JP3417326B2 - LED display device and control method of LED display device using the same - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an LED display device in which a light emitting diode is electrically connected to a plurality of LED units arranged in a desired shape so that communication can be performed efficiently and maintenance-free. Regarding the device.

[0002]

2. Description of the Related Art Today, light emitting diodes capable of emitting light with an extremely high brightness of 1000 mcd or more are RGB (red, green, blue).
It was developed for each. Along with this, the number of large-sized LED displays and the like that can be used outdoors as one kind of LED display device is rapidly increasing due to the advantages of light weight, thinness, and low power consumption.

The LED display is constructed as one screen by combining a plurality of LED units according to the installation place. RGB on each board for each LED unit
The light emitting diodes are arranged in a dot matrix. Further, a drive circuit capable of individually driving each light emitting diode is provided. In the LED display, an LED control device for transferring display data and a plurality of LED units are connected in a one-to-many manner. The larger the LED display, the more LED units are connected. For example, an LED display may be configured by combining LED units of 300 vertical by 400 horizontal.

By the way, the LED display is operated in each LED unit on the basis of the transfer data such as display data, brightness correction data and various control data transferred from the LED control device, and each image data is processed to emit light. The lighting of the diode is controlled so as to have a desired brightness. The lighting of each light emitting diode can be displayed as a desired image on the entire LED display. Therefore, the data transferred from the controller needs to determine which data is to be provided to which LED unit. Therefore, it is necessary for each LED unit to hold identification information for identifying the difference from other LED units.

[0005]

However, the LED
The displays are usually L manually one by one in high places.
The ED units are individually combined and configured. Also, there are various types of connection methods and forms. Further, the LED display is often reassembled for maintenance or the like. Therefore, it is extremely difficult to make each LED unit recognize the individual identification information in advance and assemble them in order. Therefore, once all LED units have been assembled to form an LED display, LE
The present situation is that the identification information is separately given to each D unit. Specifically, a storage unit that constantly stores and holds the identification information is provided in the drive circuit provided on the back surface of the LED unit, and the identification information of each LED unit is set by switching a dip switch or the like for each LED unit. Have changed. By changing the bit pattern of each LED unit,
Identification information is added to the data transferred from the LED control device to determine which LED unit displays a desired image pattern.

Therefore, after the LED display is assembled, the identification information of each LED unit must be manually added one by one, which is one of the extremely complicated and time-consuming operations. In particular, at the present time when the size of the LED display is increased and the number of LED units is increased, or the number of LED units that are irregularly combined due to the restriction of the installation place is increased, the efficiency of work efficiency is particularly required.

Therefore, according to the present invention, the identification information for each LED unit is collectively given to each LED unit constituting the LED display by using the cable for transmitting the image data, so that the safety and the work efficiency are improved. It is an object to provide a remarkably excellent LED display.

[0008]

SUMMARY OF THE INVENTION The present invention is an LED control device for transferring data for controlling lighting of a light emitting diode,
LE having a plurality of LED units connected by a control bus for sequentially transferring data from the LED control device
A D display device, wherein each of the LED units comprises:
The LED control device controls all LEs when the power is turned on.
The identification information common to the D units is used to transfer a control command for switching the output stage selector of each LED unit from the control bus side to the internal bus side to all the LED units, and then the LED control device or any LED unit performs self control. Identification information conversion means for converting the identification information transferred to the different identification information to different identification information, and the different identification information
Via the identification information storage means for storing the identification information for each D unit and the internal bus of its own LED unit,
Further, after transferring the different identification information to the LED unit of the next stage, means for autonomously switching its own output stage selector from the control bus side to the internal bus side, the LED display device. Is. With this, it is possible to provide an LED display device capable of providing individual identification information to each LED unit with a relatively simple configuration.

An LED display device according to a second aspect of the present invention is the LED display device according to the first aspect, wherein the control bus is a serial bus or a parallel bus. As a result, even when a large-sized LED display device is configured by using the display data transfer bus, the configuration can be relatively simple.

In the LED display device according to claim 3 of the present invention, the identification information storage means is a temporary storage means for storing the transferred identification information or the identification information converted by the identification information conversion means. The LED display device according to 1. This makes it possible to easily re-add identification information when desired, such as when inspecting or reassembling the LED display device.

