KR100451081B1 - Noise blocking structure of surface acoustic wave filter - Google Patents

Abstract

The present invention relates to a noise preventing structure of a surface acoustic wave filter, comprising: a piezoelectric substrate; An input interdigital transducer (IDT) including a signal and a ground electrode disposed on one side of the piezoelectric substrate and a plurality of fingers intersecting to form a predetermined pattern; And an output IDT arranged in parallel with the input IDT, the signal and the ground electrode being arranged oppositely, the output IDT including a plurality of fingers extending toward each other in the signal and the ground electrode. The area of the area from the cross of the finger to the ground electrode is increased to have a predetermined angle (θ) toward both sides of the input IDT. By making it more efficient, it is possible to improve the characteristics of the filter by reducing the probability of occurrence of noise during the filtering process.

Description

Noise blocking structure of surface acoustic wave filter

The present invention relates to a noise preventing structure of a surface acoustic wave filter, and more particularly, to a noise preventing structure of a surface acoustic wave filter to prevent noise generated when a signal is filtered through the surface acoustic wave filter to improve the performance of the surface acoustic wave filter. .

In general, surface acoustic waves (hereinafter referred to as SAWs) represent a state of waves transmitted along the surface of a substrate and have a feature of rapidly attenuating in a depth direction. Surface acoustic wave filters use these features as frequency selective devices.

In other words, the SAW device temporarily forms a metal electrode on a highly insulating substrate and applies a piezoelectric twist to the substrate surface. This action causes a physical wave. Since the wave speed passing through the SAW device surface is slower than electromagnetic waves, it is used as a filter to temporarily delay an electric signal or pass only a specific frequency signal.

For example, when an electrical signal is recognized during an intermediate frequency filter process, an inter-digital transducer (IDT), which converts an electrical signal into a mechanical signal, is installed at each of the input and output terminals. When a signal is applied, it is converted into a mechanical signal, and the output is converted into an electrical signal and output, thereby passing the desired frequency band and blocking the remaining band.

1 is a view showing the structure of a surface acoustic wave filter according to the prior art.

The surface acoustic wave filter according to the related art is formed in a pattern on the piezoelectric substrate 1 and has an input finger 11 formed in the form of a sink function, and both ends of the input finger 11. The input IDT 10 formed of the input electrode part 12 formed in parallel with the direction in which the signal is transmitted from the input finger 11 and the signal passing through the input IDT 10 are filtered out. The output IDT 20 includes an output finger 21 and an output electrode part 22 formed at both ends of the output finger 21 so as to be output.

In this case, the input electrode part 12 and the output electrode part 22 are made of signal electrodes 12a and 22a through which signals are transmitted, and ground electrodes 12b and 22b connected to ground, respectively, and the ground electrode 12b. Noise is removed through the input and output fingers 11 and 21 connected to the power supply unit 22b).

However, in the surface acoustic wave filter according to the related art, the input finger portion connected to the signal electrode 12a and the input finger portion connected to the ground electrode 12b do not intersect at the input finger portion 11. Since the area of the portion 13a having only the input finger portion connected to the signal electrode 12a and the area of the portion 13b having only the input finger portion connected to the ground electrode 12b are the same, the noise effectively passes through the ground. There is a problem that it is difficult to remove.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems of the prior art, and an object thereof is to provide a surface acoustic wave design in which a region from a crossing region of a plurality of input fingers extending toward each other in a signal and ground electrode to a ground electrode. The present invention provides an anti-noise structure of a surface acoustic wave filter that allows an area to be increased to effectively block noise generated when filtering a signal through the surface acoustic wave filter.

1 is a view showing the structure of a surface acoustic wave filter according to the prior art,

2 is a diagram illustrating a noise preventing structure of the surface acoustic wave filter according to the present invention.

