KR100935375B1 - Picture quality test system - Google Patents

Abstract

PURPOSE: A picture quality test system is provided to improve productivity by performing a picture quality test in independent manufacturing lines using a single host signal generator. CONSTITUTION: A host signal generator(100) comprises the following units: A key input unit(102) inputs a test condition. A host controller(103) respectively converts signals according to the test condition into HDMI transmission signals. The host controller includes signal restoration information in info-frames of the converted HDMI transmission signals. A slot unit(105) outputs the HDMI transmission signals to an optical distributing device.

Description

Image quality inspection system {PICTURE QUALITY TEST SYSTEM}

The present invention relates to an image quality inspection system. More particularly, the image quality inspection signal output from the host signal generator is converted into an optical signal and distributed to a plurality of manufacturing lines to perform image quality inspection of the display device. Image quality inspection is possible without restriction and signal attenuation due to transmission distance between manufacturing lines, and relates to an image quality inspection system with improved productivity since image quality inspection is performed in a plurality of independent manufacturing lines with one host signal generator.

In general, a display device is an A / V signal generated from a multimedia player such as a video signal generator, a set-top box, or a digital video disk (DVD). / Video Signal) to determine whether the picture displayed on the display device conforms to the standard by visual or measurement device to determine whether the picture quality is poor.

Recently, as a display device that implements a picture quality of Full HD (1080p) is in the spotlight, a picture quality inspection system for testing the display device quality has been designed to generate and output high resolution A / V signals. In addition, the image quality inspection system supports various transmission formats through data conversion technology, so that the image quality inspection of the display device may be variously and efficiently performed in a cell-line type production line that produces a variety of products.

However, the conventional image quality inspection system has a limitation in the transmission of high resolution A / V signals such as Full HD (1080p) because the A / V signal is transmitted to the display device through an electric cable. That is, the length of a suitable electric cable capable of transmitting high resolution A / V signals to a display device without noise is only 10 m, and a conventional production line generally selects an electric cable within 3 m between an image quality inspection system and a display device. Doing. Therefore, in order to transmit A / V signals without noise, several image quality inspection apparatuses must be separately provided for each manufacturing line. In general, four to five expensive standard inspection apparatuses are fixedly used in one manufacturing line, thereby using space. There is a problem in that the cost is increased and the cost of using the picture quality inspection apparatus is increased.

The present invention is to solve the above-mentioned conventional problems, in particular, the image quality test signal output from the host signal generator is converted into an optical signal and distributed to a plurality of manufacturing lines to perform the image quality test of the display device to manufacture the host signal generator It is an object of the present invention to provide an image quality inspection system capable of inspecting image quality without attenuation and signal attenuation due to transmission distance between lines.

In addition, the present invention by distributing the image quality test signal output from one host signal generator to a plurality of optical signals to output the quality of the display device in a plurality of independent manufacturing line to reduce the inspection equipment and the number of inspection to improve productivity Another purpose is to provide a quality inspection system.

