JP2001244498A - Optical space transmitter - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an optical space transmitter which can simplify its installation and can reduce an installation space. SOLUTION: This optical space transmitter has a remote control PD 1, a remote control ID 2, an IrDA PD 3, an IrDA control receiving ID 4, an LED 5 and a drive circuit 6 which are included in one package. The remote control PD 1 and the LED 5 are provided in parallel with each other via the IrDA PD 3.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

[0001] 1. Field of the Invention [0002] The present invention relates to an optical space transmission apparatus used when performing communication based on the IrDA standard between a plurality of electronic devices.

[0002]

2. Description of the Related Art Generally, a TV (televisio) is used.
n), VTR (video taperecode)
r) In order to wirelessly control an electronic device such as an audio device (for example, to turn on / off a power supply, or to turn up / down a channel), a remote control (remote controller) using infrared rays is used. . On the electronic device side, a remote control light receiving unit for receiving a remote control signal (remote control signal) output from the remote control using the infrared rays is provided, and the remote control and the remote control light receiving unit form a remote control system. Was.

[0003] From this remote controller, a signal obtained by encoding an infrared ray and modulating it at 30 to 60 kHz is transmitted as a remote control signal. Then, the remote control light receiving unit converts the received remote control signal into an electric signal, removes other components through a specific frequency component in the modulated 30-60 kHz, further demodulates the signal, and converts it into a code signal. ,
There is a function of transmitting the data to a microcomputer or the like that controls the operation of the electronic device. The microcomputer executes control for turning on or off the power of the electronic device, control for turning up or down a channel, and the like based on the transmitted code signal.

[0004] In this way, in the remote control system, signals are transmitted and received in a code or format unique to the electronic device by one-way communication from the remote control to the remote control light receiving unit. The remote control is dedicated to each electronic device.

On the other hand, a personal computer (personal computer) and its peripheral devices (for example, keyboard, mouse, joystick, PDA (personal digital))
IrDA (Infra-re) is used as a communication format used when bidirectional wireless communication using infrared rays is performed between the wireless communication device and a wireless communication device (e.g., Talassistant).
d Data Association) control. The IrDA control is based on an infrared communication format standardized by IrDA, an industry standardization group for infrared data communication.

[0006] The features of the communication system employing the IrDA control are that communication can be performed between a plurality of peripheral devices and a personal computer at one time, and the transmission distance is as long as 5 meters. In addition, the transmission speed is higher than that of a remote control system.

In general households, home appliances have been digitized, and communication terminals used for exchanging information have been converted into home appliances and networks.
Applications of two-way communication are also being produced in home appliances. The above-mentioned IrDA control can also be used when performing this two-way communication. As a specific usage example,
Satellite broadcasting and CATV (cable televisio)
When a wireless keyboard is used in combination with a STB (set top box) for n), there is a case where bidirectional communication is performed between the STB and the wireless keyboard using a system employing IrDA control. Further, as another application example, there is a case where two-way communication is performed between the TV and the personal computer when the digitalized TV and the personal computer are combined and used. In this case, as the digitization of TV progresses,
Since the amount of information transmitted wirelessly between the PC and a personal computer increases, and a normal remote control system having a low transmission speed cannot be used, a system employing IrDA control is particularly required.

[0008]

However, since the conventional remote control system is inexpensive for controlling the above-mentioned STB and TV, a remote control system is also used. Therefore, on the STB or TV side, a remote control light receiving unit for receiving a remote control signal, which is a device for receiving an optical signal (a so-called optical space transmission device), and a front end unit of a communication system employing IrDA control are provided. Separately in PWB (printed wiring boar)
d) must be implemented above. As a result, there has been a problem that the installation of the optical space transmission device is complicated and the space required for mounting the optical space transmission device is widened.

The present invention has been devised to solve such a problem. By integrating the remote control light receiving unit and the front end unit, the installation of the optical space transmission device is simplified and the installation space is reduced. It is an object of the present invention to provide an optical space transmission device that can reduce the size of the optical space transmission device.

