KR20050011047A - Tranceiver of a triband mobile terminal - Google Patents

Abstract

PURPOSE: A transmitting and receiving apparatus of a mobile communication terminal for tri-band is provided to realize a small mobile communication terminal by removing a duplexer for separating signals of a US-PCS band among tri-band and to improve RF(Radio Frequency) performance. CONSTITUTION: The first dual band antenna(ANT1) and the first diplexer(11) transmit and receive signals of CDMA(Code Division Multiple Access) and US-PCS bands. The second dual band antenna(ANT2) and the second diplexer(12) transmit and receive signals of GPS(Global Positioning System) and US-PCS(Personal Communication System) bands. A duplexer(31) is connected with the first diplexer(11) and separates transmitting and receiving channels of CDMA transmitting and receiving parts(51,52). The third elastic surface wave filter(23) is connected with the second diplexer(12) to filter receiving signals of GPS band and to apply the filtered signals to a GPS receiving unit(61). The first elastic surface wave filter(21) is connected with one diplexer of the first diplexer(11) or the second diplexer(12) to filter signals of US-PCS band outputted from a US-PCS transmitting unit(41) and to transmit the filtered signals. The second elastic surface wave filter(22) is connected with the other diplexer of the first diplexer(11) or the second diplexer(12) for filtering signals of US-PCS band outputted from the US-PCS transmitting unit(41) to transmit the filtered signals to a US-PCS receiving unit(42).

Description

Transmitter and receiver of tri-band mobile terminal {Tranceiver of a triband mobile terminal}

The present invention relates to a transceiver for a mobile communication terminal, and more particularly, to a transceiver for a tri-band mobile communication terminal having a global positioning system (GPS) embedded therein.

In general, a transceiver for a mobile communication terminal performs a role of radio processing a signal transmitted and received between a base station and a terminal. That is, the baseband transmits the frequency band to a high frequency signal for wireless output and amplifies it, and wirelessly outputs the antenna to the base station through the antenna. Also, the high frequency signal received through the antenna shifts the frequency band to the baseband. Do this.

Recently, a service related to a GPS has been applied to a mobile communication terminal. To this end, a mobile communication terminal is provided with a transmitting and receiving device capable of transmitting and receiving signals of various bands.

FIG. 1 is a diagram illustrating a transceiver of a tri-band mobile communication terminal in which a conventional GPS system is embedded, and illustrates a transceiver of Qualcomm's GPSOne solution as a GPS system. will be. Here, the tri-band refers to a Code Division Multiple Access (CDMA) band, a GPS band, and a US-PCS (Personal Communication System) band of 800 MHz.

As shown in the figure, the tri-band transmitting and receiving device has two antennas (ANT3, ANT4) for transmitting and receiving signals of a multi-band, one antenna (ANT3) is a dual-band antenna for the CDMA / US-PCS band, the other side Antenna ANT4 is a built-in antenna for the GPS band.

The CDMA / US-PCS band antenna ANT3 is connected to the CDMA duplexer 121 and the US-PCS duplexer 122 through the diplexer 110, respectively, and to the CDMA duplexer 121. CDMA transceivers 131 and 132 for transmitting and receiving signals in the CDMA band are connected, respectively.

In addition, the US-PCS duplexer 122 is connected to the US-PCS transceiver 141, 142 for transmitting and receiving signals in the US-PCS band, respectively, and the GPS band antenna ANT2 for receiving GPS signals. The GPS receiver 151 is connected, and the GPS receiver 151 is embedded in a mobile station modem (MSM).

As described above, the conventional tri-band transmitter and receiver uses duplexers 121 and 122 to separate transmission / reception signals of CDMA and US-PCS bands, and the duplexer has technical limitations in reducing its area and volume. . In particular, the US-PCS duplexer, which occupies a much larger area than the CDMA duplexer, has a problem of acting as an obstacle that hinders the miniaturization of a mobile communication terminal.

Accordingly, the present invention has been invented to solve the above problems, it is possible to achieve the miniaturization of the terminal by removing the duplexer used to separate the transmission and reception signals of the US-PCS band of the tri-band, and also improve the RF performance It is an object of the present invention to provide a transmitting and receiving device of a tri-band mobile communication terminal.

1 is a view showing a conventional transceiver;

2 is a view showing a transmitting and receiving device according to a first embodiment of the present invention;

3 is a diagram illustrating a transmission and reception apparatus according to a second embodiment of the present invention.

