KR20010056143A - Communication mode selection apparatus for the mobile station operating in the tri-mode and selection method thereof - Google Patents

Abstract

The present invention relates to an apparatus and a method for selecting a communication mode of a mobile terminal operating in a tri mode. The user can selectively use three modes of the PS mode, the AMPS mode and the CDMA mode in one mobile terminal, and can easily use the base station of the three communication modes selectively. By opening only the communication communication path of the mode desired by the user and shutting off the supply of power voltage to the unnecessary communication path, the unnecessary communication path is closed. Therefore, loss of unnecessary current can be suppressed. In addition, the gain of the communication signal passing through the antenna can be maximized and the loss can be as small as possible.

Description

{Communication mode selection apparatus for the mobile station operating in the tri-mode and selection method}

The present invention relates to a communication mode selection device and a communication mode selection method of a mobile terminal operating in a tri-mode, in particular, a mobile terminal that can selectively use three modes of the PS mode, AMPS mode and CDMA mode in one mobile terminal A communication mode selection apparatus and a communication mode selection method are provided.

Tri mode means three communication modes applied to a communication method of a mobile terminal such as a mobile phone or a mobile phone. The three communication modes refer to three types of communication modes: PCS (PCS) mode, Advanced Mobile Phone System (AMPS) mode, and code division muti access (CDMA) mode. The AMPS mode is an analog communication mode, and the PS mode and the CDMA mode are digital communication modes.

As shown in FIG. 1, a conventional communication signal selecting apparatus of a mobile terminal includes an antenna matching circuit 2, an antenna switch 61, a divider 62, a first signal processing circuit 4, and a second The signal processing circuit 6 and the control means 64 were comprised.

The antenna matching circuit 2 is connected to the antenna 12 to receive a communication signal by matching the impedance of the communication line including the antenna 12.

The antenna switch 61 is connected to the antenna matching circuit 2 so as to pass a signal of a communication mode desired by a user among the communication signals of the PS mode, the AMPS mode, and the CDMA mode that have passed through the antenna matching circuit 2. Connected.

The distributor 62 supplies the communication signal passed through the antenna switch 61 to one of the first signal processing circuit 4 and the second signal processing circuit 6 which will be described later. Is connected to.

The first signal processing circuit 4 is connected to the splitter 62 to amplify and filter a PS mode signal among the communication signals passed through the splitter 62.

The second signal processing circuit 6 is connected to the distributor 62 to amplify and filter the communication signals of the AMPS mode and the CDMA mode among the communication signals passing through the distributor 62.

The control means 64 controls the operation of the antenna switch 61 and the divider 62 to transmit a communication signal in a mode desired by the user through the first signal processing circuit 4 and the second signal processing circuit 6. It is connected to the said 1st signal processing circuit 4 and the 2nd signal processing circuit 6 so that it may receive.

The first signal processing circuit 4 is designed to pass signals having a frequency in the 1.9 GHz band for processing communication signals in the PS mode.

The second signal processing circuit 6 is designed to pass signals having a frequency in the 800 MHz band for processing communication signals in AMPS mode and CDMA mode.

The AMPS mode communication signal and the CDMA mode communication signal supplied to the second signal processing circuit 6 are separated by hardware by the second signal processing circuit 6 or later to the control means 64. By software.

In other words, the hardware separation method is to install a CDMA bandpass filter having a frequency bandwidth of 1.23 MHz and an AMPS bandpass filter having a frequency bandwidth of 300 KHz in parallel.

In the software separation method, the control means 64 receives the communication signal input to the control means 64 while the control means 64 recognizes the frequency band width (1.23 MHz, 300 KHz). How to separate according to the width.

However, the communication signal selection device of the conventional mobile terminal configured as described above has a complicated configuration of the antenna switch 61 and the distributor 62.

In addition, although the communication signal passing through the antenna switch 61 and the divider 62 passes to one of the first signal processing circuit 4 and the second signal processing circuit 6, a part of the communication signal Proceeding to another of the first signal processing circuit 4 and the second signal processing circuit 6, there was a problem in that a noise component and a multiplication wave (wave of a signal having a delay component) are generated.

