JP2009130423A - Portable terminal system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To select a suitable antenna by using the cable of an AC adapter as an antenna while supplying power to a portable terminal, and comparing the reception sensitivity with that of an antenna of the portable terminal. <P>SOLUTION: A portable terminal system is composed of a portable terminal having a first antenna and an AC adapter for supplying a DC current to the portable terminal, wherein the AC adapter has a cable for conducting a DC current and including conductive wiring available as a second antenna, a VCHG terminal for outputting a DC current and a broadcast signal, a DC block section for blocking the DC current outputted from the VCHG terminal and passing the broadcast signal, an ANT terminal for outputting the broadcast signal having passed through the DC block section, and a GND terminal serving as the ground, and the portable terminal has a section for comparing the broadcast signals outputted from the ANT terminal and the first antenna and making a switch to an antenna having a higher reception sensitivity, and a charge cell being charged with a DC current outputted from the VCHG terminal. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a portable terminal system including an AC adapter and a portable terminal that can use an AC adapter cable as an antenna for receiving a broadcast signal.

  In recent years, with the improvement in performance of mobile terminals such as mobile phones, broadcast signals such as FM radio broadcasts, TV (TV) broadcasts, and terrestrial digital TV (DTV) broadcasts can be received and viewed on mobile terminals. It has become to.

  However, viewing of TV broadcasts and DTV broadcasts consumes a large amount of current, and can be viewed only for a short time with the rechargeable battery capacity of the mobile terminal. Therefore, there is a problem that it is necessary to continuously supply a direct current from the outside in order to watch TV broadcasting, DTV broadcasting, and the like for a long time on a portable terminal.

  Moreover, since the portable terminal needs to be a size that can be carried, there are many restrictions on the configuration and size of internal parts, and the antenna length necessary for receiving broadcast signals with high sensitivity cannot be secured. . Therefore, depending on the type of broadcast signal to be received, there may be cases where viewing is difficult. Therefore, there is a problem that it is necessary to receive the broadcast signal with high sensitivity in the mobile terminal.

  In order to solve these problems, for example, Patent Document 1 describes a technique in which a DC current is supplied from an AC adapter to a portable terminal, and a cable of the AC adapter is used as an antenna.

Patent Document 2 describes a technique (antenna diversity method) in which a plurality of antennas are mounted on a mobile terminal and automatically switched to an antenna having high reception sensitivity among the plurality of antennas.
Japanese Patent Laid-Open No. 2006-5502 JP 2006-60419 A

  According to the technologies described in Patent Documents 1 and 2 described above, in a mobile terminal, the AC adapter cable is used as an antenna so that a plurality of antennas are used, and the plurality of antennas are automatically switched according to reception sensitivity. Is also possible.

  However, in the case of the above configuration, in the portable terminal, in order to watch TV broadcasting, DTV broadcasting, and the like for a long time, an operation of automatically switching the antenna while continuously supplying a direct current from the AC adapter is performed. It is difficult to realize this operation with the techniques described in Patent Documents 1 and 2. The reason will be described below.

  In the technique described in Patent Document 1, the AC adapter does not ground the negative-side wiring to the ground, but grounds the negative-side wiring of the AC adapter in the portable terminal, and connects the negative-side wiring to 1 Used as a / 4 antenna. Therefore, when the AC adapter is connected to a power source, a direct current and a broadcast signal are simultaneously input from the negative side wiring of the AC adapter to the mobile terminal. In addition, since the grounding is performed in the portable terminal, the AC adapter cannot separate the broadcast signal from the direct current. Therefore, if the broadcast signal is not separated from the direct current input from the AC adapter in the mobile terminal, the broadcast signal received through the negative wiring of the AC adapter can be viewed while continuing to supply the direct current to the mobile terminal. I can't.

