IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0130645
(2001-08-30)
|
우선권정보 |
JP-2000-262549(2000-08-31) |
국제출원번호 |
PCT/JP01/007453
(2001-08-30)
|
§371/§102 date |
20020521
(20020521)
|
국제공개번호 |
WO02/019465
(2002-03-07)
|
발명자
/ 주소 |
|
출원인 / 주소 |
- Matsushita Electric Industrial Co., Ltd.
|
대리인 / 주소 |
Stevens, Davis, Miller &
|
인용정보 |
피인용 횟수 :
14 인용 특허 :
6 |
초록
▼
A high gain built-in antenna for a radio communication terminal with less influence from the human body. This built-in antenna for a radio communication terminal includes bar-shaped second passive element 392 facing antenna elements making up dipole antenna 321. The distance between this second pa
A high gain built-in antenna for a radio communication terminal with less influence from the human body. This built-in antenna for a radio communication terminal includes bar-shaped second passive element 392 facing antenna elements making up dipole antenna 321. The distance between this second passive element 392 and the antenna elements making up dipole antenna 321 is appropriately set in such a way as to widen the band of the input impedance characteristic by changing mutual impedance between second passive element 392 and the antenna elements making up dipole antenna 321.
대표청구항
▼
What is claimed is: 1. A built-in antenna for a radio communication terminal, comprising: a grounded conductor, incorporated in a package of the radio communication terminal, that forms a tabular plane; a dipole antenna provided with an antenna element connected to said grounded conductor; and bala
What is claimed is: 1. A built-in antenna for a radio communication terminal, comprising: a grounded conductor, incorporated in a package of the radio communication terminal, that forms a tabular plane; a dipole antenna provided with an antenna element connected to said grounded conductor; and balance-to-unbalance transforming means for matching impedance between said dipole antenna and said grounded conductor and transforming an unbalanced signal to a balanced signal or vice versa, wherein: said dipole antenna comprises a bar-shaped antenna element and a rectangular-wave-shaped antenna element, said bar-shaped antenna element is provided outside said package in such a way that the axial direction thereof is parallel to the longitudinal direction of said tabular plane of said grounded conductor, and said rectangular-wave-shaped antenna element is provided inside said package in such a way that the longitudinal direction thereof is parallel to the longitudinal direction of said tabular plane of said grounded conductor. 2. The built-in antenna for a radio communication terminal according to claim 1, wherein said dipole antenna comprises a rectangular-wave-shaped antenna element instead of said bar-shaped antenna element. 3. A diversity antenna constructed using two built-in antennas for a radio communication terminal according to claim 2. 4. A diversity antenna, comprising: the built-in antenna for a radio communication terminal according to claim 2; and a dipole antenna having two rectangular-wave-shaped antenna elements, wherein diversity transmission/reception is carried out using said built-in antenna for a radio communication terminal and said dipole antenna. 5. The diversity antenna according to claim 4, wherein said dipole antenna comprises two rectangular-wave-shaped antenna elements, and said two rectangular-wave-shaped antenna elements are provided inside said package in such a way that the longitudinal direction thereof is parallel to the longitudinal direction of said tabular plane of said grounded conductor. 6. The diversity antenna according to claim 4, wherein said dipole antenna comprises two rectangular-wave-shaped antenna elements, and said two rectangular-wave-shaped antenna elements are provided in such a way that the longitudinal direction thereof is perpendicular to the longitudinal direction of said tabular plane of said grounded conductor. 7. The diversity antenna according to claim 4, wherein said dipole antenna comprises two rectangular-wave-shaped antenna elements, the first antenna element of said two rectangular-wave-shaped antenna elements is provided in such a way that the longitudinal direction thereof is parallel to the longitudinal direction of said tabular plane of said grounded conductor, and the second antenna element is provided in such a way that the longitudinal direction thereof is perpendicular to the longitudinal direction of said tabular plane of said grounded conductor. 8. A diversity antenna constructed using two built-in antennas for a radio communication terminal according to claim 1. 9. A diversity antenna, comprising: the built-in antenna for a radio communication terminal according to claim 1; and a dipole antenna having two rectangular-wave-shaped antenna elements, wherein diversity transmission/reception is carried out using said built-in antenna for a radio communication terminal and said dipole antenna. 10. The diversity antenna according to claim 9, wherein said dipole antenna comprises two rectangular-wave-shaped antenna elements, and said two rectangular-wave-shaped antenna elements are provided inside said package in such a way that the longitudinal direction thereof is parallel to the longitudinal direction of said tabular plane of said grounded conductor. 