JP2000032000A - Infrared communication equipment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To perform infrared communication between an optional infrared transmitter and an optional infrared receiver regardlessly of the difference of communication protocols by transmitting a communication mode information for designing a communication protocol for transmitting data before transmitting the data from the infrared transmitter, and then transmitting the data with the designated communication protocol. SOLUTION: When a transmission start signal START is given, the communication mode information for designating the communication protocol for transmitting the data from a communication mode generator 16 is transmitted through an infrared module 20 before transmitting the data, then the infrared transmitter 12 outputs a transmission enable signal 'en' to transmit the data with the? communication protocol designated from an IrDA modulator 18 (IrDA in this case) through the module 20. The signal received by an infrared module 22 is discriminated that the communication protocol of data is the IrDA by a communication mode discriminator 24 and converted into a parallel data by an IrDA demodulator 30.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an infrared communication device for serially transmitting / receiving data by infrared communication.

[0002]

2. Description of the Related Art At present, communication modes between devices using infrared communication are not standardized, and different manufacturers adopt different communication protocols (standards). As such a communication protocol, for example, ASK (amplit
ude shift keying) or IrDA (Infrared Data Associ
), televisions, videos, air conditioners, etc., there are many types such as those used in home remote controls, and the communication speed and data communication format are different for each communication protocol.

Normally, in a device utilizing infrared communication, as shown in FIG. 3, for example, communication between a portable information terminal 44 and a notebook type personal computer 46 uses IrDA as a communication protocol. As shown in the flowchart of FIG. 4, a data transfer application is started on the notebook personal computer 46 side, and the user needs to specify a communication mode according to a communication protocol between the portable information terminal 44 and the notebook personal computer 46. There is.

For example, when a data transfer application is compatible with a home remote controller, ASK or IrDA communication protocol, after starting the application, a user selects a portable remote controller, ASK or IrDA from the portable remote controller. IrDA, which is a communication protocol between the information terminal 44 and the notebook computer 46, is selected. As a result, the application performs various settings according to the communication protocol IrDA, and starts data transfer.

However, since the user specifies a communication protocol between the portable information terminal 44 and the notebook computer 46, the communication mode between the portable information terminal 44 and the notebook computer 46, that is, a plurality of infrared communication If there is a device, the communication mode between all the infrared transmitters and all the infrared receivers must be known, which is troublesome. There was a problem that an error occurred because the data could not be imported.

[0006]

SUMMARY OF THE INVENTION An object of the present invention is to make it possible to perform infrared communication between an infrared transmitter and an infrared receiver irrespective of the communication protocol, in view of the problems based on the prior art. To provide an infrared communication device.

[0007]

SUMMARY OF THE INVENTION In order to achieve the above object, the present invention provides a method for transmitting data before transmitting data, transmitting communication mode information for designating a communication protocol for transmitting the data. An infrared transmitter that transmits the data with a communication protocol specified by mode information,
And, before receiving the data, after receiving and determining the communication mode information transmitted from the infrared transmitter,
It is an object of the present invention to provide an infrared communication device having at least one of an infrared receiver for receiving data transmitted from the infrared transmitter according to a communication protocol specified by the communication mode information.

Here, the infrared transmitter and the infrared receiver referred to in the present invention have a function of transmitting / receiving data using infrared rays. Therefore, the present invention can be applied to an electronic device having only an infrared transmission function, such as a home remote controller, for example, a television, a video,
The present invention can be applied to an air conditioner or the like having only an infrared receiving function, or a mobile information terminal or a notebook personal computer having an infrared transmitting / receiving function, for example.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an infrared communication device according to the present invention will be described in detail based on a preferred embodiment shown in the accompanying drawings.

FIG. 1 is a conceptual diagram showing the configuration of an embodiment of an infrared communication device according to the present invention. The infrared communication device 10 in the illustrated example includes, for example, an infrared transmitter 12 such as a portable information terminal 44 and an infrared receiver 14 such as a notebook computer 46 as shown in FIG. FIG. 1 shows a portion necessary for determining a communication protocol at the start of communication, in which both the infrared transmitter 12 and the infrared receiver 14 have a function of transmitting and receiving data in both directions. It may be. First, the infrared transmitter 12 transmits data by radiating infrared light modulated with data to be transmitted. In the illustrated example, the communication mode generator 16, Ir
It has a DA modulator 18 and an infrared module 20.

Here, a transmission start signal START for instructing the start of transmission is input to the communication mode generator 16,
From the communication mode generator 16, the IrDA modulator 1
The transmission enable signal en which permits the output of the signal from
Is output and input to the IrDA modulator 18. The signals output from the communication mode generator 16 and the IrDA modulator 18 are wired and input to the infrared module 20.

In the infrared transmitter 12, a transmission start signal ST
Given an ART, before sending data,
After communication mode information designating a communication protocol for transmitting data is transmitted from the communication mode generator 16 via the infrared module 20, a transmission enable signal en
Is output, and data is transmitted from the IrDA modulator 18 via the infrared module 20 using the communication protocol specified by the communication mode information, in this embodiment, IrDA.

