KR100762980B1 - Error detection method of Electric bulletin board having a inspection function - Google Patents

Abstract

The present invention relates to an abnormality detection method in an electric signboard having an N × M matrix by using an LED element as a pixel. In particular, the entire display area constituting the signboard is transformed into m small areas having n × n matrix matrices. A first process of dividing; A second process of separately providing a power supply for each of the m small areas divided in the first process; A third step of setting the reference data by calculating an amount of power consumed for each of the m small areas divided in the first step through the second step; A fourth step of detecting a magnitude of current power consumption for each of the m small areas divided in the first step by a cycle or a test request according to a predetermined criterion; And a fifth step of determining whether there is an abnormality by comparing the magnitude of power consumption at the present time detected in the fourth step with reference data in the normal state of the system set in the third step. Providing an error detection method of an electric signboard and a corresponding signboard eliminates an increase in production cost due to the limitation of the addition of a specific control controller for error detection and the use of a special product of an LED driver IC implementing each pixel. This has the advantage that it can be easily added on the power supply path.

Description

Error detection method of electric bulletin board with inspection function {Error detection method of Electric bulletin board having a inspection function}

1 is a conceptual diagram for explaining a conventional electronic sign error detection method;

2 is a conceptual schematic diagram illustrating an automatic error detection method in an electronic sign having a check function according to the present invention;

Figure 3 is a simplified illustration of the main configuration for detecting the presence or absence of the display panel panel according to the present invention

The present invention relates to an error detection method of an electric signboard implemented as an LED pixel, and in particular, is formed by connecting a plurality of panels combining a plurality of LED pixels into a matrix for ease of maintenance and implementation when the signboard is implemented. The present invention relates to an electronic display board and an error detection method having a check function for detecting an abnormality of an LED board by determining whether LEDs constituting pixels are damaged by detecting an amount of current used by a star or each panel.

In general, the electronic display board is designed to display information on various characters / graphics by arranging a light emitting diode (LED) or a small fluorescent tube, which are light emitting elements, in a dot matrix form and selectively lighting a specific light emitting element or fluorescent tube. They are installed outdoors, such as high-rise rooftops, which are often visible to people for advertising or promotion. A host computer located at a remote location is used to display specific characters / graphics through an outdoor billboard.

That is, display control data for displaying characters / graphics and the like is transmitted to the main controller of the electronic display board remote from the host computer to perform various display / publicity display functions. In general, a display panel includes a plurality of display units in which LED pixels are installed on a front surface, and electronic circuits such as a control unit and a power supply unit are provided on a rear surface.

Therefore, when a breakdown, such as a disconnection, occurs in a pixel of the LED dot matrix constituting the display board, it may be difficult to convey the meaning to be conveyed or may have to be misunderstood, thereby losing the original meaning of the display board.

Therefore, as an example of a method for detecting a failure of an electric signboard, a series of preset display data is provided from a main controller to a microprocessor of a display control unit so that a plurality of LED pixels are turned on / off.

However, this method can be used when it is confirmed that a failure has occurred in the display module of the display board, and there is an inconvenience in that the administrator must check the failure part directly while outputting a certain pattern.

In order to solve the problems of the above-described failure detection scheme, a large number of prior arts have been proposed. As a representative example thereof is shown in FIG. 1, a certain period in the main controller 100 on a remote or local area is provided. By way of example or when necessary, the error detection unit 400 detects a state of each of the panels 301 to 310 constituting the display panel 300 and receives a report on the detection result.

1 is a conceptual diagram for explaining a conventional electronic sign error detection method, an example of a case in which the number of panels constituting the electronic sign is limited to 10 and the panel is implemented by a matrix matrix of 2 × 5. For example, the main controller 100 maintains the data transmission mode and transmits data to be displayed on the screen of the sign 300 to the sign driver 200. In the display board driver 200, the graphic data transmitted from the main control unit 100 through the display board control unit (not shown) is separated and transferred from the first access board 201 to the second access board 202, The display board 300 transmits to the panels 301 to 310 of each line. Each of the panels 301 to 310 sequentially displays data on the entire electronic sign 300 through a process of transferring data other than the data allocated to the panel to the rear panel.

In this case, the error detection unit 400 maintains a standby state in the data transmission mode, and reads the state values of the assigned panels 301 to 310 when a detection request for an error state occurs on the main control unit 100 side. It will be provided to the main control unit 100 side.

In the power source, which is referred to by reference numeral 500, it is shown that power is supplied to the panels 301 to 310 in FIG. 1, but supplies necessary driving power throughout the system.

Representative technology of the prior art for the specific implementation method according to the above-described automatic error detection and failure status recognition is the technology presented in Korean Patent Registration No. 0414522.

The disadvantages of the prior art or the prior art described above are additionally provided with a specific controller for error detection, and 64 LED drivers are also required as 8 x 8 or 64 LEDs are typically used to manufacture one panel. For the error detection, the LED driver IC with the function of error detection must be adopted in the process of manufacturing the panel. Occurred.