Therefore, the present invention has been made to solve the above problems and an object of the present invention is to operate in a tri mode that can simplify the configuration of the product and can suppress the generation of noise and the multiplication wave at the time of transmission and reception of communication signals. An apparatus and a method for selecting a communication mode of a mobile terminal are provided.

In order to achieve the above object, a communication mode selection device of a mobile terminal operating in a tri mode according to the present invention operates in a tri mode to selectively transmit and receive a communication signal of a PC mode, a communication signal of an AMPS mode, and a communication signal of a CDMA mode. An apparatus for selecting a communication mode of a mobile terminal, comprising: an antenna matching circuit for receiving a communication signal by matching impedance of a communication line including an antenna, and amplifying and filtering a signal of a PS mode among the communication signals received by the antenna matching circuit A first signal processing circuit, a second signal processing circuit for amplifying and filtering an AMPS mode communication signal and a CDMA mode communication signal among communication signals received by the antenna matching circuit, and controlling transmission and reception operations of the communication signal; Communication mode to send and receive communication signals in the mode you want A control means for outputting a call; and a communication mode selection signal output from the control means to make one of the first signal processing circuit and the second signal processing circuit into an operable state, It is characterized by consisting of the enable / operation stop means for shutting off the power supply to put the other circuit into an operation stop state.

In addition, the method of selecting a communication mode of a mobile terminal operating in a tri mode according to the present invention includes a first determining step of determining whether a communication mode set by a user is a PC mode, and a method of determining whether a user has changed a communication mode. 2 is a communication mode maintenance step of maintaining the communication mode in the PS mode by maintaining the switching state of the enable / stop operation means when it is determined that the user has not changed the communication mode in the second determination step. Characterized in that made.

1 is a block diagram of a communication signal selection device of a mobile terminal operating in a tri mode according to the prior art;

2 is a circuit diagram of a communication signal selection device of a mobile terminal operating in a tri mode according to one embodiment of the present invention;

3 is a flowchart of a communication signal selection method of a mobile terminal operating in a tri mode according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

2: antenna matching circuit 4: first signal processing circuit

6: second signal processing circuit 8, 64: control means

10: enable / stop operation means 12: antenna

14: first transistor 16: second transistor

18: first low noise amplifier 20: first down mixer

22: second low noise amplifier 24: second down mixer

26: first output terminal 28: second output terminal

R1: resistance VCC: DC voltage supply terminal

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

In description of FIG. 2, the same code | symbol is attached | subjected about the same part as FIG.

As shown in FIG. 2, a communication mode selection device of a mobile terminal operating in a tri mode to selectively transmit and receive a communication signal of a PC mode, a communication signal of an AMPS mode, and a communication signal of a CDMA mode includes an antenna matching circuit (2). And a first signal processing circuit 4, a second signal processing circuit 6, a control means 8 and an enable / stop operation means 10.

The antenna matching circuit 2 is connected to the antenna 12 to receive and transmit a communication signal by matching the impedance of the communication line including the antenna.

The first signal processing circuit 4 is connected to the antenna matching circuit 2 to amplify and filter a PS mode signal among the communication signals received by the antenna matching circuit 2.

The second signal processing circuit 6 is connected to the antenna matching circuit 2 to amplify and filter the AMPS mode communication signal and the CDMA mode communication signal among the communication signals received by the antenna matching circuit.

The control means 8 outputs a control signal for controlling the transmission and reception operation of the communication signal and at the same time outputs a communication mode selection signal for transmitting and receiving a communication signal of a user desired mode (mobile station manager (MSM) manager).

The enable / stop operation means (10) receives a communication mode selection signal output from the control means (8) to disconnect one of the first signal processing circuit (4) and the second signal processing circuit (6). The other circuit is connected to the control means 8 to turn off the power supply and bring the other circuit into an operation stop state at the same time as to make the operation state possible.

The enable / stop operation means 10 comprises a first transistor 14, a second transistor 16, a first output terminal 26 and a second output terminal 28.

