JP2010109617A - Wireless communication terminal - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a wireless communication terminal that makes both packet communication and a voice telephone conversation compatible with each other without allowing a power amplifier to exceed the specifications when receiving an incoming call of line switching during packet communication. <P>SOLUTION: A communication part 3 includes: a packet switching network RF circuit 31 corresponding to a packet switching network; a line switching network RF circuit 32 corresponding to a line switching network; and a power amplifier 33 that is used in common by the packet switching network RF circuit 31 and the line switching network RF circuit 32. If detecting an incoming call of a telephone application, which mainly uses the line switching network via the packet switching network, when the packet switching network RF circuit 31 uses the power amplifier 33 and performs reception/transmission with the packet switching network, a control part 1 controls the telephone application so as to make the telephone application perform a telephone conversation by using the packet switching network. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a wireless communication terminal compatible with both a packet switching system and a circuit switching system.

Currently, LTE (Long Term Evolution) is being developed as a new wireless communication system. LTE is a system specialized for packet exchange that is being developed by 3GPP (Third Generation Partnership Project), and enables higher-speed communication. On the other hand, WCDMA, CDMA2000 1x, and the like have been conventionally used as circuit switching systems used for voice calls and the like.
Wireless communication terminals supporting both the packet switching system LTE and the circuit switching system CDMA2000 1x (hereinafter referred to as 1x) need to monitor the radio waves of each system in order to wait for both, Because of inefficiency, for example, 3GPP proposes a method of receiving 1x incoming calls via the LTE network. As a result, if only LTE radio waves are monitored, it is possible to receive incoming calls from both systems.

FIG. 7 and FIG. 8 are diagrams for explaining the operation when a wireless communication terminal corresponding to both the LTE and 1x systems receives a 1x incoming call via the LTE network. In the figure, LTE eNB is an LTE base station, LTE CN is an LTE network, 1xBS is a 1x base station, and 1xCN is a 1x network.
The terminal 101 is within a communication range of LTE and 1x, and is communicating or waiting in LTE (FIG. 7 (1)). When the terminal 102 makes a voice call to the terminal 101 by 1x (FIG. 7 (2)), an incoming call to the terminal 101 is received by the terminal 101 via the LTE network (FIG. 7 (3)). ). Upon receiving an incoming call via the LTE network, the terminal 101 performs system handoff to 1x (FIG. 8 (4)) and starts a call with the terminal 102 via the 1x network (FIG. 8 (5)).
System handoff to 1x is because circuit switched networks are highly reliable for a long time since introduction, so circuit switched networks are suitable for voice calls, while packet switched networks are still unreliable for voice calls. This is because it is low and not suitable for voice calls.

Patent Document 1 proposes a communication terminal apparatus that determines a connection method for packet switching and circuit switching at the time of an incoming call based on reception quality and a charging method selected by a user.
JP 2003-60713 A

By the way, in a wireless communication terminal supporting both LTE and 1x systems, LTE and 1x are operated by separate RF (Radio Frequency) circuits in terms of hardware. In this case, since the RF circuit is independent, the wireless communication terminal can simultaneously perform packet communication using LTE and voice communication using 1x.
However, the mainstream of wireless communication terminals is that a power amplifier (PA: Power Amp) that outputs high-frequency transmission power is commonly used in both systems in terms of circuit space and cost reduction. When the power amplifier (PA) is used in common, as shown in FIG. 9, when the wireless communication terminal exists near the boundary of each communication area, the transmission output increases at the time of simultaneous transmission, and the power amplifier (PA) However, there is a possibility that the wireless communication terminal may not be able to transmit because the specification is exceeded. Therefore, since only one of the RF circuits can be operated, the packet communication is disconnected when an incoming circuit switching is received during the packet communication.

  The present invention has been made in view of such problems, and an object of the present invention is to provide packet communication without exceeding the specifications when the power amplifier receives an incoming call of circuit switching during packet communication. An object of the present invention is to provide a wireless communication terminal capable of both voice calls.

  In order to achieve the above object, a wireless communication terminal according to the present invention includes a first transmission / reception circuit corresponding to a packet switching network, a second transmission / reception circuit corresponding to a circuit switching network, the first transmission / reception circuit, An amplifier commonly used by a second transmission / reception circuit; and when the first transmission / reception circuit uses the amplifier to transmit / receive data to / from the packet switching network, the line is connected via the packet switching network. And a controller that controls the telephone application to make a call using the packet-switched network when an incoming call of the telephone application that mainly uses the switched network is detected.