On the other hand, the infrared receiver 14 receives the data by intercepting and demodulating the infrared light modulated by the data. In the illustrated example, the infrared receiver 22, the communication mode discriminator 24, the home mode Remote demodulator 26, ASK demodulator 28, IrDA demodulator 30, selector 32 and FIFO (First-
In First-Out) buffer 34. The selector 32 includes first, second, and third AND gates 36, 3
8, 40 and an OR gate 42.

The signal received by the infrared module 22 is transmitted to a home mode remote control demodulator 26 and an ASK demodulator 28 in addition to the communication mode discriminator 24.
And IrDA demodulator 30. Also, a home remote control demodulator 26, ASK
Demodulator 28 and IrDA demodulator 30
Are input to one of the input terminals of the first, second and third AND gates of the selector 32, respectively.

From the communication mode discriminator 24, reception enable signals en1 and en for permitting demodulation of the received signal.
2 and en3 are output to the home remote control demodulator 26, ASK demodulator 28 and IrDA demodulator 30, respectively, and the other input of the first, second and third AND gates of the selector 32. The signals are input to the terminals, respectively, and are output as control signals etcon, ASKon, and IrDAon, respectively.

The outputs of the first, second, and third AND gates 36, 38, and 40 of the selector 32 are input to the input terminal of the OR gate 42, and the output of the OR gate 42, which is the output of the selector 32, is It is output as received data Dout via the FIFO buffer 34. Note that, at the same time, only one of the reception enable signals en1, en2, and en3 is in an active state, or
All the reception enable signals en1, en2, en3 become inactive.

Before receiving the data, the infrared receiver 14 first receives the communication mode information transmitted from the infrared transmitter 12 via the infrared module 22.
As shown in the flowchart of FIG.
From the received communication mode information, whether the communication protocol of the data transmitted thereafter is the one of the home remote controller (etcon), the ASK (ASKon), or the IrDA (IrDAon) Is determined.

Here, the communication mode generator 16 transmits communication mode information using a predetermined communication protocol between the infrared transmitter 12 and the infrared receiver 14, and the communication mode discriminator 24 Communication mode generator 1
The communication mode information is received using the same communication protocol as in step No. 6. This communication protocol may be a conventionally known one or a completely original standard, but it is necessary to use a unified communication protocol between the infrared communication devices to which the present invention is applied.

The communication mode information includes, for example, the infrared transmitter 1
1Kbps communication speed between 2 and infrared receiver 14
(Kilobits / second), and if the communication protocol for transmitting data is that of a home remote controller, for example, '11
.. 'Are transmitted serially. In the case of ASK, for example, '11110000
.. Are transmitted, and in the case of IrDA, for example, '1111110000011110000'
0 ... 'is transmitted.

If the communication mode discriminator 24 determines that the data communication protocol is that of the home remote controller, the reception enable signal en1, that is, the control signal etcon is activated, and similarly, ASK is performed.
Is determined, the reception enable signal en2, that is, the control signal ASKon is activated,
If it is determined that the received signal is IrDA, the reception enable signal e
n3, that is, the control signal IrDAon is activated.

The infrared receiver 14 of this embodiment has a data communication protocol of a home remote controller, ASK
If the infrared transmitter 12 performs infrared communication using a communication protocol other than these, or is not an infrared transmitter to which the present invention is applied, As shown in (1), the communication mode discriminator 24 waits for reception of communication mode information corresponding to the above three types of communication protocols (N).

On the other hand, in a notebook personal computer or the like equipped with the infrared receiver 14, the control signals etcon, ASK
When at least one of the on state and the IrDAon state becomes active (Y), an application for data transfer is automatically started, and the control signals etcon, A in the active state are activated.
After various settings corresponding to communication protocols corresponding to SKon and IrDAon are automatically performed, data transmitted from the infrared transmitter 12 is received using the communication protocol specified by the communication mode information.

In the case of this embodiment, data is transmitted from the infrared transmitter 12 using IrDA as a communication protocol. The communication mode determiner 24 determines that the communication protocol of the data is IrDA, and sets only the reception enable signal en3, that is, the control signal IrDAon to a high level in which the active state is active. The other control signals en1 and en2, that is, the control signal e
Both tcon and ASKon are held at a low level which is an inactive state.

Thus, the IrDA demodulator 30
And only the third AND gate 40 of the selector 32 is enabled, and the home remote control demodulator 2
6. The ASK demodulator 28 and the first and second AND gates 36 and 38 of the selector 32 are held in a disabled state (standby state). The IrDA demodulator 30 serially receives data of a predetermined format at a predetermined communication speed according to the IrDA communication protocol, and converts the data into parallel data.

In this embodiment, as shown in FIG. 1, the reception enable signals en1, en2, en3 are also supplied to the first, second and third AND gates 36, 38, 40 of the selector 32, respectively. Since it is input, the home remote control demodulator 26 and the ASK demodulator 2
8 and the IrDA modulator 30 need not be input, but this allows the operation of extraneous circuits to be kept in a stopped state, which has the effect of reducing power consumption.

