JP2012194931A - Information processing system, information processing method and external device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an information processing system having a portable information terminal and hardware connected thereto that is capable of providing power source for control from the portable information terminal to the hardware with consideration for convenience of a use of the hardware.SOLUTION: An embodiment of the disclosed information processing system is a system having a portable information terminal and hardware connected to an audio input/output terminal thereof. The system uses a signal output from an audio output terminal as a signal for control between devices, and also boosts pressure of a signal output from another audio output terminal to use the signal as power source for hardware drive. In another embodiment, the system uses a signal output from an audio output terminal as a signal for control between devices, and also divides and boosts pressure of a signal output from the audio output terminal to use the signal as power source for the hardware drive.

Description

  The present invention relates to a system including a portable information terminal and an external device connected to the portable information terminal, and to a power supply technique for the external device.

  In recent years, portable information terminals called smartphones have become widespread. The portable information terminal is small and easy to carry, and also has a function that makes a personal computer even more attractive by using various applications.

  As described above, by installing an application that realizes a function desired by the user in the portable information terminal, the portable information terminal has a desired function. On the other hand, only by installing an application (software), The functions that can be realized are limited.

  Functions that cannot be realized simply by installing software on a portable information terminal may be realized by connecting specific hardware to the portable information terminal and controlling and operating the hardware. .

  However, since a power source is required to drive the hardware having the specific function, it is conceivable to provide the hardware with a power source such as a battery. In that case, the portable information terminal described above can be easily carried. There is a problem of sacrificing sex.

  Although it is conceivable to supply power to the hardware using an external connection terminal included in the portable information terminal, the external connection terminal does not assume such a use form, and therefore the installation position is the hardware. There is a problem that it is often not suitable for the use of wear.

  In view of the above problems, the present invention is a system including a portable information terminal and hardware connected to the portable information terminal. An object of the present invention is to provide an information processing system and an information processing method capable of supplying a control power supply.

  One form of the disclosed information processing system includes a portable information terminal including an audio input / output terminal and an external device connected to the portable information terminal via the audio input / output terminal and not receiving power from the portable information terminal. An information processing system, wherein the portable information terminal reads predetermined digital data including a control signal of the external device, which is held in a storage device included in the portable information terminal, and is read by the reading unit First D / A conversion means for converting the predetermined digital data into analog audio data, and audio reproduction provided in the portable information terminal with the analog audio data converted by the first D / A conversion means Transfer means for transferring to a buffer; and the analog audio data transferred by the transfer means. Is output to the external device as one output channel signal, and the external device digitally outputs the analog audio data output by the first audio data output unit. First A / D conversion means for converting to data, and self-control for causing a predetermined function of the external device to be exhibited based on the digital data converted by the first A / D conversion means And the first audio data output means outputs the analog audio data as the other output channel signal to the external device, and the external device outputs the first audio data to the external device. Using power based on the analog audio data output as the other output channel signal by the audio data output means Characterized by further comprising a power supply means for driving the external device.

  Another embodiment of the disclosed information processing system includes a portable information terminal having an audio input / output terminal and an external device connected to the portable information terminal via the audio input / output terminal and not supplied with power from the portable information terminal An information processing system including: a reading unit that reads predetermined digital data including a control signal of the external device, which is held in a storage device included in the portable information terminal; and the reading unit The portable information terminal includes first D / A conversion means for converting the read predetermined digital data into analog audio data, and the analog audio data converted by the first D / A conversion means. Transfer means for transferring to the audio playback buffer; and the analog audio transferred by the transfer means. First audio data output means for outputting data as one output channel signal to the external device, and the external device outputs the analog audio data output by the first audio data output means. A first A / D conversion means for converting into digital data, and an own device for exhibiting a predetermined function of the external device based on the digital data converted by the first A / D conversion means Self-control means for performing control, and power supply means for driving the external device using power based on the analog audio data output as the one output channel signal by the first audio data output means, It is characterized by having.

  The disclosed information processing system includes a portable information terminal and hardware connected thereto, and supplies power for control from the portable information terminal to the hardware in consideration of the convenience of use of the system. be able to.

It is a figure explaining the outline | summary of the information processing system which concerns on this Embodiment. It is a functional block diagram of the information processing system concerning this embodiment. It is the figure which represented typically the mechanism of the power supply in the information processing system which concerns on this Embodiment. It is a figure which shows an example of the display screen in the portable information terminal which concerns on this Embodiment. It is a figure which shows the hardware structural example of the portable information terminal which concerns on this Embodiment. It is a figure which shows the hardware structural example of the external device which concerns on this Embodiment. It is a flowchart which shows the flow of the data transmission process by the information processing system which concerns on this Embodiment. It is a flowchart which shows the flow of the data reception process by the information processing system which concerns on this Embodiment. It is a flowchart which shows the flow of the power supply process (the 1) by the information processing system which concerns on this Embodiment. It is a flowchart which shows the flow of the power supply process (the 2) by the information processing system which concerns on this Embodiment.

