JPH0611687A - Screen brightness correction circuit for projection type display device - Google Patents

Abstract

PURPOSE:To keep the brightness of a screen constant by automatically changing the brightness of projection light outputted from a projector in accordance with the changing of the size of the projected picture on a screen. CONSTITUTION:As to the projection display device for projecting the projection light 26 outputted from the projector 50 on the screen 12, the device is provided with a detection part 60 for detecting the size of the projected picture on the screen 12, an arithmetic circuit 56 for calculating the correction quantity based on the value detected by the detection part 60 and a set value and a brightness control part 62 for controlling the brightness of the projection light 26 outputted from the projector 50 based on the correction quantity signal from the arithmetic circuit 56, and when the size of the projected picture is changed larger, or smaller than a set extent, the correction quantity signal from the arithmetic circuit 56 becomes a signal for correcting to one direction, or the reverse direction, and the brightness of the projection light 26 outputted from the projector is controlled by the brightness control part 62 so that the brightness may be made higher, or lower.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a projection type display device for projecting projection light from a projection device onto a screen to display a screen on the screen, even if the size of the projection screen on the screen is changed. The present invention relates to a screen brightness correction circuit that performs brightness correction so that the screen brightness (brightness) becomes substantially constant.

[0002]

2. Description of the Related Art Conventionally, a projection type display device of this type is shown in FIG.
As shown in FIG. 3, the projection device 10 and the screen 12 that receives the projection light from the projection device 10 to display a screen are included. The projection device 10 includes an optical system 14 and a control system 16. The optical system 14 is formed so as to project the light 26 output from the light source 24 including the metal halide lamp 20 and the reflection plate 22 onto the screen 12 by the projection lens 32 after passing through the condenser lens 28 and the liquid crystal light valve 30. There is.

The control system 16 includes a signal processing circuit 36, a focus system drive circuit 38, and an autofocus distance sensor 4.
0, a zoom system drive circuit 42 and a microcomputer 44, and the signal processing circuit 36 performs signal processing such as controlling the brightness of a video signal by a brightness control signal and sends a display signal to the liquid crystal light valve 30. Liquid crystal light valve 30
Modulates the intensity of light transmitted by this display signal.

The focus system drive circuit 38 controls the drive of the focus lens 46 in the projection lens 32 in the direction of the arrow based on the distance detection signal from the autofocus distance sensor 40, and the zoom system drive circuit 42 is a microcomputer. The projection lens 32 based on the zoom control signal from
The drive of the inner zoom lens 48 in the arrow direction is controlled. The zoom system drive circuit 42 can be manually operated by the zoom lens 48.
Is formed so that it can be driven in the direction of the arrow.

[0005]

However, in the conventional projection display device as shown in FIG. 3, the screen 1
2 was not configured to change the brightness of the projection light according to the change in the size of the projection screen, so when the area of the projection screen is made larger than the setting range, it becomes too dark and difficult to see. There was a problem that it became too bright and dazzling when it was made smaller than the set range.
The present invention has been made in view of the above-mentioned problems, and the brightness of the projection light output from the projection device is corrected according to the change in the size of the projection screen on the screen, and the screen is displayed even if the size of the projection screen is changed. It is an object of the present invention to provide a screen brightness correction circuit for a projection display device capable of keeping the brightness constant.

[0006]

A screen brightness correction circuit according to the present invention is a projection type display device for projecting projection light output from a projection device onto a screen, and detecting the size of the projection screen on the screen. Section, a correction amount calculation section for calculating a correction amount based on the detection value of the detection section and a preset value, and projection light output from the projection device based on the correction amount signal of the correction amount calculation section. And a brightness control unit for controlling the brightness of.

[0007]

When the size of the projection screen is within the preset range, the detection value of the detection unit becomes equal to the set value, for example. Therefore, the correction amount calculated by the correction amount calculation unit is a value that does not require correction ( For example, the difference between the two becomes zero), and the brightness of the projection light output from the projection device has a preset value.
If the size of the projection screen is made larger than the set range, the detection value of the detection unit becomes larger than the set value, and the correction amount calculated by the correction amount calculation unit is a value that requires correction in one direction (for example, positive value). Value), and the brightness control unit increases the brightness of the projection light output from the projection device.

Further, when the size of the projection screen becomes smaller than the set range, the detection value of the detection unit becomes smaller than the set value, for example, and the correction amount calculated by the correction amount calculation unit requires correction in the other direction. Value (for example, a negative value)
The brightness control unit reduces the brightness of the projection light output from the projection device. Therefore, the brightness of the projection screen can be automatically kept substantially constant regardless of whether the screen on the screen becomes larger or smaller than the set range.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the screen brightness correction circuit of a projection type display device according to the present invention will be described below with reference to FIG. In FIG. 1, the same parts as those in FIG. 3 are designated by the same reference numerals, and the description of the overlapping components will be partially omitted. In FIG. 1, reference numeral 50 denotes a projection device, which is composed of an optical system 14 and a control system 52 peculiar to the present invention. The optical system 14 is configured similarly to the conventional example shown in FIG.

