Author: Haitao Dai
Publisher:
ISBN:
Category :
Languages : en
Pages : 342
Book Description
Substrate Noise Modeling and Suppression in RF/mixed Signal IC Technology
Substrate Noise Coupling in RFICs
Author: Ahmed Helmy
Publisher: Springer Science & Business Media
ISBN: 1402081669
Category : Technology & Engineering
Languages : en
Pages : 129
Book Description
The book reports modeling and simulation techniques for substrate noise coupling effects in RFICs and introduces isolation structures and design guides to mitigate such effects with the ultimate goal of enhancing the yield of RF and mixed signal SoCs. The book further reports silicon measurements, and new test and noise isolation structures. To the authors’ knowledge, this is the first title devoted to the topic of substrate noise coupling in RFICs as part of a large SoC.
Publisher: Springer Science & Business Media
ISBN: 1402081669
Category : Technology & Engineering
Languages : en
Pages : 129
Book Description
The book reports modeling and simulation techniques for substrate noise coupling effects in RFICs and introduces isolation structures and design guides to mitigate such effects with the ultimate goal of enhancing the yield of RF and mixed signal SoCs. The book further reports silicon measurements, and new test and noise isolation structures. To the authors’ knowledge, this is the first title devoted to the topic of substrate noise coupling in RFICs as part of a large SoC.
Substrate Noise Coupling in Analog/RF Circuits
Author: Stephane Bronckers
Publisher: Artech House
ISBN: 1596932724
Category : Technology & Engineering
Languages : en
Pages : 272
Book Description
This book presents case studies to illustrate that careful modeling of the assembly characteristics and layout details is required to bring simulations and measurements into agreement. Engineers learn how to use a proper combination of isolation structures and circuit techniques to make analog/RF circuits more immune to substrate noise. Topics include substrate noise propagation, passive isolation structures, noise couple in active devices, measuring the coupling mechanisms in analog/RF circuits, prediction of the impact of substrate noise on analog/RF circuits, and noise coupling in analog/RF systems.
Publisher: Artech House
ISBN: 1596932724
Category : Technology & Engineering
Languages : en
Pages : 272
Book Description
This book presents case studies to illustrate that careful modeling of the assembly characteristics and layout details is required to bring simulations and measurements into agreement. Engineers learn how to use a proper combination of isolation structures and circuit techniques to make analog/RF circuits more immune to substrate noise. Topics include substrate noise propagation, passive isolation structures, noise couple in active devices, measuring the coupling mechanisms in analog/RF circuits, prediction of the impact of substrate noise on analog/RF circuits, and noise coupling in analog/RF systems.
Modeling of Substrate Noise Coupling in Mixed-signal Integrated Circuits
Author: Nawej Mwez
Publisher:
ISBN:
Category : Electronic noise
Languages : en
Pages : 234
Book Description
Publisher:
ISBN:
Category : Electronic noise
Languages : en
Pages : 234
Book Description
Measurement, Modelling, and Suppression of Substrate Noise in Wide Band Mixed-signal ICs
Author: Ming Shen
Publisher:
ISBN: 9788792328410
Category :
Languages : en
Pages : 77
Book Description
Publisher:
ISBN: 9788792328410
Category :
Languages : en
Pages : 77
Book Description
Substrate Noise Analysis and Techniques for Mitigation in Mixed-signal RF Systems
Author: Nisha Checka
Publisher:
ISBN:
Category :
Languages : en
Pages : 158
Book Description
(Cont.) Existing techniques have prohibitively long simulation times and are only suitable for final verification. Determination of substrate noise coupling during the design phase would be extremely beneficial to circuit designers who can incorporate the effect of the noise and re-design accordingly before fabrication. This would reduce the turn around time for circuits and prevent costly redesign. SNAT can be used at any stage of the design cycle to accurately predict (less than 12% error when compared to measurements) the substrate noise performance of any digital circuit with a large degree of computational efficiency.
Publisher:
ISBN:
Category :
Languages : en
Pages : 158
Book Description
(Cont.) Existing techniques have prohibitively long simulation times and are only suitable for final verification. Determination of substrate noise coupling during the design phase would be extremely beneficial to circuit designers who can incorporate the effect of the noise and re-design accordingly before fabrication. This would reduce the turn around time for circuits and prevent costly redesign. SNAT can be used at any stage of the design cycle to accurately predict (less than 12% error when compared to measurements) the substrate noise performance of any digital circuit with a large degree of computational efficiency.
