RF filter tuning system and method for manufacturing filter using the same

The invention claimed is: 1. An RF filter tuning system for tuning an RF filter that includes a plurality of cavities having resonance elements and a cover having tuning areas that are positioned correspondingly to the resonance elements, the RF filter tuning system comprising: a measuring unit configured to measure resonance characteristics of the plurality of cavities of the RF filter and to measure coupling characteristics between the plurality of cavities; a control unit configured to calculate a tuning value of the RF filter based on the resonance characteristics; and a tuning unit configured to tune the RF filter based on the tuning value calculated by the control unit, wherein the tuning unit includes a striking unit configured to strike the tuning area areas of the cover of the RF filter to adjust a resonance value, thereby tuning the RF filter, and wherein the control unit is further configured to calculate a desired length of a screw to be fastened between at least a pair of cavities among the plurality of cavities based on the measured coupling characteristics. 2. The RF filter tuning system of claim 1 , further comprising a transfer robot configured to move the striking unit of the tuning unit above the RF filter. 3. The RF filter tuning system of claim 2 , wherein the tuning unit comprises a tuning head, wherein the tuning head comprises the striking unit, and a fastening unit configured to fasten the screw between the pair of cavities of the RF filter, the screw having the desired length calculated by the control unit, and wherein the transfer robot moves the tuning head. 4. The RF filter tuning system of claim 3 , wherein the transfer robot comprises an X-axis body configured to transfer the tuning head in an X-axis direction which is horizontal to a ground and a Y-axis body configured to transfer the X-axis body in a Y-axis direction which is horizontal to the ground and perpendicular to the X-axis, and wherein the transfer robot is configured to move the tuning head in the X-axis direction, in the Y-axis direction, or in an X-Y axis direction. 5. The RF filter tuning system of claim 4 , wherein the transfer robot further comprises a Z-axis body configured to transfer the tuning head in a Z-axis direction which is perpendicular to the ground. 6. The RF filter tuning system of claim 5 , wherein the Z-axis body comprises a first Z-axis body and a second Z-axis body, wherein the striking unit is connected to the first Z-axis body to move in the Z-axis direction, and wherein the fastening unit is connected to the second Z-axis body to move in the Z-axis direction. 7. The RF filter tuning system of claim 4 , further comprising: a conductive shorting pin configured to short the resonance elements of the RF filter; and a shorting pin box configured to accommodate the shorting pin. 8. The RF filter tuning system of claim 7 , wherein the measuring unit further comprises a measuring pin connected to the RF filter to measure the resonance characteristics of the RF filter. 9. The RF filter tuning system of claim 8 , wherein the tuning head further comprises a gripper configured to move the shorting pin or the measuring pin. 10. The RF filter tuning system of claim 9 , wherein an upper portion of the shorting pin and an upper portion of the measuring pin have similar shape and size to be easily gripped by the gripper. 11. The RF filter tuning system of claim 3 , further comprising a screw cutter configured to cut the screw that is used in tuning the coupling characteristics of the RF filter to the desired length based on the value calculated by the control unit. 12. A method for tuning an RF filter using an RF filter tuning system, wherein the RF filter includes a plurality of cavities having resonance elements and a cover having tuning areas that are positioned correspondingly to the resonance elements, the method comprising: measuring a separation distance between a pair of cavities among the plurality of cavities; calculating a length of a screw to be fastened between the pair of cavities; measuring resonance characteristics of the plurality of cavities to be tuned; striking the tuning areas by a striking unit of a tuning unit in the RF filter tuning system; and completing the striking when the measured resonance characteristics of the plurality of cavities correspond to desired resonance characteristics of the plurality of cavities. 13. The method of claim 12 , further comprising, prior to the measuring of the resonance characteristics, forcibly shorting the remaining cavities around the pair of the cavities to be tuned. 14. The method of claim 13 , further comprising, prior to forcibly shorting the cavities, connecting the RF filter tuning system to the pair of the cavities to be tuned. 15. The method of claim 14 , wherein all method steps are performed with respect to all the plurality of cavities included in the RF filter. 16. The method of claim 12 , further comprising, prior to measuring the resonance characteristics: cutting the screw by a screw cutter; and fastening the cut screw between the pair of the cavities. 17. The method of claim 16 , further comprising, prior to measuring the separation distance between the pair of the cavities, forcibly shorting the remaining cavities around the pair of the cavities. 18. The method of claim 17 , further comprising, prior to forcibly shorting the remaining cavities around the pair of the cavities, connecting the RF filter tuning system to the pair of the cavities. 19. The method of claim 18 , further comprising processes, performed by the RF filter tuning system of: connecting the RF filter tuning system to the pair of the cavities with respect to all consecutive pairs of the cavities, and fastening the cut screws between the pairs of the cavities.