[0010]

SUMMARY OF THE INVENTION An optical space transmission apparatus according to the present invention comprises a light receiving element for a remote control signal and a reception for a remote control signal for amplifying, filtering and demodulating the remote control signal received by the light receiving element. An integrated circuit, a light receiving element for a control signal based on the IrDA standard, a receiving integrated circuit for a control signal based on the IrDA standard for amplifying, filtering and demodulating a control signal based on the IrDA standard received by the light receiving element; A light emitting element for a control signal based on the standard and a driver circuit for the light emitting element are configured in one mold package, and the light receiving element for the remote control signal and the control signal based on the IrDA standard are provided. Light-emitting element through a light-receiving element for a control signal based on the IrDA standard It is intended to be set.

According to the present invention, the remote control light receiving unit and the front end unit can be mounted simultaneously.

Further, the light receiving element for the remote control signal and the light receiving element for the control signal based on the IrDA standard are shared, and the light receiving element and the receiving integrated circuit for the remote control signal and the control signal based on the IrDA standard are used. May be connected via a single amplifier unit, in which case the shape of the mold package can be simplified.

Further, the light receiving element, the amplifier section, the remote control signal receiving integrated circuit, and the control signal receiving integrated circuit based on the IrDA standard may be formed in one chip. Can reduce the number of components constituting the optical space transmission apparatus.

The operation of one of the integrated circuit for remote control signals and the integrated circuit for control signals based on the IrDA standard based on a control signal input from outside the optical space transmission apparatus. May be provided with means for stopping
Receiving integrated circuit for remote control signal and IrDA
It is possible to prevent the receiving integrated circuits for control signals based on the standard from interfering with each other and becoming sources of noise.

When an output is output from the remote control signal receiving integrated circuit, the operation of the control signal receiving integrated circuit based on the IrDA standard is stopped,
In addition, when an output is output from the reception integrated circuit for the control signal based on the IrDA standard, a means for stopping the operation of the reception integrated circuit for the remote control signal may be provided. A receiver integrated circuit for remote control signals and I
It is possible to prevent the receiving integrated circuits for control signals based on the rDA standard from interfering with each other and becoming noise sources.

[0016]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, a first preferred embodiment of the free-space optical transmission apparatus according to the present invention will be described with reference to the drawings.

FIG. 1 is a block diagram showing Embodiment 1 of the free-space optical transmission device of the present invention, and FIG. 2 is a front view showing one embodiment of the free-space optical transmission device of the present invention. Note that FIG.
In FIG. 7, the lens portion of the mold package is shown using a broken line in order to more clearly show the inside of the optical space transmission device.

In the first embodiment, the optical space transmission apparatus is a remote control PD which is a light receiving element for a remote control signal.
(Photo diode) 1, a remote control reception ID 2 which is a reception integrated circuit for remote control signals, and an IrDA PD which is a light receiving element for control signals based on the IrDA standard.
3, a reception ID 4 for IrDA control which is a reception integrated circuit for a control signal based on the IrDA standard,
An LED (light emitting element) for a control signal based on the standard
GMT (light emitting diode) 5 and LED
5 is provided.

Further, the remote control reception ID 2 is used to remove (filter) an AMP (amplifier) 21 for amplifying the remote control signal received by the remote control PD 1 and a component other than a predetermined frequency component (f0 = 30 to 60 kHz). BPF (Bandpass filter)
er) 22 and a demodulation circuit 23, etc.
The reception ID 4 for IrDA control is a PD for IrDA.
3, an AMP 41 for amplifying the control signal based on the IrDA standard received at a predetermined frequency component (f0 = 1.5M
Hz) It is composed of a BPF 42 for passing through the beam, a demodulation circuit 43, a buffer circuit 44, and the like.

In the optical space transmission apparatus according to the first embodiment, the remote control PD1 and the remote control reception ID2, which are the components of the remote control light receiving unit, and the IrDA PD3, IrDA which are the components for controlling the IrDA.
The control reception ID 4, the LED 5, and the driver circuit 6 are configured in one mold package 7,
In addition, it is mounted on one substrate or one frame to form an integrated structure. That is, this optical space transmission device has a function as a remote control light receiving unit and an IrDA
A front-end unit is provided that has both functions as a signal transmitting / receiving unit of a communication system employing a control.

