KR20180031483A - A contactor system for display panel test - Google Patents

Abstract

The present invention relates to a contactor system for testing a display panel, which comprises: a contactor block including a contactor connected to a connector of a display panel to be tested, and inputting a test signal to the display panel to be tested; a contactor support frame supporting the contactor block; a pneumatic pressure providing means including a pneumatic cylinder inclined to be descended by moving forward in an X-Z direction inside the contactor support frame, and a pneumatic valve selectively providing pneumatic pressure to the pneumatic cylinder, and providing the pneumatic pressure for moving the contactor block; a contactor mounting unit installed to be slid in the X-Z direction on the pneumatic cylinder as the pneumatic pressure is provided for the pneumatic cylinder, and having the contactor block mounted on the front thereof; a contactor guide cam guiding the contactor block from an initial position to a test position to guide the contactor to be in connection with the connector; and a cam follower moved on the contactor guide cam, and allowing the contactor block to be reciprocated between the initial position and the test position. Accordingly, the test efficiency and the test quality are improved.

Description

[0001] A CONTACTOR SYSTEM FOR DISPLAY PANEL TEST [0002]

The present invention relates to a contactor system for a display panel test, which is a compact structure by integrating a contactor for connection to a display panel and a PG for test execution, thereby eliminating or significantly reducing the number of cables required for the test And a contactor system for a display panel test capable of improving efficiency and test quality.

The conventional display panel test system 10 shown in FIG. 1 is a device for testing whether the display panel 50 is normally operated by being connected to a connector of the display panel 50, A contactor moving means 30 for moving the contactor 20 to a connector so as to enable connection, a PG 60 for enabling a test on the display panel by generating a test signal, A MIPI cable 80 for connecting the contactor 20 and the PG 60 and a main PC for controlling the respective units and a communication cable 61 is connected to the PG 60 and the main PC Data and control signals are transmitted and received.

In the conventional index type test system, since the connector of the display panel 50 to be tested is always placed on the test turntable 40, the contactor moving means 30 moves the contactor 20 in the X and Z directions You only need to move. Therefore, the conventional contactor moving means 30 includes a pneumatic cylinder for moving the contactor 20 in the Z direction and a pneumatic cable 21. The contactor moving means 30 includes a gear portion for moving in the X direction, a driving motor, And a power cable 23 for supplying power.

Hereinafter, a process of testing the conventional index type display panel test system will be described.

The PG 60 is provided behind the test turntable 40 and the four contactors 20 in the loading stage are connected to the respective corresponding MIPI cables 80 connected to the PG 60 to wait for a test.

When four test target display panels 50 enter the test turntable 40, an Align Camera captures the test target display panels 50 to identify the position of each connector, 50) so that the connector is moved to the correct test position on the test turntable (40).

The contactor moving means 30 moves the contactor 20 in the X direction by operating the driving motor and supplies the pneumatic pressure to the pneumatic cylinder when the X coordinate of the contactor 20 is in a proper position, As the air pressure is provided by the pneumatic cylinder, the contactor 20 is lowered and connected to the connector of each corresponding test display panel 50.

Under the control of the main PC, the PG 60 generates and transmits a display panel test signal to the contactor 20 via the MIPI cable 80, which is again input to the display panel 500 via the contactor 20 A test stage for testing each item of the state of the display panel 50 is performed.

After the test is performed, the unloading stage in which the test panel 50 is unloaded from the test turntable 40 proceeds.

The test turntable 40 rotates in correspondence with each step of the test process and displays the test position on the display panel 50 at the 'loading position' where the display panel 50 is loaded, To the unloading position where the display panel 50 is unloaded from the test turntable 40 and moves again to the loading position for the progress of the next test.

However, the conventional index type display panel test system having such a configuration has the following problems.

Since the conventional contactor 20 is moved in the X-axis direction by the drive motor in addition to the movement in the Z-axis direction as the pneumatic pressure is supplied to the pneumatic cylinder of the contactor moving means 30, the power cable and the pneumatic cable, And is connected to the outside through the center of the test turntable 40. Since the test is performed under the control of the main PC, the contactor 20 (corresponding to the four display panels 50) And the contactor moving means 30 and the PG 60 are provided so that a corresponding number of the pneumatic cables 21 and the power cable 23 are required as well as data communication and control signal transmission / reception between the PG 60 and the main PC (Control line communication line, power line) for each contactor 20 should be provided.