11. The diversity antenna according to claim 9, wherein said dipole antenna comprises two rectangular-wave-shaped antenna elements, and said two rectangular-wave-shaped antenna elements are provided in such a way that the longitudinal direction thereof is perpendicular to the longitudinal direction of said tabular plane of said grounded conductor. 12. The diversity antenna according to claim 9, wherein said dipole antenna comprises two rectangular-wave-shaped antenna elements, the first antenna element of said two rectangular-wave-shaped antenna elements is provided in such a way that the longitudinal direction thereof is parallel to the longitudinal direction of said tabular plane of said grounded conductor, and the second antenna element is provided in such a way that the longitudinal direction thereof is perpendicular to the longitudinal direction of said tabular plane of said grounded conductor. 13. The built-in antenna for a radio communication terminal according to claim 1, wherein said antenna element is provided with an inductance element between the power supply end and the other end thereof. 14. The built-in antenna for a radio communication terminal according to claim 1, wherein said rectangular-wave-shaped antenna element is a folded-dipole antenna provided with a capacitance element. 15. The built-in antenna for a radio communication terminal according to claim 1, wherein said dipole antenna is constructed of a spiral-shaped antenna element and said antenna element is provided with an inductance element between the power supply end and the other end thereof. 16. The built-in antenna for a radio communication terminal according to claim 1, wherein said dipole antenna is a spiral-shaped folded-dipole antenna provided with a capacitance element. 17. The built-in antenna for a radio communication terminal according to claim 1, wherein said dipole antenna comprises another rectangular-wave-shaped antenna element placed in parallel to said rectangular-wave-shaped antenna element. 18. The built-in antenna for a radio communication terminal according to claim 1, wherein said dipole antenna is constructed of a spiral-shaped antenna element and another spiral-shaped antenna element placed in parallel to said spiral-shaped antenna element. 19. A built-in antenna for a radio communication terminal, comprising: a grounded conductor, incorporated in a package of the radio communication terminal, that forms a tabular plane; a dipole antenna provided with an antenna element connected to said grounded conductor; and balance-to-unbalance transforming means for matching impedance between said dipole antenna and said grounded conductor and transforming an unbalanced signal to a balanced signal or vice versa, wherein: said dipole antenna comprises a bar-shaped antenna element and a rectangular-wave-shaped antenna element, said bar-shaped antenna element is provided outside said package in such a way that the axial direction thereof is parallel to the longitudinal direction of said tabular plane of said grounded conductor, and said rectangular-wave-shaped antenna element is provided inside said package in such a way that the longitudinal direction thereof is perpendicular to the longitudinal direction of said tabular plane of said grounded conductor. 20. The built-in antenna for a radio communication terminal according to claim 19, wherein said dipole antenna comprises a rectangular-wave-shaped antenna element instead of said bar-shaped antenna element. 21. A diversity antenna constructed using two built-in antennas for a radio communication terminal according to claim 20. 22. A diversity antenna, comprising: the built-in antenna for a radio communication terminal according to claim 20; and a dipole antenna having two rectangular-wave-shaped antenna elements, wherein diversity transmission/reception is carried out using said built-in antenna for a radio communication terminal and said dipole antenna. 23. The diversity antenna according to claim 22, wherein said dipole antenna comprises two rectangular-wave-shaped antenna elements, and said two rectangular-wave-shaped antenna elements are provided inside said package in such a way that the longitudinal direction thereof is parallel to the longitudinal direction of said tabular plane of said grounded conductor. 24. The diversity antenna according to claim 22, wherein said dipole antenna comprises two rectangular-wave-shaped antenna elements, and said two rectangular-wave-shaped antenna elements are provided in such a way that the longitudinal direction thereof is perpendicular to the longitudinal direction of said tabular plane of said grounded conductor. 25. The diversity antenna according to claim 22, wherein said dipole antenna comprises two rectangular-wave-shaped antenna elements, the first antenna element of said two rectangular-wave-shaped antenna elements is provided in such a way that the longitudinal direction thereof is parallel to the longitudinal direction of said tabular plane of said grounded conductor, and the second antenna element is provided in such a way that the longitudinal direction thereof is perpendicular to the longitudinal direction of said tabular plane of said grounded conductor. 