KR900003697Y1 - High frequency oscillator - Google Patents

Abstract

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Description

High frequency oscillator

1 is a plan view of the ceiling plate of the shield case of one embodiment of the high frequency oscillator of the present invention.

2 is a cross-sectional view taken along the line C-C in FIG.

3 is a plan view from which a ceiling plate of a shield case of a conventional high frequency oscillator is removed.

4 is a cross-sectional view taken along the line A-A of FIG.

5 is a cross-sectional view taken along the line B-B in FIG.

* Explanation of symbols for main parts of the drawings

1: Sealed Case 1a: Advanced Board

2: coaxial dielectric resonator 2a: external conductor

2b: internal conductor 3: printed circuit board

3a: copper foil 3b: copper foil

4: oscillation circuit 5: amplification circuit

6: shield plate 7: terminal

11: Seal Case 11a: Advance Edition

12: coaxial dielectric resonator 12a: outer conductor

12b: internal conductor 13: printed circuit board

13a: copper foil 13b: copper foil

14: oscillation circuit 15: amplification circuit

17: terminal 18: soldering

19: soldering

The present invention relates to a high frequency oscillator in which the output level and frequency of the oscillation output do not vary by vibration.

One example of a conventional high frequency oscillator is shown in FIGS.

FIG. 3 is a plan view in which a shield case of a conventional high frequency oscillator is removed from the ceiling plate, FIG. 4 is a cross-sectional view taken along the line A-A of FIG. 3, and FIG. 5 is a cross-sectional view taken along the line B-B of FIG.

3 to 5, the outer conductor 2a of the coaxial dielectric resonator 2 is soldered to the advanced substrate 1a of the shield case 1 at one corner of the shield case 1. It has been electrically connected and fixed.

Also, a printed circuit board 3 is disposed in the shield case 1.

In this printed circuit board 3, a circuit element forming the oscillation circuit 4 and a circuit element forming the amplification circuit 5 are divided and disposed, and the oscillation circuit 4 and the amplification circuit 5 are arranged. In between, it is soldered to the printed circuit board 3 and the advanced board 1a.

In addition, an appropriate circuit pattern is formed on the copper foil 3a on the upper surface of the printed circuit board 3, and the circuit elements are properly soldered to form the oscillation circuit 4 and the amplification circuit 5.

In addition, the oscillation circuit 4 and the inner conductor 2b of the coaxial dielectric resonator 2 are properly connected by the terminal 7, and the lower copper foil 3b is soldered to the advanced substrate 1a. It is done.

With this structure, the oscillation circuit 4 for outputting the oscillation wave using the coaxial dielectric resonator 2 as the resonant element, and the amplification circuit 5 for amplifying and outputting the oscillation wave are one shield case 1 High frequency oscillator housed in the

By the way, the shield plate 6 of the conventional high frequency oscillator separates the oscillation circuit 4 and the amplification circuit 5 at high frequency, and improves the isolation characteristics of the amplification circuit 5 itself. At the same time, it is formed to improve the isolation between the oscillation circuit 4 and the amplification circuit 5.

However, since the shield plate 6 is provided with a plate-like body standing on the adjoining substrate 1a, the shield plate 6 is easily vibrated in the direction of the plate thickness, and the shield plate 6 is sealed by the vibration applied to the high frequency oscillator. Vibrates within (1).

As a result, the isolation characteristics of the amplifier circuit 5 and the isolation of the amplifier circuit 5 and the oscillation circuit 4 slightly changed, causing the output level and frequency of the oscillation output to fluctuate.

An object of the present invention is to solve the problems of the conventional high frequency oscillator, and to provide a high frequency oscillator in which the output level and frequency of the oscillation output do not vary by vibration.

In order to achieve the above object, the high frequency oscillator of the present invention includes an oscillation circuit for outputting an oscillation wave as a coaxial dielectric resonator as a resonance element, an amplification circuit for amplifying and outputting the oscillation wave, and one shield case. In the high frequency oscillator housed therein, the coaxial dielectric resonator is disposed between the oscillation circuit and the amplification circuit, and the outer conductor of the coaxial dielectric resonator is electrically connected to the shield case. It is constructed by connecting and fixing.

