KR0121447B1 - Small type multi channel filter manufacturing method - Google Patents

Abstract

A method for manufacturing a small size of multiplex channel filter. One or a number of high frequency of channel filters are constructed to one package, so that the frequency band and the channel can be combined to one or can be separated into several ones. In order to make this one, a number of filter are constructed into one package, and each terminal of the filters are added at an adding point and the adding point is inserted at the package. Thereby, the structure of the multiplex channel filter is simple and the size thereof is small.

Description

How to make a small multichannel filter

1 is a schematic diagram of a typical duplexer filter,

2 is a schematic view of the overall schematic structure of the present invention;

3 (A), (B) and (C) are explanatory drawing of addition point manufacture of this invention.

The present invention relates to a method for fabricating a small multi-channel filter, and to manufacturing a small multi-channel filter having a function of combining or separating frequency bands or channels into one by configuring a channel filter in a single or several high frequency bands as a package. It is about a method.

In general, the use of multiple channels has become inevitable due to the explosion of users when transmitting / receiving wireless communication using high frequency (RF) or microwave (MICROWAVE) waves.

Therefore, due to the above phenomenon, it is necessary to bundle or separate several channels into one when transmitting / receiving channels. Conventionally, in order to filter, combine, or separate several frequency channels or transmission / reception frequency bands, first, each frequency Filter each channel using a filter, and then use a combiner to extract one output. Second, divide one input into multiple outputs using a splitter, and then use each filter to filter each channel. Third, the transmitter / receiver (TX / RX) filters are separately implemented and combined together to combine the transmitter / receiver frequency bands with one antenna. Fourth, the fourth improved. As shown in FIG. 1, the structure of the duplex is implemented to implement the transmission / reception filter into one package at the same time. In this case, a filter with a structure that transmits and receives its transmit / receive frequency band with one antenna was used.

However, the filter of the first and second structure has the disadvantage of physically bulky and weighty, such as implementing each filter and connecting the combiner or distributor separately for each port (PORT), the third and fourth structure There is a disadvantage in that only one transmit / receive frequency band is transmitted and received.

Therefore, due to the problems described above, in certain fields such as satellite payload (PAYLOAD), as the size and mass of the filter increases, the weight of the phase also increases, so that the propulsion force of the projectile is required, resulting in high cost. There was a problem that only increase the cost burden of the user.

Therefore, the present invention is to solve the problems as described above, the conventional coaxial line or printed circuit board for connecting the structure using a coupler and a separator, which is a problem of the first and second techniques of the prior art (coupling separator and each filter and coupling separator) Instead of using a microstrip line structure (PCB) type, it is possible to reduce the size and weight of the filter by directly connecting the input of the filter with a wire, and only one input / output filter, which is the problem of the third and fourth technologies. In this case, only one filter function can be combined so that multiple input / output filters can be connected at the same time, and multiple input / output channel bands can be configured as one input / output port or a multi-output port with a slightly changed structure. To make it possible.

That is, in the method of manufacturing a multi-channel filter, a plurality of filter units are combined into one package in order to combine the frequency bands and channels into one package by configuring channel filters in a single or several high frequency bands in one package. It is made by inserting into the package by tying the terminals of each filter with additional points.

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

2 is a schematic diagram showing the overall structure of the present invention. As shown in the drawing, several filters are connected to one or several (N, M) input / output terminals.

An important point in the present invention is that the summation point type of the combiner and separator is integrated into the filter and is present in one package. This structure is basically similar to the structure of the conventional duplexer filter shown in FIG. 1, but differs from the duplexer form in that several input / output filters are connected at the same time instead of one.

This eliminates the need for a connector for connecting each filter, which was the mechanical advantage of the existing duplexer, and enables a miniature arc. No loss of the connector, which is an electrical advantage, and a short electrical length with the connection point, eliminates the need for electrical phase consideration. Is excellent.

In addition, as shown in the figure, when ports 1 to N on the left become input terminals, the terminals of ports 1 to M on the right are output, on the contrary, the left side may be output and the right side may be input.

The operation of the present invention made as described above is as follows.

The input of the multi-channel coming from the left input terminal is delivered to the adding point by a coaxial cable or wire, and the power is distributed to each filter at the adding point. The power arrived at filter 1 is sent to the output by filtering only a specific frequency channel or band by the characteristics of the filter, the remaining power is consumed or returned to the output, and the operation of the filters 2 ~ M also operates as described above.

On the contrary, the input of each channel from the input terminal on the right is transmitted through the channel filter to the output terminals 1 ~ N on the left by combining the respective powers at the addition point.

In addition, since the input terminal on the left side is connected to the antenna, input / output power is present at the same time, and part of the filter is used as an input channel and the other as an output channel to perform a multiplexing operation, and the addition point mentioned in FIG. SUMMING POINT is a structure floated in an air line using a wire, a coaxial cable or a printed circuit board (PCB) pattern (S1), as shown in FIG. 3A, or as shown in FIG. As shown in FIG. 3 (C), a structure bonded by soldering or wire bonding (S2) using a printed circuit board (PCB) patch or bonding pad, or a coil (L) of a surface mount device (SMD) type The capacitor (C) element (S3) using a pad for the impedance matching structure, so as to be connected to each other at one point.

As described in detail above, the present invention miniaturized and simplified by existing addition points inside the package without exposing the combiner and separator of the existing multi-channel filter, and the electrical length is long when designing the product. By solving the separation between the ports structurally, the impedance matching circuit is added inside, thereby improving the electrical performance characteristics.

Claims (4)

In the multi-channel filter manufacturing method, to configure the channel filter in a single or multiple high frequency bands into a single package to combine or separate the frequency bands and channels into a single package, a plurality of filters in a single package And the method of manufacturing a small multi-channel filter, characterized in that the terminals of each filter are tied to the addition point and inserted into the package. The method of claim 1, wherein the addition point is manufactured in a structure in which a floating line is formed using a coaxial cable or a printed circuit board (PCB) pattern (S1). The method of claim 1, wherein the addition point is fabricated by soldering or wire bonding (S2) using a printed circuit board (PCB) patch or bonding pad. The method of claim 1, wherein the addition point is manufactured using a surface mount device (SMD) type coil (L) and a capacitor (C) element (S3) in a structure using a pad for impedance matching. How to make a multi-channel filter.