Verfügbarkeit: Selected Topics in Power, RF, and Mixed-Signal ICs.

Selected Topics in Power, RF, and Mixed-Signal ICs.:

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Bibliographische Detailangaben
1. Verfasser:	Lu, Yan
Weitere Verfasser:	Lam, Chi-Seng
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Bloomfield : River Publishers, 2017.
Schriftenreihe:	Tutorials in Circuits and Systems Ser.
Schlagworte:	Electronic circuit design-Software.
Online-Zugang:	Volltext
Beschreibung:	64. RTCT Oscillator Operation Principle.
Beschreibung:	1 online resource (356 pages)
ISBN:	9788793609396 8793609396

Internformat

MARC


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505	0		\|a Front Cover; Half Title Page -- Selected Topicsin Power, RF, and Mixed-Signal ICs; Full Title Page -- Tutorials in Circuits and Systems; Copyright Page; Table of contents; Introduction; Chapter 1 -- Very-High-Frequency and Fast-Transient DC-DC Switching Converters, by Wing-Hung Ki and Lin Cheng; 1. Outline; 2. Why VHF Switching Converters; 3. Voltage-Mode Buck Converter; 4. Conduction Loss of Buck Converter; 5. Switching Loss and Efficiency; 6. Switching Converter Efficiency: Example; 7. Switching Converter Speed; 8. Frequency Domain: Loop-Gain Functions.
505	8		\|a 9. T(s) of Voltage-Mode CCM Converters10. Voltage-Mode Converter: Loop Gain Function; 11. Voltage-Mode Converter: Bandwidth Limitation; 12. Voltage-Mode Buck: T(s) with RÎ;́ 13. Voltage-Mode Buck: Dominant-Pole Compensation; 14. Current-Mode Buck with Compensation Ramp; 15. Current-Mode Buck: T(s) (1); 16. Current-Mode Buck: T(s) (2); 17. Current-Mode Buck: Bandwidth Limitation; 18. Current-Mode Buck: Dominate-Pole Compensation (1); 19. Current-Mode Buck: Dominate-Pole Compensation (2); 20. Current-Mode Buck: Pole-Zero Cancellation (1).
505	8		\|a 21. Current-Mode Buck: Pole-Zero Cancellation (2)22. VM Buck UGF Extension: Highpass Notch (1); 23. VM Buck UGF Extension: Highpass Notch (2); 24. VM Buck UGF Extension: Variable Ramp (1); 25. VM Buck UGF Extension: Variable Ramp (2); 26. VM Buck UGF Extension: Variable Ramp (3); 27. Speed Considerations in Time Domain; 28. Load Change Under Hysteretic Control; 29. Slew Rate of Inductor Current; 30. Fast Line Transient: One-Cycle Control; 31. Integrated Buck Converter with One-Cycle Control; 32. Reference Tracking: End Point Prediction (1).
505	8		\|a 33. Reference Tracking: End Point Prediction (2)34. Reference Tracking: Max Charging Current Control (1); 35. Reference Tracking: Max Charging Current Control (2); 36. Fast Load Transient: V2 Control; 37. Basic Principle of V2 Control; 38. Implementation of V2 Control; 39. V2 Control with Derivative of Output Voltage; 40. V2 Control using dVo/dt: Control Scheme; 41. V2 Control with RC Filter (1); 42. V2 Control with RC Filter (2); 43. V2 Control with RC Filter (3); 44. Quasi-V2 Control; 45. Hysteretic Quasi-V2 Control; 46. Hysteretic Control does not need Compensation Ramp.
505	8		\|a 47. Adaptive Delay Control48. Hysteretic Quasi-V2 Converter with Digital Adaptive Delay; 49. Digital Adaptive Delay Control; 50. Load Transient Response (D=0.3); 51. Load Transient Response (D=0.7); 52. Switching Frequency Stability; 53. Example 1: iLightâ#x80;#x99;s LEDoS; 54. Conceptual On-Chip LED Module; 55. L â#x80;#x93;fs Consideration; 56. L â#x80;#x93;fs Consideration: Example; 57. On-Chip Passive Components; 58. Interim Implementation; 59. PMU Layout; 60. LEDoS PMU; 61. Example 2: 30MHz Type III Buck Converter; 62. Controller Considerations; 63. RTCT Oscillator.
500			\|a 64. RTCT Oscillator Operation Principle.
650		0	\|a Electronic circuit design-Software.
700	1		\|a Lam, Chi-Seng.
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776	0	8	\|i Print version: \|a Lu, Yan. \|t Selected Topics in Power, RF, and Mixed-Signal ICs. \|d Bloomfield : River Publishers, ©2017
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Datensatz im Suchindex