A coaxial dielectric resonator is disposed between the oscillation circuit and the amplification circuit, and an external conductor of the coaxial dielectric resonator is electrically connected and fixed to the shield case, so that the outer conductor of the coaxial dielectric resonator acts as a shield plate. Thus, the oscillation circuit and the amplification circuit are separated at high frequency.

Even if vibration is applied to the high frequency oscillator, the coaxial dielectric resonator as the shield plate does not vibrate in the shield case.

EXAMPLE

When described in detail with reference to Figures 1 and 2 attached to an embodiment of the present invention as follows.

1 is a plan view from which the shield case ceiling plate of one embodiment of the high frequency oscillator of the present invention is removed, and FIG. 2 is a cross-sectional view taken along line C-C in FIG.

1 and 2, the shield case 11 is the depth of the diameter of the coaxial dielectric resonator 12, the coaxial dielectric resonator 12 in the center of the ceiling plate of the seal diagram case 11 A hole 11b through which a part of the outer conductor 12a is exposed is drilled.

Then, a circuit element is formed such that the printed circuit board 13 is formed on both sides of the coaxial dielectric resonator 12 and the upper surface of the printed circuit board 13 forms the oscillation circuit 14 on one side thereof. On the other side of the upper surface of the printed circuit board 13, a circuit element for forming the amplifier circuit 15 is arranged.

Further, it is preferable that an appropriate circuit pattern is formed on the upper surface of the printed circuit board 13 as the copper foil 13a, and the oscillation circuit 14 and the amplification circuit 15 are formed by properly soldering the circuit elements. It is the same as the conventional one shown in FIG.

Then, the outer conductor 12a of the coaxial dielectric resonator 12 is connected to and fixed to the copper foil 13b on the bottom surface of the printed circuit board 13 by soldering 18 and 18, and the copper foil 13a on the upper surface thereof. The inner conductor 2b of the coaxial dielectric resonator 12 is connected by the terminal 17 to the oscillation circuit 14.

The assembly of the coaxial dielectric resonator 12 and the printed circuit board 13 is housed in the shield case 11, and a part of the outer conductor 12a of the coaxial dielectric resonator 12 is exposed from the hole 11a. This external conductor 12a is electrically connected to and fixed to the ceiling plate of the shield case 11 as solders 19 and 19.

In addition, the copper foil 13b on the lower surface of the printed circuit board 13 is soldered to the side wall of the shield case 11.

In addition, the shield case 11 is covered with an advancing plate 11a, and the edge of the advancing plate 11a is soldered to the shield case 11.

In such a configuration, the coaxial dielectric resonator 12 is disposed between the oscillation circuit 14 and the amplifying circuit 15.

Then, the outer conductor 12a of the coaxial dielectric resonator 12 is directly soldered to the shield case 11, and the shield case 11 is formed through the copper foil 13b on the bottom surface of the printed circuit board 13. ), The outer conductor 12a acts as a shield plate.

In addition, when the coaxial dielectric resonator 12 forms the high frequency oscillator so that the outer conductor 12a is interposed between the ceiling plate of the shield case 11 and the advancing plate 11a, the height of the high frequency oscillator is approximately coaxial dielectric. The diameter of the resonator 12 can be reduced.

As described above, according to the high frequency oscillator of the present invention, the outer conductor of the coaxial dielectric resonator disposed between the oscillating circuit and the amplifying circuit acts as a shield plate, so that the oscillating circuit and the amplifying circuit are separated at a high frequency. do.

Since the coaxial dielectric resonator is directly fixed to the shield case, even if vibration is applied to the high frequency oscillation circuit, the coaxial dielectric resonator does not vibrate in the shield case, and the output level of the oscillation output is caused by the vibration. And the frequency does not fluctuate.

In addition, since the shield plate as in the prior art is omitted, this alone reduces the number of parts and can be manufactured at low cost.

Claims (1)

A high frequency oscillator in which an oscillation circuit 14 for outputting an oscillation wave is used as a resonant element, and an amplification circuit 15 for amplifying and outputting the oscillation wave in one shield case 11. The coaxial dielectric resonator 12 is disposed between the oscillating circuit 14 and the amplifying circuit 15, and the outer conductor 12a of the coaxial dielectric resonator 12 is sealed. A high frequency oscillator characterized by being electrically connected to and fixed to the case 11.