NL8702402A - COMBINED BODY MODIFY AND BRIGHTNESS CONTROLLED FUNCTIONAL CONTROL DEVICES OF AN LED DISPLAY DEVICE. - Google Patents

Description

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Combined construction and brightness controllable functional control device of an LED display device.

This invention relates to a combined structure-adjustable and brightness-adjustable functional control device of an LED display device / in particular to a control device in cooperation with a computer 5 to control the respective LED display unit of a large LED display device so that each LED of the LED display unit or the entire LED display device has substantially the same brightness.

LED displays are now widely used in memory displays, information communications, and so on. A large colored LED display device can be formed from a number of LED display units, in which each LED display unit is again composed of a number of matrix LED plates. In the general manufacturing process of the LED board, two or more different colored LED chips are applied to a desired portion of a printed circuit board and with the degree of brightness of the respective LED chip, the color of the LED board is determined. For example, each LED has seven brightness classes: L, Μ, N, P, Q, R and S. If we assume that a 20 LED is composed of a red chip and a green chip, then if the red chip is the M brightness class and the green chip has the P brightness class, the whole color of the LED is therefore of the MP class type. According to such a combination, there are at least forty-nine color class types. Therefore, even if the numerous LED plates of a respective LED display unit have the same brightness when a plurality of LED display units are collected in a large LED display unit, it would be time-wasting and cost-consuming because the LED display units with the same brightness should be selected and 30 mismatched units removed.

As mentioned above, the color of the LED display unit is adjustable by controlling the brightness of & 702402 - 2 - the respective LED chips. The known method uses different current values to control the brightness of the LEDs, which will result in overflow of the current and limitation of the adjustable range of brightness.

Furthermore, it is also impractical because for the manufacture of an LED display device, first the volume of the desired LED display device, the power used for feeding and dissipating, and then the application of a circuit with the calculated conditions should be determined and when once 10 a different LED display is required than all the processes above must be repeated.

Accordingly, in a first object of this invention, to provide a controller of the LED display unit which interacts with a computer via a buffer, the controller of the LED display unit comprising a central processing unit (CVE) which stores the data from the computer to draw a picture on the LED display, similar to that of the computer, and to control the brightness and color of the LED display.

The second object of the present invention is to provide a controller of the LED display unit comprising a data shifter connected to the columns of the LED display unit and a scan driver connected to the rows of the LED display unit. display unit, so that when a signal is input to the CPU of the LED display unit, all the LEDs will have substantially the same brightness and the scan driver will scan the desired LEDs and light them.

The third object of this invention is to provide a controller of the LED display unit further comprising an address selector switch and a brightness switch, each LED display unit being pre-addressed and the color of the LED display unit determined by a pulse width recorded by the CPU from the brightness switch.

The next object of this invention is to provide a control of the LED display unit having an input port and an output port so that multiple LED display units can be inserted into a large LED display without having to redo to design.

Further objects and advantages of the present invention will become apparent from the following description, and the novel features which characterize the invention will be particularly set out in the claims which are incorporated and which form part of the invention.

For further understanding of the present invention, reference is made to the following detailed description and the accompanying drawings.

Figure 1 shows a perspective view of the LED display unit comprising an input port and an output port; Figure 2 is a perspective view showing two different colored LED chips installed together; Figure 3 is an exemplary embodiment of this invention showing the cooperation of an LED display device and a computer; Figure 4 is a block diagram of the controller of the LED display unit of this invention; Figure 5 shows a simple block diagram of the connection of multiple LED displays / Figure 6 shows a detailed electrical circuit of the controller of the LED display of this invention; and Figure 7 shows a serial input and parallel output scheme of a data shift circuit and a scan driver of the present invention.

With reference to all drawings, in particular to Figures 1 to 3, this invention in principle discloses a control device 10 of an LED display unit 11, which is used to enable a number of LED display units 11 8702402.

- 4 - assemble into a large LED display device 20 and to connect the combined LED display device 20 to a computer 30, and via the control of the computer 30, the LED control device 20 can produce a drawing thereon which is the same 5 to that of the computer. In addition, the brightness and color of the large LED display device 20 is controllable and controlled by a CPU 14 (shown in Figure 4) of each LED display unit 11.