The signal transmitting / receiving surface S of the mold package 7 includes a remote control receiving lens unit 17 for guiding a remote control signal to the remote control PD 1 and an IrDA receiving lens for guiding a control signal based on the IrDA standard to the IrDA PD 3. A section 27 and a transmission lens section 37 for IrDA for extracting a control signal based on the IrDA standard to the outside of the optical space transmission apparatus are formed.

Further, the remote control PD1 and the LED5 are arranged such that the light output from the LED5 does not affect the remote control PD1 and that the IrDA PD3 and the LED5 used for bidirectional communication are arranged in pairs. Is IrD
They are juxtaposed via the PD 3 for A. For example, in the optical space transmission device shown in FIG. 2, the remote control PD1 is disposed on the left side of the IrDA PD 3 and the LED 5 is disposed on the right side of the IrDA PD 3 when viewed from the direction facing the signal transmission / reception surface S.

The molded package 7 has a remote control output terminal (remote control output) 71 connected to the remote control reception ID 2 and a reception data output terminal (R) connected to the buffer circuit 44 of the IrDA control reception ID 4.
XD) 72, transmission data input terminal (SD) 73, reset terminal (RESET) 74, and LED anode terminal (LED anode) 75 connected to the anode of LED 5
And a transmission data input terminal (TXIN) 76 connected to the driver circuit and receiving transmission data.

According to the optical space transmission apparatus of the present embodiment,
In addition to performing one-way communication using a special-purpose device such as a remote controller, a general-purpose terminal and a TV or VT can be used within a range that does not deviate from an infrared communication format specified by IrDA.
It becomes possible to use IrDA control such as performing bidirectional communication with electronic devices such as R and audio.
Thereby, for example, two-way communication can be performed between a general-purpose PDA and an electronic device, and a wireless keyboard, a wireless mouse, and a wireless joystick can be connected to the electronic device. Simultaneous connection with multiple wireless devices becomes possible. Also, the transmission speed is 1k in the remote control system.
The transmission speed is increased to 75 kbps compared to the transmission speed of bps, and the amount of information that can be transmitted within a predetermined time increases.

Further, according to the optical space transmission apparatus of the first embodiment, since the remote control light receiving unit and the front end are integrated, the remote control light receiving unit and the front end can be mounted simultaneously. Therefore, the installation of the optical space transmission device can be simplified, and the space for mounting the optical space transmission device can be reduced.

Next, Embodiment 2 of the free-space optical transmission apparatus of the present invention will be described with reference to the drawings.

FIG. 3 is a block diagram showing Embodiment 2 of the free-space optical transmission apparatus according to the present invention.

The difference between the optical space transmission apparatus of the second embodiment and the space optical transmission apparatus of the first embodiment is as follows.
The PD 1 for remote control and the PD 3 for IrDA shown in FIG. 1 are realized by one PD (common PD) 8 in common. Accordingly, the receiving lens unit 17 for the remote controller and the receiving lens unit 27 for IrDA shown in FIG. 1 can be realized by one receiving lens unit 9 by sharing the same. Can be simplified.

Further, the PD1 for the remote controller and the PD3 for the IrDA are simply used in common, and one PD is used as the reception ID for the remote controller.
2 and the connection to the IrDA control reception ID 4 only, the current generated in one PD is dispersed to each of the remote control reception ID 2 and the IrDA control reception ID 4, and therefore, compared to the optical space transmission apparatus shown in the first embodiment. Reception sensitivity (S / N ratio) is deteriorated, and sufficient characteristics cannot be obtained. Therefore, in the second embodiment, the common amplifier unit 10 is provided between the common PD 8 and the AMP 21 of the reception ID 2 for remote control and the AMP 41 of the reception ID 4 for IrDA control, and the remote control signal converted into an electric signal by the common PD 8 is provided. By converting the control signal based on the IrDA standard into a current and a voltage and amplifying it to a predetermined value, the PD can be reduced without deteriorating the receiving sensitivity (S / N ratio).

Further, the common PD 8 to the common amplifier 10
The frequency characteristic up to the output is matched to achieve commonality, and the current generated in the common PD 8 is amplified by the common amplifier unit 10 and then divided into the remote control reception ID 2 and the IrDA control reception ID 4, thereby affecting the load. Can be difficult.