However, the number of allowable ports of the rotary type connector or the slip ring, which is generally used for connecting the various devices placed on the test turntable 40 as the rotating body to the main PC or the power supply unit fixed to the outside, Therefore, the number of display panels 50 that can be tested in one rotation can not help but be very limited, and the next test is required to wait for the completion of one test, so that the test yield is very low.

The test turntable 40 is also provided with a plurality of MIPI cables 80 connecting a plurality of contactors 20 and PGs 60 with a plurality of power cables 23 and 62, It is necessary to check the connection state of each cable in case of a test error. The error of the contactor 20 and the PG 60, the error of the MIPI cable (80), and so on.

Therefore, it is often difficult to find the cause of the error, and the number of cases that need to be checked is increased. Therefore, once an error occurs, it takes a long time to check and correct the error. And the production yield is decreased.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a contactor system for a display panel test, in which a contactor for connection to a display panel and a PG for test execution are integrated into a compact structure, Thereby improving the test efficiency and the test quality of the contactor system for a display panel test.

According to an aspect of the present invention, there is provided a contactor system for testing a display panel, comprising: a contactor block including a contactor connected to a connector of a display panel to be tested and inputting the test signal to the display panel; A contactor support frame for supporting the contactor block; A pneumatic cylinder which is inclined to descend as it is advanced in the XZ direction inside the contactor support frame; and a pneumatic valve which selectively provides pneumatic pressure to the pneumatic cylinder, so as to provide pneumatic pressure for moving the contact block Providing means; A contactor seating part mounted on the pneumatic cylinder in a sliding manner in the X-Z direction as the pneumatic cylinder is provided with the pneumatic cylinder, and a contactor block is seated in the front of the pneumatic cylinder; A contactor guide cam for guiding the contactor block from a first position to a test position so as to guide the contactor to be connected to the connector, the contactor guide cam moving on the contactor guide cam, And a cam follower for reciprocating the cam follower.

The contactor guide cam is formed on both sides of the front end of the support frame, and the cam follower is installed on the contactor block and rotates on the contactor guide cam to move the contactor guide block So that it is possible to reciprocate between the test position and the test position.

And the cam follower is a rotary bearing.

The contactor block includes a PG module for generating a display panel test signal, a contactor for connecting to the connector of the display panel, and communication means for communicating with the main PC for controlling the test process by the contactor block .

The contactor block includes a PG board including a PG module for generating a display panel test signal and communication means for communicating with the main PC; And a contactor board which is integrally coupled to the PG board to perform signal transmission and reception, and is selectively connected to the connector and inputs a test signal to a test target display panel.

According to an aspect of the present invention, there is provided a contactor system for testing a display panel, comprising: a PG module for generating a display panel test signal; a contactor for connecting to a connector of the display panel; A contact block including communication means for communication with a main PC that controls the process; A contactor support frame for supporting the contactor block; A driving motor for moving the contactor block in the X-Y direction; A pneumatic cylinder provided in the Z-axis direction, and a pneumatic valve for selectively providing pneumatic pressure to the pneumatic cylinder, so as to provide power for moving the contact block in Z-direction up and down; A contactor seating part installed on the pneumatic cylinder in the Z direction so as to be slidable as the pneumatic cylinder is provided with the pneumatic cylinder and the contactor block is seated in the front; And power supply means for supplying power to the drive motor.

And the communication means is a short range wireless communication means.

The contactor block includes a power supply battery as a power supply unit for supplying operation power of the contactor block.

And the power battery is wirelessly chargeable.

According to the present invention, by eliminating the MIPI cable connecting the contactor and the PG, it is possible to eliminate the cause of test failure due to signal deterioration or error due to the MIPI cable failure.

In addition, the contactor system of the present embodiment can avoid overlap of devices (e.g., an external case, a MIPI cable, a transmission / reception communication port, a PCB, a processor, etc.) by integrally forming the contactor and the PG, Since the contactor moving means does not need a motor and a gear portion, it is possible to maximize space utilization with a compact structure.

