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课程目录
00 Introduction - Power Management Integrated Circuits
01 Introduction to PMIC - Part 1
02 Introduction to PMIC - Part 2
03 Linear versus Switching Regulators
04 Performance Parameters of Regulators
05 Local vs Remote Feedback Point of Load Regulators
06 Kelvin Sensing Droop Compensation
07 Current Regulator Applications Introduction to Bandgap Voltage References P
08 Adding PTAT and CTAT Voltages
09 Bandgap Voltage Reference Circuit Brokaw Bandgap Circuit
10 Sub-1-volt Bandgap Circuit
11 Generating Multiple Reference Voltages; Applications of Linear Regulators
12 Designing a Linear Regulator Negative and Positive Feedback
13 First Order Systems Phase Margin
14 Closed-Loop Response of Second Order Systems
15 Relationship between Damping Factor and Phase Margin Frequency Compensation
16 Finding the Poles of the Error Amplifier Part 1
17 Finding the Poles of the Error Amplifier Part 2
18 Dominant Pole Frequency Compensation
19 Dominant Pole Compensation at No-Load
20 Dominant Pole Compensation using Miller Effect RHP zero due to Miller Capaci
21 Intuitive Method of Finding the Poles Pole Splitting after Miller Compensati
22 Effect of RHP zero on Stability Mitigating the Effect of RHP zero LDO with
23 Output Impedance of PMOS LDO
24 Line Regulation and PSRR of PMOS LDO
25 PSRR of PMOS versus PSRR of NMOS LDO
26 Sources of Error in Linear and Switching Regulators
27 Offset in Amplifiers; Real Life Analogy; Static Offset Cancellation
28 Dynamic Offset Cancellation Techniques Chopping Auto zeroing
29 Digital LDO Technique to Avoid Limit Cycle Oscillations in Digital LDO
30 Hybrid LDO Short-Circuit Protection
31 Hiccup Mode and Foldback Current Limit
32 Introduction to Switching Regulators
33 volt-second Balance Non-Idealities in the Power Stage of a Buck Converter
34 Transformer Model of Buck Conduction Efficiency Efficiency of an LDO vs. Sw
35 Synchronous versus Non-Synchronous Switching Regulators PWM Control Techniqu
36 Losses in Switching Regulators (Conduction Loss Gate-Driver Switching Loss)
37 Dead-Time Switching Loss in DC-DC Converters
38 Hard Switching Loss in DC - DC Converters
39 Magnetic Loss in DC - DC Converters Relative Significance of Losses as a Fun
40 Output Voltage Ripple of a Buck Converter
41 Choosing the Inductor and Capacitor of a Buck Converter
42 CCM Vs DCM Operation in DC - DC Converters
43 CCM - DCM Boundary Condition Voltage Conversion Ratio in DCM
44 Concept of Pulse Frequency Modulation PFM
45 Classification of Pulse Width Modulators
46 DC - DC Converter Control Techniques Stability Analysis of Voltage Mode Buck
47 Stability Analysis of Voltage Mode Buck Converter Part 2
48 Stability Analysis of Voltage Mode Buck Converter Part 3
49 Dominant Pole Compensation (Type-I with Gm-C Architecture)
50 Dominant Pole Compensation (Type-I with Op Amp-RC Architecture)
51 Introduction to Type-II Compensation
52 Type-II Compensator using Gm-C Architecture - Part 1
53 Type-II Compensator using Gm-C Architecture - Part 2
54 Type-II Compensator using Gm-C Architecture - Part 3
55 Type-II Compensator using Op Amp-RC Architecture
56 Introduction to Type-III Compensator
57 Type-III Compensator using Op Amp-RC Architecture
58 Simulation of DC-DC Converter with Type-III Compensator
59 Type-III Compensator using Gm-C Architecture
60 Feed-Forward Line Compensation Loop Gain Compensation by Modulating Gm
61 Designing a Buck Converter Power Loss Budgeting
62 Sizing Power MOSFETs
63 Estimating Switching Losses and Choosing the Switching Frequency
64 Choosing Inductance and Capacitance Values
65 Choosing C Depending on Factors that Limit the Load Transient Response
66 Inductor and Capacitor Characteristics Reducing the Effect of Capacitor ESL
67 Gate Buffer and Non-Overlap Clock Generator in Gate-Driver Circuit
68 Pulse-Width Modulator- Trailing Edge Leading Edge and Dual Edge; Triangle Wa
69 Average Ramp Voltage of Single-Edge PW ModulatorDesign Considerations of EA
70 Delays Associated with PW Modulator PFM and PSM Operation DCM Operation usi
71 Designing a Zero-Cross Comparator Inverter-Based Auto-Zeroed Comparator Sim
72 Current Mode Control- Peak Valley Emulated; VMC versus CMC; Sub-Harmonic Os
73 Ramp-Adaptive Slope Compensation to Avoid Current Loop Instability
74 Non-Linear Control of DC-DC Converters Phase-Shift between i_L and v_C
75 Stabilising a Voltage-Mode Hysteretic Converter using R_esr
76 Hysteretic Converter - Simulation Demo
77 Current-Mode Hysteretic Converter Using R-C as Ripple Generator
78 Controlling the Switching Frequency of a Hysteretic Converter Delay in the H
79 Frequency and Voltage Regulation Loops in a Fixed-Frequency Hysteretic Conver
80 Resetting the Capacitor Voltage in a Hysteretic Converter Constant ON-Time C
81 Introduction to Boost Converter RHP Zero in a Boost Converter
82 Introduction to Buck-Boost Converter
83 Tri-Mode Buck-Boost Converter (Buck Buck-Boost and Boost)
84 Boundary Conditions for Mode Transition in a Tri-Mode Buck-Boost Converter
85 Generating Buck and Boost Duty Cycles in a Tri-Mode Buck-Boost Converter
86 Introduction to Switched-Capacitor DC-DC ConvertersSwitched-Capacitor DC-DC
87 Applications of Switched-Capacitor DC-DC Converters in Open-Loop
88 H-Bridge Switched-Capacitor DC-DC ConverterSC DC-DC converter with Multiple
89 Current Sensing Techniques in DC-DC Converters
90 Analog Layout Techniques - Part 1
91 Analog Layout Techniques - Part 2
92 Digital Control of DC-DC Converters ADC Architectures
93 Digital Pulse-Width Modulator Architectures Adaptive Compensation
94 Limitations of Analog and Digital Controllers Time-Based Controller for Buck
95 Time-Based Controller for Buck Converter and for LDO Issues with Time-Based
96 Multi-Phase DC-DC Converters
97 Dynamic Voltage and Frequency Scaling Single Inductor Multiple Output (SIMO)
98 LCDAMOLED Display Drivers - Part 1
99 LCDAMOLED Display Drivers - Part 2
100 LCDAMOLED Display Drivers - Part 3
101 LED Drivers for Camera Flash
102 Li-Ion Battery and its Charging Phases
103 Battery Charger IC
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