WO2022158643A1 - Display module inspection system - Google Patents

Abstract

The present invention relates to a display module inspection device. The display module inspection device comprises: a test pattern generator, which generates a D-PHY serial interface test pattern to output same as a low voltage differential signal; and a MIPI bridge board including a low voltage differential signal reception unit for receiving the D-PHY serial interface test pattern having been output from the test pattern generator, and a frame rate conversion unit, which receives the D-PHY serial interface test pattern from the low voltage differential signal reception unit to transmit same to a display module to be inspected, or converts same into a C-PHY serial interface test pattern to transmit same to the display module to be inspected. Therefore, even if the test pattern generator generates only a D-PHY serial interface test pattern, a D-PHY or C-PHY serial interface test pattern can be transmitted to a display module to be inspected, thereby saving design costs of the display module inspection device and improving portability.

Description

Display Module Inspection System

The present invention relates to a display module inspection system, and more particularly, to a display module inspection system capable of inspecting both a display module of a D-PHY serial interface and a display module of a C-PHY serial interface.

Looking at the conventional configuration of the device for inspecting the performance of the display module with reference to FIG. 1 , the test patterner 10 for generating a test pattern, and the test pattern generated by the test patterner 10 are received and the display module It is configured to include a carrier board 20 that transmits to the 30 , and a display module 30 that receives a test pattern from the carrier board 20 .

At this time, if the display module supports MIPI (Mobile Industry Processor Interface), the display module can receive and output data through the D-PHY serial interface or the D-PHY serial interface. As an interface between displays, it is an interface created by the MIPI Association, and the C-PHY serial interface is an improved version of the D-PHY serial interface and is an interface created by the MIPI Association.

On the other hand, the D-PHY serial interface and the C-PHY serial interface do not match the data signal pin and ground pin, so there is a very high possibility of impedance problems occurring in samples with a frame rate of 60Hz or higher.

That is, the conventional display module inspection apparatus transmits test patterns (data signals) output through different interface methods to the display module 30 via the carrier board 20 , and thus is vulnerable to an impedance problem.

Accordingly, the existing display module inspection device has a limit in supporting the D-PHY serial interface and the C-PHY serial interface at the same time, so the test patterner 10 must be provided in a one-to-one correspondence to support each of the two interfaces, There is a problem in that the complexity and production cost of the display module inspection system increase. Therefore, there is a need to develop a display module inspection device having a simplified structure but capable of supporting both the D-PHY serial interface and the C-PHY serial interface.

An object of the present invention is to provide a display module inspection apparatus capable of generating both D-PHY serial interface data and C-PHY serial interface data for display module inspection and transferring them to a display module to be inspected.

A display module inspection apparatus according to an embodiment of the present invention includes a test pattern generator that generates a test pattern of a D-PHY serial interface and outputs it as a low voltage differential signal, and a test pattern generator of the D-PHY serial interface output from the test pattern generator. A low-voltage differential signal receiving unit for receiving a test pattern, and receiving the test pattern of the D-PHY serial interface from the low-voltage differential signal receiving unit and transmitting the test pattern to the display module to be inspected or converted into a test pattern of the C-PHY serial interface to convert the test pattern It includes a Miffy bridge board having a frame rate conversion unit to be transmitted to the display module.

In one example, the test pattern generator is characterized in that it generates a test pattern of 30 Hz.

In an example, the frame rate converter receives the 30 Hz test pattern generated by the test pattern generator through the low voltage differential signal receiver and converts the frame rate into a 60 Hz test pattern.

In one example, the test pattern generator and the low voltage differential signal receiver of the MIPI bridge board are connected through a single path to transmit and receive a test pattern that is a low voltage differential signal.

In one example, the frame rate converter is characterized in that it comprises a part for outputting the test pattern of the D-PHY serial interface and a part for outputting the test pattern of the C-PHY serial interface, respectively.

According to this feature, it is possible to transfer both the data of the D-PHY serial interface and the data of the C-PHY serial interface to the display module to be inspected, thereby reducing the time required for display inspection.

In addition, since the pattern generator has a structure including only the lanes for the D-PHY serial interface, there is an effect of improving the portability of the display module inspection apparatus and reducing the production cost.

1 is a block diagram schematically showing a conventional display module inspection apparatus.

2 is a block diagram schematically showing an apparatus for inspecting a display module according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art to which the present invention pertains can easily implement them. However, the present invention may be embodied in several different forms and is not limited to the embodiments described herein. And in order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and similar reference numerals are attached to similar parts throughout the specification.

Then, a display module inspection apparatus according to an embodiment of the present invention will be described with reference to the accompanying drawings.

2 is a block diagram schematically showing an apparatus for inspecting a display module according to an embodiment of the present invention.

In one embodiment with reference to FIG. 2 , the display module inspection apparatus according to the present invention includes a test pattern generator 100 and a Miffy bridge board 200 . The test pattern generator 100 generates a test pattern to be transmitted to the test target sample, that is, the display module 31 .

