Controller and associated methods for a linc linear power amplifier

US 6,054,896 A
Filed: 12/17/1998
Issued: 04/25/2000
Est. Priority Date: 12/17/1998
Status: Expired due to Term

First Claim

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1. In a transmitter in which an input transmission signal is separated into multiple component signals that are processed along respective amplification chains and then combined to form an output transmission signal, and in which the amplification chains include compensation processors which modify the component signals based on sets of compensation parameters to compensate for differences in analog components of the amplification chains, a controller, comprising:

an adaptive compensation estimator which adaptively generates and updates the compensation parameters based on observations of signals within the transmitter; and

a state machine which monitors a level of balance between the amplification chains and controls an operational mode of the transmitter, the state machine implementing at least the following states;

(a) a first state in which training signals are generated and applied to the amplification chains while substantially inhibiting emissions from an antenna, and in which the adaptive compensation estimator uses the training signals to adaptively update the compensation parameters, and(b) a second state in which an input transmission signal is processed along the amplification chains to generate an output transmission signal, and in which the adaptive compensation estimator uses the input transmission signal to update the compensation parameters during transmission events to maintain the amplification chains in balance.

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Abstract

A LINC amplifier of a radio frequency transmitter provides substantially linear amplification from two nonlinear amplifiers by decomposing the original signal into two constant amplitude envelope, phase varying signals, which, when combined, constructively and destructively interfere to re-form the original signal. The output of the LINC amplifier, which is to be transmitted via an antenna, is an amplified form of the original signal. The LINC amplifier uses a digital control mechanism to control and adapt a digital compensation network that directly compensates for the imperfections of the analog RF environment, including the amplifiers. The mechanism monitors the combined amplifier output and adjusts the signal components in order to precisely compensate for any differences in the characteristics of the separate signal paths which would cause the combination not to accurately represent the original signal. The mechanism also corrects the component signals using information which can be applied to the amplifiers independent of the signal to be transmitted.

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20 Claims

1. In a transmitter in which an input transmission signal is separated into multiple component signals that are processed along respective amplification chains and then combined to form an output transmission signal, and in which the amplification chains include compensation processors which modify the component signals based on sets of compensation parameters to compensate for differences in analog components of the amplification chains, a controller, comprising:
- an adaptive compensation estimator which adaptively generates and updates the compensation parameters based on observations of signals within the transmitter; and
  
  a state machine which monitors a level of balance between the amplification chains and controls an operational mode of the transmitter, the state machine implementing at least the following states;
  
  (a) a first state in which training signals are generated and applied to the amplification chains while substantially inhibiting emissions from an antenna, and in which the adaptive compensation estimator uses the training signals to adaptively update the compensation parameters, and(b) a second state in which an input transmission signal is processed along the amplification chains to generate an output transmission signal, and in which the adaptive compensation estimator uses the input transmission signal to update the compensation parameters during transmission events to maintain the amplification chains in balance.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
- - 2. The controller of claim 1, wherein the state machine changes from the first state to the second state only when a level of balance of the amplification chains falls within a predetermined threshold.
  - 3. The controller of claim 1, wherein the training signals applied to the amplification chains while the state machine is in the first state are in antiphase, so that emissions from the antenna are substantially inhibited without the need for an antenna switch.
  - 4. The controller of claim 1, wherein the adaptive compensation estimator generates the compensation parameters in a non-real-time mode when the state machine is in the second state.
  - 5. The controller of claim 1, wherein the state machine further comprises a third state in which the training signals are ramped down while the input transmission signal is ramped up.
  - 6. The controller of claim 1, wherein the state machine further comprises a third state in which antiphase training signals are applied to the amplification chains while amplifiers of the amplification chains are ramped up in power.
  - 7. The controller of claim 1, wherein the state machine further comprises a third state in which antiphase training signals are applied to the amplification chains while amplifiers of the amplification chains are ramped down in power.
  - 8. The controller of claim 1, wherein the adaptive compensation estimator is implemented using a general purpose digital signal processor which executes a firmware program.
  - 9. The controller of claim 1, wherein the adaptive compensation estimator implements at least one of the following algorithms to generate the compensation parameters:
    - LMS, RLS, Kalman, and Extended Kalman.