The image quality inspection system according to the present invention includes a key input unit 102 receiving selection of inspection conditions including inspection items, inspection settings, and output patterns based on initial menu values stored in the memory 104, and memory 104 according to the inspection conditions. Read one or more of an HDMI signal, an analog signal, a digital TV signal, and a TV signal, and convert the respective signals into HDMI transmission signals according to the inspection conditions of the key input unit 102, One or more of a plurality of HDMI slots to output an HDMI transmission signal output by the host control unit 103 according to an inspection condition of the key input unit 102 and the host control unit 103 outputting signal restoration information in an InfoFrame). Host signal generator 100 consisting of a slot portion 105 for outputting to the optical distribution device 200 through the, HDMI transmission signal input from the host signal generator 100 via a DVI gender An optical converter 210 for converting the HDMI transmission signal into a DVI signal and an audio signal and outputting the optical signal, an optical signal distributor 230 for distributing the optical signal into a plurality, and the optical signal distributor 230 Restores and outputs a plurality of optical signals distributed through the HDMI transmission signal, and determines whether the HDMI transmission signal to be restored is an HDMI signal, an analog signal, a digital TV signal or a TV signal based on the signal restoration information. The controller 255a, when the HDMI transmission signal is determined as an HDMI signal, a signal correction unit 255b for equalizing the frequency of the HDMI transmission signal, and the HDMI transmission signal is determined as an analog signal, a digital TV signal, or a TV signal. A multiplexing unit 255c for multiplexing the HDMI transmission signal, and when the HDMI transmission signal is determined as an analog signal, the multiplexed HDMI transmission signal as an analog signal A DA converter 255d for converting the signal, and a signal synchronizing unit 255e for synchronizing the multiplexed signal when the HDMI transmission signal is determined as a digital TV signal or a TV signal and encoding the HDMI transmission signal input from the signal synchronizing unit 255e. An optical distribution device 200 including an HDMI restoration unit 250 having a TV encoder 255f and an output interface 255g for outputting each of the restored HDMI transmission signals to a plurality of local distributors 300, respectively; The HDCP function operation information and the EDID stored in the local memory 340 according to the local input unit 310 receiving the HDMI transmission signal and the EDID detected from the display device 2 and setting the inspection function of the local key input unit 320. The local control unit 330 for adding the function information and the CEC function information received from the display device 2 to the HDMI transmission signal, the EDID and the function information of the display device 2 It characterized in that it comprises a plurality of local distributor 300 consisting of a local output unit 350 for outputting the added HDMI transmission signal to the display device (2).

The host signal generator 100 may include a media key input unit 108 that receives an output pattern based on an initial menu value stored in the media memory 110, and a test item and setting conditions selected by the key input unit 102. And a media controller 109 for reading out a video signal stored in the media memory 110 according to an inspection condition including an output pattern selected by the media key input unit 108, converting the image signal into an HDMI transmission signal according to the inspection condition, and outputting the converted video signal. And a media slot unit 111 for outputting the HDMI transmission signal output by the media controller 109 to the optical distribution device 200 according to the inspection condition, wherein the key input unit 102 It may further include an output selection key for setting the output to be made by only one of the slot portion 105 or the media slot portion 111.

The image quality inspection system according to the present invention converts an HDMI transmission signal into an optical signal through an optical distribution device and outputs the image signal without limiting the transmission distance between the host signal generator and the manufacturing line where the display device is arranged and attenuation of the transmission signal. There is a possible effect.

In addition, by distributing and outputting one optical signal group to a plurality of optical signal groups, it is possible to inspect the image quality of the display device in a plurality of independent manufacturing lines, thereby reducing the inspection equipment and the number of inspectors according to the use of the signal generator, thereby improving productivity. It is effective.

Hereinafter, an image quality inspection system according to the present invention will be described in detail with reference to the accompanying drawings and embodiments. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

First, an image quality inspection system according to an embodiment of the present invention will be described.

Referring to FIG. 1, there is shown a block diagram schematically illustrating an image quality inspection system according to an embodiment of the present invention.

As illustrated in FIG. 1, the image quality inspection system 1 according to an exemplary embodiment of the present invention may include display devices DPD1 to DPD _N, which are disposed on a plurality of manufacturing lines each having a form of a cell line. 2) to check the image quality. In this case, the display device 2 to be tested for image quality is composed of one or more of LCD, PDP, D-TV / HDTV or the like supporting the HDMI (High Definition Multimedia Interface) transmission standard, 1) generates and selects an appropriate image quality inspection signal according to the inspection item and the type of display apparatus 2 to be inspected, and outputs it to the display apparatus 2. In addition, the image quality inspection system 1 may receive or update a test item including image quality test data through a PC 3 connected separately. According to the present invention, the image quality inspection system 1 converts the image quality inspection signal received from the host signal generator (HSG) 100 and the host signal generator 100 that outputs the image quality inspection signal into an optical signal, and transmits one optical signal. Optical distributors FDD 200 for distributing a plurality of signals and a plurality of local distributors LD1 to LD _{N for} distributing and outputting an image quality test signal received from the optical distributor 200 according to the state of the display apparatus 2. , 300). As such, the image quality inspection system 1 is capable of inspecting image quality of a plurality of display apparatuses 2 that are made of various types using one host signal generator 100, and transmits signals using the optical distribution device 200 to the host. The image quality inspection signal may be transmitted without restriction and attenuation of the signal according to the distance between the signal generator 100 and the display apparatus 2.

