1. The utility model provides a LED banks adjustable LCD projection system which characterized in that: the system comprises a video decoding module, an LCD display module, an optical imaging module and an LED backlight module; wherein the content of the first and second substances,

the video decoding module converts the video signal into an RGB digital signal and outputs the RGB digital signal, a scanning signal, a clock signal and a reference voltage to the LCD display module; meanwhile, different 4-color driving signals are dynamically output to the LED backlight module according to the R data volume, the G data volume and the B data volume in the RGB digital signals; the driving signals of the white light LED lamp in the 4-color driving signals are constantly output;

an LED power driving chip of the LED backlight module receives the 4-color driving signal and drives the LED lamp set; the LED power driving chip comprises a white LED power driving chip for driving a white LED lamp, a red LED power driving chip for driving a red LED lamp, a green LED power driving chip for driving a green LED lamp and a blue LED power driving chip for driving a blue LED lamp;

the LCD display module displays the RGB digital signals into an image, and the optical imaging module enlarges and projects the image.

2. The LCD projection system with adjustable LED light bank of claim 1, wherein: the driving signal includes, but is not limited to, a PWM manner.

3. The LCD projection system with adjustable LED light bank of claim 1, wherein: more than 50% of the area of the LED lamp group is arranged into white LED lamps, and the rest part is arranged into RGB three-color lamps.

4. The LCD projection system with adjustable LED lamp set of claim 3, wherein: the total power numerical ratio of the RGB three color lamps is that the power of the red LED lamp is 1: green LED lamp power 4: blue LED lamp power 2.

5. The LCD projection system with adjustable LED lamp set of claim 3, wherein: when the color temperature of the LED lamp set is above 6500K, the current ratio of the RGB three-color lamp is 2: 5: 3.

6. the LCD projection system with adjustable LED lamp set of claim 3, wherein: the three RGB color lamps are arranged in a rectangular shape, the blue LED lamps are arranged in the middle, the green LED lamps are arranged on the two sides of the blue LED lamps respectively, and the red LED lamps are arranged in the middle of the green LED lamps.

Background

Projectors have been widely used, and the projectors are roughly classified into four types from the operation principle of a chip: CRT, LCD, DLP, LCOS. Besides the CRT, the LCD, DLP and LCOS projection technologies utilize LED illumination, the DLP is colored by a white light LED in the early stage and is changed into an RGB three-primary-color LED lamp for driving in the later stage. LCOS, LCD have white light and RGB light all use at present, white light drive and RGB three-color lamp drive respectively have the merit and shortcoming, and white light is efficient, and luminance is big, but the contrast is low, and the colour gamut is narrow. RGB efficiency is low, brightness is low, but contrast is high and color gamut is wide.

For a projection system composed of a white light LED light source and a color LCD liquid crystal display device, the brightness and color, color temperature and color rendering index, etc. of the white light source are fixed. Some devices may change brightness by adjusting the amount of power. However, in general, the brightness power, color temperature, display color gamut, and power consumption of a white LED light source plus a color LCD liquid crystal display projector cannot be dynamically adjusted.

However, in a specific playing scene, a large number of specific images often appear, such as a football field lawn, an outdoor landscape, a blue sky, a red flag, and the like, and meanwhile, a dark scene also appears continuously. The traditional color liquid crystal projector with fixed white light power is difficult to be compatible when dealing with the picture.

Disclosure of Invention

The invention aims to: the utility model provides a LED banks adjustable LCD projection system can realize the adjustable colour temperature of certain degree through the RGB banks that sets up alone in the adjustment light source under taking into account traditional low-cost white light source and color LCD's framework logic to let traditional white light LED + color LCD's projection system, obtain better effect, solved the not enough of above-mentioned problem.