DESCRIPTION OF EMBODIMENTS Embodiments for carrying out the present invention will be described with reference to the drawings.
(Outline of information processing system)

  The outline of the information processing system 500 according to the present embodiment will be described with reference to FIG. FIG. 1 is a diagram for explaining the outline of the information processing system 500. As shown in FIG. 1, the information processing system 500 includes a portable information terminal 100 such as a smartphone and an external device 300, and the portable information terminal 100 and the external device 300 are connected via audio input / output terminals 190 and 460 provided respectively. Connected. That is, the information processing system 500 uses the phone plug 460 by inserting it into the audio input / output terminal 190 of the portable information terminal 100. Note that the audio input / output terminal 190 and the phone plug 460 have four poles: an L pole, an R pole, a Mic pole, and a Gnd pole.

  The portable information terminal 100 includes a control application 280 for the external device 300, and controls the external device 300 by using the control application 280. On the other hand, the external device 300 is hardware having a predetermined function, and exhibits a predetermined function by being controlled from the portable information terminal 100 using the control application 280. Also, the external device 300 transmits data obtained as a result of performing a predetermined function to the portable information terminal 100. That is, when the application 280 on the portable information terminal 100 side is activated, the audio input / output terminal 190 and the phone plug 460 are connected to the portable information terminal 100 / external device via the four poles of L pole, R pole, Mic pole, and Gnd pole. Data to be processed is exchanged between 300.

  Here, the predetermined functions provided in the external device 300 are sensor functions for temperature, humidity, atmospheric pressure (altitude), and ultraviolet rays. For example, confirmation of altitude, temperature, and humidity when climbing, measures against heat stroke when going out ( Temperature / humidity), cold catch check (temperature / humidity), moisture condition check (temperature / humidity), UV check (ultraviolet), thermometer (temperature). The predetermined function is a moisture sensor function and can be used as, for example, a skin checker or a body fat scale. Furthermore, the predetermined function is a photoreflector (light) sensor function, and can be used as, for example, a heart rate monitor / pulse meter or a light meter.

  The predetermined functions of the external device 300 are separated (or difficult to touch directly), such as odor sensor functions such as alcohol checker and breath checker, dust sensor functions such as pollen checker and house dust checker, and liquids such as oil and walls. Infrared temperature sensors such as temperature measurement of objects, weight sensors such as weight scales, ultrasonic sensors such as distance measurement and moving body detection, infrared laser sensors such as distance measurement, Osaifu-Keitai functions (Felica, Suica, Edy, etc), etc. NFC (Near Field Communication) Sensor, credit card reader, current measurement, rotation angle measurement, bearing measurement, moving body detection, magnetic body detection, nondestructive inspection, magnetoencephalograph magnetic sensor, moving body detection, etc.

The predetermined functions provided in the external device 300 include a strobe signal notification function (an interface function for notifying the timing when shooting with a camera using a flash), a data communication function (a low-capacity data communication function, an address book, etc.) Data exchange function, ID key notification function to lock apps and device operations, input device functions (game controller, keyboard, pointing device (mouse, trackball, pen tablet), barcode scanner, biometric authentication (fingerprint, etc.) ), A radiation dose measuring function (for example, a radiation dose measuring device such as a Geiger counter).
(Operation principle of information processing system)

  The operation principle of the information processing system 500 according to this embodiment will be described with reference to FIG. FIG. 3 is a functional block diagram of the information processing system 500. As shown in FIG. 3, the information processing system 500 includes a portable information terminal 100 and an external device 300.

  The portable information terminal 100 includes a reading unit 110, a first D / A conversion unit 120, a transfer unit 130, a first audio data output unit 140, a second A / D conversion unit 150, a writing unit 160, and a storage device 170. An audio playback buffer 180, an audio input / output terminal 190, and an audio recording buffer 200. On the other hand, the external device 300 includes a first A / D conversion unit 310, an own device control unit 320, a predetermined function unit 330, a second D / A conversion unit 340, a second audio data output unit 350, and a power supply. Means 360 is provided. First, each unit included in the portable information terminal 100 will be described.

  The reading unit 110 reads processing target data (data stored in a digital format) that is stored in the storage device 170 of the portable information terminal 100 and is transmitted to the external device 300. Here, the processing target data may be a control signal for the external apparatus 300, may be data having no such meaning, or may be data in which such data is mixed. Note that the processing of the reading unit 110 is started when a predetermined function application 290 is activated. For example, as shown in FIG. 4, when a predetermined function application 290 arranged on the operation screen 260 of the portable information terminal 100 is selected and an execution instruction is issued, the processing of the reading unit 110 is started.