26. A diversity antenna constructed using two built-in antennas for a radio communication terminal according to claim 19. 27. A diversity antenna, comprising: the built-in antenna for a radio communication terminal according to claim 19; and a dipole antenna having two rectangular-wave-shaped antenna elements, wherein diversity transmission/reception is carried out using said built-in antenna for a radio communication terminal and said dipole antenna. 28. The diversity antenna according to claim 27, wherein said dipole antenna comprises two rectangular-wave-shaped antenna elements, and said two rectangular-wave-shaped antenna elements are provided inside said package in such a way that the longitudinal direction thereof is parallel to the longitudinal direction of said tabular plane of said grounded conductor. 29. The diversity antenna according to claim 27, wherein said dipole antenna comprises two rectangular-wave-shaped antenna elements, and said two rectangular-wave-shaped antenna elements are provided in such a way that the longitudinal direction thereof is perpendicular to the longitudinal direction of said tabular plane of said grounded conductor. 30. The diversity antenna according to claim 27, wherein said dipole antenna comprises two rectangular-wave-shaped antenna elements, the first antenna element of said two rectangular-wave-shaped antenna elements is provided in such a way that the longitudinal direction thereof is parallel to the longitudinal direction of said tabular plane of said grounded conductor, and the second antenna element is provided in such a way that the longitudinal direction thereof is perpendicular to the longitudinal direction of said tabular plane of said grounded conductor. the second antenna element is provided in such a way that the longitudinal direction thereof is perpendicular to the longitudinal direction of said tabular plane of said grounded conductor. 31. A built-in antenna for a radio communication terminal, comprising: a grounded conductor, incorporated in a package of the radio communication terminal, that forms a tabular plane; a dipole antenna provided with an antenna element connected to said grounded conductor; and balance-to-unbalance transforming means for matching impedance between said dipole antenna and said grounded conductor and transforming an unbalanced signal to a balanced signal or vice versa, wherein: the power supply end of the antenna element making up said dipole antenna is rectangular-wave-shaped and the other end is bar-shaped, said antenna element is folded in such a way that the longitudinal direction of said rectangular-wave-shaped part and the axial direction of said bar-shaped part intersect at right angles, said rectangular-wave-shaped part is provided in such a way that the longitudinal direction thereof is perpendicular to the longitudinal direction of said grounded conductor, and said bar-shaped part is provided outside said package and said rectangular-wave-shaped part is provided inside said package. 32. The built-in antenna for a radio communication terminal according to claim 31, wherein said dipole antenna comprises a rectangular-wave-shaped part instead of said bar-shaped part of said antenna element. 33. A built-in antenna for a radio communication terminal, comprising: a grounded conductor, incorporated in a package of the radio communication terminal, that forms a tabular plane; a dipole antenna provided with an antenna element connected to said grounded conductor; and balance-to-unbalance transforming means for matching impedance between said dipole antenna and said grounded conductor and transforming an unbalanced signal to a balanced signal or vice versa, wherein: said dipole antenna comprises a bar-shaped antenna element and a rectangular-wave-shaped antenna element, said bar-shaped antenna element is provided inside said package in such a way that the axial direction thereof is perpendicular to the longitudinal direction of said tabular plane of said grounded conductor, and said rectangular-wave-shaped antenna element is provided inside said package in such a way that the longitudinal direction thereof is parallel to the longitudinal direction of said tabular plane of said grounded conductor. 34. A built-in antenna for a radio communication terminal, comprising: a grounded conductor, incorporated in a package of the radio communication terminal, that forms a tabular plane; a dipole antenna provided with an antenna element connected to said grounded conductor; and balance-to-unbalance transforming means for matching impedance between said dipole antenna and said grounded conductor and transforming an unbalanced signal to a balanced signal or vice versa, wherein: said dipole antenna comprises a bar-shaped antenna element and a rectangular-wave-shaped antenna element, said bar-shaped antenna element is provided inside said package in such a way that the axial direction thereof is parallel to the longitudinal direction of said tabular plane of said grounded conductor, and said rectangular-wave-shaped antenna element is provided inside said package in such a way that the longitudinal direction thereof is perpendicular to the longitudinal direction of said tabular plane of said grounded conductor. 