Method and apparatus for signal power loss reduction in RF communication systems
First Claim
1. An RF front end architecture, comprising:
- a set of multiple antenna ports;
multiple power amplifier PA devices configured to feed signals to at least one of the antenna ports;
multiple low noise amplifier LNA devices configured to receive signals from at least one of the antenna ports, wherein each LNA device is paired with one of the PA devices and configured to receive signals from the antenna port to which its paired PA device is configured to feed signals;
a transmit/receive switch coupled between each paired PA and LNA and its corresponding antenna port; and
antenna diversity switches connected to inputs of the PA devices and/or outputs of the LNA devices,wherein said transmit/receive switch, for each paired PA and LNA, comprises;
a shunt switch that grounds an output of the PA device;
a first ¼
wavelength wire or equivalent network connected to an output of the PA device and the shunt switch at one end and connected to the antenna port at another end; and
a second ¼
wavelength wire or equivalent network connected to an input of the LNA device at one end and connected to the antenna port at another end.
2 Assignments
0 Petitions
Accused Products
Abstract
Multiple power amplifiers in an RF front end are coupled to multiple antennas without diversity switching between the PAs and antennas. Diversity switches direct signals to broadcast by a selected antenna to a PA coupled to the selected antenna. Multiple LNAs are similarly coupled to the diverse antennas. Having one PA and LNA set for each antenna removes the need for diversity switching between the PA/LNAs and each antenna improving signal reception. In one embodiment, a single external PA performs broadcast functions and plural on-chip LNAs are used for reception. In another embodiment, phase shifters are coupled to each PA and LNA, which provide beam forming capability for broadcasts, and in phase signal combinations for received signals.
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Citations
33 Claims
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1. An RF front end architecture, comprising:
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a set of multiple antenna ports; multiple power amplifier PA devices configured to feed signals to at least one of the antenna ports; multiple low noise amplifier LNA devices configured to receive signals from at least one of the antenna ports, wherein each LNA device is paired with one of the PA devices and configured to receive signals from the antenna port to which its paired PA device is configured to feed signals; a transmit/receive switch coupled between each paired PA and LNA and its corresponding antenna port; and antenna diversity switches connected to inputs of the PA devices and/or outputs of the LNA devices, wherein said transmit/receive switch, for each paired PA and LNA, comprises; a shunt switch that grounds an output of the PA device; a first ¼
wavelength wire or equivalent network connected to an output of the PA device and the shunt switch at one end and connected to the antenna port at another end; anda second ¼
wavelength wire or equivalent network connected to an input of the LNA device at one end and connected to the antenna port at another end.
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2. An RF front end architecture, comprising:
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a set of multiple antenna ports; multiple power amplifier PA devices configured to feed signals to at least one of the antenna ports; multiple low noise amplifier LNA devices configured to receive signals from at least one of the antenna ports, wherein each LNA device is paired with one of the PA devices and configured to receive signals from the antenna port to which its paired PA device is configured to feed signals; a transmit/receive switch coupled between each paired PA and LNA and its corresponding antenna port; and antenna diversity switches connected to inputs of the PA devices and/or outputs of the LNA devices, wherein said transmit/receive switch, for each paired PA and LNA, comprises; a shunt switch that grounds an input of the LNA device; a first ¼
wavelength wire or equivalent network connected to an input of the LNA device and the shunt switch at one end and connected to the antenna port at another end; anda second ¼
wavelength wire or equivalent network connected to an output of the PA device at one end and connected to the antenna port at another end.
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3. An RF front end architecture, comprising:
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a set of multiple antenna ports; multiple power amplifier PA devices configured to feed signals to at least one of the antenna ports; multiple low noise amplifier LNA devices configured to receive signals from at least one of the antenna ports, wherein each LNA device is paired with one of the PA devices and configured to receive signals from the antenna port to which its paired PA device is configured to feed signals;
a transmit/receive switch coupled between each paired PA and LNA and its corresponding antenna port; andantenna diversity switches connected to inputs of the PA devices and/or outputs of the LNA devices, wherein said transmit/receive switch, for each paired PA and LNA, comprises; a first shunt switch that grounds an output of the PA device; a second shunt switch that grounds an input of the LNA device; a first ¼
wavelength wire or equivalent network connected to an output of the PA device and the first shunt switch at one end and connected to the antenna port at another end; anda second ¼
wavelength wire or equivalent network connected to an input of the LNA device and the second shunt switch at one end and connected to the antenna port at another end.