Hereinafter, the image quality inspection system 1 according to an exemplary embodiment of the present invention will be described in detail with reference to other drawings.

2 is a block diagram schematically illustrating a host signal generator 100 of an image quality inspection system 1 according to an embodiment of the present invention, and FIG. 3 illustrates an image quality inspection system according to an embodiment of the present invention. A block diagram schematically showing the light distribution device 200 is shown. In addition, FIG. 4 is a block diagram illustrating in detail the HDMI restoration unit of the light distribution device of FIG. 3. 5 is a block diagram schematically showing a local distributor 300 of the image quality inspection system 1 according to an embodiment of the present invention.

2 to 5, the image quality inspection system 1 according to an embodiment of the present invention uses an HDMI transmission signal (source data) required for image quality inspection of the display apparatus 2 through the host signal generator 100. Outputs, distributes and transmits the HDMI transmission signal from the optical distribution device 200 into a plurality of optical signals, and reconstructs the original HDMI transmission signal and generates a plurality of signals through the local distributor 300. The image quality test is performed by reflecting the setting conditions of the display device 2 arranged in the line and the test function setting to the display device 2.

The host signal generator 100 includes a signal generator 100a for outputting a still image signal and a multimedia player 100b for outputting a video signal. In this case, audio signals may be further included in the output signals of the signal generator 100a and the multimedia player 100b. The still image signal, the video signal, or the audio signal output from the signal generator 100a and the multimedia player 100b, respectively, are HDMI quality standard test data (source data) for the quality test of the display device 2. It is output in the form of a transmission signal. In more detail, the signal generator 100a may include an interface unit 101, a key input unit 102, a host control unit 103, a memory 104, a slot unit 105, and a display unit 106. have. The interface unit IF, 101 is provided with an input / output port (not shown) corresponding to a standard such as RS-232 (Recommend Standard Number 232) to enable communication with the external PC 3, and the PC 3 The communication with the user may generate and update a quality test item or receive or update an HDMI transmission signal (or source data). In this case, the signal generator 100a may be configured to control the inspection process by the PC 3 connected through the interface unit 101. The key input unit (KIU) 102 selects an inspection condition including an inspection item, an inspection setting, and an output pattern for an image quality inspection of the display device 2 based on an initial menu value stored in the memory 104. The key input unit 102 includes an output selection key (not shown) for selecting which one of the signal generator 100a and the multimedia player 100b to use, and a slot selection for selecting one or more of a plurality of HDMI slots. Key (not shown), inspection pattern selection key (not shown) for changing and selecting image pattern data, resolution data, and audio data as the basis of inspection, and output mode (CVBS / S-Video, HDMI, Component, PC) It may include a mode selection key (not shown) for selecting a test item according to (Analog).