The present invention is capable of eliminating or greatly reducing the number of cables connected to devices such as a plurality of power cables, a plurality of communication cables, and devices installed on a conventional test turntable, a main PC, It is possible to prevent the occurrence of a test error due to the wiring fault, the wiring failure, etc., so that it is possible to remarkably reduce the time, labor and cost required for maintenance of the contactor system.

For example, in the past, when there is an abnormality in the test result, it is often difficult to grasp the failure of the cable itself. Even in the case of a cable problem, there are many kinds of cables and the number of cables connected to the test turntable. Because it is intricately intertwined on the test turntable, it is difficult to test each cable, so that it takes time and manpower to correct the error. If the cable error is not identified, the reliability of the test result itself is lowered , The test efficiency and the quality of the test deteriorate.

However, in the present invention, since the contactor and the PG are integrally combined and the contactor block and the main PC can transmit / receive the control signal by the short-range wireless communication, most of the complicated cable on the test turntable can be removed, The cause of system failure can be greatly reduced, the test itself can proceed smoothly, and the reliability of test quality and test results is improved.

On the other hand, in the existing test system, since the communication between the test turntable, which is a rotating body, and the main PC, is applied to a rotary connector or a slip ring, the problem that the number of usable cables can be overcome can be overcome, It is possible to increase itself, add test types, or add the test stage itself, thus improving the test yield itself.

1 is a perspective view illustrating a conventional contactor system for a display panel test;
2 is a schematic diagram illustrating a main part of a conventional contactor system for testing a display panel;
3 is a control configuration diagram illustrating a contactor system for a display panel test according to an embodiment of the present invention.
4 is a perspective view illustrating a contactor system for a display panel test according to an embodiment of the present invention.
5 is a schematic diagram illustrating a configuration of a main portion of a contactor system for a display panel test according to an embodiment of the present invention.
6 is a side view illustrating an initial position of a contactor block in a contactor system for a display panel test according to an embodiment of the present invention.
7 is a cross-sectional view illustrating an initial position of a contactor block in a contactor system for a display panel test according to an embodiment of the present invention.
8 is a side view illustrating an operation state of a contactor system for a display panel test according to an embodiment of the present invention.
9 is a cross-sectional view illustrating an operation state of a contactor system for a display panel test according to an embodiment of the present invention.
10 is a side view illustrating a final position of a contactor block in a contactor system for a display panel test according to an embodiment of the present invention;
11 is a side view illustrating a final position of a contactor block in a contactor system for a display panel test according to an embodiment of the present invention.
12 is a schematic diagram illustrating a display panel test system to which a contactor system for a display panel test according to an embodiment of the present invention is applied.

In order to accomplish the above object, a contactor system for a display panel test according to the present invention will be described in detail with reference to the accompanying drawings.

The contactor system for testing a display panel according to the first embodiment of the present invention is selectively connected to the connector 501 of the display panel 500 for testing the display panel 500 and generates a test signal, 500, and contactor moving means 200 for moving the contactor block 100 to a contact position.

The contactor block 100 of the present embodiment includes a PG module 120 for generating a display panel test signal and a display panel 500 formed on the same PCB as the PG module 120, A contactor 110 selectively connected to the connector 501 of the PG module 120 to input a signal generated in the PG module 120 to the display panel 500 to enable testing of the display panel 500, A communication unit 121 for communicating with the main PC 600 for controlling the entire process of the display panel test through the display unit 100 and a power supply unit 125 for supplying power to each unit.

For example, the conventional contactor is connected to the PG by the MIPI cable, and the contactor of the previous stage is vertically and laterally moved by the contactor moving means to be connected to the display panel. In the conventional contactor, And the PG also consisted of a separate PCB including a PG module, a communication port to the main PC, and a communication port to the contactor.

In the embodiment of the present invention, since the conventional contactor and the PG are integrated with the contactor block 100 to form a single PCB, the contactor block 100 has a compact structure by eliminating redundant devices, Moves along the contactor guide cam 220 of the moving means 200 to perform contact with the display panel 500

In this embodiment, the PG module 120 generates various test signals required to perform a test on the test target display panel 500 under the control of the main PC 600. [

The contactor 110 of the present embodiment includes one or more pins 111 and a pin block 115 for connecting to the display panel 500 and may be connected to the pins of the display panel 500 according to a testing purpose and a connector structure of the display panel 500. [ There may be various configuration differences such as the number and shape of the pin block.