An object of the present invention for solving the above problems relates to an error detection method of an electric signboard implemented as an LED pixel, and in particular, to a panel that combines a plurality of LED pixels into a matrix for the convenience of maintenance and implementation when the signboard is implemented. It is formed by connecting a number of LED signboards and error detection methods that have a check function to detect whether there is an abnormality of the LED sign by determining whether the LED constituting the pixel is damaged by detecting the amount of current used by each pixel or each panel. To provide.

In order to achieve the above object, there is provided an error detecting method of an electric sign having a check function according to the present invention, which is characterized in that the LED element is used as a pixel for detecting an abnormality in an electric sign having an N × M matrix matrix; A first step of dividing the entire display area constituting the electronic display into m small areas having n × n matrix matrices; A second process of separately providing a power supply for each of the m small areas divided in the first process; A third step of setting the reference data by calculating an amount of power consumed for each of the m small areas divided in the first step through the second step; A fourth step of detecting a magnitude of current power consumption for each of the m small areas divided in the first step by a cycle or a test request according to a predetermined criterion; And a fifth step of determining whether there is an abnormality by comparing the magnitude of power consumption at the present time detected in the fourth step with reference data in the system steady state set in the third step.

An additional feature of the error detection method of the electronic sign having a check function according to the present invention for achieving the above object is that if the power consumption of the particular panel after the fifth process does not meet the reference value, the panel is recognized as an error. The method further includes a sixth process of detecting a degree of damage of each LED itself constituting the panel.

The feature of the electronic sign having a check function according to the present invention for achieving the above object is to operate on the basis of the driving power supplied simply without a function of error detection of each pixel inside and by a signal according to any display data An electronic display panel for displaying and operating; A power supply unit supplying driving power throughout the system; A plurality of LED pixels are combined in a matrix by receiving power supplied from the power supply unit. The plurality of combinations distribute driving power required for each of the panels constituting the electronic display board and detect the amount of power consumed in any panel. A current detection unit; An electronic board driver for converting input data into display data, which is driving request data for each LED pixel constituting the electronic board, and providing the input data to the panel; And providing arbitrary data to the LED driver, and receiving detection data according to power consumption of each panel output from the current detector, comparing the reference data set in a normal operation state to determine whether a difference occurs. It includes a main control unit for detecting the presence of abnormalities.

The above object and various advantages of the present invention will become more apparent from the preferred embodiments of the present invention described below with reference to the accompanying drawings by those skilled in the art.

First, a brief description of the technical concept applied to the present invention, the problem of the conventional scheme for detecting the presence of the abnormal display board shown in the accompanying Figure 1 does not exist in the operation of the production cost and convenience for the design of the display board system The reason for this is that LED devices with a specific IC that can detect them are used to perform an abnormality determination on each of the LEDs that implement the pixels of the display board, and a specific controller for data communication with these devices is used. The reason for this is the addition of a specific control controller and the limitation of using a special product of an LED driver IC that implements each pixel.

Therefore, if a certain level of reliability can be maintained while using a conventional LED device without using an error detection controller, it is possible to suppress an increase in production cost, which has been pointed out as a problem in the prior art.

Therefore, the present invention is formed by connecting a plurality of panels combining a plurality of LED pixels in a matrix for the convenience of maintenance and implementation when implementing the electric signboard, by detecting the amount of current used by each LED pixel or each panel. When the panel or LED pixels consume less than the standard current consumption by comparing them through the set data table, it is conceivable that any pixel on the panel or the pixels can be determined to be damaged.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The embodiments described below are described by way of example for error detection in panel units for ease of explanation, but it is noted that this is not limited to the present invention.

2 is a conceptual schematic diagram illustrating an automatic error detection method in an electronic sign having a check function according to the present invention, which is operated based on simply supplied driving power without a function of error detection of each internal pixel, and may be arbitrarily displayed. Combining a plurality of LED pixels into a matrix by receiving a display panel 700 that is displayed and operated by a signal according to data, a power supply unit 500 supplying driving power throughout the system, and a power supply supplied from the power supply unit 500. And a current detector 800 for distributing the driving power necessary for each of the panels 701 to 710 constituting the electronic display panel 700 in a plurality of combinations and detecting the amount of power consumed by any panel. The display board is changed to display data which is driving request data for each LED pixel constituting the display board 700 and provided to the panels 701 to 710. The controller 200 provides arbitrary data to the unit 200 and the signboard driver 200, receives detection data according to power consumption of each panel output from the current detector 800, and sets the reference data value set in the normal operation state. Comparing with the main controller 100A for detecting the abnormality of the panel by judging whether the difference occurs.

Briefly referring to Figure 3 attached to the configuration of the current detection unit 800 and the main control unit 100A in the signboard having a check function according to the present invention configured as described above, Figure 3 is a display panel according to the present invention It is a simplified illustration of the main part configuration for detecting the presence or absence of.