35. A built-in antenna for a radio communication terminal, comprising: a grounded conductor, incorporated in a package of the radio communication terminal, that forms a tabular plane; a dipole antenna provided with an antenna element connected to said grounded conductor; and balance-to-unbalance transforming means for matching impedance between said dipole antenna and said grounded conductor and transforming an unbalanced signal to a balanced signal or vice versa, wherein: the power supply end of the antenna element making up said dipole antenna is bar-shaped and the other end is rectangular-wave shaped, said antenna element is folded in such a way that the longitudinal direction of said rectangular-wave-shaped part is perpendicular to the axial direction of said bar-shaped part, said rectangular-wave-shaped part is provided in such a way that the longitudinal direction thereof is parallel to the longitudinal direction of said grounded conductor, and said bar-shaped part and said rectangular-wave-shaped part are provided inside said package. 36. A built-in antenna for a radio communication terminal, comprising: a grounded conductor, incorporated in a package of the radio communication terminal, that forms a tabular plane; a dipole antenna provided with an antenna element connected to said grounded conductor; and balance-to-unbalance transforming means for matching impedance between said dipole antenna and said grounded conductor and transforming an unbalanced signal to a balanced signal or vice versa, wherein: the power supply end of the antenna element making up said dipole antenna is rectangular-wave-shaped and the other end is bar-shaped, said antenna element is folded in such a way that the longitudinal direction of said rectangular-wave-shaped part is perpendicular to the axial direction of said bar-shaped part, said rectangular-wave-shaped part is provided in such a way that the longitudinal direction thereof is perpendicular to the longitudinal direction of said grounded conductor, and said bar-shaped part and said rectangular-wave-shaped part are provided inside said package. 37. A built-in antenna for a radio communication terminal, comprising: a grounded conductor, incorporated in a package of the radio communication terminal, that forms a tabular plane; a dipole antenna provided with an antenna element connected to said grounded conductor; balance-to-unbalance transforming means for matching impedance between said dipole antenna and said grounded conductor and transforming an unbalanced signal to a balanced signal or vice versa; and a first bar-shaped passive element, wherein: said dipole antenna is constructed of two bar-shaped antenna elements placed on a straight line, said first passive element is provided in such a way that the axial direction thereof is parallel to the axial direction of said bar-shaped antenna element making up said dipole antenna and a reference plane formed by said first passive element and said bar-shaped antenna element making up said dipole antenna is perpendicular to the main plane of said package, and directivity is formed in the direction along said reference plane and normal to the main plane of said package. 38. The built-in antenna for a radio communication terminal according to claim 37, wherein the main plane of said package is rectangular-wave-shaped and said first passive element is provided along the longitudinal direction of the main plane of said package. 39. The built-in antenna for a radio communication terminal according to claim 37, wherein the main plane of said package is rectangular-wave-shaped and said first passive element is provided along the width direction of the main plane of said package. 40. The built-in antenna for a radio communication terminal according to claim 37, wherein the main plane of said package is rectangular-wave-shaped, said first passive element is folded along said reference plane, one folded rectilinear part is provided along the longitudinal direction of the main plane of said package, and the other folded rectilinear part is provided along the width direction of the main plane of said package. 41. A diversity antenna comprising two built-in antennas for a radio communication terminal according to claim 4, wherein diversity transmission/reception is carried out using said two built-in antennas for a radio communication terminal. 42. The built-in antenna for a radio communication terminal according to claim 37, wherein the main plane of said package is rectangular-wave-shaped, said first passive element is folded in the form of a horseshoe along said reference plane, the folded rectilinear part including the edge is provided along the longitudinal direction of the main plane of said package, and the folded rectilinear part not including the edge is provided along the width direction of the main plane of said package. 43. A diversity antenna, comprising: the built-in antenna for a radio communication terminal according to claim 37; and a bar-shaped monopole antenna, herein diversity transmission/reception is carried out using said built-in antenna for a radio communication terminal and said monopole antenna. 