workshops
Our Workshops
Analog IC Design for IoT and Wearable Devices
SERDES (Serializer/Deserializer) Design
ADC (Analog-to-Digital Converter) Design
PLL (Phase-Locked Loop) Design
PMIC Design (Power Management IC Design)
PMIC Design (Power Management IC Design)
Objective
Provide an in-depth understanding of PMIC components and their design, simulation, and practical application in modern electronics.
Topics Covered
LDO (Low-Dropout Regulators)
- Basics of LDOs and their role in power management
- Dropout voltage, load regulation, and transient response
- Design challenges: noise, stability, and efficiency
- Simulation and analysis of an LDO circuit
LDO (Low-Dropout Regulators)
- Basics of LDOs and their role in power management
- Dropout voltage, load regulation, and transient response
- Design challenges: noise, stability, and efficiency
- Simulation and analysis of an LDO circuit
LDO (Low-Dropout Regulators)
- Basics of LDOs and their role in power management
- Dropout voltage, load regulation, and transient response
- Design challenges: noise, stability, and efficiency
- Simulation and analysis of an LDO circuit
LDO (Low-Dropout Regulators)
- Basics of LDOs and their role in power management
- Dropout voltage, load regulation, and transient response
- Design challenges: noise, stability, and efficiency
- Simulation and analysis of an LDO circuit
LDO (Low-Dropout Regulators)
- Basics of LDOs and their role in power management
- Dropout voltage, load regulation, and transient response
- Design challenges: noise, stability, and efficiency
- Simulation and analysis of an LDO circuit
LDO (Low-Dropout Regulators)
- Basics of LDOs and their role in power management
- Dropout voltage, load regulation, and transient response
- Design challenges: noise, stability, and efficiency
- Simulation and analysis of an LDO circuit
Key Takeaways
Participants will gain a strong foundation in PMIC design and learn to simulate LDOs, BGRs, V2Is, and DC-DC converters for real-world applications.
