KR100624324B1 - An apparatus for preventing leakage power in a gsm mobile communication terminal supporting multi-band - Google Patents

Abstract

The present invention relates to an apparatus for preventing leakage power of a GSM mobile communication terminal supporting multiple bands.

The present invention is to support a multi-band (Multi-Band) including an antenna switch unit for transmitting or receiving a transmission signal processing circuit or a reception signal processing circuit by switching the radio signal transmitted and received through the antenna according to each frequency band In a communication terminal, a reception capacitor for each frequency band switched by an antenna switch unit is connected in parallel to a transmission line transmitted to a reception signal processing circuit, and a bypass capacitor is used to transmit a radio signal in a specific frequency band. By using, a device for selectively isolating the transmission line of the received signal with the transmission line of the transmission signal according to the frequency band.

Accordingly, the present invention is to switch the radio signals transmitted and received through the antenna according to each frequency band in the Global System for Mobile communication (GSM) mobile terminal that supports multi-band in a specific frequency band In the case of transmitting a radio signal, by using a bypass capacitor to selectively isolate the transmission line of the received signal with the transmission line of the transmission signal according to the frequency band, the specific frequency band or its adjacent frequency. Inherently prevents the reception signal received through the antenna from the band leakage to the transmission line of the transmission signal, half-duplex such as antenna switch module (ASM), front end module Improves PVT (Power Vs Time) without leakage of received signal even when using half duplex switching element It works.

Description

Leakage prevention device for GSM mobile communication terminal supporting multi-band {AN APPARATUS FOR PREVENTING LEAKAGE POWER IN A GSM MOBILE COMMUNICATION TERMINAL SUPPORTING MULTI-BAND}

1 is a block diagram showing the configuration of a leakage power prevention device of a GSM mobile communication terminal supporting the present invention multi-band.

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

10: antenna switch unit 20: leakage power prevention device

21: control voltage generation unit 22: high frequency short circuit control unit

30: small filter 40: power amplifier

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile communication terminal, and in particular, to switch wireless signals transmitted and received through an antenna according to each frequency band in a global systems for mobile communication (GSM) mobile communication terminal supporting multi-bands. In the case of transmitting a radio signal in a specific frequency band, by using a bypass capacitor (bypass capacitor), by selectively isolating the transmission line of the received signal with the transmission line of the transmission signal according to the frequency band, The antenna switch module (ASM) and the front end module are inherently prevented from leaking the received signal received through the antenna in the frequency band or its adjacent frequency band to the transmission line of the transmission signal. Receive leakage of received signal even when using half duplex switching element such as module The PVT (Power Vs Time) leakage power of the anti-SM if a mobile communication terminal supporting multi-band to improve to an apparatus.

The Global System for Mobile communication (GSM) mobile communication terminal includes GSM 850/900 service, Digital Cordless System (DCS) 1800 service, PCS (Personal Communication Service) 1900 service, or WCDMA (Wideband CDMA) service. The present invention implements a multi-band capable of receiving a mobile communication service by selecting any one of a plurality of service methods having different frequency bands.

In this case, the GSM mobile communication terminal supporting the multi-band uses an switching device such as an antenna switch module (ASM), a front end module (FSM), and the like, while enabling an enable signal for each frequency band. Transmit and receive radio signals from the base station.

Switching elements such as the antenna switch module and the front end module adopt a half duplex method, which is a communication method set to be transmitted only to one side in two-way communication, but there is an advantage of easily implementing a multi-band. Since the full duplex scheme used in the Code Division Multiple Access (CDMA) service is not used, the isolation is not performed well between the transmission line and the reception line while transmitting a radio signal in a specific frequency band. A phenomenon in which a received signal received through an antenna in a specific frequency band or an adjacent frequency band thereof leaks to a transmission line of a transmission signal occurs.

As a result, there is a large margin in the power volt time (PVT) because the power difference between the noise level and the strength of the received signal is high in a high power class, but in a low power class Because of the small difference in power between the signal and the noise, there was a problem that other margins were affected due to insufficient margins or leakage problems.

Therefore, the present invention has been proposed to solve the above-described problems, and the antenna according to each frequency band in a Global Systems for Mobile communication (GSM) mobile communication terminal supporting Multi-Band (Multi-Band) In the case of transmitting a radio signal in a specific frequency band in switching a radio signal transmitted / received through a channel, a bypass capacitor is used to selectively isolate the transmission line of the reception signal with the transmission line of the transmission signal according to the frequency band. Its purpose is to provide a device for isolating.

In order to achieve the above object, the present invention provides a multi-band including an antenna switch unit which transmits or receives a radio signal transmitted and received through an antenna according to each frequency band to a transmission signal processing circuit or a reception signal processing circuit. In a mobile communication terminal supporting a Band), the received signal for each frequency band switched by the antenna switch unit is connected in parallel to the transmission line delivered to the reception signal processing circuit, and transmits a radio signal in a specific frequency band In this case, a bypass capacitor is used to selectively isolate the transmission line of the reception signal with the transmission line of the transmission signal according to the frequency band.

