CN103543586A - Light processing device, high-frame-rate grayscale display imaging device and light processing method - Google Patents
Light processing device, high-frame-rate grayscale display imaging device and light processing method Download PDFInfo
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Abstract
The invention relates to a light processing device, a high-frame-rate grayscale display imaging device and a light processing method. The light processing device comprises a light source, a light source brightness adjusting device and a digital light processing module. The light source is a laser light source and used for generating first color light. The light source brightness adjusting device is located on an output light path of the light source and used for receiving the first color light, adjusting the first color light to second color light distributed in certain brightness level and outputting the second color light. The digital light processing module is located on an output light path of the light source brightness adjusting device, and used for receiving the second color light outputted by the light source brightness adjusting device and modulating the second color light into third color light to be outputted. By the light processing device, the high-frame-rate grayscale display imaging device and the light processing method, more frames can be generated than that of an existing pulse width modulation technique within a same time period.
Description
Technical field
The present invention relates to display technique, particularly relate to a kind of light processor, high frame frequency gray scale demonstration imaging device and a kind of smooth disposal route.
Background technology
The true 3-D display of bore hole formula has plurality of display modes and correlation technique, substantially comprises body three-dimensional (volumetric 3D display), light field three-dimensional (Light Field 3D Display), hologram three-dimensional (Holographic 3D Display) etc.High speed projection imaging engine is a core technology of these true 3-D display pattern common need, in order to produce per second thousand and even the projection of tens thousand of panel height sharpness two dimensional gray or three-dimensional color image, by the mechanism of true 3-D display, be converted into the true 3-D display image of dynamic high definition.High speed projection imaging engine can adopt reflective spatial light modulator.Reflective spatial light modulator comprises DLP(Digital Light Processing) and LCOS(Liquid Crystal on Silicon) etc.Existing DLP projection imaging technology itself can produce the projection of tens thousand of width black and white two dimensional images per second, and every width image only has 0/1 gray scale.In order to produce the image with a plurality of gray shade scales, prior art utilization " pulse-length modulation (PWM) " method.
The principle of work of method that Fig. 1 illustrates existing " pulse-length modulation ".Take TI(Texas Instruments) and the Discovery4100 series DLP chip produced (0.7 " or 0.55 " XGA) be example, it can produce the highest 32,550 width black white image projections per second.With Tc, represent its chip period, T
c=1/32550 second.In order to produce 8 gray scales (2
8=256 brightness) image, existing " pulse-length modulation " Technology Need utilizes 256 chip periods.Specifically, the image of 8 gray scales of each frame need to be produced with 256 chip periods.In the case, frame period T
fwith chip period T
cpass be
T
f=256T
c (1)
In these 256 chip periods, the time of chip pixel " ON " (chip period number) is directly proportional to the brightness degree of this pixel.Visual persistence effect based on human eye, observer can see the image with 256 intensity levels.
According to formula (1), 4100 serial DLP chips (Tc=1/32550 second) are per second at most can produce 8 brightness degree images of 127 frames (=32550/256).Such frame per second, differs greatly with the requirement of the needed thousands of width luminance pictures per second of true 3-D display.Such as, by such method, generating body 3-D display, its 3-D view refresh rate is only a width per second (supposing that body 3-D view is 127 layers), can not reach Real time dynamic display (3-D view refresh rate need to reach 24 width per second more than).
Summary of the invention
Provide hereinafter about brief overview of the present invention, to the basic comprehension about some aspect of the present invention is provided.Should be appreciated that this general introduction is not about exhaustive general introduction of the present invention.It is not that intention is determined key of the present invention or pith, and nor is it intended to limit the scope of the present invention.Its object is only that the form of simplifying provides some concept, usings this as the preorder in greater detail of discussing after a while.
A fundamental purpose of the present invention is to provide a kind of light processor, high frame frequency gray scale to show imaging device and light disposal route, is conducive to improve the effect of 3-D view Real time dynamic display.
According to an aspect of the present invention, a kind of light processor, comprising: light source, light source brightness adjusting device and digital light processing module;
Wherein:
Described light source is LASER Light Source, for generation of the first coloured light;
Described light source brightness adjusting device, for receiving described the first coloured light, and is adjusted to described the first coloured light the second coloured light the output distributing with certain brightness degree;
Described digital light processing module is positioned on the output light path of described light source brightness adjusting device, for receiving the second coloured light of described light source brightness adjusting device output, described the second coloured light is modulated to the 3rd coloured light output.