  The wireless communication terminal of the present invention includes a first transmission / reception circuit corresponding to a packet switching network, a second transmission / reception circuit corresponding to a circuit switching network, the first transmission / reception circuit, and the second transmission / reception circuit. And the amplifier used in common, and when the first transmitting / receiving circuit uses the amplifier to transmit / receive to / from the packet switched network, the circuit switched network is mainly used via the packet switched network. When the incoming call of the telephone application to be detected is detected, if the transmission / reception of the first transmission / reception circuit cannot be stopped, the telephone application is controlled to make a call using the packet switching network, and When the transmission / reception of one transmission / reception circuit can be stopped, the transmission / reception of the first transmission / reception circuit is stopped and the circuit switching network is used for the telephone application. Characterized in that it controlled to perform the story.

  Further, it is preferable that the control unit performs control so as to use a telephone protocol corresponding to the packet switching network when performing control so as to make a call using the packet switching network.

  The present invention mainly performs a voice call through a circuit switching network, and when it is necessary to perform a packet communication in the packet switching network, the power amplifier does not exceed the specifications, and both the packet communication and the voice call are performed. It can be compatible.

  Embodiments of the present invention will be described with reference to the drawings. The wireless communication terminal of the present invention is a wireless communication terminal corresponding to both cellular systems of LTE that is a packet switching system and CDMA2000 1x (hereinafter referred to as 1x) that is a circuit switching system. 1x is operated by a separate RF circuit. Moreover, the wireless communication terminal uses a power amplifier that outputs high-frequency transmission power in common in both cellular systems from the viewpoint of reducing circuit space and cost. In this power amplifier, when a wireless communication terminal exists near the boundary of each communication area, a transmission output increases when a first transmission / reception circuit and a second transmission / reception circuit described later perform transmission processing in parallel (simultaneously). The wireless communication terminal cannot transmit data beyond the specifications of the power amplifier.

  FIG. 1 is a diagram showing a schematic configuration of a wireless communication terminal of the present invention. The wireless communication terminal shown in FIG. 1 includes a control unit 1, a storage unit 2, a communication unit 3, and an operation unit 4. The control unit 1 includes a communication system selection control unit 11 that selects whether a voice call is performed via a circuit switched network (1x) or a packet switched network (LTE), and whether an application that performs packet communication is important. A packet-switched network use application information acquisition control unit 12 that obtains packet-switched network-use application information 21 indicating the above, a circuit-switched network incoming control unit 13 that controls incoming of a circuit-switched network via the packet-switched network, and a packet-switched network VoIP (Voice over Internet Protocol) operation control unit 14 for controlling the voice call, and a voice call control unit 15 for controlling the voice call via the circuit switching network. The storage unit 2 stores the packet switched network usage application information 21 and the telephone application acquired by the packet switched network usage application information acquisition control unit 12. The communication unit 3 includes a packet switching network RF circuit 31 (first transmission / reception circuit) corresponding to the packet switching network, a circuit switching network RF circuit 32 (second transmission / reception circuit) corresponding to the circuit switching network, and a packet switching network. A power amplifier (PA) 33 (amplifier) commonly used by the RF circuit 31 and the circuit switching network RF circuit 32 is provided.

When the packet switching network RF circuit 31 uses the power amplifier 33 to transmit / receive (during communication) with the packet switching network, the control unit 1 mainly uses the circuit switching network via the packet switching network. When the incoming call is detected, the telephone application is controlled to make a call using the packet switching network.
When the control unit 1 detects an incoming call of a telephone application that mainly uses the circuit switching network through the packet switching network while not transmitting / receiving (during communication) with the packet switching network, the circuit switching network RF circuit 32 causes the power amplifier to 33 is used to control the telephone application to make a call using a circuit switching network.

The control unit 1 mainly uses the circuit switching network via the packet switching network when the packet switching network RF circuit 31 uses the power amplifier 33 to transmit and receive (communication) with the packet switching network. When the incoming call of the telephone application is detected, if the transmission / reception of the packet switching network RF circuit 31 cannot be stopped, the telephone application is controlled to make a call using the packet switching network. The case where transmission / reception (during communication) of the packet switching network RF circuit 31 cannot be stopped is, for example, when communication with real-time property is performed as in the recording state of IPTV (Internet Protocol Television) This is the case when a software update program is being downloaded.
When the packet switching network RF circuit 31 uses the power amplifier 33 to transmit / receive (during communication) with the packet switching network, the control unit 1 mainly uses the circuit switching network via the packet switching network. When the transmission / reception of the packet switching network RF circuit 31 can be stopped, the transmission / reception of the packet switching network RF circuit 31 is stopped, and the circuit switching network RF circuit 32 uses the power amplifier 33 to The telephone application is controlled to make a call using a circuit switching network.