The first transistor 14 is turned on in accordance with the high level first communication mode selection signal output from the control means 8 and in accordance with the low level second communication mode selection signal output from the control means 8. It is connected to a general purpuse interface output (GPIO) terminal of the control means 8 to be turned off.

The second transistor 16, which is a PNP type transistor, is connected to the collector of the first transistor 14 so as to be turned on / off in accordance with the turn-on / turn-off of the first transistor 14, which is an NPN type transistor.

The first output terminal 26 is connected to the first low noise amplifier 18 and the first down mixer of the first signal processing circuit 4 according to the turn-on of the first transistor 14 and the second transistor 16. A first low noise amplifier 18 and a first down mixer of the first signal processing circuit 4 according to the turn-off of the first transistor 14 and the second transistor 16. It is connected to the DC voltage supply terminal VCC of a DC voltage supply circuit (not shown) via the said 2nd transistor 16 so that a power supply voltage may not be output to 20.

The second output terminal 28 has a second low noise amplifier 22 and a second down mixer of the second signal processing circuit 6 according to the turn-off of the first transistor 14 and the second transistor 16. The first transistor 14 is outputted with a power supply voltage to the second transistor 24 so that the power supply voltage is not outputted to the second signal processing circuit 6 in response to the turn-on of the first transistor 14 and the second transistor 16. ) And a second transistor 16 and a resistor R1 are connected to the DC voltage supply terminal VCC of the DC voltage supply circuit.

The first signal processing circuit 4 is connected to the first duplexer 30 and the first duplexer 30 for guiding the communication signal to receive and transmit the communication signal of the PS mode through one line. A first low noise amplifier (LNA) 18 which amplifies the communication signal that has passed and removes noise (noise) included in the communication signal as much as possible, and is output from the first low noise amplifier 18 A first noise canceling filter 19 for removing noise included in the communication signal, and a communication signal having a high band frequency passing through the first noise canceling filter 19 is applied to a low band output from a voltage oscillator (not shown). It consists of a first down mixer 20 which mixes with the frequency and outputs a communication signal having a low band frequency to the control means 8.

The second signal processing circuit 6 includes a second duplexer 32 for guiding a communication signal to receive and transmit the AMPS mode communication signal and the CDMA mode communication signal through one line, and the second duplexer 32 A second low noise amplifier 22 which amplifies the communication signal passing through the signal 32 and removes noise included in the communication signal as much as possible, and noise included in the communication signal output from the second low noise amplifier 22; A second noise canceling filter 23 for removing a signal and a communication signal having a high band frequency passing through the second noise canceling filter 23 and a low band frequency output from a voltage oscillator (not shown) It consists of a second down mixer 24 which outputs a communication signal having a frequency of the band to the control means 8.

The first noise canceling filter 19 and the second noise canceling filter 23 are high frequency surface acoustic wave (RF SAW) filters that remove noise with high accuracy.

Hereinafter, a method of selecting a communication mode of a mobile terminal operating in a tri mode according to an embodiment of the present invention in connection with a communication mode selection device of a mobile terminal operating in a tri mode according to an embodiment of the present invention configured as described above do.

In FIG. 4, S represents a step.

First, it is assumed that a high level communication mode selection signal is output from the GPIO terminal of the control means 8 to the base of the first transistor 14 as an initial condition for the operation explanation. As a result, the first transistor 14 is turned on, and the second transistor 16 is turned on according to the turn-on of the first transistor 14.

Then, a low level voltage is output from the second output terminal 28 through the emitter and the collector of the first transistor 14. Therefore, the power supply voltage is not supplied to the 2nd low noise amplifier 22 and the 2nd down mixer 24 from the DC voltage supply terminal VCC of a DC voltage supply circuit (not shown).

Thus, the second low noise amplifier 22 and the second down mixer 24 are in a stopped state.

On the other hand, the power supply voltage is supplied to the first output terminal 26 from the DC voltage supply terminal VCC of the DC voltage supply circuit according to the turn-on of the second transistor 14.