The host control unit (CON) 103 may include source data corresponding to a test condition selected by the key input unit 102 from the memory 104 (where the source data is any one of an HDMI signal, an analog signal, a digital TV signal, and a TV signal). Read), and converts it to an HDMI transmission signal conforming to the HDMI transmission standard for output. In this case, the host controller 103 may determine whether the HDMI transmission signal transmitted through the optical distribution device FDD 200 corresponds to an HDMI signal, an analog signal, a digital TV signal, or a TV signal. Signal restoration information can be included in (InfoFrame). In addition, the HDMI transmission signal controlled through the host controller 103 may include one or more image quality inspection data according to the inspection condition selected by the key input unit 102. The memory (MEM, 104) can store various timing and pattern values such as HDMI signals, analog signals, digital TV signals, and TV signals to enable initial menu values for image quality inspection and image quality inspection of the multi-variate display device 2. have. The slots SL1 to SLn 105 are formed of a plurality of HDMI slots, and output the HDMI transmission signal controlled by the host controller 103 to the optical distribution device 200 according to the inspection condition of the key input unit 102. The display unit (DPU) 106 may display the test condition and output slot information of the signal generator 100a.

In addition, the multimedia player 100b is capable of generating a moving picture signal, a still picture signal, and an audio signal among the host signal generators 100. The media interface unit MIF 107, the media key input unit MKIU 108, and the media controller are provided. (MCON) 109, a media memory (MMEM) 110, a media slot unit (MSL) 111, and a media display unit (MDPU) 112. The media interface unit 107 has the same function as the interface unit IF of the signal generator 100a and is a part for communicating with the external PC 3. The media key input unit 108 is for setting an output pattern of an image signal, and the media key input unit 108 is configured to select one of an HDMI mode, an analog image and audio mode, a digital monitor image mode, and an analog monitor image mode. Can be.

The media control unit 109 reads out an image signal using an inspection item and a setting condition selected by the key input unit 102 of the signal generator 100a and an output pattern of the media key input unit 108 as an inspection condition, Converts to HDMI transmission signal and outputs. Here, the signal transmission information that can be restored to the original video signal may be included in the infoframe in the HDMI transmission signal as in the signal generator 100a. The media memory 110 includes a hard disk (HDD) including data such as a video, still image, audio, resolution, etc., for image quality inspection, and each data is read out under the control of the media controller 109, or a media interface ( Updates of data from the PC 3 can be made via 107. The media slot unit 111 is an output unit made of an HDMI transmission standard and is connected to the optical distribution device 200 similarly to the slot unit 105 to output an HDMI transmission signal for checking the image quality of the display device 2. As described above, the media slot unit 111 of the multimedia player 100b operates independently of the slot unit 105 of the signal generator 100a, and the selection of the slot unit is made through an output selection key of the key input unit 102. Can be. The media display 112 may display the inspection conditions of the key input unit 102 and the media key input unit 108, the program version of the multimedia player 100b, and the like.

The optical distribution device 200 converts the HDMI transmission signal input from the host signal generator 100 into an optical signal, and distributes the converted optical signals to a plurality (N) and outputs them to the local distributor 300 to be described later. do. In more detail, the optical distribution device 200 may include the optical conversion unit 210, the optical signal distribution unit 230, and the HDMI restoration unit 250.

The optical conversion unit 210 converts and transmits an HDMI transmission signal into an optical signal, and a plurality of (n) HDMI signal receivers HRX1 to HRXn 211 for optically converting one or more HDMI transmission signals, respectively. ), Optical signal converters CV1 to CVn and 213 and optical signal transmitters FTX1 to FTXn and 215. Here, the HDMI signal receiver 211 is connected to the slot 105 or the media slot 111 of the host signal generator 100 through a DVI (Digital Video / Visual Interface) gender to convert the HDMI transmission signal into a DVI signal and Converted to an audio signal and received. The DVI signal and the audio signal are converted into the optical signal through the optical signal converter 213 and then output to the optical signal distributor 230 through the optical signal transmitter 215. The optical converter 210 may convert and output a DVI signal and an audio signal into an optical signal using two optical cables. In other words, when converting an HDMI transmission signal into an optical signal, six optical cables are used. However, by converting the HDMI transmission signal into a DVI signal and an audio signal through a DVI gender, the signal can be transmitted through two optical cables. Accordingly, the optical path construction between the light distribution device 200 and the local distributor 300 to be described below may also be simplified. The DVI signal used in the present invention is a signal of a transition minimized differential signaling (TDMS) format.