According to a fourth aspect of the present invention, there is provided a method of controlling an LED display device, comprising: an LED control device for transferring data for controlling lighting of a light emitting diode; and a control bus for sequentially transferring data from the LED control device. A method for controlling an LED display device having a plurality of connected LED units, wherein the LED control device controls by an output stage selector using identification information that all LED units have in common at power-on. Control information for switching between a bus and an internal bus is transferred to all the LED units, and the output stage selectors of all the LED units are switched from the control bus side to the internal bus side, and then the LED control device is operated by the LED control device. The predetermined identification information is transferred to the first LED unit connected to the first LED unit, and the first LED unit receives the identification information. After the identification information of the above is converted based on a certain function, it is stored as the first identification information, and the first identification information is transferred from the first LED unit to the second LED unit connected next. After that, a first step of autonomously switching the output stage selector from the internal bus side to the control bus side, and after the second LED unit converts the received first identification information based on a predetermined function, 2 as the identification information, and after transferring the second identification information from the second LED unit to the next connected third LED unit, the output stage selector is autonomously operated from the internal bus side to the control bus. The second step of switching to the side, and the nth (n ≧ 3) LED unit stores the received n−1th identification information after converting it based on a predetermined function as the nth identification information, The above After transferring the n-th identification information from the LED unit of No. 1 to the next (n + 1) -th LED unit, the output stage selector autonomously switches from the internal bus side to the control bus side. The method for controlling an LED display device is characterized in that identification information is assigned to all the LED units. With this, the identification information can be provided to each LED unit forming the LED display device relatively easily.

According to a fifth aspect of the present invention, there is provided a method of controlling an LED display device, comprising: an LED control device for transferring data for controlling lighting of a light emitting diode; and a control bus for sequentially transferring data from the LED control device. A method for controlling an LED display device having a plurality of connected LED units, wherein the LED control device controls by an output stage selector using identification information that all LED units have in common at power-on. Control information for switching between a bus and an internal bus is transferred to all the LED units, and the output stage selectors of all the LED units are switched from the control bus side to the internal bus side, and then the LED control device is operated by the LED control device. The predetermined identification information is transferred to the first LED unit connected to the first LED unit, and the first LED unit is connected to the predetermined LED unit. After storing the different information, said first
The second identification information obtained by converting the predetermined identification information based on a certain function is transferred from the LED unit of No. 2 to the second LED unit connected next, and the output stage selector is autonomously controlled from the internal bus side. After the first step of switching to the bus side, the second LED unit stores the second identification information, the second LED unit is connected to the third LED unit connected next to the third LED unit. A second step of transferring third identification information obtained by converting the second identification information based on a certain function and autonomously switching the output stage selector from the internal bus side to the control bus side; and the nth (n ≧ 3) The LED unit stores the (n-1) th identification information,
N + 1th LED connected next from the LED unit of
Transferring the n + 1th identification information obtained by converting the nth identification information based on a certain function to the unit, and autonomously switching the output stage selector from the internal bus side to the control bus side. The method for controlling an LED display device is characterized in that identification information is assigned to all the LED units. With this, the identification information can be provided to each LED unit forming the LED display device relatively easily.

[0013]

DETAILED DESCRIPTION OF THE INVENTION As a result of various experiments, the present inventor
By using the control bus for data transfer provided between the ED units, the LE has a relatively simple structure.
The inventors have found that identification information can be added to each D unit and have completed the present invention.

That is, a control bus having a data communication function provided between the LED units is used to send a command for controlling the LED units from the LED control device. As a result, each LED unit recognizes and stores individual identification information different from other LED units. By using the identification information, the display data, the brightness correction data, and the various control data transferred to each LED unit can be individually received and the lighting control can be performed. for that reason,
The LED display can be configured without being affected by the installation location or installation configuration of each LED unit. It is possible to configure a large-sized display without constantly changing the identification information stored in the storage means manually.

Hereinafter, an example of the present invention will be described in detail. FIG. 1 shows a schematic block configuration diagram constituting an LED display as an embodiment of the present invention. A plurality of LED units are electrically connected to an LED control device for controlling display data transfer of the entire LED display.
As the LED display, the LED units are arranged in a matrix or the like to form a display surface having a desired shape as a whole. The LED control device and the LED units or the LED units are connected in series by a control bus. The LED unit includes a control unit that changes the received identification information value by a predetermined algorithm. Further, it is also provided with an identification information storage means for storing the identification information value which is processed by the control unit and becomes an individual value for each LED unit.