10. A controller for controlling the operation of a power amplifier, the power amplifier comprising multiple amplification chains along which component signals are processed prior to being combined for transmission, the amplification chains including compensation processors which modify signals passed therealong, based on a set of compensation parameters, to reduce distortions in a transmission signal, the controller comprising:
- an adaptive compensation estimation module which processes samples of observed signals within the amplifier in a non-real-time mode to adaptively generate the compensation parameters; and
  
  a control module which monitors a level of balance of the amplification chains and controls an operational mode of the amplifier, the control module configured to inhibit transmissions when the amplification chains are unbalanced.
- View Dependent Claims (11, 12, 13)
- - 11. The controller of claim 10, wherein the adaptive compensation estimation module comprises a firmware program which runs on a general purpose digital signal processor.
  - 12. The controller of claim 10, wherein the adaptive compensation estimation module implements at least one of the following algorithms to generate the compensation parameters:
    - LMS, RLS, Kalman, and Extended Kalman.
  - 13. The controller of claim 10, wherein the control module implements a training state in which training signals are generated and applied to the amplification chains during non-transmission events to allow the adaptive compensation estimation module to update the compensation parameters.

14. In an amplifier in which an input transmission signal is separated into multiple component signals that are amplified along respective amplification chains and then combined to form an output transmission signal, and in which the amplification chains include compensation processors which modify the component signals based on sets of compensation parameters to compensate for differences in analog components of the amplification chains, and in which an adaptive compensation estimator adaptively generates and updates the compensation parameters based on observations of signals within the amplifier, a method of controlling the amplifier, comprising:
- placing the amplifier in a first state in which training signals are generated and applied to the amplification chains while the adaptive compensation estimator adaptively updates the compensation parameters;
  
  monitoring a level of imbalance in the amplification chains while the amplifier is in the first state to determine whether the amplification chains are sufficiently balanced to commence transmissions; and
  
  when the amplification chains are sufficiently balanced to commence transmissions and a transmission event is pending, placing the amplifier in a second state in which an input transmission signal is separated and processed along the amplification chains to form an output transmission signal, and in which the adaptive compensation estimator uses the input transmission signal to adaptively update the compensation parameters during the transmission event.
- View Dependent Claims (15, 16, 17, 18, 19, 20)
- - 15. The method of claim 14, wherein placing the amplifier in the second state comprises using a smoothing function to smooth a transition from the training signals to the input transmission signal.
  - 16. The method of claim 14, wherein the training signals applied to the amplification chains while the amplifier is in the first state are in antiphase, so that emissions from an antenna coupled to the amplifier are substantially inhibited without the need for an antenna switch.
  - 17. The method of claim 14, wherein the adaptive compensation estimator generates the compensation parameters in non-real-time when the amplifier is in the second state.
  - 18. The method of claim 14, further comprising placing the amplifier in a third state in which antiphase training signals are applied to the amplification chains while amplifiers of the amplification chains are ramped up in power.
  - 19. The method of claim 14, further comprising placing the amplifier in a third state in which antiphase training signals are applied to the amplification chains while amplifiers of the amplification chains are ramped down in power.
  - 20. The method of claim 14, wherein the adaptive compensation estimator implements at least one of the following algorithms to generate the compensation parameters:
    - LMS, RLS, Kalman, and Extended Kalman.

Specification

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Current Assignee
Maxlinear Asia Singapore Pte Ltd. (Maxlinear Incorporated)
Original Assignee
Datum Telegraphic, Inc. (Microchip Technology Incorporated)
Inventors
Wright, Andrew S., Bennett, Steven J.
Primary Examiner(s)
Pascal, Robert
Assistant Examiner(s)
NGUYEN, KHANH V

Application Number

US09/216,067
Time in Patent Office

495 Days
Field of Search

330/149, 4/151, 4/52
US Class Current

330/149
CPC Class Codes

H03F 1/0294   using vector summing of two...

H03F 1/3247   using feedback acting on pr...

H03F 2201/3231   Adaptive predistortion usin...

H03F 2201/3233   Adaptive predistortion usin...

Controller and associated methods for a linc linear power amplifier

First Claim

9 Assignments

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Abstract

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20 Claims

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Controller and associated methods for a linc linear power amplifier

First Claim

9 Assignments

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Abstract

Citations

20 Claims

Specification

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