KR20050063409A - Quad band antenna switch module circuit - Google Patents

Abstract

The present invention separates the transmission / reception signals of the GSM transmission / reception signal and the DCS / PCS / W-CDMA signal by using a diplexer circuit for the signal received from the antenna, and controls the special switching voltage for the GSM reception signal and the DCS reception signal. The PCS reception signal and the W-CDMA reception signal are detected when a switching voltage is input, thereby easily separating the GSM transmission / reception signal, the DCS transmission / reception signal, and the PCS transmission / reception signal and the W-CDMA transmission / reception signal. It provides a multi-band antenna switch module circuit for DCS / PCS / W-CDMA.

Description

Multiband Antenna Switch Module Circuit {QUAD BAND ANTENNA SWITCH MODULE CIRCUIT}

The present invention is a time division mobile communication terminal of the European-style mobile communication method of the GSM (Global System for Mobile Communication) GSM (900MHz band) of the four different frequencies, the Digital Communication System (DCS) of the 1800MHz band, PCS (1900MHz band) The present invention relates to a multi-band antenna switch module circuit that enables selective use of Personal Communication System (WP-CDMA) and W-CDMA (W-CDMA) in the 2000 MHz band.

More specifically, using a diplexer circuit for the signal received from the antenna to separate the transmit and receive signals of the GSM transmit and receive signals and DCS / PCS / W-CDMA, and the special switching voltage for the GSM and DCS received signals Receives no control and the PCS receive signal and W-CDMA receive signal detect the PCS / W-CDMA receive signal when the switching voltage is input. Easily separate the CDMA transmit and receive signals, minimize the area of the printed circuit board by mounting elements attached to the printed circuit board inside the module when using a switch module, and use a single band (GSM / DCS) / PCS / W-CDMA) can be used to selectively select the desired band (band), thereby improving efficiency while minimizing the use satisfaction It relates to a multi-band antenna switch circuit module to.

The development of personal mobile communication has exploded the number of subscribers joining the mobile communication system, requiring the use of new mobile communication methods and new frequency bands to accommodate the increasing subscribers. There is a need for a multi-band terminal capable of selectively using a new communication frequency with a mobile communication terminal.

That is, as shown in Figure 1, a block diagram of a conventional triple band antenna switch circuit, which is connected to the diplexer portion 2, the diplexer portion 2 connected to the antenna 1 Comprising the first switching unit 3, the second switching unit 4 and the third switching unit 4, the diplexer 2 separates the GSM transmit and receive signals and DCS / PCS transmit and receive signals, The first switching unit 3 separates the GSM transmission signal and the reception signal from the second switching unit 4 and the DCS / PCS transmission signal and the reception signal, respectively, and the third switching unit 5 the PCS reception signal Was separated.

From such a triple band antenna switch circuit, there is a need for a quad band antenna switch module that has an additional circuit configuration for the third generation mobile communication W-CDMA band and also has good overall characteristics.

In addition, as shown in Figure 2, a block diagram of a conventional quad-band antenna switch circuit, which is a diplexer portion 2-1 connected to the antenna 1-1, and the diplexer portion 2 And a first switching part 3-1 and a second switching part 4-1 connected to -1), and a band pass from the first and second switching parts 3-1 and 4-1. A filter (BPF) is connected to separate the DAMPS / GSM / DCS / PCS transmission / reception signals therefrom.

This has the advantage of reducing the configuration of the switching part, but the band loss filter and the separation characteristics of the band is deteriorated unless the bandpass filter (BPF) with close separation bands such as DAMPS / GSM and DCS / PCS has excellent separation characteristics. For this reason, in the case of the LTCC RF module, which is characterized by being composed of one ceramic module, its configuration is difficult, and the DAMPS band is changed from the existing mobile communication to the W-CDMA band, which is the third generation mobile communication. Rather, there is a need for a quad band antenna switch module that can utilize W-CDMA bands.

Therefore, the antenna switch module circuit conventionally implemented due to the above problems is limited in some degree of efficiency, and there is always a problem that the satisfaction and reliability in use are deteriorated as a whole.