  On the other hand, in the technique described in Patent Document 2, it is not assumed that a direct current flows from the broadcast signal input terminal. Therefore, the broadcast signal input from the antenna is sent to the subsequent antenna switching process without special processing.

  Therefore, in the technologies described in Patent Documents 1 and 2, in order to realize the above configuration, it is necessary to provide a new function unit for separating a broadcast signal from a direct current input from the AC adapter in the mobile terminal. There is. However, it is difficult to provide a new functional unit in a portable terminal with many size restrictions.

  As described above, in the technologies described in Patent Documents 1 and 2, there is a problem that the portable terminal cannot perform automatic antenna switching while continuously supplying a direct current from the AC adapter.

  Accordingly, an object of the present invention is to provide a portable terminal system that solves the above-described problems.

In order to achieve the above object, the mobile terminal system of the present invention
A mobile terminal system comprising a mobile terminal having a first antenna for receiving a broadcast signal, and an AC adapter for supplying a direct current to the mobile terminal,
The AC adapter is
A cable including a conductive wiring that conducts the direct current and can be used as a second antenna that receives the broadcast signal;
A VCHG terminal that outputs the DC current conducted through the conductive wiring and the broadcast signal received by the conductive wiring as the second antenna;
A DC blocking unit that blocks the DC current output from the VCHG terminal and allows the broadcast signal to pass;
An ANT terminal that outputs the broadcast signal that has passed through the DC blocking unit;
A GND terminal for grounding the conductive wiring and the circuit of the mobile terminal to the ground when connected to the mobile terminal;
The portable terminal is
The broadcast signal received by the second antenna and output from the ANT terminal is compared with the broadcast signal received by the first antenna, and the broadcast signal having a large received electric field strength is compared. An antenna switching unit for switching to an antenna receiving
And a rechargeable battery for charging the direct current output from the VCHG terminal.

  As described above, in the portable terminal system of the present invention, the conductive wiring of the cable of the AC adapter that supplies a direct current to the portable terminal having the first antenna is used as the second antenna. In addition, the second antenna is configured to switch to an antenna having a large received electric field strength of the received broadcast signal.

  Here, in the AC adapter, the DC current is cut out from the DC current output from the VCHG terminal and transmitted through the conductive wiring and the broadcast signal received by the conductive wiring as the second antenna, and the broadcast signal is allowed to pass. Since the direct current blocking unit is provided between the ANT terminal and the VCHG terminal, only the broadcast signal is output from the ANT terminal to the mobile terminal.

  As described above, since only the broadcast signal is input from the ANT terminal of the AC adapter to the portable terminal, a new function for separating the broadcast signal from the direct current as in the techniques described in Patent Documents 1 and 2. The above configuration can be realized without providing a portion inside.

  Therefore, in the mobile terminal system of the present invention, in the above configuration, the received electric field strength of the received broadcast signal is large among the first antenna and the second antenna while continuously supplying a direct current from the AC adapter to the mobile terminal. The effect that switching to can be performed is obtained.

  The best mode for carrying out the present invention will be described below with reference to the drawings.

(First embodiment)
As shown in FIG. 1, the mobile terminal system of the present embodiment includes a mobile terminal 100 that can receive and view broadcast signals, an AC adapter 200 that supplies a direct current to the mobile terminal 100 from an external power source, Consists of

  First, the AC adapter 200 according to the present embodiment will be described with reference to FIG.

  As shown in FIG. 2, the AC adapter 200 according to the present embodiment includes an AC adapter main body 201, a power plug 202, a cable 280, and a plug 210.

  The power plug 202 is a plug for connecting to an external power source such as an outlet.

  The AC adapter main body 201 converts an AC voltage obtained from an external power source into a DC current via the power plug 202 and outputs it to the cable 280.

  The cable 280 is grounded to a VCHG wiring 281 which is a conductive wiring connected to an AC adapter plus (VCHG) terminal 220, which will be described later, and a GND connected to a circuit ground (GND) terminal 230, which will be described later. Wiring 282.

