Low noise wideband digital predistortion amplifier
First Claim
1. A method for converting a digital input signal to an analog input signal for input to a power amplifier, the method comprising:
- separating the input signal into a plurality of digital subband signals;
processing the digital subband signals to generate digital precompensated subband signals;
converting the digital precompensated subband signals to analog form using subband-specific digital to analog converters to generate analog precompensated subband signals;
combining the analog precompensated subband signals;
generating an analog correction signal based at least upon the digital input signal; and
combining the analog correction signal with the analog precompensated subband signals;
wherein generating an analog correction signal comprises;
generating a predistorted digital input signal based at least upon the input signal and an output signal from the amplifier;
taking a difference between the predistorted digital input signal and the digital input signal to generate a digital correction signal; and
converting the digital correction signal to analog form.
8 Assignments
0 Petitions
Accused Products
Abstract
A digital predistortion amplifier design compensates for non-linear amplification of an input signal using predistortion techniques. The design provides a reduced noise floor by using separate digital to analog converters (DAC) to separately convert the input signal and an error correction signal. Furthermore, the input signal can be separated into two or more subbands of narrower bandwidth. Each of the subbands are converted to analog using a separate DAC. By reducing the power and/or bandwidth to be handled by any one DAC, the available levels of quantization of the DAC are applied to a lower power signal and therefore the signal to noise ratio resulting from the conversion process is improved. In addition, each digital subband is passed through a correction filter, which is driven by an adaptive control processing and compensation estimator to compensate for relative gain, phase, and delay inconsistencies between the different subbands.
123 Citations
32 Claims
-
1. A method for converting a digital input signal to an analog input signal for input to a power amplifier, the method comprising:
-
separating the input signal into a plurality of digital subband signals;
processing the digital subband signals to generate digital precompensated subband signals;
converting the digital precompensated subband signals to analog form using subband-specific digital to analog converters to generate analog precompensated subband signals;
combining the analog precompensated subband signals;
generating an analog correction signal based at least upon the digital input signal; and
combining the analog correction signal with the analog precompensated subband signals;
wherein generating an analog correction signal comprises;
generating a predistorted digital input signal based at least upon the input signal and an output signal from the amplifier;
taking a difference between the predistorted digital input signal and the digital input signal to generate a digital correction signal; and
converting the digital correction signal to analog form. - View Dependent Claims (2, 3, 4, 5)
-
-
6. A system for converting a digital input signal to an analog input signal for an analog amplifier, the system comprising:
-
a first circuit configured to separate the digital input signal into a plurality of digital subband input signals;
a plurality of digital to analog converters, wherein each of the plurality of digital to analog converters is configured to convert one of the digital subband input signals to an analog subband input signal; and
a second circuit configured to combine the analog subband input signals to form the analog input signal;
wherein the first circuit comprises a plurality of frequency demultiplexers. - View Dependent Claims (7, 8, 9, 10, 11, 12, 13)
-
-
14. A system for predistorting a digital input signal to compensate for nonlineanties in an amplification process, the system comprising:
-
a first circuit which adaptively processes the digital input signal to compensate for at least one type of distortion introduced by the amplification process, to thereby generate a predistorted digital input signal;
a second circuit which substantially removes the digital input signal from the predistorted digital input signal to generate a digital correction signal;
a digital to analog converter which converts the digital correction signal to analog form to generate an analog correction signal;
a third circuit which combines the analog correction signal with at least one analog signal representing the digital input signal, to thereby generate an analog predistorted input signal; and
a fourth circuit which generates said at least one analog signal representing the digital input signal, the fourth circuit comprising multiple signal processing paths which correspond to respective subbands of the digital input signal, each signal processing path comprising a subband-specific digital to analog converter, wherein each signal processing path of the fourth circuit further comprises;
a frequency demultiplexer which generates a digital subband signal from the digital input signal; and
a digital filtering circuit which adaptively modifies the digital subband signal to compensate for gain, phase, and delay variations. - View Dependent Claims (15, 16, 17)
-
-
18. A system for converting a digital input signal to an analog input signal for an analog amplifier, the system comprising:
-
a first circuit configured to separate the digital input signal into a plurality of digital subband input signals;
a plurality of digital to analog converters, wherein each of the plurality of digital to analog converters is configured to convert one of the digital subband input signals to an analog subband input signal; and
a second circuit configured to combine the analog subband input signals to form the analog input signal;
wherein the first circuit comprises a plurality digital synthesizers. - View Dependent Claims (19, 20, 21, 22, 23, 24, 25, 26)
-
-
27. A system for converting a digital input signal to an analog input signal for an analog amplifier, the system comprising:
-
a first circuit configured to separate the digital input signal into a plurality of digital subband input signals, each of which has a bandwidth that is lower than the bandwidth of the digital input signal;
a plurality of digital to analog converters, wherein each of the plurality of digital to analog converters is configured to convert one of the digital subband input signals to an analog subband input signal; and
a second circuit configured to combine the analog subband input signals to form the analog input signal;
wherein the first circuit comprises a routing multiplexer. - View Dependent Claims (28, 29, 30, 31, 32)
-
Specification