Linearization using parallel cancellation in linear power...

Amplifiers – Hum or noise or distortion bucking introduced into signal...

Reexamination Certificate

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C330S12400D, C375S297000

Reexamination Certificate

active

06242979

ABSTRACT:

FIELD OF THE INVENTION
The invention relates generally to linear power amplifiers and more particularly to linear power amplifiers using signal predistortion for intermodulation distortion correction.
BACKGROUND OF THE INVENTION
Expandable linear power amplifier systems are often used in radio frequency communication systems, such as multicarrier cellular systems or other wireless communication systems. Expandable linear power amplifier systems typically include a number of linear power amplifiers operating in parallel and output signals are combined, as known in the art, into a single high power signal before transmission.
Such linear power amplifiers may employ feedforward error correction circuits, such as dual loop feedforward error correction circuits. Accordingly, improved linearity may be achieved with such linear power amplifiers. In such a design, the main amplifiers of a linear power amplifier may be coupled to one, two or more feedforward error correction loops. The main amplifier circuit may include a plurality of power amplifiers that are operating in a parallel fashion. The main amplifier circuits are typically larger and draw more current than the associated feedforward loops. Although improved linearity may be provided by, for example, two feedforward loops coupled to a main amplifier circuit, each loop adds delay that need to be corrected using low loss delay lines in main path. Also the feedforward linear power amplifier technique uses a pilot signal to monitor the error cancellation loop, which forms a closed loop system control. Such feedforward linear power amplifiers typically have relatively complicated feedforward circuitry and require delay circuit and other gain and phase adjustments.
One example of the operation of a feedforward amplifier may be found, for example, in U.S. Pat. No. 5,831,479, having inventor Leffel et al., issued Nov. 3, 1998, owned by instant assignee and incorporated herein by reference.
Another technique to linearize main amplifier output includes the technique of predistortion.
FIG. 1
illustrates a conventional predistortion linear power amplifier
100
that uses serial intermodulation distortion (IMD) cancellation. The predistortion linear power amplifier
100
includes a predistortor
102
. A signal splitter
104
, power amplifiers
106
and
108
and a combiner
110
form the main power amplifier. The power amplifiers
106
and
108
are identical. The predistortor
102
as known in the art is used to generate, for example, a third order intermodulation distortion signal which is used to cancel the intermodulation distortion generated by the main amplifier due to the nonlinearity. The predistortor
102
and the main power amplifier are coupled in series. The predistortor
102
introduces a gain loss for the carrier signal so more amplification stages are required to compensate for the loss. For example, the predistortor
102
generates, for example, intermodulation distortion which is 180° out of phase with the intermodulation distortion generated by the main amplifier. The intermodulation distortion is effectively added to the carrier signal and subsequently split into two paths by signal splitter
104
. The power amplifiers
106
and
108
amplify the intermodulation distortion as well as the carrier signal. Due to the nonlinearity of the power amplifiers
106
and
108
, the output signal from the main amplifier includes carrier signal, intermodulation distortion generated by the predistortor and the intermodulation distortion generated by the power amplifiers
106
and
108
. Since the intermodulation distortion generated by predistortor has same magnitude but 180° out of phase compared to the distortion generated by the main amplifier. The total intermodulation distortion of the output signal is significantly reduced. The combiner
110
(e.g., quadrature coupler) then combines the split carrier signal. This arrangement is typically an open loop arrangement.
Consequently, there exists a need for a linear power amplifier that utilizes predistortion that does not attenuate a main carrier signal to such a degree as a conventional predistortion linear power amplifiers.


REFERENCES:
patent: 4701716 (1987-10-01), Poole
patent: 4985686 (1991-01-01), Davidson et al.
patent: 5568086 (1996-10-01), Schuss et al.
patent: 5712592 (1998-01-01), Stimson et al.
patent: 5760646 (1998-06-01), Belcher et al.

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