The control system 52 has a signal processing circuit 36 and a focus system drive circuit 3 as in the conventional example shown in FIG.
8, a distance sensor 40 for autofocus, a zoom system drive circuit 42, and a microcomputer 44, and a zoom amount detection circuit 54 and a calculation circuit 56 as a correction amount calculation unit.
And a signal correction circuit 58. The autofocus distance sensor 40 and the zoom amount detection circuit 54 are
A detection unit 60 that detects the size of the projection screen on the screen 12 is formed, and a part of the signal processing circuit 36 and the signal correction circuit 58 form a brightness control unit 62.

Distance sensor 40 for autofocus
Is configured to detect the distance from the projection device 50 to the screen 12 and output a distance detection signal. The zoom amount detection circuit 54 is configured to output a zoom amount signal (projection magnification signal) based on a signal (for example, the number of pulses) corresponding to the zoom position derived from the zoom system drive circuit 42.

The arithmetic circuit 56 outputs a correction amount signal based on the distance detection signal from the autofocus distance sensor 40, the zoom amount signal from the zoom amount detection circuit 54, and a preset setting signal. Is configured to. The signal correction circuit 58 includes the arithmetic circuit 56.
The signal for controlling the brightness of the video signal input to the signal processing circuit 36 (brightness control signal) is corrected based on the correction amount signal from.

Next, the operation of the above embodiment will be described. (B) The brightness of the projection screen on the screen 12 is inversely proportional to the area of the screen and the distance to the projection device 50 is 2
It is inversely proportional to the power, and the screen area is proportional to the square of the zoom amount. Therefore, assuming that the distance data is A, the zoom amount data is B, and the brightness of the projection screen on the screen 12 is L, the following relational expression is obtained. To establish. L = K / (A × B) ² (1) In the above equation (1), K represents a proportional coefficient.

(B) The operation circuit 56 firstly determines the microcomputer 4
The brightness L ₀ of the projection screen of the set size (the value within the set range) is calculated based on the setting command signal to 4 and the value is stored in the memory. That is, the projection screen on the screen 12 is set to a desired set size (for example, a frequently used size), and the brightness of the projection screen is adjusted by manually adjusting the brightness of the light source 24 and the brightness control signal supplied to the signal processing circuit 36. If is desired, a setting command signal is sent to the microcomputer 44. Then, the arithmetic circuit 56 causes the distance data A ₀ from the distance sensor 40 for autofocus under this setting condition.
Based on the zoom amount data B ₀ from the zoom amount detection circuit 54, the brightness L ₀ is calculated by the following equation (2). L ₀ = K / (A ₀ × B ₀ ) ² (2) Note that the above L ₀ may be preset by the manufacturer as a value unique to each projection device.

(C) When the projection device 50 is moved or the zoom lens 48 in the projection lens 32 is moved to make the size of the projection screen larger or smaller than the set range, the arithmetic circuit 56 makes the following expression. The correction amount ΔL is calculated according to (3), and the correction amount signal corresponding to this correction amount ΔL is output. ΔL = L−L ₀ = K {1 / (A × B) ² −1 / (A ₀ × B ₀ ) ² } ... (3)

(D) The signal correction circuit corrects the brightness control signal based on the correction amount signal from the arithmetic circuit 56 (for example, the correction amount signal is added to the brightness control signal), and the corrected brightness control signal is signaled. Output to the processing circuit 36. For this reason,
The signal processing circuit 36 controls the brightness of the display signal supplied to the liquid crystal light valve 30 to control the projection device 50.
The brightness of the projection light output from the screen is controlled so that the brightness of the projection screen on the screen 12 is controlled to be substantially constant regardless of the screen size.

In the above embodiment, the brightness control section is formed by a part of the signal processing circuit 36 and the signal correction circuit 58, and the brightness control signal is corrected based on the correction amount signal from the arithmetic circuit 56, and this correction is performed. The projection light 26 output from the projection device 50 by controlling the brightness of the display signal with the brightness control signal
However, the present invention is not limited to this, and the brightness of the projection light 26 output from the projection device 50 based on the correction amount signal from the arithmetic circuit 56 may be controlled. .