The optical signal distribution unit (FDU) 230 distributes one or more (n) optical signals output from the optical conversion unit 210 to a plurality (N) each to a local distributor 300 to be described below. Transmit each. The present invention distributes one or more optical signals (hereinafter referred to as 'optical signal groups') input through the optical signal distribution unit 230 to a plurality of N and outputs one host signal generator 100. One or more HDMI transmission signals (hereinafter referred to as "HDMI transmission signal groups"), which are image quality inspection signals output from the plurality, may be transmitted to display apparatuses 2 arranged in a plurality of manufacturing lines.

The HDMI reconstructor 250 receives a plurality of optical signal groups distributed and output from the optical signal distribution unit 230 and converts the signals into the HDMI transmission signal groups after converting the signals. That is, the HDMI restoration unit 250 includes optical signal receivers FRX1 to FRX _{N and} 251 for receiving a plurality of N optical signal groups, and electrical signal converters ECV1 to ECV _N for converting the optical signal groups into electrical signals _. 253) and an HDMI signal output unit (HTX1 to HTX _N, 255) for restoring the converted electric signal to the original HDMI transmission signal group (HDMI, CVBS / S-VIDEO, COMPONENT, ANALOG) and outputting the same. At this time, the plurality of HDMI signal output unit 255 is connected to the local distributor 300 to be described later, respectively, and transmits the restored HDMI transmission signal group, respectively. As illustrated in FIG. 4, the HDMI signal output unit 255 may include a signal restoration controller (SRCU, 255a), a signal corrector (SRU, 255b), a multiplexing unit (MPU, 255c), and a DA converter (DAC, 255d). , The signal synchronization unit SSU 255e, the TV encoder ENC 255f, and the output interface OIF 255g.

The signal recovery control unit 255a may determine whether the converted HDMI transmission signal of the electrical signal conversion unit 253 is an HDMI signal, an analog signal, a digital TV signal, or a TV signal, and a signal correction unit to describe each transmission signal ( 255b) and the multiplexer 255c may be selectively output. At this time, the signal recovery control unit 255a determines each transmission signal based on the signal restoration information of the HDMI transmission signal. When the HDMI transmission signal is determined to be an HDMI signal by the signal recovery control unit 255a, the signal correction unit 255b outputs an equalized frequency of the HDMI transmission signal and outputs the same, and is corrected by the signal correction unit 255b. The HDMI transmission signal is output through the HDMI terminal type output interface 255g.

Meanwhile, when the HDMI transmission signal is determined as an analog signal or a digital TV signal, each HDMI transmission signal is multiplexed through the multiplexing unit 255c. Here, when the multiplexed HDMI transmission signal is an analog signal, the data is in the RGB data format. Therefore, the digital format signal is converted into the analog format by the DA converter 255d and then output through the analog terminal type output interface 255g. In addition, when the multiplexed HDMI transmission signal is a digital TV signal or a TV signal, the transmission signal is synchronized through the signal synchronization unit 255e, and then encoded through the TV encoder 255f to output a digital TV terminal type or TV terminal type output interface (255g). Is printed through). According to the present invention, the output interface 255g of the optical distribution device 200 is capable of outputting a signal corresponding to various formats of the transmitted signal, and is an HDMI terminal type, an analog terminal type, a digital TV terminal type, and a TV terminal. It may include a mold.

Referring to FIG. 6, a plan view schematically showing the exterior of the HDMI restoration unit 250 of the light distribution apparatus 200 according to an embodiment of the present invention is shown.

As shown in FIG. 6, the HDMI restoration unit 250 includes an optical signal receiver 251 for receiving an optical signal group, and various formats (HDMI, CVBS / S−) for outputting respective transmission signals to the local distributor 300. It includes an output interface 255g having a terminal type of VIDEO, COMPONENT, ANALOG, and a plurality of upgrade ports 250p for upgrading firmware of the optical distribution device 200 may be installed. . However, the light distribution device 200 of FIG. 6 is an example for helping understanding of the present invention, and the present invention is not limited to the external appearance of the light distribution device 200.