The LED control device issues a control command for switching the output stage selector to the internal bus side in advance to all the LED units. Next, the initial identification information is transferred from the LED control device to the LED unit at the first stage via the control bus. At this time, the identification information is changed by a predetermined algorithm and transferred to the next connected LED unit. The received identification information is stored in the identification information storage means in the LED unit as its own identification information. Next LED remembered
The unit repeats the same operation and sequentially stores different identification information for all the LED units in the internal storage means. After the identification information is given to all the LED units, the control bus switches the output stage selector as a control bus for transferring normal display data.
Hereinafter, each configuration of the present invention will be described in detail. (LED Control Device) The LED control device transfers video data and control data for controlling each LED unit to the LED unit side. Therefore, the video source can be configured independently or integrally. For example, in the case of independently configuring video data from a video device, a DVD device, etc., the video data is received by the control means side using those devices themselves as a video source and AD (analog t
o Digital) conversion etc. After conversion, control device
Can be transferred as digital data. on the other hand,
When the video source for outputting digital data and the control means are integrally formed, the digital data can be directly transmitted to the LED unit side. (LED Unit) The LED unit can be composed of a light emitting diode, a driving means for driving the light emitting diode, an identification information converting means, an identification information storing means, a comparing means and the like which are specially provided for the present invention. These various means can be configured by using a semiconductor memory, a logic circuit or a central processing unit.

An LED display can be constructed by combining LED units of various sizes or a plurality of LED units according to the size of the screen. Similarly, if the screen is relatively large, the LED
One LE with LED display that collects multiple units
It is configured as a D module. An LED display can be configured by collecting a plurality of these LED modules. (Light Emitting Diode) The light emitting diode used in the LED unit can be formed by using two or more plural elements such as a dot matrix shape. When used in an LED display capable of full-color display, for example, it can be configured by arranging light-emitting diodes capable of emitting R, G, and B in a 16 × 16 matrix as one pixel.

The light emitting diodes are GaP, GaAs, G
aN, InN, AlN, GaAsP, GaAlAs, I
nGaN, AlGaN, AlGaInP, InGaAl
An example is one in which a semiconductor material such as N is used for the light emitting layer. The structure of the semiconductor element is also MIS junction, PIN junction or pn
Examples thereof include a homo structure having a junction, a hetero structure, or a double hetero structure.

The emission wavelength can be variously selected from ultraviolet light to infrared light depending on the semiconductor material and the mixed crystal ratio thereof. Furthermore, a single quantum well structure or a multiple quantum well structure can be used in which the light emitting layer has a thin film having a quantum effect.

Not only the three primary colors of RGB, but also BG (blue-green)
It is also possible to use a light emitting diode in which light emitted from the light emitting diode such as R and R (red) has a complementary color relationship, or a light emitting diode in which light from an LED chip is combined with a fluorescent substance that is excited by the light and emits light. When a fluorescent substance is used, by using a fluorescent substance that is excited by light from the light emitting diode and converted into a long wavelength, a light emitting diode capable of emitting white light with good linearity can be obtained by using one type of light emitting element. .

The light emitting diode may have various shapes. Specifically, an LED that is a light emitting element
Examples thereof include those that electrically connect a chip to a lead terminal by using a wire or a conductive paste, and that use a bullet type, a chip type LED or a light emitting element itself covered with a mold resin. (Driving Means) The driving means can supply power to the light emitting diodes to drive only the desired light emitting diodes. Specific examples include static drive and dynamic drive. When dynamically driving the LEDs arranged in a dot matrix, the common driver selectively controls the LED groups arranged in each segment at a constant cycle, and the segment driver adjusts the current flow time to obtain the desired emission color. You can (Identification Information Conversion Means) The identification information conversion means arithmetically applies identification information for each LED unit. The identification information value from the LED unit directly above and the LED control device connected by the control bus is changed by a desired function such as addition one by one by a processing block provided inside the LED unit or the like.
The processing block for calculating the identification information can use various algorithms as long as individual identification information can be given to each LED unit in addition to simple addition and subtraction to information given in advance by using a central processing unit or the like. it can. (Identification Information Storage Means) The identification information storage means provided in the LED unit is
The identification information for distinguishing each ED unit is stored. Such storage means can be configured by using various semiconductor memories such as a register, a RAM, which is a temporary storage memory. Each identification information is
The setting instruction of the identification information and the setting data are transferred from the control means side to all the LED units, and the output stage selector is switched to the internal bus. Then, the value of the identification information from the first LED unit is incremented by 1 and the LE of the next stage is incremented.
Individual identification information can be obtained by repeating the work of transferring to the D unit. By sequentially incrementing the identification value, it is possible to automatically assign the identification information under the control of the control means without providing a constant storage means such as a DIP switch for each LED unit and assigning the unit ID. (Comparison means) The LED unit, after obtaining the individual identification information, autonomously switches the output stage selector to the control bus side and compares each transferred data with the identification information of each LED unit by the comparison means, and then its own LED. Only unit information can be imported. The comparison means compares the identification information of the data transferred from the LED control device with the identification information stored in the storage means of each LED unit. As a result of the comparison, if they coincide with each other, they are selectively received as the data of their own LED unit, and can be configured by a comparison circuit such as an exclusive OR or a central processing unit. Hereinafter, specific examples of the present invention will be described in detail, but it goes without saying that the present invention is not limited thereto.

