Load Compensation in RF Amplifiers
First Claim
Patent Images
1. A circuital arrangement comprising:
- a power supply unit;
a plurality of power amplifier units, each configured to receive power from a common output port of the power supply unit, and each configured to amplify an input radio frequency (RF) signal at an input port of the each power amplifier unit in correspondence of a different frequency band and/or mode of operation of a plurality of different frequency hands and/or modes of operation, andone or more decoupling circuits,wherein;
during operation of the circuital arrangement, one or more of the plurality of power amplifier units are deactivated, andeach of the one or more decoupling circuits is configured to remove a loading effect of the one or more deactivated power amplifier units on the common output port of the power amplifier unit.
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Abstract
Methods and systems for reducing parasitic loading on a power supply output in RF amplifier arrangements used in multiband and/or multitude RF circuits are presented. Such RF circuits can comprise a plurality of RF amplifiers of which only one is activated for a given desired transmission mode and/or band.
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Citations
47 Claims
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1. A circuital arrangement comprising:
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a power supply unit; a plurality of power amplifier units, each configured to receive power from a common output port of the power supply unit, and each configured to amplify an input radio frequency (RF) signal at an input port of the each power amplifier unit in correspondence of a different frequency band and/or mode of operation of a plurality of different frequency hands and/or modes of operation, and one or more decoupling circuits, wherein; during operation of the circuital arrangement, one or more of the plurality of power amplifier units are deactivated, and each of the one or more decoupling circuits is configured to remove a loading effect of the one or more deactivated power amplifier units on the common output port of the power amplifier unit. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25)
wherein; during an activated state of the power amplifier unit, the output match network is coupled via a second port of the output match network to an output load of the circuital arrangement, and an amplified RF signal in correspondence of the input RF signal and a current flow from the power supply unit through the output transistor is provided to the output load, and during a deactivated state of the power amplifier unit, the output match network is decoupled from the output load of the circuital arrangement and no current flows from the power supply unit through the output transistor.
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4. The circuital arrangement according to claim 1, wherein a decoupling circuit of the one or more decoupling circuits comprises a switch configured to remove a current flow in a conduction path of an output match network during a deactivated state of a power amplifier unit of the one or more deactivated power amplifier units.
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5. The circuital arrangement according to claim 3, wherein a decoupling circuit of the one or more decoupling circuits comprises a switch configured to remove a current flow through the output match network during the deactivated state of the power amplifier unit.
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6. The circuital arrangement according to claim 4 or claim 5, wherein the switch is in series connection between a third port of the output match network and a reference ground, and wherein during the deactivated state of the power amplifier unit the switch effectively decouples the output match network from the reference ground.
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7. The circuital arrangement according to claim 4 or claim 5, wherein the switch is in series connection between the common output port of the power supply unit and an input power port of each of the plurality of the power amplifier units.
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8. The circuital arrangement according to claim 7, wherein during the deactivated state of the power amplifier unit, the switch disconnects the power supply unit from the power amplifier unit.
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9. The circuital arrangement according to claim 4 or claim 5, wherein the switch is a stacked transistor switch.
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10. The circuital arrangement according to claim 4 or claim 5, wherein the loading effect is in correspondence of a stray capacitance and/or inductance from the output match network.
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11. The circuital arrangement according to claim 2, wherein the output match network comprises one or more digitally tunable capacitors (DTCs) and/or digitally tunable inductors (DTLs).
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12. The circuital arrangement according to claim 11, wherein during the deactivated state of the power amplifier unit, a capacitance value of the one or more digitally tunable capacitors is set to a minimum value.
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13. The circuital arrangement according to claim 1, wherein the power supply unit is a variable power supply unit configured to output a dynamic time varying output signal at the common output port of the power supply unit.
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14. The circuit arrangement according to claim 13, wherein the dynamic time varying output signal is in correspondence of an output power control signal provided to an output power control port of the power supply unit.
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15. The circuit arrangement according to claim 14, wherein the dynamic time varying output signal of the power supply unit is an amplified version of the output power control signal.
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16. The circuit arrangement according to claim 14, wherein the output power control signal is configured to adjust the dynamic time varying output signal based on a loading characteristic of an activated power amplifier unit of the plurality of power amplifier units.
