High-level modulation method and apparatus
First Claim
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1. A system for amplitude-modulating a power amplifier comprising:
- a power supply regulator circuit configured to regulate a direct current (DC) supply to the power amplifier in response to a control input signal;
a current sense circuit configured to sense a current of the DC supply to the power amplifier to provide a sensed current signal;
a voltage sense circuit configured to sense a voltage of the DC supply to the power amplifier to provide a sensed voltage signal;
a power supply control circuit configured to receive an amplitude input signal corresponding to an amplitude modulated waveform, the sensed current signal and the sensed voltage signal and provide the control input signal to the power supply regulator circuit based on the amplitude input signal, the sensed current signal and the sensed voltage signal.
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Abstract
Methods and systems for amplitude-modulating a power amplifier based on sensed current and sensed voltage provided to the power amplifier are provided. The sensed current and sensed voltage may be summed to provided both current and voltage feedback to modulate the power supplied to the power amplifier. Alternatively, both the current feedback and the voltage feedback may be selectively utilized to modulate the power supplied to the power amplifier.
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Citations
53 Claims
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1. A system for amplitude-modulating a power amplifier comprising:
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a power supply regulator circuit configured to regulate a direct current (DC) supply to the power amplifier in response to a control input signal;
a current sense circuit configured to sense a current of the DC supply to the power amplifier to provide a sensed current signal;
a voltage sense circuit configured to sense a voltage of the DC supply to the power amplifier to provide a sensed voltage signal;
a power supply control circuit configured to receive an amplitude input signal corresponding to an amplitude modulated waveform, the sensed current signal and the sensed voltage signal and provide the control input signal to the power supply regulator circuit based on the amplitude input signal, the sensed current signal and the sensed voltage signal. - 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)
a combining circuit configured to provide a weighted sum of the sensed current signal and the sensed voltage signal; and
a comparator configured to compare the weighted sum of the sensed current signal and the sensed voltage signal received at a first input to the amplitude modulated waveform received at a second input and to provide a difference value as the control input signal to the power supply regulator circuit.
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3. The system of claim 1, wherein the voltage sense circuit comprises a conductor electrically connected to an output of the power supply regulator circuit and wherein the current sense circuit comprises:
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a sense resistor in series with the power supply regulator circuit; and
an amplifier which amplifies a voltage drop across the sense resistor to provide a voltage corresponding to the current through the sense resistor.
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4. The system of claim 3, wherein the combining circuit comprises:
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a first resistor in series with the conductor and the first input of the comparator; and
a second resistor in series with the amplifier which amplifies the voltage drop across the sense resistor and the first input of the comparator.
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5. The system of claim 1, wherein the power supply control circuit further comprises:
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a combining circuit configured to select one of the sensed current and the sensed voltage; and
a comparator configured to compare the selected one of the sensed current and the sensed voltage received at a first input of the comparator to the amplitude modulated waveform received at a second input of the comparator and to provide a difference value as the control input signal to the power supply regulator circuit.
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6. The system of claim 5, wherein the voltage sense circuit comprises a conductor electrically connected to an output of the power supply regulator circuit and wherein the current sense circuit comprises:
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a sense resistor in series with the power supply regulator circuit; and
an amplifier which amplifies a voltage drop across the sense resistor and having an output that provides a voltage corresponding to a current through the sense resistor.
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7. The system of claim 6, wherein the combining circuit comprises:
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a first diode in series with the output of the amplifier which amplifies a voltage drop across the sense resistor and the first input of the comparator such that the first diode is positively biased when the output of the amplifier which amplifies the voltage drop across the sense resistor is at a greater voltage level than the first input of the comparator;
a second diode in series with the conductor and the first input of the comparator such that the second diode is positively biased when the conductor is at a greater voltage level than the first input of the comparator; and
a third diode in series with the amplitude input signal and the second input of the comparator such that the third diode is positively biased when the amplitude input signal is at a greater voltage level than the second input of the comparator.
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8. The system of claim 7, further comprising two bleed resistors operably associated with the first and second inputs of the comparator so as to forward bias the first, second and third diodes.