On the other hand, in the embodiment, but the PG module 120 and the contactor 110 is formed as a single PCB, the second of the present invention In the example The contactor block 100 may be constructed such that the contactor and the PG are integrally connected to each other by a separate PCB. In this case, the contactor guide cam 220 To perform the contact with the display panel 500. [0156] FIG.

Claim 3 of the present invention; The contactor block 100 includes the contactor 110 and the PG module 120 integrally formed from a single PCB but is connected to the connector 501 of the display panel 500 by the X- As shown in Fig.

That is, in the third embodiment, the X-axis moving means moves the contactor block 100 back and forth by driving the motor, and the aligning means 305 on the test turntable 300 is moved by the back and forth movement of the contactor block 100, It is possible to move the contactor block 100 from the initial position to the position corresponding to the connector 501 of the display panel 500 without being in contact with or being in contact with an apparatus such as a camera or the like.

In the third embodiment, the Z-axis moving means can be configured to include a pneumatic cylinder and a pneumatic valve. As the pneumatic pressure is supplied to the Z-axis direction pneumatic cylinder through the pneumatic valve 203, And the contactor block 100 is lowered to connect the contactor pin to the connector 501.

In the first embodiment of the present invention, the main PC 600 and the contact block 100 are connected to the communication means 121 by means of short-range wireless communication means such as Wi-Fi, . The contact block 100 and the main PC 600 are connected to the rotary connector or the slip ring by the test turntable 300, Since the number of connections is limited, the number of test display panels 500 and the type of test are also limited.

The power supply means 125 of the present embodiment uses a rechargeable internal battery and charges the battery by a wired / wireless charging device. However, in another embodiment, external power may be supplied through a wired cable. Also in this case, power is supplied by the rotary connector or the slip ring, and functions as an element for limiting the number of test panels to be tested and the type of test.

The contactor moving means 200 according to the first embodiment of the present invention includes a support frame 201, a pneumatic cylinder 210 formed on the inner side of the support frame, a movable contact 210 movable on the pneumatic cylinder 210, A contactor guide cam 220 formed on both sides of the support frame 201 and guiding the movement of the contactor block 100 and a contactor mounting part 250 on which the turntable 210 is mounted, A cam that is provided on both sides of the block 220 to rotate on the contactor guide cam 220 and move on the contactor guide cam 220 to move the contactor block 100 to the contact position, And a pneumatic supply means for supplying a pneumatic pressure for moving the contactor seat portion 250 to the pneumatic cylinder 210. [

For example, as shown in FIGS. 4 to 11, the support frame 201 of the present embodiment supports the contactor block 100 and each component, and functions as an outer case of the contactor block 100. The support frame 201 of this embodiment is formed as an opening at the front for the forward and backward movement of the contactor block 100 and the upper face is formed to be inclined (that is, in the X-Z diagonal direction) so as to rise from the front to the rear.

The pneumatic cylinder 210 is formed on the inner side of the support frame 201. The pneumatic cylinder 210 is formed to be inclined (that is, in the XZ diagonal direction) so as to rise from the front to the rear in correspondence with the support frame 201, And a contactor seating portion 250 is provided on the pneumatic cylinder 210 so as to be slidable forward and backward.

The pneumatic supply means of the present embodiment includes a pneumatic valve 203 and an exhaust valve 205 which are provided at a rear end side of the support frame 201 to enable pneumatic pressure to be supplied to the pneumatic cylinder 210, The contactor seating portion 250 can be moved forward and backward (in the XZ direction) on the pneumatic cylinder 210 by the air pressure being supplied to the pneumatic cylinder 210 by opening and closing, The tur block 100 also moves back and forth along the contactor seating portion 250.

The contactor guide cam 220 of the present embodiment is formed in a pit-shaped guide hole on both sides of the front half of the support frame 201. The rear half of the contactor guide cam 220 corresponds to the inclination of the pneumatic cylinder 210 And the front end of the contactor guide cam 220 forms a path bent downward (Z direction) so as to allow the contactor block 100 to move up and down.

Accordingly, as the contactor seating portion 250 advances in the XZ diagonal direction, the contactor block 100 is moved in the XZ diagonal direction by the rotation bearing 230 so that the contactor guide cam 220 To be connected to the connector 501 of the display panel 500 or to move back along the trajectory of the contactor guide cam 220 to return to the initial position.