44. A diversity antenna, comprising: the built-in antenna for a radio communication terminal according to claim 37; and a rectangular-wave-shaped monopole antenna, wherein diversity transmission/reception is carried out using said built-in antenna for a radio communication terminal and said monopole antenna. 45. A diversity antenna, comprising: the built-in antenna for a radio communication terminal according to claim 37; and a spiral-shaped monopole antenna, wherein diversity transmission/reception is carried out using said built-in antenna for a radio communication terminal and said monopole antenna. 46. A diversity antenna comprising two built-in antennas for a radio communication terminal according to claim 37, wherein diversity transmission/reception is carried out using said two built-in antennas for a radio communication terminal. 47. A diversity antenna for carrying out diversity transmission/reception using the built-in antenna for a radio communication terminal according to claim 37 and the built-in antenna for a radio communication terminal according to claim 28. 48. A diversity antenna for carrying out diversity transmission/reception using the built-in antenna for a radio communication terminal according to claim 37 and the built-in antenna for a radio communication terminal according to claim 40. 49. The built-in antenna for a radio communication terminal according to claim 37, further comprising a second bar-shaped passive element, wherein said second bar-shaped passive element is provided in such a way that the axial direction thereof is parallel to the axial direction of said bar-shaped antenna element making up said dipole antenna. 50. The built-in antenna for a radio communication terminal according to claim 49, wherein the main plane of said package is rectangular-wave-shaped, said first passive element is provided along the longitudinal direction of the main plane of said package, and said second passive element is provided along the longitudinal direction of the main plane of said package. 51. The built-in-antenna for a radio communication terminal according to claim 50, wherein said dipole antenna is a folded-dipole antenna. 52. The built-in antenna for a radio communication terminal according to claim 51, wherein said dipole antenna is provided with impedance converting means. 53. A diversity antenna comprising the built-in antenna for a radio communication terminal according to claim 50 and a bar-shaped monopole antenna, wherein diversity transmission/reception is carried out using said built-in antenna for a radio communication terminal and said monopole antenna. 54. A diversity antenna comprising the built-in antenna for a radio communication terminal according to claim 50 and a rectangular-wave-shaped monopole antenna, wherein diversity transmission/reception is carried out using said built-in antenna for a radio communication terminal and said monopole antenna. 55. A diversity antenna comprising the built-in antenna for a radio communication terminal according to claim 50 and a spiral-shaped monopole antenna, wherein diversity transmission/reception is carried out using said-built-in antenna for a radio communication terminal and said monopole antenna. 56. A diversity antenna comprising the two built-in antennas for a radio communication terminal according to claim 50, wherein diversity transmission/reception is carried out using said two built-in antennas for a radio communication terminal. 57. The built-in antenna for a radio communication terminal according to claim 49, wherein the main plane of said package is rectangular-wave-shaped, said first passive element is provided along the width direction of the main plane of said package, and said second passive element is provided along the width direction of the main plane of said package. 58. The built-in antenna for a radio communication terminal according to claim 57, wherein said dipole antenna is a folded-dipole antenna. 59. The built-in antenna for a radio communication terminal according to claim 58, wherein said dipole antenna is provided with impedance converting means. 60. The built-in antenna for a radio communication terminal according to claim 49, wherein the main plane of said package is rectangular-wave-shaped, said first passive element is folded along said reference plane, one folded rectilinear part is provided along the longitudinal direction of the main plane of said package, the other folded rectilinear part is provided along the width direction of the main plane of said package, said second passive element is folded along said reference plane, one folded rectilinear part is provided along the longitudinal direction of the main plane of said package, and the other folded rectilinear part is provided along the width direction of the main plane of said package. 61. A diversity antenna comprising the two built-in antennas for a radio communication terminal according to claim 60, wherein diversity transmission/reception is carried out using said two built-in antennas for a radio communication terminal. 