  The first D / A conversion unit 120 converts the digital data read by the reading unit 110 into analog audio data. The first D / A conversion means 120 converts digital data into analog audio data using a biphase code such as an Fm code or a Manchester code. Here, the biphase code is a general term for a code system in which the potential is switched at the center of the bit time. For example, the Manchester code is one of the data transmission code formats, and the change in the transmission level is represented by the codes 0 and 1, the change from the low level to the high level is 0, and the high level to the low level. In the present embodiment, the reverse conversion rule may be used.

  The transfer unit 130 transfers the analog audio data generated (converted) by the first D / A conversion unit 120 to the audio reproduction buffer 180. Here, the audio reproduction buffer 180 is a storage area for temporarily buffering sound data to be reproduced when the portable information terminal 100 performs sound data reproduction processing.

  As shown in FIG. 3A, the first audio data output means 140 sends the analog audio data buffered in the audio reproduction buffer 180 to the outside via the L pole and R pole of the audio input / output terminal 190. Output to device 300. At this time, the data output from the L pole and the data output from the R pole are the same data with the phase difference π. This is a waveform output from both the L and R poles so that the data buffered in the audio playback buffer 180 is not output from the speaker of the portable information terminal 100 when the phone plug 460 is pulled out from the audio input / output terminal 190. This is to cancel each other out. By doing so, since unpleasant sound is not output from the speaker, the user's satisfaction can be improved without making the user feel uncomfortable.

  Further, as shown in FIG. 3B, the first audio data output means 140 according to another embodiment uses analog audio data buffered in the audio reproduction buffer 180 as the L pole or R pole of the audio input / output terminal 190. Is output to the external device 300 via one of the above. At this time, the R pole or the L pole from which analog audio data is not output can be used without limitation on the data to be output, such as outputting a signal such as music data.

  The second A / D conversion means 200 converts analog audio data buffered in the audio recording buffer 200 into digital data. Further, the second A / D conversion means 200 may be configured to convert analog audio data into digital data using a biphase code such as an Fm code or a Manchester code. Here, the audio recording buffer 200 is a storage area for temporarily buffering sound data to be recorded when the portable information terminal 100 performs sound data recording processing.

  The writing unit 160 stores the digital data generated (converted) by the second A / D conversion unit 200 in a predetermined location of the storage device 170. Here, the predetermined location may be in a predetermined form, or may be in a form defined in the digital data generated (converted) by the second A / D conversion unit 200. Further, the predetermined location may be set by the user or the like each time the writing unit 160 performs processing.

  Next, each unit included in the external device 300 will be described. The first A / D conversion unit 310 converts the analog audio data output from the first audio data output unit 140 acquired via the L pole (or R pole) of the audio input / output terminal 190 into digital data. To do. Further, the first A / D conversion means 310 may be configured to convert analog audio data into digital data using a biphase code such as an Fm code or a Manchester code.

  The own device control means 320 controls a predetermined function means 330 described later based on the digital data generated (converted) by the first A / D conversion means 310. That is, the digital data generated (converted) by the first A / D conversion unit 310 includes a control signal for the external device 300 transmitted from the portable information terminal 100.

  The predetermined function unit 330 realizes a predetermined function included in the external device 300 and generates digital data that is a result of exerting the predetermined function. Here, the predetermined functions are temperature / humidity / atmospheric pressure (altitude) / ultraviolet sensor functions, such as confirmation of altitude / temperature / humidity when climbing, measures against heat stroke when going out (temperature / humidity), It can be used as a cold catch check (temperature / humidity), a moisture condition check (temperature / humidity), a UV check (ultraviolet light), and a thermometer (temperature). The predetermined function is a moisture sensor function and can be used as, for example, a skin checker or a body fat scale. Furthermore, the predetermined function is a photoreflector (light) sensor function, and can be used as, for example, a heart rate monitor / pulse meter or a light meter. Predetermined functions include odor sensor functions such as alcohol checker and breath checker, dust sensor functions such as pollen checker and house dust checker, and temperature measurement of remote (or hard to touch) objects such as oil and liquid Infrared temperature sensor, weight sensor such as weight scale, ultrasonic sensor such as distance measurement, moving body detection, infrared laser sensor such as distance measurement, NFC (Near Field Communication) sensor such as Osaifu-Keitai function (Felica, Suica, Edy, etc), It functions as a Doppler sensor such as a credit card card reader, current measurement, rotation angle measurement, bearing measurement, mobile object detection, magnetic substance detection, nondestructive inspection, magnetoencephalograph magnetic sensor, and mobile object detection. The predetermined functions provided in the external device 300 include a strobe signal notification function (an interface function for notifying the timing when shooting with a camera using a flash), a data communication function (a low-capacity data communication function, an address book, etc.) Data exchange function, ID key notification function to lock apps and device operations, input device functions (game controller, keyboard, pointing device (mouse, trackball, pen tablet), barcode scanner, biometric authentication (fingerprint, etc.) ), A radiation dose measuring function (for example, a radiation dose measuring device such as a Geiger counter).