  The VCHG wiring 281 conducts the direct current output from the AC adapter main body 201 to the VCHG terminal 220. When connected to the mobile terminal 100, the VCHG wiring 281 is grounded, functions as a 1/4 antenna, and transmits the received broadcast signal to the ANT terminal 240 described later as a second antenna.

  The GND wiring 282 is a wiring for grounding the circuit of the mobile terminal 100 to the ground when supplying a direct current to the mobile terminal 100. In addition, when the GND wiring 282 is connected to the mobile terminal 100, the VCHG wiring 281 is also grounded because the VCHG wiring 281 operates as a 1/4 antenna.

  The plug 210 is a plug for connecting to a connector 110 of the mobile terminal 100 described later and outputting a direct current and a broadcast signal to the mobile terminal 100.

  Note that the plug 210 includes an antenna (ANT) terminal 240 in addition to the VCHG terminal 220 and the GND terminal 230 included in the plug of the AC adapter as described in Patent Document 1, for example.

  The VCHG terminal 220 is a terminal for outputting the direct current output from the AC adapter main body 201 to the mobile terminal 100. The VCHG terminal 220 also outputs a broadcast signal received by the VCHG wiring 281. However, since the broadcast signal is weak, the subsequent processing is not affected.

  The GND terminal 230 is a terminal for grounding the circuit of the mobile terminal 100 to the ground when supplying a direct current to the mobile terminal 100. In addition, when the GND terminal 230 is connected to the mobile terminal device 100, the ANT terminal 240 is grounded so that the VCHG wiring 281 operates as a 1/4 antenna.

  The ANT terminal 240 is a terminal for outputting a broadcast signal received by the VCHG wiring 281 as the second antenna to the mobile terminal 100. The ANT terminal 240 is connected to the VCHG terminal 220 and the VCHG wiring 212 via a direct current blocking unit 270 described later.

  The DC blocking unit 270 prevents the DC current output from the AC adapter main body 201 from being conducted through the VCHG wiring 212 and flowing into the ANT terminal 240 from the VCHG terminal 220. A capacitor or the like can be used for the DC blocking unit 270. As shown in FIG. 2, the DC blocking unit 270 is provided between the VCHG terminal 220 and the ANT terminal 240, and blocks DC current conducted through the VCHG wiring 281 before the ANT terminal 240. Allows the received broadcast signal to pass through. Thereby, only the broadcast signal can be output from the ANT terminal 240.

  Next, the mobile terminal 100 according to the present embodiment will be described with reference to FIG.

  As shown in FIG. 3, the mobile terminal 100 according to the present embodiment includes a charging control unit 101, a charging place 102, a tuner unit 103, an antenna switching unit 104, a connector 110, and a whip that is a first antenna. And an antenna 105. Further, if the mobile terminal 100 is, for example, a mobile phone, a power supply control unit 106, an RF (mobile phone radio unit circuit) 161, or a mobile terminal built in a general mobile phone as shown in FIG. An antenna 162, a mobile phone baseband circuit unit 170 including a CPU 171 and a LOGIC circuit 172, a memory 180, an LCD (mobile phone display unit) 191, a GPS 192, a camera 193, a speaker 194, a receiver 195, a vibrator, and the like It is assumed that some components omitted in FIG. 3 such as 196 and keys 197 are also provided. Of the components shown in FIG. 4, those not essential to the present invention will be omitted as appropriate.

  Whip antenna 105 is an antenna for receiving a broadcast signal.

  The connector 110 is a connector for connecting a plug 210 included in the AC adapter 200 and inputting a direct current and a broadcast signal from the AC adapter 200.

  The connector 110 includes an ANT terminal 140 in addition to the VCHG terminal 120 and the GND terminal 130 included in the connector of the mobile terminal as described in Patent Document 1, for example.