Explanation of symbols for main parts of the drawings

11,12: diplexer 21,22,23: surface acoustic wave filter

31: duplexer 41: US-PCS transmitter

42: US-PCS receiver 51: CDMA receiver

52: CDMA transmitter 61: GPS receiver

ANT1, ANT2: Dual Band Antenna

In order to achieve the above object, the present invention provides a transceiver for a tri-band mobile communication terminal for transmitting and receiving signals in the CDMA, US-PCS, GPS band: a first for transmitting and receiving signals in the CDMA and US-PCS band A dual band antenna and a first diplexer; A second dual band antenna and a second diplexer for transmitting and receiving signals in the GPS and US-PCS bands; A duplexer connected to the first diplexer and separating a transmission / reception channel of a CDMA transceiver; A third surface acoustic wave filter connected to the second diplexer and filtering a received signal of a GPS band to a GPS receiver; A first surface acoustic wave filter connected to one of the first or second diplexers and filtering a US-PCS band signal output from a US-PCS transmitter for transmission through a connected diplexer; ; A second surface acoustic wave filter connected to the other diplexer of the first or second diplexer and filtering a signal of the US-PCS band received through the diplexer to be applied to a receiving unit for the US-PCS; Characterized in that.

Therefore, since the duplexer for the US-PCS, which occupies a relatively large area, can be eliminated among the components of the transceiver of the conventional tri-band mobile communication terminal, the terminal can be miniaturized.

In addition, the second dual-band antenna is characterized in that the built-in antenna.

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

2 is a diagram illustrating a transceiver of a tri-band mobile communication terminal according to a first embodiment of the present invention.

As shown in the figure, the transmission and reception apparatus according to the present invention includes two first and second dual band antennas ANT1 and ANT2 in order to transmit and receive a signal of a multi-band, wherein the first dual band antenna ANT1 is An antenna for a CDMA band of 800 MHz and a US-PCS band, and the built-in second dual band antenna ANT2 is an antenna for a GPS band of 1575 MHz and a US-PCS band.

The first dual band antenna ANT1 is connected to the first diplexer 11, and the diplexer 11 filters a first transmission signal of the US-PCS band to improve channel separation capability. It is connected to the surface acoustic wave filter 21 and the CDMA duplexer 31, respectively. In addition, the first surface acoustic wave filter 21 is connected to the US-PCS transmitter 41 for transmitting a signal of the US-PCS band, the CDMA duplexer 31 to transmit and receive a signal of the CDMA band CDMA transceivers 51 and 52 are connected to each other.

On the other hand, the second dual band antenna ANT2 is connected to the second diplexer 12, the diplexer 12 is a received signal and a GPS signal of the US-PCS band in order to improve the channel separation capability Are connected to second and third surface acoustic wave filters 22 and 23 for respectively filtering. In addition, the second surface acoustic wave filter 22 is connected to a receiver 42 for US-PCS for receiving signals in the US-PCS band, and the third surface acoustic wave filter 23 is connected to a signal in the GPS band. The GPS receiver 61 for receiving is connected.

Therefore, the CDMA band transmit and receive signals are transmitted and received by the CDMA transceiver 51 and 52 through the first dual band antenna ANT1, the first diplexer 11 and the CDMA duplexer 31, and the GPS The band signal is received by the GPS receiver 61 through the second dual band antenna ANT2, the second diplexer 12, and the third surface acoustic wave filter 23.

In addition, the US-PCS band transmission signal output from the US-PCS transmitter 41 is transmitted through the first elastic wave filter 21, the first diplexer 11 and the first dual band antenna ANT1. The received signal in the US-PCS band is received by the receiver 42 for the US-PCS through the second dual band antenna ANT2, the second diplexer 12, and the second surface acoustic wave filter 22.

In this case, the first to third surface acoustic wave filters 21, 22 and 23 perform an inverse expansion to prevent the degradation of the channel separation capability due to the removal of the US-PCS duplexer through the filtering function of the transmitted and received signals. .

The above-described embodiment transmits and receives a US-PCS band transmission signal and a CDMA band transmission and reception signal through one dual band antenna, and receives a US-PCS band signal and a GPS band signal through one dual band antenna. Although the configuration has been described, as shown in FIG. 3, the US-PCS band reception signal and the CDMA band transmission / reception signal are transmitted and received through one dual band antenna, and the US-PCS band transmission signal and the GPS band signal as one. It may be configured to transmit and receive via a dual band antenna.

