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A mobile terminal includes a terminal case, a main PCB inside the terminal case mounting various circuit components thereon, and an internal antenna fixed on the main PCB. The internal antenna can transmit and receive radio waves bearing voice and image information to and from the main PCB and shiel

A mobile terminal includes a terminal case, a main PCB inside the terminal case mounting various circuit components thereon, and an internal antenna fixed on the main PCB. The internal antenna can transmit and receive radio waves bearing voice and image information to and from the main PCB and shield electromagnetic wave generating parts mounted on the main PCB. Thus, embodiments of an internal antenna, a mobile terminal and methods thereof can reduce size and costs, and can shield RF elements or the like discharging a large amount of electromagnetic waves or circuit components among parts installed on the main PCB so that leakage of electromagnetic waves can be reliably reduced or prevented.

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What is claimed is: 1. A mobile terminal, comprising: a terminal case; a PCB provided inside the terminal case and having various circuit components mounted thereon; and an internal antenna mounted on the PCB and configured to transmit and receive radio waves bearing voice and image information to

What is claimed is: 1. A mobile terminal, comprising: a terminal case; a PCB provided inside the terminal case and having various circuit components mounted thereon; and an internal antenna mounted on the PCB and configured to transmit and receive radio waves bearing voice and image information to and from the PCB and shield electromagnetic wave generating parts mounted on the PCB, wherein the internal antenna comprises: a carrier fixed at one side of a main PCB and configured to have an electromagnetic wave shielding part; a radiator attached to the carrier and configured to radiate said radio waves received from the main PCB; and a feeding terminal coupled to the carrier and configured to electrically connect the radiator and the main PCB, wherein an electromagnetic shielding film is coated at each of an inner side and an outer side of the electromagnetic wave shielding part. 2. The terminal of claim 1, wherein the carrier comprises a fixing hole into which the feeding terminal is fixed. 3. The terminal of claim 1, wherein the carrier comprises engaging hooks formed at a marginal portion and configured to be engaged to the main PCB. 4. The terminal of claim 1, wherein the carrier comprises an engaging hole, wherein the engaging hole is removably engaged with the terminal case. 5. The terminal of claim 1, wherein the electromagnetic wave shielding part covers an RF element mounted on the main PCB. 6. The terminal of claim 5, wherein the electromagnetic wave shielding part comprises: a barrier wall formed in a circumferential direction so that the RF element can be covered when the carrier is attached on a surface of the main PCB. 7. The terminal of claim 6, wherein the electromagnetic wave shielding film comprises a copper film is at a surface of the electromagnetic wave shielding part and a corrosion preventing film including nickel or stainless steel at a surface of the copper film. 8. The terminal of claim 6, comprising a gasket at an upper surface of the barrier wall of the electromagnetic wave shielding part configured to seal the baffler wall and the surface of the main PCB. 9. The terminal of claim 8, wherein the gasket comprises a silicon material having both conductivity and elasticity. 10. The terminal of claim 1, wherein the terminal case comprises: a front case and a rear case determining a prescribed space thereberween; and an electromagnetic wave shielding film at an inner side of the front case and the rear case. 11. The terminal of claim 10, wherein the electromagnetic wave shielding film is copper and nickel sequentially plated. 12. The terminal of claim 1, wherein the internal antenna is over the PCB. 13. The terminal of claim 1, wherein the radiator is configured to receive and radiate said radio waves transmitted to and received from the main PCB, and wherein the cattier comprises: a first shielding part configured to shield an RF element mounted on the main PCB; and a second shielding part configured to shield a connector. 14. The terminal of claim 13, wherein the first shielding part is configured to cover the RF element and the second shielding part is configured to cover the connector, wherein the connector is used for a flexible PCB connection to a folder of the mobile terminal. 15. The terminal of claim 14, wherein the first and second shielding parts comprise a polycarbonate material, and wherein the carrier, the first shielding part and the second shielding part are integrally formed. 16. The terminal of claim 14, wherein an electromagnetic wave shielding film is coated at a surface of the outer side and the inner side of each of the first and second shielding parts for shielding electromagnetic waves. 