The technical scheme adopted by the invention is as follows:

an LCD projection system with an adjustable LED lamp bank comprises a video decoding module, an LCD display module, an optical imaging module and an LED backlight module; wherein the content of the first and second substances,

the video decoding module converts the video signal into an RGB digital signal and outputs the RGB digital signal, a scanning signal, a clock signal and a reference voltage to the LCD display module; meanwhile, different 4-color driving signals are dynamically output to the LED backlight module according to the R data volume, the G data volume and the B data volume in the RGB digital signals; the driving signals of the white light LED lamp in the 4-color driving signals are constantly output;

an LED power driving chip of the LED backlight module receives the 4-color driving signal and drives the LED lamp set; the LED power driving chip comprises a white LED power driving chip for driving a white LED lamp, a red LED power driving chip for driving a red LED lamp, a green LED power driving chip for driving a green LED lamp and a blue LED power driving chip for driving a blue LED lamp;

the LCD display module displays the RGB digital signals into an image, and the optical imaging module enlarges and projects the image.

Further, the driving signal includes, but is not limited to, a PWM method.

Further, more than 50% of the area of the LED lamp group is arranged into a white LED lamp, and the rest part is set into RGB three-color lamps.

Further, the total power numerical ratio of the RGB three color lamps is, the power of the red LED lamp is 1: green LED lamp power 4: blue LED lamp power 2. If the luminous efficiency of the light sources of the three colors of RGB changes, the power of the light of the three colors needs to be correspondingly adjusted, and the white balance requirement is met.

Further, when the color temperature of the LED lamp set is 6500K or more, the current ratio of the RGB three-color lamps is 2: 5: 3. when the color temperature or the color needs to be adjusted, the current ratio changes correspondingly.

Furthermore, the RGB three color lamps are arranged in a rectangular shape, the blue LED lamps are arranged in the middle, the green LED lamps are arranged on the two sides of the blue LED lamps respectively, and the red LED lamps are arranged in the middle of the green LED lamps. When the overall picture of the picture is deviated to any color or a certain color component value is high, the adjustable RGB three-color lamp set independently adjusts the respective luminous intensity of the RGB three-color light sources to form the color and the color temperature corresponding to the picture, so that the picture can better accord with the color of the picture.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. under the condition of the same power, the color temperature and the color rendering index can be adjusted on the same station, so that the image quality can be improved.

2. The middle part can be driven or closed wholly, so that LOCAL area backlight with a certain effect can be realized according to the picture, which is equivalent to LOCAL DIMMING, and the contrast of the picture can be obviously improved.

3. The method has a good effect on the image quality of a picture with a specific large proportion and a specific color, can improve the specific light quality of the specific picture, and is beneficial to improving the illumination proportion of the specific color, thereby improving the image quality.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and that for those skilled in the art, other relevant drawings can be obtained according to the drawings without inventive effort, wherein:

FIG. 1 is a schematic diagram of a conventional LED lamp array arrangement;

FIG. 2 is a schematic diagram of a conventional LED lamp assembly arrangement according to the present invention;

fig. 3 is a schematic diagram of the system structure of the invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the detailed description and specific examples, while indicating the preferred embodiment of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without making any creative effort, shall fall within the protection scope of the present invention.

It is noted that relational terms such as "first" and "second," and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The features and properties of the present invention are described in further detail below with reference to examples.

Comparative example 1

The LED lamp set arrangement of the conventional projection system is shown in fig. 1:

the total number of the white LED lamps is 13 × 10, the connection principle is that 10 white LED lamps are connected in series, 13 groups are formed in total, and then 13 groups of LED lamp modules are connected in parallel. The driving duty ratio is fixed PWM driving, the maximum power consumption and the highest brightness are achieved, the LED circuit is driven to be a single driving circuit, and the power consumption is constant;

the driving circuit of the projection system is responsible for lighting and driving the LED lamp set, the driving circuit is a constant-power circuit, or is provided with a plurality of high-low adjusting gears, so that the lighting power of different brightness modes can be realized.

The arrangement structure of the LED lamp groups determines the light emitting areas of the LED lamp groups, and the light emitting areas are matched with the optical devices of the lighting system to provide suitable light sources for the imaging system. The light source has the characteristics of collimation and high uniformity, and is a surface light source with a length-width ratio suitable for an imaging device.