62. The built-in antenna for a radio communication terminal according to claim 60, wherein said dipole antenna is a folded-dipole antenna. 63. The built-in antenna for a radio communication terminal according to claim 62, wherein said dipole antenna is provided with impedance converting means. 64. The built-in antenna for a radio communication terminal according to claim 49, wherein the main plane of said package is rectangular-wave-shaped, said first passive element is folded in the form of a horseshoe along said reference plane, the folded rectilinear part including the edge is provided along the longitudinal direction of the main plane of said package, the folded rectilinear part not including the edge is provided along the width direction of the main plane of said package, said second passive element is folded in the form of a horseshoe along said reference plane, the folded rectilinear part including the edge is provided along the longitudinal direction of the main plane of said package, and the folded rectilinear part not including the edge is provided along the width direction of the main plane of said package. 65. The built-in antenna for a radio communication terminal according to claim 64, wherein said dipole antenna is a folded-dipole antenna. 66. The built-in antenna for a radio communication terminal according to claim 65, wherein said dipole antenna is provided with impedance converting means. 67. A built-in antenna for a radio communication terminal, comprising: a grounded conductor, incorporated in a package of the radio communication terminal, that forms a tabular plane; a dipole antenna provided with an antenna element connected to said grounded conductor; balance-to-unbalance transforming means for matching impedance between said dipole antenna and said grounded conductor and transforming an unbalanced signal to a balanced signal or vice versa; and a first rectangular-wave-shaped passive element, wherein: said dipole antenna is constructed of two rectangular-wave-shaped antenna elements placed in such a way that the respective centerlines in the longitudinal direction form a straight line, said first passive element is provided in such a way that the longitudinal direction thereof is parallel to the longitudinal direction of said rectangular-wave-shaped antenna element making up said dipole antenna and a reference plane formed by said first passive element and said rectangular-wave-shaped antenna element making up said dipole antenna is perpendicular to the main plane of said package, and directivity is formed in the direction along said reference plane and normal to the main plane of said package. 68. The built-in antenna for a radio communication terminal according to claim 67, further comprising a second rectangular-wave-shaped passive element, wherein said second passive element is provided in such a way that the longitudinal direction thereof is parallel to the longitudinal direction of said rectangular-wave-shaped antenna element making up said dipole antenna. 69. The built-in antenna for a radio communication terminal according to claim 68, wherein the main plane of said package is rectangular-wave-shaped, said first passive element is provided along the longitudinal direction of the main plane of said package, and said second passive element is provided along the longitudinal direction of the main plane of said package. 70. The built-in antenna for a radio communication terminal according to claim 69, wherein said dipole antenna is a folded-dipole antenna. 71. The built-in antenna for a radio communication terminal according to claim 70, wherein said dipole antenna is provided with impedance converting means. 72. A diversity antenna comprising the built-in antenna for a radio communication terminal according to claim 69 and a bar-shaped monopole antenna, wherein diversity transmission/reception is carried out using said built-in antenna for a radio communication terminal and said monopole antenna. 73. A diversity antenna comprising the built-in antenna for a radio communication terminal according to claim 69 and a rectangular-wave-shaped monopole antenna, wherein diversity transmission/reception is carried out using said built-in antenna for a radio communication terminal and said monopole antenna. 74. A diversity antenna comprising the built-in antenna for a radio communication terminal according to claim 69 and a spiral-shaped monopole antenna, wherein diversity transmission/reception is carried out using said built-in antenna for a radio communication terminal and said monopole antenna. 75. A diversity antenna comprising the two built-in antennas for a radio communication terminal according to claim 69, wherein diversity transmission/reception is carried out using said two built-in antennas for a radio communication terminal. 76. The built-in antenna for a radio communication terminal according to claim 68, wherein the main plane of said package is rectangular-wave-shaped, said first passive element is provided along the width direction of the main plane of said package, and said second passive element is provided along the width direction of the main plane of said package. 77. The built-in antenna for a radio communication terminal according to claim 76, wherein said dipole antenna is a folded-dipole antenna. 