JP2007025054A - Projection type image display device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a projection type image display device capable of reducing a lamp power. <P>SOLUTION: The projection type image display device which includes a light source lamp and a light valve for modulating the intensity of light of the light source lamp and has the lamp power controlled so that the lamp power becomes a maximum value, includes a means which controls the lamp power to a minimum value when an input image signal doesn't exist, an input image signal exists but an input image is not being projected, or an input image is being projected and is an overall black image. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a projection type video display device such as a liquid crystal projector and a DLP projector.

  Some liquid crystal projectors have three lamp power setting modes: a normal mode, an eco mode, and an AUTO mode. In the normal mode, the lamp power is fixed to the maximum value (MAX), and in the eco mode, the lamp power is fixed to the minimum value (MIN). In the AUTO mode, the lamp power is controlled according to the luminance level of the input video signal. For example, the lamp power is controlled so that the lamp power increases as the average luminance level of the input video signal increases. The lamp power setting mode is set by the user.

  FIG. 3 shows a lamp power control processing procedure in the conventional example.

  First, the currently set lamp power setting mode is determined (step S101). If it is determined that the currently set lamp power setting mode is the normal mode, the lamp power is set to the maximum value (MAX) (step S102), and the process returns to step S101. The determination of the power setting mode in step S101 is performed at time intervals corresponding to a predetermined number of frames.

  If it is determined in step S101 that the currently set lamp power setting mode is the eco mode, the lamp power is set to the minimum value (MIN) (step S103), and the process returns to step S101.

  If it is determined in step S101 that the currently set lamp power setting mode is the AUTO mode, the luminance level of the input video signal (for example, the average luminance level for a predetermined number of frames of the input video signal) is used. Then, it is determined whether or not the input video is an all-black image (step S104). If it is determined that the input video is an all-black image, the lamp power is set to the minimum value (MIN) (step S104). S103), the process returns to step S101.

  If it is determined in step S104 that the input video is not an all-black video, the lamp power is set to a value corresponding to the luminance level of the input video signal (for example, the average luminance level for a predetermined number of frames of the input video signal). After setting (step S105), the process returns to step S101.

  In the conventional example, the lamp power is set to the minimum value (MIN) in the eco mode, but the lamp power is always set to the maximum value (MAX) in the normal mode, and the lamp power is not set to the minimum value (MIN). . In the AUTO mode, the lamp power is set to the minimum value (MIN) only when the input image is an all-black image.

  By the way, the lamp life becomes shorter as the lamp power increases. In addition, the temperature of the liquid crystal panel and the polarizing plate increases as the lamp power increases. In addition, as the lamp power increases, the power consumption of the liquid crystal projector increases. Further, when the lamp power is increased, the internal temperature is increased, so that the number of rotations of the cooling fan needs to be increased. Further, when the lamp power is increased, the temperature of the liquid crystal panel is increased and the distortion of the panel is increased, so that black unevenness is likely to occur.

  For this reason, it is preferable to keep the lamp power as low as possible.

  It is an object of the present invention to provide a projection type image display apparatus that can reduce lamp power.

  The invention according to claim 1 includes a light source lamp and a light valve that modulates the intensity of the light, and in principle, a projection type in which the lamp power is controlled so that the lamp power becomes a maximum value. In the video display device, when there is no input video signal, when the input video signal is present but the input video is not projected, and when the input video is projected but the input video is an all-black video, Means is provided for controlling the lamp power to a minimum value.

  The invention described in claim 2 includes a light source lamp and a light valve that modulates the intensity of the light, and in principle, a projection type in which lamp power is controlled in accordance with the luminance level of the input video signal. In the video display device, when there is no input video signal, when the input video signal is present but the input video is not projected, and when the input video is projected but the input video is an all-black video, Means is provided for controlling the lamp power to a minimum value.

  According to the first aspect of the present invention, in principle, the lamp power can be reduced in the projection display apparatus in which the lamp power is controlled so that the lamp power becomes the maximum value.

  According to the second aspect of the present invention, in principle, the lamp power can be reduced in the projection type video display apparatus in which the lamp power is controlled according to the luminance level of the input video signal.

  Embodiments in which the present invention is applied to a liquid crystal projector will be described below with reference to the drawings.

  FIG. 1 shows the configuration of a liquid crystal projector.

  Input video signals (R, G, B signals) are sent to a light valve (liquid crystal panel) 2 via a video signal processing circuit 1. Reference numeral 3 denotes an incident side optical system such as a condenser lens, and 4 denotes an output side optical system such as a projection lens.

  The input video signal is also sent to the luminance component separation circuit 11. The luminance component separation circuit 11 extracts a luminance component from the input video signal. The luminance signal obtained by the luminance component separation circuit 11 is sent to the microcomputer 10. The microcomputer 10 controls the lamp driver 12 that drives the light source lamp 13. The microcomputer 10 receives a remote control signal from the remote controller and an operation signal from the main body operation unit.

