Verfügbarkeit: Circuits and Systems for the Internet of Things :

Circuits and Systems for the Internet of Things :: CAS4IoT.

Internet-of-Things (IoT) can be envisaged as a dynamic network of interconnected physical and virtual entities ("things"), with their own identities and attributes, seamlessly integrated in order to e.g. actively participate in economic or societal processes, interact with services, and re...

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Bibliographische Detailangaben
1. Verfasser:	Goes, João
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Bloomfield : River Publishers, 2017.
Schriftenreihe:	Tutorials in Circuits and Systems Ser.
Schlagworte:	Electronic circuits. Internet of things. Circuits électroniques. Internet des objets. Electronic circuits Internet of things
Online-Zugang:	Volltext
Zusammenfassung:	Internet-of-Things (IoT) can be envisaged as a dynamic network of interconnected physical and virtual entities ("things"), with their own identities and attributes, seamlessly integrated in order to e.g. actively participate in economic or societal processes, interact with services, and react autonomously to events while sensing the environment. By enabling things to connect and becoming recognizable, while providing them with intelligence, informed and context based decisions are expected in a broad range of domains spanning from health and elderly care to energy efficiency, either providing business competitive advantages to companies, either addressing key social concerns. The level of connectivity and analytical intelligence provided by the IoT paradigm is expected to allow creating new services that would not be feasible by other means. This CAS4IoT book targets post-graduate students and design engineers, with the skills to understand and design a broader range of analog, digital and mixed-signal circuits and systems, in the field of IoT, spanning from data converters for sensor interfaces to radios, ensuring a good balance between academia and industry, combined with a judicious selection of worldwide distinguished authors.
Beschreibung:	21. T & H kT/C Sampling Noise.
Beschreibung:	1 online resource (346 pages)
ISBN:	8793519893 9788793519893

Internformat

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505	0		\|a Front Cover; Half Title -- Circuits and Systems for the Internet of Things; Full Title -- Tutorials in Circuits and Systems; Copyright Page; Table of contents; Introduction; Chapter 1 -- Ultra-Low-Voltage and Micro-Power Analog Design for Internet of Things; 1. Introduction; 2. Introduction; 3. Introduction; 4. Introduction; 5. Introduction; 6. Introduction; 7. Introduction; 8. Introduction; 9. Introduction; 10. Introduction; 11. SWOT Analysis; 12. Strengths: Sensors; 13. Strengths: Sensors; 14. Strengths: Electronics & Communication; 15. Opportunities: Quality of Life.
505	8		\|a 16. Threats: Safety, Privacy17. Threats: Machine dependency; 18. Weaknesses: Packaging Testing; 19. Weaknesses: Packaging Testing; 20. Weaknesses: Power Harvesting; 21. Weaknesses: Power Harvesting; 22. Weaknesses -> Strength: Energy Storage; 23. Features; 24. Features; 25. Features; 26. Features; 27. What is critical?; 28. Communication; 29. Communication; 30. Communication; 31. Communication: Fast wake-up; 32. In Summary; 33. Therefore; 34. Low Voltage Low Power Analog; 35. Low Voltage Low Power Analog; 36. The threshold-supply voltage race; 37. Clock Boostrap.
505	8		\|a 38. Use of zero threshold MOS transistors39. Use of boostrap; 40. Input and output Op-Amp Swing; 41. Input and output Op-Amp Swing; 42. Sampled-data Gain-stage; 43. Sampled-data Gain-stage; 44. Sampled-data Gain-stage; 45. Sampled-data Gain-stage; 46. Reference Generator with SD Gain-stage; 47. Reference Generator with SD Gain-stage; 48. 0.4 V Supply Reference Generator; 49. 0.4 V Supply Reference Generator; 50. 0.4 V Supply Reference Generator; 51. 0.4 V Supply Reference Generator; 52. 0.4 V Supply Reference Generator; 53. Sigma-Delta with Inverter based Integrator.
505	8		\|a 54. Sigma-Delta with Inverter based Integrator55. Sigma-Delta with Inverter based Integrator; 56. SAR Architectures useful for ULV and ULP; 57. SAR Architectures useful for ULV and ULP; 58. SAR Architectures useful for ULV and ULP; 59. SAR Architectures useful for ULV and ULP; 60. SAR Architectures useful for ULV and ULP; 61. SAR for 10-b of resolution; 62. SAR for 10-b of resolution; 63. SAR for 10-b of resolution; 64. SAR for 10-b of resolution; 65. How obtaining lower power and voltage?; 66. SAR with supply lower than 0.3 V?; 67. Conclusions.
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500			\|a 21. T & H kT/C Sampling Noise.