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author	Lu, Yan
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contents	Front Cover; Half Title Page -- Selected Topicsin Power, RF, and Mixed-Signal ICs; Full Title Page -- Tutorials in Circuits and Systems; Copyright Page; Table of contents; Introduction; Chapter 1 -- Very-High-Frequency and Fast-Transient DC-DC Switching Converters, by Wing-Hung Ki and Lin Cheng; 1. Outline; 2. Why VHF Switching Converters; 3. Voltage-Mode Buck Converter; 4. Conduction Loss of Buck Converter; 5. Switching Loss and Efficiency; 6. Switching Converter Efficiency: Example; 7. Switching Converter Speed; 8. Frequency Domain: Loop-Gain Functions. 9. T(s) of Voltage-Mode CCM Converters10. Voltage-Mode Converter: Loop Gain Function; 11. Voltage-Mode Converter: Bandwidth Limitation; 12. Voltage-Mode Buck: T(s) with RÎ;́ 13. Voltage-Mode Buck: Dominant-Pole Compensation; 14. Current-Mode Buck with Compensation Ramp; 15. Current-Mode Buck: T(s) (1); 16. Current-Mode Buck: T(s) (2); 17. Current-Mode Buck: Bandwidth Limitation; 18. Current-Mode Buck: Dominate-Pole Compensation (1); 19. Current-Mode Buck: Dominate-Pole Compensation (2); 20. Current-Mode Buck: Pole-Zero Cancellation (1). 21. Current-Mode Buck: Pole-Zero Cancellation (2)22. VM Buck UGF Extension: Highpass Notch (1); 23. VM Buck UGF Extension: Highpass Notch (2); 24. VM Buck UGF Extension: Variable Ramp (1); 25. VM Buck UGF Extension: Variable Ramp (2); 26. VM Buck UGF Extension: Variable Ramp (3); 27. Speed Considerations in Time Domain; 28. Load Change Under Hysteretic Control; 29. Slew Rate of Inductor Current; 30. Fast Line Transient: One-Cycle Control; 31. Integrated Buck Converter with One-Cycle Control; 32. Reference Tracking: End Point Prediction (1). 33. Reference Tracking: End Point Prediction (2)34. Reference Tracking: Max Charging Current Control (1); 35. Reference Tracking: Max Charging Current Control (2); 36. Fast Load Transient: V2 Control; 37. Basic Principle of V2 Control; 38. Implementation of V2 Control; 39. V2 Control with Derivative of Output Voltage; 40. V2 Control using dVo/dt: Control Scheme; 41. V2 Control with RC Filter (1); 42. V2 Control with RC Filter (2); 43. V2 Control with RC Filter (3); 44. Quasi-V2 Control; 45. Hysteretic Quasi-V2 Control; 46. Hysteretic Control does not need Compensation Ramp. 47. Adaptive Delay Control48. Hysteretic Quasi-V2 Converter with Digital Adaptive Delay; 49. Digital Adaptive Delay Control; 50. Load Transient Response (D=0.3); 51. Load Transient Response (D=0.7); 52. Switching Frequency Stability; 53. Example 1: iLightâ#x80;#x99;s LEDoS; 54. Conceptual On-Chip LED Module; 55. L â#x80;#x93;fs Consideration; 56. L â#x80;#x93;fs Consideration: Example; 57. On-Chip Passive Components; 58. Interim Implementation; 59. PMU Layout; 60. LEDoS PMU; 61. Example 2: 30MHz Type III Buck Converter; 62. Controller Considerations; 63. RTCT Oscillator.
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series2	Tutorials in Circuits and Systems Ser.
