Torrent details for "Mallik A. Switching Modulator Optimization in Isolated Power Con…" Log in to bookmark
Controls:
×
Report Torrent
Please select a reason for reporting this torrent:
Your report will be reviewed by our moderation team.
×
Report Information
Loading report information...
This torrent has been reported 0 times.
Report Summary:
| User | Reason | Date |
|---|
Failed to load report information.
×
Success
Your report has been submitted successfully.
Checked by:
Category:
Language:
None
Total Size:
17.0 MB
Info Hash:
604F07C71ABA22A80A02083516EB66FBBD7160F5
Added By:
Added:
April 21, 2026, 11:57 a.m.
Stats:
|
(Last updated: April 21, 2026, 11:57 a.m.)
| File | Size |
|---|---|
| ['Mallik A. Switching Modulator Optimization in Isolated Power Converters 2025.pdf'] | 0 bytes |
Name
DL
Uploader
Size
S/L
Added
-
17.0 MB
[24
/
16]
2026-04-21
| Uploaded by andryold1 | Size 17.0 MB | Health [ 24 /16 ] | Added 2026-04-21 |
NOTE
SOURCE: Mallik A. Switching Modulator Optimization in Isolated Power Converters 2025
-----------------------------------------------------------------------------------
COVER
-----------------------------------------------------------------------------------
MEDIAINFO
Textbook in PDF format This book introduces engineering students and practitioners to the theoretical and applied aspects of the optimization of switching modulation techniques in isolated power electronic converters. Recent modifications to the architecture of converter systems require understanding of switching strategies for different types of power converters and how they affect the systems’ performance. This book presents the pulse width modulation (PWM), pulse frequency modulation (PFM), and phase modulation (PM) methodologies in power electronic converters. It then discusses a range of switching techniques for optimal design of various power converters that find applications in transportation electrification, grid-renewables-storage integration, datacenter energy routers, solid state transformers, aerospace, and space. The text emphasizes the synthesis and implementation methodologies during the converter’s development, to help maximize the system’s performance. The rapid advancement in technology and the growing demand for efficient and reliable power management have driven the development and deployment of advanced isolated DC-DC converters. These converters play a crucial role in various emerging applications by providing effective solutions for power conversion and management. Among the different types of isolated DC-DC converters, the Dual Active Bridge (DAB), LLC, CLLC resonant converters, and Phase-Shifted Full-Bridge (PSFB) converters stand out for their unique advantages and wide range of applications. DAB converters due to their network symmetry on both sides of the isolation transformer, are known for their bidirectional power flow capabilities, which make them particularly suitable for energy storage systems and electric vehicle (EV) chargers. Their ability to handle high power densities and facilitate efficient power transfer between different voltage domains positions them as a valuable asset in renewable energy integration and grid energy storage solutions. Aside from dc-dc conversion, DABs are also utilized in isolated dc-ac or ac-dc grid-connected power conversion, such as PV to grid, battery-to-grid inverters, grid-connected front-end power factor correction (PFC) rectifiers. Isolated Power Electronic Converters Generalized Modeling Methodologies for Modular Multiport Power Converters Switching Modulator Optimization in DAB DC-DC and DC-AC Converters Switching Modulation Optimization in 3-Port TAB DC-DC and DC-AC Bidirectional Converters Generalized Approach to Loss Formulation and Optimization in Multi-active Bridge Converters Switching Modulator Optimization in Resonant DC-DC Converters Refined Modeling of Two-Port Resonant and Non-resonant MABs Including Transformer Parasitic Non-idealities and Deadtime Effects
×