Hereinafter, an embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing the configuration of a leakage power prevention device of a GSM mobile communication terminal supporting the multi-band of the present invention, as shown in this, by switching a radio signal transmitted and received through an antenna according to each frequency band for transmission In the MS mobile communication terminal having an antenna switch unit 10 which is transmitted to or received by a signal processing circuit or a received signal processing circuit, and supports multi-bands, the antenna switch unit 10 and the receiving unit are received. Located between the signal processing circuits, and when transmitting a radio signal in a specific frequency band, by using a bypass capacitor (bypass capacitor), the transmission line of the received signal according to the frequency band selectively isolation with the transmission line of the transmission signal (isolation) ) Has a configuration.

In addition, the leakage power preventing device 20 of the present invention, the control voltage generating unit 21 is applied in accordance with the service selection signal for selecting a specific frequency band to apply a control voltage; In accordance with the control voltage of the control voltage generator 21, a high frequency short circuit controller 22 short-circuits or blocks the transmission line of the received signal received through the antenna in the specific frequency band or its adjacent frequency band.

Through the above configuration, the present invention is to switch the radio signal transmitted and received through the antenna according to each frequency band in the Global System for Mobile communication (GSM) mobile communication terminal that supports multi-band (Multi-Band) When transmitting a radio signal in a specific frequency band, by using a bypass capacitor (bypass capacitor), by selectively isolating the transmission line of the received signal with the transmission line of the transmission signal according to the frequency band, The antenna switch module (ASM), the front end module (Front End Module) are prevented from being leaked to the transmission line of the transmission signal. PVT (Power) without leakage of received signal even when using half duplex switching element such as module Vs Time).

The present invention provides a plurality of services having different frequency bands, such as Global Systems for Mobile communication (GSM) 850/900 service, Digital Cordless System (DCS) 1800 service, PCS (Personal Communication Service) 1900 service, or Wideband CDMA (WCDMA) service. It is applicable to a European type GSM mobile communication terminal supporting a multi-band capable of receiving a mobile communication service by selecting any one of the methods. Particularly, the present invention is one of the frequency bands. In order to select one, the present invention can be applied to a mobile communication terminal using a half duplex switching element such as an antenna switch module (ASM), a front end module, or the like.

In FIG. 1, the antenna switch unit 10 switches a radio signal transmitted and received through an antenna according to each frequency band, and transmits or receives the signal to a transmission signal processing circuit or a reception signal processing circuit inside the mobile communication terminal.

Here, the antenna switch unit 10 is a half duplex antenna switch module (ASM), a front end module (Front End Module), etc., which is responsible for the overall control of the mobile terminal The antenna is connected to an internal transmission signal processing circuit or a reception signal processing circuit so that one of a plurality of frequency bands supported by the corresponding terminal can be selected and transmitted according to the service selection signal of the main controller (not shown). It plays a role.

The transmission signal processing circuit is a frequency converter and a modulator for performing band conversion, modulation, digital / analog conversion, amplification, etc., of a baseband signal into a radio frequency signal of a high frequency band under the control of a main controller (not shown). 1 illustrates only a power amplifier 40 that amplifies a transmission signal to a high power level that can be transmitted to a wireless space and outputs the power signal to the antenna switch unit 10. The circuit comprises a small filter for converting the received signal of the high frequency band switched by the antenna switch unit 10 into a baseband signal by performing band conversion, low noise amplification, filtering, demodulation, analog / digital conversion, and baseband processing ( A circuit such as a SAW filter, a low noise amplifier (LNA), a demodulator (Demodulator), etc. In FIG. 1, a radio signal of a high frequency band switched by the antenna switch unit 10 Only the small filter 30 for band conversion to the intermediate frequency band is shown.

The leakage preventing device 20 according to the present invention is located between the antenna switch unit 10 and the reception signal processing circuit, and uses a bypass capacitor to transmit a radio signal in a specific frequency band. In this case, the transmission line of the reception signal is selectively isolated with the transmission line of the transmission signal according to the frequency band.

That is, the leakage power prevention device 20, when the antenna switch unit 10 transmits a radio signal of a specific frequency band, the received signal received through the antenna in the specific frequency band or its adjacent frequency band is a transmission signal In order to prevent leakage to the transmission line of the source, the transmission line of the received signal is selectively isolated with the transmission line of the transmission signal according to the frequency band, so that the control voltage generator 21 When a control voltage is applied in response to a service selection signal of a main controller (not shown) for selecting a specific frequency band, the high frequency short circuit controller 22 according to the control voltage of the control voltage generator 21 determines the specific voltage band. The transmission line of the received signal received through the antenna in the frequency band or its adjacent frequency band is implemented by shorting or blocking.

In more detail, when a user selects a specific service from among a service such as a GSM 850/900 service, a DCS 1800 service, a PCS 1900 service, or a WCDMA service by selecting a menu from a mobile communication terminal supporting multi-band, The main control unit (not shown) in the terminal controls the internal circuit according to the frequency band of the corresponding service to support the selected specific service.