As illustrated in FIG. 5, the local distributor 300 outputs each HDMI transmission signal restored from the optical distribution device 200 to the corresponding display device 2. In more detail, the local distributor 300 includes a local input unit (LIU, 310), a local key input unit (LKEY, 320), a local control unit (LCU, 330), a local memory (LMEM, 340), and a local output unit (LOU). , 350). The local input unit 310 is connected to the HDMI signal output unit 255 of the optical distribution device 200 one-to-one, respectively, and receives the transmission signals reconstructed in the form of HDMI signals, analog signals, digital TV signals, and TV signals, respectively. The local key input unit 320 sets an inspection function such as whether the High-Bandwidth Digital Content Protection (HDCP) function is operated, whether the Consumer Electronics Control (CEC) function information is provided, and whether the Extended Display Identification Data (EDID) function information is provided. The local controller 330 detects an EDID from the display device 2 and adds a corresponding inspection function to the HDMI transmission signal restored according to the inspection function setting of the local key input unit 320. Here, the CEC function is a convenient function of executing a plurality of CEC supporting devices with one remote controller. When the display device 2 supporting the CEC function is connected to the local distributor 300, the CEC transmitted from the display device 2 is transmitted. The local control unit 330 activates the CEC function of the display device 2 according to the communication signal, and enables the CEC supporting device to be controlled by the remote control of the display device 2. You can check whether it is operating normally. According to the present invention, since the HDMI transmission signal is transmitted after conversion into a DVI signal and an audio signal through the DVI gender in the optical distribution device 200, it does not include a separate HDCP function, CEC function, and EDID. The local memory 340 stores HDCP function operation information and EDID function information necessary for checking the image quality of the display apparatus 2, and the corresponding function information can be read out under the control of the local controller 330. That is, the local distributor 300 adds an inspection function to each transmission signal distributed from the optical distribution device 200, checks the EDID of the corresponding display device 2, and outputs the final image quality inspection signal to the manufacturing line. It is possible to inspect various types of display apparatuses 2 that support the standard. On the other hand, Figure 5 shows one local distributor 300 but the other local distributor 300 is also the same, so a detailed description thereof will be omitted.

Next, an image quality inspection method of the display device 2 using the image quality inspection system 1 according to an embodiment of the present invention will be described. The image quality inspection method described below will be described with reference to the image quality inspection system 1 of FIGS. 1 to 6.

Referring to FIG. 7, a flowchart illustrating a method for checking an image quality according to an embodiment of the present invention is shown.

As shown in FIG. 7, the image quality inspection method according to an embodiment of the present invention may include generating and outputting an image quality inspection signal (S110), an optical signal conversion step (S120), an optical signal distribution step (S130), and an HDMI transmission signal. It may be composed of a restoration step (S140), a local distribution and inspection function setting step (S150), and an image quality inspection step (S160).

First, an image quality test signal generation and output step (S110) is a step of generating and outputting an image quality test signal for the image quality test of the display apparatus 2 from the host signal generator 100. As described above with reference to FIGS. 1 to 6, the display apparatus 2 is an apparatus that supports the HDMI transmission standard such as LCD, PDP, D-TV, and HDTV. Display devices in multiple independent manufacturing lines regardless of distance by converting various types of signals such as digital (HDMI / DVI), TV (CVBS / S-Video), and DTV (Component) into single HDMI transmission signals. You can check the quality of the. The host signal generator 100 selects whether to use the output of the signal generator 100a or the multimedia player 100b, and selects an output terminal (slot 105 or a media slot 111) as an output selection key of the key input unit 102. ), And outputs the corresponding HDMI transmission signal according to the inspection condition setting of the key input unit 102. The HDMI transmission signal may be any one or more selected from an HDMI signal, an analog signal, a digital TV signal, and a TV signal, and is output including signal restoration information for restoring the corresponding signal.

