JP2000131668A - Light source adjusting device for liquid crystal projector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce power consumption of a liquid crystal projector and to extend a lifetime of a lamp for light source by controlling electric power supplied to a light source controlling a power controlling means by a control signal from a control signal generating means. SOLUTION: Ambient light quantity detecting means 1 detects ambient light quantity. When this detected ambient brightness is dark, a power control means 2 controls voltage and current outputted from a power source by a control signal outputted from the ambient light quantity detecting means 1. Consequently, small power is supplied to a lamp 4 for light source from the power control means 2, light quantity of the lamp 4 for light source is decreased, brightness of a picture displayed on a screen 7 through a picture display means 5 and an enlarging means 6 is made dark in accordance with ambient brightness when the surrounding of a liquid crystal projector is dark. Therefore, power consumed in the lamp 4 for light source can be made small, and a lifetime of the lamp 4 for light source can be extended.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a light source light control device for a liquid crystal projector, and more particularly to a liquid crystal projector suitable for reducing power consumption and extending the life of a light source lamp by dimming the light source lamp. The present invention relates to a light source light control device.

[0002]

2. Description of the Related Art In a conventional liquid crystal projector, the brightness of a light source lamp is not changed.
Constant power was always supplied to the lamp. The means for varying the brightness of the light emitted from the projector varies the amplitude of the video signal in the video signal circuit, which is a small power consumption section, while keeping the power consumption of the light source lamp, which is a large power consumption section, constant. It was done by doing. Therefore, the power consumption of the liquid crystal projector is almost constant irrespective of the brightness, and there is a problem that the power consumption is always large.

[0003]

Conventionally, as described above, there has been a problem that a liquid crystal projector consumes a large amount of power irrespective of brightness.

SUMMARY OF THE INVENTION An object of the present invention is to solve the above-mentioned drawbacks, reduce the power consumption of a liquid crystal projector by dimming a lamp for a light source, and further extend the life of the lamp for a light source. To provide a light source light control device.

[0005]

In order to achieve the above object, according to the present invention, output power supplied from a power supply for a light source lamp to a light source lamp is controlled. In order to achieve the object of the present invention, a light source dimming device for a liquid crystal projector according to the present invention includes an image display unit for displaying image information, a light source for illuminating the image display unit, and a power supply for the light source. And a power control unit for controlling power from the power source to supply power to the light source, and a control signal generation unit for controlling the power, and The control signal controls the power control means to control the power supplied to the light source.

In this light source light control device for a liquid crystal projector, the light source is a lamp. In the light source light control device for the liquid crystal projector, the control signal generating means is an ambient light amount detecting means for detecting an ambient light amount. In the light source light control device of the liquid crystal projector, the power supplied to the light source is reduced when the amount of ambient light is small, and the power supplied to the light source is reduced when the amount of ambient light is large, according to a control signal output from the ambient light amount detection unit. The power control means is controlled to increase the power. In this light source light control device for a liquid crystal projector, the control signal generating means is an operation signal generating means based on a signal generated by a viewer. In this light source light control device for a liquid crystal projector, the operation signal generating means is a remote control light receiving unit for receiving a signal from a remote control. In the light source light control device of the liquid crystal projector, the control signal generating means is a manual power setting means for generating a plurality of control signals by manual operation.
In this light source light control device for a liquid crystal projector,
The control signal generating means is a control circuit which includes software and generates a control signal according to the contents of the software. In this light source light control device for a liquid crystal projector, the control circuit is a microcomputer.

