JP2731571B2 - Stripline type oscillator - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a stripline oscillator, and more particularly, to a stripline oscillator capable of obtaining output power with a minimum change in oscillation frequency.

[Conventional technology]

Conventionally, this type of stripline type oscillator comprises a stripline resonator 1, an output power adjustment pattern 2, a connection wire 3 for output power adjustment, an output power extraction stripline 4 ', a coupling, as shown in FIG. It comprises a capacitor 5, a negative resistance active element 6, and a load 7, and is connected as shown in the figure.

In this configuration, the output power is taken out by a strip line 4 'having a certain characteristic impedance, which is electromagnetically coupled to the strip line resonator 1, and this strip line 4' provides a desired oscillation frequency and output power. The position to be satisfied was set empirically and experimentally.

[Problems to be solved by the invention]

In the above-described conventional stripline type oscillator, when the output power taken out of the stripline resonator 1 varies due to the variation of the characteristics of the active element 6 or the like, as shown in FIG. The length (l) of the overlap between the strip line 4 'and the strip line resonator 1 is adjusted by changing the connection point of the connection wire 3 to the adjustment pattern 2 provided on the strip line resonator 1 and the load 7 The output power is kept at a specified value by changing the amount of electromagnetic field coupling with the strip line 4 '.

However, in this measure, since the Q of the stripline resonator 1 is lower than that of a dielectric resonator or the like, the overlap length (l) causes a considerable change in the oscillation frequency as shown in FIG. . Although the output power of the oscillator varies depending on the vertical distance d (d ₁ > d ₂ > d ₃ ) between the strip line resonator 1 and the strip line 4 ′ as shown in FIG. 2, they are formed on the same substrate. The vertical distance d, which is the distance between patterns, cannot be physically changed.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a strip line type oscillator capable of adjusting output power without causing oscillation frequency fluctuation.

[Means for solving the problem]

The stripline type oscillator according to the present invention comprises an active element having a negative resistance, a stripline resonator having one end coupled to the active element and the other end being an open end, and the resonance frequency of the resonator is coupled by electromagnetic field coupling. A strip line disposed substantially parallel to the resonator for extraction, and a plurality of output power adjustment patterns connected to the open end and connecting wires near an open end of the strip line; The overlapping distance from the open end of the plurality of connection wires to the length corresponding to approximately / 4 wavelength of the resonance frequency, and the output level of the resonator by changing the connection position of the output power adjustment pattern. It is characterized by adjusting.

[Action]

In the above-described configuration, the dependence of the oscillation frequency on the overlap distance between the resonator and the strip line is set to a minimum state, and the fluctuation of the oscillation frequency is suppressed.

〔Example〕

 Next, the present invention will be described with reference to the drawings.

FIG. 1 is a pattern circuit diagram showing the configuration of the present invention.
As shown, a strip line resonator 1, an output power adjusting pattern 2, an output power adjusting connecting wire 3, an output power extracting strip line 4, a coupling capacitor (C _C ) 5, a negative resistance active element 6, And a load (R _L ) 7. 3 is different from FIG. 3 in that a strip line 4 connected to a load 7 for extracting output power and an output power adjustment pattern 2
Is 1 / from the open end of the stripline resonator 1 to the resonator side.
That is, it is installed near a position separated by 4λg (λg: oscillation frequency of the resonator) while maintaining a vertical distance d from the stripline resonator 1.

FIG. 2 shows strip line resonator 1 from point A in FIG.
FIG. 11 is a diagram illustrating the dependence of the input impedance facing the side on the overlapping distance 1 between the resonator 1 and the strip line 4 calculated using the vertical distance d (d ₁ > d ₂ > d ₃ ) as a parameter. From this figure, as the difference 1 from 1 / 4λg increases, the deviation from the resonance frequency (f ₀ ) of the stripline resonator increases, and as a result, the oscillation frequency of the system fluctuates from the design value.

Therefore, in the present invention, l ≒ 1 / 4λg is used to adjust the output power under the condition that the change in the oscillation frequency is the minimum.

FIG. 1 shows a case where the open end of the strip line 4 is set at a position of 1 ≒ λλ from the open end of the strip line resonator 1. When the open end of the strip line 4 is set at the position, almost the same result is obtained.

〔The invention's effect〕

As described above, the present invention electromagnetically couples the strip line resonator and the strip line arranged in parallel with the strip line resonator by a length corresponding to approximately / 4 wavelength of the resonance frequency, so that the active element There is an effect that the output power can be adjusted under the condition that the change of the oscillation frequency designed from the negative resistance characteristic and the characteristic of the strip line resonator is minimum. Further, in the present invention, since one or more output power adjustment patterns connected by wires are provided at the open end of the strip line, the number of output power adjustment patterns connected by wires is adjusted, so that the strip line is adjusted. Of the oscillation signal can be finely adjusted around a quarter wavelength, and the frequency of the oscillation signal can be finely adjusted.

[Brief description of the drawings]

FIG. 1 is a pattern circuit diagram of a strip line type oscillator showing the configuration of the present invention, and FIG. 2 shows the dependency of the oscillation frequency on the overlap length (l) of the strip line resonator and the strip line in the configuration of FIG. Figure, third
FIG. 1 is a pattern circuit diagram showing a configuration of a conventional stripline type oscillator. DESCRIPTION OF SYMBOLS 1 ... Stripline resonator 2 ... Output power adjustment pattern 3 ... Connection wire 4,4 '... Output power extraction stripline 5 ... Coupling capacitor 6 ... Negative resistance active element , 7 ... Load.

Claims (1)

(57) [Claims] 1. An active element having a negative resistance, a stripline resonator having one end coupled to the active element and the other end being an open end, and said stripline resonator for extracting a resonance frequency of the resonator by electromagnetic field coupling. A strip line disposed substantially parallel to the resonator, and a plurality of output power adjustment patterns connected to the open end of the strip line at the open end of the strip line by connection wires in a longitudinal direction of the resonator; The overlapping distance from the open end of the line resonator to the plurality of connection wires is set to a length corresponding to approximately / 4 wavelength of the resonance frequency, and the position where the output power adjustment pattern is connected is changed to change the connection position of the resonator. A strip line resonator for adjusting an output level.