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公开(公告)号:US09641206B2
公开(公告)日:2017-05-02
申请号:US14973725
申请日:2015-12-18
Applicant: ANALOG DEVICES GLOBAL
Inventor: Patrick Pratt , Martin Steven McCormick
CPC classification number: H04B1/0475 , H03F1/3223 , H03F1/3241 , H03F1/34 , H03F3/24 , H04B1/04 , H04B1/40 , H04B1/525 , H04B7/0452 , H04B2001/0425 , H04B2001/0433 , H04B2001/0441 , H04L27/2614 , H04W88/08
Abstract: For small cells, transceivers demand high performance while maintaining system efficiency. The present disclosure describes a highly integrated cellular transceiver that offers such features by providing one or more digital functions on-chip, onto the same die in the cellular transceiver. Effectively, the scope and boundary of the cellular transceiver is expanded to move beyond the data converters of the transceiver to include a variety of digital functions, thus integrating more of the signal chain in the cellular transceiver. Integration can greatly reduce complexity for the baseband processing, lower the cost of the overall transceiver system, reduce power consumption, and at the same time, benefit from improvements on the digital functions through integration.
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公开(公告)号:US09768793B2
公开(公告)日:2017-09-19
申请号:US15365867
申请日:2016-11-30
Applicant: ANALOG DEVICES GLOBAL
Inventor: Qingdong Meng , Hajime Shibata , Richard E. Schreier , Martin Steven McCormick , Yunzhi Dong , Jose Barreiro Silva , Jialin Zhao , Donald W. Paterson , Wenhua W. Yang
Abstract: For continuous-time multi-stage noise shaping analog-to-digital converters (CT MASH ADCs), quantization noise cancellation often requires accurate estimation of transfer functions, e.g., a noise transfer function of the front end modulator and a signal transfer function of the back end modulator. To provide quantization noise cancellation, digital quantization noise cancellation filters adaptively tracks transfer function variations due to integrator gain errors, flash-to-DAC timing errors, as well as the inter-stage gain and timing errors. Tracking the transfer functions is performed through the direct cross-correlation between the injected maximum length linear feedback shift registers (LFSR) sequence and modulator outputs and then corrects these non-ideal effects by accurately modeling the transfer functions with programmable finite impulse response (PFIR) filters.
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公开(公告)号:US20170179969A1
公开(公告)日:2017-06-22
申请号:US15365867
申请日:2016-11-30
Applicant: ANALOG DEVICES GLOBAL
Inventor: Qingdong Meng , Hajime Shibata , Richard E. Schreier , Martin Steven McCormick , Yunzhi Dong , Jose Barreiro Silva , Jialin Zhao , Donald W. Paterson , Wenhua W. Yang
Abstract: For continuous-time multi-stage noise shaping analog-to-digital converters (CT MASH ADCs), quantization noise cancellation often requires accurate estimation of transfer functions, e.g., a noise transfer function of the front end modulator and a signal transfer function of the back end modulator. To provide quantization noise cancellation, digital quantization noise cancellation filters adaptively tracks transfer function variations due to integrator gain errors, flash-to-DAC timing errors, as well as the inter-stage gain and timing errors. Tracking the transfer functions is performed through the direct cross-correlation between the injected maximum length linear feedback shift registers (LFSR) sequence and modulator outputs and then corrects these non-ideal effects by accurately modeling the transfer functions with programmable finite impulse response (PFIR) filters.
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