KR20040003609A - Circuit for switching dual band radio frequency - Google Patents

Abstract

PURPOSE: A dual band wireless switching circuit is provided to separate a GSM receiving signal from a DCS receiving signal, and to input the separated signals to a GSM transmitting/receiving signal switching unit and a DCS transmitting/receiving signal switching unit, thereby clearly switching DCS transmission and reception signals without loss. CONSTITUTION: An antenna(300) transmits and receives GSM and DCS signals. A diplexer(310) transmits the signals to the antenna(300), and separates a GSM receiving signal from a DCS receiving signal. A GSM transmission signal detector(320) filters and detects a GSM transmission signal. The first switching voltage input unit(330) inputs the first switching voltage, and enables the detector(320) to detect the GSM transmission signal. A GSM transmitting/receiving signal switching unit(340) transmits the GSM transmission signal to the diplexer(310) when inputting the first switching voltage to the input unit(330), and separately outputs the separated GSM receiving signal when not-inputting the voltage. A DCS transmission signal detector(350) filters and detects a DCS transmission signal. The second switching voltage input unit(360) detects a DCS transmission signal by the detector(350). A DCS transmitting/receiving signal switching unit(370) transmits the DCS transmission signal when inputting the second switching voltage, and separately outputs the DCS receiving signal when not-inputting the voltage.

Description

Circuit for switching dual band radio frequency

The present invention relates to a dual band wireless switching circuit that allows a mobile communication terminal to selectively transmit and receive signals of two different frequencies.

Due to the development of information and communication technology, change of life style and economic growth, the form of communication culture is changing rapidly, and in the era of information, the demand for high-speed information delivery is regardless of time and place. Mobile communication systems that can receive communication services in marine and mountainous areas, etc. are becoming an important communication medium indispensable in daily life.

As the number of subscribers joining such a mobile communication system increases explosively, a new communication system and a new communication system using a new frequency band are being made to accommodate all of these subscribers. In addition, the mobile communication terminal satisfies various communication methods that pursue mobility, which is one of the main characteristics of mobile communication terminals carried by subscribers, and the demand for mobile communication terminals that can make calls using signals of various frequency bands increases. Doing.

In the United States, PCS operators, which have been in service for many years, are roaming with existing operators to expand their service coverage, which is inevitably narrower than cellular carriers. In this process, the necessity of a multimode / multiband terminal, which is a dual mode, dual band or triple band terminal that can be used in all networks of different frequency bands, has been highlighted.

The multi-terminals announced by Sony in Japan in the fall of 1997 in PCS 97 in Dallas are aimed at this market, and the development is expected to be more active in the future, and in Europe, the Global System for Mobile Communications (GSM) / The ratio of demand for multiband / multimode and singleband of the Digital Communication System (DCS) has become more than 90:10.

FIG. 1 is a diagram illustrating a configuration of a conventional dual band wireless switching circuit used in a multimode / multiband terminal. As shown in the related art, the antenna 100 includes a first switching unit 110 and a second switching unit 120 to separate the GSM transmission signal and the reception signal and the DCS transmission signal and the reception signal, respectively.

As shown in FIG. 2, the first switching unit 110 and the second switching unit 120 have an input terminal to which a transmission signal is input in order to sequentially condenser C1, diode D1, and condenser C2. Λ / 4 impedance converter 200 and capacitor C3 are connected in series between the connection point of the capacitor C1 and diode D1 and the ground via the λ / 4 impedance converter. The first switching voltage VC1 is applied to the connection point of the 200 and the capacitor C3. The connection point of the diode D1 and the capacitor C2 is connected to the output terminal of the received signal through the λ / 4 impedance converter 210 and the capacitor C4, and the λ / 4 impedance converter 210 and the capacitor C4. The diode D2 and the capacitor C5 are connected between the connection point of < RTI ID = 0.0 >) and ground, < / RTI > It is composed.

In the conventional switching circuit configured as described above, when a predetermined signal is transmitted, the first switching voltage VC1 is applied at a high potential of about 2.5 to 5.5V, and the second switching voltage VC2 is applied at a low potential of 0V.

Then, the forward voltage is applied to the diodes D1 and D2, and both of them are in a conducting state. The input transmission signal is sequentially applied to the antenna 100 through the capacitor C1, the diode D1, and the capacitor C2. Is sent. At this time, the impedance of the λ / 4 impedance converter 200 becomes infinite at the connection point position of the capacitor C1 and the diode D1, and the λ / 4 impedance converter at the connection point position of the diode D1 and the capacitor C2. Since the impedance of 210 becomes infinite, the transmission signal is transmitted through the antenna 100 without being lost.