[0022]

(Example 1) One pixel is configured by a light emitting diode capable of emitting RGB light as an LED unit. A set of RGB light emitting diodes is arranged in a 16 × 16 dot matrix on the substrate.

The drive circuit includes a drive means for dynamically driving each light emitting diode, a register which is a temporary storage memory as a storage means for temporarily holding the transferred data, and a light emitting diode for each light emitting diode on the basis of the received data. The control means and the LED unit are connected as a control bus to calculate the amount of current to be supplied and the pulse width.
A control unit that controls communication of the D unit is provided.

Particularly, in the present invention, M as an arithmetic means for adding 1 to the inputted identification information value (ID = "00")
A PU and a register as a temporary memory serving as identification information storage means are provided.

Further, the LED control means has an output stage selector for switching the data output in order to selectively process the identification information separately from the normal display data by utilizing the control bus. The data switching means is composed of a selector circuit that switches between the control bus and the internal bus in the output stage of each LED unit, and switching control of the selector circuit is implemented by sending control information from the control device. As shown in FIG. 1, each LED unit having the above-described configuration is connected to a control device or between LED units by a control bus. The control bus may be a parallel bus or a serial bus. Similarly, it can be performed by wireless communication means by infrared communication.

Next, the identification information giving method of the present invention will be described. FIG. 2 shows the state of the output stage selector before setting the identification information or during normal operation. After the power is turned on, the initial identification information stored in the identification information storage means of each LED unit is, for example, ID = ”as identification information common to all LED units.
0 ". At this time, the output stage selector operates so as to be on the control bus side (" A "side in the figure). That is, the control device uses the identification information common to all the LED units,
It is possible to control all LED units at once. In this state, a control command for switching the output stage selector from the A side to the B side is issued to all LED units. Then, the output data of each LED unit can be transferred from the control unit in each LED unit to the next LED unit via the internal bus. The state is shown in FIG. 3 (the thick line with an arrow indicates the flow of data).

The output stage selector is connected to the internal bus side ("B" in the figure).
Side), the controller further detects the initial identification information,
That is, the value of the identification information of the first LED unit connected to the control device is transferred to the first LED unit. The first LED unit transfers the value obtained by adding 1 to the value of the initial identification information to the LED unit of the next stage. Next LE
The D unit stores the received identification information in its own temporary storage memory and further transfers it to the next LED unit as a value obtained by adding 1 to the value of the identification information received by the LED unit in the next stage. In this way, arithmetic processing is performed on the value of the identification information received by a predetermined algorithm such as adding 1 to the predetermined value (addition in this case). The information before the arithmetic processing may be the identification information of the own LED unit, and the information after the arithmetic processing may be the identification information of the own LED unit. By performing these reception processes up to the LED unit at the final stage, the LED unit is autonomously automatically set with the identification information. After each LED unit stores its own identification information in the temporary storage memory and transfers the calculated identification information to the LED unit at the next stage, the LED unit that completes the transfer autonomously controls the output stage selector on the control bus side (in the figure). ”
It will be switched to the "A" side) to return to the state of FIG.

Thus, in all LED units,
After setting the individual identification information, each LED unit can be individually controlled via the control bus from the normal control device, and desired image data and the like can be displayed.

[0029]

By using the LED display device of the present invention, the LEs are individually and manually operated by the control of the LED control device.
It is possible to automatically add the identification information of each LED unit with an extremely simple configuration without adding the identification information of each D unit. Therefore, the identification information can be automatically added regardless of the size of the LED display screen or when the LED display is reassembled. Further, the circuit configuration can be simplified by eliminating the need for a circuit for always storing the identification information.

[Brief description of drawings]

FIG. 1 is a schematic circuit block of an LED display device of the present invention.

FIG. 2 is a schematic circuit block diagram showing the flow of display data when the LED display device of the present invention is driven to light.

