SU1107258A1 - Microwave generator - Google Patents

Abstract

A microwave generator containing a semiconductor diode and a dielectric material substrate on which a strip conductor is placed, to the first end of which a pin of a semiconductor diode is attached, and an output poloski conductor, to the first end of which a load is attached, while the second ends of the strip conductor are parallel to each other and between them, a dielectric resonator is installed on the substrate of the dielectric material, characterized in that, in order to increase the output power with increasing hydrochloric frequency stability, introduced an additional strip conductor which is connected to the second ends of the strip and the strip conductors of the output, the total; 5lina strip, the strip and the additional output ovogo strips of conductors on an insulating locations permittivity of the resonator is chosen equal to an odd number of half wavelengths.

Description

The invention relates to electronics and can be used to excite microwave oscillations.

A known microwave generator containing a semiconductor diode included in the length of the transmission line C.11.

However, such a microwave generator has a low frequency stability.

The closest technical solution to the invention is a microwave generator containing a semiconductor diode and a substrate of dielectric material, on which a strip conductor is placed, to the first end of which a terminal of the semiconductor diode is connected, and an advantageous strip conductor, to the first end of which a load is connected, while the second the ends of the strip conductor are parallel to one another and a Dielectric resonator is installed between them on a substrate of dielectric material [2].

A disadvantage of the known microwave generator is the low level of output power.

The purpose of the invention is to increase the output power. With increased frequency stability.

The goal is achieved in that a microwave generator containing a semiconductor diode and a substrate of dielectric material, on which a strip conductor is placed, to the first end of which is connected the output of the semiconductor diode, and an output strip conductor, to the first end of which a load is connected, while the second ends the strip conductor are parallel to each other and between them on the substrate of dielectric material a dielectric resonator is installed, an additional strip conductor is introduced, which rye priso-. it is single to the second ends of the strip and output strip conductors, and the total length of the strip, output strip and additional strip conductors from the location of the dielectric resonator is chosen equal to an odd number of half waves.

The drawing shows a microwave generator.

The microwave generator contains a semiconductor diode 1, a substrate 2 of dielectric material, a strip conductor 3, to the first end of which is connected the output of the semiconductor diode 1, a capacitive gap 4, an output strip conductor 5, to the first end of which a load is connected, an additional strip conductor b, at one end connected to the second end of the output strip conductor 5, and to the other end kVNIIIPI Order 5774/41 Branch of the RFP “Patent, pad 10 and low frequencies to the semiconductor 1 is connected continuously through a capacitive gap 4, connected to the second end of the strip conductor 3, a dielectric resonator 7, a low-pass filter 8 and capacitors 9 in the power circuit of the semiconductor diode 1, a contact area 10 for connecting a power source, a base 11 on which a substrate 2 is mounted. Capacitive '' gap 4 serves to isolate the power circuit of the semiconductor diode 1 from the external circuit of the microwave generator.

The microwave generator. Works as follows.

Through the filter 8, the water diode 1 excites microwave frequencies in the strip conductor 4, which through an additional strip conductor 6, one end of which is connected to the second end of the strip conductor 3, and the second end to the second end of the output strip conductor 5, and the output the strip conductor 5 falls into the load connected to the first end of the output strip conductor 5. Since the second ends of the strip and output strip conductors 3 and 5 and an additional strip Since the conductor 6 forms a V-shaped connection, and the dielectric resonator 7 is mounted on the substrate 2 between the second ends of the strip and output strip conductors 3 and 5, then the microwave oscillations generated by the semiconductor diode 1 fall in two ways: part of these oscillations passes along the strip, 3.6 and 5 additional strip and output strip conductors, and the other part of the oscillations through the dielectric resonator Ί due to its electromagnetic coupling with the strip and output strip wire nicknames 3 and 5. Since the phase shift of the two parts of the oscillations is different due to the difference in the electric lengths of the paths that it travels, then at the frequencies at which they are in phase, an increase in the amplitude of the oscillations and, consequently, the output power , but at frequencies where it is in antiphase, their interference. The phenomenon of interference is equivalent to an increase in the quality factor of the oscillatory system of the generator, which helps to increase the stability of the frequency of the generated oscillations.

Thus, the proposed microwave generator provides increased output power while increasing frequency stability.

Circulation 862 Subscription

Uzhhorod, Project 4,

Claims (1)

Microwave generator containing a semiconductor diode and a substrate of dielectric material, on which a strip conductor is placed, to the first end of which a terminal of a semiconductor diode is connected, and an output strip conductor, to the first end of which a load is connected, while the second ends of the strip conductor are parallel one another and between them on a substrate of a dielectric material a dielectric resonator is installed, characterized in that, in order to increase the output power at high frequency abilities, an additional strip conductor is introduced, which is connected to the second ends of the strip and output strip conductors, and the total length of the strip, output strip and additional strip conductors from the location of the dielectric resonator is chosen to be an odd number of half waves. „1107258 A l