Subsequently, the parallel data output from the IrDA demodulator 30 is supplied to the F
Input to the FIFO buffer 34, the FIFO buffer 34
After the output timing is adjusted by the
ut is output. The received data Dout is sequentially taken in by the above-described data transfer application, and is recorded on a recording medium such as a hard disk, for example, and then can be used as needed.

As described above, the infrared communication device 10 of the present invention
According to the method, before starting transmission / reception of data, communication mode information is transmitted / received in advance, a communication protocol of data is determined, and based on this, an application for data transfer is automatically started, In addition, in order to automatically perform various communication settings according to the determined communication protocol,
The user is freed from the trouble of setting the communication mode, and the occurrence of a communication error due to an incorrect setting of the communication mode can be completely eliminated.

The present invention can be used without wasting hardware and software assets conforming to the existing communication protocol. For example, the present invention can be used with infrared transmitters such as portable information terminals, digital cameras, and home remote controllers. ,
For example, communication between an infrared receiver such as a notebook personal computer and home appliances such as a television, a video, and an air conditioner, and bidirectional communication between infrared transceivers such as a notebook personal computer are related to a difference in communication protocol. It can be realized without.

As described above, according to the present invention, infrared communication can be performed between any infrared transmitter and infrared receiver that perform infrared communication of data using different communication protocols. Infrared communication can be performed between different infrared transmitters and infrared receivers, for example, between home appliances such as televisions, videos, and air conditioners and their respective home remote controllers. It is also possible to integrate the household remote control into one.

The infrared communication device according to the present invention can be applied to a device having only one of an infrared transmitter and an infrared receiver, or both the infrared transmitter and the infrared receiver can be individually provided. The present invention is also applicable to those provided. In addition, the present invention is applicable to a device having the functions of an infrared transmitter and an infrared receiver integrated into one, and it is possible to apply the present invention to a plurality of infrared communication devices regardless of the difference in data communication protocol. , Bidirectional transmission and reception are possible.

Also, in the above embodiment, a specific example of a data communication protocol and an example of a communication protocol for transmitting / receiving communication mode information have been described. However, the present invention is not limited to this embodiment. Not something. As described above, the infrared communication device of the present invention has been described in detail. However, the present invention is not limited to the above embodiment, and various improvements and changes may be made without departing from the gist of the present invention. is there.

[0032]

As described in detail above, the infrared communication device of the present invention requires the data transmission before transmitting data from the infrared transmitter.
After transmitting the communication mode information that specifies the communication protocol for transmitting this data, the data is transmitted using the communication protocol specified by the communication mode information, and before the data is received by the infrared receiver. After receiving and discriminating the communication mode information transmitted from the infrared transmitter, data transmitted from the infrared transmitter according to the communication protocol specified by the communication mode information is received. ADVANTAGE OF THE INVENTION According to the infrared communication apparatus of this invention, when performing infrared communication, the user can start the application for data transfer, and can be settled from the trouble of setting a communication mode, and a communication error due to an incorrect communication mode setting. Can be completely eliminated. Further, according to the present invention, infrared communication can be performed between an arbitrary infrared transmitter and an arbitrary infrared receiver regardless of a difference in a communication protocol.

[Brief description of the drawings]

FIG. 1 is a conceptual diagram of the configuration of an embodiment of an infrared communication device according to the present invention.

FIG. 2 is a flowchart illustrating an operation of the infrared communication device according to the embodiment of the present invention.

FIG. 3 is a conceptual diagram of an example of a device using infrared communication.

FIG. 4 is a flowchart illustrating an example of the operation of a conventional infrared communication device.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 Infrared communication device 12 Infrared transmitter 14 Infrared receiver 16 Communication mode generator 18 IrDA modulator 20,22 Infrared module 24 Communication mode discriminator 26 Home remote control demodulator 28 ASK demodulator 30 IrDA demodulator 32 Selector 34 FIFO buffer 36 , 38, 40 AND gate 42 OR gate 44 Portable information terminal 46 Notebook personal computer

Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat II (reference) // G06F 3/00 F term (reference) 5K002 AA01 AA03 DA09 FA03 5K033 AA09 CB01 CB14 CC04 DA20 DB13 DB14 DB16 EA06 EC01 5K034 AA06 AA20 EE01 EE03 HH04 HH06 HH13 HH14 HH63 KK21 LL01 MM39 NN04 RR00

Claims (1)

[Claims] 1. An infrared transmitter for transmitting, before transmitting data, communication mode information designating a communication protocol for transmitting the data, and then transmitting the data using a communication protocol specified by the communication mode information. And before receiving the data, after receiving and determining the communication mode information transmitted from the infrared transmitter, transmitted from the infrared transmitter using the communication protocol specified by the communication mode information An infrared communication device comprising at least one of an infrared receiver for receiving data.