JPH051138Y2 - - Google Patents

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to the structure of a low-pass filter, and particularly to the structure of an LC low-pass filter that can be used in a high frequency band exceeding 100 MHz.

[Prior art and its problems]

An LC filter that uses inductance with a spiral conductor pattern has been announced as a thin filter for high frequency bands.

However, this inductance element using a spiral conductor pattern has the following problems.
First, cross-over wiring is required to pull out the leads from both ends of the conductor pattern, which requires a double-sided board with through holes. Therefore, there is a problem that the cost increases.

Furthermore, there is a distributed capacitance between adjacent conductor patterns of the concentric coils, which tends to cause high-frequency resonance, and the characteristic Q deteriorates at extremely high frequencies.

Furthermore, when a metal plate is brought close to a spiral conductor pattern, its inductance and Q deteriorate. Therefore, it is not possible to form a shield layer close to the coil. Therefore, jumps are likely to occur due to electromagnetic induction or electrostatic coupling from adjacent circuits.

Moreover, trimming the spiral conductor pattern is very difficult.

Therefore, the inventor proposed a filter suitable for ultra-high frequency bands using a zigzag conductor pattern 41 as an inductance, as shown in FIG. 4, and a chip capacitor 47.

However, there was a problem with the characteristics that sufficient out-of-band attenuation could not be obtained.

〔the purpose〕

The purpose of the present invention is to solve the above-mentioned problems and obtain a thin low-pass filter with good cut-off characteristics and little jump between input and output, as well as to obtain a low-pass filter with good filter characteristics. .

In particular, the purpose is to obtain a low-pass filter with good cutoff characteristics in the ultra-high frequency band of 100MHz to 2GHz.

[Means for solving the problem] The present invention uses a meandering conductor pattern as an inductance, combines it with a chip capacitor, and provides an input/output terminal and two ground terminals. Thus, the above objectives are achieved.

In other words, in a low-pass filter in which an inductance formed by a conductor pattern and a capacitance formed by a chip capacitor are arranged on a dielectric substrate, a zigzag conductor pattern on the surface of the substrate and the zigzag conductor pattern are separated but close to each other. A grounding conductor pattern is formed, a plurality of chip capacitors are arranged spanning the zigzag conductor pattern and the grounding conductor pattern, and input/output terminals are connected to the ends of the zigzag conductor pattern. It is characterized in that two ground terminals are connected to the input terminal side and the output terminal side of the ground conductor pattern.

〔Example〕

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a perspective view showing an embodiment of the present invention.
The board 10 uses a single-sided printed board. Meandering conductor pattern 1 on this surface
1 is formed at a constant length from one side of the substrate. The inductance value is determined by this length, but in the ultra-high frequency band, the necessary inductance value can be obtained with only a few folding patterns.

Along with the zigzag conductor pattern 11, a grounding conductor pattern 12 is formed on the surface of the substrate. The conductor pattern 12 is formed as a linear pattern separate from the zigzag conductor pattern 11, having a constant width along the other side of the substrate, and close to the zigzag conductor pattern.

Four chip capacitors are connected across the zigzag conductor pattern 11 and the grounding conductor pattern 12.
_C1 to _C4 are arranged. Chip capacitor C ₁ ,
C ₄ is placed across both ends of the zigzag conductor pattern 11 and the grounding conductor pattern 12 . The chip capacitors C ₂ and C ₃ are arranged astride the intermediate portion of the zigzag conductor pattern 11 and the grounding conductor pattern 12 .

With the above structure, three inductances connected in series and four capacitances connected in parallel are formed to obtain a low-pass filter.

In conventional three-terminal low-pass filters, the ground terminal is common for input and output, so there is a common impedance shown as L _c in Figure 5, although it is a small value.This common impedance is coupled to the output and the characteristics change. was deteriorating. This effect cannot be ignored, especially in ultra-high frequency bands such as 800MHz. Therefore, in the present invention, the structure of the ground terminal has been improved.

Input/output terminals 13 and 14 are connected to both ends of the zigzag conductor pattern 11. Moreover, the grounding conductor pattern 12 is connected to the grounding terminal 15 on the input terminal 13 side and the grounding terminal 16 on the output terminal 14 side, thereby obtaining a four-terminal type low-pass filter.

Figure 2 is an equivalent circuit diagram of the low-pass filter shown in Figure 1, in which two ground terminals are formed separately at the input and output terminals, and the circuit prevents the influence of impedance on the input side from reaching the output side. It shows the arrangement.

Although the above example shows a low-pass filter consisting of three inductors and four capacitors, the number of these can be set arbitrarily to obtain a low-pass filter with desired characteristics. Further, it is also possible to connect a part of the zigzag conductor pattern and trim it by cutting it out after assembly, thereby allowing fine adjustment of the characteristics.

FIG. 3 shows a comparison of the characteristics of the low-pass filter according to the present invention with that of a conventional low-pass filter.
3, the attenuation is significantly improved as compared with the dotted line 32 which shows the attenuation of the conventional device.

In the present invention, the coil with the zigzag conductor pattern utilizes inductance as a lumped constant, without considering the characteristic impedance of the transmission line.

〔effect〕

According to the present invention, it is possible to reduce the phenomenon in which an input signal is coupled to an output signal through a common impedance in an ultra-high frequency band of 100 MHz or more, so a low-pass filter with excellent cutoff characteristics can be obtained.

A low-pass filter that is thin, easily shielded, and inexpensive can be realized.

[Brief explanation of the drawing]

FIG. 1 is a perspective view showing an embodiment of the present invention, FIG. 2 is an equivalent circuit diagram thereof, and FIG. 3 is an explanatory diagram of the characteristics of a low-pass filter. FIG. 4 is a perspective view of a conventional low-pass filter, and FIG. 5 is an equivalent circuit diagram thereof. 10... Board, 11... Twisted conductor pattern, 12... Ground conductor pattern, 13... Input terminal, 14... Output terminal, 15, 16... Earth terminal.

Claims (1)

[Scope of utility model registration request] In a low-pass filter in which an inductance formed by a conductor pattern and a capacitance formed by a chip capacitor are arranged on a dielectric substrate, a serpentine conductor pattern and a grounding conductor pattern are formed separately on the surface of the substrate, and the serpentine conductor pattern and the grounding conductor pattern are formed separately. A plurality of chip capacitors are arranged across the ground conductor pattern, input/output terminals are connected to the ends of the zigzag conductor pattern, and two chip capacitors are connected to the input terminal side and the output terminal side of the ground conductor pattern. A low-pass filter characterized by having a ground terminal connected.