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9. The system of claim 1, wherein the power supply control circuit is further configured to select one of the sensed current and the sensed voltage and provide a difference value between the selected one of the sensed current and the sensed voltage and the amplitude modulated waveform as the control input signal to the power supply regulator circuit.
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10. The system of claim 9, wherein the power supply control circuit comprises a three input comparator having as inputs the sensed current signal, the sensed voltage signal and a signal corresponding to the amplitude modulated waveform.
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11. The system of claim 1, wherein the power supply regulator circuit comprises a transistor in series with a power supply feed to the power amplifier.
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12. The system of claim 1, wherein the power supply regulator comprises a plurality of transistor elements in series with a power supply feed to the power amplifier and wherein the current sense circuit comprises a sense resistor in series with one of the plurality of transistor elements.
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13. The system of claim 12, wherein the current sense circuit further comprises a plurality of sense resistors in series with a subset of the plurality of transistor elements, the plurality of sense resistors being switchably connected to be in series with a power supply feed to the power amplifier so that one of the plurality of transistor elements and a corresponding one of the plurality of sense resistors is in parallel with a power feed through another of the transistor elements directly connected to a power supply feed and the power amplifier.
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14. The system of claim 1, wherein the current sense circuit comprises:
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a plurality of sense resistors;
a switch circuit that places a selected one of the plurality of sense resistors in series with the power supply regulator circuit; and
an amplifier which amplifies a voltage drop across the selected one of the plurality of sense resistors to provide a voltage corresponding to the current through the selected one of the plurality of sense resistors.
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15. The system of claim 1, wherein the power supply regulator circuit comprises a first transistor in series with a power supply feed to the power amplifier and wherein the current sense circuit comprises:
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a second transistor operably associated with the power supply feed;
a first current mirror circuit which mirrors the current through the second transistor; and
a sense resistor operably associated with the power supply control circuit to provide a voltage corresponding to the sensed current.
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16. The system of claim 15, wherein the current sense circuit further comprises:
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a load resistor in series with the second transistor, the load resistor having a resistance value having a predefined relationship to a load presented by the power amplifier and wherein the first current mirror mirrors the current through load resistor; and
a second current mirror circuit operably associated with the first current mirror circuit and the sense resistor so as to provide current through the sense resistor proportional to the current mirrored by the first current mirror circuit.
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17. The system of claim 16, wherein the sense resistor comprises a plurality of sense resistors, the current sense circuit further comprising:
a switch circuit that places a selected one of the plurality of sense resistors in electrical connection with an output of the second current mirror circuit.
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18. The system of claim 17, wherein the second current mirror circuit is further configured to amplify the current mirrored by first current mirror circuit.
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19. The system of claim 15, wherein the second transistor comprises a part of the first transistor.
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20. The system of claim 1, wherein the power amplifier comprises a power amplifier of a transmitter of a wireless device.
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21. The system of claim 1, wherein the power supply regulator circuit comprises a first transistor in series with the DC supply and the power amplifier;
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wherein the current sense circuit comprises;
a second transistor having an area proportional to the area of the first transistor and responsive to the control input; and
a current sense resistor in series with the second transistor and having a size proportional to a resistance of the power amplifier in a same proportion as the second transistor is proportional to the first transistor;
wherein the voltage sense circuit comprises a first resistor having a first terminal coupled to the first transistor and the power amplifier;
wherein the power supply control circuit comprises;
a third transistor having as a control input the amplitude modulated waveform;
a second resistor in series with the third transistor and a first voltage of the DC supply, wherein control inputs to the first transistor and the second transistor are coupled to the second resistor and the third transistor;
a third resistor in series with the third transistor and a second voltage of the DC supply;
a fourth resistor having a first terminal coupled to a second terminal of the first resistor and a second terminal coupled to the second transistor and the sense resistor; and
a fifth resistor having a first terminal coupled to the first terminal of the fourth resistor and the second terminal of the first resistor and a second terminal coupled to the third transistor and the third resistor.
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22. The system of claim 1, wherein the power supply control circuit is configured to selected between the sensed current signal and the sensed voltage signal and to provide the control input signal to the power supply regulator circuit based on the amplitude modulated waveform and the selected one of the sensed current signal and the sensed voltage signal.