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4. An RF front end architecture, comprising:
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a set of multiple antenna ports; multiple power amplifier PA devices configured to feed signals to at least one of the antenna ports; multiple low noise amplifier LNA devices configured to receive signals from at least one of the antenna ports; antenna diversity switches connected to inputs of the PA devices and/or outputs of the LNA devices; and at least two phase shifters each phase shifter coupled to an input of one of the power amplifiers, wherein each power amplifier is coupled to one of the antenna ports, and each phase shifter is configured to phase shift signals prior to amplification by the power amplifier coupled to the phase shifter. - View Dependent Claims (5, 6, 7, 8, 9)
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10. An RF front end architecture, comprising:
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a set of multiple antenna ports; multiple power amplifier PA devices configured to feed signals to at least one of the antenna ports; multiple low noise amplifier LNA devices configured to receive signals from at least one of the antenna ports; antenna diversity switches connected to inputs of the PA devices and/or outputs of the LNA devices; and at least two phase shifters, each LNA device having an output coupled to an input of one of the phase shifters; and a signal combiner coupled to an output of each of the phase shifters, wherein each phase shifter is configured to phase shift signals received by each LNA device so that they can be combined in phase by the signal combiner. - View Dependent Claims (11, 12, 13)
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14. An RF front end architecture, comprising:
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a set of multiple antenna ports; multiple power amplifier PA devices configured to feed signals to at least one of the antenna ports; multiple low noise amplifier LNA devices configured to receive signals from at least one of the antenna ports; antenna diversity switches connected to inputs of the PA devices and/or outputs of the LNA devices; and at least one transmit/receive switch coupled between the PA and the LNA devices and the antenna ports, wherein each transmit/receive switch-T- comprises; a shunt switch that grounds an output of a PA device; a first ¼
wavelength wire or equivalent network connected to an output of the shunt switch grounded PA device and the shunt switch at one end and connected to an antenna port at another end; anda second ¼
wavelength wire or equivalent network connected to an input of an LNA device at one end and connected to the switched antenna port at another end.
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15. An RF front end architecture, comprising:
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a set of multiple antenna ports; multiple power amplifier PA devices configured to feed signals to at least one of the antenna ports; multiple low noise amplifier LNA devices configured to receive signals from at least one of the antenna ports; antenna diversity switches connected to inputs of the PA devices and/or outputs of the LNA devices; and at least one transmit/receive switch coupled between the PA and the LNA devices and the antenna ports, wherein said transmit/receive switch, for each paired PA and LNA, comprises; a shunt switch that grounds an input of the LNA device;
a first ¼
wavelength wire or equivalent network connected to an input of the LNA device and the shunt switch at one end and connected to the antenna port at another end; anda second ¼
wavelength wire or equivalent network connected to an output of the PA device at one end and connected to the antenna port at another end.
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16. An RF front end architecture, comprising:
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a set of multiple antenna ports; multiple power amplifier PA devices configured to feed signals to at least one of the antenna ports; multiple low noise amplifier LNA devices configured to receive signals from at least one of the antenna ports; antenna diversity switches connected to inputs of the PA devices and/or outputs of the LNA devices; and at least one transmit/receive switch coupled between the PA and the LNA devices and the antenna ports, wherein said transmit/receive switch, for each paired PA and LNA, comprises; a first shunt switch that grounds an output of the PA device; a second shunt switch that grounds an input of the LNA device; a first ¼
wavelength wire or equivalent network connected to an output of the PA device and the first shunt switch at one end and connected to the antenna port at another end; anda second ¼
wavelength wire or equivalent network connected to an input of the LNA device and the second shunt switch at one end and connected to the antenna port at another end.
