Frequency reflecting unit

What is claimed is: 1. A frequency reflecting unit with a three-dimensional structure used as a portion of a frequency reflector, the frequency reflecting unit comprising: a metal pattern disposed on a metal layout layer defined on one side of said frequency reflecting unit; and at least one via; wherein one end of the via being disposed corresponding to the metal pattern, the via forms a non-zero angle with the metal layout layer, and the other end of the via is an open circuit; wherein the metal pattern comprises a plurality of metal conductors, each of the metal conductors extending inwards from a periphery of the metal pattern, a long side of the metal conductor being disposed on the periphery corresponding thereto; wherein the via is electrically connected to the long side of one of the plurality of metal conductors. 2. The frequency reflecting unit of claim 1 , wherein the plurality of metal conductors are not connected to one another. 3. The frequency reflecting unit of claim 1 , wherein the plurality of metal conductors are connected to one another at a center of the metal pattern. 4. The frequency reflecting unit of claim 1 , further comprising: a dielectric layer carrying the metal pattern and the via. 5. The frequency reflecting unit of claim 1 , wherein the via and the plurality of metal conductors are not electrically connected to each other. 6. The frequency reflecting unit of claim 1 , wherein the via is electrically connected to the long side of one of the plurality of metal conductors, and the via is electrically connected to another via through a conductor element that is h cm below the long side, wherein h is greater than zero. 7. The frequency reflecting unit of claim 1 , wherein the metal pattern is a curve or polygon. 8. The frequency reflecting unit of claim 5 , wherein the curve is a symmetric curve and the polygon is a symmetric polygon. 9. The frequency reflecting unit of claim 1 , wherein the metal conductor extends towards a symmetric center of the metal pattern from the periphery corresponding thereto. 10. The frequency reflecting unit of claim 1 , wherein the metal conductor is a dendritic metal conductor, a serpentine metal conductor or a fork-shaped metal conductor. 11. The frequency reflecting unit of claim 1 , wherein said frequency reflecting unit is a spatial filter unit. 12. The frequency reflecting unit of claim 1 , wherein the frequency reflector comprises N of the frequency reflecting units periodically arranged, wherein N is an integer larger than one. 13. The frequency reflecting unit of claim 10 , wherein when each of the plurality of frequency reflecting units is the frequency reflecting unit of claim 1 , the long side of the metal conductor of the metal pattern of the frequency reflecting unit is adjacent to the long side of the metal conductor of the metal pattern of another frequency reflecting unit. 14. A frequency reflecting unit with a three-dimensional structure, used as a portion of a frequency reflector, the frequency reflecting unit comprising: a metal pattern disposed on a metal layout layer defined on one side of the frequency reflecting unit; a metal back plate, disposed on the other side of the frequency reflecting unit opposite to said metal layout layer; and at least one via; wherein one end of said via is disposed corresponding to the metal pattern, the via forms a non-zero angle with the metal layout layer, and the other end of the via corresponding to the metal pattern is an open circuit; wherein the metal pattern comprises a plurality of metal conductors, each of the metal conductors extending inwards from a periphery of the metal pattern, a long side of the metal conductor being disposed on the periphery corresponding thereto; wherein the via is electrically connected to the long side of one of the plurality of metal conductors. 15. The frequency reflecting unit of claim 12 , wherein the frequency reflecting unit is a wave absorbing unit. 16. A frequency reflecting unit with a three-dimensional structure, used as a portion of a frequency reflector, the frequency reflecting unit comprising: a three-dimensional metal pattern disposed on a metal layout layer defined on one side of the frequency reflecting unit; the three-dimensional metal pattern comprises a plurality of metal conductors; wherein a portion of the plurality of metal conductors extends downwards from a periphery of the metal layout layer and is an open circuit, and at least one of the plurality of metal conductors forms a non-zero angle with said metal layout layer; wherein the metal pattern comprises a plurality of metal conductors, each of the plurality of metal conductors extending inwards from a periphery of the metal pattern, a long side of the metal conductor being disposed on the periphery corresponding thereto.