Accordingly, a power supply voltage is supplied from the first output terminal 26 to the first low noise amplifier 18 and the first down mixer 20 of the first signal processing circuit 4 so that the first low noise amplifier 18 The first down mixer 20 is in an operable state.

First, in step S1, the control means 8 determines whether the communication mode set by the user is the PS mode among the three modes of the PS mode, the AMPS mode and the CDMA mode.

As a result of this determination, when the control means 8 determines that the communication mode set by the user is the PS mode, the process proceeds to step S2.

In step S2, the control means 8 determines whether the current communication mode remains unchanged. That is, the control means 8 determines whether the user inputs a communication mode change command to the keyboard of the mobile terminal. As a result of this determination, when the control means 8 determines that the current communication mode remains unchanged because the user does not input a communication mode change command on the keyboard of the mobile terminal, the process proceeds to step S3 (YES). .

In step S3, a high level communication mode selection signal is continuously output from the GPIO terminal of the control means 8 to the base of the first transistor 14. Therefore, the first transistor 14 and the second transistor 16 are continuously turned on.

Therefore, in step S4, the first signal processing circuit 4 on the PS mode side remains in an operable state.

On the other hand, the second low noise amplifier 22 and the second down mixer 24 continue to be stopped.

Thus, communication signals in AMPS mode and CDMA mode do not pass through the second low noise amplifier 22 and the second down mixer 24.

Therefore, when the communication signal of the PS mode is input to the control means 8 through the first signal processing circuit 4, a different noise or Chebe wave is transmitted through the second signal processing circuit 6. It is not input in (8). Therefore, the overall product intermodulation characteristics of the mobile terminal are improved.

On the other hand, when the control means 8 determines that the user has changed the current communication mode by setting one of the AMPS mode and the CDMA mode to his mobile terminal in step S2 (if NO) ) Proceeds to step S5.

In step S5, a low level communication mode selection signal is output from the GPIO terminal of the control means 8 to the base of the first transistor 14.

The first transistor 14 is then turned off.

As the first transistor 14 is turned off, the second transistor 16 is also turned off.

Then, a power supply voltage is supplied from the DC voltage supply terminal VCC of the DC voltage supply circuit to the second output terminal 28 via the resistor R1. A power supply voltage is then supplied from the second output terminal 28 to the second low noise amplifier 22 and the second down mixer 24 of the second signal processing circuit 6. The second low noise amplifier 22 and the second down mixer 24 are then operated.

Then, in step S6, the user can perform communication in AMPS mode and CDMA mode through his mobile terminal. That is, the mobile station can communicate with the base station in the AMPS mode or the base station in the CDMA mode.

On the other hand, since the second transistor 16 is turned off, the power supply voltage is not supplied to the first output terminal 26 from the DC voltage supply terminal VCC of the DC voltage supply circuit. Subsequently, a power supply voltage is not supplied from the first output terminal 26 to the first low noise amplifier 18 and the first down mixer 20 of the first signal processing circuit 4. Then, the operation of the first low noise amplifier 18 and the first down mixer 20 is stopped.

Therefore, the communication mode of the PS mode does not pass through the first low noise amplifier 18 and the first down mixer 20.

Therefore, when a communication signal of an AMPS mode and a CDMA mode is input to the control means 8 through the second signal processing circuit 6, a distinctive noise or Chebe wave is generated through the first signal processing circuit 4. It is not input to the control means 8. Therefore, the product-wide intermodulation characteristic of the mobile terminal is improved.

On the other hand, when the control means 8 determines that the communication mode set by the user in step S1 is not the PS mode among the three modes of the PS mode, the AMPS mode and the CDMA mode, the process proceeds to step S7.

In step S7, a low-level communication mode selection signal is output from the GPIO terminal of the control means 8 to the base of the first transistor 14.

The first transistor 14 is then turned off.

As the first transistor 14 is turned off, the second transistor 16 is also turned off.

Then, a power supply voltage is supplied from the DC voltage supply terminal VCC of the DC voltage supply circuit to the second output terminal 28 via the resistor R1. A power supply voltage is then supplied from the second output terminal 28 to the second low noise amplifier 22 and the second down mixer 24 of the second signal processing circuit 6. The second low noise amplifier 22 and the second down mixer 24 are then operated.