Active Substrate Noise Suppression Circuit in Advanced 0.18 Micrometer SiGe BiCMOS Technology for High Performance RF/mixed-signal SOC Applications
Substrate Noise Coupling in Mixed-signal Integrated Circuits
Author: Simon Kristiansson
Publisher:
ISBN: 9789173850049
Category :
Languages : en
Pages : 120
Book Description
Publisher:
ISBN: 9789173850049
Category :
Languages : en
Pages : 120
Book Description
Noise Coupling in System-on-Chip
Author: Thomas Noulis
Publisher: CRC Press
ISBN: 1351642782
Category : Technology & Engineering
Languages : en
Pages : 536
Book Description
Noise Coupling is the root-cause of the majority of Systems on Chip (SoC) product fails. The book discusses a breakthrough substrate coupling analysis flow and modelling toolset, addressing the needs of the design community. The flow provides capability to analyze noise components, propagating through the substrate, the parasitic interconnects and the package. Using this book, the reader can analyze and avoid complex noise coupling that degrades RF and mixed signal design performance, while reducing the need for conservative design practices. With chapters written by leading international experts in the field, novel methodologies are provided to identify noise coupling in silicon. It additionally features case studies that can be found in any modern CMOS SoC product for mobile communications, automotive applications and readout front ends.
Publisher: CRC Press
ISBN: 1351642782
Category : Technology & Engineering
Languages : en
Pages : 536
Book Description
Noise Coupling is the root-cause of the majority of Systems on Chip (SoC) product fails. The book discusses a breakthrough substrate coupling analysis flow and modelling toolset, addressing the needs of the design community. The flow provides capability to analyze noise components, propagating through the substrate, the parasitic interconnects and the package. Using this book, the reader can analyze and avoid complex noise coupling that degrades RF and mixed signal design performance, while reducing the need for conservative design practices. With chapters written by leading international experts in the field, novel methodologies are provided to identify noise coupling in silicon. It additionally features case studies that can be found in any modern CMOS SoC product for mobile communications, automotive applications and readout front ends.
Characterization of Substrate Noise Coupling, Its Impacts and Remedies in RF and Mixed-signal ICs
Author: Ahmed Helmy
Publisher:
ISBN:
Category : Radio frequency integrated circuits
Languages : en
Pages :
Book Description
Abstract: Substrate noise coupling in integrated circuits is the process by which interference signals generated by high speed digital blocks cause parasitic currents to flow in the silicon substrate and couple devices in various parts of the circuits on this common substrate. In RFIC the switching noise couples to the sensitive analog circuits through the substrate causing degradation in performance and yield hit. Overcoming substrate coupling is a key issue in successful "system on chip" integration. In this thesis a substrate aware design flow is built, calibrated to silicon and used as part of the design flow to uncover substrate coupling problems in RFICs in the design phase. The flow is used to develop the first comprehensive RF substrate noise isolation design guide to be used by RF designers during the design phase. This will allow designers to optimize the design to maximize noise isolation and protect sensitive blocks from being degraded by substrate noise coupling. Several effects of substrate coupling on circuit performance will be identified and remedies will be given based on the design guide. Three case studies are designed to analyze the substrate coupling problem in RFICs. The case studies are designed to attack the problem from the device, circuit and system levels. On the device level a special emphasis is given to designing on chip inductors as an important device in RFIC. An accurate model is developed for a broadband fit of the inductor scattering parameters. This model is shown to be scalable and is proven to be accurate across various frequency bands and geometries. A special emphasis is put on the design for manufacturing effects that affect the design robustness. A circuit level case study is developed and results are compared to simulations and measurements to highlight the need for such a flow before tapping out to ensure a yielding part. The system level problem studied is a GSM receiver where the research results are directly applied to it as a demonstration vehicle to debug and resolve a system level substrate noise coupling problem that otherwise caused a product to be on the edge of malfunction.
Publisher:
ISBN:
Category : Radio frequency integrated circuits
Languages : en
Pages :
Book Description
Abstract: Substrate noise coupling in integrated circuits is the process by which interference signals generated by high speed digital blocks cause parasitic currents to flow in the silicon substrate and couple devices in various parts of the circuits on this common substrate. In RFIC the switching noise couples to the sensitive analog circuits through the substrate causing degradation in performance and yield hit. Overcoming substrate coupling is a key issue in successful "system on chip" integration. In this thesis a substrate aware design flow is built, calibrated to silicon and used as part of the design flow to uncover substrate coupling problems in RFICs in the design phase. The flow is used to develop the first comprehensive RF substrate noise isolation design guide to be used by RF designers during the design phase. This will allow designers to optimize the design to maximize noise isolation and protect sensitive blocks from being degraded by substrate noise coupling. Several effects of substrate coupling on circuit performance will be identified and remedies will be given based on the design guide. Three case studies are designed to analyze the substrate coupling problem in RFICs. The case studies are designed to attack the problem from the device, circuit and system levels. On the device level a special emphasis is given to designing on chip inductors as an important device in RFIC. An accurate model is developed for a broadband fit of the inductor scattering parameters. This model is shown to be scalable and is proven to be accurate across various frequency bands and geometries. A special emphasis is put on the design for manufacturing effects that affect the design robustness. A circuit level case study is developed and results are compared to simulations and measurements to highlight the need for such a flow before tapping out to ensure a yielding part. The system level problem studied is a GSM receiver where the research results are directly applied to it as a demonstration vehicle to debug and resolve a system level substrate noise coupling problem that otherwise caused a product to be on the edge of malfunction.