According to a second aspect of the invention, a kind of high frame frequency gray scale shows imaging device, comprises light processor and projection optics element; Described projection optics element is positioned on the output light path of described digital light processing module, for receiving the 3rd coloured light of described digital light processing module output, and described the 3rd coloured light is projected on screen and is shown.
According to a third aspect of the invention we, a kind of smooth disposal route, comprising:
Step 1: light source sends the first coloured light, described the first coloured light is laser;
Step 2: light source brightness adjusting device receives described the first coloured light, and described the first coloured light is adjusted to the second coloured light the output distributing with certain brightness degree;
Step 3: digital light processing module receives the second coloured light of light source brightness adjusting device output, is modulated to the 3rd coloured light output by described the second coloured light.
Adopt light processor of the present invention, high frame frequency gray scale to show imaging device and light disposal route, compare with existing pulse-length modulation (PWM) technology, the needed treatment cycle of brightness degree that obtains same quantity is few, thereby can within the time cycle, produce in same units the frame of greater number.
Accompanying drawing explanation
Below with reference to the accompanying drawings illustrate embodiments of the invention, can understand more easily above and other objects, features and advantages of the present invention.Parts in accompanying drawing are just in order to illustrate principle of the present invention.In the accompanying drawings, same or similar technical characterictic or parts will adopt same or similar Reference numeral to represent.
Fig. 1 is the principle of work schematic diagram of existing " pulse-length modulation " method;
Fig. 2 is the structural drawing of a kind of embodiment of light processor of the present invention;
Fig. 3 is the structural representation of light intensity wave filter swiveling wheel of the second embodiment of light processor of the present invention;
Fig. 4 is that the light source brightness adjusting device in the 3rd embodiment of the present invention and the 4th embodiment carries out the sequential chart of a kind of embodiment of brightness regulation to light source;
Fig. 5 is the structural drawing that high frame frequency gray scale of the present invention shows a kind of embodiment of imaging device;
Fig. 6 is the process flow diagram of a kind of embodiment of smooth disposal route of the present invention;
Wherein:
10---light processor;
11---high frame frequency gray scale shows imaging device;
101---light source;
203---light intensity wave filter swiveling wheel;
204---filter plate;
103---light source brightness adjusting device;
105---digital light processing module;
106---projection optics element.
Embodiment
Embodiments of the invention are described with reference to the accompanying drawings.The element of describing in an accompanying drawing of the present invention or a kind of embodiment and feature can combine with element and feature shown in one or more other accompanying drawing or embodiment.It should be noted that for purposes of clarity, in accompanying drawing and explanation, omitted expression and the description of unrelated to the invention, parts known to persons of ordinary skill in the art and processing.
< the first embodiment >
Shown in Figure 2, be the structural drawing of a kind of embodiment of light processor of the present invention.
The light processing of present embodiment is put 10 and is comprised light source 101, light source brightness adjusting device 103 and digital light processing module 105.
Light source brightness adjusting device 103 is for receiving the first coloured light, and the first coloured light is adjusted to the second coloured light the output distributing with certain brightness degree.Light source brightness adjusting device 103 for example can be arranged on the output light path of light source 101.
Digital light processing module 105 is positioned on the output light path of light source brightness adjusting device 103, for receiving the second coloured light of light source brightness adjusting device 103 outputs, the second coloured light is modulated to the 3rd coloured light output.In one embodiment, " modulation " can refer to: from the second coloured light distributing with certain brightness degree, select the light of one or more brightness degree, and by photosynthetic the 3rd coloured light that becomes of this one or more brightness degree.The brightness of the first coloured light is more than or equal to the brightness of the 3rd coloured light.
The brightness figure place of light (i.e. the 3rd coloured light) of light processor 10 output of take (that is to say to have 2 as example as 8
8individual brightness degree), light source brightness adjusting device 103 receives the first coloured light of light source 101 outputs, and regulates the brightness of the first coloured light.For example, the brightness degree of the first coloured light that light source sends is 255, and light source brightness adjusting device 103 can be periodically the second coloured light so that for example 1,2,4,8,16,32,64,128 brightness degree distributes by the brightness adjustment of the first coloured light.After the second coloured light of brightness regulation, export digital light processing module 105 to.Digital light processing module 105 receives the second coloured light of light source brightness adjusting device 103 outputs, and the second coloured light is modulated to the 3rd coloured light output.For example, the brightness of the coloured light (i.e. the 3rd coloured light) of light processor 10 output is 128, and so, the brightness degree that is decomposed into of the first coloured light that light source brightness adjusting device 103 is exported light source is for example respectively 1,2,4,8,16,32, the second coloured light of 64,128, and export the second coloured light after brightness regulation to digital light processing module 105.105 pairs of the second coloured light of digital light processing module are modulated, and it is 128 the 3rd coloured light that the second coloured light is modulated to brightness, and by the 3rd coloured light output after modulation.