  The second D / A conversion unit 340 converts the digital data generated by the predetermined functional unit 330 into analog audio data. Here, the digital data generated by the predetermined functional unit 330 is a result of the external device 300 exerting a predetermined function. Further, the second D / A conversion means 340 may be configured to convert digital data into analog audio data using a biphase code such as an Fm code or a Manchester code.

  The second audio data output means 350 outputs the analog audio data generated (converted) by the second D / A conversion means 340 to the audio recording buffer 200 via the Mic pole of the audio input / output terminal 190.

  The power supply unit 360 converts the analog audio data obtained by the first audio data output unit 140 acquired via the R pole (or L pole) of the audio input / output terminal 190 into a booster circuit (for example, a half-wave voltage doubler). Rectifier circuit, full wave voltage doubler circuit, half wave triple voltage circuit, etc.). Then, the power supply unit 360 supplies power obtained as an output of the booster circuit to an MCU (Micro Controller Unit) 410 provided in the external device 300, and drives the MCU 410. Here, one or more of the first A / D conversion unit 310, the own device control unit 320, the predetermined function unit 330, the second D / A conversion unit 340, and the second audio data output unit 350 are included. The means is executed (controlled) by the MCU 410.

  Here, when the first A / D conversion unit 310 uses the L channel signal, the power supply unit 360 uses the R channel signal, and the first A / D conversion unit 310 uses the R channel signal. The power supply unit 360 uses an L channel signal. Further, the first A / D conversion unit 310 and the power supply unit 360 may use signals of the same channel.

The merit of using a rectangular wave like a biphase code in D / A conversion and A / D conversion in this embodiment can be extracted because a rectangular wave has a larger area in each waveform than a sine wave. The amount of electrical energy is increased.
(Hardware configuration of portable information terminal)

  An example of the hardware configuration of portable information terminal 100 according to the present embodiment will be described with reference to FIG. FIG. 5 is a diagram illustrating an example of a hardware configuration of the portable information terminal 100.

As shown in FIG. 5, a portable information terminal 100 includes a CPU (Central Processing Unit) 210, a ROM (Read-Only Memory) 220, a RAM (Random
An access memory 230, a flash memory 240, a wireless communication unit 250, a display device 260, an audio input / output terminal 190, and an external connection terminal 270.

  The CPU 210 is a device that executes a program stored in the ROM 220. The CPU 210 performs arithmetic processing on the data expanded (loaded) in the RAM 230 in accordance with an instruction of the program and controls the entire portable information terminal 100. The ROM 220 stores programs executed by the CPU 210 and data. When the CPU 210 executes a program stored in the ROM 220 by the CPU 210, the program or data to be executed is expanded (loaded), and temporarily holds the operation data during the operation.

  The flash memory 240 is a device that stores an OS, which is basic software, an application program according to the present embodiment, and the like together with related data. For example, the flash memory 240 stores digital data to be processed by the reading unit 110 and the writing unit 160.

The wireless communication unit 250 is a unit for providing a wireless communication function such as a mobile phone or a wireless LAN (Local Area Network). The display device 260 is an LCD (Liquid
Crystal Display) is a device that functions as a user interface when the user uses the functions of the portable information terminal 100 and makes various settings. The audio input / output terminal 190 is a terminal for connecting headphones or earphones and outputting sound information to the outside, and is a terminal corresponding to four poles of L pole, R pole, Mic pole, and Gnd pole. The external connection terminal 270 is an interface for performing data transmission / reception with various devices to be connected in a wired manner.

Here, each unit included in the portable information terminal 100 may be realized by the CPU 210 executing a program corresponding to each unit stored in the ROM 220 or the flash memory 240. Moreover, each means which the portable information terminal 100 has is good also as a form which implement | achieves the process regarding the said each means as a hardware.
(Hardware configuration of external device)

  An example of the hardware configuration of the external device 300 according to the present embodiment will be described with reference to FIG. FIG. 6 is a diagram illustrating an example of a hardware configuration of the external device 300.

  As shown in FIG. 6, the external device 300 includes a CPU 420, a ROM 430, a RAM 440, various electronic circuits 450, an audio input / output terminal 460, and a device 330 that provides a predetermined function. Here, the MCU (Micro Controller Unit) 410 may include a CPU 420, a ROM 430, and a RAM 440.