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23. The system of claim 22, wherein the power supply regulator circuit comprises a first transistor in series with the DC supply and the power amplifier;
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wherein the current sense circuit comprises;
a second transistor having an area proportional to the area of the first transistor and responsive to the control input; and
a current sense resistor in series with the second transistor and having a size proportional to a resistance of the power amplifier in a same proportion as the second transistor is proportional to the first transistor;
wherein the voltage sense circuit comprises a conductor coupled to the output of the first transistor and the power amplifier; and
wherein power supply control circuit comprises;
a third transistor having as a control input the amplitude modulated waveform;
a first resistor in series with the third transistor and a first voltage of the DC supply, wherein control inputs to the first transistor and the second transistor are coupled to the first resistor and the third transistor;
a second resistor in series with the third transistor and a second voltage of the DC supply;
a first switch coupled to the voltage sense circuit;
a second switch coupled to the current sense resistor; and
a third resistor coupled to the second resistor and the third transistor and in series with an output of the first switch and an output of the second switch.
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24. A circuit for amplitude-modulation of a power amplifier of a transmitter of a wireless device, comprising:
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an amplitude modulation signal generator that generates an amplitude modulation signal with a desired waveform;
a regulator circuit that regulates a direct current (DC) supply to the transmitter power amplifier in response to a control input signal;
a voltage sensor that senses the voltage of the regulated DC supply to provide a voltage feedback signal;
a current sensor that senses the current drawn by the transmitter power amplifier from the regulated DC supply to provide a current feedback signal;
a comparator that compares the voltage feedback signal and the current feedback signal with the amplitude modulation signal to provide the control input signal. - View Dependent Claims (25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43)
a resistor having a value corresponding to a ratio to an equivalent DC supply load resistance of the transmitter power amplifier equal to a ratio of the first portion to the second portion of the field effect transistor; and
a current mirror circuit, wherein the second drain electrode of the field effect transistor is connected to the current mirror circuit through the resistor.
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43. The circuit of claim 42 further comprising a plurality of switch-selected current sensing resistors, and wherein the current mirror circuit provides an output current to a selected one of the switch-selected current sensing resistors to provide the current feedback signal with a selectable weighting relative to the voltage feedback signal.
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44. A method for amplitude modulating a power amplifier, comprising:
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sensing a current provided to the power amplifier to provide a sensed current value;
sensing a voltage provided to the power amplifier to provide a sensed voltage value;
receiving an input signal corresponding to an amplitude modulated waveform;
combining the sensed current value and the sensed voltage value to provide a combined value; and
controlling a direct current (DC) power supply which supplies power to the power amplifier based on the combined value and the amplitude modulated waveform. - View Dependent Claims (45, 46, 47, 48, 49)
determining a difference between the combined value and the amplitude modulated waveform; and
controlling a voltage provided to the power amplifier based on the determined difference.
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50. A method for amplitude modulating a power amplifier of a transmitter, comprising:
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modulating a current drawn by the power amplifier when a ratio of the current drawn to a supply voltage provided to the power amplifier is greater than a predetermined ratio, and modulating the supply voltage provided to the power amplifier when the ratio of current drawn to the supply voltage is less than the predetermined ratio. - View Dependent Claims (51)
selecting a power output level for operating the transmitter; and
varying the predetermined ratio based on the selected power output level.
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52. A system for amplitude modulating a power amplifier, comprising:
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means for sensing a current provided to the power amplifier to provide a sensed current value;
means for sensing a voltage provided to the power amplifier to provide a sensed voltage value;
means for receiving an input signal corresponding to an amplitude modulated waveform;
means for combining the sensed current value and the sensed voltage value to provide a combined value; and
means for controlling a direct current (DC) power supply which supplies power to the power amplifier based on the combined value and the amplitude modulated waveform.
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53. A system for amplitude modulating a power amplifier of a transmitter, comprising:
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means for modulating a current drawn by the power amplifier when a ratio of the current drawn to a supply voltage provided to the power amplifier is greater than a predetermined ratio, and means for modulating the supply voltage provided to the power amplifier when the ratio of current drawn to the supply voltage is less than the predetermined ratio.
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Specification