Filtering method to allow FDD and TDD operation in PCS transreceivers
First Claim
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1. A method for implementing a dual mode FDD/TDD transreceiver, the transreceiver comprising an antenna, a forward channel filter electrically coupled to said antenna, a reverse channel filter electrically coupled to said antenna, and an FDD/TDD switch electrically connectable to said filters, the method comprising:
- closing said FDD/TDD switch;
passing a communication signal through said forward channel filter and said reverse channel filter; and
determining whether to open or close a TDD-Tx switch electrically coupled to said forward channel filter, and whether to open or close a TDD-Rx switch, the TDD-RX switch electrically coupled to said reverse channel filter.
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Abstract
A transreceiver allows efficient operation in a full or half-duplex TDD or FDD system. The preferred transreceiver includes a common set of filters used for both FDD (Frequency Division Duplex) and TDD (Time Division Duplex) operation in a given range of frequencies thereby reducing circuitry count and implementation costs. Thus, the transreceiver of the present invention can operate in FDD operation or TDD operation.
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Citations
15 Claims
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1. A method for implementing a dual mode FDD/TDD transreceiver, the transreceiver comprising an antenna, a forward channel filter electrically coupled to said antenna, a reverse channel filter electrically coupled to said antenna, and an FDD/TDD switch electrically connectable to said filters, the method comprising:
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closing said FDD/TDD switch;
passing a communication signal through said forward channel filter and said reverse channel filter; and
determining whether to open or close a TDD-Tx switch electrically coupled to said forward channel filter, and whether to open or close a TDD-Rx switch, the TDD-RX switch electrically coupled to said reverse channel filter. - View Dependent Claims (2, 3, 4, 5, 6)
opening said FDD/TDD switch;
closing said TDD-Tx switch; and
closing said TDD-Rx switch;
wherein said opening and closing of said switches causes said FDD/TDD transreceiver to operate in a FDD mode.
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3. The method of claim 2, further comprising:
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closing said FDD/TDD switch;
closing said TDD-Tx switch; and
opening said TDD-Rx switch;
wherein said opening and closing of said switches causes said FDD/TDD transreceiver to operate in a TDD receive mode.
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4. The method of claim 2, further comprising:
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closing said FDD/TDD switch;
opening said TDD-Tx switch; and
closing said TDD-Rx switch;
wherein said opening and closing of said switches causes said FDD/TDD transreceiver to operate in a TDD transmit mode.
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5. The method of claim 1, further comprising:
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closing said TDD-Tx switch; and
opening said TDD-Rx switch;
wherein said opening and closing of said switches causes said FDD/TDD transreceiver to operate in a TDD receive mode.
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6. The method of claim 1, further comprising:
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opening said TDD-Tx switch; and
closing said TDD-Rx switch;
wherein said opening and closing of said switches causes said FDD/TDD transreceiver to operate in a TDD transmit mode.
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7. A method for implementing a dual mode FDD/TDD transreceiver, the transreceiver comprising an antenna, a forward channel filter electrically coupled to said antenna and electrically connectable to a low noise amplifier through a TDD-Tx switch, a reverse channel filter electrically coupled to said antenna and electrically connectable to a power amplifier, an unlicensed band filter electrically coupled to said antenna, and further electrically connectable to said forward channel filter through a first TDD switch and said reverse channel filter through a second TDD switch, the method comprising:
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closing at least one of the TDD switches;
passing a communication signal through said unlicensed filter; and
determining whether to open or close a TDD-Tx switch electrically coupled to said forward channel filter, and whether to open or close a TDD-Rx switch, the TDD-Rx switch electrically coupled to said reverse channel filter. - View Dependent Claims (8, 9, 10, 11, 12, 13, 14, 15)
opening the second TDD switch;
opening the TDD-Rx switch; and
closing the TDD-Tx switch;
wherein the step of closing at least one of the TDD switches includes closing the first TDD switch, and wherein said opening and said closing of said switches causes said FDD/TDD transreceiver to operate in a TDD receive mode.
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9. The method of claim 8, further comprising closing the second TDD switch.
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10. The method of claim 9, further comprising:
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opening the first TDD switch; and
opening the second TDD switch;
wherein opening said TDD switches causes the FDD/TDD transreceiver to operate in an FDD mode.
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11. The method of claim 8, further comprising opening the second TDD switch to cause the FDD/TDD transreceiver to operate in an FDD mode.
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12. The method of claim 7, further comprising:
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opening the first TDD switch;
opening the TDD-Tx switch; and
closing the TDD-Rx switch;
wherein the step of closing at least one of the TDD switches includes closing the second TDD switch, and wherein said opening and said closing of said switches causes said FDD/TDD transreceiver to operate in a TDD transmit mode.
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13. The method of claim 12, further comprising closing the first TDD switch.
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14. The method of claim 13, further comprising:
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opening the first TDD switch; and
opening the second TDD switch;
wherein opening said TDD switches causes the FDD/TDD transreceiver to operate in an FDD mode.
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15. The method of claim 12, further comprising opening the second TDD switch to cause the FDD/TDD transreceiver to operate in an FDD mode.
Specification
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Current AssigneeIntel Corporation
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Original AssigneeIntel Corporation
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InventorsBarabash, Darrell W., Morris, Russell A.
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Primary Examiner(s)Yao, Kwang Bin
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Assistant Examiner(s)JONES, PRENELL P
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Application NumberUS09/780,948Publication NumberTime in Patent Office550 DaysField of Search370/277, 370/280, 370/330-335, 370/489, 370/328, 370/422, 370/470-476, 370/342-350, 370/442, 455/447-450, 455/560-562, 455/20, 455/76, 375/346-349, 375/296-298, 375/106US Class Current370/277CPC Class CodesH04B 1/00 Details of transmission sys...H04B 1/406 with more than one transmis...H04B 1/44 Transmit/receive switchingH04B 1/52 Hybrid arrangements, i.e. a...H04B 1/56 with provision for simultan...