The brightness figure place of same light (i.e. the 3rd coloured light) of take light processor 10 outputs is as 8 being example, because light source brightness adjusting device 103 and digital light processing module 105 only need to regulate 8 times, can realize the brightness of 0 ~ 255 grade of coloured light, and accordingly when adopting PWM modulation, because the width of pulse has represented corresponding brightness degree, therefore must regulate 2
8inferior, can realize the brightness of 0 ~ 255 grade.In the situation that the brightness figure place of the light of light processor 10 outputs is 8, the processing speed of the method applied in the present invention is 2 of PWM modulator approach
8/ 8=32 doubly.Same, in the situation that the brightness figure place of the light of light processor 10 outputs is 12, the processing speed of the method applied in the present invention is 2 of PWM modulator approach
12/ 12=341 doubly.
So, because method of the present invention is compared with PWM modulator approach, can within cycle unit interval, produce more frame number, thereby be applicable to being very much applied in the picture that is shown as of the higher frame frequency of needs, for example, in true dimension display technologies.
< the second embodiment >
Different from the first embodiment, in the light processor of present embodiment, adopt light intensity wave filter swiveling wheel 203 to regulate the brightness of light.
Light intensity wave filter swiveling wheel 203 can be arranged on the output light path of light source 101.As shown in Figure 3, light intensity wave filter swiveling wheel 203 comprises the filter plate 204 that a plurality of filtering strengths are not quite similar.For example, light intensity wave filter swiveling wheel 203 can comprise 8 filter plates 204, and wherein the filtering strength of 2 filter plates is identical, and different from the filtering strength of other 6 filter plates.The order that a plurality of filter plates 204 on light intensity wave filter swiveling wheel 203 for example can increase progressively step by step according to brightness is arranged.Light intensity wave filter swiveling wheel 203 is with first frequency rotation, and the first coloured light of being exported by light source is incident on a plurality of filter plates 204 of light intensity wave filter swiveling wheel 203, and exports the second coloured light of different brightness degrees.
Because light source 101 is single beam, after completing light processing, if will need the 3rd coloured light to expand by the light (i.e. the 3rd coloured light) of light processor output for showing, make it form whole and throw light on.Again because light source 101 is LASER Light Source, and LASER Light Source is coherent source, after expanding, can interfere, and then produces interference fringe.And interference fringe does not wish to see.
The interference fringe causing in order to remove laser, in one embodiment, can comprise and the coaxial mounted scattering wheel of light intensity wave filter swiveling wheel 203 (not shown) at light source brightness adjusting device 103.
Scattering wheel carries out scattering for the first coloured light that light source 101 is sent, and then, the coherence who destroys the first coloured light.
Scattering wheel can have the shape identical or different with light intensity wave filter swiveling wheel 203, as long as guarantee, by the light of light intensity wave filter swiveling wheel 203, can all by scattering, take turns.
Scattering wheel can rotate or be fixing.In one embodiment, scattering wheel can drive by same motor with light intensity wave filter swiveling wheel 203, carries out synchronous rotary.
In one embodiment, light intensity wave filter swiveling wheel 203 can be circle, and a plurality of filter plates 204 are wherein that size is identical fan-shaped.
In one embodiment, filter plate 204 quantity in light intensity wave filter swiveling wheel 203 are identical with the brightness figure place of the 3rd coloured light.For example, when the 3rd coloured light that the brightness figure place of wishing to get is 8, can 8 filter plates 204 be set in light intensity wave filter swiveling wheel 203, the first coloured light be carried out to brightness regulation and become the second coloured light, then output.
Digital light processing module 105 can comprise a digital light process chip, for the second coloured light of light intensity wave filter swiveling wheel 203 outputs is modulated.
