KR20070091977A - Projection apparatus - Google Patents

Abstract

A projection apparatus is provided to realize resolution similar to an original image with a low resolution of image frames, and offer a low-priced projection device. A projection apparatus(100) comprises the following parts: an image frame generating unit(30) which generates an image frame from received image data; a projecting system(50) which expands and projects the image frame transmitted or reflected from the image frame generating unit; a display position control unit(40) which controls the display position of the image frame; and an image processing controller(20) which generates two lower image frame data with 1/4 resolution for the resolution of the received image data, transmits the two lower image frame data to the image frame generating unit, and controls the image frame generating unit to generate lower image frames separately from the two received lower image frame data, and controls the display position control unit to display the two lower image frame at regular intervals each other.

Description

Projection device {PROJECTION APPARATUS}

1 is a control block diagram of a projection apparatus according to the present invention,

2 is a diagram illustrating an example of pixel arrangement of a lower image frame generated by a projection apparatus according to the present invention;

3 is an example of an image in which lower image frames of a projection apparatus according to the present invention are displayed on a screen;

4 is a time waveform diagram in which a lower image frame of a projection apparatus according to the present invention is displayed on a screen.

Explanation of symbols on the main parts of the drawings

10: image data receiving unit 20: image processing control unit

23: lower image data generator 30: image frame generator

40: display position adjusting unit 50: projection system

55: display position setting unit 60: screen

100: projection device

The present invention relates to a projection apparatus, and more particularly, to a projection apparatus that receives image data, generates an image frame from the received image data, and magnifies the generated image frame through a projection system to project on a screen or the like. .

With the recent launch of digital broadcasting, supplying large screen and high-definition display devices at a lower price in the digital display market has emerged as one of the important issues. Projection devices such as projection TVs or projectors are one of the most widely used of such large screen display devices.

In general, a projection apparatus includes an image frame generation unit for generating an image frame, a light source unit for irradiating light, a projection system for magnifying and projecting an image frame from which light generated by the light source unit is transmitted or reflected by the image frame generator, And an image processing control unit for controlling them.

The projection apparatus may further include a screen on which the image frame is displayed.

The image frame generator is a component that determines the resolution of the image generated by the actual projection device. In addition, the image frame may include any one of a liquid crystal display (LCD) method, a digital micromirror device (DMD) method, a liquid crystal on silicon (LCoS) method, and others.

The image processing controller receives image data in digital or analog form from the outside and generates the image data in accordance with a resolution that can be generally implemented by the image frame generator. In addition, the image processing controller controls the image frame generator so that the generated image data is generated as an image frame, and when the light emitted by the light source passes through the image frame generator, the image frame is displayed on the screen through the projection system.

In recent years, in the trend of manufacturing a lot of high-resolution video objects, there is a need for a projection device for generating a high-resolution video frame to reproduce the corresponding video frame. That is, a high resolution image frame generation unit is required, but as the resolution increases, the manufacturing cost increases.

For this reason, research on a method of compensating the original high resolution by using a relatively low resolution image frame generator for a high resolution image is ongoing.

Accordingly, an object of the present invention relates to a projection apparatus for improving the resolution of an image displayed on a screen by a low resolution image frame generator.

According to the present invention, there is provided a projection apparatus, comprising: an image frame generator for generating an image frame from received image data; A projection system for enlarging or projecting an image frame transmitted or reflected from the image frame generator; A display position adjusting unit for adjusting a display position of the image frame; The image frame generation unit generates two sub image frame data having a 1/4 resolution with respect to the resolution of the received image data and transmits the same to the image frame generation unit, and generates a sub image frame from the received two sub image frame data. And by the image processing control unit which controls the display position adjusting unit so that the two lower image frames can be displayed at regular intervals.

Here, the image processing controller may be configured to horizontally and vertically and horizontally and vertically with respect to each of the two lower image frames of the Nth received image data and the two lower image frames of the N + 1th received image data. At the same time, the display position adjusting unit is controlled to be sequentially displayed at a predetermined distance from each other.

The projection system further includes a display position setting unit for setting the display position of the image frame.

The image frame generation unit includes one of a liquid crystal display (LCD) method, a digital micromirror device (DMD) method, and a liquid crystal on silicon (LCoS) method according to a method of generating a lower image frame.

In addition, the projection apparatus may further include a screen for displaying the image frame generated by the image frame generator.