Further, by forming the common PD 8, the common amplifier section 10, the remote control reception ID 2 and the IrDA control reception ID 4 on one chip, the number of components constituting the optical space transmission apparatus can be reduced.

Next, Embodiment 3 of the free-space optical transmission apparatus of the present invention will be described with reference to the drawings.

FIG. 4 is a block diagram showing Embodiment 3 of the free-space optical transmission apparatus according to the present invention.

The difference between the optical space transmission apparatus of the third embodiment and the space optical transmission apparatus of the first embodiment is as follows.
A remote control shutdown circuit 11, an IrDA shutdown circuit 12, and an ON / OFF (on / off) control circuit 13 are added.

The remote control shutdown circuit 11 has a function of stopping the operation of the remote control reception ID 2.
The IrDA shutdown circuit 12 has a function of stopping the operation of the IrDA control reception ID4. Then, the ON / OFF control circuit 13 activates the IrDA shutdown circuit 12 when the optical signal transmitted to the optical space transmission device is from the remote control and the remote control reception ID 2 is turned on. On the other hand, the optical signal transmitted to the optical space transmission apparatus is I
This is a control signal based on the rDA standard, and has a function of operating the remote control shutdown circuit 11 when the IrDA control reception ID 4 is turned on. The operation of the ON / OFF control circuit 13 is as follows.
It is controlled based on a control signal input from the outside (based on a control signal input from the control terminal 77).

According to the optical space transmission apparatus of the third embodiment, when the remote control reception ID 2 and the IrDA control reception ID 4 formed in the same mold package operate simultaneously, the remote control reception ID 2 and the IrDA
It is possible to prevent the control reception ID 4 from interfering with each other and becoming a noise source.

The ON / OFF control circuit 13
May be built in the reception ID 2 for remote control and / or the reception ID 4 for IrDA control.
It may be mounted as a separate chip.

As shown by the broken line in FIG. 4, the output of the remote control reception ID 2 and the IrDA control reception I
The output of D4 is fed back to the ON / OFF control circuit 13, and when an output is output from the remote control reception ID 2, the IrDA shutdown circuit 12 is operated by the ON / OFF control circuit 13, and Ir
When an output is output from the DA control reception ID 4, the remote control shutdown circuit 11 may be operated by the ON / OFF control circuit 13. In this case, when the state where there is no output from both the remote control reception ID 2 and the IrDA control reception ID 4 has continued for a certain period of time or more, the operations of both the remote control shutdown circuit 11 and the IrDA shutdown circuit 12 are to be stopped. I do.

As described above, the output of the reception ID 2 for remote control and the output of the reception ID 4 for IrDA control are turned ON / OFF.
By providing feedback to the OFF control circuit 13, the optical space transmission apparatus itself can control the shutdown circuit without external control.

[0040]

According to the present invention, a light receiving element for a remote control signal, a receiving integrated circuit for a remote control signal for amplifying, filtering and demodulating a remote control signal received by the light receiving element,
a light receiving element for a control signal based on the rDA standard, and amplification of a control signal based on the IrDA standard received by the light receiving element;
A receiving integrated circuit for a control signal based on the IrDA standard for performing filtering and demodulation, a light emitting element for a control signal based on the IrDA standard, and a driver circuit for the light emitting element are configured in one mold package. ,
And a light receiving element for the remote control signal and I
IrDA for control signal based on rDA standard
Since they are arranged side by side via the light receiving elements for control signals based on the standard, the remote control light receiving unit and the front end unit have an integrated structure, which can simplify the installation of the optical space transmission device, In addition, the space for installing the optical space transmission device can be reduced.

Further, the light receiving element for the remote control signal and the light receiving element for the control signal based on the IrDA standard are shared, and the light receiving element and the receiving integrated circuit for the remote control signal and the control signal based on the IrDA standard are used. May be connected via a single amplifier unit, in which case the shape of the mold package can be simplified.

Further, the light receiving element, the amplifier, the receiving integrated circuit for the remote control signal, and the receiving integrated circuit for the control signal based on the IrDA standard may be formed in one chip. Can reduce the number of components constituting the optical space transmission apparatus.