The optical signal conversion step (S120) is a step of converting the HDMI transmission signal group output from the slot unit 105 or the media slot unit 111 through the optical conversion unit 210 into an optical signal group. The optical conversion unit 210 converts the HDMI transmission signal group into the DVI signal and the audio signal through the DVI gender of the HDMI signal reception unit 211, respectively, and converts the HDMI transmission signal group into the optical signal group through the optical signal conversion unit 213 again. Output through the transmitter 215.

The optical signal distribution step (S130) is a step of distributing the optical signal group input from the optical conversion unit 210 to a plurality (N) through the optical signal distribution unit 230. In the optical signal distributor 230, one input terminal is connected to the optical converter 210 and a plurality (N) output terminals are respectively connected to the plurality of HDMI reconstructors 250. That is, the optical signal group input in the optical signal distribution step S130 is divided into a plurality of (N) optical signal groups through a conventional optical distribution method.

The HDMI transmission signal restoration step (S140) is a step of restoring the optical signal group to the HDMI transmission signal group through the HDMI restoration unit 250. Here, the HDMI restoration unit 250 is configured to restore the received optical signal group to the original analog signal, HDMI signal, digital TV signal and TV signal on the same principle as the light conversion unit 210. For this purpose, the HDMI restoration unit ( 250 includes an HDMI signal output 255 to deliver each signal having a unique format to the local distributor 300.

In the step of setting the local distribution and inspection function (S150), the HDMI transmission signal group output through the optical distribution device 200 is input to each local distributor 300 according to the signal method, and displayed through the local distributor 300. According to the setting and inspection function of the device 2, the HDMI transmission signal is output to the display device 2 of the corresponding manufacturing line. If the HDMI transmission signal is an HDMI signal, the local key input unit 320 sets an inspection function such as whether the HDCP function is activated, whether the CEC function information is provided, and whether the EDID function information is provided, and when the provision of the EDID function information is selected, the local control unit The 330 checks the EDID received from the display device 2 and outputs an HDMI transmission signal having a format suitable for the display device 2.

The image quality inspection step S160 is a stage in which a final inspection signal is input to the display device 2 and image quality inspection is performed. Here, the final test signal is any one of HDMI signals, analog signals, digital TV signals, and TV signals that are processed according to the setting conditions of the display device 2 and the test function setting through the local distributor 300. When the transmission signal of the local distributor 300 is input to the display device 2, the inspector checks whether the image quality of the display device 2 is appropriately set for the inspection function setting.

The above-described present invention processes the signals of various formats including the HDMI signal, the analog signal, the digital TV signal, and the TV signal through the host signal generator 100 into one HDMI transmission signal according to the HDMI transmission standard. Output by converting the HDMI transmission signal into an optical signal through the optical distribution device 200 and outputting the constraints according to the transmission distance between the host signal generator 100 and the manufacturing line where the display device 2 is disposed. Provided is an image quality inspection system 1 capable of image quality inspection without attenuation of a signal. In addition, the image quality inspection system 1 is capable of distributing and outputting one optical signal group into a plurality of (N) optical signal groups through the optical distribution device 200, thereby improving the image quality of the display apparatus 2 in a plurality of independent manufacturing lines. Enable inspection Therefore, since the image quality inspection system 1 according to the present invention can inspect the image quality of the display apparatus 2 through one host signal generator 100, the display apparatus can be reduced by reducing the inspection equipment and the number of inspections according to the use of the signal generator. (2) to improve the productivity of the production line.

The present invention is not limited to the above specific preferred embodiments, and any person skilled in the art to which the present invention pertains may make various modifications without departing from the gist of the present invention as claimed in the claims. Of course, such changes are within the scope of the claims.

1 is a block diagram of an image quality inspection system according to an embodiment of the present invention.