When receiving a predetermined signal, the first switching voltage VC1 is applied at a low potential of 0 V, and the second switching voltage VC2 is applied at a high potential of about 2.5 to 5.5 V, in contrast to the above.

Then, the diodes D1 and D2 are all cut off, and the received signals received through the antenna 100 are all received through the capacitor C2, the λ / 4 impedance converter 210, and the capacitor C4.

However, the above-described conventional switching circuit has a problem in that a lot of loss occurs in separating the GSM signal and the DCS signal by simply switching the GSM transmission signal and the reception signal and the DCS transmission signal and the reception signal by providing two switching units.

Accordingly, an object of the present invention is to provide a dual band switching circuit capable of easily separating a signal of a GSM transceiver and a signal of a DCS transceiver.

Another object of the present invention is to provide a dual band switching circuit capable of cleanly switching a GSM transmission signal and a reception signal and a DCS transmission signal and the reception signal without being lost.

The dual-band switching circuit of the present invention having the above object comprises: an antenna for transmitting and receiving GSM and DCS signals, a GSM reception signal received through the antenna while transmitting a GSM transmission signal and a DCS transmission signal to the antenna; A diplexer for separating a DCS received signal, a GSM transmission signal detector for filtering and detecting a GSM transmission signal, and a first switching voltage for receiving the first switching voltage and causing the GSM transmission signal detection unit to detect the GSM transmission signal When the input unit and the first switching voltage input unit receive the first switching voltage, the GSM transmission signal detected by the GSM transmission signal detection unit is transmitted to the diplexer, and the first switching voltage input unit is the first switching voltage. If not received, the GSM transmitter / receiver signal switching unit for outputting the separated GSM signal received from the diplexer, DCS A DCS transmission signal detector for filtering and detecting a transmission signal, a second switching voltage input unit for receiving the second switching voltage and causing the DCS transmission signal detection unit to detect the DCS transmission signal, and the second switching voltage input unit for a second signal; When the switching voltage is received, the DCS transmission signal detected by the DCS transmission signal detection unit is transferred to the diplexer, and when the second switching voltage input unit does not receive the second switching voltage, the diplexer is separated from the diplexer. And a DCS transmit / receive signal switching unit for separately outputting the DCS received signal.

The GSM transmission signal detection unit and the DCS transmission signal detection unit include a low pass filter or a band pass filter, and the diplexer transmits a GSM transmission signal output from the GSM transmission / reception signal switching unit to the antenna and A low pass filter for low pass filtering the received signals received by the antenna to the GSM transmit / receive signal switching unit, and a DCS transmit signal output from the DCS transmit / receive signal switching unit to the antenna and receive the antenna. It characterized in that the high-pass filter to the high pass filtering the DCS received signal to the DCS transmit / receive signal switching unit.

1 is a block diagram showing the configuration of a conventional switching circuit,

2 is a detailed circuit diagram illustrating the switching unit of FIG. 1;

3 is a block diagram showing a configuration of an embodiment of a switching circuit of the present invention;

4 is a block diagram showing the configuration of another embodiment of a switching circuit of the present invention;

FIG. 5 is a circuit diagram illustrating an example of a detailed configuration of FIG. 3.

FIG. 6 is a circuit diagram illustrating another example of a detailed configuration of FIG. 3.

7 is a circuit diagram illustrating still another example of a detailed configuration according to an exemplary embodiment of FIG. 3.

* Description of the symbols for the main parts of the drawings *

300: antenna 310: diplexer

320, 350, 500: low pass filter 330, 360: first and second switching voltage input unit

340, 370: GSM and DCS transmit / receive signal switching unit

400, 410: bandpass filter 510: highpass filter

Hereinafter, a dual band wireless switching circuit of the present invention will be described in detail with reference to the accompanying drawings of FIGS. 3 to 7.