The operation of one of the integrated circuit for remote control signals and the integrated circuit for control signals based on the IrDA standard based on a control signal input from outside the optical space transmission apparatus. May be provided with means for stopping
Receiving integrated circuit for remote control signal and IrDA
It is possible to prevent the receiving integrated circuits for control signals based on the standard from interfering with each other and becoming sources of noise.

When an output is output from the remote control signal receiving integrated circuit, the operation of the control signal receiving integrated circuit based on the IrDA standard is stopped,
In addition, when an output is output from the reception integrated circuit for the control signal based on the IrDA standard, a means for stopping the operation of the reception integrated circuit for the remote control signal may be provided. A receiver integrated circuit for remote control signals and I
It is possible to prevent the receiving integrated circuits for control signals based on the rDA standard from interfering with each other and becoming noise sources.

[Brief description of the drawings]

FIG. 1 is a block diagram showing Embodiment 1 of an optical space transmission apparatus according to the present invention.

FIG. 2 is a front view showing one embodiment of the free-space optical transmission device of the present invention.

FIG. 3 is a block diagram showing Embodiment 2 of the free-space optical transmission device of the present invention.

FIG. 4 is a block diagram showing Embodiment 3 of the free-space optical transmission device of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Remote control PD 2 Remote control reception ID 21 AMP 22 BPF 23 Demodulation circuit 3 IrDA PD 4 IrDA control reception ID 41 AMP 42 BPF 43 Demodulation circuit 44 Buffer circuit 5 LED 6 Driver circuit 7, 7 'Mold package 17 Remote control Receiving lens unit 27 IrDA receiving lens unit 37 IrDA transmitting lens unit 71 Remote control output terminal 72 Receive data output terminal 73 Transmission data input terminal 74 Reset terminal 75 LED anode terminal 76 Transmission data input terminal 77 Control terminal 8 Common PD 9 Reception Lens unit 10 Common amplifier unit 11 Remote control shutdown circuit 12 IrDA shutdown circuit 13 ON / OFF control circuit

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) H04B 10/28 H04B 9/00 R 10/02 W 10/26 Y 10/14 10/04 10/06 H04Q 9/00 311 341 371

Claims (5)

[Claims] 1. A light receiving element for a remote control signal, a receiving integrated circuit for amplifying, filtering, and demodulating a remote control signal received by the light receiving element, and a light receiving element for a control signal based on the IrDA standard. Element and the I received by this light receiving element
A receiving integrated circuit for control signals based on the IrDA standard for amplifying, filtering, and demodulating a control signal based on the rDA standards, a light emitting element for the control signal based on the IrDA standard, and a driver circuit for the light emitting element are: And a light receiving element for a remote control signal and a light emitting element for a control signal based on the IrDA standard are arranged in parallel via a light receiving element for a control signal based on the IrDA standard. An optical space transmission device, comprising: 2. A light receiving element for a remote control signal and a light receiving element for a control signal based on the IrDA standard are shared, and a light receiving element and a receiving integrated circuit for a remote control signal and a control signal based on the IrDA standard are provided. The optical free-space transmission device according to claim 1, wherein the receiving integrated circuit is connected via one amplifier unit. 3. The optical device according to claim 2, wherein the light receiving element, the amplifier unit, a receiving integrated circuit for a remote control signal, and a receiving integrated circuit for a control signal based on the IrDA standard are formed in one chip. Spatial transmission equipment. 4. The operation of one of a receiving integrated circuit for a remote control signal and a receiving integrated circuit for a control signal based on the IrDA standard based on a control signal input from outside the optical space transmission apparatus. 2. The optical space transmission apparatus according to claim 1, further comprising means for stopping the transmission. 5. When an output is output from the remote control signal reception integrated circuit, the operation of the control signal reception integrated circuit based on the IrDA standard is stopped, and the control signal reception integrated circuit based on the IrDA standard is stopped. 2. The optical space transmission apparatus according to claim 1, further comprising means for stopping the operation of the remote control signal receiving integrated circuit when an output is output from the receiving integrated circuit.