The present invention has been made to solve the problems of the prior art as described above has the following object.

The present invention uses a diplexer circuit for the signal received from the antenna to separate the transmission and reception signals of the GSM transmit and receive signals and DCS / PCS / W-CDMA, and to control the special switching voltage for the GSM and DCS received signals To detect the PCS / W-CDMA reception signal when the switching voltage is input to the PCS reception signal and the W-CDMA reception signal, so that the GSM transmission / reception signal, the DCS transmission / reception signal, the PCS transmission / reception signal and the W- It is easy to separate CDMA transmission / reception signals and use all four bands (GSM / DCS / PCS / W-CDMA) or selectively as one module to improve efficiency while providing a miniaturized switch module. There is this.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment for achieving the above object of the present invention will be described in detail.

In describing the present invention, when it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

In addition, the terms to be described below are terms set in consideration of functions in the present invention, which may vary depending on the intention or custom of the user and the producer, and the definition should be made based on the contents throughout the present specification.

First, as shown in the accompanying drawings, Figures 3 to 5, Figure 3 is a block diagram of a multi-band antenna switch module circuit for explaining the present invention, Figure 4 is a specific configuration for showing an embodiment according to the present invention 5 is a circuit diagram showing a block diagram showing another embodiment to be implemented by the present invention.

That is, the present invention is connected between the antenna and the GSM, DCS / PCS / W-CDMA band transmitting circuit and the GSM, DCS / PCS / W-CDMA band receiving circuit, the path between the antenna and the transmitting circuit and the antenna and the receiving circuit In order to easily switch the path between the low-pass filter 300a for filtering and passing the GSM signal of 900MHz band so as to split the GSM and DCS / PCS / W-CDMA signal transmitted and received through the antenna 10 and Diplexer circuit section 300 including high pass filter 300b for filtering and passing DCS and PCS / W-CDMA signals over 1800 MHz band, and transmitting terminals 32 and 34 for GSM and DCS / PCS / W-CDMA. And a band-pass filter 350 and 360 for transmitting side to remove unnecessary high frequency signals.

In addition, when a predetermined voltage is applied to the first voltage control terminal 31 at one side of the transmitting bandpass filter unit 350, the GSM signal is detected and the transmission signal is filtered to diplexer circuit unit 300. The GSM transmission terminal 32 is connected to transmit to the band pass filter 300a of the transmission through the antenna 10 and the GSM reception signal when a predetermined voltage is not applied to the first voltage control terminal 31. When a predetermined voltage is applied to the second voltage control terminal 36 on the GSM reception terminal 33 and the transmission bandpass filter unit 360 which are detected and received, a DCS / PCS / W-CDMA transmission signal is applied. A transmission terminal 34 of a DCS / PCS / W-CDMA which detects and filters the transmission signal to be transmitted to the high pass filter 300b of the diplexer circuit unit 300, and the second voltage control terminal ( 36) DCS received by detecting DCS received signal when no voltage is applied When a predetermined voltage is applied to the terminal 35 and the third voltage control terminal 38, the PCS reception signal is detected and transferred to the PCS reception terminal 37 so that the reception signal is detected. When a predetermined voltage is applied to the three switching unit 330 and the fourth voltage control terminal 39, the W-CDMA reception signal is detected and transferred to the W-CDMA reception terminal 40 to detect the received signal. The fourth switching unit 340 for the path switching to be made.

In addition, the fourth switching unit 340 for the path switching is separated from other bands to independently detect the W-CDMA received signal.

The path switching MMIC switching unit 400 is a single high frequency integrated circuit having one input terminal and two output terminals in the third switching unit 330 and the fourth switching unit 340 for path switching. Is done.

On the other hand, the configuration of the multi-band antenna switch module circuit of the present invention can be variously modified and can take various forms.

It is to be understood, however, that the present invention is not limited to the specific forms referred to in the above description, but rather includes all modifications, equivalents and substitutions within the spirit and scope of the invention as defined by the appended claims. It should be understood to do.