17. The terminal of claim 16, wherein the electromagnetic wave shielding film is a film comprising copper at the surface of the fast and second shielding parts and a corrosion preventing film comprising nickel or stainless steel at the surface of the copper film. 18. The terminal of claim 14, wherein the first and second shielding parts respectively include a rib, and wherein a gasket is attached at an upper surface of the rib and configured to be attached between the surface of the main PCB and the rib for shielding electromagnetic waves. 19. The terminal of claim 13, wherein the main PCB comprises a refuge groove so that the connector connected to a front PCB can be covered by the second shielding part. 20. An internal antenna, comprising: a carrier inside a communication device and configured to shield electromagnetic wave generating parts; a radiator coupled to the carrier and configured to receive and radiate radio waves transmitted to and received from the communication device; and a feeding terminal fixed at the carrier and configured to electrically connect the radiator and an antenna terminal part of the communication device; and at least one recessed portion provided in the carrier, wherein an inner surface and an outer surface of the recessed portion is covered by an electromagnetic wave shielding film. 21. The antenna of claim 20, comprising a barrier wall around the recess covered by the shielding film. 22. The antenna of claim 20, wherein the carrier comprises: a fixing hole into which the feeding terminal is connected; and engaging hooks formed at a marginal portion and configured to engage a main PCB, wherein the carrier comprises an engaging hole, and wherein the engaging hole is removably engaged with a case of the communication device. 23. The antenna of claim 20, wherein the carrier comprises: a first shielding part configured to shield an RF element mounted on the main PCB; and a second shielding part configured to shield a connector. 24. The antenna of claim 23, wherein each of the first and second shielding parts comprises: a barrier wall formed in a circumferential direction so that the RF element can be covered when the carrier is attached on a surface of the PCB; and an electromagnetic wave shielding film coated at each of an inner side and an outer side thereof for shielding electromagnetic waves, and wherein the internal antenna is over the PCB. 25. The antenna of claim 24, further comprising a gasket at an upper surface of the barrier wall of each of the first and second shielding parts configured to seal the barrier wall and the surface of the main PCB, wherein the gasket comprises a silicon material having both conductivity and elasticity. 26. A mobile terminal, comprising: a terminal case; a main PCB inside the terminal case and configured to have various circuit components mounted thereon; and an internal antenna directly mounted on the main PCB and configured to receive and transmit radio waves bearing voice and image information to and from the main PCB, wherein the internal antenna comprises: a carrier fixed at one side of a main PCB and configured to have an electromagnetic wave shielding part; a radiator attached to the carrier and configured to receive and radiate said radio waves transmitted to and received from the main PCB; and a feeding terminal configured to be coupled to the carrier and to electrically couple the radiator and the main PCB, wherein an electromagnetic shielding film is coated at each of an inner side and an outer side of the electromagnetic wave shielding part. 27. The mobile terminal of claim 26, wherein the internal antenna is mounted over the main PCB. 28. A method for assembling a mobile terminal comprising: providing a terminal case; providing a PCB including various circuit components inside the terminal case; and shielding an electromagnetic wave generating part mounted on the PCB using an internal antenna, wherein the internal antenna comprises: a carrier inside a communication device and configured to shield the electromagnetic wave generating part; a radiator coupled to the carrier and configured to receive and radiate radio waves transmitted to and received from the communication device; and a feeding terminal configured to electrically couple the radiator and an antenna terminal part of the communication device, wherein an electromagnetic shielding film is coated at each of an inner side and an outer side of the electromagnetic wave shielding part. 29. The method of claim 28, comprising: directly mounting the internal antenna on the PCB, wherein the internal antenna is configured to transmit and receive radio waves bearing voice and image information to and from the PCB. 30. A mobile terminal, comprising: a terminal case; a PCB provided inside the terminal case and having various circuit components mounted thereon; and an internal antenna mounted on the PCB and configured to transmit and receive radio waves bearing voice and image information to and from the PCB and shield electromagnetic wave generating parts mounted on the PCB, wherein the internal antenna comprises: a carrier fixed at one side of the PCB, a radiator attached to the carrier and configured to receive and radiate said radio waves transmitted to and received from the PCB, and a feeding terminal configured to be coupled to the carrier and to electrically couple the radiator and the PCB, wherein the carrier comprises: a first shielding part configured to shield an RF element mounted on the main PCB; and a second shielding part configured to shield a connector. 