As 8 as example, (that is to say, the 3rd coloured light has 2 to the brightness figure place of the coloured light (i.e. the 3rd coloured light) that the light processor 10 of take is exported
8individual brightness degree).Light intensity wave filter swiveling wheel 203 can comprise the filter plate 204 of 8 filtering strengths, and the first coloured light that these 8 filter plates 204 can be for example 255 by brightness is adjusted to respectively take brightness as 1,2,4,8,16,32,64,128 the second coloured light that distribute.The first coloured light incides on certain filter plate 204 in light intensity wave filter swiveling wheel 203, and its brightness is changed, and light intensity wave filter swiveling wheel 203 rotates a circle, and the first coloured light can be decomposed into according to 1,2,4,8,16, the second coloured light output that 32,64,128 brightness degree distributes.
Digital light processing module 105 comprises a digital light process chip, for the second coloured light being modulated into the 3rd coloured light.
For example, the brightness degree of the coloured light of light processor 10 outputs is 111, and this brightness can be decomposed into 64+32+8+4+2+1.Rotation along with light intensity wave filter swiveling wheel 203, digital light process chip in digital light processing module 105 is respectively and is modulated to the i.e. complete white frame of ON(at 64,32,8,4,2,1 o'clock in filter plate 204 brightness) state, and at filter plate 204, be modulated to the complete black frame of OFF(during in other brightness values) state.Visual persistence effect based on human eye, can obtain final brightness degree and be 111 light.
The 203 every rotations of light intensity wave filter swiveling wheel once, digital light process chip can be carried out primary modulation (exporting complete white frame or a complete black frame), that is: doubly, k is identical with the brightness figure place of the coloured light (i.e. the 3rd coloured light) that light processor 10 is exported for the k that the picture frame frequency of digital light processing module can be first frequency.Take the brightness figure place of the 3rd coloured light as 8 being example, light intensity wave filter swiveling wheel 203 rotates a circle, the chip treatment cycle that needs 8 digital light process chip, the swing circle of light intensity wave filter swiveling wheel 203 is the octuple (that is: the octuple that the picture frame frequency of digital light process chip is first frequency) of the chip treatment cycle of digital light process chip.Thereby, only need 8 chip periods, can obtain any one brightness degree in 0 ~ 255 brightness.
< the 3rd embodiment >
The optical processor of third embodiment of the invention has identical structure with the optical processor of the first embodiment.Different from the first embodiment, in the light processor of present embodiment, adopt voltage controller and/or current controller to regulate the brightness of the first coloured light.
Voltage controller and/or current controller regulate voltage and/or the electric current of light source 101, and the first coloured light that light source is sent is modulated into the second coloured light distributing with certain brightness degree.Voltage controller and/or current controller are by directly regulate voltage and/or the electric current for generation of the light source 101 of laser with certain frequency, thus the brightness of the first coloured light that control light source 101 produces.
The second coloured light of digital light processing module 105 receiver voltage controllers and/or current controller output, is modulated to the 3rd coloured light output by the second coloured light.
Take the brightness figure place of light (being the 3rd coloured light of digital light processing module 105 outputs) of light processor 10 output as 8 being example, and the first coloured light that voltage controller and/or current controller can send light source 101 with the sequential shown in Fig. 4 carries out brightness regulation.
The chip period of the digital light process chip that in one embodiment, voltage controller and/or current controller can be in each digital light processing modules 105 carries out Primary regulation to the brightness of light source.In this kind of situation, when the brightness figure place of the light of light processor 10 output is 8, only need the chip period of 8 digital light process chip, can complete the brightness regulation to the first coloured light 0 ~ 255 gray shade scale.
< the 4th embodiment >
The optical processor of four embodiment of the invention has identical structure with the optical processor of the first embodiment.Different from the first embodiment, in the light processor of present embodiment, adopt acousto-optic modulator to regulate the brightness of the first coloured light.
Acousto-optic modulator is positioned on the output light path of light source 101, for the first coloured light being modulated into the second coloured light distributing with certain brightness degree by input sound wave.
Acousto-optic modulator is the element that utilizes acoustooptic effect to modulate incident light frequency, direction, brightness, phase place or polarity.Piezoelectric crystal is attached to insulating material (for example glass) upper, on piezoelectric crystal, applies oscillating voltage signal, thereby in insulating material, produce sound wave, and then utilize Bragg effect (Bragg Effect) to change every characteristic of output light.The power of Bragg effect depends on the power of the sound wave of input, thereby, can by change, be applied to the amplitude of the oscillating voltage on piezoelectric crystal, change the brightness of light.For example, can change the amplitude that is applied to the oscillating voltage on piezoelectric crystal with some cycles, thereby obtain the output light distributing with certain brightness degree.