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17. The circuit arrangement according to claim 14, wherein the output power control signal is configured to adjust the dynamic time varying output signal based on a loading characteristic of the one or more deactivated power amplifier units.
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18. The circuit arrangement according to claim 14, further comprising a load compensation circuit, wherein the load compensation circuit is configured to provide the output power control signal to the output power control port of the power supply unit based on an input signal to the load compensation circuit.
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19. The circuit arrangement according to claim 18, wherein the load compensation circuit is configured to adjust one or more of:
- a) a gain parameter, b) a phase parameter, and c) an offset parameter, in correspondence of the output power control signal.
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20. The circuit arrangement according to claim 19, wherein the adjusting is in correspondence of an activated power amplifier unit in correspondence of a different frequency band and/or mode of operation of the plurality of frequency bands and/or modes of operation.
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21. The circuit arrangement according to claim 20, wherein the adjusting comprises compensation of one or more of:
- a), b) and c) based on a loading characteristic of the one or more deactivated power amplifier units.
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22. The circuit arrangement according to claim 20 or claim 21, wherein the load compensation circuit further comprises one or more lookup tables, wherein a lookup table of the one or more lookup tables is configured to map a digital representation of the input signal to the load compensation circuit to a digital representation of the output power control signal.
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23. The circuit arrangement according to claim 19, wherein the load compensation circuit further comprises a digital signal processor adapted to generate a digital representation of the output power control signal based on a digital representation of the input signal to the load compensation circuit and a provided gain/phase/offset compensation parameter.
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24. The circuital arrangement according to claim 1 or claim 18 monolithically integrated.
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25. The circuital arrangement according to claim 1 or claim 18 fabricated entirely or partially on an integrated circuit using silicon on sapphire (SOS) or silicon on insulator technology (SOI).
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26. A circuital arrangement comprising:
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a variable power supply unit; a plurality of power amplifier units, each configured to receive power from a common output port of the power supply unit, and each configured to amplify an input radio frequency (RF) signal at an input port of the each power amplifier unit in correspondence of a different frequency band and/or mode of operation of a plurality of different frequency bands and/or modes of operation, and a load compensation circuit, wherein; during operation of the circuital arrangement, one or more of the plurality of power amplifier units are deactivated, and the load compensation circuit is configured to control the variable power supply unit such as to compensate a loading effect of the one or more deactivated power amplifier units on the common output port of the power amplifier unit. - View Dependent Claims (27, 28, 29, 30, 31, 32, 33, 34)
wherein; during an activated state of the power amplifier unit, the output match network is coupled via a second port of the output match network to an output load of the circuital arrangement, and an amplified RF signal in correspondence of the input RF signal and a current flow from the power supply unit through the output transistor is provided to the output load, and during a deactivated state of the power amplifier unit, the output match network is decoupled from the output load of the circuital arrangement and no current flows from the power supply unit through the output transistor.
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28. The circuital arrangement according to claim 26, wherein the power supply unit comprises an output power control port configured to receive an output power control signal in correspondence of a desired output signal of the power supply unit at the common output port of the power supply unit, and wherein the load compensation circuit is configured to provide the output control signal such as to optimize operation of the circuital arrangement for an activated power amplifier unit in correspondence of a different frequency band and/or mode of operation of the plurality of different frequency bands and/or modes of operation.
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29. The circuital arrangement according to claim 28, wherein the load compensation circuit is further configured to adjust the output control signal such as to compensate for the loading effect of the one or more deactivated power amplifier units on the common output port of the power supplier unit.
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30. The circuit arrangement according to claim 28 or claim 29, wherein the load compensation circuit is configured to compensate for a change in one or more of:
- a) a gain parameter, b) a phase parameter, and c) an offset parameter, of the output signal of the power supply unit in correspondence of the loading effect of the one or more deactivated power amplifier units on the common output port of the power amplifier unit.
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31. The circuit arrangement according to claim 28, wherein the load compensation circuit further comprises one or more lookup tables, wherein a lookup table of the one or more lookup tables is configured to map a digital representation of an input signal to the load compensation circuit to a digital representation of the output power control signal.
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32. The circuit arrangement according to claim 31, wherein the lookup table of the one or more lookup tables is in correspondence of the different frequency band and/or mode of operation of the plurality of different frequency bands and/or modes of operation.