  The CPU 420 is a device that executes a program stored in the ROM 430. The CPU 420 performs arithmetic processing on the data expanded (loaded) in the RAM 440 in accordance with instructions of the program and controls the entire external device 300. The ROM 430 stores programs and data executed by the CPU 420. When the CPU 420 executes a program stored in the ROM 430, the RAM 440 develops (loads) the program and data to be executed, and temporarily holds the operation data during the operation.

  The various electronic circuits 450 include a boost power supply circuit (such as a voltage doubler circuit) used by the power supply unit 360, an electronic circuit used for voltage conversion and waveform shaping, and the like. The audio input / output terminal 460 is a terminal (phone plug) for connecting to the audio input / output terminal 190 and corresponds to four channels of L channel, R channel, Mic channel, and Gnd channel. The device 330 that provides a predetermined function is a device that performs a predetermined function of the external device 300, and is the predetermined functional unit 330 itself.

Here, each unit included in the external device 300 may be realized by the CPU 420 executing a program corresponding to each unit stored in the ROM 430. In addition, each unit included in the external device 300 may be configured to implement processing related to each unit as hardware.
(Flow of data transmission processing by information processing system)

  The flow of data transmission processing (seen from the portable information terminal 100 side) by the information processing system 500 according to the present embodiment will be described using FIG. FIG. 7 is a flowchart illustrating an example of data transmission processing by the information processing system 500. When a predetermined function application 280 is selected on the operation screen 260 shown in FIG. 4 and an execution instruction is given, the process of S10 is started.

  In S <b> 10, the reading unit 110 reads the processing target digital data stored in the storage device 170 and transfers it to the RAM 230. Here, the processing target data is data including a control signal for the external device 300. In S20, the first D / A converter 120 converts the processing target data read into the RAM 230 into analog audio data using a biphase code such as Manchester code.

  In S <b> 30, the transfer unit 130 transfers the analog audio data generated by the first D / A conversion unit 120 from the RAM 230 to the audio reproduction buffer 180. Here, when the audio playback buffer 180 is prepared on the RAM 230, the transfer unit 130 transfers analog audio data to an area allocated as the audio playback buffer 180.

  In S 40, the first audio data output unit 140 outputs the analog audio data transferred to the audio reproduction buffer 180 by the transfer unit 130 to the external device 300 via the L channel of the audio input / output terminal 190.

  In S50, the first A / D converter 310 converts the L channel signal, which is analog audio data acquired from the portable information terminal 100, into digital data using a biphase code such as Manchester code. Here, before the A / D (Analog / Digital) conversion process by the first A / D conversion unit 310, a waveform shaping process or a voltage conversion process may be performed on the L channel signal. In addition, the first A / D conversion unit 310 may perform frequency conversion processing as well as A / D conversion processing. For example, in the present embodiment, the first A / D conversion unit 310 includes 11. A 025 kHz analog audio signal is converted into digital data of 9.6 kbps.

  Based on the digital data generated (converted) by the first A / D conversion unit 310, the own device control unit 320 controls the predetermined function unit 330 in step S60, and the predetermined function unit 330 is controlled by the external device 300. A predetermined function included in the above is realized.

By performing such processing, in a system including the portable information terminal 100 and the hardware 300 connected thereto, the hardware 300 side is controlled from the portable information terminal 100 side, and a predetermined function provided in the hardware 300 Can be demonstrated.
(Flow of data reception processing by information processing system)

  The flow of data reception processing (seen from the portable information terminal 100 side) by the information processing system 500 according to the present embodiment will be described using FIG. FIG. 8 is a flowchart illustrating an example of data reception processing by the information processing system 500. When a predetermined function application 280 is selected on the operation screen 260 shown in FIG. 4 and an execution instruction is given, the process of S110 is started.

  In step S110, the predetermined function unit 330 generates digital data that is a result of the predetermined function. Here, the result of exerting the predetermined function is, for example, a temperature measurement result for a temperature sensor, a humidity measurement result for a humidity sensor, or an atmospheric pressure (altitude) measurement for an atmospheric pressure (altitude) sensor. As a result, if it is an ultraviolet sensor, it is a measurement result of ultraviolet rays. Moreover, the control signal for the portable information terminal 100 may be included in the result of exerting the predetermined function.

  In S120, the second D / A converter 340 converts the digital data generated by the predetermined functional unit 330 into analog audio data using a biphase code such as Manchester code.

  In S130, the second audio data output means 350 outputs the analog audio data generated by the second D / A conversion means 340 to the audio recording buffer 200 as a Mic channel signal via the audio input / output terminal 190. . Here, after the D / A (Digital / Analog) conversion processing by the second D / A conversion means 340, the Mic channel signal may be subjected to waveform shaping processing or voltage conversion processing. The audio recording buffer 200 may be a predetermined storage area provided on the RAM 230.

