SU1107270A1 - Microwave converter - Google Patents

Abstract

UHF CONVERTER, contents semiconductor diode placed on the first metal mirror, first open resonator formed by the first metal mirror and a translucent mirror with a signal input, second open resonator formed by the first metal mirror and the second metal mirror, while the optical axes of the first and second open resonators are located at an angle to one another and their intersection point is combined with a semiconductor diode, characterized in that, in order to extend the range a zone of operating frequencies and reduction of conversion losses; a third metal mirror is inserted into it, installed symmetrically to the second metal mirror relative to the optical axis of the first open resonator and forming an additional open resonator with the first metal mirror made flat with a rectangular groove in which a semiconductor diode and a movable the shorting device, while the optical axes of the first, second, additional open resonators and the longitudinal axis are rigidly grooves are coplanar.

Description

The invention relates to electronics and can be used in information receiving systems. A microwave converter is known that contains signal and heterodyne channels made on segments of a rectangular waveguide, and a semiconductor diode G11. However, this CB converter has a high conversion loss and low sensitivity. The closest technical solution to the invention is a microwave converter containing a semiconductor diode placed on the first metal mirror, the first open resonator formed by the first metal mirror and the semitransparent mirror with a signal input, the second open a resonator formed by the first metal mirror and the second metal mirror, with the optical axes of the first and second openings ies resonators disposed at an angle to one another, and their point of intersection poluprovodnikoyym aligned with the diode 12. A disadvantage of the known microwave transform ers is a narrow range of operating frequencies and increased conversion loss. The purpose of the invention is to expand the range of operating frequencies and reduce conversion losses. The goal is achieved by the fact that in a microwave converter containing a semiconductor diode, placed on the first metal core, a first, open resonator formed by the first metal mirror and a translucent mirror with a signal input, the second open resonator formed by the first metal mirror and the second metal mirror In this case, the optical axes of the first and second open resonators are located at an angle to one another and their intersection point is aligned with the semiconductor diode; This metal mirror is installed symmetrically to the second metal mirror relative to the optical axis of the first open resonator and forms an additional open resonator with the first metal mirror made by P7: a square with a straight coal groove in which a semiconductor diode and a short-circuit switch are installed, while the optical The axes of the first, second, additional open resonator and the longitudinal axis of the rectangular groove are located in the same plane. FIG. 1 shows a microwave converter; in fig. 2 - the same, side view. The microwave converter contains a semiconductor diode 1, a first metal mirror 2, a first open resonator 3, a translucent mirror 4 with a signal input, a second open resonator 5, a second metal mirror 6, a third metal mirror 7, an additional open resonator 8, a rectangular groove 9, movable short circuit 10. The microwave converter operates as follows. In the first open resonator 3, an oscillation at the signal frequency -Pc is introduced through a semitransparent mirror 4 with a signal input. At the same time, the oscillation of the local oscillator at the frequency-fr is introduced into the second open resonator 5 through the coupling hole in the second metal mirror b. In this case, in the semiconductor diode 1, the oscillations are transformed with the frequencies -Pc and fg and in the spectrum of the current half-. conductive diode 1 appears oscillating with an intermediate (differential) frequency. To oscillate the local oscillator, the second open resonator 5 and the additional open resonator 8, symmetrically placed relative to the optical axis of the first open resonator 3, form a common resonator, in which the maximum oscillation amplitude is set at the location of the semiconductor diode 1. This contributes to an increase in the conversion ratio determined by the power ratio the oscillations at the frequency tf fr to the power-oscillation at the signal frequency fj, and thus7 reducing the conversion loss. Placing the semiconductor diode 1 in a rectangular groove 9, the depth of which is regulated by the moving shortcooler 10, allows, in a wide frequency range, to provide an optimal connection of the semiconductor diode 1 to the SBSh fields in the first, second and additional retractors 3, 5, and 8, which determines the implementation of the maximum conversion coefficient at a fixed frequency. The implementation of the high quality factor of the first, second and additional open resonators 3, 5 and 8 also contributes to the reduction of conversion losses, which is caused by the flat metal mirror 2 being made flat, the optical axes of the first, second and additional open resonators 3, 5 and 8 and the longitudinal axis are a rectangular groove 9 in the same plane, as well as the location of the optical axes of the second and additional open resonators 5 and 8 at the same angle to the optical axis of the first open resonator 3 and are different side of it.

Thus, the proposed microwave converter provides an extension of the operating frequency range and a reduction in conversion loss.

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Claims (1)

A microwave converter comprising a semiconductor diode located on a first metal mirror, a first open resonator formed by a first metal mirror and a translucent mirror with a signal input, a second open resonator formed by a first metal mirror and a second metal mirror, while the optical axes of the first and second open resonators are located at an angle to one another and the point of their intersection is Aligned with a semiconductor diode, characterized in that, in order to expand the range of frequencies and to reduce conversion losses, a third metal mirror is inserted into it, mounted symmetrically to the second metal mirror relative to the optical axis of the first open resonator and forming an additional open resonator with the first metal mirror made flat with a rectangular groove in which a semiconductor diode is installed and movable short-circuit, the optical axis of the first, second, additional open resonators and the longitudinal axis of the rectangular groove laid in one plane.