Patent Number: 
Section: claims

1. A micro-column electron beam apparatus comprising:a base;an electron lens bracket having an electron lens module mounted thereon in a central portion of the base;an electron beam source tip module vertically disposed on the electron lens module;a pan spring plate stage module mounted over the base;a three-coupling pan spring plate portion comprising a first, second, and third spring units disposed within the pan spring plate stage module,wherein the spring units of the three-coupling pan spring plate portion are perpendicularly coupled to the sides of the vertically disposed electron beam source tip module to elastically support the electron beam source tip module and allow movement of the electron beam source tip module in three orthogonal directions;a first piezoelectric actuator coupled to the pan spring plate stage module to move the electron beam source tip module along a first axis perpendicular to the vertical axis; anda second piezoelectric actuator coupled to the pan spring plate stage module to move the electron beam source tip module along a second axis perpendicular to the vertical axis and the first axis. 2. The micro-column electron beam apparatus of claim 1, wherein the first spring unit is disposed along the first axis, the second spring unit is disposed along the second axis, and the third spring unit is spaced 135 degrees apart from each of the first and second spring units. 3. The micro-column electron beam apparatus of claim 1, wherein the first piezoelectric actuator is disposed on a first straight line parallel to the first axis, and the pan spring plate stage module includes a first support member that is disposed between the first axis and the first straight line, closer to the first straight line, and a first lever that contacts both the first piezoelectric actuator and the electron beam source tip module and rotates about the first support member,wherein, when the first piezoelectric actuator is lengthened and moved, the electron beam source tip module is moved a distance equal to the distance the first piezoelectric actuator is lengthened and moved times the ratio of the distance between the first axis and the first support member to the distance between the first support member and the first straight line,wherein the second piezoelectric actuator is disposed on a second straight line parallel to the second axis, and the pan spring plate stage module includes a second support member that is disposed between the second axis and the second straight line, closer to the second straight line, and a second lever that contacts both the second piezoelectric actuator and the electron beam source tip module and rotates about the second support member,wherein, when the second piezoelectric actuator is lengthened and moved, the electron beam source tip module is moved a distance equal to the distance the second piezoelectric actuator is lengthened and moved times the ratio of the distance between the second axis and the second support member to the distance between the second support member and the second straight line. 4. The micro-column electron beam apparatus of claim 3, wherein a portion of the first lever for pushing the electron beam source tip module is vertically divided into two portions and the first spring unit is disposed between the vertically divided portions of the first lever, and a portion of the second lever for pushing the electron beam source tip module is vertically divided into two portions and the second spring unit is disposed between the vertically divided portions of the second lever. 5. The micro-column electron beam apparatus of claim 3, further comprising a metal ball disposed between the first piezoelectric actuator and the first lever and a metal ball between the second piezoelectric actuator and the second lever to transfer a force through a spot contact. 6. The micro-column electron beam apparatus of claim 1, further comprising:a third piezoelectric actuator coupled to the pan spring plate stage module and vertically separated from the electron beam source tip module;a third lever having a first end connected to the third piezoelectric actuator and a second end coupled to the electron beam source tip module; anda hinge unit disposed closer to the first end of the third lever than the second end of the third lever,wherein, when the third piezoelectric actuator is moved, the electron beam source tip module is moved along the vertical axis a distance equal to the distance the third piezoelectric actuator is moved times the ratio of the distance between the first end of the hinge unit and the hinge axis to the distance between the hinge axis and the second end of the hinge unit. 7. The micro-column electron beam apparatus of claim 6, wherein the second end of the third lever has a throughthole through which the electron beam source tip module passes. 8. The micro-column electron beam apparatus of claim 1, wherein the pan spring plate stage module includes at least one vertically perforated wire path through which a plurality of wires connected to the electron lens module and the first and second piezoelectric actuators pass. 9. The micro-column electron beam apparatus of claim 8, further comprising a land board that is mounted on an upper portion of the pan spring plate stage module and has a plurality of upwardly protruding electrical connectors to which the plurality of wires passing through the wire path are connected. 10. The micro-column electron beam apparatus of claim 9, further comprising heat pipe coupling units disposed on the land board to couple heat pipes for exhausting heat generated in the electron beam source tip module. 11. A micro-column electron beam apparatus assembly comprising:a plurality of micro-column electron beam apparatuses of any one of claims 1 through 10 horizontally disposed in a multi-array pattern;an upper flange; anda lower flange disposed under the upper flange and parallel to the upper flange, and fixed to the upper flange by a plurality of assembly stays,wherein upper and lower portions of each of the micro-column electron beam apparatuses are respectively fixed to the upper flange and the lower flange.