  In S140, the second A / D converter 150 converts the analog audio data output to the audio recording buffer 200 into digital data using a biphase code such as Manchester code, and a predetermined work area on the RAM 230. Export to In S150, the writing unit 160 stores the digital data generated by the second A / D conversion unit 150 and written to the work area on the RAM 230 in a predetermined location of the storage device 170. Here, the predetermined location may be a predetermined storage location or a form defined in the digital data generated (converted) by the second A / D conversion means 200. Further, the predetermined place may be in a form set by the user or the like each time processing is performed by the writing unit 160.

By performing such processing, data generated in the external device 300 can be taken into the portable information terminal 100 side, and further, the data can be used on the portable information terminal 100 side.
(Flow of power supply processing (part 1) by the information processing system)

  The flow of power supply processing by the information processing system 500 according to the present embodiment will be described with reference to FIG. FIG. 9 is a flowchart illustrating an example of processing for supplying power from the mobile information terminal 100 side to the external device 300 side. Here, a processing example shown in FIG. 3A, that is, a processing example in a case where the power supply and the communication signal are separated will be described. In this processing example, it is assumed that a communication signal is output on the L channel and a power supply signal is output on the R channel. When a predetermined function application 280 is selected on the operation screen 260 shown in FIG. 4 and an execution instruction is given, the process of S210 is started.

  In S <b> 210, the reading unit 110 reads digital data to be processed stored in the storage device 170 and transfers it to the RAM 230. Here, the processing target data may be a control signal for the external device 300, such meaningless meaningless data, or data in which they are mixed. In S220, the first D / A converter 120 converts the processing target data read into the RAM 230 into analog audio data using a biphase code such as Manchester code.

  In S230, the transfer unit 130 transfers the analog audio data generated by the first D / A conversion unit 120 from the RAM 230 to the audio reproduction buffer 180. Here, when the audio playback buffer 180 is prepared on the RAM 230, the transfer unit 130 transfers analog audio data to an area allocated as the audio playback buffer 180.

  In S240, the first audio data output unit 140 outputs the analog audio data transferred to the audio reproduction buffer 180 by the transfer unit 130 to the external device 300 via the R channel of the audio input / output terminal 190. At this time, the first audio data output unit 140 outputs data having the same content as the data output from the L channel and having a phase difference π from the R channel to the external device 300.

  In S250, the power supply unit 360 inputs the acquired R channel signal to the half-wave rectification voltage doubler circuit and boosts the input signal. In S260, the power supply unit 360 inputs the R channel signal boosted by the half-wave rectification voltage doubler circuit to the MCU 410 (the own device control unit 320, the predetermined functional unit 330, etc.).

By doing so, the external device 300 can drive the MCU 410, the predetermined functional means 330, and the like included in the external device 300 without independently providing a power source such as a battery. Furthermore, since the waveforms output from the L and R poles cancel each other, when the phone plug 460 is pulled out from the audio input / output terminal 190, the data buffered in the audio playback buffer 180 is transmitted from the speaker of the portable information terminal 100. Not output.
(Flow of power supply processing (part 2) by the information processing system)

  The flow of power supply processing by the information processing system 500 according to this embodiment will be described with reference to FIG. FIG. 10 is a flowchart illustrating an example of processing for supplying power from the mobile information terminal 100 side to the external device 300 side. Here, a processing example shown in FIG. 3B, that is, a processing example in the case where the power supply and the communication signal are integrated will be described. In this processing example, it is assumed that a communication signal and a power supply signal are output on the L channel. When a predetermined function application 280 is selected on the operation screen 260 shown in FIG. 4 and an execution instruction is given, the process of S310 is started.

  In step S <b> 310, the reading unit 110 reads digital data to be processed stored in the storage device 170 and transfers it to the RAM 230. Here, the processing target data may be a control signal for the external device 300, such meaningless meaningless data, or data in which they are mixed. In S320, the first D / A converter 120 converts the processing target data read into the RAM 230 into analog audio data using a biphase code such as Manchester code.

  In S330, the transfer unit 130 transfers the analog audio data generated by the first D / A conversion unit 120 from the RAM 230 to the audio reproduction buffer 180. Here, when the audio playback buffer 180 is prepared on the RAM 230, the transfer unit 130 transfers analog audio data to an area allocated as the audio playback buffer 180.

  In S340, the first audio data output unit 140 outputs the analog audio data transferred to the audio reproduction buffer 180 by the transfer unit 130 to the external device 300 via the L channel of the audio input / output terminal 190. At this time, the first audio data output means 140 may not output a signal from the R channel, or may output a signal such as music data (no limitation on data attributes) from the R channel to the external device 300. good.