According to the present invention configured as described above, when a GSM signal is first transmitted through the GSM transmission terminal 32, a voltage of a predetermined level is applied to the first voltage control terminal 31, so that When the diodes D1 and D2 are operated, the transmission signal passing through the bandpass filter unit 350 removes unnecessary high frequency parts and the λ / 4 stripline inductor SL1 and the grounded capacitor have high impedance. The transmission signal is separated from the GSM reception signal and transmitted to the diplexer circuit unit 300 and transmitted through the antenna 10.

At this time, the current applied to the voltage applied to the first voltage control terminal 31 is controlled by the resistor R11.

In addition, when the GSM received signal is not applied with a predetermined level voltage to the first voltage control terminal 31, the received signal received from the antenna 10 is a low pass filter 300a of the diplexer circuit unit 300. Then through the stripline inductor SL1 to the GSM receiving terminal 33 without loss.

Meanwhile, when a DCS / PCS / W-CDMA signal is transmitted through the DCS / PCS / W-CDMA transmission terminal 34, when a voltage of a predetermined level is applied to the second voltage control terminal 36, diodes D3 and D4 are applied. DCB is connected to the high pass filter 300b of the diplexer circuit 300 by operating the bandpass filter unit 360 and the λ / 4 stripline inductor SL2 and the grounded capacitor have high impedance. The / PCS / W-CDMA transmission signal is separated from the DCS reception signal and transmitted to the diplexer circuit unit 300 and transmitted through the antenna 10.

In this case, the voltage applied to the second voltage control terminal 36 is controlled by the resistor R12.

In addition, when the DCS received signal is not applied to the second voltage control terminal 36 at a predetermined level, the DCS received signal received from the antenna 10 is a high pass filter of the diplexer circuit unit 300. The signal is received by the DCS receiving terminal 35 through the stripline inductor SL2 through 300b).

When the PCS received signal has a predetermined level of voltage applied to the third voltage control terminal 38, the diode D5 of the third switching unit 330 for path switching is operated to operate the high pass filter of the diplexer circuit unit 300. When the 300S and the PCS receiving terminal 37 are connected to each other and the diode D4 is operated to simultaneously connect the stripline inductor SL2 and the grounded capacitor to maintain a high impedance state, the DCS receiving signal is separated from the DCS receiving signal. It is received without loss to the PCS receiving terminal 37.

In this case, the amount of current applied to the third voltage control terminal 38 is controlled by the resistor R12.

When the W-CDMA received signal has a predetermined level of voltage applied to the fourth voltage control terminal 39, the diode D6 of the fourth switching unit 330 for path switching is operated to high the diplexer circuit 300. When the pass filter 300b is connected to the W-CDMA receiving terminal 40 and the diode D4 is operated at the same time, when the stripline inductor SL2 and the grounded capacitor are simultaneously connected to maintain a high impedance state, DCS reception is performed. Separated from the signal, it is received without loss by the W-CDMA receiving terminal 40.

In this case, the current applied to the fourth voltage control terminal 39 is controlled by the resistor R12.

As a result, in the present invention implemented as described above, when the voltage for the first switching unit 310 for path switching is input to the GSM transmission signal, the switching unit of the GSM transmission / reception signal is separately outputted, and the DCS / PCS / W When the voltage of the second switching unit 320 for the path switching is output, the DCS / PCS / W-CDMA transmission signal and the DCS reception signal are separately outputted by the switching unit, and the path switching for the PCS reception signal is performed. When the voltage for the third switching unit 330 is input, the PCS reception signal is detected. When the voltage for the fourth switching unit 340 for path switching is input to the W-CDMA reception signal, the W-CDMA reception signal is input. In order to detect the signal transmission, the GSM transmission and reception signal and the DCS / PCS / W-CDMA transmission and reception signal are easily separated.

Finally, the module circuit is an antenna switch module circuit for quadruple band (GSM / DCS / PCS / W-CDMA), and is independently separated from other bands by the fourth switching unit 340 for the path switching. The CDMA reception signal can be detected.

In addition, as shown in Figure 5, when the input terminal is composed of one and the output terminal is composed of two single high-frequency integrated circuit for switching path MMIC switching unit 400, the simple structure for the path switching The operation of the third switching unit 330 and the fourth switching unit 340 for path switching may be performed.