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33. The circuit arrangement according to claim 31, wherein the output signal of the power supply unit is an amplified version of the output power control signal.
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34. The circuit arrangement according to claim 28, wherein the load compensation circuit further comprises a digital signal processor adapted to generate a digital representation of the output power control signal based on a digital representation of an input signal to the load compensation circuit and a provided gain/phase/offset compensation parameter.
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35. A method for reducing loading of a power supply unit in a multi-mode and/or multi-band power amplifier arrangement, the method comprising:
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providing a power supply unit; providing a plurality of power amplifier units; connecting the plurality of power amplifier units to a common output port of the power supply unit; selecting a band and/or mode of operation of the amplifier arrangement; based on the selecting, activating a corresponding power amplifier unit of the plurality of power amplifier units; based on the selecting, deactivating one or more power amplifier units of the plurality of power amplifier units; based on the deactivating, decoupling the one or more deactivated power amplifier units from the power supply unit, and based on the decoupling, reducing a loading effect of the one or more deactivated power amplifier units on the power supply unit. - View Dependent Claims (36, 37, 38, 39)
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40. A method for compensating loading of a power supply unit in a multi-mode and/or multi-band power amplifier arrangement, the method comprising:
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providing a variable power supply unit; providing a plurality of power amplifier units; connecting the plurality of power amplifier units to a common output port of the power supply unit; selecting a band and/or mode of operation of the amplifier arrangement; based on the selecting, activating a corresponding power amplifier unit of the plurality of power amplifier units; based on the selecting, deactivating one or more power amplifier units of the plurality of power amplifier units, and based on the deactivating and the activating, compensating a characteristic of a variable output signal at the common output port of the variable power supply unit. - View Dependent Claims (41, 42, 43)
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44. A circuital arrangement comprising:
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a power supply unit; a plurality of power amplifier units, wherein two or more power amplifier units of the plurality of power amplifier units are configured to receive power from a common output port of the power supply unit, and to amplify an input radio frequency (RF) signal at an input port of the two or more power amplifier units in correspondence of a different frequency band and/or mode of operation of a plurality of different frequency bands and/or modes of operation, and a plurality of decoupling switches, wherein each of the two or more power amplifier units comprises; an RF amplifier comprising; an output port in correspondence of an output transistor of the RF amplifier, wherein the output port is operatively coupled to the common output port of the power supply unit; an input port in correspondence of an input transistor of the RF amplifier, wherein the input port is connected to the input port of the each power amplifier unit, and an output match network coupled to the output port in correspondence of the output transistor at a first port of the output match network, and connected to a first decoupling switch port of a decoupling switch of the plurality of decoupling switches at a second port of the output match network, wherein a second decoupling switch port of the decoupling switch is connected to a reference ground, wherein a third port of an output match network of a power amplifier unit of the two or more power amplifier units is configured to provide an amplified version of an input RF signal to the power amplifier unit of the two or more power amplifier units. - View Dependent Claims (46)
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45. A circuital arrangement comprising:
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a power supply unit; a plurality of power amplifier units, wherein two or more power amplifier units of the plurality of power amplifier units are configured to receive power from a common output port of the power supply unit, and to amplify an input radio frequency (RF) signal at an input port of the two or more power amplifier units in correspondence of a different frequency band and/or mode of operation of a plurality of different frequency bands and/or modes of operation, and a decoupling switch connected to the common output port at a first terminal of the decoupling switch and configured to connect the first terminal to any one of a second terminal of a plurality of second terminals of the decoupling switch, wherein each of the two or more power amplifier units comprises; an RF amplifier comprising; an output port in correspondence of an output transistor of the RF amplifier, wherein the output port is operatively coupled to a second terminal of the plurality of second terminals of the decoupling switch; an input port in correspondence of an input transistor of the RF amplifier, wherein the input port is connected to the input port of the each power amplifier unit, and an output match network coupled to the output port in correspondence of the output transistor at a first port of the output match network, and connected to a reference ground at a second port of the output match network, wherein a third port of an output match network of a power amplifier unit of the plurality of power amplifier units is configured to provide an amplified version of an input RF signal to the power amplifier unit of the plurality of power amplifier units. - View Dependent Claims (47)
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Specification