  In S350, the power supply unit 360 separates the acquired L channel signal into a control signal and a power signal, and inputs the power signal to the half-wave rectifier voltage booster to boost the input signal. In S360, the power supply unit 360 inputs the L channel signal boosted by the half-wave rectification voltage doubler circuit to the MCU 410 (the own device control unit 320, the predetermined functional unit 330, etc.).

By doing so, the external device 300 can drive the MCU 410, the predetermined functional means 330, and the like included in the external device 300 without independently providing a power source such as a battery. Furthermore, one channel of the audio input / output terminal 190 can be used as an empty channel.
(Summary)

  The disclosed information processing system includes a portable information terminal and hardware connected thereto, and supplies control power to the hardware from the portable information terminal in consideration of the convenience of use of the system. be able to.

  Although the embodiment of the present invention has been described in detail above, the present invention is not limited to the specific embodiment, and various modifications are possible within the scope of the gist of the present invention described in the claims.・ Change is possible.

100 portable information terminal 110 reading means 120 first D / A conversion means 130 transfer means 140 first audio data output means 150 second A / D conversion means 160 writing means 170 storage device 180 audio reproduction buffer 190 audio input / output Terminal 200 Audio recording buffer 210 CPU
220 ROM
230 RAM
240 Flash memory 250 Wireless communication unit 260 Display device 270 External connection terminal 280 Program for controlling external device (predetermined function application)
300 External device 310 First A / D conversion means 320 Own control means 330 Predetermined function means 340 Second D / A conversion means 350 Second audio data output means 360 Power supply means 410 MCU
420 CPU
430 ROM
440 RAM
450 Various electronic circuits 460 Audio input / output terminal 500 Information processing system

Claims (16)