For example, as the air pressure is applied to the pneumatic cylinder 210, the contactor block 100 receives a force in the XZ diagonal direction, and the contactor block 100 advances along a gentle slope in the XZ direction and contacts the contactor block 100 When the X-coordinate of the contactor 110 is placed at a position corresponding to the X-coordinate of the display panel connector 501 to be tested (that is, the point at which the contactor guide cam is bent), the rotation bearing 230 contacts the contactor guide The contactor pin 111 moves downward (i.e., moves in the -Z direction) along the bent path of the cam 220, and is lowered and connected to the connector 501 of the display panel.

As the pneumatic pressure of the pneumatic cylinder 210 is removed by the exhaust valve 205, the contactor block 100 is rotated so that the rotary bearing 230 rotates and moves up along the contactor guide cam 220 ) And then backward along the inclination of the pneumatic cylinder 210 in the XZ diagonal direction to return to the initial position.

That is, the contactor block 100 is seated in the contactor seat portion 250. As the pneumatic pressure is applied to the pneumatic cylinder 210, the contactor block 100 is integrally formed with the contactor seat portion 250, The contactor block 100 moves downward (in the -Z direction) on the contactor seating portion 250 as the rotary bearing 230 passes the bent point of the contactor guide cam 220, So that the pin 111 of the contactor can be connected to the connector 501 of the display panel.

Similarly, when the pneumatic pressure is removed from the pneumatic cylinder 210, the contactor block 100 is moved up on the contactor seat 250 until the rotational bearing 230 reaches the bent point of the contactor guide cam 220 (Relative movement in the Z direction), and as it passes the bent point of the contactor guide cam 220, it moves backward in the XZ diagonal direction and moves to the initial position by being integrated with the contactor seating portion 250.

A test system for a display panel using the contactor system for a display panel test as described above will be described below.

The test turntable 300 is configured to continuously rotate in a predetermined direction so that the test on the test target display panels 50 placed on the test turntable 300 can be repeatedly performed. A loading stage in which the target display panels 501 are moved and aligned on the test turntable 300, a test stage in which a test is performed on the display panel, and unloading in which the tested display panel 500 is returned to the production line The test stage may comprise one or more test stages, depending on the embodiment.

In order to arrange the display panel 500 input from the production line for testing at an accurate position on the test turntable 500, a camera for detecting the position of the display panel connector 501 is provided at one side of the test turntable 300 of the present embodiment. And an aligning unit 305 for aligning and aligning the display panel 500 to an accurate test position is provided on the upper part of the test turntable 300. The turntable 300 is provided with an ALIGN CAMERA 301, A contactor system for a display panel test corresponding to the number of test target display panels 500 to be placed during the test turntable 300 is provided in the center of the test turntable 300. A hole 310 is formed at the center of the test turntable 300, (207), a power cable, and the like are connected to an external device.

In the present embodiment, a main PC 600 is provided outside the test turntable 300 to perform a control for the entire test process including a loading stage, a test stage, and an unloading stage performed on the test turntable 300, A pneumatic tank that provides pneumatic pressure to the pneumatic cylinder 210 is provided through a pneumatic cable 207.

Next, a test process for a display panel using the contactor system for testing a display panel having the above-described configuration will be described with reference to FIG.

The ALIGN CAMERA 301 captures the display panel connector 501 and the alignment means 305 applies the connector position correction value of the display panel 500 Thereby placing the display panel 500 at the correct position on the test turntable 300.

When the test target display panel 500 is loaded on the test turntable, the contactor block 100 receives a control signal from the main PC 600 by short-distance wireless communication and, in accordance with the control signal of the main PC 600, The valve 203 is opened and pneumatic pressure is applied to the pneumatic cylinder 210.

When the air pressure is applied to the pneumatic cylinder 210 of the present embodiment, the contactor seating portion 250 begins to advance in the XZ diagonal direction, and the contactor block 100 is integrally formed with the contactor seating portion 250, The contactor pin 111 slides down on the contactor seating portion 250 and is connected to the connector 501 of the display panel 500. [

In the present embodiment, a test stage is performed as the test turntable 300 rotates. In the PG module 120, a test signal is generated in accordance with a control signal received from the main PC 600, Is inputted to the test target display panel 500 through the contactor 110 and performs various performance tests on the test target display panel 500. [

In this embodiment, as the test turntable rotates after the test stage is performed, an unload stage is performed.