In order to achieve the object of the present invention, a light source dimming device for a liquid crystal projector according to the present invention comprises: an image display means for displaying image information; a light source for illuminating the image display means; A power supply for supplying power;
Power control means for controlling the power from the power supply, a drive circuit for converting the output power of the power control means into pulses and supplying the pulses to the light source, and supplying a control signal to the power control means to output power Control signal generating means for controlling the In this light source light control device for a liquid crystal projector, the control signal generating means receives an ambient light amount detecting means for detecting ambient brightness and a detection signal from the ambient light amount detecting means, and generates a control signal at its output. And a microcomputer to perform. Further, in the light source dimmer of the liquid crystal projector, the control signal generating means includes a receiving unit that receives an operation signal from a viewer, a microcomputer that receives an operation signal from the receiving unit and generates a control signal at an output thereof. Is provided. Further, in the light source dimming device for a liquid crystal projector, the driving circuit includes a switching circuit that generates a switching signal, and a transistor that is turned on and off by a switching signal output from the switching circuit. A switching circuit for generating a pulse from an output, a transformer provided at an output end of the switching circuit, a starting circuit, and the starting circuit connected to one end of a primary winding of the transformer, and a turns ratio of the transformer; Means for generating a high-voltage pulse corresponding to In this light source light control device for a liquid crystal projector, the light source is a lamp. In the light source light control device for the liquid crystal projector, the control signal generating means is a microcomputer. Further, in the light source dimmer of the liquid crystal projector, the output current and the output voltage of the drive circuit are supplied to the microcomputer.

In order to achieve the object of the present invention, a light source dimming device for a liquid crystal projector according to the present invention comprises: an image display means for displaying image information; an enlarging projection means for enlarging and projecting the image information; In a liquid crystal projector including a light source lamp for illuminating the image display means, a driving power supply for the light source lamp, and a control signal generating means for generating a power control signal for controlling the amount of power supplied to the driving power supply, Power control means for controlling output power by a power control signal from the control signal generation means, the output power supplied from the drive power supply to the light source lamp, the power control signal is made variable by the power control signal of the light source lamp Control dimming and power consumption. In this light source light control device for a liquid crystal projector, the control signal generating means is an ambient light amount detecting means for detecting an ambient light amount. Further, in this light source light control device for a liquid crystal projector, the control signal generating means is a manual mechanical switch for switching the output power of the power control means. In the light source light control device for the liquid crystal projector, the control signal generating means is a switching circuit of a transistor for switching output power of the power control means. Further, in the light source light control device for the liquid crystal projector, the control signal generating means is a microcomputer provided with software for controlling output power of the power control means.

[0009]

Embodiments of the present invention will be described below with reference to the drawings by using some embodiments.
FIG. 1 is a block diagram showing one embodiment of a light source light control device for a liquid crystal projector according to the present invention. In the figure, reference numeral 1 denotes an ambient light amount detecting means for detecting the amount of light around the liquid crystal projector, 2 denotes a power control means for controlling electric power of a power supply from a plug (not shown), 3 denotes a lamp driving circuit,
Is a light source lamp, 5 is an image display means for obtaining image information, for example, a liquid crystal display element, 6 is a lens for enlarging and projecting image information, and 7 is a screen. Ambient light detection means 1
Is installed, for example, on the front of the liquid crystal projector main body, and detects the amount of ambient light. When the detected surrounding brightness is low, the power control unit 2 controls the voltage and the current output from the power supply 2 according to the control signal output from the ambient light amount detection unit 1. As a result, small power is output to the output terminal of the power control means 2. Therefore, a small amount of power is supplied from the power control means 2 to the light source lamp 4, the light amount of the light source lamp 4 is reduced, and the brightness of the image displayed on the screen 7 through the image display means 5 and the magnifying means 6 is a If the area around the projector is dark, it will darken accordingly. Therefore, the power consumed by the light source lamp 4 can be reduced, and the life of the light source lamp 4 can be extended. Conversely, if the brightness around the liquid crystal projector is bright, the surrounding light amount detecting means 1
The power control means 2 is controlled by a control signal output from the power supply 2, and the power control means 2 suppresses a decrease in output power of the power supply 2 and supplies the power to the light source lamp 4. Therefore, the light source lamp 4
Power consumption increases, but the brightness of the liquid crystal projector can be increased.

In the above embodiment, the ambient light amount detecting means 1
Although the installation position has been described as the front surface of the liquid crystal projector main body, it is not always necessary to install it on the front surface, and it can be realized even if it is installed at an arbitrary position. The output from the ambient light amount detecting means 1 may be switched stepwise,
It may be a signal that changes according to the amount of light, for example, an analog signal. In the present embodiment, the power control unit 2 may be controlled by a remote controller or manually instead of the ambient light amount detection unit 1.