Digital light processing module 105 is positioned on the output light path of acousto-optic modulator, for receiving the second coloured light of acousto-optic modulator output, the second coloured light is modulated to the 3rd coloured light output.
Take the brightness figure place of light (being the 3rd coloured light of digital light processing module 105 outputs) of light processor 10 output as 8 being example, and the first coloured light that acousto-optic modulator can send light source 101 with the sequential shown in Fig. 4 carries out brightness regulation.
The chip period of the digital light process chip that in one embodiment, acousto-optic modulator can be in each digital light processing module 105 carries out Primary regulation to the brightness of light source.In this kind of situation, when the brightness figure place of the light of light processor 10 output is 8, only need the chip period of 8 digital light process chip, can complete the brightness regulation to the first coloured light 0 ~ 255 gray shade scale.
Shown in Figure 5, for high frame frequency gray scale of the present invention shows the structural drawing of a kind of embodiment of imaging device 11.
In this embodiment, high frame frequency gray scale shows that imaging device 11, on the basis of light processor 10, has also increased projection optics element 106.
Shown in Figure 6, be the process flow diagram of a kind of embodiment of smooth disposal route of the present invention.
In the present embodiment, comprising:
S10: light source 101 sends the first coloured light, the first coloured light is laser;
S20: light source brightness adjusting device 103 receives the first coloured light, and the first coloured light is adjusted to the second coloured light the output distributing with certain brightness degree;
S30: digital light processing module 105 receives the second coloured light of light source brightness adjusting device 103 outputs, is modulated to the 3rd coloured light output by the second coloured light.
As a kind of embodiment, step S20 can comprise:
Light intensity wave filter swiveling wheel 203 is with first frequency rotation, and the light of being exported by light source 101 is incident on a plurality of filter plates of light intensity wave filter swiveling wheel 203, and exports the second coloured light of different brightness degrees.
As a kind of embodiment, step S20 can comprise:
The first coloured light that the scattering wheel identical with the coaxial installation of light intensity wave filter swiveling wheel 203 and shape sends light source 101 carries out scattering.
As a kind of embodiment, step S20 can also comprise:
Filter plate quantity in light intensity wave filter swiveling wheel 203 is identical with the brightness figure place of the 3rd coloured light;
Step S30 can comprise:
Digital light processing module 105 comprises a digital light process chip, for the second coloured light is modulated; Doubly, k is the brightness figure place of the 3rd coloured light to the k that the picture frame frequency of digital light process chip is first frequency.
As a kind of embodiment, step S20 can comprise:
Voltage controller and/or current controller regulate voltage and/or the electric current of light source 101, and the first coloured light that light source is sent is modulated into the second coloured light distributing with certain brightness degree;
Step S30 can comprise:
The second coloured light of digital light processing module 105 receiver voltage controllers and/or current controller output, is modulated to the 3rd coloured light output by the second coloured light.
As a kind of embodiment, step S20 can comprise:
Acousto-optic modulator is modulated into the first coloured light by input sound wave the second coloured light distributing with certain brightness degree;
Step S30 can comprise:
Digital light processing module 105 receives the second coloured light of acousto-optic modulator output, and the second coloured light is modulated to the 3rd coloured light output.
As a kind of embodiment, light disposal route can also comprise:
S40: projection optics element 106 receives the 3rd coloured light of digital light processing module 105 outputs, and the 3rd coloured light is projected on screen and is shown.
Compare with existing pulse width modulating technology, light processor of the present invention, high frame frequency gray scale shows that imaging device and light disposal route can realize in treatment cycle still less and the light of pulse width modulating technology same brightness grade quantity, and then can in same time, produce than the frame of existing pulse width modulating technology greater number, by light processor of the present invention, high frame frequency shows that imaging device and light disposal route are applied in demonstration, can improve the refresh rate of image, this will meet the demonstration demand of the high frame frequency of those needs, for example true three-dimensional imaging shows.
Above some embodiments of the present invention are described in detail.As one of ordinary skill in the art can be understood, whole or any steps or the parts of method and apparatus of the present invention, can be in the network of any computing equipment (comprising processor, storage medium etc.) or computing equipment, with hardware, firmware, software or their combination, realized, this is that those of ordinary skills use their basic programming skill just can realize in the situation that understanding content of the present invention, therefore need not illustrate at this.