Figure 3 is a block diagram showing an embodiment configuration of a dual band wireless switching circuit of the present invention. As shown therein, an antenna 300 for transmitting and receiving GSM and DCS signals, and a GSM reception signal transmitted through the antenna 300 while transmitting a GSM transmission signal and a DCS transmission signal to the antenna 300. A diplexer 310 that separates the signal and the DCS received signal, a low pass filter 320 that is a GSM transmission signal detector that detects the GSM transmission signal by low pass filtering, and receives the first switching voltage SV1. When the low pass filter 320 receives the first switching voltage input unit 330 for low-pass filtering the GSM transmission signal, and the first switching voltage input unit 330 receives the first switching voltage SV1. When the low pass filter 320 transmits the low pass filtered GSM transmission signal to the diplexer 310 and transmits the signal, and the first switching voltage input unit 330 does not receive the first switching voltage SV1. In the diplexer 310 GSM transmission / reception signal switching unit 340 for separately outputting the separated GSM reception signal, a low pass filter 350 which is a DCS transmission signal detection unit for low-pass filtering the DCS transmission signal, and a second switching voltage SV2. A second switching voltage input unit 360 for allowing the low pass filter 350 to band pass filter the DCS transmission signal, and the second switching voltage input unit 360 supplies a second switching voltage SV2. In response to the input, the low pass filter 350 transmits the bandpass filtered DCS transmission signal to the diplexer 310 for transmission, and the second switching voltage input unit 360 transmits the second switching voltage SV2. In the case of not receiving the input signal, the DCS transmission / reception signal switching unit 370 is configured to separately output the DCS reception signal separated by the diplexer 310.

In the dual band wireless switching circuit of the present invention configured as described above, when the GSM transmission signal is transmitted, the first switching voltage SV1 of a predetermined level is inputted and the low pass which is the GSM transmission signal detection unit through the first switching voltage input unit 330. Is applied to the filter 320.

Then, the low pass filter 320 operates normally to low pass filter the GSM transmission signal, and inputs the filtered GSM transmission signal to the GSM transmission / reception signal switching unit 340. At this time, the first switching voltage SV1 input by the first switching voltage input unit 330 is input to the GSM transmission / reception signal switching unit 340 through the low pass filter 320, and thus the GSM transmission / reception signal. The switching unit 340 outputs the GSM transmission signal input from the low pass filter 320 to the diplexer 310 to be transmitted.

In addition, when the GSM reception signal is received, the first switching voltage SV1 is not input. As a result, the low pass filter 320 does not operate, and the GSM transmission / reception signal switching unit 340 performs the reception operation. As described above, the GSM received signal received through the antenna 300 is separated through the diplexer 310 and separated through the GSM transmit / receive signal switching unit 340 and output.

On the other hand, when the DCS transmission signal is transmitted, the second switching voltage SV2 of a predetermined level is input and applied to the low pass filter 350 which is the DCS transmission signal detection unit through the second switching voltage input unit 360.

Then, the low pass filter 350 operates normally to band pass filter the DCS transmission signal, and inputs the filtered DCS transmission signal to the DCS transmission / reception signal switching unit 370. At this time, the second switching voltage SV2 input by the second switching voltage input unit 360 is input to the DCS transmission / reception signal switching unit 370 through the low pass filter 350, and thus the DCS transmission / reception signal. The switching unit 370 outputs the DCS transmission signal input from the low pass filter 350 to the diplexer 310 to be transmitted.

In addition, when the DCS reception signal is received, the second switching voltage SV2 is not input. As a result, the low pass filter 350 does not operate, and the DCS transmission / reception signal switching unit 370 performs the reception operation. The DCS received signal received through the antenna 300 is separated through the diplexer 310 and output through the DCS transmit / receive signal switching unit 370.

Figure 4 is a block diagram showing another embodiment configuration of a dual band wireless switching circuit of the present invention. As shown therein, another embodiment of the present invention uses the band pass filter 400, 410 instead of the low pass filter 320, 350 in the GSM transmission signal detector in the above-described embodiment.

According to another exemplary embodiment of the present invention, when the GSM transmission signal and the DCS transmission signal are transmitted, the bandpass filter 400 or 410 performs bandpass filtering on only the GSM transmission signal and the DCS transmission signal, respectively. By inputting to the signal switching unit 340 and the DCS transmission / reception signal switching unit 370, a noiseless, cleaner GSM transmission signal and a DCS transmission signal can be transmitted.

5 is a circuit diagram illustrating an example of a detailed configuration according to an exemplary embodiment of FIG. 3. As shown therein, the diplexer 310 transmits the output signal of the GSM transmission / reception signal switching unit 340 to the antenna 300 and low-pass filters the GSM reception signal received by the antenna. The low pass filter 500 input to the GSM transmit / receive signal switching unit 340 and the output signal of the DCS transmit / receive signal switching unit 370 to the antenna 300 and to the antenna 300. A high pass filter 510 for high pass filtering the received DCS received signal and inputting the DCS transmit / receive signal switching unit 370. The low pass filter 500 has a ground capacitor C12 connected to a capacitor C11, and a transmission line 501 of an inductor component and a capacitor between a connection point of the capacitors C11 and C12 and the antenna 300. C13 is connected in parallel. The high pass filter 510 is connected to a capacitor C14 with a transmission line 511 of an inductor component grounded at one side thereof, and a connection point between the capacitor C14 and the transmission line 511 of the inductor component and an antenna ( Between 300, the transmission line 512 of the inductor component and the capacitor C15 are connected in parallel.