As shown in FIG. 3, the current detector 800 distributes the power for driving the panel provided from the power supply unit 500 through the power distributor 801 to provide each panel 701 to 710. do. In this case, the current meter 802 is provided on the transmission path of the power provided to the panels 701 to 710 to measure the amount of power consumed by the panels 701 to 710.

In addition, the configuration of the main controller 100A only shows the main components of the part for detecting abnormality, and the current measurement provided from the current detection unit 800 side at the time of input of an operation control signal (error discrimination control signal). An A / D converter 101 for converting a value into digital data, an EEPROM 102 for storing data output from the A / D converter 101 when an input of a data storage request signal (not shown) exists; The comparator 103 compares the data output from the A / D converter 101 with the data stored in the EEPROM 102 and outputs a comparison value, and controls the operation state of the A / D converter 101. It is composed of an error determination unit 104 for outputting an operation control signal (error discrimination control signal) for receiving the output signal of the comparator 103 to recognize whether there is an abnormality of the electronic display panel and the electronic display panel.

Referring to Figures 2 and 3 attached to the operation of the display board having a check function according to the present invention configured as described above, the number of panels constituting the display board is limited to 10 and the panel is a matrix matrix of 2 × 5 As an example, the main controller 100A maintains the data transmission mode and transmits data to be displayed on the screen of the sign 700 to the sign driver 200.

In the display board driver 200, the graphic data transmitted from the main control unit 100 through the display board control unit (not shown) is separated and transferred from the first access board 201 to the second access board 202, The display board 700 transmits to the panels 701 to 710 of each line.

Each of the panels 701 to 710 sequentially displays other data on the entire display board 700 through a process of transferring data other than data allocated to the panel to the panel side of the rear stage.

At this time, the value of the current flowing per LED of each pixel constituting the panel is 20 mA, and since the quantity of LEDs used in one panel is known, the current value is estimated when all LEDs in the panel are normally controlled. It is possible.

However, since there is a difference between the value of the current flowing through the LED and the value actually flowing in the ideal state, the error determining unit 104 enables the A / D converter 101 at the initial operation of the system, so that the panels 701 to 710 are sided. On the transmission path of the power provided to the to recognize the measured value of the ammeter 802 in order to measure the amount of power consumed in each panel (701 ~ 710) to be converted into a digital data value.

In addition, the value output from the A / D converter 101 is stored in the EEPROM 102 which is a nonvolatile memory.

After all the reference data to be a standard is stored in the EEPROM (102), the signboard system performs the above-described normal signboard function, there is an abnormality of the signboard at regular intervals, for example one week intervals or at the request of the operator If there is a request for confirmation, the error determining unit 104 inputs an operation control signal (error discrimination control signal) to the A / D converter 101, and accordingly, the A / D converter 101 transmits the current. The current measured value provided from the detector 800 is converted into digital data and output.

In this case, since the reference data in the normal operation state is already stored in the EEPROM 102, the EEPROM 102 accesses the reference data to the comparator 103, and the comparator 103 is a value output from the A / D converter 101. In comparison with the above, the error degree of each panel is provided to the error determining unit 104 side.

The error determining unit 104 may determine the degree of error of the panel in which the comparison difference is generated and store it or may automatically notify the operator through another configuration of the main control unit 100A.

In addition, although the exemplary embodiment uses a panel-based error detection method to facilitate the description of the present invention, detailed pixel errors and the like may be detected by detecting the amount of power consumption of each pixel.

While the invention has been shown and described in connection with specific embodiments thereof, it is well known in the art that various modifications and changes can be made without departing from the spirit and scope of the invention as indicated by the claims. Anyone who owns it can easily find out.

If the display board and the error detection method having a check function according to the present invention as described above is provided, the addition of a specific control controller for error detection and the limitation of the use of special products of the IC of the LED driver for implementing each pixel It eliminates the increase in the production cost and has the advantage that it can be easily added on the power supply path.

Claims (3)

delete A method for detecting the presence or absence of an abnormality in an electric signboard having an N × M matrix matrix using an LED element as a pixel; A first step of dividing the entire display area constituting the electronic display into m small areas having n × n matrix matrices; A second process of separately providing a power supply for each of the m small areas divided in the first process; A third step of setting the reference data by calculating an amount of power consumed for each of the m small areas divided in the first step through the second step; A fourth step of detecting a magnitude of current power consumption for each of the m small areas divided in the first step by a cycle or a test request according to a predetermined criterion; A fifth step of determining whether there is an abnormality by comparing the magnitude of power consumption at the present time detected in the fourth step with reference data in the system steady state set in the third step; And And a sixth process of detecting a damage of each LED constituting the small area panel as an error and recognizing the small area as an error if the power consumption of the specific panel does not meet the reference value after the fifth process. Error detection method of electronic board with check function. delete

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