In addition, it is evident that, when relating to possible peripheral operation in superincumbent explanation, will use undoubtedly any display device and any input equipment, corresponding interface and the control program that are connected with any computing equipment.Generally speaking, related hardware in computing machine, computer system or computer network, software and realize hardware, firmware, software or their combination of the various operations in preceding method of the present invention, form equipment of the present invention and each building block thereof.
Therefore,, based on above-mentioned understanding, object of the present invention can also realize by move a program or batch processing on any messaging device.Described messaging device can be known common apparatus.Therefore, object of the present invention also can be only by providing the program product that comprises the program code of realizing described method or equipment to realize.That is to say, such program product also forms the present invention, and storage or the medium that transmits such program product also form the present invention.Obviously, described storage or transmission medium can be well known by persons skilled in the art, or storage or the transmission medium of any type developing in the future, therefore also there is no need at this, various storages or transmission medium to be enumerated.
In equipment of the present invention and method, obviously, each parts or each step reconfigure after can decomposing, combine and/or decomposing.These decomposition and/or reconfigure and should be considered as equivalents of the present invention.The step that also it is pointed out that the above-mentioned series of processes of execution can order naturally following the instructions be carried out in chronological order, but does not need necessarily according to time sequencing, to carry out.Some step can walk abreast or carry out independently of one another.Simultaneously, in the above in the description of the specific embodiment of the invention, the feature of describing and/or illustrating for a kind of embodiment can be used in same or similar mode in one or more other embodiment, combined with the feature in other embodiment, or substitute the feature in other embodiment.
Should emphasize, term " comprises/comprises " existence that refers to feature, key element, step or assembly while using herein, but does not get rid of the existence of one or more further feature, key element, step or assembly or add.
Although described the present invention and advantage thereof in detail, be to be understood that in the situation that do not exceed the spirit and scope of the present invention that limited by appended claim and can carry out various changes, alternative and conversion.And the application's scope is not limited only to the specific embodiment of the described process of instructions, equipment, means, method and step.One of ordinary skilled in the art will readily appreciate that from disclosure of the present invention, can use carry out with the essentially identical function of corresponding embodiment described herein or obtain process, equipment, means, method or step result essentially identical with it, that existing and will be developed future according to the present invention.Therefore, appended claim is intended to comprise such process, equipment, means, method or step in their scope.
Claims (16)
1. a light processor, is characterized in that, comprising: light source, light source brightness adjusting device and digital light processing module;
Wherein:
Described light source is LASER Light Source, for generation of the first coloured light;
Described light source brightness adjusting device, for receiving described the first coloured light, and is adjusted to described the first coloured light the second coloured light the output distributing with certain brightness degree;
Described digital light processing module is positioned on the output light path of described light source brightness adjusting device, for receiving the second coloured light of described light source brightness adjusting device output, described the second coloured light is modulated to the 3rd coloured light output.
2. light processor according to claim 1, is characterized in that: described light source brightness adjusting device comprises light intensity wave filter swiveling wheel;
Described light intensity wave filter swiveling wheel is positioned on the output light path of described light source, comprises the filter plate that a plurality of filtering strengths are not quite similar;
Described light intensity wave filter swiveling wheel is for first frequency rotation, and described the first coloured light of being exported by described light source is while being incident on a plurality of filter plates of light intensity wave filter swiveling wheel, exports the second coloured light of different brightness degrees.
3. light processor according to claim 2, is characterized in that: described light source brightness adjusting device also comprises and the coaxial mounted scattering wheel of described light intensity wave filter swiveling wheel;
Described scattering wheel carries out scattering for the first coloured light that described light source is sent.
4. according to the light processor described in claim 2 or 3, it is characterized in that: described light intensity wave filter swiveling wheel is for circular, and wherein each filter plate is the fan filtering sheet that size is identical.
5. according to the light processor described in claim 2 or 3, it is characterized in that:
Filter plate quantity in described light intensity wave filter swiveling wheel is identical with the brightness figure place of described the 3rd coloured light;
Described digital light processing module comprises a digital light process chip, for described the second coloured light is modulated into the 3rd coloured light.
6. light processor according to claim 5, is characterized in that:
Described digital light process chip is specially the process chip of k times that picture frame frequency is described first frequency, and k is the brightness figure place of described the 3rd coloured light.