FIG. 2 is a block diagram showing another embodiment of the light source light control device of the liquid crystal projector according to the present invention. In the figure, a power supply 26 includes a rectifier circuit 21 for rectifying an AC power supply, and an output thereof is supplied to the power control unit 2. The power control means 2 is composed of a transistor 22 and a transistor 23. By supplying a control signal output from the microcomputer 24 to the base of the transistor 23, the current flowing through the transistor 23 changes. The impedance between the collector and the emitter changes. That is, when the voltage of the control signal from the microcomputer 24 is high, the current flowing through the transistor 23 increases and the base current of the transistor 22 decreases, so that the output power decreases. Conversely, when the voltage from the microcomputer 24 decreases, the current flowing through the transistor 23 decreases, so that the base current of the transistor 22 increases, so that the output power increases. The output of the power control means 2 is supplied to a lamp drive circuit 3. The lamp driving circuit 3 includes switching transistors 27, 28, 29, 30, a switching signal generating circuit 31, a transformer 32 having a primary winding 32a and a secondary winding 32b, and a starting circuit 33.
The switching signals output from the switching signal generating circuit 31 are supplied to the bases of the transistors 27 to 30, respectively. The transistors 27 and 30 are turned on and off simultaneously, and the transistors 28 and 29 are turned on and off simultaneously. Then, the set of transistors 27 and 30 and the set of transistors 28 and 29 are turned on and off alternately, and a rectangular wave is output from the output, and is supplied to the primary winding 32 a of the transformer 32. Primary winding 32 of transformer 32
Although the ratio of the number of turns between a and the secondary winding 32b is arbitrary, for example, the secondary winding 32b may be configured in a one-to-one relationship. Assuming that the winding ratio of the primary winding 32a and the secondary winding 32b of the transformer 32 is 1: 1, when a voltage of 100 V is supplied to the primary winding 32a,
A switching voltage of 100 V is output to the secondary winding 32b and supplied to the light source lamp 4 through the resistor 34, so that the lamp 4 is turned on.

A pulse is supplied from the starting circuit 35 to the primary winding 32 for a certain time at the time of starting, for example, for about 10 seconds from the time of starting.
a is supplied between the terminals N1 and N2. If the ratio between the number of turns of the primary winding between the terminals N1 and N2 and the number of turns of the secondary winding 32b is large, for example, when the ratio is 1: 200, the terminal N1
When a rectangle having a voltage of 100 V is supplied between the power supply and N2, a voltage of 20 KV is taken out across the secondary winding 32B and supplied to the light source lamp 4. Generally, in the case of an ultra-high pressure mercury lamp, a metal halide lamp, a xenon lamp, or the like, a high voltage of about 20 KV is applied to the lamp 4 for about 10 seconds at the time of starting, and then a pulse voltage of about 100 V is supplied to turn on the lamp 4. ing. Therefore, also in the lamp driving circuit 3, the pulse voltage from the starting circuit 35 is first boosted by the transformer 32 and then supplied to the lamp 4. Thereafter, the transistors 27 to 30 are driven by the output of the switching signal generating circuit 31 to obtain a rectangular wave, and the rectangular wave is supplied to the lamp 4 via the transformer 32.

The current flowing through the secondary winding 32b and the voltage across the secondary winding 32b obtained from both ends of the resistor 34 connected to the secondary winding 32b of the transformer 32 are supplied to the microcomputer 24, The values of the current and voltage output to the secondary winding 32b are taken into the microcomputer 24. Further, a signal corresponding to the ambient light amount from the ambient light amount detecting means 1 or an operation signal from the remote controller 37 is taken into the microcomputer through the remote controller light receiving section 38. When the ambient light amount is small, that is, when the surroundings are dark, the microcomputer 24 reduces the current flowing through the transistor 23 by the control signal output from the microcomputer 37 based on the signal corresponding to the ambient light amount output from the ambient light amount detecting means 1. As a result, the impedance between the collector and the emitter of the transistor 22 increases, and the power supplied to the lamp driving circuit 3 decreases. As a result, the power supplied to the lamp 4 decreases, and the light emitted from the lamp 4 decreases. Therefore, the power consumed by the lamp 4 is reduced, and the life of the lamp 4 is prolonged.