An information processing system including a portable information terminal including an audio input / output terminal and an external device connected to the portable information terminal via the audio input / output terminal and not receiving power supply from the portable information terminal,
The portable information terminal is
Reading means for reading predetermined digital data including a control signal of the external device, which is held in a storage device included in the portable information terminal;
First D / A conversion means for converting the predetermined digital data read by the reading means into analog audio data;
Transfer means for transferring the analog audio data converted by the first D / A conversion means to an audio reproduction buffer provided in the portable information terminal;
First analog audio data output means for outputting the analog audio data transferred by the transfer means to the external device as a single output channel signal;
The external device is
First A / D conversion means for converting the analog audio data output by the first audio data output means into digital data;
Self-machine control means for performing self-machine control for exhibiting a predetermined function of the external device based on the digital data converted by the first A / D conversion means,
The first audio data output means outputs the analog audio data to the external device as another output channel signal;
The external device is
An information processing system further comprising power supply means for driving the external device using power based on the analog audio data output as the other output channel signal by the first audio data output means. . An information processing system including a portable information terminal including an audio input / output terminal and an external device connected to the portable information terminal via the audio input / output terminal and not receiving power supply from the portable information terminal,
The portable information terminal is
Reading means for reading predetermined digital data including a control signal of the external device, which is held in a storage device included in the portable information terminal;
First D / A conversion means for converting the predetermined digital data read by the reading means into analog audio data;
Transfer means for transferring the analog audio data converted by the first D / A conversion means to an audio reproduction buffer provided in the portable information terminal;
First analog audio data output means for outputting the analog audio data transferred by the transfer means to the external device as a single output channel signal;
The external device is
First A / D conversion means for converting the analog audio data output by the first audio data output means into digital data;
Self-machine control means for performing self-machine control for exhibiting a predetermined function of the external device based on the digital data converted by the first A / D conversion means;
Power supply means for driving the external device using power based on the analog audio data output as the one output channel signal by the first audio data output means. system. The external device is
Second D / A conversion means for converting digital data generated as a result of exerting a predetermined function of the external device into analog audio data;
Second audio data output means for outputting the analog audio data converted by the second D / A conversion means as a recording channel signal to an audio recording buffer provided in the portable information terminal;
The portable information terminal is
Second A / D conversion means for converting the analog audio data output by the second audio data output means into digital data;
The information according to claim 1, further comprising: a digital data writing unit that writes the digital data converted by the second A / D conversion unit into a predetermined storage area of the storage device. Processing system.   The power supply means drives the external device using output power obtained by inputting the analog audio data output as the other output channel signal by the first audio data output means to the boost power supply circuit. The information processing system according to claim 1, wherein the information processing system quotes claim 1 or claim 1.   The power supply means drives the external device using output power obtained by inputting the analog audio data output as the one output channel signal by the first audio data output means to the boost power supply circuit. The information processing system according to claim 2, wherein the information processing system quotes claim 2 or claim 2.   The first D / A conversion unit, the first A / D conversion unit, the second D / A conversion unit, and the second A / D conversion unit use a biphase code to generate audio data. The information processing system according to any one of claims 1 to 5, wherein conversion between digital data is performed.   2. The information processing system according to claim 1, wherein a phase difference between the one output channel signal and the other output channel signal output from the first audio data output means is π. An information processing method in an information processing system including a portable information terminal including an audio input / output terminal and an external device connected to the portable information terminal via the audio input / output terminal and not supplied with power from the portable information terminal. ,
In the portable information terminal,
A step of reading out predetermined digital data including a control signal of the external device held in a storage device included in the portable information terminal;
First D / A conversion means converting the predetermined digital data read by the reading means into analog audio data;
A transfer unit transferring the analog audio data converted by the first D / A conversion unit to an audio reproduction buffer included in the portable information terminal;
First audio data output means, outputting the analog audio data transferred by the transfer means to the external device as one output channel signal,
In the external device,
A first A / D conversion means for converting the analog audio data output by the first audio data output means into digital data;
Self-machine control means, comprising, based on the digital data converted by the first A / D conversion means, performing self-machine control for exhibiting a predetermined function provided in the external device,
The first audio data output means outputs the analog audio data to the external device as another output channel signal;
Furthermore, in the external device,
Power supply means comprises the step of driving the external device using power based on the analog audio data output as the other output channel signal by the first audio data output means. Processing method. An information processing method in an information processing system including a portable information terminal including an audio input / output terminal and an external device connected to the portable information terminal via the audio input / output terminal and not supplied with power from the portable information terminal. ,
In the portable information terminal,
A step of reading out predetermined digital data including a control signal of the external device held in a storage device included in the portable information terminal;
First D / A conversion means converting the predetermined digital data read by the reading means into analog audio data;
A transfer unit transferring the analog audio data converted by the first D / A conversion unit to an audio reproduction buffer included in the portable information terminal;
First audio data output means, outputting the analog audio data transferred by the transfer means to the external device as one output channel signal,
In the external device,
A first A / D conversion means for converting the analog audio data output by the first audio data output means into digital data;
A self-control unit performing self-control for causing the external device to perform a predetermined function based on the digital data converted by the first A / D conversion unit;
Power supply means comprises the step of driving the external device using power based on the analog audio data output as the one output channel signal by the first audio data output means. Processing method. In the external device,
A second D / A conversion means for converting digital data generated as a result of exerting a predetermined function of the external device into analog audio data;
A second audio data output means for outputting the analog audio data converted by the second D / A conversion means as a recording channel signal to an audio recording buffer included in the portable information terminal;
In the portable information terminal,
A second A / D conversion means for converting the analog audio data output by the second audio data output means into digital data;
The digital data writing means comprises a step of writing the digital data converted by the second A / D conversion means into a predetermined storage area of the storage device. The information processing method described.   The power supply means drives the external device using output power obtained by inputting the analog audio data output as the other output channel signal by the first audio data output means to the boost power supply circuit. The information processing method according to claim 10, wherein the information processing method is cited.   The power supply means drives the external device using output power obtained by inputting the analog audio data output as the one output channel signal by the first audio data output means to the boost power supply circuit. The information processing method according to claim 9, wherein the information processing method is cited.   The first D / A conversion unit, the first A / D conversion unit, the second D / A conversion unit, and the second A / D conversion unit use a biphase code to generate audio data. The information processing method according to any one of claims 8 to 12, wherein conversion between digital data is performed.   9. The information processing method according to claim 8, wherein a phase difference between the one output channel signal and the other output channel signal output by the first audio data output means is π. A portable information terminal comprising an audio input / output terminal and an external device connected to the portable information terminal via the audio input / output terminal and not receiving power from the portable information terminal;
First A / D conversion means for converting analog audio data acquired as one output channel signal into digital data;
Self-machine control means for performing self-machine control for exhibiting a predetermined function of the external device based on the digital data converted by the first A / D conversion means;
Second D / A conversion means for converting digital data generated as a result of exerting the predetermined function into analog audio data;
Second audio data output means for outputting the audio data converted by the second D / A conversion means as a recording channel signal;
An external apparatus comprising: power supply means for driving the external apparatus using power based on analog audio data acquired as another output channel signal. A portable information terminal comprising an audio input / output terminal and an external device connected to the portable information terminal via the audio input / output terminal and not receiving power from the portable information terminal;
First A / D conversion means for converting analog audio data acquired as one output channel signal into digital data;
Self-machine control means for performing self-machine control for exhibiting a predetermined function of the external device based on the digital data converted by the first A / D conversion means;
Second D / A conversion means for converting digital data generated as a result of exerting the predetermined function into analog audio data;
Second audio data output means for outputting the audio data converted by the second D / A conversion means as a recording channel signal;
An external apparatus comprising: power supply means for driving the external apparatus using electric power based on analog audio data acquired as the one output channel signal.

Images