  In addition, when the control unit 1 controls to make a call using the packet switching network, the control unit 1 controls to use the VoIP protocol which is a telephone protocol corresponding to the packet switching network.

  Next, a first embodiment of the operation of the wireless communication terminal of the present invention will be described with reference to FIGS. FIG. 2 is a flowchart for explaining the first embodiment of the operation of the wireless communication terminal of the present invention, and FIGS. 4 and 5 are diagrams showing the operation state of communication. Here, a case will be described where LTE is used as the packet switching system and 1x is used as the circuit switching system. 2, 4, and 5, a gateway is a node that converts VoIP data and 1 × audio data, and an IPTV content server is a server that distributes IPTV content. LTE eNB is an LTE base station, and LTE CN is an LTE network. 1xBS is a 1x base station, and 1x CN is a 1x network. Further, the terminal 101 is located in the communication range of LTE eNB and 1xBS.

Now, the terminal 101 is communicating via the LTE network using the packet switching network RF circuit 31 and the power amplifier 33 of the communication unit 3 (S101).
Here, when there is a 1x call from the terminal 102 to the 1x network to the terminal 101 (S102), a call to the terminal 101 is transmitted from the 1x network to the LTE network (S103). The circuit-switched network incoming control unit 13 of the terminal 101 receives a circuit-switched incoming call from the terminal 102 (an incoming call from a telephone application mainly using the circuit-switched network) from the LTE network (S104).

When the user of the terminal 101 determines an answering response by the operation unit 4 with respect to the incoming of the circuit switching from the terminal 102 (F101), the packet switching network RF circuit 31 and the power amplifier 33 of the communication unit 3 are used, Since communication is being performed via the LTE network, the communication system selection control unit 11 notifies the LTE network of an incoming call response and VoIP establishment (S105). Then, the establishment of VoIP is notified from the LTE network to the gateway (S106), and the reception response and the use of VoIP are notified from the LTE network to the 1x network (S107). Further, the reception response is notified from the 1x network to the terminal 102 (S108).
Then, the VoIP operation control unit 14 controls voice communication via the LTE network using the VoIP protocol for the telephone application, and VoIP voice data and circuit-switched voice data are exchanged between the terminal 101 and the terminal 102. A voice call is started via a gateway for converting between the two (S109).

  Next, a second embodiment of the operation of the wireless communication terminal of the present invention will be described with reference to FIGS. FIG. 3 is a flowchart for explaining a second embodiment of the operation of the wireless communication terminal according to the present invention, and FIGS. 4 to 6 are diagrams showing communication operation states. Here, a case will be described where LTE is used as the packet switching system and 1x is used as the circuit switching system. 3 to 6, a gateway is a node that converts VoIP data and 1x audio data, and an IPTV content server is a server that distributes IPTV content. LTE eNB is an LTE base station, and LTE CN is an LTE network. 1xBS is a 1x base station, and 1x CN is a 1x network. Further, the terminal 101 is located in the communication range of LTE eNB and 1xBS.

Now, the terminal 101 is receiving and recording the IPTV via the LTE network using the packet switching network RF circuit 31 and the power amplifier 33 of the communication unit 3 (S201), and the packet switching network use application information acquisition control unit 12 acquires packet-switched network use application information 21 indicating whether or not an application communicating via the LTE network is important, and stores it in the storage unit 2.
Here, when there is a 1x call from the terminal 102 to the terminal 101 in the 1x network (S202), a call to the terminal 101 is transmitted from the 1x network to the LTE network (S203). The circuit-switched network incoming control unit 13 of the terminal 101 receives a circuit-switched incoming call from the terminal 102 (call incoming of a telephone application mainly using the circuit-switched network) from the LTE network (S204). FIG. 4 is a diagram showing an operation state when the terminal 101 receives an incoming call for circuit switching via the LTE network while receiving and recording an IPTV.

  When the user of the terminal 101 determines an incoming response by the operation unit 4 in response to the incoming of the circuit switching from the terminal 102 (F201), the communication system selection control unit 11 reads the packet switching network use application information 21 from the storage unit 2. From this information, it is determined whether packet communication with the LTE network cannot be interrupted (F202). For example, when the packet communication cannot be interrupted (important) because a broadcast / multicast service such as IPTV is being received and recorded (recorded), the communication system selection control unit 11 The reception response and the establishment of VoIP are notified to the LTE network (S205).