spelling	Lu, Yan. Selected Topics in Power, RF, and Mixed-Signal ICs. Bloomfield : River Publishers, 2017. 1 online resource (356 pages) text txt rdacontent computer c rdamedia online resource cr rdacarrier Tutorials in Circuits and Systems Ser. Print version record. Front Cover; Half Title Page -- Selected Topicsin Power, RF, and Mixed-Signal ICs; Full Title Page -- Tutorials in Circuits and Systems; Copyright Page; Table of contents; Introduction; Chapter 1 -- Very-High-Frequency and Fast-Transient DC-DC Switching Converters, by Wing-Hung Ki and Lin Cheng; 1. Outline; 2. Why VHF Switching Converters; 3. Voltage-Mode Buck Converter; 4. Conduction Loss of Buck Converter; 5. Switching Loss and Efficiency; 6. Switching Converter Efficiency: Example; 7. Switching Converter Speed; 8. Frequency Domain: Loop-Gain Functions. 9. T(s) of Voltage-Mode CCM Converters10. Voltage-Mode Converter: Loop Gain Function; 11. Voltage-Mode Converter: Bandwidth Limitation; 12. Voltage-Mode Buck: T(s) with RÎ;́ 13. Voltage-Mode Buck: Dominant-Pole Compensation; 14. Current-Mode Buck with Compensation Ramp; 15. Current-Mode Buck: T(s) (1); 16. Current-Mode Buck: T(s) (2); 17. Current-Mode Buck: Bandwidth Limitation; 18. Current-Mode Buck: Dominate-Pole Compensation (1); 19. Current-Mode Buck: Dominate-Pole Compensation (2); 20. Current-Mode Buck: Pole-Zero Cancellation (1). 21. Current-Mode Buck: Pole-Zero Cancellation (2)22. VM Buck UGF Extension: Highpass Notch (1); 23. VM Buck UGF Extension: Highpass Notch (2); 24. VM Buck UGF Extension: Variable Ramp (1); 25. VM Buck UGF Extension: Variable Ramp (2); 26. VM Buck UGF Extension: Variable Ramp (3); 27. Speed Considerations in Time Domain; 28. Load Change Under Hysteretic Control; 29. Slew Rate of Inductor Current; 30. Fast Line Transient: One-Cycle Control; 31. Integrated Buck Converter with One-Cycle Control; 32. Reference Tracking: End Point Prediction (1). 33. Reference Tracking: End Point Prediction (2)34. Reference Tracking: Max Charging Current Control (1); 35. Reference Tracking: Max Charging Current Control (2); 36. Fast Load Transient: V2 Control; 37. Basic Principle of V2 Control; 38. Implementation of V2 Control; 39. V2 Control with Derivative of Output Voltage; 40. V2 Control using dVo/dt: Control Scheme; 41. V2 Control with RC Filter (1); 42. V2 Control with RC Filter (2); 43. V2 Control with RC Filter (3); 44. Quasi-V2 Control; 45. Hysteretic Quasi-V2 Control; 46. Hysteretic Control does not need Compensation Ramp. 47. Adaptive Delay Control48. Hysteretic Quasi-V2 Converter with Digital Adaptive Delay; 49. Digital Adaptive Delay Control; 50. Load Transient Response (D=0.3); 51. Load Transient Response (D=0.7); 52. Switching Frequency Stability; 53. Example 1: iLightâ#x80;#x99;s LEDoS; 54. Conceptual On-Chip LED Module; 55. L â#x80;#x93;fs Consideration; 56. L â#x80;#x93;fs Consideration: Example; 57. On-Chip Passive Components; 58. Interim Implementation; 59. PMU Layout; 60. LEDoS PMU; 61. Example 2: 30MHz Type III Buck Converter; 62. Controller Considerations; 63. RTCT Oscillator. 64. RTCT Oscillator Operation Principle. Electronic circuit design-Software. Lam, Chi-Seng. has work: Selected Topics in Power, RF, and Mixed-Signal ICs (Text) https://id.oclc.org/worldcat/entity/E39PD3jTdTBQpj8vx6KYdDKDMd https://id.oclc.org/worldcat/ontology/hasWork Print version: Lu, Yan. Selected Topics in Power, RF, and Mixed-Signal ICs. Bloomfield : River Publishers, ©2017 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1800593 Volltext