For example, as the pneumatic valve 203 is closed and the exhaust valve 205 is opened and the pneumatic pressure is removed under the control of the main PC 600, the contactor seating portion 250 is subjected to the XZ diagonal downward pressure, The tur block 100 rotates upwardly (i.e., moves in the Z direction) on the contactor guide cam 220 and when the rotary bearing 230 reaches the bent position on the contactor guide cam 220, the contactor seat 250 So that the contactor block 100 is returned to the initial position.

The display panel 500 that has been tested according to the control of the main PC 600 is unloaded from the test turntable 300 and returned to the production line. When the test turntable rotates, the display panel 500 returns to the loading stage, Respectively.

It is obvious that the scope of the present invention is not limited to the above embodiments but is defined by the matters set forth in the claims and includes various modifications and alterations made by those skilled in the art within the scope of the claims.

100 ...... contactor block 110 ...... contactor
111 ...... Contactor pin 115 ...... Pin block
120 ...... PG module 121 ...... communication means
125 Power supply means 200 Contactor moving means
201 ...... Support frame 203 ...... Pneumatic valve
205 ...... exhaust valve 207 ...... pneumatic cable
210 ...... Pneumatic cylinder 220 ...... Contactor guide cam
230 ...... rotation bearing 250 ...... contactor seat part
300 ...... Test turntable 301 ...... Camera
305 ...... Alignment means 500 ...... Display panel
501 ...... Connector 600 ...... Main PC

Claims (9)

A contactor connected to a connector of a test target display panel and inputting the test signal to the test target display panel;
A contactor support frame for supporting the contactor block;
A pneumatic cylinder which is inclined to descend as it is advanced in the XZ direction inside the contactor support frame; and a pneumatic valve which selectively provides pneumatic pressure to the pneumatic cylinder, so as to provide pneumatic pressure for moving the contact block Providing means;
A contactor seating part mounted on the pneumatic cylinder in a sliding manner in the XZ direction as the pneumatic cylinder is provided with the pneumatic cylinder and the contactor block is seated in the front;
A contactor guide cam guiding the contactor block from an initial position to a test position so as to guide the contactor to be connected to the connector;
And a cam follower moving on the contactor guide cam and allowing the contactor block to reciprocate between the initial position and the test position.
The contactor according to claim 1, wherein the contactor guide cam is formed on both sides of a front end portion of the support frame, and the cam follower is installed on the contactor block and rotates on the contactor guide cam, So that the contactor block can be reciprocated between the test positions at the initial position.
3. The contactor system for a display panel test according to claim 2, wherein the cam follower is a rotary bearing.
The contactor according to claim 1,
A PG module for generating a display panel test signal, a contactor for connecting to the connector of the display panel, and a communication means for communicating with the main PC for controlling the testing process by the contactor block Contactor system for display panel test.
The contactor according to claim 1,
A PG board including a PG module for generating a display panel test signal and communication means for communicating with the main PC;
And a contactor board which is integrally fastened to the PG board to perform signal transmission and reception, and which is selectively connected to the connector and inputs a test signal to a test target display panel. Contactor system for.
A contact block including a PG module for generating a display panel test signal, a contactor for connecting to a connector of the display panel, and a communication means for communicating with a main PC for controlling a test process by the contact block, ;
A contactor support frame for supporting the contactor block;
A driving motor for moving the contactor block in X and Y directions;
A pneumatic cylinder provided in the Z-axis direction, and a pneumatic valve for selectively providing pneumatic pressure to the pneumatic cylinder, so as to provide power for moving the contact block in Z-direction up and down;
A contactor seating part installed on the pneumatic cylinder in the Z direction so as to be slidable as the pneumatic cylinder is provided with the pneumatic cylinder, and the contactor block is seated in the front;
And a power supply means for supplying power to the driving motor.
The contactor system for a display panel test according to any one of claims 1 to 6, wherein the communication means is short-range wireless communication means.
The contact block according to any one of claims 1 to 6,
And a power supply battery as a power supply unit for supplying operation power of the contactor block.
The contactor system according to claim 8, wherein the power battery is wirelessly chargeable.

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