KR930006654B1 - Frequency control method for microstrip line oscillator - Google Patents

Abstract

In a method to adjust the resonant frequency of a voltage control type resonator for band creation in a wireless communication facility, a cordless telephone and a car phone using micro strip wire resonators, a number of non-conductive spaces in shape of a square or an oval are properly arranged on a board formed with conductive layer, in a micro strip wire resonator. The inductance of the strip wire is adjusted by removing a part of the conductive layer along with the non-conductive spaces, according to the resonant frequency.

Description

Frequency Control Method of Microstrip Line Resonator

1 is a plan view of a substrate for explaining the method of the present invention.

2 is a circuit diagram of a voltage controlled oscillator.

3 is a plan view of a substrate for explaining a conventional frequency adjusting method.

* Explanation of symbols for main parts of the drawings

1 substrate 2, 4 coupling capacitor

3: micro strip line resonator 5: barrier cap diode

20: non-conductive space 21: resonant substrate

The present invention relates to a method for adjusting a frequency of a microstrip line resonator, and more particularly, to a method for adjusting a resonant frequency of a voltage controlled oscillator for transmitting / receiving band setting of a wireless communication device, a cordless telephone, a car phone, etc. using a microstrip line resonator.

Conventionally, after trimming the dielectric coaxial resonator to adjust the coarse resonant frequency, a trimmer capacitor connected in parallel with the dielectric coaxial resonator is used to fine tune the resonance frequency, or to form a voltage-controlled basin as shown in FIG. The microstrip line resonator 12 is connected to the ground 11 for the grounding potential to which the connection land 15 to which the coupling capacitors 13 and 14 are connected and the one terminal of the barrier cap diode 16 are connected. 17) were formed with appropriate lengths, and the resonant frequency was adjusted by the inductance set by the microstrip line resonator 12.

Such a method of adjusting the resonant frequency using a dielectric coaxial resonator is difficult to mount the resonator, is difficult to adjust the frequency, and the cost of the product increases, and the resonance is performed using a fixed microstrip line resonator. The method of adjusting the frequency has a problem that it is difficult to accurately adjust the frequency due to the tolerance of the passive elements related to the resonant frequency setting, and re-create the substrate by changing the preference of the strip every time the frequency is changed.

An object of the present invention is to solve the above problems and to provide a method for adjusting the frequency of the microstrip line resonator that can accurately adjust the desired resonant frequency of the microwave (UHF) band.

In order to achieve the above object, the method of the present invention provides a microstrip line resonator (10) so that a plurality of non-conductive spaces 20 having an appropriate width and quadrangular shape are arranged on the upper surface of the substrate 21 on which the conductive film is formed. 3), the inductance is adjusted by adjusting the length of the strip line while removing a part of the conductive film including the non-conductive space portion 20.

Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a plan view of a substrate assembly of a voltage controlled oscillator for explaining the method of the present invention, in which the microstrip top ends 22 of the resonators 3 are connected to the lands 7 for connection. The land 7 is a conductive film formed on the substrate 1. Coupling capacitors (2) and (4) are electrically connected to both sides of the blade connection land (7), and the other terminal of the coupling capacitor (4) is connected to the connection land (6) again. 6) is connected to the barrier cap diode (5). In addition, the other terminal of the barrier cap diode 5 is connected to the connecting land 9 connected to the low potential, and the lower conductive portion 22 'of the spiral microstrip line resonator 3 has the ground potential. It is connected to the other side of the land 9 for a connection.

2 shows a circuit diagram of a voltage controlled oscillator, in which a resonant frequency is determined by a microstrip line resonator 3, a barrier cap 5, and the like according to an input tuning voltage VT. In the oscillation circuit 10 including (Q1), the high frequency of the microwave band is oscillated.

On the other hand, the oscillation frequency is 920MHz at the intermediate voltage (2.5V) of the tuning voltage (VT) for the oscillation frequency to be a constant band (910-930MHz) at a constant voltage width (1 ~ 4V) of the tuning voltage (VT) Should be stored as Accordingly, the oscillation frequency is adjusted by adjusting the inductance of the microstrip line resonator 3, and the inductance of the microstrip line resonator 3 is changed and adjusted according to the line length of the resonator 3. Accordingly, the microstrip line resonator 3 is formed by arranging a plurality of non-conductive space portions 2 having a proper width in a square shape on the upper surface of the high dielectric constant substrate 21 having a conductive film such as silver (Ag) arranged at appropriate intervals. In Figure 1, a portion of the conductive film including the non-conductive space portion, as shown by the dotted line in Figure 1, by adjusting the length of the strip line while being able to easily adjust the resonant frequency.

In addition, the microstrip line resonator 3 may be formed directly on the constituent substrate 1 of the voltage controlled oscillator instead of the separate substrate 21 to adjust the inductance, and the non-conductive space portion 20 may have an elliptical shape. You can also make

As such, the present invention forms a non-conductive space part having a square or oval shape with an appropriate width to be cast at an appropriate interval so that the length of the strip line is adjusted while removing a part of the conductive film including the non-conductive space part, thereby providing a separate frequency adjusting trimmer capacitor. It does not need to be used, and also has the effect of changing the resonant frequency and not having to redesign and manufacture the micro strip line.

Claims (2)

A microstrip line resonator 3 is formed on the substrate 1 on which the conductive film is formed so that a plurality of non-conductive space portions 20 having an appropriate width in a rectangular shape or an ellipse shape are arranged at appropriate intervals. A method of adjusting the frequency of a microstrip line resonator, characterized in that the inductance of the strip line is adjusted while removing a portion of the conductive film including the conductive space portion 20. 2. A method according to claim 1, characterized in that the microstrip line resonator (3) is formed directly on the substrate (1) on which the voltage controlled oscillator is constructed.

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