When the ambient light quantity is large, that is, when the surroundings are bright, a control signal is output from the microcomputer 24 by the signal from the ambient light quantity detecting means 1 so that the current between the collector and the emitter of the transistor 23 increases. You. As a result, the impedance between the collector and the emitter of the transistor 22 decreases, the power supplied to the lamp driving circuit 3 increases, and the power supplied to the lamp 4 increases. Therefore, the light emitted from the lamp 4 is increased. Similarly, the power applied to the lamp 4 can be made variable by an operation signal from the remote control light receiving unit 38.

FIG. 3 is a block diagram showing still another embodiment of the light source light control device of the liquid crystal projector according to the present invention. In the figure, reference numeral 39 denotes a manual power setting means such as a mechanical switch, and other blocks are the same as those in FIG. The manual power setting means 29 is capable of changing the output power of the power control means 2 in a plurality of steps. Using this means 29, the viewer can arbitrarily change the brightness of the screen 7. For example, when the viewer wants to lower the brightness of the liquid crystal projector according to the video content being viewed, the power control means 2 is controlled by the manual power setting means 39 to reduce the output power supplied to the lamp 4. I can do it.
Conversely, if you want to increase the brightness of the LCD projector,
By switching the switch of the manual power setting means 39, the output power supplied from the power control means 2 to the lamp 4 can be increased. As described above, the brightness of the image projected on the screen 7 can be switched in a plurality of steps by the manual power setting unit 39. In this embodiment, the manual power setting means 39 can use a mechanical switch, a switching circuit of a transistor, or other switching means. Further, the manual power setting means 39 can be realized not only by two-stage switching but also by arbitrary plural-stage switching.

FIG. 4 is a block diagram showing still another embodiment of the light source light control device of the liquid crystal projector according to the present invention.
In the figure, reference numeral 41 denotes a control circuit such as a microcomputer. Other blocks are the same as those in FIG. The control circuit 41 controls the power control means 2 by software control, and controls the power supplied to the lamp 4 to change the brightness of the image projected on the screen 7. As the contents of the software, for example, the brightness of the image may be changed depending on the contents of the video. For example, control can be performed such that the brightness of an image is darkened in the case of a horror movie, and brightened in the case of a comedy movie. In the embodiment of the present invention, since the power supplied to the lamp can be controlled, the power consumption can be reduced and the life of the lamp can be extended.

[0017]

According to the present invention, lower power consumption, brightness adjustment by dimming the light source lamp, and a longer life of the light source lamp can be realized as compared with the conventional liquid crystal projector.

[Brief description of the drawings]

FIG. 1 is a block diagram showing one embodiment of a light source light control device of a liquid crystal projector according to the present invention.

FIG. 2 is a block diagram showing another embodiment of the light source light control device of the liquid crystal projector according to the present invention.

FIG. 3 is a block diagram showing still another embodiment of the light source light control device of the liquid crystal projector according to the present invention.

FIG. 4 is a block diagram showing still another embodiment of the light source light control device of the liquid crystal projector according to the present invention.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Ambient light quantity detection means, 2 ... Power control means, 3 ... Lamp drive circuit, 4 ... Light source lamp, 5 ... Image display means, 6 ...
Enlarging means, 7: screen, 24: microcomputer 31, switching circuit, 35: starting circuit, 37: remote control, 38 ...
Remote control light receiving section, 39: manual power setting means, 41: control circuit.

Continuing on the front page (72) Inventor Koji Hirata 292 Yoshida-cho, Totsuka-ku, Yokohama-shi, Kanagawa Prefecture F-term (reference) 2H088 EA12 HA28 MA06 MA20 2H093 NC04 NC05 NC90 NC50 NC53 NC90 ND07 ND39 ND47 NG02

Claims (21)