  The VCHG terminal 120 is connected to the above-described VCHG terminal 220 and is a terminal for inputting a direct current to the rechargeable battery 102 via the charge control unit 101 described later.

  The GND terminal 130 is a terminal for grounding the ANT terminal 140 in order to connect to the above-described GND terminal 230 and ground the circuit of the mobile terminal 100 to the ground, and the VCHG wiring 281 operates as a 1/4 antenna. is there.

  The ANT terminal 140 is a terminal for connecting to the ANT terminal 240 described above and inputting a broadcast signal received by the VCHG wiring 281 to the mobile terminal 100.

  The rechargeable battery 102 is a rechargeable battery for charging a direct current input from the AC adapter 200 to the VCHG terminal 120.

  When the charging control unit 101 detects that the plug 210 of the AC adapter 200 is connected to the connector 110 and a DC current is input, the charging control unit 101 transmits a DC current detection signal that is a detection signal to the antenna switching unit 104 described later. At the same time, control is performed to charge the rechargeable battery 102 with a direct current input from the VCHG terminal 120.

  The antenna switching unit 104 receives the DC current detection signal from the charging control unit 101 and detects that the AC adapter 200, that is, the second antenna is connected to the mobile terminal 100. The antenna switching unit 104 that detects the connection of the AC adapter 200 compares the reception electric field strength of the broadcast signal input from the whip-up antenna 105 and the ANT terminal 140, The broadcast signal input from the antenna is output to the tuner unit 103 described later. Further, the antenna switching unit 104 always measures the reception electric field strength of a broadcast signal received by an unused antenna even after the antenna is switched, and receives the broadcast signal received by each antenna measured at the time of antenna switching. By comparing with the strength, it is determined whether the antenna is switched again.

  The tuner unit 103 converts the broadcast signal input from the antenna switching unit 104 into image data and audio data so that the user can view the broadcast signal. The user can view each converted data from an output unit (not shown: for example, an LCD 191 or a speaker 194 shown in FIG. 4 for a general mobile phone) of the mobile terminal 100.

  The flow of the broadcast signal received by each antenna and the direct current output from the AC adapter main body 201 in the mobile terminal system of this embodiment will be described below using FIG.

  First, the flow of broadcast signals received by each antenna will be described.

  First, the VCHG wiring 281 is grounded by connecting the portable terminal 100 and the AC adapter 200, and can operate as a 1/4 antenna. FIG. 6 shows an outline of current distribution and voltage distribution characteristics for operating as a 1/4 antenna.

  The broadcast signal received by the VCHG wiring 282 is output from the ANT terminal 240 via the DC blocking unit 270 and input to the ANT terminal 140 of the mobile terminal 100.

  The broadcast signal input to the ANT terminal 140 is output to the antenna switching unit 104.

  On the other hand, the broadcast signal received by the whip antenna 105 is output to the antenna switching unit 104.

  Next, the antenna switching unit 104 compares the received electric field strength of the broadcast signal received from the ANT terminal 140 and received from the ANT terminal 140 with the VCHG wiring 281 operating as a 1/4 antenna, An antenna that receives a broadcast signal having a large received electric field strength is selected, and the broadcast signal input from the antenna is output to the tuner unit 103.

  The tuner unit 103 converts the broadcast signal input from the antenna switching unit 104 into video data and audio data so that the user can view and outputs the video data and audio data to an output unit (not shown) of the mobile terminal 100.

  Next, the flow of direct current will be described.

  The direct current output from the AC adapter main body 201 is conducted through the VCHG wiring 281, output from the VCHG terminal 220, and input to the VCHG terminal 120 of the mobile terminal 100. In addition, since the direct current | flow blocking part 270 is provided between the VCHG terminal 220 and the ANT terminal 240, a direct current does not flow into the ANT terminal 240.

  The direct current input to the VCHG terminal 120 is output to the charging control unit 101.

