WO2002052818A1 - Portable radio terminal - Google Patents

Abstract

A sensing means comprising a sensor (60) for sensing X rays or electromagnetic waves senses a predetermined power cutoff factor (an X ray of a predetermined threshold value or more), a power cutoff means (power cutting section 15) actuates to automatically cut off power supply by a power supply control means (power supply circuit 14). The power cutting means and the power supply means are each constituted of a one-chip microcomputer and the like. A portable radio terminal which can cut off power automatically in the presence of a predetermined power cutting factor.

Description

 Description Portable wireless terminal Technical field

 The present invention relates to a portable wireless terminal capable of transmitting and receiving data by wireless communication, and in particular, to automatically shut off power or the like when a predetermined power shut-off factor exists. Background art

 In recent years, with the development of IT (Information on Technology), PDAs (PDAs) that allow individuals to carry and manage schedules and to send and receive data overnight through two-way communication ers on al Digital Assistants), mobile phones with mail transmission / reception functions, and WEB search functions have become widespread.

 These portable wireless terminals are always carried and used outside, and are generally carried when using transportation such as trains, airplanes, and ships.

 By the way, if communication is performed by a portable wireless terminal while traveling by public transportation, various inconveniences such as malfunction of electronic devices such as pacemaker power worn by other passengers will occur. . For this reason, public transport has called for switching off portable wireless terminals.

In addition, airplanes are controlled by complex electronic devices. In particular, when aircraft take off and land, malfunctions caused by radio waves transmitted from portable wireless terminals can cause serious accidents. Therefore, especially when using an airplane, it is necessary to strictly prohibit communication with portable wireless terminals. You.

 However, with conventional portable wireless terminals, it is difficult to confirm whether or not others are turned on, and the use of portable wireless terminals is prohibited, in addition to inviting passengers to turn off the power. There was no way to do it.

 For this reason, the portable wireless terminal may not be turned off due to the intentional or carelessness of the passenger, and it is difficult to completely prevent a serious accident.

 The present invention has been proposed in view of the above circumstances, and has as its object to provide a portable wireless terminal capable of automatically shutting off power when a predetermined power shutoff factor exists. . Disclosure of the invention

 A portable wireless terminal according to the present invention is a portable wireless terminal that transmits and receives data overnight by wireless communication. The portable wireless terminal includes: a power supply control unit for controlling power supply; and a power supply control unit for detecting a factor to be shut down. Detecting means; power-off means for interrupting power supply by the power-supply control means when the detecting means detects a power-off factor; and power-off means when power is interrupted by the power-off means. And a return unit for instructing restart of power supply by the power supply control unit.

 Further, with such a configuration, when the detecting means detects the presence of a predetermined power cutoff factor, the power cutoff means is activated and the power supply by the power supply control means is automatically cut off.

Further, in a portable wireless terminal that transmits and receives data by wireless communication, a radio wave transmission control unit for controlling radio wave transmission, a detection unit for detecting a factor that should interrupt radio wave transmission, and the detection unit include: In order to cut off the radio wave transmission by the radio wave transmission control means when detecting the radio wave transmission cutoff factor ό ′, and return means for instructing restart of radio wave transmission by the radio wave transmission control means when radio wave transmission is cut off by the radio wave transmission cut-off means. Is what you do.

 Further, in the portable wireless terminal, the detection means includes a detection sensor for X-rays, electromagnetic waves, or the like, and the power cutoff means or the radio wave transmission cutoff means has a detection sensor for X-rays or the like having a predetermined threshold or more. It can be configured to operate when X-rays or the like are detected.

 The portable wireless terminal may further include a display unit for displaying that power is cut off by the power cutoff unit or that the radio wave transmission circuit is cut off by the radio wave transmission cutoff unit. It is. BRIEF DESCRIPTION OF THE FIGURES

 FIG. 1 is a schematic block diagram showing a first embodiment of a portable wireless terminal according to the present invention. FIG. 2 is a schematic block diagram showing a second embodiment of a portable wireless terminal according to the present invention. FIG. 3 is a flowchart showing a procedure for shutting down the power in the portable wireless terminal according to the first embodiment of the present invention. FIG. 4 is a flowchart showing the procedure for shutting down the power supply in the portable wireless terminal according to the second embodiment of the present invention. 5 is a flow chart showing a procedure for shutting off. BEST MODE FOR CARRYING OUT THE INVENTION

 Hereinafter, an embodiment of a portable wireless terminal according to the present invention will be described with reference to the drawings.

 FIG. 1 is a schematic block diagram showing one embodiment for shutting off a power supply of a portable wireless terminal according to the present invention.

The portable wireless terminal according to the embodiment of the present invention includes, for example, a PDA, and as shown in FIG. 1, a control circuit 1 for controlling the operation of the portable wireless terminal. 0, a transmitting / receiving unit 20 for transmitting / receiving data via the antenna 80, a display unit 30 for displaying data, and an ONZOFF of the power supplied from the power supply 50. A power switch 40, a sensor 60 for detecting a power-off factor, and a return switch 70 for instructing restart of power supply when power is cut off.

