Patent Number: 
Section: claims

1. ATFT array inspecting apparatus comprising:a vacuum chamber;a stage disposed in the vacuum chamber so that a TFT array to be inspected is disposed on the stage;an electron gun opposite to the stage in the vacuum chamber to generate an electron beam onto the TFT array;an electron detecting unit to detect secondary electrons emitted from the TFT array in response to the electron beam of the electron gun; andat least one elevating unit to move the TFT array to a position between a level position and an inclined position having a designated angle with the level position, the position varying according to a size of the TFT array. 2. The TFT array inspecting apparatus as set forth in claim 1, wherein the electron gun is disposed above the vacuum chamber, the stage is disposed at a lower part of the vacuum chamber, and the elevating unit is disposed at a first end of the stage. 3. The TFT array inspecting apparatus as set forth in claim 2, further comprising:a stopper provided at a second end of the stage to protrude upward,wherein the TFT array is moved into the inclined position when a first end of the TFT array is lifted by the elevating unit while a second end of the TFT array is caught by the stopper. 4. The TFT array inspecting apparatus as set forth in claim 3, wherein the electron detecting unit is vertically installed above the stopper to detect the secondary electrons emitted from the TFT array. 5. The TFT array inspecting apparatus as set forth in claim 1, wherein the elevating unit is a hydraulic cylinder type. 6. The TFT array inspecting apparatus as set forth in claim 1, further comprising:a lens unit to set an irradiating position of the electron beam; anda deflection unit disposed in front of the electron gun to deflect the electron beam passing through the lens unit. 7. A TFT array inspecting apparatus comprising:a vacuum chamber vacuumed by a vacuum pump;an electron gun to generate an electron beam onto a TFT array disposed in the vacuum chamber;an electron detecting unit to detect secondary electrons emitted from the TFT array in response to the electron beam of the electron beam; andat least one elevating unit to move the TFT array to a position between a level position and an inclined position having a designated angle with the level position, the position varying according to a size of the TFT array. 8. The TFT array inspecting apparatus as set forth in claim 7, wherein the electron gun is disposed above the vacuum chamber, the TFT array is disposed at a lower part of the vacuum chamber, and the elevating unit is disposed at a first end of the TFT array to elevate an end of the TFT array. 9. The TFT array inspecting apparatus as set forth in claim 8, wherein the electron detecting unit is vertically installed above a second end of the TFT array to detect the secondary electrons emitted from the TFT array. 10. The TFT array inspecting apparatus as set forth in claim 7, further comprising:a lens unit to set an irradiating position of the electron beam; anda deflection unit disposed in front of the electron gun to deflect the electron beam passing through the lens unit. 11. A transistor array inspecting apparatus comprising:a vacuum chamber;an electron gun to generate an electron beam onto a transistor array disposed in the vacuum chamber;an electron detecting unit to detect secondary electrons emitted from the transistor array in response to the electron beam of the electron beam; andat least one elevating unit to change a relative position between the transistor array and at least one of the electron gun and the electron detecting unit, the position varying according to a size of the transistor array, so that it is determined whether the transistor array is defective according to the detected secondary electrons. 12. The transistor array inspecting apparatus as set forth in claim 11, wherein the vacuum chamber comprises a bottom, and the at least one elevating unit comprises:a main body; anda piston rod connected to the main body to elevate the transistor array with respect to the bottom. 13. The transistor array inspecting apparatus as set forth in claim 12, wherein the main body is disposed outside the vacuum chamber, and the piston rod passes through a hole formed on the bottom of the vacuum chamber to elevate the transistor array. 14. The transistor array inspecting apparatus as set forth in claim 12, further comprising:a stopper disposed in the vacuum chamber,wherein the piston rod elevates a first end of the transistor array, and the stopper supports a second end of the transistor. 15. The transistor array inspecting apparatus as set forth in claim 11, further comprising:a stage on which the transistor array is disposed within the vacuum chamber,wherein the at least one elevating unit elevates the transistor array with respect to the stage. 16. The transistor array inspecting apparatus as set forth in claim 11, wherein the vacuum chamber comprises a bottom, and the electron gun and the electron detecting unit are fixedly connected to the vacuum chamber while the at least one elevating unit controls the transistor array to rotate with respect to the bottom according to the relative position. 17. The transistor array inspecting apparatus as set forth in claim 11, wherein the vacuum chamber comprises a bottom, and the at least one elevating unit controls the transistor array to move to a position having an angle with the bottom according to the relative position. 18. The transistor array inspecting apparatus as set forth in claim 11, wherein the transistor array has one of a first surface area and a second surface area to receive the electron beam and emit the secondary electrons, and the at least one elevating unit controls the transistor array to move to the relative position so that the second surface area has the same effective area as the first surface area with respect to a bottom of the vacuum chamber to correspond to the electron gun and the electron detecting unit. 19. The transistor array inspecting apparatus as set forth in claim 11, wherein the transistor array comprises a first transistor array having a first surface area and a second transistor array having a second surface area larger than the first surface area, and the at least one elevating unit controls the first transistor array to be disposed in a level position and the second transistor array to move an inclined position having an angle with the level position so that the first surface area of the first transistor array and the second surface of the second transistor array have a same effective area with respect to the electron gun and the electron detecting unit. 20. The transistor array inspecting apparatus as set forth in claim 11, wherein the transistor array comprises a first transistor array having a first surface area and a second transistor array having a second surface area larger than the first surface area, and the first surface area of the first transistor array and the second surface of the second transistor array are irradiated by the electron gun using the electron beam and detected by the electron detecting unit using the secondary electrons according to the relative position. 21. The transistor array inspecting apparatus as set forth in claim 11, wherein the at least one elevating unit moves the transistor array with respect to the electron gun and the electron detecting unit according to the relative position to inspect the transistor array regardless of an area of a surface of the transistor array to be inspected. 22. A TFT array inspecting apparatus comprising:a vacuum chamber;a stage disposed in the vacuum chamber so that one of a first TFT array and a second TFT to be inspected is disposed on the stage;an electron gun opposite to the stage in the vacuum chamber to generate an electron beam onto the one of the first TFT array and the second TFT array;an electron detecting unit to detect secondary electrons emitted from the one of the first TFT array and the second TFT array in response to the electron beam of the electron gun; andat least one elevating unit to move the stage to a first position and a second position with respect to a level position according to a first length of the first TFT array and a second length of the second TFT array such that the first TFT array and the second TFT array disposed on the stage at the first position and the second position, respectively, have a same effective length with respect to the level position.