78. The built-in antenna for a radio communication terminal according to claim 77, wherein said dipole antenna is provided with impedance converting means. 79. The built-in antenna for a radio communication terminal according to claim 68, wherein the main plane of said package is rectangular-wave-shaped, said first passive element is folded along said reference plane, one folded rectilinear part is provided along the longitudinal direction of the main plane of said package, the other folded rectilinear part is provided along the width direction of the main plane of said package, said second passive element is folded along said reference plane, one folded rectilinear part is provided along the longitudinal direction of the main plane of said package, and the other folded rectilinear part is provided along the width direction of the main plane of said package. 80. The built-in antenna for a radio communication terminal according to claim 79, wherein said dipole antenna is a folded-dipole antenna. 81. The built-in antenna for a radio communication terminal according to claim 80, wherein said dipole antenna is provided with impedance converting means. 82. A diversity antenna comprising the two built-in antennas for a radio communication terminal according to claim 79, wherein diversity transmission/reception is carried out using said two built-in antennas for a radio communication terminal. 83. The built-in antenna for a radio communication terminal according to claim 68, wherein the main plane of said package is rectangular-wave-shaped, said first passive element is folded in the form of a horseshoe along said reference plane, the folded rectilinear part including the edge is provided along the longitudinal direction of the main plane of said package, the folded rectilinear part not including the edge is provided along the width direction of the main plane of said package, said second passive element is folded in the form of a horseshoe along said reference plane, the folded rectilinear part including the edge is provided along the longitudinal direction of the main plane of said package, and the folded rectilinear part not including the edge is provided along the width direction of the main plane of said package. 84. The built-in antenna for a radio communication terminal according to claim 83, wherein said dipole antenna is a folded-dipole antenna. 85. The built-in antenna for a radio communication terminal according to claim 84, wherein said dipole antenna is provided with impedance converting means. 86. The built-in antenna for a radio communication terminal according to claim 67, wherein the main plane of said package is rectangular-wave-shaped and said first passive element is provided along the longitudinal direction of the main plane of said package. 87. The built-in antenna for a radio communication terminal according to claim 67, wherein the main plane of said package is rectangular-wave-shaped and said first passive element is provided along the width direction of the main plane of said package. 88. The built-in antenna for a radio communication terminal according to claim 67, wherein the main plane of said package is rectangular-wave-shaped, said first passive element is folded along said reference plane, one folded rectilinear part is provided along the longitudinal direction of the main plane of said package, and the other folded rectilinear part is provided along the width direction of the main plane of said package. 89. A diversity antenna comprising two built-in antennas for a radio communication terminal according to claim 88, wherein diversity transmission/reception is carried out using said two built-in antennas for a radio communication terminal. 90. The built-in antenna for a radio communication terminal according to claim 67, wherein the main plane of said package is rectangular-wave-shaped, said first passive element is folded in the form of a horseshoe along said reference plane, the folded rectilinear part including the edge is provided along the longitudinal direction of the main plane of said package, and the folded rectilinear part not including the edge is provided along the width direction of the main plane of said package. 91. A diversity antenna, comprising: the built-in antenna for a radio communication terminal according to claim 67; and a bar-shaped monopole antenna, wherein diversity transmission/reception is carried out using said built-in antenna for a radio communication terminal and said monopole antenna. 92. A diversity antenna, comprising: the built-in antenna for a radio communication terminal according to claim 67; and a rectangular-wave-shaped monopole antenna, wherein diversity transmission/reception is carried out using said built-in antenna for a radio communication terminal and said monopole antenna. 93. A diversity antenna, comprising: the built-in antenna for a radio communication terminal according to claim 67; and a spiral-shaped monopole antenna, wherein diversity transmission/reception is carried out using said built-in antenna for a radio communication terminal and said monopole antenna. 