520			\|a Internet-of-Things (IoT) can be envisaged as a dynamic network of interconnected physical and virtual entities ("things"), with their own identities and attributes, seamlessly integrated in order to e.g. actively participate in economic or societal processes, interact with services, and react autonomously to events while sensing the environment. By enabling things to connect and becoming recognizable, while providing them with intelligence, informed and context based decisions are expected in a broad range of domains spanning from health and elderly care to energy efficiency, either providing business competitive advantages to companies, either addressing key social concerns. The level of connectivity and analytical intelligence provided by the IoT paradigm is expected to allow creating new services that would not be feasible by other means. This CAS4IoT book targets post-graduate students and design engineers, with the skills to understand and design a broader range of analog, digital and mixed-signal circuits and systems, in the field of IoT, spanning from data converters for sensor interfaces to radios, ensuring a good balance between academia and industry, combined with a judicious selection of worldwide distinguished authors.
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contents	Front Cover; Half Title -- Circuits and Systems for the Internet of Things; Full Title -- Tutorials in Circuits and Systems; Copyright Page; Table of contents; Introduction; Chapter 1 -- Ultra-Low-Voltage and Micro-Power Analog Design for Internet of Things; 1. Introduction; 2. Introduction; 3. Introduction; 4. Introduction; 5. Introduction; 6. Introduction; 7. Introduction; 8. Introduction; 9. Introduction; 10. Introduction; 11. SWOT Analysis; 12. Strengths: Sensors; 13. Strengths: Sensors; 14. Strengths: Electronics & Communication; 15. Opportunities: Quality of Life. 16. Threats: Safety, Privacy17. Threats: Machine dependency; 18. Weaknesses: Packaging Testing; 19. Weaknesses: Packaging Testing; 20. Weaknesses: Power Harvesting; 21. Weaknesses: Power Harvesting; 22. Weaknesses -> Strength: Energy Storage; 23. Features; 24. Features; 25. Features; 26. Features; 27. What is critical?; 28. Communication; 29. Communication; 30. Communication; 31. Communication: Fast wake-up; 32. In Summary; 33. Therefore; 34. Low Voltage Low Power Analog; 35. Low Voltage Low Power Analog; 36. The threshold-supply voltage race; 37. Clock Boostrap. 38. Use of zero threshold MOS transistors39. Use of boostrap; 40. Input and output Op-Amp Swing; 41. Input and output Op-Amp Swing; 42. Sampled-data Gain-stage; 43. Sampled-data Gain-stage; 44. Sampled-data Gain-stage; 45. Sampled-data Gain-stage; 46. Reference Generator with SD Gain-stage; 47. Reference Generator with SD Gain-stage; 48. 0.4 V Supply Reference Generator; 49. 0.4 V Supply Reference Generator; 50. 0.4 V Supply Reference Generator; 51. 0.4 V Supply Reference Generator; 52. 0.4 V Supply Reference Generator; 53. Sigma-Delta with Inverter based Integrator. 54. Sigma-Delta with Inverter based Integrator55. Sigma-Delta with Inverter based Integrator; 56. SAR Architectures useful for ULV and ULP; 57. SAR Architectures useful for ULV and ULP; 58. SAR Architectures useful for ULV and ULP; 59. SAR Architectures useful for ULV and ULP; 60. SAR Architectures useful for ULV and ULP; 61. SAR for 10-b of resolution; 62. SAR for 10-b of resolution; 63. SAR for 10-b of resolution; 64. SAR for 10-b of resolution; 65. How obtaining lower power and voltage?; 66. SAR with supply lower than 0.3 V?; 67. Conclusions. Chapter 2 -- SAR ADCs for Internet of Things: Basics and Innovations1. Outline; 2. ADCs for IoT; 3. ADC Architecture Overview; 4. Outline; 5. Successive Approximation Principle; 6. Basic SAR ADC Architecture; 7. Overall Noise; 8. Overall Linearity, Gain, Offset; 9. Overall Speed; 10. Overall Power Consumption; 11. Overall Chip Area; 12. Outline; 13. T & H Basic Circuit and Operation; 14. T & H CMOS Switch; 15. T & H Boosting Techniques; 16. T & H Imperfections; 17. T & H On-Resistance; 18. T & H Charge Injection; 19. T & H Distortion: INL and Spectrum; 20. T & H Distortion vs Input Frequency.
