Antenna device and mobile terminal having the same

What is claimed is: 1. A terminal, comprising: a first conductive member forming a part of a lower end of an outer metal frame of the terminal and configured to operate as a first antenna; a second conductive member spaced apart from the first conductive member to form a part of the lower end and a part of a first side surface of the outer metal frame and configured to operate as a second antenna; a third conductive member spaced apart from the first conductive member and forming a part of the lower end and a part of a second side surface of the outer metal frame; and a controller configured to receive a first signal of a low frequency band through the first antenna and simultaneously receive a second signal of a first frequency band, wherein the second conductive member is spaced apart from the first conductive member by a first slit, wherein the first conductive member is spaced apart from the third conductive member by a second slit, and wherein the controller receives only the first signal through the first antenna when a signal-to-interference ratio (SIR) of the second signal is less than or equal to a threshold value. 2. The terminal of claim 1 , further comprising a conductive line connected to a first point of the first conductive member and a second point of the second conductive member, and wherein the second conductive member is configured to operate as the second antenna in the first frequency band different from the low frequency band. 3. The terminal of claim 2 , further comprising a frame which comprises the outer metal frame, wherein the conductive line is formed as a conductive pattern printed on a carrier disposed between the frame and a battery cover. 4. The terminal of claim 2 , wherein the conductive line comprises a first conductive line connected to the first point of the first conductive member and a second conductive line connected to the second point of the second conductive member, and the first and second conductive lines are connected to each other so as to be connected to an input of a single pole double through (SPDT) switch. 5. The terminal of claim 4 , further comprising a first feeding part connected to the first conductive line at a first feeding point located between a ground on the first conductive member and a connection point of the first and second conductive lines, wherein the first feeding part is configured to feed the first antenna operating in the low frequency band based on a length of the first conductive member and the conductive line. 6. The terminal of claim 5 , further comprising a stub part electrically connected to the first conductive member and configured to tune a resonance characteristic of the first antenna so that the first antenna operates in the low frequency band. 7. The terminal of claim 5 , further comprising a second feeding part connected to the second conductive member on one end portion of the first conducting member, wherein the second feeding part is electrically connected to the second conductive member and feeds the second antenna operating in the first frequency band based on a length of the second conductive member. 8. The terminal of claim 2 , wherein the conductive line comprises a first conductive line connected to the first point of the first conductive member and a second conductive line connected to the second point of the second conductive member, and wherein the second conductive line is connected to the first conductive member via the first point adjacent to the first slit. 9. The terminal of claim 8 , wherein the first conductive member and an input of the SP4T switch are connected at a fourth point on the first conductive member, and wherein the first point is formed on the first conductive member between the first slit and the fourth point. 10. The terminal of claim 8 , wherein the first conductive member and an input of the SP4T switch are connected at a fourth point on the first conductive member, and wherein the first point is located on the first conductive member between the fourth point and the second slit. 11. The terminal of claim 2 , wherein the conductive line comprises a first conductive line connected to the first point of the first conductive member and a second conductive line connected to the second point of the second conductive member, and wherein the second conductive line is connected to the first conductive member via the first point adjacent to the second slit. 12. The terminal of claim 1 , wherein the third conductive member is connected to a ground at a third point of the second side surface, and wherein the third conductive member is configured to operate as a third antenna in a second frequency band. 13. The terminal of claim 12 , further comprising a third feeding part connected to the third conductive member at one end portion of the third conductive member, wherein the third feeding part is electrically connected to the third conductive member and is configured to feed the third antenna operating in the second frequency band based on a length of the third conductive member. 14. The terminal of claim 1 , wherein the first conductive member is connected to an input of a single pole four through (SP4T) switch at a fourth point of the first conductive member spaced apart from a slit between the first conductive member and the third conductive member. 15. A terminal, comprising: a first conductive member forming a part of a lower end of an outer metal frame of the terminal and configured to operate as a first antenna; a second conductive member spaced apart from the first conductive member to form a part of the lower end and a part of a first side surface of the outer metal frame and configured to operate as a second antenna; a third conductive member spaced apart from the first conductive member and forming a part of the lower end and a part of a second side surface of the outer metal frame; and a controller configured to receive a first signal of a low frequency band through the first antenna and simultaneously receive a second signal of a first frequency band, wherein the second conductive member is spaced apart from the first conductive member by a first slit, wherein the first conductive member is spaced apart from the third conductive member by a second slit, and wherein the controller receives only the first signal through the first antenna when it is determined that the second antenna is gripped by a user. 16. The terminal of claim 15 , further comprising a conductive line connected to a first point of the first conductive member and a second point of the second conductive member, and wherein the second conductive member is configured to operate as the second antenna in the first frequency band different from the low frequency band. 17. The terminal of claim 16 , wherein the conductive line comprises a first conductive line connected to the first point of the first conductive member and a second conductive line connected to the second point of the second conductive member. 18. The terminal of claim 17 , further comprising a first feeding part connected to the first conductive line at a first feeding point located between a ground on the first conductive member and a connection point of the first and second conductive lines, wherein the first feeding part is configured to feed the first antenna operating in the low frequency band based on a length of the first conductive member and the conductive line. 19. The terminal of claim 17 , further comprising a second feeding part connected t