94. A built-in antenna for a radio communication terminal, comprising: a grounded conductor, incorporated in a package of the radio communication terminal, that forms a tabular plane; a monopole antenna provided with an antenna element connected to said grounded conductor; balance-to-unbalance transforming means for matching impedance between said monopole antenna and said grounded conductor and transforming an unbalanced signal to a balanced signal or vice versa; and a bar-shaped first passive element, wherein: said monopole antenna comprises a bar-shaped antenna element, said first passive element is provided in such a way that the axial direction thereof is parallel to the axial direction of said bar-shaped antenna element making up said monopole antenna and a reference plane formed by said first passive element and rectangular-wave-shaped antenna element making up said monopole antenna is perpendicular to the main plane of said package, and directivity is formed in the direction along said reference plane and normal to the main plane of said package. 95. The built-in antenna for a radio communication terminal according to claim 94, further comprising a bar-shaped second passive element, wherein said second passive element is provided in parallel to the axial direction of said bar-shaped antenna element making up said monopole antenna. 96. The built-in antenna for a radio communication terminal according to claim 95, wherein the main plane of said package is rectangular-wave-shaped, said first passive element is provided along the longitudinal direction of the main plane of said package, and said bar-shaped antenna element making up said monopole antenna is perpendicular to the main plane of said package, and directivity is formed in the direction along said reference plane and normal to the main plane of said package. 97. A communication terminal apparatus comprising the diversity antenna for a radio communication terminal according to claim 96 or claim 69. 98. A base station apparatus comprising the diversity antenna for a radio communication terminal according to claim 96 or claim 69. 99. The built-in antenna for a radio communication terminal according to claim 95, wherein said monopole antenna is a folded-monopole antenna. 100. The built-in antenna for a radio communication terminal according to claim 99, wherein said monopole antenna is provided with impedance converting means. 101. A communication terminal apparatus comprising the built-in antenna for a radio communication terminal according to claim 94. 102. A base station apparatus comprising the built-in antenna for a radio communication terminal according to claim 94. 103. A built-in antenna for a radio communication terminal, comprising: a grounded conductor, incorporated in a package of the radio communication terminal, that forms a tabular plane; a monopole antenna provided with an antenna element connected to said grounded conductor; balance-to-unbalance transforming means for matching impedance between said monopole antenna and said grounded conductor and transforming an unbalanced signal to a balanced signal or vice versa; and a rectangular-wave-shaped first passive element, wherein: said monopole antenna comprises a rectangular-wave-shaped antenna element, said first passive element is provided in such a way that the longitudinal direction thereof is parallel to the longitudinal direction of said rectangular-wave-shaped antenna element making up said monopole antenna and a reference plane formed by said first passive element and said said second passive element is provided along the longitudinal direction of the main plane of said package. 104. The built-in antenna for a radio communication terminal according to claim 103, further comprising a rectangular-wave-shaped second passive element, wherein said second passive element is provided in parallel to the longitudinal direction of said rectangular-wave-shaped antenna element making up said monopole antenna. 105. The built-in antenna for a radio communication terminal according to claim 104, wherein the main plane of said package is rectangular-wave-shaped, said first passive element is provided along the longitudinal direction of the main plane of said package, and said second passive element is provided along the longitudinal direction of the main plane of said package. 106. A communication terminal apparatus comprising the diversity antenna for a radio communication terminal according to claim 50 or claim 105. 107. A communication terminal apparatus comprising the diversity antenna for a radio communication terminal according to claim 69 or claim 105. 108. A base station apparatus comprising the diversity antenna for a radio communication terminal according to claim 50 or claim 105. 109. A base station apparatus comprising the diversity antenna for a radio communication terminal according to claim 69 or claim 105. 110. The built-in antenna for a radio communication terminal according to claim 104, wherein said monopole antenna is a folded-monopole antenna. 111. The built-in antenna for a radio communication terminal according to claim 110, wherein said monopole antenna is provided with impedance converting means.
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