  Next, the charging control unit 101 detects the input of a direct current from the VCHG terminal 120, transmits a direct current detection signal to the antenna switching unit 104, and charges the rechargeable battery 102 with the direct current. The direct current charged in the rechargeable battery 102 is used to operate each component (see FIG. 4) of the mobile terminal 100.

  Next, the effect of this embodiment will be described.

  In the mobile terminal system of the present invention, the VCHG wiring 281 of the cable 280 of the AC adapter 200 that supplies a direct current to the mobile terminal 100 having the whip antenna 105 is used as an antenna, and among the whip antenna 105 and the VCHG wiring 281 The received broadcast signal is switched to an antenna having a large received electric field strength.

  Here, in the AC adapter 200, the direct current that is output from the VCHG terminal 220 and is transmitted through the VCHG wiring 281 and the broadcast signal received by the VCHG wiring 281 is blocked and the broadcast signal is passed. Since the blocking unit 270 is provided between the ANT terminal 240 and the VCHG terminal 220, only the broadcast signal is output from the ANT terminal 240 to the mobile terminal 100.

  As described above, since only the broadcast signal is input from the ANT terminal 240 of the AC adapter 200 to the mobile terminal 100, the broadcast signal is separated from the direct current as in the techniques described in Patent Documents 1 and 2. The above configuration can be realized without providing a new functional unit inside.

  Therefore, in the mobile terminal system of the present invention, in the above configuration, the received electric field strength of the broadcast signal received from the whip antenna 105 and the VCHG wiring 281 is large while continuing to supply a direct current from the AC adapter 200 to the mobile terminal 100. The effect that switching to can be performed is obtained.

(Second Embodiment)
Similar to the first embodiment, the mobile terminal system of the present embodiment has an overall configuration as shown in FIG.

  First, the AC adapter 200 according to the present embodiment will be described with reference to FIG.

  As shown in FIG. 7, the AC adapter 200 according to the present embodiment includes an ANT-GND terminal 250, an ANT-GND wiring 283, and a high-frequency blocking unit 260, as compared with the first embodiment. Is different.

  Hereinafter, differences from the first embodiment will be described.

  The ANT-GND terminal 250 is a terminal for grounding to the ground so that the VCHG wiring 281 operates as a 1/4 antenna when the AC adapter 200 and the portable terminal 100 are connected. In the first embodiment, the terminal for grounding the VCHG wiring 281 is shared with the GND terminal 230 for grounding the circuit of the mobile terminal 100 to the ground. However, since the broadcast signal received by the VCHG wiring 281 is very weak, if the terminal for grounding the VCHG wiring 281 is shared with the GND terminal 230, there is a possibility that circuit operation noise will be added to the broadcast signal. Therefore, in the present embodiment, by providing the ANT-GND terminal 250 independent of the GND terminal and grounding the VCHG wiring 281 independently of the circuit of the mobile terminal 100, it is possible to prevent circuit operation noise from being added to the broadcast signal. Yes.

  The ANT-GND wiring 283 is a wiring for grounding the ANT-GND terminal 250 to the ground.

  The high-frequency blocking unit 260 is disposed on the VCHG wiring 281, blocks high-frequency signals from before and after the high-frequency blocking unit 260, and separates the VCHG wiring 281 into two parts at high frequency. A high-frequency choke coil or the like can be used for the high-frequency blocking unit 260. As a result, the VCHG wiring 281 (antenna unit) between the VCHG terminal 220 and the high-frequency blocking unit 260 can be separated from other parts of the VCHG wiring 281 in high frequency, and only the antenna unit can be used as an antenna. become. As shown in FIG. 6, in order to receive a broadcast signal with high sensitivity, the antenna length is set to 1/4 (an odd multiple of the wavelength) of the broadcast signal in order to use the resonance of the broadcast signal. It is necessary to. Therefore, depending on the broadcast signal to be received, if the entire VCHG wiring 281 is used as an antenna, the length of the antenna may not always be appropriate. Therefore, on the VCHG wiring 281, at a position away from the VCHG terminal 220 to the upstream side in the DC current conduction direction, 1/4 (or an odd multiple thereof) of the wavelength of the lowest frequency in the frequency band of the broadcast signal to be received, A high-frequency blocking unit 260 is provided to separate the antenna unit from other parts in a high-frequency manner, so that the antenna has a length suitable for the broadcast signal to be received.