At this time, the test pattern generator 100 generates a test pattern that is data of the D-PHY serial interface and transmits it to the Miffy bridge board 200 as a low voltage differential signal (LVDS).

The test pattern generator 100 has a single output path (Single Out) for data transmission of the D-PHY serial interface and transmits the test pattern to the Miffy bridge board 200 through this.

The test pattern generator 100 transmits a clock signal to the Miffy bridge board 200 in addition to the test pattern, and each lane connecting the test pattern generator 100 and the Miffy bridge board 200 has two pins. do.

In one example, the test pattern generator 100 generates a test pattern having a frame rate of 30 Hz.

The MIPI bridge board 200 includes a low voltage differential signal receiving unit (LVDS Rx) 210 and a frame rate conversion unit (FRC) 220 . At this time, the low voltage differential signal receiver 210 receives the low voltage differential signal transmitted from the test pattern generator 100 and transmits it to the frame rate converter 220 .

The low voltage differential signal receiving unit 210 receives the test pattern of the D-PHY serial interface generated by the test pattern generator 100 and transmits it to the frame rate conversion unit 220 , so that a single data input/output of the D-PHY serial interface is provided. It has an input (Single In) path and a single output (Single Out) path, respectively.

The frame rate converter 220 receives the test pattern of the D-PHY serial interface from the low voltage differential signal receiver 210 and outputs it as a test pattern of the D-PHY serial interface or outputs the test pattern of the D-PHY serial interface at a frame rate It is converted and output as a test pattern of the C-PHY serial interface.

At this time, the frame rate converter 220 has two output (Dual Out) passages to output the test pattern of the D-PHY serial interface and the test pattern of the C-PHY serial interface, respectively.

Accordingly, the MIPI bridge board 200 includes an output part for transmitting a test pattern that is a D-PHY serial interface and an output part for transferring a test pattern that is a D-PHY serial interface to the display module 21 to be inspected, respectively.

The path through which the frame rate converter 220 outputs the test pattern of the C-PHY serial interface, that is, the data path of the C-PHY serial interface that connects the frame rate converter 220 and the display module 31, is per lane. It has three pins.

In one example, the frame rate conversion unit 220 converts the frame rate of the test pattern of the D-PHY serial interface having a frame rate of 30 Hz to the test pattern of the D-PHY serial interface having a frame rate of 60 Hz.

As the frame rate converter 220 converts the 30Hz test pattern received from the low voltage differential signal receiver 210 into a 60Hz test pattern and outputs it, the high-resolution test pattern is stably delivered to the display module 31 to be inspected. can

That is, in order to deliver a high-resolution test pattern to the display module 31, the test pattern of 60 Hz can be transmitted to the display module 31 by using the test pattern of 30 Hz without generating data of 60 Hz from the test pattern generator 100. Therefore, there is an effect that the test can be performed by transmitting the high-resolution test pattern to the display module 31 by configuring a number of lanes less than the number of lanes that must be provided to transmit the high-resolution test pattern of 60 Hz or higher. This reduces the number of lanes connecting the test pattern generator 100 and the MIPI bridge board 200 to simplify the size of the display module inspection apparatus, and also has the effect of reducing the design cost of the display module inspection apparatus.

In particular, in order to transmit the test pattern of the D-PHY serial interface or the test pattern of the C-PHY serial interface to the display module 31, a pattern generator that generates a test pattern of the D-PHY/C-PHY serial interface should be provided, respectively. Accordingly, it is possible to overcome limitations such as an increase in structure complexity and design cost of the display module inspection apparatus, and there is an effect that the portability of the display module inspection apparatus is improved.

And at this time, since the operation of converting the test pattern of the D-PHY serial interface into the test pattern of the C-PHY serial interface is performed at a position close to the display module 31, which is the sample to be inspected, the test pattern conversion and delivery are stably performed can do.

The detailed operation of the frame rate conversion unit 200 for converting the frame rate is well-known technology, and since it can be implemented by those skilled in the art, it will not be described in detail herein.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto. is within the scope of the right.

Claims (5)

1. A test pattern generator that generates a test pattern of the D-PHY serial interface and outputs it as a low-voltage differential signal;

   a low-voltage differential signal receiving unit for receiving the test pattern of the D-PHY serial interface output from the test pattern generator; A display module inspection apparatus including a Miffy bridge board having a frame rate converter that converts the test pattern of the C-PHY serial interface and transmits it to the display module to be inspected.
2. In claim 1,

   The test pattern generator is a display module inspection device, characterized in that for generating a test pattern of 30Hz.
3. In claim 2,

   The frame rate converter receives the 30Hz test pattern generated by the test pattern generator through the low voltage differential signal receiver and converts the frame rate into a 60Hz test pattern.
4. In claim 1,

   The test pattern generator and the low voltage differential signal receiver of the MIPI bridge board are connected through a single path to transmit and receive a test pattern that is a low voltage differential signal.
5. In claim 1,

   The frame rate converter comprises a part for outputting the test pattern of the D-PHY serial interface and a part for outputting the test pattern of the C-PHY serial interface, respectively.

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