FIG. 3 is a schematic circuit block diagram showing a flow of identification data when identification information is added to the LED display device of the present invention.

[Explanation of symbols]

101 ... Control device 102 ... Internal circuit of LED unit 103 ... Control unit 104 ... Output stage selector 105 ... Identification information storage means 200: Indicates the flow of data such as display data 300 ... Shows the flow of data such as identification information.

─────────────────────────────────────────────────── ─── Continuation of the front page (58) Fields surveyed (Int.Cl. ⁷ , DB name) G09G 3/20 G09G 3/32 G09G 5/00 G06F 13/14

Claims (5)

(57) [Claims] 1. An LED display device comprising: an LED control device for transferring data for controlling lighting of a light emitting diode; and a plurality of LED units connected by a control bus for sequentially transferring data from the LED control device. In the LED units, the LED control device controls all LEs when the power is turned on.
The identification information common to the D units is used to transfer a control command for switching the output stage selector of each LED unit from the control bus side to the internal bus side to all the LED units, and then the LED control device or any LED unit performs self control. Identification information conversion means for converting the identification information transferred to the different identification information to different identification information, identification information storage means for storing the different identification information as individual identification information of its own LED unit, and via the internal bus of its own LED unit Then, after further transferring the different identification information to the LED unit at the next stage, the output stage selector of itself is automatically switched from the control bus side to the internal bus side. LED display device. 2. The LED display device according to claim 1, wherein the control bus is a serial bus or a parallel bus. 3. The LED display device according to claim 1, wherein the identification information storage means is a temporary storage means for storing the transferred identification information or the identification information converted by the identification information converting means. 4. A control of an LED display device having an LED control device for transferring data for controlling lighting of a light emitting diode, and a plurality of LED units connected by a control bus for sequentially transferring data from the LED control device. In the method, the LED control device controls all LEs when power is turned on.
Using the identification information that the D unit has in common, the control information for switching the control bus and the internal bus by the output stage selector is transferred to all the LED units, and all the L units are transferred.
After switching the output stage selector of the ED unit from the control bus side to the internal bus side, the LED control device outputs the LE
The first identification information is transferred to the first LED unit connected to the D control device, and the first identification unit converts the received predetermined identification information based on a certain function, and then the first identification unit. After being stored as information, after transferring the first identification information from the first LED unit to the second LED unit connected next, the output stage selector is autonomously switched from the internal bus side to the control bus side. In a first step, the second LED unit stores the received first identification information as second identification information after converting the first identification information based on a predetermined function, and then stores the second identification information from the second LED unit. After transferring the second identification information to the connected third LED unit, the second step of autonomously switching the output stage selector from the internal bus side to the control bus side, and the n-th (n ≧ 3) LED Wherein said n knit has received
−1 identification information is converted based on a predetermined function and then stored as the nth identification information, and the nth identification information is stored from the nth LED unit to the n + 1th LED unit connected next. After the transfer, an n-th step of autonomously switching the output stage selector from the internal bus side to the control bus side is performed, and identification information is assigned to all the LED units. . 5. A control of an LED display device having an LED control device for transferring data for controlling lighting of a light emitting diode and a plurality of LED units connected by a control bus for sequentially transferring data from the LED control device. In the method, the LED control device controls all LEs when power is turned on.
Using the identification information that the D unit has in common, the control information for switching the control bus and the internal bus by the output stage selector is transferred to all the LED units, and all the L units are transferred.
After switching the output stage selector of the ED unit from the control bus side to the internal bus side, the LED control device outputs the LE
D predetermined control information is transferred to a first LED unit connected to the D control device, and the first LED unit stores the predetermined identification information, and then connects from the first LED unit to the next. Transfer the second identification information obtained by converting the predetermined identification information based on a certain function to the generated second LED unit,
A first step of autonomously switching the output stage selector from the internal bus side to the control bus side; and after the second LED unit stores the second identification information, the second LED unit is connected next. Transfer the third identification information obtained by converting the second identification information based on a certain function to the generated third LED unit,
The second step of autonomously switching the output stage selector from the internal bus side to the control bus side, and after the nth (n ≧ 3) LED unit stores the n−1th identification information, the nth LED is stored. The unit transfers the (n + 1) th identification information obtained by converting the nth identification information based on a certain function to the (n + 1) th LED unit connected next, and the output stage selector autonomously operates from the internal bus side to the control bus. And the n-th step of switching to the
A method for controlling an LED display device, which comprises allocating identification information to an ED unit.