The low pass filter 320 has a ground capacitor C17 connected to a capacitor C16 to which a GSM transmission signal is applied, and a connection point of the capacitors C16 and C17 connected in parallel to the capacitor C18 and a transmission line. A ground capacitor C20 is connected to the ground capacitor C19 through 520, and a ground capacitor C20 is connected to the transmission line 520.

In the first switching voltage input unit 330, an impedance converter 530 and a capacitor C21 are connected in series between a connection point of the capacitors C16 to C18 and the transmission line 520 and ground, and a coil L11. The first switching voltage SV1 is applied to one terminal of, and the other terminal of the coil L11 is connected to the connection point of the impedance converter 530 and the capacitor C21 through the resistor R11.

The GSM transmit / receive signal switching unit 340 has a connection point between the capacitors C18 and C19 and the transmission line 520 of the low pass filter 320 through the pin diode D11, and the diplexer 310. Is connected to the capacitor C11 of the circuit board, and the connection point of the pin diode D11 and the capacitor C11 is connected to the ground through the impedance converter 540 and the pin diode D12, and the impedance converter 540 and the pin diode ( The condenser C22 is connected to the connection point of D12, and the GSM reception signal is separately output through the condenser C22.

The low pass filter 350 has a ground capacitor C24 connected to a capacitor C23 to which a DCS transmission signal is applied, and a connection point of the capacitors C25 and C24 connected in parallel to the capacitor C25 and a transmission line. A ground capacitor C27 is connected to the ground capacitor C26 through 550, and a ground capacitor C27 is connected to the transmission line 550.

In the second switching voltage input unit 360, a transmission line 560 and a capacitor C28 are connected in series between a connection point of the capacitors C23 to C25 and the transmission line 550 and ground, and a coil L12. The second switching voltage SV2 is applied to one terminal of, and the other terminal of the coil L12 is connected to the connection point of the transmission line 560 and the capacitor C28 through the resistor R12.

The DCS transmit / receive signal switching unit 370 has a connection point between the capacitors C25 and C26 and the transmission line 550 of the low pass filter 350 through the pin diode D13 and the diplexer 310. Is connected to the capacitor C14 of the circuit board, and the connection point of the pin diode D13 and the capacitor C14 is connected to the ground through the impedance converter 570 and the pin diode D14, and the transmission line 570 and the pin diode ( A condenser C29 is connected to the connection point of D14) so that the DCS received signal is separated and output through the condenser C29.

According to the present invention configured as described above, the input GSM transmission signal passes through the condenser C16 of the low pass filter 320, and all DC components included in the GSM transmission signal are removed by the condenser C16. The GSM transmission signal from which the DC component is removed is low-pass filtered at high performance through the transmission line 520 and the capacitors C17 to C20 to detect the GSM transmission signal, and the detected GSM transmission signal is switched to the GSM transmission / reception signal. It is input to the unit 340.

The first switching voltage SV1 is input through the coil L11 and the resistor R11 of the first switching voltage input unit 330 and applied to the transmission line 530 and the capacitor C21. At this time, the coil L11 blocks the high frequency of the GSM transmission signal inputted to the low pass filter 320 to flow back to the power source, and the resistor R11 restricts the flow of the current. D12) prevents overcurrent from being damaged.

When the first switching voltage SV1 is input, the transmission line 530 is in a high impedance state and a forward bias voltage is applied to the pin diodes D11 and D12 of the GSM transmit / receive signal switching unit 340. All become conductive. Then, the GSM transmission signal passing through the capacitor C16 is inputted to the transmission line 520 and the capacitors C17 to C20 without being lost by the transmission line 530 in the high impedance state and is low pass filtered. The low pass filtered GSM transmission signal is input to the low pass filter 500 of the diplexer 310 through the pin diode D11. The low pass filter 500 performs low pass filtering on the signal at the antenna 300 side, but acts as a transmission line on the signal of the GSM transmit / receive signal switching unit 340 and uses the pin diode D11. The passed GSM transmission signal is transmitted to the antenna 300 through the low pass filter 500 in the reverse direction. At this time, as the pin diode D12 is in a conductive state, the impedance converter 540 is also in a high impedance state, and thus all GSM transmission signals passing through the pin diode D11 are not lost by the impedance converter 540. The low pass filter 500 is transmitted to the antenna 300 and transmitted.