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spelling	Goes, João. Circuits and Systems for the Internet of Things : CAS4IoT. Bloomfield : River Publishers, 2017. 1 online resource (346 pages) text txt rdacontent computer c rdamedia online resource cr rdacarrier Tutorials in Circuits and Systems Ser. Print version record. Front Cover; Half Title -- Circuits and Systems for the Internet of Things; Full Title -- Tutorials in Circuits and Systems; Copyright Page; Table of contents; Introduction; Chapter 1 -- Ultra-Low-Voltage and Micro-Power Analog Design for Internet of Things; 1. Introduction; 2. Introduction; 3. Introduction; 4. Introduction; 5. Introduction; 6. Introduction; 7. Introduction; 8. Introduction; 9. Introduction; 10. Introduction; 11. SWOT Analysis; 12. Strengths: Sensors; 13. Strengths: Sensors; 14. Strengths: Electronics & Communication; 15. Opportunities: Quality of Life. 16. Threats: Safety, Privacy17. Threats: Machine dependency; 18. Weaknesses: Packaging Testing; 19. Weaknesses: Packaging Testing; 20. Weaknesses: Power Harvesting; 21. Weaknesses: Power Harvesting; 22. Weaknesses -> Strength: Energy Storage; 23. Features; 24. Features; 25. Features; 26. Features; 27. What is critical?; 28. Communication; 29. Communication; 30. Communication; 31. Communication: Fast wake-up; 32. In Summary; 33. Therefore; 34. Low Voltage Low Power Analog; 35. Low Voltage Low Power Analog; 36. The threshold-supply voltage race; 37. Clock Boostrap. 38. Use of zero threshold MOS transistors39. Use of boostrap; 40. Input and output Op-Amp Swing; 41. Input and output Op-Amp Swing; 42. Sampled-data Gain-stage; 43. Sampled-data Gain-stage; 44. Sampled-data Gain-stage; 45. Sampled-data Gain-stage; 46. Reference Generator with SD Gain-stage; 47. Reference Generator with SD Gain-stage; 48. 0.4 V Supply Reference Generator; 49. 0.4 V Supply Reference Generator; 50. 0.4 V Supply Reference Generator; 51. 0.4 V Supply Reference Generator; 52. 0.4 V Supply Reference Generator; 53. Sigma-Delta with Inverter based Integrator. 54. Sigma-Delta with Inverter based Integrator55. Sigma-Delta with Inverter based Integrator; 56. SAR Architectures useful for ULV and ULP; 57. SAR Architectures useful for ULV and ULP; 58. SAR Architectures useful for ULV and ULP; 59. SAR Architectures useful for ULV and ULP; 60. SAR Architectures useful for ULV and ULP; 61. SAR for 10-b of resolution; 62. SAR for 10-b of resolution; 63. SAR for 10-b of resolution; 64. SAR for 10-b of resolution; 65. How obtaining lower power and voltage?; 66. SAR with supply lower than 0.3 V?; 67. Conclusions. Chapter 2 -- SAR ADCs for Internet of Things: Basics and Innovations1. Outline; 2. ADCs for IoT; 3. ADC Architecture Overview; 4. Outline; 5. Successive Approximation Principle; 6. Basic SAR ADC Architecture; 7. Overall Noise; 8. Overall Linearity, Gain, Offset; 9. Overall Speed; 10. Overall Power Consumption; 11. Overall Chip Area; 12. Outline; 13. T & H Basic Circuit and Operation; 14. T & H CMOS Switch; 15. T & H Boosting Techniques; 16. T & H Imperfections; 17. T & H On-Resistance; 18. T & H Charge Injection; 19. T & H Distortion: INL and Spectrum; 20. T & H Distortion vs Input Frequency. 21. T & H kT/C Sampling Noise. Internet-of-Things (IoT) can be envisaged as a dynamic network of interconnected physical and virtual entities ("things"), with their own identities and attributes, seamlessly integrated in order to e.g. actively participate in economic or societal processes, interact with services, and react autonomously to events while sensing the environment. By enabling things to connect and becoming recognizable, while providing them with intelligence, informed and context based decisions are expected in a broad range of domains spanning from health and elderly care to energy efficiency, either providing business competitive advantages to companies, either addressing key social concerns. The level of connectivity and analytical intelligence provided by the IoT paradigm is expected to allow creating new services that would not be feasible by other means. This CAS4IoT book targets post-graduate students and design engineers, with the skills to understand and design a broader range of analog, digital and mixed-signal circuits and systems, in the field of IoT, spanning from data converters for sensor interfaces to radios, ensuring a good balance between academia and industry, combined with a judicious selection of worldwide distinguished authors. Electronic circuits. http://id.loc.gov/authorities/subjects/sh85042279 Internet of things. http://id.loc.gov/authorities/subjects/sh2013000266 Circuits électroniques. Internet des objets. Electronic circuits fast Internet of things fast has work: Circuits and systems for the internet of things (Text) https://id.oclc.org/worldcat/entity/E39PCGrjf3MccY76Bdhjq8cQdP https://id.oclc.org/worldcat/ontology/hasWork Print version: Goes, João. Circuits and Systems for the Internet of Things : CAS4IoT. Bloomfield : River Publishers, ©2017 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1800580 Volltext