<Explanation of symbols on main parts of the drawings>

30: substrate 40: input IDT

41: input finger 42: input electrode portion

50: output IDT 51: output finger

52: output electrode portion

According to a feature of the noise preventing structure of the surface acoustic wave filter according to the present invention for solving the above problems, a piezoelectric substrate; A signal and a ground electrode disposed in parallel to face each other on one side of the piezoelectric substrate, and a plurality of fingers extending from the signal and the ground electrode toward each other and intersecting to form a predetermined pattern to form an intersection area; An input interdigital transducer (hereinafter referred to as an IDT); A surface acoustic wave filter including an output IDT arranged in parallel with the input IDT, the output IDT including a plurality of fingers extending from the signal and the ground electrode toward each other in opposite directions; The input IDT is configured to increase with a predetermined angle θ toward both sides of the input IDT such that an area of the area from the cross region to the ground electrode is larger than the area area from the cross region to the signal electrode. .

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

As shown in FIG. 2, the noise preventing structure of the surface acoustic wave filter according to the present invention includes a piezoelectric substrate 30 and a signal electrode 42a disposed in parallel with each other on one side of the piezoelectric substrate 30 and a ground. An input IDT 40 composed of an input electrode portion 42 consisting of an electrode 42b and a plurality of input fingers 41 extending toward each other from the signal and ground electrodes 42a and 42b, and the input An output electrode portion 52 consisting of a signal and ground electrodes 52a and 52b arranged in parallel with the IDT 40 and extending toward each other from the signal and ground electrodes 52a and 52b of the output electrode portion 52; It consists of an output IDT 50 consisting of a plurality of output fingers 51.

At this time, the input fingers 41 of the input IDT 40 are intersected to form a predetermined pattern, and the area 43b of the area from the crossing area to the ground electrode 42b is the signal electrode (at the crossing area). It is formed larger than the area 43a of the region up to 42a).

In other words, the ground at the portion where the input finger connected to the signal electrode 42a and the input finger connected to the ground electrode 42b do not intersect at the input finger 41. The area 43b of the input finger connected to the electrode 42b increases toward both sides of the input IDT 40 at a predetermined angle θ, and is connected to the signal electrode 42a. The area 43a of the finger decreases as the area of the input finger connected to the ground electrode 42b increases.

Looking at the operation of the noise protection structure of the surface acoustic wave filter according to the present invention configured as described above are as follows.

First, when a signal is input from the outside to the input IDT 40, the signal is filtered through the input finger 41 while the signal is transmitted along the signal electrode 42a of the input electrode part 42.

In this case, the input signal is filtered through the input finger 41 and noise is removed through the ground connected to the ground electrode 42b.

As a result, a portion of the input finger 41 of the input IDT 40 where the input finger connected to the signal electrode 42a and the input finger connected to the ground electrode 42b do not cross each other. Since the area 43b of the input finger connected to the ground electrode 42b increases with a predetermined angle θ toward both sides of the input IDT 40, this not only effectively removes noise. The performance of the surface acoustic wave filter is improved.

The signal passing through the input IDT 40 is formed at both ends of the output finger 51 of the output IDT 50 and the output finger 51 and the output finger 51. It is output to the outside through the output electrode part 52 which consists of the signal electrode 52a and the ground electrode 52b which become.

In the noise preventing structure of the surface acoustic wave filter of the present invention configured as described above, the area of the area from the crossing area where the plurality of fingers intersects to the ground electrode in the input IDT has a predetermined angle θ. By increasing the area, the area can be increased, thereby making it possible to more efficiently perform the operation that causes the main signal to pass through the ground, which can occur during the filtering process, thereby reducing the probability of occurrence of the noise during the filtering process. The effect of the filter is to improve the zoom.

Claims (2)

A piezoelectric substrate; A signal and a ground electrode disposed in parallel to face each other on one side of the piezoelectric substrate, and a plurality of fingers extending from the signal and the ground electrode toward each other and intersecting to form a predetermined pattern to form an intersection area; An input interdigital transducer (hereinafter referred to as an IDT); A surface acoustic wave filter including an output IDT arranged in parallel with the input IDT, the output IDT including a plurality of fingers extending from the signal and the ground electrode toward each other in opposite directions; In The input IDT is increased with a predetermined angle (θ) toward both sides of the input IDT so that the area of the area from the cross region to the ground electrode is larger than the area area from the cross region to the signal electrode. Noise prevention structure of surface acoustic wave filter. delete