31. A mobile terminal, comprising: a terminal case; a PCB provided inside the terminal case and having various circuit components mounted thereon; and an internal antenna mounted on the PCB and configured to transmit and receive radio waves bearing voice and image information to and from the PCB and shield electromagnetic wave generating parts mounted on the PCB, wherein the internal antenna comprises: a carrier fixed at one side of a main PCB and configured to have an electromagnetic wave shielding part; a radiator attached to the carrier and configured to radiate said radio waves received from the main PCB; and a feeding terminal coupled to the carrier and configured to electrically connect the radiator and the main PCB, wherein the terminal case comprises a front case and a rear case determining a prescribed space therebetween and an electromagnetic wave shielding film at an inner side of the front case and the rear case, and wherein the electromagnetic wave shielding film is copper and nickel sequentially plated. 32. A mobile terminal, comprising: a terminal case; a PCB provided inside the terminal case and having various circuit components mounted thereon; and an internal antenna mounted on the PCB and configured to transmit and receive radio waves bearing voice and image information to and from the PCB and shield electromagnetic wave generating parts mounted on the PCB, wherein the internal antenna comprises: a carrier fixed at one side of a main PCB and configured to have an electromagnetic wave shielding part; a radiator attached to the carrier and configured to radiate said radio waves received from the main PCB; and a feeding terminal coupled to the carrier and configured to electrically connect the radiator and the main PCB, wherein the radiator is configured to receive and radiate said radio waves transmitted to and received from the main PCB, and wherein the carrier comprises: a first shielding part configured to shield an RF element mounted on the main PCB; and a second shielding part configured to shield a connector. 33. An internal antenna, comprising: a carrier inside a communication device and configured to shield electromagnetic wave generating parts; a radiator coupled to the carrier and configured to receive and radiate radio waves transmitted to and received from the communication device; and a feeding terminal fixed at the carrier and configured to electrically connect the radiator and an antenna terminal part of the communication device; at least one recessed portion provided in the carrier, wherein at least one of an inner surface and an outer surface of the recessed portion is covered by an electromagnetic wave shielding film; and a barrier wall around the recessed portion. 34. An internal antenna, comprising: a carder inside a communication device and configured to shield electromagnetic wave generating parts; a radiator coupled to the carrier and configured to receive and radiate radio waves transmitted to and received from the communication device; and a feeding terminal fixed at the carder and configured to electrically connect the radiator and an antenna terminal part of the communication device; and at least one recessed pardon provided in the carrier, wherein at least one of an inner surface and an outer surface of the recessed portion is covered by an electromagnetic wave shielding film, and wherein the carrier comprises: a first shielding part configured to shield an RF element mounted on a PCB; and a second shielding part configured to shield a connector. 35. A mobile terminal, comprising: a terminal case including a front case and a rear case; a main PCB provided inside the terminal case between the front case and the rear case; a carrier fixed at one side of a main PCB and configured to have an electromagnetic wave shielding part coating an RF element mounted to the main PCB; and a radiator attached to the carrier and configured to radiate waves transmitted and received from the main PCB, wherein the carrier includes: an electromagnetic wave shielding film coated at the electromagnetic radio wave shielding part; a feeding terminal fixed on the carrier and configured to electrically connect between the radiator and the main PCB; and engaging hooks formed at a marginal portion and engaged to the main PCB. 36. A mobile terminal, comprising: a terminal case including a front case and a rear case; a main PCB provided inside the terminal case between the front case and the rear case; a carrier fixed at one side of a main PCB and configured to have an electromagnetic wave shielding part coating a RF element mounted to the main PCB; and a radiator attached to the carrier and configured to radiate waves transmitted and received from the main PCB, wherein the carrier includes: an electromagnetic wave shielding film coated at the electromagnetic radio wave shielding part; a feeding terminal fixed on the carrier and configured to electrically connect between the radiator and the main PCB; and screw engaging holes formed at a carrier margin to provide a close seal between the carrier and the main PCB by engaging the carrier and the main PCB to the terminal case each by a screw.