At the same time, according to the turn-off of the second transistor 16, the first low noise amplifier 18 and the first down mixer 20 are not supplied with a power supply voltage from the DC voltage supply terminal VCC. The operation of the signal processing circuit 4 is stopped.

In this state, the control means 8 determines whether the current communication mode remains unchanged. That is, the control means 8 determines whether the user inputs a communication mode change command to the keyboard of the mobile terminal. As a result of this determination, when the user determines that the current communication mode remains unchanged because the user does not input a communication mode change command on the keyboard of the mobile terminal, the flow proceeds to step S8 (if YES).

In step S8, a low level communication mode selection signal is continuously output from the GPIO terminal of the control means 8 to the base of the first transistor 14. Therefore, the first transistor 14 and the second transistor 16 are continuously turned off.

Therefore, in step S9, the second signal processing circuit 6 on the AMPS / CDMA mode side continues to be in an operable state. At the same time, the first signal processing circuit 4 on the PS mode side continues to be in an operation stop state.

On the other hand, when the control means 8 determines that the user has changed the current communication mode by setting the communication mode of the PC mode to his mobile terminal in step S7 (if NO), go to step S10. Proceed.

In step S10, a high level communication mode selection signal is output from the GPIO terminal of the control means 8 to the base of the first transistor 14.

The first transistor 14 and the second transistor 16 are then turned on in turn.

As the second transistor 16 is turned on, a power supply voltage is supplied to the first output terminal 26 from a DC voltage supply terminal VCC of the DC voltage supply circuit.

Accordingly, a power supply voltage is supplied from the first output terminal 26 to the first low noise amplifier 18 and the first down mixer 20 of the first signal processing circuit 4 so that the first low noise amplifier 18 The first down mixer 20 is operable.

On the other hand, a low level voltage is output from the second output terminal 28 through the emitter and the collector of the first transistor 14. Therefore, the power supply voltage is not supplied to the second low noise amplifier 22 and the second down mixer 24 from the DC voltage supply terminal VCC of the DC voltage supply circuit.

Therefore, the operation of the second low noise amplifier 22 and the second down mixer 24 are stopped.

Then, in step S11, the user can execute the communication of the PC mode through his mobile terminal. That is, it is possible to communicate with the base station of the PC mode through its mobile terminal.

2 shows only a receiving circuit for receiving a communication signal transmitted from an external base station at a mobile terminal. However, the technique of the present invention for selectively processing signals having different frequency bands can be equally applied to a transmission circuit for transmitting a communication signal from a mobile terminal to an external base station. That is, the power supply circuit for supplying power to the transmission circuit can be configured in the same manner as in the above-described receiving circuit to selectively turn on / off the power supplied to the transmission circuit.

As described above, according to the communication mode selection apparatus of the mobile terminal operating in the tri mode according to the present invention, it is possible to suppress the loss of unnecessary current by opening only the communication communication path of the mode desired by the user and closing the unnecessary communication path. Therefore, the gain of the communication signal passing through the antenna can be maximized and the loss can be minimized as much as possible.

The user can easily open only the communication path of the mode desired by the user and stop the communication path of the unnecessary mode so that the user can efficiently use the channel of the frequency band desired by the user. Therefore, the user can selectively use three modes of the PC mode, AMPS mode and CDMA mode in one mobile terminal, and can easily use the base station of the three communication modes selectively.

In addition, the manufacturing cost of the product can be reduced by eliminating a large part of the circuit components to selectively use a plurality of communication modes compared to the prior art and by configuring as simple components.

On the other hand, when the communication signal of one mode is input to the control means through the signal processing circuit of one side, the communication signal of the other mode is essentially blocked from passing through the signal processing circuit of the other side so that no noise or Chebe wave is generated. Do not. Therefore, the noise characteristics of the product can be greatly improved. In addition, the overall intermodulation characteristics of the mobile terminal product can be greatly improved.