 The operation of the above-described return switch 70 is not shown, but it is preferable not to manually operate the push switch of the portable wireless terminal itself, but to use something other than the portable wireless terminal itself. For example, when the device that operates the return switch 70 is installed separately in the arrival counter of an airplane or the like, or when charging a portable wireless terminal, a terminal different from the charging terminal of the charger is connected to the portable wireless terminal. A signal for operating the switch via the terminal is provided to the terminal to operate the circuit of the return switch 70 of the portable wireless terminal.

 The control circuit 10 is a so-called one-chip microcomputer in which circuits having functions such as CPU 11, ROM 12, and RAM 13 are formed on a single substrate. The control circuit 10 has a power supply circuit 14 for controlling power supply. The power supply circuit 14 has a power supply for shutting off the power supply based on a detection output from the sensor 60. Includes blocker 15.

 The display unit 30 is composed of, for example, a liquid crystal display device, and can display data to be transmitted and received, and can also indicate that the power is cut off by the power cutoff unit 15. The power cutoff by the power cutoff unit 15 may be displayed by lighting a light emitting device such as a light emitting diode with low power consumption.

 In the present embodiment, an example will be described in which the sensor 60 uses an X-ray detector widely used in airports.

For example, a Schottky barrier diode is an example of an X-ray detector. Can be used. When a Schottky barrier diode with a reverse bias is irradiated with X-rays, electron-hole pairs are generated by the X-rays in the depletion layer at the interface (electrons in the valence band are excited by receiving the energy of the X-rays and conducted. The current flows because electrons flow to the semiconductor side and holes flow to the metal side due to the internal electric field created by the reverse bias.

If the band gap energy, that is, the band gap energy is E g and the frequency of the X-ray is: f, then the energy of the X-ray is hf (h is Planck's constant), so if one photon of this X-ray is incident, Generate hf / E g electron-hole pairs. Each time an X-ray photon is incident, a current flows in a pulsed manner.The current value I is proportional to the number of electron-hole pairs, that is, hf / Eg. You can know the energy. The sensor 60 includes a detection sensor 60 including the above-described X-ray or gamma ray detection element. When detecting an X-ray or the like having a predetermined threshold value or more, the power supply to the power cutoff unit 15 is performed. Outputs the cutoff signal. This threshold is set according to the X-ray output of baggage inspection equipment installed at airports, etc., but a volume adjuster for adjusting the threshold is provided in the portable wireless terminal so that the threshold can be changed appropriately. Is also good.

 In addition, the sensor 60 is not limited to the X-ray detection sensor 60, but may be a sensor capable of detecting other electromagnetic waves, for example, a low-frequency (VLF) electromagnetic wave used in a metal detector widely used in airports and the like. It goes without saying that these may be used, and that these may be used in combination.

 Here, as a low-frequency electromagnetic wave detecting element, for example, a magnetic impedance element can be used for detection.

As described above, when the sensor 60 capable of detecting another electromagnetic wave is used, the power supply of the portable wireless terminal can be cut off corresponding to the device that generates the electromagnetic wave. Although not shown, the PDA can be provided with an input function such as a numeric keypad or a stylus for inputting data, a schedule management function, a dictionary function, a web display function, and the like.

 FIG. 2 is a schematic block diagram showing one embodiment for blocking transmission of radio waves of the portable wireless terminal according to the second embodiment of the present invention.

 The portable wireless terminal according to the embodiment of the present invention has substantially the same configuration as that described above, but differs in that the sensor 61 directly controls the transmission of radio waves from the transmitting / receiving unit 20.

 That is, the control circuit 10 is a so-called one-chip microcomputer in which circuits having functions such as the CPU 11, the ROM 12, and the RAM 13 are formed on a single substrate in the same manner as described above. Further, the control circuit 10 has a radio wave transmitting section control circuit 16 for controlling the radio wave transmitting supply, and the radio wave transmitting section control circuit 16 cuts off the radio wave transmission based on the detection output from the sensor 61. And a radio wave transmission cut-off section 17 for communication. The stop of the radio wave transmission may be any as long as it is stopped by the radio wave transmission from the antenna 80, and a known appropriate means may be used. That is, it goes without saying that the power supply of the transmission / reception unit 20 may be cut off, the transmission circuit may be cut off, or the circuit of the antenna 80 may be stopped.

 Next, a procedure for shutting off the power supply in the above-described portable wireless terminal will be described.

 FIG. 3 is a flowchart showing a procedure for shutting off power in the portable wireless terminal according to the first embodiment.

 In the portable wireless terminal according to the present embodiment, as shown in FIG. 2, when the power switch 40 is operated and the power is turned on (Sl), the portable wireless terminal starts driving, and data transmission / reception is performed. It becomes possible (S2).

From the state of the power supply 状態 N, the power switch 40 is operated to turn off the power. Then, the driving of the portable wireless terminal ends, and transmission and reception are disabled (S3, S8).

Also, when the sensor 60 detects a cutoff factor (for example, an X-ray having a threshold value or more) from the power-on state, the sensor 60 outputs a power cutoff signal to the power cutoff unit 15 to cut off the power supply by the power supply circuit 14. At the same time (S5), the display unit 30 indicates that the power is turned off (S6). The power-off display on the display unit 30 may be omitted.