7. light processor according to claim 1, is characterized in that:
Described light source brightness adjusting device comprises voltage controller and/or current controller, described voltage controller and/or current controller are for regulating voltage and/or the electric current of described light source, and the first coloured light that described light source is sent is modulated into the second coloured light distributing with certain brightness degree;
Described digital light processing module, for receiving the second coloured light of described voltage controller and/or current controller output, is modulated to the 3rd coloured light output by described the second coloured light.
8. light processor according to claim 1, is characterized in that:
Described light source brightness adjusting device comprises acousto-optic modulator;
Described acousto-optic modulator is positioned on the output light path of described light source, for described the first coloured light being modulated into the second coloured light distributing with certain brightness degree by input sound wave;
Described digital light processing module is positioned on the output light path of described acousto-optic modulator, for receiving the second coloured light of described acousto-optic modulator output, described the second coloured light is modulated to the 3rd coloured light output.
9. high frame frequency gray scale shows an imaging device, comprises the light processor as described in claim 1-8 any one, it is characterized in that: also comprise projection optics element;
Described projection optics element is positioned on the output light path of described digital light processing module, for receiving the 3rd coloured light of described digital light processing module output, and described the 3rd coloured light is projected on screen and is shown.
10. a light disposal route, is characterized in that, comprising:
Step 1: light source sends the first coloured light, described the first coloured light is laser;
Step 2: light source brightness adjusting device receives described the first coloured light, and described the first coloured light is adjusted to the second coloured light the output distributing with certain brightness degree;
Step 3: digital light processing module receives the second coloured light of light source brightness adjusting device output, is modulated to the 3rd coloured light output by described the second coloured light.
11. smooth disposal routes according to claim 10, is characterized in that:
Described step 2 comprises:
Light intensity wave filter swiveling wheel rotates with first frequency, and the light of being exported by light source is incident on a plurality of filter plates of light intensity wave filter swiveling wheel, and exports the second coloured light of different brightness degrees.
12. smooth disposal routes according to claim 11, is characterized in that:
Described step 2 also comprises:
The first coloured light light source being sent with the coaxial mounted scattering wheel of light intensity wave filter swiveling wheel carries out scattering.
13. according to the light disposal route described in claim 11 or 12, it is characterized in that:
Described step 2 comprises: the filter plate quantity in light intensity wave filter swiveling wheel is identical with the brightness figure place of the 3rd coloured light;
Described step 3 comprises: digital light processing module comprises a digital light process chip, for described the second coloured light is modulated; Doubly, k is the brightness figure place of described the 3rd coloured light to the k that the picture frame frequency of digital light process chip is described first frequency.
14. smooth disposal routes according to claim 10, is characterized in that:
Described step 2 comprises:
Voltage controller and/or current controller regulate voltage and/or the electric current of light source, and the first coloured light that light source is sent is modulated into the second coloured light distributing with certain brightness degree;
Described step 3 comprises:
The second coloured light of digital light processing module receiver voltage controller and/or current controller output, is modulated to the 3rd coloured light output by described the second coloured light.
15. smooth disposal routes according to claim 10, is characterized in that:
Described step 2 comprises:
Acousto-optic modulator is modulated into described the first coloured light by input sound wave the second coloured light distributing with certain brightness degree;
Described step 3 comprises:
Digital light processing module receives the second coloured light of acousto-optic modulator output, and described the second coloured light is modulated to the 3rd coloured light output.
16. according to the light disposal route described in claim 10-12,14,15 any one, it is characterized in that, also comprises:
Step 4: projection optics element receives the 3rd coloured light of digital light processing module output, and described the 3rd coloured light is projected on screen and is shown.
Priority Applications (1)
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| JP2006058339A (en) * | 2004-08-17 | 2006-03-02 | Seiko Epson Corp | Image display device |
| JP4752569B2 (en) * | 2006-03-29 | 2011-08-17 | カシオ計算機株式会社 | Projection apparatus, light source control method, and program |
| TWI427615B (en) * | 2009-07-14 | 2014-02-21 | Hannstar Display Corp | A display apparatus with auto brightness adjustment and method thereof |
| CN101995627A (en) * | 2009-08-27 | 2011-03-30 | 上海华博数码科技有限公司 | Band-pass color wheel device for three-dimensional stereoprojection display |
| CN202710910U (en) * | 2012-07-16 | 2013-01-30 | 耿征 | Light processing device and high-frame frequency gray scale display imaging device |
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