Then, the establishment of VoIP is notified from the LTE network to the gateway (S206), and the reception response and the use of VoIP are notified from the LTE network to the 1x network (S207). Further, the reception response is notified from the 1x network to the terminal 102 (S208).
Then, the VoIP operation control unit 14 controls voice communication via the LTE network using the VoIP protocol for the telephone application, and VoIP voice data and circuit-switched voice data are exchanged between the terminal 101 and the terminal 102. A voice call is started via a gateway for converting between the two (S209). FIG. 5 is a diagram illustrating an operation state when the terminal 101 is making a call with the terminal 102 using voice data of VoIP.

In step F202, it is determined from the packet switched network use application information 21 that IPTV recording is not in progress (not important). When packet communication can be interrupted (in the case of No), the communication system selection control unit 11 executes the LTE network. Is notified of the incoming call response (S210). Then, the reception response is notified from the LTE network to the 1x network (S211), and the reception response is notified from the 1x network to the terminal 102 (S212).
Then, the communication system selection control unit 11 disconnects the communication with the LTE network and switches to the communication with the 1x network (S213), and the voice call control unit 15 performs the circuit switching network RF circuit 32 and the power for the telephone application. The amplifier 33 is used to control so as to start a call using the circuit-switched voice data with the terminal 102 (S214). FIG. 6 is a diagram illustrating an operation state when a call is started after disconnecting communication with the LTE network and handing off to the 1x network.

  If IPTV recording is interrupted while IPTV is being received and recorded via the LTE network, it is necessary to separately obtain the part that could not be recorded by communicating, but in the second embodiment, via the LTE network Even if an IPTV is received and an incoming call for circuit switching is received during recording, the IPTV recording is not interrupted, so there is no need for separate communication, and no extra communication / information costs are incurred.

  In the above-described embodiment, LTE is used as the radio communication system of the packet switching network and CDMA2000 1x is used as the radio communication system of the circuit switching network. However, the present invention is not limited to these, and other radio communication is used. A system may be used.

It is a figure which shows schematic structure of the radio | wireless communication terminal of this invention. It is a flowchart explaining 1st Example of operation | movement of the radio | wireless communication terminal of this invention. It is a flowchart explaining 2nd Example of operation | movement of the radio | wireless communication terminal of this invention. It is a figure which shows an operation | movement state when the terminal 101 receives the incoming of circuit switching via the LTE network during receiving and recording IPTV. It is a figure which shows the operation | movement state when the terminal 101 is making a telephone call with the voice data of the terminal 102 and VoIP. It is a figure which shows an operation state when a telephone call is started after cut | disconnecting communication with a LTE network and handing off to 1x network. It is a figure which shows a communication state when the terminal 101 receives the incoming call from the terminal 102. FIG. It is a figure which shows a communication state when handing off to 1x. It is a figure which shows a communication state when transmission output increases at the time of simultaneous transmission, and it becomes impossible to transmit exceeding the specification of a power amplifier.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Control part 2 Memory | storage part 3 Communication part 4 Operation part 11 Communication system selection control part 12 Packet switching network use application information acquisition control part 13 Circuit switching network incoming control part 14 VoIP operation control part 15 Voice call control part 21 Packet switching network use Application Information 31 Packet Switched Network RF Circuit 32 Circuit Switched Network RF Circuit 33 Power Amplifier

Claims (3)

A first transmission / reception circuit corresponding to the packet switching network;
A second transmission / reception circuit corresponding to the circuit switching network;
An amplifier commonly used by the first transmission / reception circuit and the second transmission / reception circuit;
When the first transmission / reception circuit uses the amplifier to transmit / receive to / from the packet switching network, and detects an incoming call of a telephone application mainly using the circuit switching network via the packet switching network, A control unit for controlling a telephone application to make a call using the packet switching network;
A wireless communication terminal. A first transmission / reception circuit corresponding to the packet switching network;
A second transmission / reception circuit corresponding to the circuit switching network;
An amplifier commonly used by the first transmission / reception circuit and the second transmission / reception circuit;
When the first transmission / reception circuit uses the amplifier to transmit / receive to / from the packet switching network, and detects an incoming call of a telephone application mainly using the circuit switching network via the packet switching network, If the transmission / reception of the first transmission / reception circuit cannot be stopped, the telephone application is controlled to make a call using the packet switching network, and the transmission / reception of the first transmission / reception circuit is stopped. If it is possible, the wireless communication terminal controls to stop the transmission / reception of the first transmission / reception circuit and to make a telephone call to the telephone application using the circuit switching network.   3. The control unit according to claim 1, wherein the control unit performs control so as to use a telephone protocol corresponding to the packet switching network when performing control using the packet switching network. The wireless communication terminal described.

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