  Next, the mobile terminal 100 according to the present embodiment will be described with reference to FIG.

  As shown in FIG. 8, the portable terminal 100 according to the present embodiment is different from the first embodiment in that it has an ANT-GND terminal 150.

  Hereinafter, differences from the first embodiment will be described.

  The ANT-GND terminal 150 is connected to the ANT-GND terminal 250 described above, and is a terminal for grounding the ANT terminal 140 so that the VCHG wiring 281 operates as a 1/4 antenna. Since the GND terminal 130 used for grounding by the circuit of the mobile terminal 100 and the ANT-GND terminal used for grounding by the ANT terminal 140 are separated, circuit operation noise rides on the broadcast signal input from the ANT terminal 140. Is preventing.

  Next, the effect of this embodiment will be described.

  In the mobile terminal system of this embodiment, in addition to the GND terminal 230 (130) for grounding the circuit of the mobile terminal 100 to the ground, the ANT for grounding the VCHG wiring 281 to the ground independently of the circuit of the mobile terminal 100. A GND terminal 250 (150) is provided on the plug 210 (connector 110). Thereby, it is possible to prevent the circuit signal noise of the mobile terminal 100 from being applied to the weak broadcast signal received by the VCHG wiring 281 and to view the broadcast signal comfortably.

  Further, in the AC adapter 200, on the VCHG wiring 281 and from the VCHG terminal 220 on the upstream side in the DC current conduction direction, 1/4 (or an odd multiple thereof) of the wavelength of the lowest frequency in the frequency band of the broadcast signal to be received. A high frequency blocking unit 260 is provided at a distant position. As a result, the antenna part of the VCHG wiring 281 can be separated from other parts in high frequency and used as an antenna having a length suitable for the broadcast signal to be received. Therefore, an effect that the broadcast signal can be received with higher sensitivity is obtained.

  As described above, in the portable terminal system of the present embodiment, in addition to the effect of the first embodiment, the effect that the broadcast signal can be received with higher sensitivity and can be comfortably viewed is obtained.

  Hereinafter, the present invention will be described in more detail by way of specific examples.

  This example corresponds to the second embodiment shown in FIGS. 7 and 8, and has a configuration as shown in FIG. In this embodiment, DTV broadcast is a broadcast signal to be received. Therefore, it is assumed that the tuner unit 103 of the mobile terminal 100 can convert a broadcast signal of DTV broadcast into viewable video data and audio data.

  First, the current situation when viewing a DTV broadcast on a mobile terminal will be described using a mobile phone as an example.

  In DTV broadcasting, a frequency band of 473 MHz to 767 MHz is used as a broadcast signal. Since the wavelength of the broadcast signal becomes longer as the frequency becomes smaller, in order to receive a broadcast signal of DTV broadcast in all frequency bands, an antenna having a length ¼ of the wavelength of the broadcast signal of 473 MHz which is the lowest frequency is required. Necessary.

The wavelength can be obtained by dividing the speed of light (c = 3 × 10 ⁸ m / sec) by the frequency, and the wavelength of the broadcast signal at 473 MHz is about 63 cm. From this, it is understood that in order to receive a broadcast signal of DTV broadcasting in all frequency bands, the length of the antenna needs to be 1/4 of 63 cm, that is, about 16 cm.

