Invention Grant
US08526535B2 Mobile wireless communications device with separate in-phase (I) and quadrature (Q) phase power amplification and power amplifier pre-distortion and IQ balance compensation
有权
移动无线通信设备具有单相同相(I)和正交(Q)相功率放大和功率放大器预失真和IQ平衡补偿
- Patent Title: Mobile wireless communications device with separate in-phase (I) and quadrature (Q) phase power amplification and power amplifier pre-distortion and IQ balance compensation
- Patent Title (中): 移动无线通信设备具有单相同相(I)和正交(Q)相功率放大和功率放大器预失真和IQ平衡补偿
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Application No.: US13526430Application Date: 2012-06-18
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Publication No.: US08526535B2Publication Date: 2013-09-03
- Inventor: Lizhong Zhu , George Soliman Mankaruse , Michael Stephen Corrigan , Perry Jarmuszewski , Oleksiy Kravets , Kent Arnold Nickerson , Nagula Tharma Sangary
- Applicant: Lizhong Zhu , George Soliman Mankaruse , Michael Stephen Corrigan , Perry Jarmuszewski , Oleksiy Kravets , Kent Arnold Nickerson , Nagula Tharma Sangary
- Applicant Address: CA Waterloo, Ontario
- Assignee: Blackberry Limited
- Current Assignee: Blackberry Limited
- Current Assignee Address: CA Waterloo, Ontario
- Agency: Allen, Dyer, Doppelt, Milbrath & Gilchrist, P.A. Attorneys at Law
- Main IPC: H04K1/02
- IPC: H04K1/02
Abstract:
A communications device, in one aspect as a portable wireless communications device, includes an in-phase modulator and power amplifier that receives a baseband I signal and modulates and amplifies the I signal. A quadrature modulator and power amplifier receives a baseband Q signal and modulates and amplifies the Q signal. A power combiner sums and outputs the I and Q signals. An I demodulator circuit receives a signal fed back from the I power amplifier and demodulates the fed back signal to produce demodulated I signals. A Q demodulator circuit receives a signal fed back from the Q power amplifier and demodulates the fed back signal to produce demodulated Q signals. A processor compares the digital, baseband I and Q signals with a demodulated I and Q signals to compensate for amplitude, frequency and phase modulation errors.
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