Hereinafter, with reference to the accompanying drawings will be described in detail as an example of the present invention.

1 is a control block diagram of a projection apparatus according to the present invention.

The projection apparatus 100 according to the present invention includes an image data receiving unit 10, an image processing control unit 20, an image frame generating unit 30, a light source unit 35, a display position adjusting unit 40, And a projection system 50. In addition, the projection apparatus 100 may further include a screen 60.

The image data receiver 10 receives digital or analog image data from an external device. If the analog data is received, the A / D converter (not shown) changes the digital image data.

The image processing controller 20 includes a lower image data generator 23.

When the image processing control unit 20 receives the image data from the image data receiving unit 10, the lower image data generating unit 23 matches a plurality of lower levels that match the resolution of the image frame generating unit 30 based on the received image data. Control to generate image data.

The image processing control unit 20 also generates a control signal corresponding to the lower image frame generated from the lower image data.

The control signal is transmitted from the image processing controller 20 to the display position controller 40, and the display position controller 40 adjusts the lower image frame to be displayed at a specific position on the screen 60 based on the control signal. . In addition, the control signal is a synchronization signal for redirecting the lower image frame and the display position setting unit 55 of the projection system 50 when the lower image frame generated by the image frame generator 30 to be described later is displayed on the screen. It also plays a role.

The image frame generator 30 receives lower image data from the image processing controller 20 and generates a lower image frame based on the lower image data. The resolution of the lower image frame generated at this time depends entirely on the performance of the image frame generator 30.

The image frame generator 30 may include any one of a liquid crystal display (LCD) method, a digital micromirror device (DMD) method, a liquid crystal on silicon (LCoS) method, and other methods according to a method of generating a lower image frame. It may also be included.

The lower image frame generated by the light irradiated by the light source unit 35 is transmitted or reflected through the image frame generator 30, and the light path is changed through the display position setting unit 55 of the projection system 50 to the screen. The projection will be enlarged.

The display position setting unit 55 of the projection system 50 includes a reflecting mirror, a lens or the like that can change the direction in two or four directions. In addition, the display position setting unit 55 may set the display position to display the lower image frame on the screen 60 by reflecting or transmitting the lower image frame received from the image frame generator 30 through a reflection mirror or a lens. have. In general, the reflective mirror or the lens of the display position setting unit 55 is called a tilt mirror and a tilt thin glass plate.

The display position controller 40 receives a control signal from the image processing controller 20, and reflects the lower image frame generated by the image frame generator 30 and the display position setter 55 based on the control signal. The sub-image frame is reflected, transmitted, or refracted by the control signal to be reflected, or transmitted and refracted, to be displayed on the screen.

Next, the image frame generator 30 which receives image data having a resolution of 100 in order of 1 / (60Hz) and generates a lower image frame having a resolution of 25 corresponding to 1/4 of the resolution of the image data is provided. An example projection apparatus 100 will be described.

The image processing control unit 20 receiving the image data from the image data receiving unit 10 controls the lower image data generating unit 23 to generate two lower image data having a resolution of 25 for the Nth image data. Two sub-image data having a resolution of 25 may be generated for the N + 1th image data.

Since the image processing control unit 20 processes the image data with a period of 1 / (60 Hz) for the Nth image data, the period during which two sub-image data divided from the Nth image data should be processed is 1, which is twice the speed. It should be / (120Hz).

In addition, the image processing controller 20 generates a plurality of control signals for each of the lower image data and transmits the plurality of control signals to the display position controller 40. In general, the number of control signals required for one lower image frame is the same as the number of reflection mirrors and lenses of the image display setting unit 50 through which the lower image frame is reflected or transmitted.

The image frame generator 30 generates a first sub image frame, a second sub image frame, a third sub image frame, and a fourth sub image frame having a resolution of 25 for each sub image data. The first image frame and the second image frame are based on the Nth image data, and the third image frame and the fourth image frame are based on the N + 1th image data.

The display position setting unit 55 of the projection system 50 may include a plurality of reflective mirrors or lenses capable of changing directions in two directions or four directions, in which a Tilt Thin Glass Plate (hereinafter, TTGL) having two directions is provided. Including two) will be described as an example.

