KR20100118840A - Transmitting/receiving device for mobile phone - Google Patents

Abstract

PURPOSE: A transmitting/receiving device for a mobile communication terminal is provided to share a power amplifier in second generation GSM and third generation WCDMA, thereby saving costs for components. CONSTITUTION: An antenna switch unit(120) transmits signals of GSM(Global System for Mobile communications) or WCDMA(Wideband Code Division Multiple Access) bands to the first antenna(110) or outputs a signal of a GSM band of the first antenna to a receiving channel. An up-down converter(180) down-converts a signal passed through the antenna switch unit or the second antenna(150). The up-down converter up-converts an output signal for the antenna switch unit to a GSM band or a WCDMA band. A power amplifier(130) amplifies power of signals of the GSM band and the WCDMA band of the up-down converter.

Description

Transmitter and receiver of mobile communication terminal {TRANSMITTING / RECEIVING DEVICE FOR MOBILE PHONE}

The present invention relates to a transmission and reception apparatus of a mobile communication terminal, and more particularly, a second generation using a global system for mobile communication (GSM) method and a third generation wideband code division multiple access (WCDMA) method. The present invention relates to a transmission and reception device of a third generation public mobile communication terminal.

Current communication systems provide a consistent service that enables users of mobile communication terminals to transmit packet-based text, digitized voice or video, and multimedia data at high speeds of 2Mbps or more. These communication systems are divided into Wideband Code Division Multiple Access (WCDMA), which is adopted as the European standard, and CDMA 2000, which is adopted as the American standard.

The WCDMA is an asynchronous mobile communication system based on the Global System for Mobile communication (GSM) and General Packet Radio Services (GPRS), which are widely used in Europe and elsewhere. It is a synchronous mobile communication system based on second generation CDMA system such as IS-95 or J-STD008.

In other words, the current communication system is a mixture of 2nd generation network and 3rd generation network. Accordingly, the mobile communication terminal also supports both 2nd generation network and 3rd generation network. The second generation, such as the GSM method, refers to a service that supports voice, text, and low-speed data. The third generation, such as the WCDMA method, provides high-speed and high-quality services for multimedia data such as voice, text, video, and data. Say.

The mobile communication terminal searches for available service cells as the user moves, determines a service cell to be used according to a preset priority, and performs mobile communication while performing a handover to the determined service cell.

In this case, the priority of performing the handover is whether the service cell is serviced by the service provider of the Universal Subscriber Identity Module (USIM) card, which is a universal subscriber identification module, regardless of the type of communication system divided into the second generation network or the third generation network. Or not, electric field strength and the like.

The present invention provides a transmission and reception apparatus of a mobile communication terminal in which a plurality of power amplifiers are implemented as one power amplifier in a terminal using a second generation GSM communication module and a third generation WCDMA communication module in common.

Technical problems to be achieved by the present invention are not limited to the above-mentioned technical problems, and other technical problems not mentioned above may be clearly understood by those skilled in the art from the following description. There will be.

Transmitting and receiving device of the present invention for achieving the above object, the first antenna for transmitting signals in the GSM and WCDMA band; A second antenna for receiving a signal in the WCDMA band; An antenna switch unit configured to transmit the signal of the GSM or WCDMA band to a first antenna or to output a signal of the GSM band received from the first antenna to a reception channel; An up-down converter which down-converts and demodulates a signal input through the antenna switch unit or the second antenna or up-converts a signal to be output to the antenna switch unit to a GSM band or a WCDMA band; And a power amplifier installed between the up-down converter and the antenna switch unit and amplifying a signal of the GSM band or the WCDMA band input from the up-down converter and outputting the signal to the antenna switch unit.

As described above, the present invention has the advantage that the power amplifier is commonly used in the second generation GSM and the third generation WCDMA, thereby reducing component prices and reducing the size of the PCB. In addition, since the duplexer installed after the third generation power amplifier is removed, the linearity of the RF and the EVM performance can be improved by eliminating the duplexer having a large insertion loss when transmitting and receiving a WCDMA signal.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention. Like elements in the figures are denoted by the same reference numerals wherever possible. In addition, detailed descriptions of well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

1 is a view schematically showing a transmitting and receiving device of a second generation (2G) and third generation (3G) common mobile communication terminal according to the present invention, the transmitting and receiving device 10 is an antenna 11, an antenna switch unit 12, The duplexer 13 includes a first power amplifier 14 (3G PAM), a second power amplifier 15 (3G PAM), and an up-down converter 16.