In contrast, when the first switching voltage SV1 is not input, reverse bias voltage is applied to the pin diodes D11 and D12, and both are blocked.

Then, the GSM received signal received through the antenna 300 is low-pass filtered by the low pass filter 500, and the detected GSM received signal is sequentially output through the transmission line 540 and the condenser C22. .

Meanwhile, the low pass filter 350, the second switching voltage input unit 360, and the DCS transmit / receive signal switching unit 370 may include the low pass filter 320 and the first filter according to whether the second switching voltage SV2 is input. 1 The same operation as the switching voltage input unit 330 and the GSM transmission / reception signal switching unit 340, the specific operation is omitted, and the high pass filter 510 serves as a transmission line when transmitting a DCS transmission signal. To transmit and transmit the DCS transmission signal output from the DCS transmission / reception signal switching unit 370 to the antenna 300 and, when receiving the DCS reception signal, high-pass the DCS reception signal received by the antenna 300. The filter 510 is detected by high pass filtering and input to the DCS transmit / receive signal switching unit 370.

FIG. 6 is a circuit diagram illustrating another example of a detailed configuration of FIG. 3. As shown therein, the low pass filter 320 and the low pass filter 370 may be configured without the condensers C20 and C27 in the transmission lines 520 and 550.

7 is a circuit diagram illustrating still another example of a detailed configuration according to an exemplary embodiment of FIG. 3. As shown therein, a capacitor C30 is connected between the GSM transmit / receive signal switching unit 340 and the antenna 300, and a transmission line is connected between the connection point of the capacitor C30 and the antenna 300 and ground. The low pass filter 500 may be configured by connecting the 600 and the condenser C31 in series.

On the other hand, while the present invention has been shown and described with respect to specific preferred embodiments, various modifications and changes of the present invention without departing from the spirit or field of the invention provided by the claims below It will be readily apparent to one of ordinary skill in the art that it can be used.

As described in detail above, the present invention includes a diplexer while sharing one antenna to transmit a GSM transmission signal and a DCS transmission signal to the antenna, and to separate the GSM reception signal and the DCS reception signal, thereby transmitting the GSM transmission / reception signal. Input to the switching unit and the DCS transmission / reception signal switching unit makes it easy to separate the GSM reception signal and the DCS reception signal, and also to cleanly switch the GSM transmission signal and the reception signal and the DCS transmission signal and the reception signal without loss. Can be.

Claims (3)

An antenna for transmitting and receiving GSM and DCS signals; A diplexer for transmitting a GSM transmission signal and a DCS transmission signal to the antenna and separating the GSM reception signal and the DCS reception signal received through the antenna; A GSM transmission signal detector for filtering and detecting a GSM transmission signal; A first switching voltage input unit configured to receive a first switching voltage and cause the GSM transmission signal detection unit to detect the GSM transmission signal; When the first switching voltage input unit receives the first switching voltage, the GSM transmission signal detected by the GSM transmission signal detector is transferred to the diplexer, and the first switching voltage input unit does not receive the first switching voltage. A GSM transmit / receive signal switching unit for separating and outputting a GSM received signal separated from the diplexer; A DCS transmission signal detector for filtering and detecting a DCS transmission signal; A second switching voltage input unit configured to receive a second switching voltage and cause the DCS transmission signal detection unit to detect the DCS transmission signal; And When the second switching voltage input unit receives the second switching voltage, the DCS transmission signal detected by the DCS transmission signal detection unit is transferred to the diplexer, and the second switching voltage input unit does not receive the second switching voltage. If not, the dual-band wireless switching circuit comprising a DCS transmit / receive signal switching unit for separating and outputting the DCS received signal separated from the diplexer. The method of claim 1, wherein the GSM transmission signal detection unit and the DCS transmission signal detection unit; A dual band wireless switching circuit, characterized in that the low pass filter or band pass filter. The method of claim 1, wherein the diplexer; A low pass filter for transmitting a GSM transmission signal output from the GSM transmission / reception signal switching unit to the antenna and low-pass filtering the GSM reception signal received through the antenna to the GSM transmission / reception signal switching unit; And And a high pass filter for transmitting the DCS transmission signal output from the DCS transmission / reception signal switching unit to the antenna and filtering the DCS reception signal received by the antenna to high pass to input the DCS transmission / reception signal switching unit. Dual band wireless switching circuit.