JP2004505339A - Image display system and remote control device for image display system - Google Patents

Abstract

The image display system has a display device and a remote control unit. The remote control unit is provided with a light emitting pointer device and a detector for detecting light emitted from the display device. The pointer device and the detector have corresponding lines of sight. The remote control unit further includes circuitry for switching on and off the pointer device in response to the output signal of the detector indicating that it is receiving light emitted from the display device. The pointer device is switched on when the output signal indicates light reception, and is switched off when the output signal does not indicate light reception.

Description

[0001]
The present invention is an image display system having a display device and a remote control unit, wherein the remote control unit has a light emitting pointer device, and a detector for detecting light generated from the display device, The present invention relates to an image display system in which the detector has a line of sight corresponding to each other and a remote control unit for the image display system.
[0002]
U.S. Pat. No. 5,793,361 discloses an image display system of the type described above, in which a remote control unit or pointing interface includes a thin beam light source, for example a laser pointer, as a light emitting pointer device. Can be. The use of a pointer device in the remote control unit increases the power consumption of the remote control unit, thereby significantly reducing the battery life of the remote control unit. In addition, the use of a laser pointer poses a safety problem because the laser pointer may be dazzling to humans.
[0003]
U.S. Pat. No. 4,687,918 discloses a laser pointer having a remote pointing capability to be used in a system for pointing an image or the like projected on a viewing screen. This known laser pointer works only when the laser pointer is pointed at the viewing screen. For this purpose, a light transmission device is mounted around the viewing screen and a detector is provided at the tip of the laser pointer.
[0004]
It is an object of the present invention to provide an improved image display system having a remote control unit of the kind described above.
[0005]
In the image display system of the present invention, a switching circuit is provided for switching on and off the light emitting pointer device in response to an output signal of a detector representing the reception of light generated from the display device, and the output signal represents the reception of light. In this case, the light emitting pointer device is switched on, and when the output signal does not indicate light reception, the light emitting pointer device is switched off.
[0006]
According to the present invention, an advantageous image display system is obtained in which light emitted from the display device is used to switch on and off the light emitting pointer device of the remote control unit.
[0007]
The present invention further provides a remote control unit for use in the above-described image display system, the remote control unit having a light emitting pointer device and a detector for detecting light emitted from the display device, wherein A switching circuit for switching on and off the light-emitting pointer device in response to an output signal of a detector representing the reception of light emanating from the display device. Remote control, wherein when the output signal indicates light reception, the light emitting pointer device is switched on, and when the output signal does not indicate light reception, the light emitting pointer device is switched off. Provide a unit.
[0008]
BRIEF DESCRIPTION OF THE DRAWINGS The invention is explained in more detail below with reference to the drawings, which show an embodiment of the invention diagrammatically.
FIG. 1 illustrates a television device 1 as an example of an image display system according to the present invention. Other examples of image display systems are computer systems, multi-screen video walls, and the like. The television device 1 has a display device 2 that can be formed, for example, as a CRT. The television device 1 further includes a remote control unit 3 for improving the degree of freedom given to the user in controlling the television device 1. This remote control unit 3 has a light emitting pointer device 4 diagrammatically shown in the block diagram of the remote control unit of FIG. In the example shown, the pointer device 4 is formed as a laser pointer that produces a thin light beam 5 indicated by the broken line in FIG. The user of the television system 1 can point the remote control unit 3 at an icon present on a suitable graphic user interface on the display device 2 and then click on the selected icon to activate the corresponding function. Activation of the selected icon may be detected by circuitry of the television system 1 (not shown because it is not relevant to the invention) coupled to a detector 6 that detects the light beam emanating from the display device 2. The light beam emanating from the display device 2 is also shown in FIG. Since the display device 2 is scanned by the cathode ray, each pixel of the display device 2 emits light during scanning. The circuit of the television system 1 is arranged so that the time between the start of scanning and the moment when the detector 6 detects the light beam from the display device 2, ie the light beam from the pixel to which the remote control unit 3 is directed, By calculating the time, the remote control unit 3 calculates the xy coordinates of the pointed position. Since this calculation circuit does not form part of the present invention, further details of this control function of the remote control unit 3 will not be described.
[0009]
However, it is clear that the detector 6 produces a detection signal output regularly as long as the remote control unit 3 is pointed at the display device 2. This means that the detector 6 generates a detection signal at a repetition rate of the frame frequency of the display device 2, for example, 20 ms in the PAL system and 16.7 ms in the NTSC system. The output signal of the detector 6 is supplied to a circuit 7 for switching the pointer device 4 on and off. In the illustrated example, the circuit 7 includes a circuit 8 that receives both output signals of the detector 6 and a delay circuit 9. The circuit 8 switches on the pointer device, while the delay circuit 9 supplies a switch-off signal to the circuit 8 so that the pointer device 4 is switched off. The delay circuit 9 is a timer that supplies a switch-off signal to the circuit 8 after a delay of, for example, 62 milliseconds, when the output signal from the detector 6 is no longer received. As long as the detector 6 generates a detection output signal for each complete scan of the display device 2, the timer is reset, so that the delay circuit 9 does not generate a switch-off signal.
[0010]
In this way, the pointer device 4 is switched off 62 ms after the remote control unit 3 has been deviated from the display device 2 or when a person has entered between the remote control unit 3 and the display device 2. You. It is therefore ensured that the light beam of the pointer device 4 does not hit the eyes of humans or animals. Furthermore, the life of the battery of the remote control unit 3 is significantly prolonged.
[0011]
The switch-on operation of the pointer device 4 is extremely fast. The reason is that the scanning repetition time of the display device 2 in the case of the television system is 20 milliseconds in the case of the PAL system and 16.7 milliseconds in the case of the NTSC system. Switching off the pointer device with a delay of about 62 milliseconds allows for the error that the remote control unit 3 loses up to three times the light emitted from the pixel to which it is directed, and the response time for switching off the pointer device 4 To be fast enough. If desired, the delay time may be adjusted in any suitable manner.
[0012]
The present invention is not limited to the above-described embodiments, but can be variously modified within the scope of the present invention.
[Brief description of the drawings]
FIG. 1 is a schematic perspective view showing an embodiment of an image display system having a remote control unit according to the present invention.
FIG. 2 is a block diagram of the remote control unit of FIG. 1;

Claims (4)

An image display system having a display device and a remote control unit, wherein the remote control unit has a light emitting pointer device and a detector for detecting light generated from the display device, and the light emitting pointer device and the detector are In the image display system having a line of sight corresponding to each other,
A switching circuit for switching on and off the light-emitting pointer device in response to an output signal of a detector representing light reception from the display device, and turning on the light-emitting pointer device when the output signal indicates light reception; An image display system for switching off the light-emitting pointer device when the output signal does not indicate light reception. 2. The image display system according to claim 1, wherein the switching circuit includes a delay circuit that delays switching off a light emitting pointer device when the output signal does not indicate light reception. 3. The image display system according to claim 2, wherein the delay time of said delay circuit is adjustable within a range, preferably within a range of 40 milliseconds to 70 milliseconds. A remote control unit for use in the image display system according to claim 1, wherein the remote control unit has a light emitting pointer device and a detector that detects light generated from the display device. In the remote control unit, wherein the light emitting pointer device and the detector have a line of sight corresponding to each other,
A switching circuit for switching on and off the light-emitting pointer device in response to an output signal of a detector representing light reception from the display device, and turning on the light-emitting pointer device when the output signal indicates light reception; A remote control unit adapted to switch off the light emitting pointer device when the output signal does not indicate light reception.