On the other hand, according to the communication mode selection method of the mobile terminal operating in the tri mode according to the present invention, when the communication signal of one mode is input to the control means through the signal processing circuit of one side, the communication signal of the other mode is By fundamentally blocking the signal processing circuit from passing through, it does not generate any noise or chebe wave. Therefore, the noise characteristics of the product can be greatly improved. It is also possible to greatly improve the overall intermodulation characteristics of the mobile terminal product.

Unnecessary current loss can be suppressed by opening only the communication communication path in the mode desired by the user and closing the unnecessary communication path. Therefore, the gain of the communication signal passing through the antenna can be maximized and the loss can be minimized as much as possible.

In addition, the user can easily open only the communication path of the mode desired by the user and the communication path of the unnecessary mode can be stopped so that the user can efficiently use the channel of the frequency band desired by the user.

Claims (6)

In the communication mode selection device of a mobile terminal operating in a tri-mode to selectively transmit and receive communication signals in the PCS (PCS) mode, AMPS mode communication signal and CDMA mode communication, An antenna matching circuit for receiving a communication signal by matching impedance of a communication line including an antenna; A first signal processing circuit for amplifying and filtering a PS mode signal among communication signals received by the antenna matching circuit; A second signal processing circuit for amplifying and filtering an AMPS mode communication signal and a CDMA mode communication signal among the communication signals received by the antenna matching circuit; Control means for controlling a transmission / reception operation of the communication signal and outputting a communication mode selection signal to transmit / receive a communication signal of a user desired mode; Receiving a communication mode selection signal output from the control means to make one of the first signal processing circuit and the second signal processing circuit into an operable state and at the same time cut off the power supply to the other circuit and the other An apparatus for selecting a communication mode of a mobile terminal, characterized by comprising enable / stop operation means for bringing the circuit of the device to a stop state. The method of claim 1, wherein the enable / stop operation means A first transistor turned on according to a high level first communication mode selection signal output from the control means and turned off according to a low level second communication mode selection signal output from the control means; A second transistor that is turned on / off according to the turn-on / turn-off of the first transistor; A power supply voltage is output to the first signal processing circuit according to the turn-on of the first transistor and the second transistor, and a power supply voltage is not output to the first signal processing circuit according to the turn-off of the first transistor and the second transistor. A first output terminal connected to the DC voltage supply circuit through the first transistor so as to prevent A power supply voltage is output to the second signal processing circuit according to the turn-off of the first transistor and the second transistor, and a power supply voltage is not output to the second signal processing circuit according to the turn-on of the first transistor and the second transistor. And a second output terminal connected to the DC voltage supply circuit through the first transistor, the second transistor, and a resistor (R1). A first determination step of determining whether the communication mode set by the user is a PC mode, A second determining step of determining whether the user has changed the communication mode, And a communication mode maintenance step of maintaining the communication mode in the PS mode by maintaining the switching state of the enable / stop operation means when it is determined that the user has not changed the communication mode in the second determination step. Method of selecting a communication mode of a mobile terminal. The method of claim 3, wherein when it is determined in the first determination step that the communication mode set by the user is not a PC mode, the third determination step determines whether the current communication mode remains unchanged in the AMPS / CDMA mode. Wow, A second communication for maintaining the communication mode in the AMPS / CDMA mode by maintaining the switching state of the enable / stop operation means when it is determined in the third determination step that the current communication mode remains unchanged in the AMPS / CDMA mode; Method of selecting a communication mode of a mobile terminal, characterized in that the mode maintenance step. 4. The method of claim 3, wherein when it is determined in the second determination step that the user has changed the communication mode, the method for changing the communication mode from the PC mode to the AMPS / CDMA mode by changing the switching state of the enable / stop operation means. A communication mode selection method of a mobile terminal, characterized in that for performing a communication mode changing step. 5. The method of claim 4, wherein when it is determined in the third determining step that the user has changed the communication mode, the method for changing the communication mode from AMPS / CDMA mode to PC mode by changing the switching state of the enable / stop operation means. 2. The method of selecting a communication mode of a mobile terminal, comprising: changing a communication mode.