Each LED display unit 11 is composed of 10 eight LED plates 4 and each LED display plate 4 comprises eight LEDs 41 per column and eight LEDs 41 per row. To show the different colored effects, each LED 41 includes at least two colored LED chips 411 mounted therein (Figure 2). In the following description, a red and a green LED chip will be included to describe the main features of the controller 10 of the invention. An input port 12 and an output port 12 'are included in each LED display unit 11 so that multiple such LED display units 11 can be directly assembled into a desired large LED display.

Referring now to Figures 4 to 8, particularly to Figures 4 to 6, a block diagram and the corresponding electrical circuit of the controller 10 of the present invention are shown, respectively. The controller 10 includes a CPU 14, a RAM 15, an address selector switch 16, a brightness switch 17, a data shift switch 18, and a scan driver 19. A buffer 13 is connected to the input terminal of CVE 14, which is an input port 12 with an output port 12 '. The input port 12 receives the address, data and control signals from the computer 30 and the like via an address bus 131, a data bus 132 and a control bus 133. The output port 12 'outputs the three signals mentioned above. To this end, in order to assemble a larger LED display, the output port 12 'of the LED display unit is connected to an input port 13' of another LED display unit, as shown in Figure 5. The input 8702402-5 - installing the buffer 13 will stabilize the current in the controller 10 and the LED display unit 11 so that a number of LED display units 11 will be combined without attenuation.

The brightness switch 17 and the address selector switch 16 are respectively connected to the CPU 14 via a buffer 171 (or 161). The CPU 14 receives the signals from the brightness switch 17 and the address selector switch 16 and a pulse wave / supplied according to the received signals, is output from the CPU 14 to the data shift switch 18 via a red LED data bus 101, a green LED data bus 102, a clock 103 and a selection bus 104, and is also output to the scan driver 19 via the RAM 15 and the two scan buses 108 and 109. As shown in Figure 7, the data shift circuit 18 includes eight pairs of shift registers 181 and shift drive 15. device 182 connected to the columns of the LED display unit 11 and the scan driver 19 connects the rows of the LED display unit 10 via the scan buses 108 and 109. The pairs of shift registers 181 and the shift drive 182 are also arranged in series so that all LED -'s on the LED-20 display unit 11 will have substantially the same brightness.

The color of the LED display unit 11 is determined by the pulse width output signal from the CPU 14. As mentioned above, the combination of the red and green LED chips of different brightness classes will produce different colors. The CPU 14 receives the signals from the brightness switch 17 and encodes the received signals into a pulse wave, and then the data shift circuit 18 drives the red LED and the green LED in accordance with the respective pulse width to provide the desired color.

The address selector switch 16 pre-sets the address of the respective LED display unit 11 of the large LED display device 120. The brightness of each LED display unit 11 is also preset by the brightness switch 17. As mentioned above, the computer 30 selects the desired address for brightness according to the desired drawing. It is also clear that the color control is provided by the brightness switch 17 with a larger controllable range because the color is changed linearly according to the pulse width of the red LEDs and the green LEDs, respectively. Furthermore, it is not necessary to redesign a new control device for a large control unit in order to provide a more economical effect.

Since various possible embodiments of the invention above can be accomplished without departing from the scope of the invention, it will be understood that any matter described or shown herein in the accompanying drawings should be interpreted as illustrative and not as restrictive. It will therefore be appreciated that the drawings are exemplary of a preferred embodiment of the invention.

8702402

Claims (4)

1. Combined construction and brightness controllable functional control device for an LED display, characterized by a CPU receiving the signals from an external computer / a brightness switch which pre-sets the brightness of the LED display unit / and an address selector switch that presets the address of the LED display unit so that the entire brightness of a large number of LED display devices is substantially the same. Device according to claim 1, characterized in that the rows and columns of the LED display unit are controlled with a pulse signal respectively by a scanning driver and a data shifting circuit, the pulse signal being output by the CPU and a RAM and corresponding with the pulse width of the pulse signal, the data shift circuit and the scan driver control the brightness of each LED chip installed on the LED of the LED display unit to achieve the desired color. The bird lens device of claim 1, characterized by a buffer connected to the CPU, wherein the buffer has an input port 20 and an output port in which the output port can be connected to an input port of the next LED display so that a large LED display is composed by multiple LED display units. Device according to claim 1, characterized in that the brightness switch and the address selection switch are respectively connected to the CPU via a buffer. -o-o-o-o-o-o-o-o-o-o- 8702402