[Claims] An image display means for displaying image information; a light source for illuminating the image display means; a power supply for supplying power to the light source; Power control means for supplying power to the light source;
A light source for a liquid crystal projector, comprising: a control signal generating means for controlling the power, wherein the power supplied to the light source is controlled by controlling the power control means in accordance with a control signal from the control signal generating means. Light control device. 2. A light source dimmer for a liquid crystal projector according to claim 1, wherein said light source is a lamp. 3. A light source light control device for a liquid crystal projector according to claim 1, wherein said control signal generating means is an ambient light amount detection means for detecting a peripheral light amount. 4. A light source light control device for a liquid crystal projector according to claim 3, wherein the control signal output from said ambient light amount detecting means reduces the power supplied to said light source when the ambient light amount is small, and reduces the ambient light amount. A light source light control device for a liquid crystal projector, wherein the power control means is controlled so as to increase power supplied to the light source when the power is large. 5. A light source dimming device for a liquid crystal projector according to claim 1, wherein said control signal generating means is an operation signal generating means based on a signal generated by a viewer. Light device. 6. A light source light control device for a liquid crystal projector according to claim 5, wherein said operation signal generating means is a remote control light receiving unit for receiving a signal from a remote control. 7. The liquid crystal projector according to claim 1, wherein said control signal generating means is a manual power setting means for generating a plurality of control signals by manual operation. Light source dimmer. 8. The light source dimming device for a liquid crystal projector according to claim 1, wherein said control signal generating means is a control circuit which includes software and generates a control signal according to the contents of said software. Light source dimmer for liquid crystal projectors. 9. A light source dimmer for a liquid crystal projector according to claim 8, wherein said control circuit is a microcomputer. 10. An image display means for displaying image information, a light source for illuminating the image display means, a power supply for supplying power to the light source, and a power control means for controlling power from the power supply. And a drive circuit for converting the output power of the power control means into a pulse and supplying the pulse to the light source,
A light source dimming device for a liquid crystal projector, comprising: a control signal generation unit for supplying a control signal to the power control unit to control output power. 11. A light source dimmer for a liquid crystal projector according to claim 10, wherein said control signal generating means corresponds to an ambient light amount detecting means for detecting ambient brightness and a detection signal from said ambient light amount detecting means. And a microcomputer for outputting a control signal. 12. A light source dimming device for a liquid crystal projector according to claim 10, wherein said control signal generating means receives a control signal from a viewer and receives a control signal from said control unit and outputs the control signal to an output thereof. A light source dimming device for a liquid crystal projector, comprising: a microcomputer that generates a control signal. 13. The light source light control device for a liquid crystal projector according to claim 10, wherein the drive circuit includes a switching circuit for generating a switching signal, and a transistor that is turned on and off by the switching signal output from the switching circuit. Connecting a switching circuit for generating a pulse from an output of the voltage control means, a transformer provided at an output terminal of the transistor, a starting circuit, and the starting circuit to one end of a primary winding of the transformer. Means for generating a high-voltage pulse corresponding to the turns ratio of the transformer. 14. A light source light control device for a liquid crystal projector according to claim 10, wherein said light source is a lamp. 15. A light source dimming device for a liquid crystal projector according to claim 10, wherein said control signal generating means is a microcomputer. 16. A light source dimming device for a liquid crystal projector according to claim 15, wherein an output current and an output voltage of said drive circuit are supplied to said microcomputer. 17. A liquid crystal projector comprising: an image display means for displaying image information; an enlargement projection means for enlarging and projecting the image information; and a light source lamp for illuminating the image display means. A drive power supply, a control signal generating means for generating a power control signal for controlling the amount of power supply to the drive power supply, and a power control means for controlling output power by a power control signal from the control signal generating means A light source dimming device for a liquid crystal projector, wherein output power supplied from the driving power source to the light source lamp is varied by the power control signal to control dimming and power consumption of the light source lamp. . 18. A light source dimming device for a liquid crystal projector according to claim 17, wherein said control signal generating means is an ambient light amount detecting means for detecting an ambient light amount. 19. A light source dimming device for a liquid crystal projector according to claim 17, wherein said control signal generating means is a manual mechanical switch for switching output power of said power control means. Light device. 20. A light source dimming device for a liquid crystal projector according to claim 17, wherein said control signal generating means is a switching circuit of a transistor for switching output power of said power control means. Light control device. 21. The liquid crystal projector according to claim 17, wherein said control signal generating means is a microcomputer having software for controlling output power of said power control means. Light source dimmer for projectors.