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17. An RF front end, comprising:
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a set of at least two antenna ports; at least two low noise amplifier (LNA) devices, each LNA device configured to receive signals from at least one of the antenna ports; and a signal combiner coupled to each of the LNA devices and configured to combine signals from outputs of each LNA device; and at least two phase shifters, each respective phase shifter having an input coupled to at least one output of the at least two low noise amplifiers and configured to phase shift a signal output from the LNA devices coupled to the respective phase shifter prior to combination by the signal combiner.
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18. A method of receiving RF signals, comprising the steps of:
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determining at least one antenna better suited for receiving RF signals; switching a signal receiving line to direct outputs of LNAs; and directly connecting each LNA to only one of the better suited antennas via a corresponding transmit/receive switch. - View Dependent Claims (19, 20, 21, 22, 23)
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24. A method of receiving RF signals, comprising the steps of:
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determining at least one antenna better suited for receiving RF signals; and switching a signal receiving line to outputs of LNAs each only coupled to one of the best suited antennas, wherein; said step of determining comprises determining at least two antennas better suited for receiving RF signals; and the method further comprises the steps of, phase shifting each of the RF signals received by each of the best suited antennas, and combining the phase shifted RF signals to produce a single RF signal switched to the signal receiving line. - View Dependent Claims (25)
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26. An RF device, comprising:
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means for determining at least one antenna better suited for receiving RF signals; means for switching a signal receiving line to direct outputs of LNAs; and means for directly connecting each LNA to only one of the better suited antennas via a corresponding transmit/receive switch.
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27. An RF front-end device, comprising:
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a diversity switch having multiple outputs; multiple antenna ports; multiple Power Amplifier (PA) devices, each PA having an input connected to one of the individual outputs of the diversity switch, and an output exclusively connected to one of the antenna ports, wherein each PA input is only connected to one of the outputs of the diversity switch, each LNA output is only connected only to one of the inputs of the diversity switch, and each antenna port is connected to one PA output and one LNA input; and at least one transmit/receive switch, each transmit/receive switch connected to the output of one of the PA devices and configured to connect/disconnect the PA device from its antenna port, wherein each transmit/receive switch comprises; a first set of ¼
wavelength wires or equivalent networks each connected to an output of one of the PA devices;a second set of ¼
wavelength wires or equivalent networks each connected to an output of one of the PA devices; andat least one shunt switch configured to ground at least one of the PA and LNA devices.
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28. An RF front-end device, comprising:
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a diversity switch having multiple outputs; multiple antenna ports; multiple Power Amplifier (PA) devices, each PA having, an input connected to one of the individual outputs of the diversity switch, and an output exclusively connected to one of the antenna ports, wherein each PA input is only connected to one of the outputs of the diversity switch, each LNA output is only connected only to one of the inputs of the diversity switch, and each antenna port is connected to one PA output and one LNA input; and at least one transmit/receive switch, each transmit receive switch connected only to the input of one of the LNA devices and configured to disconnect/connect the LNA device from its antenna port, wherein each transmit/receive switch comprises a set of ¼
wavelength wires or equivalent networks and at least one shunt switch.
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29. An RF front end architecture, comprising:
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a set of multiple antenna ports; at least one power amplifier PA device configured to feed signals to at least one of the antenna ports; at least two low noise amplifier LNA devices each configured to receive signals from one of the antenna ports, wherein said at least two LNA devices are part of an IC device and said the at least one PA device is external to the IC device; an antenna diversity switch connected to inputs of the at least one PA device and outputs of the LNA devices; and at least two 3-way transmit/receive switches, each transmit/receive switch coupled between one of the antenna ports, the external PA, and one of the LNA devices. - View Dependent Claims (30, 31, 32)
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33. A method of transmitting RF signals, comprising the steps of:
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preparing RF signals for transmission; selecting an antenna best suited for transmitting the prepared RF signals from a set of at least two antennas; and using diversity switches, feeding the prepared RF signals to a power amplifier coupled to the selected antenna, wherein each antenna is individually coupled to only one power amplifier; selecting a set of antennas for transmitting the prepared RF signals on the beam; splitting the prepared RF signals so that one signal has been split for each selected antenna; and phase shifting the split signals as required so that when transmitted by the antennas, a desired radiation pattern is formed.
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Specification