Method and apparatus for transmit power modulation in a wireless communications system
First Claim
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1. A transmitter comprising:
- a first gain element configured and arranged to modulate a radio-frequency signal according to a first gain factor to produce a first output signal; and
a second gain element configured and arranged to modulate the radio-frequency signal according to a second gain factor to produce a second output signal, wherein a magnitude of the first gain factor varies over time, wherein a magnitude of the second gain factor varies over time with respect to the magnitude of the first gain factor, wherein at least one among a magnitude and a phase of at least one among the first and second gain factors varies over time according to a periodic function, wherein a period of the periodic function is not less than one-half second, and wherein the period of the periodic function is not more than four seconds.
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Abstract
An apparatus according to one embodiment of the invention includes a transmitter. The transmitter receives an RF signal and produces at least two modulated signals based on the RF signal. Each of the modulated signals is coupled to a respective antenna. The combined radiation pattern of the antennas varies in an angular direction over time. In a system according to one embodiment of the invention, a base station including such an apparatus receives channel quality indications from mobile units and schedules data transmissions to the mobile units accordingly.
20 Citations
34 Claims
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1. A transmitter comprising:
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a first gain element configured and arranged to modulate a radio-frequency signal according to a first gain factor to produce a first output signal; and
a second gain element configured and arranged to modulate the radio-frequency signal according to a second gain factor to produce a second output signal, wherein a magnitude of the first gain factor varies over time, wherein a magnitude of the second gain factor varies over time with respect to the magnitude of the first gain factor, wherein at least one among a magnitude and a phase of at least one among the first and second gain factors varies over time according to a periodic function, wherein a period of the periodic function is not less than one-half second, and wherein the period of the periodic function is not more than four seconds.
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2. A transmitter comprising:
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a first gain element configured and arranged to modulate a radio-frequency signal according to a first gain factor to produce a first output signal;
a second gain element configured and arranged to modulate the radio-frequency signal according to a second gain factor to produce a second output signal, wherein a magnitude of the first gain factor varies over time, and wherein a magnitude of the second gain factor varies over time with respect to the magnitude of the first gain factor; and
an antenna array including;
a first antenna configured and arranged to radiate a signal based on the first output signal; and
a second antenna configured and arranged to radiate a signal based on the second output signal, wherein the first and second antennas are configured and arranged such that the radiation pattern of one antenna substantially overlaps the radiation pattern of the other antenna. - View Dependent Claims (3)
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4. A transmitter comprising:
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a first gain element configured and arranged to modulate a radio-frequency signal according to a first gain factor to produce a first output signal;
a second gain element configured and arranged to modulate the radio-frequency signal according to a second gain factor to produce a second output signal, wherein a magnitude of the first gain factor varies over time, and wherein a magnitude of the second gain factor varies over time with respect to the magnitude of the first gain factor; and
at least one additional gain element, each additional gain element being configured and arranged to modulate the radio-frequency signal according to a corresponding additional gain factor to produce a corresponding additional output signal, wherein a sum of the magnitudes of the first, second, and additional gain factors is substantially constant over time.
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5. A transmitter comprising:
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a first gain element configured and arranged to modulate a radio-frequency signal according to a first gain factor to produce a first output signal; and
a second gain element configured and arranged to modulate the first output signal according to a second gain factor to produce a second output signal, wherein a magnitude of the first gain factor varies over time, wherein a magnitude of the second gain factor varies over time with respect to the magnitude of the first gain factor, wherein at least one among a magnitude and a phase of at least one among the first and second gain factors varies over time according to a periodic function, wherein a period of the periodic function is not less than one-half second, and wherein the period of the periodic function is not more than four seconds.