For example, a light source dimming circuit 70 for adjusting the luminance of the metal halide lamp 20 of the light source 24 is provided in the control system 52a as shown in FIG. 2, and the light source dimming circuit 70 forms the luminance control section 62a. You may That is, the light source dimming circuit 70 causes the metal halide lamp 20 of the light source 24 based on the correction amount signal from the arithmetic circuit 56.
The brightness of the projection light 26 output from the projection device 50a is controlled by controlling the brightness of the. With this configuration, power consumption of the metal halide lamp 20 is not wasted, so that power saving can be achieved.

Further, the brightness control unit is configured to control the brightness of the display signal in the projection device and the brightness of the light source in the projection device based on the correction amount signal of the correction amount calculation unit. Good. For example, a part of the signal processing circuit 36 shown in FIG. 1 and the brightness control section 62 composed of the signal correction circuit 58 and a brightness control section 62a composed of the light source dimming circuit 70 shown in FIG.

In the above-described embodiment, the detection unit for detecting the size of the projection screen on the screen is the zoom amount detection for detecting the zoom amount based on the signal derived from the distance sensor for autofocus and the zoom system drive circuit. However, the present invention is not limited to this, and for example, a distance for detecting the distance from the projection device to the screen regardless of the autofocus function or the zoom function. It may be formed by a detection unit and a projection magnification detection unit that detects the projection magnification of the projection device.

In the above-described embodiment, the detection unit for detecting the size of the projection screen on the screen, the distance detection unit for detecting the distance from the projection device to the screen, and the projection magnification detection unit for detecting the projection magnification of the projection device. However, the present invention is not limited to this and may be any one that can detect the size of the projection screen on the screen. For example,
The detector may be formed by either a distance detector that detects the distance from the projection device to the screen or a projection magnification detector that detects the projection magnification of the projection device. In the case of a projection device that does not have a zoom function, the detection unit may be formed only by the distance detection unit that detects the distance from the projection device to the screen.

[0022]

As described above, in the screen brightness correction circuit of the projection display apparatus according to the present invention, when the size of the projection screen on the screen is made larger than the set range, the brightness of the projection light output from the projection apparatus increases. , If the size of the projection screen on the screen is made smaller than the setting range, the brightness of the projection light output from the projection device will be reduced.
The brightness of the projection screen can always be kept almost constant automatically regardless of whether the screen size is larger or smaller than the setting range. Therefore, a large screen will not be too dark and difficult to see, and a small screen will not be too bright and dazzling.

[Brief description of drawings]

FIG. 1 is a schematic configuration diagram showing an embodiment of a screen brightness correction circuit of a projection display device according to the present invention.

FIG. 2 is a schematic configuration diagram showing another embodiment of the present invention.

FIG. 3 is a schematic configuration diagram showing a conventional example.

[Explanation of symbols]

12 ... Screen, 24 ... Light source, 30 ... Liquid crystal light valve, 32 ... Projection lens, 36 ... Signal processing circuit, 3
8 ... Focus system drive circuit, 40 ... Autofocus distance sensor, 42 ... Zoom system drive circuit, 44 ... Microcomputer, 50, 50a ... Projection device, 52, 52a ... Control system, 54 ... Zoom amount detection circuit, 56 ... Calculation Circuit (correction amount calculation unit), 58 ... Signal correction circuit, 60 ... Detection unit, 6
2, 62a ... Luminance control unit, 70 ... Light source dimming circuit.

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁵ Identification code Internal reference number FI technical display location G09G 5/10 Z 8121-5G

Claims (5)

[Claims] 1. A projection type display device for projecting projection light output from a projection device onto a screen, a detection unit for detecting the size of a projection screen on the screen, and a detection value of the detection unit set in advance. A correction amount calculation unit that calculates a correction amount based on the set value and a brightness control unit that controls the brightness of the projection light output from the projection device based on the correction amount signal of the correction amount calculation unit are provided. A screen brightness correction circuit for a projection display device characterized by the following. 2. A detection unit includes a distance detection unit that detects a distance from a projection device to a screen, and a projection magnification detection unit that detects a projection magnification of the projection device, and the correction amount calculation unit is the distance detection unit. 2. A screen brightness correction circuit for a projection display apparatus according to claim 1, wherein a correction amount is calculated based on a detection value of the projection magnification detection unit and a set value. 3. The screen brightness correction circuit for a projection display device according to claim 1, wherein the brightness control unit controls the brightness of the display signal in the projection device based on the correction amount signal of the correction amount calculation unit. . 4. The screen brightness correction circuit according to claim 1, wherein the brightness control unit corrects the brightness of the light source in the projection device based on the correction amount signal of the correction amount calculation unit. 5. The brightness control unit controls the brightness of a display signal in the projection device and corrects the brightness of a light source in the projection device based on the correction amount signal of the correction amount calculation unit. A screen brightness correction circuit of the projection display device according to 1 or 2.