That is, as shown in FIG. 3, the first dual band antenna ANT1, which is an antenna for the CDMA band of 800 MHz and the US-PCS band, is connected to the first diplexer 11. In order to improve the channel separation capability, a second surface acoustic wave filter 22 for filtering received signals in the US-PCS band and a duplexer 31 for CDMA are respectively connected. In addition, the second surface acoustic wave filter 22 is connected to the US-PCS receiver 42 for receiving a signal of the US-PCS band, the CDMA duplexer 31 to transmit and receive a signal of the CDMA band CDMA transceivers 51 and 52 are connected to each other.

On the other hand, a second dual band antenna ANT2, which is an internal antenna for the GPS band of 1575 MHz and the US-PCS band, is connected to the second diplexer 12. The diplexer 12 has a channel separation capability. In order to improve, the first and third surface acoustic wave filters 21 and 23 which respectively filter transmission signals and GPS signals in the US-PCS band are connected. In addition, the first surface acoustic wave filter 21 is connected to a US-PCS transmitter 41 for transmitting signals in the US-PCS band, and the third surface acoustic wave filter 23 transmits signals in the GPS band. The GPS receiver 61 for receiving is connected.

Therefore, as described above, the transmission / reception signal of the CDMA band is transmitted / received by the CDMA transceiver 51 and 52 through the first dual band antenna ANT1, the first diplexer 11 and the CDMA duplexer 31. The signal of the GPS band is received by the GPS receiver 61 through the second dual band antenna ANT2, the second diplexer 12, and the third surface acoustic wave filter 23.

Meanwhile, the US-PCS band transmission signal output from the US-PCS transmitter 41 is transmitted through the first elastic wave filter 21, the second diplexer 12, and the second dual band antenna ANT2. The received signal of the US-PCS band is received by the US-PCS receiver 42 through the first dual band antenna ANT1, the first diplexer 11, and the second surface acoustic wave filter 22.

At this time, the first to third surface acoustic wave filters (21, 22, 23) through the filtering function of the signal transmitted and received as described above to prevent the deterioration of the channel separation capability due to the removal of the US-PCS duplexer Perform.

As described above, the present invention removes the duplexer for the US-PCS, which occupies a relatively large area among the components of the transceiver of the conventional tri-band mobile communication terminal, and uses the CDMA band, the US-PCS band, and the GPS through two dual band antennas. It is possible to implement the miniaturization of the terminal by configuring to transmit and receive the signal of the band.

Claims (4)

In the transceiver of the tri-band mobile communication terminal for transmitting and receiving signals of the CDMA, US-PCS, GPS bands: A first dual band antenna ANT1 and a first diplexer 11 for transmitting and receiving signals in the CDMA and US-PCS bands; A second dual band antenna ANT2 and a second diplexer 12 for transmitting and receiving signals in the GPS and US-PCS bands; A duplexer (31) connected to the first diplexer (11) for separating transmission and reception channels of the CDMA transceiver (51) (52); A third surface acoustic wave filter 23 connected to the second diplexer 12 and filtering the received signal of the GPS band to the GPS receiver 61; A diplexer connected to one of the first or second diplexers 11 and 12 and connected to a US-PCS band signal output from the US-PCS transmitter 41 for filtering. A first surface acoustic wave filter 21 for transmitting through the first surface acoustic wave filter; Is connected to the other diplexer of the first or second diplexer (11, 12), and filters the signal of the US-PCS band received through the diplexer to the US-PCS receiver 42 And a second surface acoustic wave filter (22) to be applied. The transmission and reception apparatus of a tri-band mobile communication terminal according to claim 1, wherein the second dual band antenna (ANT2) is a built-in antenna. 3. The surface acoustic wave filter (21) of claim 1 or 2, wherein the first surface acoustic wave filter (21) is connected to the first diplexer (11), and the second surface acoustic wave filter (22) is connected to the second diplexer (12). Transceiver of a tri-band mobile communication terminal, characterized in that connected to. The first surface acoustic wave filter 21 is connected to the second diplexer 12, and the second surface acoustic wave filter 22 is connected to the first diplexer 11. Transceiver of a tri-band mobile communication terminal, characterized in that connected to.