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6. A transmitter comprising:
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a first gain element configured and arranged to modulate a radio-frequency signal according to a first gain factor to produce a first output signal;
a second gain element configured and arranged to modulate the first output signal according to a second gain factor to produce a second output signal, wherein a magnitude of the first gain factor varies over time, and wherein a magnitude of the second gain factor varies over time with respect to the magnitude of the first gain factor; and
an antenna array including;
a first antenna configured and arranged to radiate a signal based on the first output signal; and
a second antenna configured and arranged to radiate a signal based on the second output signal, wherein the first and second antennas are configured and arranged such that the radiation pattern of one antenna substantially overlaps the radiation pattern of the other antenna. - View Dependent Claims (7)
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8. A transmitter comprising:
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a first gain element configured and arranged to modulate a radio-frequency signal according to a first gain factor to produce a first output signal;
a second gain element configured and arranged to modulate the first output signal according to a second gain factor to produce a second output signal, wherein a magnitude of the first gain factor varies over time, and wherein a magnitude of the second gain factor varies over time with respect to the magnitude of the first gain factor; and
at least one additional gain element, each additional gain element being configured and arranged to modulate the first output signal according to a corresponding additional gain factor to produce a corresponding additional output signal, wherein a sum of the magnitudes of the first, second, and additional gain factors is substantially constant over time.
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9. An apparatus for data transmission, said apparatus comprising:
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a transmitter including an RF unit configured and arranged to output a radio-frequency signal, a first power amplifier configured and arranged to output a first amplified signal based on the radio-frequency signal, and a second power amplifier configured and arranged to output a second amplified signal based on the radio-frequency signal, and an antenna array including a first antenna configured and arranged to receive and radiate the first amplified signal and a second antenna configured and arranged to receive and radiate the second amplified signal, wherein a distance between the first and second antennas is a few wavelengths of a carrier signal of the radio-frequency signal, and wherein a magnitude of the power of the first amplified signal varies over time, and wherein a magnitude of the power of the second amplified signal varies over time with respect to the magnitude of the power of the first signal. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 29)
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17. A method for data transmission comprising:
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applying a first gain factor to a radio-frequency signal to produce a first output signal; and
applying a second gain factor to one among the radio-frequency signal and the first output signal to produce a second output signal, wherein said applying a first gain factor includes varying a magnitude of the first gain factor over time, wherein said applying a second gain factor includes varying a magnitude of the second gain factor over time with respect to the magnitude of the first gain factor, wherein at least one among said applying a first gain factor and said applying a second gain factor includes varying at least one of a magnitude and a phase of the corresponding gain factor over time according to a periodic function, wherein a period of the periodic function is not less than one-half second, and wherein the period of the periodic function is not more than four seconds.
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18. A method for data transmission comprising:
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applying a first gain factor to a radio-frequency signal to produce a first output signal;
applying a second gain factor to one among the radio-frequency signal and the first output signal to produce a second output signal, wherein said applying a first gain factor includes varying a magnitude of the first gain factor over time, and wherein said applying a second gain factor includes varying a magnitude of the second gain factor over time with respect to the magnitude of the first gain factor;
radiating a signal based on the first output signal over a spatial region with a first antenna of an antenna array; and
radiating a signal based on the second output signal over substantially the spatial region with a second antenna of an antenna array. - View Dependent Claims (19)
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20. A method for data transmission comprising:
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applying a first gain factor to a radio-frequency signal to produce a first output signal;
applying a second gain factor to one among the radio-frequency signal and the first output signal to produce a second output signal, wherein said applying a first gain factor includes varying a magnitude of the first gain factor over time, and wherein said applying a second gain factor includes varying a magnitude of the second gain factor over time with respect to the magnitude of the first gain factor;
receiving a channel quality indication from a mobile unit;
transmitting data directed to the mobile unit based on a value of the channel quality indication; and
normalizing a value of the channel quality indication by a history of data transmissions to the mobile unit.
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21. A method for data transmission comprising:
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applying a first gain factor to a radio-frequency signal to produce a first output signal;
applying a second gain factor to one among the radio-frequency signal and the first output signal to produce a second output signal, wherein said applying a first gain factor includes varying a magnitude of the first gain factor over time, and wherein said applying a second gain factor includes varying a magnitude of the second gain factor over time with respect to the magnitude of the first gain factor;
receiving a channel quality indication from a mobile unit;
transmitting data directed to the mobile unit based on a value of the channel quality indication; and
removing from the channel quality indication a predetermined code that is at least nearly orthogonal.