As described above, the present invention has the effect of adding the W-CDMA band, which is the third generation mobile communication band, in the existing triple (GSM / DCS / PCS) band antenna switch module and using the quad band through one module. In addition, there is an effect that can selectively use the band, and can simultaneously achieve a number of effects, such as easily separating the GSM transmit and receive signals, DCS transmit and receive signals, PCS transmit and receive signals and W-CDMA transmit and receive signals.

1 is a block diagram showing a conventional three-band antenna switch module circuit,

2 is a block diagram showing a conventional quad band antenna switch module circuit;

3 is a block diagram of a multi-band antenna switch module circuit for explaining the present invention;

4 is a specific circuit diagram for showing an embodiment configuration according to the present invention;

Figure 5 is a block diagram showing another embodiment to be implemented by the present invention.

<Description of the code | symbol about the principal part of drawing>

10: antenna 31: first voltage control terminal

32: GSM transmitting terminal 33: GSM receiving terminal

34: DCS / PCS transmitting terminal 35: DCS receiving terminal

36: second voltage control terminal 37: PCS receiving terminal

38: third voltage control terminal 39: fourth voltage control terminal

40: W-CDMA receiving terminal 300: diplexer circuit

300a: low pass filter 300b: high pass filter

310: first switching unit for path switching 320: second switching unit for path switching

330: third switching unit for the path switching 340: fourth switching unit for the path switching

350,360: band pass filter 400: path switching MMIC switching unit

Claims (4)

Connected between the antenna and the GSM, DCS / PCS / W-CDMA band transmitting circuit and GSM, DCS / PCS / W-CDMA band receiving circuit to facilitate the path between the antenna and the transmitting circuit and the path between the antenna and the receiving circuit. In order to convert the signal, the low pass filter 300a for filtering and passing the GSM signal in the 900MHz band so as to split the GSM and DCS / PCS / W-CDMA signal transmitted and received through the antenna 10 and DCS of 1800MHz band and more; Between the diplexer circuit section 300, which comprises a high pass filter 300b for filtering and passing the PCS / W-CDMA signal, and each of the transmission terminals 32, 34 of GSM and DCS / PCS / W-CDMA. Multi-band antenna switch module circuit comprising a transmitting side band pass filter (350, 360) for removing unnecessary high frequency signals. The method of claim 1, When a predetermined voltage is applied to the first voltage control terminal 31 on one side of the transmitting band pass filter unit 350, a GSM transmission signal is detected and the transmission signal is filtered to thereby band the diplexer circuit 300. A GSM transmission terminal 32 connected to the pass filter 300a for transmission through the antenna 10; A GSM reception terminal 33 for detecting and receiving a GSM reception signal when a predetermined voltage is not applied to the first voltage control terminal 31; When a predetermined voltage is applied to the second voltage control terminal 36 on one side of the transmitting bandpass filter unit 360, a DCS / PCS / W-CDMA transmission signal is detected, and the transmission signal is filtered to diplexer. A transmission terminal 34 of the DCS / PCS / W-CDMA connected to the high pass filter 300b of the circuit unit 300; A DCS receiving terminal 35 which detects and receives a DCS receiving signal when a predetermined voltage is not applied to the second voltage control terminal 36; When a predetermined voltage is applied to the third voltage control terminal 38, the PCS reception signal is detected and transferred to the PCS reception terminal 37 so that the path switching third switching unit 330 is detected. ; And When a predetermined voltage is applied to the fourth voltage control terminal 39, the W-CDMA reception signal is detected and transferred to the W-CDMA reception terminal 40 so as to detect the received signal. Part 340; Multi-band antenna switch module circuit, characterized in that consisting of. The method of claim 2, The multi-band antenna switch module circuit is separated by another band by the fourth switching unit 340 for the path switching to independently detect the W-CDMA received signal. The method of claim 2, The path switching MMIC switching unit 400 is a single high frequency integrated circuit having one input terminal and two output terminals in the third switching unit 330 and the fourth switching unit 340 for path switching. Multi-band antenna switch module circuit, characterized in that made to.