  However, according to catalogs of mobile phone companies, the case length of the mobile phone is 10.5 cm to 11.1 cm, and the length of the whip antenna is 9.8 cm to 11.4 cm. About 16 cm, which is the length of the antenna necessary for receiving the signal in the entire frequency band. Therefore, it is expected that the mobile phone will have difficulty in viewing DTV broadcasts depending on the frequency. For this reason, it is necessary to use an external antenna in order to comfortably view the DTV broadcast on the mobile phone.

  In addition, according to the catalogs of each company, the continuous viewing time of DTV broadcasting is as short as 5 to 7 hours by itself, and this time is further shortened by using other functions of the mobile phone (calling, e-mail, photography, etc.). I can easily imagine it.

  Thus, at present, in order to comfortably watch DTV broadcasting for a long time, a mobile phone must use an external antenna and supply a direct current from the outside.

  The portable terminal system of the present invention can use the cable 280 of the AC adapter 200 as an antenna to improve the broadcast signal reception sensitivity and supply the direct current output from the AC adapter main body 201 to the portable terminal 100. Therefore, it is suitable for the case where a DTV broadcast is viewed on the mobile phone described above.

  The configuration of the present embodiment will be described below with reference to FIG.

  Referring to FIG. 9, in this embodiment, a high frequency choke coil (RFC) 260 is used as the high frequency blocking unit 260, and a capacitor 270 is used as the direct current blocking unit 270.

  The RFC 260 is provided at a position about 16 cm away from the VCHG terminal 220 (120), and the length of the antenna portion of the VCHG wiring 281 is about 16 cm necessary for receiving a broadcast signal of DTV broadcasting in all frequency bands. It is trying to become.

  The plug (connector) that connects the mobile terminal 100 and the AC adapter 200 has a VCHG terminal 220 (120), a GND terminal 230 (130), an ANT terminal 240 (140), and an ANT-GND terminal 250 (150). is doing.

  The VCHG wiring 281 is separated into an antenna portion and other portions by the RFC 260 in terms of high frequency.

  The broadcast signal received by the antenna part of the VCHG wiring 281 is output from the ANT terminal 240 via the capacitor 270 and input from the ANT terminal 140 to the mobile terminal 100.

  On the other hand, the direct current output from the AC adapter main body 201 is output from the VCHG terminal 220 and input from the VCHG terminal 120 to the mobile terminal 100. Since the direct current is cut off by the capacitor 270, the direct current output from the AC adapter main body 201 does not flow into the tuner unit 103 of the portable terminal 100 via the ANT terminal 240 (140).

  Therefore, the broadcast signal input from the ANT terminal 140 to the portable terminal 100 can be input to the tuner unit 103 via the antenna switching unit 104 as it is without requiring processing such as level conversion.

  In addition, since the mobile terminal 100 automatically selects an antenna suitable for receiving a broadcast signal of DTV broadcast by the antenna switching unit 104 and automatically switches to an appropriate antenna in a timely manner, the mobile terminal 100 receives the broadcast signal. Even if the state changes, it is possible to comfortably view the DTV broadcast.

  Further, the direct current input from the VCHG terminal 120 is charged to the rechargeable battery 102 via the charge control unit 101.

  In this embodiment, the DTV broadcast is a broadcast signal to be received. However, in addition to the DTV broadcast, for example, an FM radio broadcast using a frequency band of 76 MHz to 90 MHz as a broadcast signal has the lowest frequency. By changing the position where the RFC 260 is provided depending on the type of broadcast signal to be received, such as providing the RFC 260 at a position about 99 cm away from the VCHG terminal 220, which is ¼ the wavelength of a certain 76 MHz broadcast signal, The length of the antenna portion of the wiring 282 can be set to an antenna length suitable for each broadcast signal.