spellingShingle	Goes, João Circuits and Systems for the Internet of Things : CAS4IoT. Tutorials in Circuits and Systems Ser. Front Cover; Half Title -- Circuits and Systems for the Internet of Things; Full Title -- Tutorials in Circuits and Systems; Copyright Page; Table of contents; Introduction; Chapter 1 -- Ultra-Low-Voltage and Micro-Power Analog Design for Internet of Things; 1. Introduction; 2. Introduction; 3. Introduction; 4. Introduction; 5. Introduction; 6. Introduction; 7. Introduction; 8. Introduction; 9. Introduction; 10. Introduction; 11. SWOT Analysis; 12. Strengths: Sensors; 13. Strengths: Sensors; 14. Strengths: Electronics & Communication; 15. Opportunities: Quality of Life. 16. Threats: Safety, Privacy17. Threats: Machine dependency; 18. Weaknesses: Packaging Testing; 19. Weaknesses: Packaging Testing; 20. Weaknesses: Power Harvesting; 21. Weaknesses: Power Harvesting; 22. Weaknesses -> Strength: Energy Storage; 23. Features; 24. Features; 25. Features; 26. Features; 27. What is critical?; 28. Communication; 29. Communication; 30. Communication; 31. Communication: Fast wake-up; 32. In Summary; 33. Therefore; 34. Low Voltage Low Power Analog; 35. Low Voltage Low Power Analog; 36. The threshold-supply voltage race; 37. Clock Boostrap. 38. Use of zero threshold MOS transistors39. Use of boostrap; 40. Input and output Op-Amp Swing; 41. Input and output Op-Amp Swing; 42. Sampled-data Gain-stage; 43. Sampled-data Gain-stage; 44. Sampled-data Gain-stage; 45. Sampled-data Gain-stage; 46. Reference Generator with SD Gain-stage; 47. Reference Generator with SD Gain-stage; 48. 0.4 V Supply Reference Generator; 49. 0.4 V Supply Reference Generator; 50. 0.4 V Supply Reference Generator; 51. 0.4 V Supply Reference Generator; 52. 0.4 V Supply Reference Generator; 53. Sigma-Delta with Inverter based Integrator. 54. Sigma-Delta with Inverter based Integrator55. Sigma-Delta with Inverter based Integrator; 56. SAR Architectures useful for ULV and ULP; 57. SAR Architectures useful for ULV and ULP; 58. SAR Architectures useful for ULV and ULP; 59. SAR Architectures useful for ULV and ULP; 60. SAR Architectures useful for ULV and ULP; 61. SAR for 10-b of resolution; 62. SAR for 10-b of resolution; 63. SAR for 10-b of resolution; 64. SAR for 10-b of resolution; 65. How obtaining lower power and voltage?; 66. SAR with supply lower than 0.3 V?; 67. Conclusions. Chapter 2 -- SAR ADCs for Internet of Things: Basics and Innovations1. Outline; 2. ADCs for IoT; 3. ADC Architecture Overview; 4. Outline; 5. Successive Approximation Principle; 6. Basic SAR ADC Architecture; 7. Overall Noise; 8. Overall Linearity, Gain, Offset; 9. Overall Speed; 10. Overall Power Consumption; 11. Overall Chip Area; 12. Outline; 13. T & H Basic Circuit and Operation; 14. T & H CMOS Switch; 15. T & H Boosting Techniques; 16. T & H Imperfections; 17. T & H On-Resistance; 18. T & H Charge Injection; 19. T & H Distortion: INL and Spectrum; 20. T & H Distortion vs Input Frequency. Electronic circuits. http://id.loc.gov/authorities/subjects/sh85042279 Internet of things. http://id.loc.gov/authorities/subjects/sh2013000266 Circuits électroniques. Internet des objets. Electronic circuits fast Internet of things fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85042279 http://id.loc.gov/authorities/subjects/sh2013000266
title	Circuits and Systems for the Internet of Things : CAS4IoT.
title_auth	Circuits and Systems for the Internet of Things : CAS4IoT.
title_exact_search	Circuits and Systems for the Internet of Things : CAS4IoT.
title_full	Circuits and Systems for the Internet of Things : CAS4IoT.
title_fullStr	Circuits and Systems for the Internet of Things : CAS4IoT.
title_full_unstemmed	Circuits and Systems for the Internet of Things : CAS4IoT.
title_short	Circuits and Systems for the Internet of Things :
title_sort	circuits and systems for the internet of things cas4iot
title_sub	CAS4IoT.
topic	Electronic circuits. http://id.loc.gov/authorities/subjects/sh85042279 Internet of things. http://id.loc.gov/authorities/subjects/sh2013000266 Circuits électroniques. Internet des objets. Electronic circuits fast Internet of things fast
topic_facet	Electronic circuits. Internet of things. Circuits électroniques. Internet des objets. Electronic circuits Internet of things
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1800580
work_keys_str_mv	AT goesjoao circuitsandsystemsfortheinternetofthingscas4iot

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