KR20040093592A - Antenna circuit dividing transmission and reception - Google Patents

Abstract

PURPOSE: An antenna circuit is provided to allow for ease of tuning by permitting one antenna to have a transmission function and the other antenna to have a GPS/RF reception function. CONSTITUTION: An antenna circuit comprises a receiving unit connected to a receiving antenna, and which processes RF and GPS signals; a transmitting unit connected to a transmitting antenna, and which transmits RF signals; and a control unit(250) for processing the signal input from the receiving unit, generating a switching control signal for switching paths of RF and GPS signals of the receiving unit, generating RF signals, and outputting the RF signals to the transmitting unit. The receiving unit includes a first matching part(210) for matching voltage standing wave ratio such that the ratio is optimized to an RF and GPS receiving frequency; a switching part(220) connected to the first matching part, and which transmits signals to the GPS or RF signal; a GPS SAW filter(230) for filtering GPS signals input from the switching unit; a first diplexer(241) for connecting RF signals input from the switching unit to one of two paths; and a plurality of SAW filters(242,243) for filtering RF signals input from the first diplexer.

Description

ANTENNA CIRCUIT DIVIDING TRANSMISSION AND RECEPTION}

The present invention relates to a transmit / receive antenna circuit, and more particularly, to a multi-mode terminal supporting GPS and CDMA modes and the like, and to a transmit / receive antenna antenna providing convenience by separating a transmit antenna and a receive antenna.

First, FIG. 1 is a block diagram illustrating a conventional portable terminal antenna circuit. The conventional portable terminal antenna circuit includes: a first matching unit 110 connected to a CDMA antenna and matching a voltage standing wave ratio to be optimized for a transmission / reception frequency; A first test switch 120 connected to the first matching unit 110, providing a test connection point and transferring a received signal and a transmitted signal; A duplexer 130 which provides a path of a received signal and a transmitted signal in both directions; A second matching unit 140 connected to the GPS antenna and matching the voltage standing wave ratio to be optimized for the reception frequency; A second test switch 150 connected to the second matching unit 140 and providing a test connection point and transferring a received signal; A signal processor converting a signal input from the duplexer 130 into a band signal or converting a band signal into an RF signal and outputting the signal to the duplexer 130 and converting the signal input from the second test switch 150 into a band signal ( 160); And a band processing and control unit 170 for demodulating a signal input from the signal processing unit 160, outputting the modulated signal to the signal processing unit 160, and performing a user interface function.

In addition, unlike the antenna circuit shown in FIG. 1, all transmission / reception functions may be implemented in one antenna. An advantage of this case is that the system is simple and economically advantageous.

However, in the case of a technique for implementing a transmission / reception function using one of the above-described conventional technologies, antennas satisfy the characteristics of each mode with one antenna in a situation where the air characteristic (sensitivity, electromagnetic wave absorption rate) is difficult. There is a difficult problem. In addition, when two antennas perform an RF transmission / reception function and the other implements a GPS function, since two antennas are mounted, there is a problem in that a cost is added and a mounting area is increased in space.

In order to solve the above problems, the present invention uses two antennas, but implements only a transmission function in one antenna, and implements a GPS + RF reception function in the other antenna to facilitate tuning, and for bidirectional switching. An object of the present invention is to provide a separate transmission / reception antenna circuit capable of increasing economic efficiency by eliminating the need for a device.

1 is a block diagram showing a conventional portable terminal antenna circuit,

2 is a block diagram showing a transmission and reception separate antenna circuit according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

210: first matching unit 220: switching unit

230: GPS SAW filter 241: first diplexer

242: First SAW Receive Filter 243: Second SAW Receive Filter

250: control unit 261: first SAW transmission filter

262: Second SAW transmit filter 263: Second diplexer

270: second matching unit

In order to achieve the above object, the transmission and reception antenna antenna of the present invention, a multi-mode terminal, is connected to a receive-only antenna, the receiving unit for processing RF and GPS received signals; A transmission unit connected to a transmission-only antenna and transmitting an RF transmission signal; And a controller for processing a signal input from the receiver, generating a switching control signal for switching a path of the RF and GPS received signals of the receiver, and generating and outputting the RF transmission signal to the transmitter.

Hereinafter, the most preferred embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art can easily implement the technical idea of the present invention. .

2 is a block diagram illustrating a separate transmission / reception antenna circuit according to an embodiment of the present invention, wherein the first matching unit 210, the switching unit 220, the GPS SAW filter 230, and the first diplexer 241 are provided. , A first SAW reception filter 242, a second SAW reception filter 243, a controller 250, a first SAW transmission filter 261, a second SAW transmission filter 262, and a second diplexer 263. And a second matching unit 270.