It is an external view which shows the whole structure of the portable terminal system of the 1st and 2nd embodiment of this invention. It is a block diagram which shows the structure of the AC adapter which concerns on the 1st Embodiment of this invention. It is a block diagram which shows the structure of the portable terminal which concerns on the 1st Embodiment of this invention. It is a block diagram which shows the structure of a common mobile telephone. It is a figure explaining the flow of the broadcast signal and DC current in the 1st Embodiment of this invention. It is a figure explaining the outline | summary of operation | movement of a 1/4 antenna. It is a block diagram which shows the structure of the AC adapter which concerns on the 2nd Embodiment of this invention. It is a block diagram which shows the structure of the portable terminal which concerns on the 2nd Embodiment of this invention. It is a figure which shows the structure of the Example of the portable terminal system of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 100 Portable terminal 101 Charge control part 102 Rechargeable battery 103 Tuner part 104 Antenna switching part 105 Whip antenna 106 Power supply control part 110 Connector 120 VCHG terminal 130 GND terminal 140 ANT terminal 150 ANT-GND terminal 161 RF (cell-phone radio | wireless part circuit)
162 Mobile terminal built-in antenna 170 BB (cell phone baseband circuit)
171 CPU
172 LOGIC (LOGIC circuit)
180 Memory 191 LCD (cell phone display)
192 GPS
193 Camera 194 Speaker 195 Receiver 196 Vibrator 197 Key 200 AC adapter 201 AC adapter body 202 Power plug 210 Plug 220 VCHG terminal 230 GND terminal 240 ANT terminal 250 ANT-GND terminal 260 High frequency blocking section 270 DC blocking section 280 Cable 281 VCHG wiring 281 GND wiring 283 ANT-GND wiring

Claims (6)

A mobile terminal system comprising a mobile terminal having a first antenna for receiving a broadcast signal, and an AC adapter for supplying a direct current to the mobile terminal,
The AC adapter is
A cable including a conductive wiring that conducts the direct current and can be used as a second antenna that receives the broadcast signal;
A VCHG terminal that outputs the DC current conducted through the conductive wiring and the broadcast signal received by the conductive wiring as the second antenna;
A DC blocking unit that blocks the DC current output from the VCHG terminal and allows the broadcast signal to pass;
An ANT terminal that outputs the broadcast signal that has passed through the DC blocking unit;
A GND terminal for grounding the conductive wiring and the circuit of the mobile terminal to the ground when connected to the mobile terminal;
The portable terminal is
The broadcast signal received by the second antenna and output from the ANT terminal is compared with the broadcast signal received by the first antenna, and the broadcast signal having a large received electric field strength is compared. An antenna switching unit for switching to an antenna receiving
And a rechargeable battery for charging the direct current output from the VCHG terminal. When the portable terminal detects that the DC current is input from the VCHG terminal, the portable terminal transmits a detection signal to the antenna switching unit, and a charging control unit that controls charging of the DC current to the rechargeable battery. In addition,
The antenna switching unit detects that the AC adapter is connected to the portable terminal by receiving the detection signal transmitted from the charging control unit, and the first antenna and the second antenna The mobile terminal system according to claim 1, wherein comparison of reception electric field strength of the broadcast signal received by an antenna is started.   The portable terminal system according to claim 1, wherein the AC adapter further includes an ANT-GND terminal that, when connected to the portable terminal, grounds the conductive wiring independently of a circuit of the portable terminal. .   The AC adapter is provided on the conductive wiring on the upstream side in the conduction direction of the direct current from the VCHG terminal at a position that is 1/4 of the wavelength of the broadcast signal or an odd multiple thereof, and blocks high-frequency signals. The mobile terminal system according to any one of claims 1 to 3, further comprising a high-frequency blocking unit that performs the operation. The broadcast signal is a terrestrial digital television broadcast signal,
The portable terminal system according to claim 4, wherein the high-frequency blocking unit is provided at a position 16 cm away from the VCHG terminal. The broadcast signal is an FM radio broadcast signal,
The portable terminal system according to claim 4, wherein the high-frequency blocking unit is provided at a position 99 cm away from the VCHG terminal.

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