Figure 2 is a block diagram of a host signal generator of the picture quality inspection system according to an embodiment of the present invention.

3 is a block diagram of an optical distribution apparatus of the image quality inspection system according to an embodiment of the present invention.

Figure 4 is a block diagram of the HDMI signal output unit of the optical distribution device of FIG.

5 is a block diagram of a local distributor in an image quality inspection system according to an embodiment of the present invention.

Figure 6 is a plan view showing the appearance of the HDMI restoration unit of the optical distribution device according to an embodiment of the present invention.

7 is a flowchart illustrating a method of checking an image quality according to an embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

1: image quality inspection system 2: display device

100: host signal generator 100a: signal generator

100b: multimedia player 200: optical distribution device

255: HDMI signal output unit 300: local distributor

Claims (2)

In the image quality inspection system for inspecting the image quality of the display device (2), A key input unit 102 receiving selection of test conditions including test items, test settings, and output patterns based on initial menu values stored in the memory 104, and HDMI signals and analog signals stored in the memory 104 according to the test conditions. Read one or more of a digital TV signal and a TV signal, and convert each of them into an HDMI transmission signal according to the inspection condition of the key input unit 102, and include signal restoration information in an infoframe of the converted HDMI transmission signal. And the HDMI control signal output by the host control unit 103 according to the test condition of the host control unit 103 and the key input unit 102 through one or more of a plurality of HDMI slots. A host signal generator (100) comprising a slot portion (105) for outputting thereto; An optical converter 210 for converting the HDMI transmission signal input from the host signal generator 100 into a DVI signal and an audio signal through a DVI gender and outputting the optical signal as a plurality of optical signals; The optical signal distribution unit 230 for distributing and the plurality of optical signals distributed from the optical signal distribution unit 230 are restored and output as HDMI transmission signals, and the HDMI transmission signals to be restored based on the signal recovery information are HDMI. A signal recovery control unit 255a for determining whether the signal is an analog signal, a digital TV signal, or a TV signal, and a signal correction unit 255b for equalizing the frequency of the HDMI transmission signal when the HDMI transmission signal is determined as an HDMI signal. A multiplexer 255c for multiplexing the HDMI transmission signal when the HDMI transmission signal is determined as an analog signal, a digital TV signal, or a TV signal, and the HDMI transmission signal is an analog signal. A DA converter 255d for converting the multiplexed HDMI transmission signal into an analog signal when determined as a signal, a signal synchronizing unit 255e for synchronizing the multiplexed signal when the HDMI transmission signal is determined as a digital TV signal or a TV signal; HDMI reconstruction having a TV encoder 255f for encoding the HDMI transmission signal input from the signal synchronization unit 255e and an output interface 255g for respectively outputting the reconstructed respective HDMI transmission signals to the plurality of local distributors 300. An optical distribution device 200 including a unit 250; And HDCP function operation information stored in the local memory 340 according to the local input unit 310 receiving the restored HDMI transmission signal and the EDID detected from the display device 2 and setting the inspection function of the local key input unit 320. And a local controller 330 for adding EDID function information and CEC function information received from the display device 2 to the HDMI transmission signal, and the HDCP function operation information, the EDID function information, and the CEC function information. And a plurality of local distributors (300) comprising a local output unit (350) for outputting an HDMI transmission signal to the display device (2). The method of claim 1, The host signal generator 100, The media key input unit 108 receives an output pattern based on an initial menu value stored in the media memory 110, the test items and setting conditions selected by the key input unit 102, and the media key input unit 108. A media control unit 109 for reading out a video signal stored in the media memory 110 according to a test condition including the selected output pattern, converting the video signal into an HDMI transmission signal according to the test condition, and outputting the converted video signal according to the test condition; Further comprising a media slot 111 for outputting the HDMI transmission signal output by the (109) to the optical distribution device 200, The key input unit (102) further comprises an output selection key for setting the output to be made by only one of the slot unit (105) or the media slot unit (111).

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