The display position controller 40 sequentially receives a control signal from the image processing controller 20. When the display position of the first lower image frame is calculated using a control signal and the directions of the first TTGL and the second TTGL of the display position setting unit 55 are changed, the first lower image frame continuously connects the first TTGL and the second TTGL. Are transmitted and refracted and displayed on the screen 60. Also, the display position of the second lower image frame is calculated from the next control signal to switch the direction of the first TTGL and the second TTGL from the direction for the first lower image frame to the direction for the second lower image frame. The lower image frame continuously transmits and refracts the first TTGL and the second TTGL to be displayed on the screen 60. Similarly, the remaining control signals are for the third lower image frame and the fourth lower image frame, and are displayed on the screen 60 by the above-described procedure by changing the directions of the first TTGL and the second TTGL of the display position setting unit 55. It is done.

In this case, the control signal is not one-to-one matched to one lower image frame, and the image processing controller 20 may generate a plurality of control signals for one lower image frame.

The above-described procedure is a procedure for maximally compensating the resolution of original image data by displaying a lower resolution lower image frame on a screen at a high speed.

2 is a diagram illustrating an example of pixel arrangement of a lower image frame generated by the projection apparatus according to the present invention, and FIG. 3 is an example of an image in which the lower image frames of the projection apparatus according to the present invention are displayed on a screen.

The first lower image frame and the second lower image frame are lower image frames for the N-th image data, and the third lower image frame and the fourth lower image frame are lower image frames for the N + 1th image data.

The small squares of the respective lower image frames of FIG. 2 represent pixels, and the positions of (1,1), (2,1), (1,2), and (2,2), which are pixels of the lower image frames, respectively, are shown in FIG. 3. As shown, the pixels are spaced horizontally, vertically, and diagonally based on any one of these pixels, and each pixel overlaps a part of each other. The pixel display method is an example, and the pixel display position may be changed according to the setting by the image processing controller.

As described above, by partially overlapping and displaying the pixels, the resolution of the image displayed on the screen may be improved.

4 is a time waveform diagram in which a lower image frame of a projection apparatus according to the present invention is displayed on a screen.

When image data having a period of 1 / (60 Hz) is sequentially input to the image processing controller,

Two lower image frames are generated for the image data by the image processing controller. In this case, since two lower image frames must be processed for a period 1 / (60 Hz) at which image data is processed, the lower image frame should be processed at a cycle of 1 / (120 Hz) twice that.

The image processing control unit transmits the lower image data to the image frame generation unit and simultaneously transmits the first control signal and the second control signal to the display position adjusting unit.

The display position controller may receive two control signals for one lower image frame and change the direction of the reflection mirror or the TTGL through a combination of the control signals.

That is, when the first control signal is 0 and the second control signal is 1 with respect to the first lower image frame data, the first lower image frame stored in the lower image frame buffer (not shown) of the image processing controller 20 ( 4: The first sub-image frame is transmitted to the image frame generator, and the first control signal and the second control signal are simultaneously transmitted to the display position controller so that the sub-frame 1 is projected on the screen.

Although some embodiments of the invention have been shown and described, it will be apparent to those skilled in the art that modifications may be made to the embodiment without departing from the spirit or spirit of the invention. . It is intended that the scope of the invention be defined by the claims appended hereto and their equivalents.

As described above, a low resolution image frame realizes a resolution close to the original image and provides an inexpensive projection device.

Claims (5)

In the projection apparatus, An image frame generator for generating an image frame from the received image data; A projection system for magnifying and projecting an image frame transmitted or reflected from the image frame generator; A display position adjusting unit for adjusting a display position of the image frame; Two sub-image frame data having a 1/4 resolution with respect to the resolution of the received image data are generated and transmitted to the image frame generation unit, and the image is generated to generate a sub-image frame from each of the received two sub-image frame data. And an image processing control unit controlling a frame generation unit and controlling the display position adjusting unit so that the two lower image frames can be displayed at a predetermined interval from each other. The method of claim 1, The image processing controller simultaneously performs horizontal and vertical directions and horizontal and vertical directions for each of the two lower image frames for the Nth received image data and the two lower image frames for the N + 1th received image data. And a projection position control unit so as to be sequentially displayed at a predetermined distance apart from each other. The method of claim 1, The projection system further comprises a display position setting unit for setting the display position of the image frame.        The method according to claim 1 or 2, The image frame generation unit may include any one of a liquid crystal display (LCD) method, a digital micromirror device (DMD) method, and a liquid crystal on silicon (LCoS) method according to a method of generating the lower image frame. Projection device. The method according to claim 1 or 2, And a screen for displaying the image frame generated by the image frame generator.

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