1.
Introduction
1.1 Design Method (Motivation)
1.2 Basics (Mathematics, Control)
1.3 Electrical components
1.4 Linear and PWM modes
1.5 Linear Power
2. BUCK Converter
2.1 State averaging equation and transfer function
2.2 Controller Design
3. BOOST Converter
3.1 State averaging equation and transfer function
3.2 Controller Design
4.
Bi-Directional CONVERTER
4.1 Structure and Operation
4.2 Controller Design
5.
3-Level Boost Converter
5.1 Structure and Operation
5.2 State averaging equation and transfer function
5.3 Controller Design
6. SOLAR SYSTEM
6.1 Understanding Solar Cells
6.2 Solar System Characteristics
7.
Solar Boost Converter
7.1 State averaging equation and transfer function
7.2 Controller Design
8.
Solar Buck Converter
8.1 State averaging equation and transfer function
8.2 Controller Design
9. THREE-LEVEL SOLAR BOOST CONVERTER
9.1 Controller Design
10. DC MOTOR
10.1 Modeling Parameters
10.2 Uni-polar driving
10.3 Bi-polar Driving
11.
single-phase inverter
11.1 Circuit representation
11.2 State averaging equation and transfer function
11.3 Controller Design
12.
3-phase inverter
12.1 State averaging equation and instantaneous control
12.2 DQ Transformation
12.3 Controller Design
13.
Solar PCS
13.1 State averaging equation and transfer function
13.2 Controller Design
14.
Single-phase DQ inverter
14.1 APF(All Pass filter
14.2 Controller Design
15. PLL design
15.1 Single-phase PLL
15.2 3-phase PLL
16.
Two-Stage System
16.1 Solar Boost PCS
16.2 ESS two stage
16.3 Solar ESS
17.
Frequency analysis
17.1 Frequency Analysis Methods
17.2 Buck Frequency Analysis
17.3 Boost Frequency Analysis
18.
Multilevel inverter (NPC)
18.1 NPC Behavior
18.2 Diode Clamped NPC
18.3 T-type NPC
18.4 Solar NPC
19.
AC (PMSM) motor
19.1 Modeling Parameter
19.2 State Averaging Equation and Controller Design
19.3 MTPA
19.4 Field Weakening Control