That is, the main control unit (not shown) transmits a service selection signal for selecting a specific frequency band to the antenna switch unit 10, by switching the radio signal transmitted and received through the antenna in the antenna switch unit 10 to the inside The service selection signal is also transmitted to the control voltage generator 21 of the leakage power preventing device 20 to transmit the control voltage to the high frequency short circuit controller 22. ) Is selectively applied for each frequency band.

Here, the leakage power prevention device 20 is connected in parallel to the transmission line that the received signal for each frequency band switched in the antenna switch unit 10 is transmitted to the reception signal processing circuit, and transmitted to the base station in a specific frequency band When the signal is transmitted, a transmission transmitted to the received signal processing circuit in order to prevent leakage of a received signal received through an antenna in the specific frequency band or its adjacent frequency band to the transmission line of the transmitted signal. By selectively shorting the line by each frequency band, it flows to the ground and removes the noise signal that enters the transmission signal transmission line through the reception signal transmission line, thereby eliminating the transmission line of the transmission signal and the transmission line of the reception signal. It is isolated.

For example, the frequency gap between DCS 1800 service and PCS 1900 service is small, so that if the isolation is incomplete, the received signal often leaks to the transmission line of the transmission signal, and the radio signal between other services can be used. In order to increase the efficiency, it is recommended to install the leakage power preventing device 20 according to the present invention in all transmission signal transmission lines of the frequency band.

Accordingly, the transistors TR1 and TR2 of the control voltage generator 21 are selectively turned on by the service selection signal of the main controller (not shown), so that the control voltage of a predetermined level is supplied to the high frequency short circuit controller 22. The variable capacitors VC1 and VC2 whose capacitance changes according to the voltage value in the high frequency short circuit controller 22 are operated by the control voltage, and the antenna switch unit 10 receives the received signal processing circuit. The transmission line of the received signal is short-circuited so that the noise signal flows out to the ground. In this case, the main control unit (not shown) receives the received signal of the same frequency band or the adjacent frequency band of the current transmission signal. The service selection signal is controlled to select and short the transmission line.

Here, the control voltage generator 21 uses a field effect transistor (FET), which is a switching element that operates at a high speed at low power, and the high frequency short circuit controller 22 uses the variable capacitors VC1 and VC2 to control the control voltage. When the control voltage of the voltage generator 21 is applied to serve as a bypass capacitor, otherwise it does not operate to implement a circuit that remains open.

On the other hand, as shown in Figure 1, in order to prevent leakage between the DCS 1800 service and the PCS 1900 service in one embodiment of the present invention, the control voltage generator 21 and the high-frequency short-circuit controller 22 in two frequency bands Although an example of selectively shorting a reception signal transmission line of the present invention is illustrated as an example, it is possible to short-circuit a reception signal transmission line of three or more frequency bands by using three or more transistors TR1 and TR2 and variable capacitors VC1 and VC2. It can also be implemented.

As described above, the present invention in switching a radio signal transmitted and received through an antenna according to each frequency band in a Global Systems for Mobile communication (GSM) mobile communication terminal that supports multi-band (Multi-Band) When transmitting a radio signal in a specific frequency band, by using a bypass capacitor (bypass capacitor), by selectively isolating the transmission line of the received signal with the transmission line of the transmission signal according to the frequency band, Alternatively, an antenna switch module (ASM) and a front end module are inherently prevented from preventing leakage of a reception signal received through an antenna in an adjacent frequency band to a transmission line of a transmission signal. PVT (Pow) without leakage of received signal even when using half duplex switching element such as er Vs Time).

Claims (4)

Switching a radio signal transmitted and received through an antenna according to each frequency band to a mobile terminal supporting a multi-band (Multi-Band) having an antenna switch unit for transmitting or receiving to a transmission signal processing circuit or a reception signal processing circuit The reception signal for each frequency band switched by the antenna switch unit is connected in parallel to a transmission line delivered to the reception signal processing circuit, and when a radio signal is transmitted in a specific frequency band, a bypass capacitor is used. And leakage power prevention device of a GSM mobile communication terminal supporting multi-band, wherein the transmission line of the reception signal is selectively isolated from the transmission line of the transmission signal according to the frequency band. Switching a radio signal transmitted and received through an antenna according to each frequency band to a mobile terminal supporting a multi-band (Multi-Band) having an antenna switch unit for transmitting or receiving to a transmission signal processing circuit or a reception signal processing circuit And a control voltage generator for applying a control voltage in accordance with a service selection signal for selecting a specific frequency band; In accordance with the control voltage of the control voltage generator, a multi-band short circuit control unit for short-circuit or blocking the transmission line of the received signal received through the antenna in the specific frequency band or the adjacent frequency band to support the multi-band Leakage prevention device of GSM mobile communication terminal. The apparatus of claim 2, wherein the control voltage generator comprises a plurality of field effect transistors (FETs) that are electrically controlled by a service selection signal. 3. The leakage of a GSB mobile terminal of claim 2, wherein the high frequency short circuit control unit comprises a plurality of variable capacitors connected to ground at one side thereof and operated by a control voltage. Power protection device.

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