Wideband antenna

What is claimed is: 1. A wideband antenna, comprising: a grounding terminal, disposed on a first plane; a first radiator, disposed on the first plane; a feeding terminal, formed on the first radiator, wherein the feeding terminal is to transmit and receive radio-frequency (RF) signals via the first radiator; a second radiator, disposed on the first plane, electrically connected to the grounding terminal, and comprising a part parallel to a side of the first radiator, wherein a minimum gap between the second radiator and the first radiator allows the second radiator and the first radiator to generate a coupling effect therebetween to deliver RF signals, wherein a surface of the second radiator and a surface of the first radiator are located on the first plane; a third radiator, disposed on a second plane, wherein the second plane is parallel to the first plane, the projection result of the third radiator on the first plane overlaps with the second radiator, and a first shape formed by the second radiator and the grounding terminal is the same as a second shape of the third radiator; and at least one via, located between the second radiator and the third radiator, wherein the at least one via is electrically connected between the second radiator and the third radiator; wherein the first radiator comprises a first metal segment and a second metal segment, and the second metal segment is electrically connected between the first metal segment and the feeding terminal; wherein the second metal segment extends toward a direction which is parallel to the part of the second radiator and the side of the first radiator; wherein the part of the second radiator is parallel to the first metal segment, and is parallel to the side of the first radiator. 2. The wideband antenna of claim 1 , wherein the first metal segment comprises a first sub-segment and a second sub-segment, the total length of the first sub-segment and the second metal segment is related to the wavelength of an RF signal corresponding to a first frequency band, and the total length of the second sub-segment and the second metal segment is related to a wavelength of an RF signal corresponding to a second frequency band. 3. The wideband antenna of claim 2 , wherein the first frequency band is between 1575 MHz and 1900 MHz, and the second frequency band is between 1900 MHz and 2300 MHz. 4. The wideband antenna of claim 1 , wherein the second radiator comprises: a third metal segment; and a fourth metal segment, electrically connected between the third metal segment and the grounding terminal; wherein the third metal segment is parallel to the side of the first radiator. 5. The wideband antenna of claim 4 , wherein the total length of the third metal segment and the fourth metal segment is related to the wavelength of an RF signal corresponding to a third frequency band. 6. The wideband antenna of claim 5 , wherein the third frequency band is between 704 MHz and 960 MHz. 7. The wideband antenna of claim 1 , further comprising: a fourth radiator, disposed on a third plane, wherein the third plane is parallel to the first plane; wherein the projection of the fourth radiator on the first plane partially overlaps with the first radiator, whereby the fourth radiator and the first radiator generate a coupling effect therebetween to deliver RF signals. 8. The wideband antenna of claim 7 , wherein the second plane and the third plane are located in different regions on a same plane, and the third radiator and the fourth radiator are not electrically connected. 9. The wideband antenna of claim 7 , wherein the second plane and the third plane are different planes. 10. The wideband antenna of claim 1 , wherein the minimum gap is smaller than or equal to 3 mm.