The antenna 11 is a common WCDMA and GSM antenna for transmitting and receiving signals of the third generation WCDMA band and the second generation GSM band signal.

The antenna switch unit 12 separates the reception signal of the WCDMA band and the reception signal of the GSM band received through the antenna 11 and outputs the signals through two different paths, respectively, and the transmission signal of the WCDMA band received through the path. And by transmitting the transmission signal of the GSM band to the antenna 11, the third generation path (3G Path) or second generation path (2G Path) to transmit the audio, video or data signal according to the external control signal.

The duplexer 13 is connected to the antenna 11 through the antenna switch 12, but separates the transmission and reception frequencies of the third generation WCDMA band to prevent crosstalk of the call.

The first power amplifier 14 (3G PAM) power amplifies the input voice, video or data signal of the WCDMA band and outputs the same to the antenna switch unit 12 through the transmission channel (Tx Path) of the duplexer 13.

The second power amplifier 15 (2G PAM) power amplifies the input voice or data signal of the GSM band and outputs the same to the antenna switch unit 12. The first power amplifier 14 is a third generation (3G) power amplifier module (PAM) for WCDMA, and the second power amplifier 15 is a second generation (2G) power amplifier module (PAM) for GSM.

The up-down converter 16 down-converts and demodulates the frequency of the voice, video, or data of the GSM band or the WCDMA band input through the antenna switch unit 12, or the first power amplifier 14 or the second power amplifier 15. ) Up-converts the frequency of the audio, video or data to be output to the GSM band or the WCDMA band and modulates it.

Although not shown, the controller periodically checks the network type (GSM network or WCDMA network) of the adjacent base station to automatically control the switching of the antenna switch unit 12 according to the type of the adjacent device station.

That is, in the case of the second generation GSM, since the TDMA (Time Division Multiple Access) method, the transmission path (Tx Path) and the reception path (Rx Path) are separated by the antenna switch unit 12, which is an RF switch, and in the case of the third generation WCDMA, Because of the FDMA (Frequency Division Multiple Access) method, the duplexer 13 separates the transmission path (Tx Path) and the reception path (Rx Path).

In the case of a common GSM-WCDMA common terminal, a power amplifier 14 for WCDMA and a power amplifier 15 for GSM are used as shown in FIG. The path (Rx Path) has been separated. In the case of the power amplifiers 14 and 15, the RF modules are relatively expensive parts, and as such, the component price of each of the second and third generation power amplifiers 15 and 14 is increased. It was increased and occupied a large area on the PCB, which was inefficient. In addition, since the insertion loss (Insertion Loss) must pass through the relatively large duplexer 13 in the WCDMA signal path, it acts as a cause for requesting an increase in the power capacity of the power amplifier 14.

2 is a diagram schematically illustrating a transmission and reception device of a second generation (2G) and third generation (3G) common mobile communication terminal according to an embodiment of the present invention, the transmission and reception apparatus 100 is a first antenna 110, an antenna switch The unit 120, the power amplifier 130, the second antenna 150, the band pass filter 160 and the up-down converter 180 are included.

The first antenna 110 is a second generation and third generation combined antenna that is responsible for transmitting and receiving a second generation Global System for Mobile communication (GSM) signal and a third generation Wideband Code Division Multiple Access (WCDMA) signal.

The antenna switch unit 120 is switched according to a transmission / reception mode to transmit a signal of a GSM or WCDMA band to the first antenna 110 or to output a signal of the GSM band input from the first antenna 110 to a reception channel. It may be composed of a plurality of diodes. The plurality of diodes are turned on and off according to an external control signal to select a transmission channel (2G, 3G Tx Path) or a reception channel (2G Rx Path), and the antenna switch unit 120 SPDT (Single Pole Double Throw). ) Type.

The power amplifier 130 (PAM) power amplifies the voice, video, or data signals of the GSM band or the WCDMA band input from the up-down converter 180 and outputs them to the antenna switch unit 120 through a transmission channel (Tx Path). That is, the power amplifier 130 is a third generation (3G) WCDMA and second generation (2G) GSM common power amplifier module (PAM).

