Communication device and method for designing antenna element thereof

What is claimed is: 1. A communication device, comprising: a ground plane, embedded with a notch at an edge thereof, having at least a first edge and a second edge at the notch; and an antenna element, disposed at the notch, having at least a first operating frequency band and a second operating frequency band higher than the first operating frequency band, the antenna element comprising: a first conductive portion, having a starting terminal as a feeding terminal of the antenna element, wherein the feeding terminal is electrically coupled to the first edge of the notch via a signal source, and a capacitive coupling portion is formed between an end terminal of the first conductive portion and the second edge of the ground plane; and a second conductive portion, having a shorting terminal, electrically coupled or connected to the second edge of the notch, wherein the first and second edges of the notch are located on different sides and the first edge has a length greater than a length of the second edge, wherein the shorting terminal and the feeding terminal are respectively located near two end points of a diagonal line of the notch, and the first conductive portion extends along the first edge to the second edge, and the capacitive coupling portion makes the first conductive portion and the first edge of the ground plane forming an equivalent loop resonant structure, wherein the equivalent loop resonant structure forms an excitation source of the second conductive portion, and the excitation source excites the second conductive portion for resonance to generate the first and second operating frequency bands of the antenna element, and the excitation source formed by the equivalent loop resonant structure utilizes the first edge, the second edge or another edge of the notch as a part of current resonant paths of the second conductive portion, wherein the second conductive portion has a length smaller than one-fifth wavelength of a lowest operating frequency of a lowest communication system band covered by the first operating frequency band. 2. The communication device according to claim 1 , wherein the first and second operating frequency bands respectively cover at least one communication system band, and are for transceiving electromagnetic signals. 3. The communication device according to claim 1 , wherein the capacitive coupling portion has a coupling distance less than or equal to two percent of a wavelength of a lowest operating frequency of a lowest communication system band covered by the first operating frequency band. 4. The communication device according to claim 1 , wherein a matching circuit is provided between the shorting terminal of the second conductive portion and the ground plane. 5. The communication device according to claim 1 , wherein the capacitive coupling portion comprises a capacitive element. 6. The communication device according to claim 1 , wherein a matching circuit is provided between the starting terminal of the first conductive portion and the signal source. 7. The communication device according to claim 1 , wherein the first or second conductive portion comprises an inductive element and/or a meandering section, or any combination thereof. 8. A method for designing an antenna for a communication device, comprising: embedding a notch at an edge of a ground plane of the communication device, wherein the notch of the ground plane has at least a first edge and a second edge; disposing a first conductive portion electrically coupled to the first edge of the notch via a signal source, wherein the first conductive portion has a starting terminal as a feeding terminal of the antenna element, the feeding terminal is electrically coupled or connected to the signal source, and a capacitive coupling portion is formed between an end terminal of the first conductive portion and the second edge of the ground plane; and disposing a second conductive portion having a shorting terminal electrically coupled or connected to the second edge of the notch, such that the antenna element generates at least a first operating frequency band and a second operating frequency band higher than the first operating frequency band, wherein the first and second edges of the notch are located on different sides and the first edge has a length greater than a length of the second edge, wherein the shorting terminal and the feeding terminal are respectively located near two end points of a diagonal line of the notch, and the first conductive portion extends along the first edge to the second edge, and the capacitive coupling portion makes the first conductive portion and the first edge of the ground plane forming an equivalent loop resonant structure, wherein the equivalent loop resonant structure forms an excitation source of the second conductive portion, and the excitation source excites the second conductive portion for resonance to generate the first and second operating frequency bands of the antenna element, and the excitation source formed by the equivalent loop resonant structure utilizes the first edge, the second edge or another edge of the notch as a part of current resonant paths of the second conductive portion, wherein the second conductive portion has a length smaller than one-fifth wavelength of a lowest operating frequency of a lowest communication system band covered by the first operating frequency band. 9. The method according to claim 8 , wherein the first and second operating frequency bands respectively cover at least one communication system frequency band, and are for transceiving electromagnetic signals. 10. The method according to claim 8 , wherein the capacitive coupling portion has a coupling distance less than or equal to two percent of the wavelength of a lowest operating frequency of a lowest communication system band covered by the first operating frequency band. 11. The method according to claim 8 , further comprising: providing a matching circuit between the shorting terminal of the second conductive portion and the ground plane. 12. The method according to claim 8 , wherein the capacitive coupling portion comprises a capacitive element. 13. The method according to claim 8 , further comprising: providing a matching circuit between the starting terminal of the first conductive portion and the signal source. 14. The method according to claim 8 , wherein the first or second conductive portion comprises an inductive element and/or a meandering section, or any combination thereof.