However, the conventional projection system framework is a conventional practice of the LCD projection system in the prior art, if the white LED lamp set is changed without limit to increase the brightness, the LED lamps are arranged as many as possible, and under the same system framework, the contrast is reduced and the color saturation is reduced after the brightness is increased, and the whole image can only be adjusted together, and the dynamic adjustment cannot be performed for a specific image. Cannot change with the change of the picture. This method is therefore very limited.

Example 1

This embodiment is combined with fig. 2 and fig. 3;

modified from the white light LED lamp arrangement base of FIG. 1. Three color lamps of RGB are added in the middle of the white light LED chip in the original area.

In the conventional light source of 13 × 10 white LED lamps, 54 white LED lamps were removed from the middle. 84 RGB lamps (48 green, 12 red and 24 blue) are added.

The white light is connected in parallel and in series according to the original mode, so that higher efficiency is reserved;

an added RGB light source having the following features:

A) the RGB light sources, which are lit simultaneously or in time sequence, are normally white, and their white balance is in accordance with the overall design. For example, when the color temperature is 6500K or more, the respective current ratios of the RGB light sources are 2: 5: 3, thereby forming white-balanced white light very close to 6500K.

B) RGB light sources, each of which can be controlled individually.

The green LEDs are 6 strings 8 parallel (6 green LED lamps connected in series for a total of 8 groups of green LED lamps). The blue LEDs are 6 strings and 4 parallel (6 green LED lamps connected in series for a total of 4 groups of green LED lamps). The red LEDs are 6 strings 2 parallel (6 green LED lamps connected in series, for a total of 2 groups of green LED lamps). 4 groups of lamps are arranged

In the actual display of the LED lamp arrangement structure, the white light is mixed uniformly, and the actual display requirement is met.

C) The brightness of the sub-light sources of RGB can be controlled independently;

D) can be controlled individually because these sub-light sources are controlled by an external, independently located controller. The controller may analyze data of the picture. When the picture is a large-area specific color, the RGB light source is adjusted in light and is matched with the specific color corresponding to the picture, so that the corresponding light components are increased, the finally projected picture is realized, and the large-area specific color can be well represented.

For example, when a large area of red is used, the brightness of R in the RGB light source is increased, the controller increases the driving current of R, increases the power of R, or correspondingly decreases the driving brightness of G and B, thereby highlighting the component of R, and matching with the feature that the ratio of R in the video picture is high. Therefore, a picture with more experience is finally realized.

Example 2

The video decoding module is responsible for converting video signals into digital R/G/B signals to be output, analyzing and calculating R data volume, G data volume and B data volume in the video signals respectively, dynamically outputting different signals to the LED power driving chip according to different R/G/B data volumes after calculating the R/G/B data volume, and outputting driving signals of the white light LED lamp constantly, so that the brightness of the white LED lamp projected by the LCD is ensured to be maximum.

Specifically, when a certain color component of the frame exceeds a certain ratio, the dynamic adjustment logic is triggered.

Such as: under the condition of same power consumption and same brightness, dynamic adjustment can be carried out on a specific picture. For example, the red data occupies 40% of the frame, and then the corresponding red LED is turned on for 20% of the original fixed lighting time, or the driving current is increased to generate more R red light, so as to ensure that the red brightness is increased and the green and blue are not changed. Similarly, if the cyan data occupies 40% of the upper surface of a certain frame, the corresponding green LED and blue LED are increased by 20% in the original fixed brightness time, or the driving current is increased by a certain amount, so that the brightness is increased by 20%, and the red LED is unchanged. The projector adopting the LED dynamic backlight control technology has more and more balanced power consumption, the power consumption on the same brightness is smaller and smaller, and the color reduction degree is better and better.

The LCD display module comprises an LCD pixel matrix circuit and a driving chip, an LCD pixel driving signal is sent to an LCD liquid crystal pixel matrix to display an image, and the optical imaging module enlarges and projects the image: the optical imaging module enlarges the image through the optical system and projects the image on the projection curtain.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and should not be taken as limiting the scope of the present invention, and any modifications, equivalents and improvements made by those skilled in the art within the spirit and principle of the present invention should be included in the scope of the present invention.