The second antenna 150 is a WCDMA antenna that is responsible for receiving signals of the third generation WCDMA band.

The band pass filter 160 is a filter for passing a frequency signal of the WCDMA band and removing a signal out of this range among the signals received through the second antenna 150, and may be configured as a surface acoustic wave (SAW) filter.

The up-down converter 180 demodulates the down-converted frequency of the voice, video, or data of the GSM band or the WCDMA band input through the antenna switch unit 120 or the band pass filter 160 or demodulates the power amplifier 130. ) Up-converts and modulates the frequency of the audio, video, or data to be output to the GSM band or the WCDMA band. For example, a mobile communication system for WCDMA uses a frequency band of 2 GHz and a bandwidth of 5 MHz to 20 MHz, and a mobile communication system for GSM uses a frequency band of 800 MHz or 1.8 GHz and a bandwidth of 1.25 MHz.

Although not shown, the transmission / reception apparatus 100 may further include a low noise amplifier (LNA) or a filter for removing harmonics included in a GSM signal and a WCDMA signal. The transmission and reception apparatus 100 of FIG. 2 illustrates a main portion of a mobile communication terminal, and the configuration of the present invention is not limited thereto. The general apparatus may control voice, video, or data communication by the controller, and the controller (CPU) automatically controls switching of the antenna switch unit 120 according to a transmission / reception mode.

The power amplifier 130 shown in FIG. 2 is a common module that processes both GSM and WCDMA band signals, and the second generation service of the GSM band and the third generation service of the WCDMA band are not used at the same time. The power amplifier 130 is used in either mode for GSM or WCDMA.

That is, in the case of the second generation GSM, since the TDMA band is a time division multiple access (TDMA) band, the transmission path (Tx Path) and the reception path (Rx Path) are separated by the antenna switch unit 120, which is an RF switch. In this case, the transmission path (Tx Path) and the reception path (Rx Path) are separated by separation of the transmitting and receiving antennas in the frequency division multiple access (FDMA) band.

In the case of the communication channel of the WCDMA mode, leakage from the transmission channel Tx to the reception channel Rx may be prevented by the separation of the antenna and the band pass filter 160 for the transmission / reception channel.

As described above, the GSM power amplifier and the WCDMA power amplifier are configured as one power amplifier 130, and the WCDMA signal is configured to be received through a separate antenna 150, thereby reducing the cost of components due to the simplification of the power amplifier. Savings and reductions in size for the transmit and receive PCBs are possible.

In addition, unlike FIG. 1, since the power amplifier for WCDMA does not go through a duplexer having a large insertion loss of about 3 dB, the linearity of the RF signal is improved and error vector magnitude (EVM) performance is different. Can be improved.

Preferred embodiments of the present invention are disclosed for purposes of illustration, and those skilled in the art will be able to make various modifications, changes, and additions within the spirit of the present invention. Therefore, such modifications, changes and additions should be determined not only by the claims below, but also by equivalents to those claims.

1 is a diagram schematically illustrating a transmission and reception apparatus of a second generation and a third generation common mobile communication terminal according to the present invention.

2 is a diagram schematically illustrating a transmission and reception apparatus of a second generation and a third generation common mobile communication terminal according to an embodiment of the present invention.

* Explanation of symbols for the main parts of the drawings

100: transceiver 110: first antenna

130: power amplifier (PAM) 150: second antenna

170: band pass filter (BPF) 190: up-down converter

Claims (3)

A first antenna for transmitting signals in the GSM and WCDMA bands; A second antenna for receiving a signal in the WCDMA band; An antenna switch unit configured to transmit the signal of the GSM or WCDMA band to a first antenna or to output a signal of the GSM band received from the first antenna to a reception channel; An up-down converter which down-converts and demodulates a signal input through the antenna switch unit or the second antenna, or up-converts a signal to be output to the antenna switch unit to a GSM band or a WCDMA band; And And a power amplifier installed between the up-down converter and the antenna switch unit and amplifying a signal of the GSM band or the WCDMA band inputted from the up-down converter and outputting the signal to the antenna switch unit. The method of claim 1, And a band pass filter installed between the second antenna and the up-down converter to pass a WCDMA band signal among the signals received through the second antenna. The method of claim 1, The first antenna transmits and receives a signal in a WCDMA band and transmits and receives a signal in a GSM band.

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