order to increase the signal-to-noise ratio and increase operation stability, a series of additional selective amplifier connected in series is connected to the output amplitude detector to the second harmonic of the modulation frequency, a synchronous detector, a control input connected to the frequency generator module 59364396 information system, integrator and tokozadakad him Ele. Sources of information cop, the output of which is connected to the W. taken into account during the examination full current modulator input1. A.and S.J. Arrv, bias .43, No. 50, 1972 (prototype).