spellingShingle	Lu, Yan Selected Topics in Power, RF, and Mixed-Signal ICs. Tutorials in Circuits and Systems Ser. Front Cover; Half Title Page -- Selected Topicsin Power, RF, and Mixed-Signal ICs; Full Title Page -- Tutorials in Circuits and Systems; Copyright Page; Table of contents; Introduction; Chapter 1 -- Very-High-Frequency and Fast-Transient DC-DC Switching Converters, by Wing-Hung Ki and Lin Cheng; 1. Outline; 2. Why VHF Switching Converters; 3. Voltage-Mode Buck Converter; 4. Conduction Loss of Buck Converter; 5. Switching Loss and Efficiency; 6. Switching Converter Efficiency: Example; 7. Switching Converter Speed; 8. Frequency Domain: Loop-Gain Functions. 9. T(s) of Voltage-Mode CCM Converters10. Voltage-Mode Converter: Loop Gain Function; 11. Voltage-Mode Converter: Bandwidth Limitation; 12. Voltage-Mode Buck: T(s) with RÎ;́ 13. Voltage-Mode Buck: Dominant-Pole Compensation; 14. Current-Mode Buck with Compensation Ramp; 15. Current-Mode Buck: T(s) (1); 16. Current-Mode Buck: T(s) (2); 17. Current-Mode Buck: Bandwidth Limitation; 18. Current-Mode Buck: Dominate-Pole Compensation (1); 19. Current-Mode Buck: Dominate-Pole Compensation (2); 20. Current-Mode Buck: Pole-Zero Cancellation (1). 21. Current-Mode Buck: Pole-Zero Cancellation (2)22. VM Buck UGF Extension: Highpass Notch (1); 23. VM Buck UGF Extension: Highpass Notch (2); 24. VM Buck UGF Extension: Variable Ramp (1); 25. VM Buck UGF Extension: Variable Ramp (2); 26. VM Buck UGF Extension: Variable Ramp (3); 27. Speed Considerations in Time Domain; 28. Load Change Under Hysteretic Control; 29. Slew Rate of Inductor Current; 30. Fast Line Transient: One-Cycle Control; 31. Integrated Buck Converter with One-Cycle Control; 32. Reference Tracking: End Point Prediction (1). 33. Reference Tracking: End Point Prediction (2)34. Reference Tracking: Max Charging Current Control (1); 35. Reference Tracking: Max Charging Current Control (2); 36. Fast Load Transient: V2 Control; 37. Basic Principle of V2 Control; 38. Implementation of V2 Control; 39. V2 Control with Derivative of Output Voltage; 40. V2 Control using dVo/dt: Control Scheme; 41. V2 Control with RC Filter (1); 42. V2 Control with RC Filter (2); 43. V2 Control with RC Filter (3); 44. Quasi-V2 Control; 45. Hysteretic Quasi-V2 Control; 46. Hysteretic Control does not need Compensation Ramp. 47. Adaptive Delay Control48. Hysteretic Quasi-V2 Converter with Digital Adaptive Delay; 49. Digital Adaptive Delay Control; 50. Load Transient Response (D=0.3); 51. Load Transient Response (D=0.7); 52. Switching Frequency Stability; 53. Example 1: iLightâ#x80;#x99;s LEDoS; 54. Conceptual On-Chip LED Module; 55. L â#x80;#x93;fs Consideration; 56. L â#x80;#x93;fs Consideration: Example; 57. On-Chip Passive Components; 58. Interim Implementation; 59. PMU Layout; 60. LEDoS PMU; 61. Example 2: 30MHz Type III Buck Converter; 62. Controller Considerations; 63. RTCT Oscillator. Electronic circuit design-Software.
title	Selected Topics in Power, RF, and Mixed-Signal ICs.
title_auth	Selected Topics in Power, RF, and Mixed-Signal ICs.
title_exact_search	Selected Topics in Power, RF, and Mixed-Signal ICs.
title_full	Selected Topics in Power, RF, and Mixed-Signal ICs.
title_fullStr	Selected Topics in Power, RF, and Mixed-Signal ICs.
title_full_unstemmed	Selected Topics in Power, RF, and Mixed-Signal ICs.
title_short	Selected Topics in Power, RF, and Mixed-Signal ICs.
title_sort	selected topics in power rf and mixed signal ics
topic	Electronic circuit design-Software.
topic_facet	Electronic circuit design-Software.
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1800593
work_keys_str_mv	AT luyan selectedtopicsinpowerrfandmixedsignalics AT lamchiseng selectedtopicsinpowerrfandmixedsignalics

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