  This liquid crystal projector has three modes of a normal mode, an eco mode, and an AUTO mode as lamp power setting modes. In the eco mode, the lamp power is always set to the minimum value (MIN).

  In the normal mode, the lamp power is set to the maximum value (MAX) in principle. However, if there is no input video signal, if there is an input video signal but the input video is not projected, or if the input video is projected but the input video is all black, the lamp power is It is set to the minimum value (MIN). When there is an input video signal but no input video is projected, the blue screen mode in which the projected image is controlled to be a blue background or the no-show in which the projected image is controlled to be all black. There is a mode.

  In the AUTO mode, in principle, the lamp power is controlled according to the luminance level of the input video signal. For example, the lamp power is controlled so that the lamp power increases as the average luminance level of the input video signal increases. However, if there is no input video signal, if there is an input video signal but the input video is not projected, or if the input video is projected but the input video is all black, the lamp power is It is set to the minimum value (MIN).

  FIG. 2 shows a lamp power control processing procedure in the present embodiment.

  First, the currently set lamp power setting mode is determined (step S1). When it is determined that the currently set lamp power setting mode is the eco mode, the lamp power is set to the minimum value (MIN) (step S2), and the process returns to step S1. Note that the determination of the power setting mode in step S1 is performed at time intervals corresponding to a predetermined number of frames (for example, 4 to 10 frames).

  If it is determined in step S1 that the currently set lamp power setting mode is the normal mode or the AUTO mode, the presence / absence of an input video signal is determined (step S3). The presence or absence of the input video signal is determined based on, for example, whether or not the synchronization signal of the input video signal has been detected. If it is determined that there is no input video signal, the lamp power is set to the minimum value (MIN) (step S2), and the process returns to step S1.

  If it is determined in step S3 that there is an input video signal, it is determined whether or not the input video is being projected (for example, blue back mode, no-show mode) (step S4). If it is determined that the input video signal is not projected, the lamp power is set to the minimum value (MIN) (step S2), and the process returns to step S1.

  If it is determined in step S4 that the input video signal is being projected, the input video signal is input based on the luminance level of the input video signal (for example, the average luminance level for a predetermined number of frames of the input video signal). It is determined whether or not the image is an all-black image (step S5). If it is determined that the input image is an all-black image, the lamp power is set to the minimum value (MIN) (step S2). Return to step S1.

  If it is determined in step S5 that the input image is not an all-black image, it is determined whether the lamp power setting mode determined in step S1 is the normal mode or the AUTO mode (step S6). If the lamp power setting mode determined in step S1 is the normal mode, the lamp power is set to the maximum value (MAX) (step S7), and the process returns to step S1. If the lamp power setting mode determined in step S1 is the AUTO mode, after setting to a value according to the luminance level of the input video signal (for example, the average luminance level for a predetermined number of frames of the input video signal) (step S8), the process returns to step S1.

  In the above embodiment, even when the lamp power setting mode is the normal mode or the AUTO mode, when there is no input video signal, there is an input video signal but no input video is projected, and the input video is projected. If the input video is an all-black video and the projection video does not require high brightness, the lamp power is set to the minimum value (MIN), so the lamp power is reduced compared to the conventional example. Can be planned. As a result, the lifetime of parts such as the light source lamp, the liquid crystal panel, and the polarizing plate can be extended. In addition, the power consumption of the liquid crystal projector can be reduced and the noise by the cooling fan can be reduced. Furthermore, black unevenness is less likely to occur.

It is a block diagram which shows the structure of a liquid crystal projector. It is a flowchart which shows the lamp electric power control processing procedure in a present Example. It is a flowchart which shows the lamp power control processing procedure in a prior art example.

Explanation of symbols

1 Video signal processing circuit 2 Light valve (liquid crystal panel)
10 Microcomputer 11 Luminance component separation circuit 12 Lamp driver 13 Light source lamp

Claims (2)

In the projection type video display device in which the lamp power is controlled so that the lamp power becomes the maximum value, including a light source lamp and a light valve that modulates the intensity of the light.
When there is no input video signal, when the input video signal is present but the input video is not projected, or when the input video is projected but the input video is all black, the lamp power is set to the minimum value. A projection-type image display device comprising a control means. In a projection-type video display device that includes a light source lamp and a light valve that modulates the intensity of the light, and in principle, the lamp power is controlled according to the luminance level of the input video signal.
When there is no input video signal, when the input video signal is present but the input video is not projected, and when the input video is projected but the input video is all black, the lamp power is set to the minimum value. A projection-type image display device comprising a control means.

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