 When the return switch 70 is turned ON from this power-off state (S7), the power can be turned on by the power switch 40 (S1).

 In the above-described embodiment, the description has been made assuming a PDA as a portable wireless terminal. However, the portable wireless terminal of the present invention is applicable to any device that transmits and receives data by wireless communication. The present invention can be applied to, for example, a transceiver, a single-function mobile phone, and a mobile phone having a mail transmission / reception function, a WEB search function, and the like.

 FIG. 4 is a flowchart showing a procedure for shutting off the power supply in the portable wireless terminal according to the second embodiment.

 In the portable wireless terminal according to the present embodiment, as shown in FIG. 2, when the power switch 40 is operated and the power is turned on (Sll), the driving of the portable wireless terminal starts, and data transmission / reception is performed. It becomes possible (S12).

 When the power switch 40 is operated to turn off the power from the state of the power supply 0 N, the driving of the portable wireless terminal ends, and transmission and reception are disabled (S 13, S 18).

When the sensor 61 detects a blocking factor (for example, an X-ray having a threshold value or more) from the power-on state, the radio-wave transmitting unit control circuit 16 outputs a radio-wave transmitting cut-off signal to the radio-wave transmitting blocking unit 17. In addition to blocking the transmission of radio waves from the antenna 80 via the transmitting / receiving unit 20 (S15), the display unit 30 Is displayed to indicate that the power has been shut off (S16).

 When the return switch 71 is turned ON from this power-off state (S17), the portable wireless terminal enters the use state. (S14).

 In the above-described second embodiment, when a PDA is assumed as a portable wireless terminal, for example, the personal computer function of the PDA is alive in an airplane, so that the portable wireless terminal can be effectively used. Can be used.

 According to the portable wireless terminal of the present invention, when the detecting means detects the presence of a predetermined power cutoff factor, the power cutoff means operates, and the power supply by the power supply control means can be automatically cut off.

 Therefore, when the power of the portable wireless terminal must be turned off, such as when using public transportation, the power is always turned off, so that accidents caused by the user's intention or carelessness can be anticipated. Can be prevented.

 Further, in the portable wireless terminal of the present invention, the detection means is constituted by an X-ray, electromagnetic wave, etc. detection sensor, so that the power cut-off means can be activated when X-rays, electromagnetic waves, etc., having a predetermined threshold or more are detected. it can.

 Therefore, especially at airports where an X-ray projector is installed to inspect baggage, the power of the portable wireless terminal can be automatically turned off, and malfunctions of instruments during take-off and landing of airplanes, etc. Can be prevented beforehand.

 In the portable wireless terminal according to the present invention, the display unit can display that the power is shut off in the portable wireless terminal.

Therefore, when the power is turned off, it is possible to identify whether the cause is the power switch OFF operation or the consumption of the battery, or the power shutdown due to the power shutdown factor. For this reason, it is easily recognized that in the case of power interruption due to the power interruption factor, it is sufficient to operate the recovery means. The user does not get lost in the operation of the portable wireless terminal. Industrial applications

 As described above, the portable wireless terminal according to the present invention is useful as a PDA that is carried by an individual and used as a mobile phone that is additionally provided with an e-mail transmission / reception function and a WEB search function.

Claims

1U billing scope

1. A power supply control means for controlling power supply in a portable wireless terminal transmitting and receiving data by wireless communication;

 Detecting means for detecting a factor that should be turned off;

 A power cutoff unit for cutting off power supply by the power supply control unit when the detection unit detects a power cutoff factor;

 A portable wireless terminal, comprising: a return unit for instructing a restart of power supply by the power supply control unit when the power is cut off by the power supply cutoff unit.

 2. The detection means comprises a detection sensor for detecting X-rays or electromagnetic waves, and the power cut-off means operates when the detection sensor for detecting the X-rays or electromagnetic waves detects X-rays having a predetermined threshold value or more. 2. The portable wireless terminal according to claim 1, wherein:

3. The portable wireless terminal according to claim 1, further comprising a display unit for displaying that power has been cut off by the power cutoff unit.

 4. In a portable wireless terminal transmitting and receiving data by wireless communication, a radio wave transmission control means for controlling radio wave transmission;

 Detecting means for detecting a factor that should perform radio wave transmission blocking, and radio wave transmitting blocking means for blocking radio wave transmission by the radio wave transmission supply control means when the detecting means detects a radio wave transmitting blocking factor; A portable wireless terminal, comprising: a return unit for instructing the radio transmission control unit to restart radio transmission when radio transmission is interrupted by the radio transmission blocking unit.

5. The detection means comprises an X-ray detection sensor, 5. The portable radio terminal according to claim 4, wherein the radio wave transmission cutoff means operates when the detection sensor for detecting the X-ray or the electromagnetic wave detects the X-ray or the electromagnetic wave having a predetermined threshold value or more.

 6. The portable wireless terminal according to claim 4, further comprising a display unit for displaying that radio wave transmission is blocked by the radio wave transmission blocking unit.