SU1392612A1 - Generator - Google Patents

Abstract

This invention relates to electronics and extends the frequency tuning range. Hr contains / J Ce, operant diode 1, varactor diode 2, segment 3 main and segment 4 output microstrip lines, diel. resonators (LR) 5 and 6, segments 7 and 8 of the microstrip line, additional commutator diodes 9 and 10, additional absorbing loads 11 and 12, control signal supply circuit 13 and voltage supply depot 14 to diodes 1 and 2. Resonant frequencies DR 5 and 6 are separated by 2 / lf. This allows the frequency tuning range to be extended using diode 2 to 4df, where uf. - range of frequency detuning from the average value due to diode 2. 1 sludge. X / J i SL 11 W ///.

Description

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The invention relates to electronics and can be used to initiate electrical oscillations.

The purpose of the invention is the extension of the frequency tuning range.

The drawing shows the generator.

The generator contains a generator diode 1, a varactor diode 2, a segment 3 of the main and a segment 4 of the output microstrip line, the first 5 and second 6 dielectric resonators, the first 7 and the second 8 segments of the microstrip line, additional capacitors 9 and 10, additional absorption 11 and 12, the control signal supply circuit 13 and the voltage supply circuit 14 to the generator 1 and varactor 2 diodes. ,

The generator works as follows.

When 14 voltages are supplied across the circuits, the oscillator diode 1 induces oscillations whose frequency varies from within t & ff where L is the frequency offset range from the mean value due to the varactor diode 2. The mean value of the frequency setting is first 5 and 6 second dielectric resonators under the

The control signals supplied through the circuits 13 to the additional commutator diodes 9 and 10. For this, the first dielectric resonator 5 is electromagnetically coupled to the cut 4 and is located at a distance D, / 2, where I, is the resonant wavelength of the first dielectric resonator 5, 6t oscillator diode 1, and the second dielectric resonator 6 of the electroma is connected to the segment 4 and installed rotary oscillator diode at a distance of j / 2, where the resonant wavelength of the second dielectric resonator 6. As the first 7 and second 8 others with These ends are electromagnetically coupled to the corresponding first 5 and second 6 dielectric resonators, the additional commutator diode 9 is connected in parallel in section 7 at a distance of A1 / 4 from its other end, and the additional commutator diode 10 is connected in parallel in the second section 8 at a distance A | / 4 from its other end, then when the state changes, the research institute requires additional commutating diodes 9 and 10; the frequency is stabilized by the first 5 and second 6

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electric resonators. When the additional switch diad 9 is closed and the additional switch diode 10 is opened, the additional absorbing load 12 shunts the second dielectric resonator b and the frequency is stabilized by the first dielectric resonator 5. When the additional switch dip 9 is opened and the additional kimmutator diode 10 is closed, the additional absorbing load 11 shunts the first dielectric resonator 5 and frequency stabilization is carried out by the second dielectric resonator 6 The resonant frequencies of the first and second dielectric resonators are separated by 2/5 f, this allows the frequency tuning range to be extended by a varactor diode 2 to f.

Formula of invention

A generator comprising a generator diode connected in series between a segment of the output microstrip line and a segment of the main microstrip line, to the other end of which a varactor diode is connected, and a first dielectric resonator electromagnetically connected to the segment of the output microstrip line and located at a distance A, / 2 from generator diode, where A, is the resonant wavelength of the first dielectric resonator, characterized in that, in order to extend the frequency tuning range, the second dielectric resonator electromagnetically connected to the output microstrip line, and the first and second segments of the microstrip line, to one end of which the corresponding additional absorbing loads are connected and to which the corresponding additional switchboard diodes are connected in parallel, while the other ends of the first and second segments of the microstrip the lines are electromagnetically coupled with the corresponding first and second dielectric resonators, to the first segment of the microstrip line and an additional switch diode is connected at a distance A, / 4 from its other end, to the second segment of the microstrip line an additional switch diode

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connected at a distance of A7 / from its resonator, which is installed at the other end, where j is the resonant distance / 2 from the generator wavelength of the second dielectric diode.

Claims (1)

Formula of the invention A generator comprising a generator diode connected in series between a segment of an output microstrip line and a segment of a main microstrip line, a varactor diode is connected to its other end, and a first dielectric resonator electromagnetically coupled to a segment of the output microstrip line and located at a distance of A _t / 2 from generator diode, where A, is the resonant wavelength of the first dielectric resonator, characterized in that, in order to expand the frequency tuning range, additional A second dielectric cavity is electromagnetically coupled electromagnetically to a segment of the output microstrip line, and the first and second segments of the microstrip line are connected to one end of which the corresponding additional absorbing loads are connected and to which the corresponding additional commutator diodes are connected in parallel, while the other ends of the first and second segments of the microstrip the lines are electromagnetically connected to the corresponding first and second dielectric resonators, to the first segment of the micro On the same line, is the additional switching diode connected at a distance of A, / 4 from its other end, is the additional switching diode connected to the second segment of the microstrip line at a distance of A _? / 4 from its other end, where b is the resonant wavelength of the second dielectric resonator, which is installed at a distance L _? / 2 from the generator diode.