The first matching unit 210 is connected to a reception-only antenna and serves to match the voltage standing wave ratio to be optimized for RF and GPS reception frequencies.

In addition, the switching unit 220 is connected to the first matching unit 210, and serves to deliver the received signal to the GPS path or the RF path under the control of the switching control signal.

Meanwhile, the GPS SAW filter 230 receives a GPS signal from the switching unit 220 and filters the GPS signal.

In addition, the first diplexer 241 serves to conduct an RF signal from the switching unit 220 to conduct one of two paths.

Meanwhile, the first SAW filter 242 serves to filter and receive an RF signal from the first diplexer 241. Here, the first SAW filter 242 may perform the filtering of the PCS signal.

In addition, the second SAW filter 243 receives an RF signal from the first diplexer 241 and filters the RF signal. Here, the second SAW filter 243 may perform the filtering of the DCS signal.

In addition, the control unit 250 receives and processes the filtered GPS signal and the filtered RF signal, generates a transmission signal, and generates and outputs the switching control signal according to a reception mode to the switching unit 220. Do it.

Meanwhile, the first SAW transmission filter 261 receives the transmission signal from the control unit 250 and filters the RF signal. Here, the RF transmission signal may be a transmission signal for PCS.

In addition, the second SAW transmission filter 262 receives the transmission signal from the control unit 250 and filters the RF transmission signal. Here, the RF transmission signal may be a transmission signal for DCS.

On the other hand, the second diplexer 263 serves to provide a path for conducting the output signal of the first SAW transmission filter 261 or the output signal of the second SAW transmission filter 262.

In addition, the second matching unit 270 receives the output signal of the second diplexer 263 and is connected to a transmission dedicated antenna to match the voltage standing wave ratio to be optimized for the RF transmission frequency.

Referring to the operation of the transmission and reception separate antenna circuit of the present invention described above are as follows.

First, if two antennas are used to implement transmission (cellular, AMPS, PCS) on one antenna and GPS + reception (cellular, AMPS, PCS) is implemented on the other antenna, the transmission / reception antennas are separated from each other. . At this time, since it is the transmitting antenna that determines the electromagnetic wave body absorption rate, it is convenient to tune independently of the receiving end, and the receiving / GPS antenna is relatively sensitive, and thus may be disposed in an insensitive to noise. By separating the transmission and reception antennas in this way, when performing simultaneous transmission and reception with the same antenna, there is no need for a duplexer to ensure separation. In addition, the control unit 250 receives the processed GPS signal and the filtered RF signal, and generates a transmission signal. In the control unit 250, a low noise amplifier (LNA), which is typically installed in a receiver of a general terminal, is generated. ), Image filters, baseband transceivers, ADCs, modems, etc., and modems, DACs, RF transceivers, power amplifiers, etc., which are typically included in the transmitter, are included, but are not described in detail for convenience.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the technical spirit of the present invention for those skilled in the art to which the present invention pertains. It is not limited to the drawings shown.

According to the present invention, two antennas are used, but only one antenna implements a transmission function, and the other antennas implement GPS + RF reception functions to facilitate tuning and increase economics by not having to install an element for bidirectional switching. There are advantages to it.

Claims (3)

In a multi-mode terminal, A receiver connected to a receive-only antenna and processing RF and GPS received signals; A transmission unit connected to a transmission-only antenna and transmitting an RF transmission signal; And A controller which processes a signal input from the receiver, generates a switching control signal for switching a path of the RF and GPS received signals of the receiver, and generates and outputs the RF transmission signal to the transmitter Transmitting and receiving separate antenna circuit comprising a. The method of claim 1, wherein the receiving unit, A first matching unit connected to a reception-only antenna and matching a voltage standing wave ratio to be optimized for RF and GPS reception frequencies; A switching unit connected to the first matching unit and transferring a received signal to a path for GPS or a path for RF according to the control of the switching control signal; A GPS SAW filter that receives the GPS signal from the switching unit and filters the GPS signal; A first diplexer receiving an RF signal from the switching unit and conducting the conductive signal to one of two paths; And A plurality of SAW filters for receiving and filtering RF signals from the first diplexer Transmitting and receiving separate antenna circuit comprising a. The method of claim 1, wherein the transmitting unit, A plurality of SAW transmission filters which receive the transmission signal from the control unit and filter the transmission signal; A second diplexer providing a path for conducting output signals of the plurality of SAW transmission filters; And A second matching unit configured to receive an output signal of the second diplexer and to match a voltage standing wave ratio to be optimized for an RF transmission frequency by being connected to a transmission-only antenna; Transmitting and receiving separate antenna circuit comprising a.