Antenna device and electronic device including the same

What is claimed is: 1. An antenna device comprising: a radio frequency (RF) module comprising: a first circuit board; a plurality of first radiating conductors arranged on the first circuit board; an RF integrated chip (RFIC) disposed on one surface of the first circuit board and integrated with the plurality of first radiating conductors; and a baseband (BB) module comprising: a plurality of second radiating conductors respectively corresponding to a portion of the plurality of first radiating conductors; and a BB integrated chip (BBIC) integrated with the plurality of second radiating conductors, wherein the RF module is combined with the BB module to be positioned while the one surface of the first circuit board facing the BB module and the RF module is electrically connected with the BB module, wherein a first portion of the plurality of first radiating conductors are disposed on the one surface of the first circuit board and a second portion of the plurality of first radiating conductors are disposed on another surface of the first circuit board, wherein a portion of the plurality of second radiating conductors are configured to receive electricity from the RFIC via one of the first portion of the plurality of first radiating conductors, and wherein the second portion of the plurality of first radiating conductors are configured to receive electricity from the RFIC. 2. The antenna device of claim 1 , wherein, when the first portion of the plurality of first radiating conductors corresponding to the plurality of second radiating conductors are provided as soldering pads. 3. The antenna device of claim 2 , wherein the first portion of the plurality of first radiating conductors provided as the soldering pads are configured to supply electricity received from the RFIC to the plurality of second radiating conductors. 4. The antenna device of claim 3 , wherein the portion of the plurality of second radiating conductors are arranged on a surface positioned opposite the RF module and configured to form broadside radiation. 5. The antenna device of claim 3 , wherein another portion of the plurality of second radiating conductors are arranged on a side surface of the BB module or parallel with the side surface thereof to form endfire radiation. 6. The antenna device of claim 1 , wherein the first circuit board has first via holes formed through the first circuit board; and wherein the first portion of the plurality of first radiating conductors arranged on the one surface are respectively connected with the first via holes and configured to receive electricity through the first via holes from the RF module. 7. The antenna device of claim 6 , wherein, when the RF module is combined with the BB module to be positioned facing the BB module, the first portion of the plurality of first radiating conductors are provided as soldering pads, and the portion of the plurality of second radiating conductors are configured to receive electricity from the RFIC via one of the first portion of the plurality of first radiating conductors respectively provided as the soldering pads. 8. The antenna device of claim 6 , wherein the RF module further comprises: a plurality of second via holes formed through the first circuit board; and wherein the second via holes are arranged around the first via holes to provide a ground. 9. The antenna device of claim 6 , wherein the RF module further comprises: a conductive layer formed on, at least, the first surface of the first circuit board; and a plurality of slots formed in the conductive layer; and wherein the first portion of the plurality of first radiating conductors are arranged in the slots. 10. The antenna device of claim 9 , wherein the RF module further comprises: a plurality of second via holes formed through the first circuit board; and wherein the second via holes are arranged around the first via holes, and the second via holes, together with the conductive layer, provide a ground. 11. The antenna device of claim 1 , wherein the RF module further comprises: a conductive layer formed on at least a surface of the first circuit board; and a plurality of slots formed in the conductive layer; and wherein a portion of the plurality of first radiating conductors are arranged in the slots. 12. The antenna device of claim 1 , wherein the BB module further comprises: a second circuit board including a conductive layer formed on, at least, a surface thereof, which is positioned opposite the RF module; and a plurality of slots formed in the conductive layer, and wherein the portion of the plurality of second radiating conductors are arranged in the slots. 13. The antenna device of claim 1 , wherein the RF module further comprises: a plurality of layers forming the first circuit board; a plurality of conductors arranged on at least one of a surface or opposite surface of each of the layers; and a plurality of via holes formed through the layers to connect the conductors arranged on different surfaces of the layers to form a mesh grid structure; and wherein a third portion of the plurality of first radiating conductors are implemented with the conductors and the via holes to form the mesh grid structure. 14. The antenna device of claim 13 , wherein the third portion of the plurality of first radiating conductors implemented with the conductors and the via holes are configured to form endfire radiation. 15. The antenna device of claim 13 , wherein the RF module further comprises: soldering pads provided on the one surface of the first circuit board, the soldering pads being connected with the third portion of the plurality of first radiating conductors; and wherein, when the RF module is combined with the BB module to be positioned facing the BB module, another portion of the plurality of second radiating conductors are configured to receive electricity from the RFIC through the soldering pads. 16. The antenna device of claim 1 , wherein the BB module comprises a second circuit board, the second circuit board comprising: a plurality of layers; a plurality of conductors arranged on at least one of a surface or an opposite surface of each of the layers; and a plurality of via holes formed through the layers for connecting the conductors arranged on different surfaces of the layers to form a mesh grid structure; and wherein another portion of the plurality of second radiating conductors are implemented with the conductors and the via holes to form the mesh grid structure. 17. The antenna device of claim 16 , wherein at least one of the other portion of the plurality of second radiating conductors, implemented with the conductors and the via holes, is configured to receive electricity from the RFIC to form endfire radiation. 18. The antenna device of claim 1 , wherein the second portion of the plurality of first radiating conductors are configured to form broadside radiation in a first direction using electricity received from the RFIC, and wherein the portion of the second radiating conductors are configured to form broadside radiation in a second direction opposite to the first direction using electricity received from the RFIC via one of the first portion of the plurality of first radiating conductors. 19. An electronic device comprising: an antenna device comprising: a radio frequency (RF) module comprising: a first circuit board; a plurality of first radiating conductors arranged in or on the first circuit board; an RF in