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22. An apparatus for data transmission, said apparatus comprising:
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a transmitter including an RF unit configured and arranged to output a radio-frequency signal, a first power amplifier configured and arranged to output a first amplified signal based on the radio-frequency signal, and a second power amplifier configured and arranged to output a second amplified signal based on the first amplified signal, and an antenna array including a first antenna configured and arranged to receive and radiate the first amplified signal and a second antenna configured and arranged to receive and radiate the second amplified signal, wherein a distance between the first and second antennas is a few wavelengths of a carrier signal of the radio-frequency signal, and wherein a magnitude of the power of the first amplified signal varies over time, and wherein a magnitude of the power of the second amplified signal varies over time with respect to the magnitude of the power of the first signal. - View Dependent Claims (23, 24, 25, 26, 27, 28)
wherein, based on a value of the channel quality indication, said apparatus is further configured and arranged to transmit data directed to the mobile unit. -
28. The apparatus for data transmission according to claim 27, said apparatus further comprising a scheduler configured and arranged to normalize (A) a value based on the channel quality indication by (B) a value based on a history of data transmissions to the mobile unit.
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30. A method for data transmission comprising:
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applying a first gain factor to a radio-frequency signal to produce a first output signal; and
applying a second gain factor to the first output signal to produce a second output signal, wherein said applying a first gain factor includes varying a magnitude of the first gain factor over time, wherein said applying a second gain factor includes varying a magnitude of the second gain factor over time with respect to the magnitude of the first gain factor, wherein at least one among said applying a first gain factor and said applying a second gain factor includes varying at least one of a magnitude and a phase of the corresponding gain factor over time according to a periodic function, wherein a period of the periodic function is not less than one-half second, and wherein the period of the periodic function is not more than four seconds.
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31. A method for data transmission comprising:
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applying a first gain factor to a radio-frequency signal to produce a first output signal;
applying a second gain factor to the first output signal to produce a second output signal, wherein said applying a first gain factor includes varying a magnitude of the first gain factor over time, and wherein said applying a second gain factor includes varying a magnitude of the second gain factor over time with respect to the magnitude of the first gain factor;
radiating a signal based on the first output signal over a spatial region with a first antenna of an antenna array; and
radiating a signal based on the second output signal over substantially the spatial region with a second antenna of an antenna array. - View Dependent Claims (32)
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33. A method for data transmission comprising:
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applying a first gain factor to a radio-frequency signal to produce a first output signal;
applying a second gain factor to the first output signal to produce a second output signal, wherein said applying a first gain factor includes varying a magnitude of the first gain factor over time, and wherein said applying a second gain factor includes varying a magnitude of the second gain factor over time with respect to the magnitude of the first gain factor;
receiving a channel quality indication from a mobile unit;
based on a value of the channel quality indication, transmitting data directed to the mobile unit; and
normalizing (A) a value based on the channel quality indication by (B) a value based on a history of data transmissions to the mobile unit.
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34. A method for data transmission comprising:
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applying a first gain factor to a radio-frequency signal to produce a first output signal;
applying a second gain factor to the first output signal to produce a second output signal, wherein said applying a first gain factor includes varying a magnitude of the first gain factor over time, and wherein said applying a second gain factor includes varying a magnitude of the second gain factor over time with respect to the magnitude of the first gain factor;
receiving a channel quality indication from a mobile unit;
based on a value of the channel quality indication, transmitting data directed to the mobile unit; and
removing from the channel quality indication a predetermined code that is at least nearly orthogonal.
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Specification
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Current AssigneeQualcomm, Inc.
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Original AssigneeQualcomm, Inc.
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InventorsWheatley, Charles E. III, Attar, Rashid A.
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Primary Examiner(s)Corsaro, Nick
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Assistant Examiner(s)Lee, John J
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Application NumberUS10/113,283Publication NumberTime in Patent Office1,093 DaysField of Search455/102, 455/105, 455/108, 455/112, 455/113, 455/107, 455/118, 455/126, 455/127.2, 455/81, 455/82, 455/101, 455/127.1, 455/121US Class Current455/127.2CPC Class CodesH04B 7/0491 using two or more sectors, ...H04B 7/0615 of weighted versions of sam...H04B 7/0617 for beam forming
