Mammano Robert A 2017 Fundamentals Of Power Supply Design Texas Instruments
: Unlike the flyback, it transfers energy instantly through transformer action while the switch is ON, requiring a dedicated output filter inductor.
TI Power Stage Designer (for simulating topologies).
Mammano later co-founded Unitrode, a legendary company in power electronics, and after its acquisition, became a key fellow at Texas Instruments (TI). His 2017 book represents the culmination of over four decades of hands-on innovation and teaching. It is not an academic treatise full of dense, unproven theory; it is a masterclass from the man who literally wrote the first chapters of modern switching power supply design.
A dedicated chapter on the essential, yet complex, design of transformers and inductors. : Unlike the flyback, it transfers energy instantly
The text is designed to be accessible for students while remaining a rigorous reference for seasoned designers, providing essential equations and theoretical grounding alongside historical context from the industry. Amazon.com or details on a particular covered in this book? What are Flyback Transformers ?
Mammano wrote this book for everyone, from students and new graduates to seasoned professionals seeking a refresher. It aims to be not just an introductory text but a permanent, "handy reference" on the working engineer's desk.
A central pillar of Mammano’s text is navigating design compromises when selecting a converter architecture. The text breaks down topologies based on electrical isolation, output power thresholds, and voltage transformation ratios. Typical Power Range Key Advantages Major Limitations Non-Isolated High efficiency, low output ripple, simple loop design. His 2017 book represents the culmination of over
, the world’s first fully integrated Pulse Width Modulation (PWM) controller IC. This invention single-handedly enabled the transition from bulky linear regulators to efficient, modern switching power supplies. The Unitrode/TI Legacy Throughout his career at Silicon General , and eventually Texas Instruments
For those topics, TI’s application notes (many written by Mammano himself) and online training videos are excellent companions.
RDS(on)cap R sub cap D cap S open paren o n close paren end-sub Conduction vs. Switching Losses The text is designed to be accessible for
The book extensively covers various topologies (buck, boost, flyback, etc.) and the control methods used for each.
If you have specific power design challenges, such as selecting the right or needing help with loop compensation , let me know, and I can offer more tailored advice. Fundamentals of Power Supply Design - Amazon.com
Slow response to input voltage changes. The LC output filter introduces a complex double-pole , requiring a complicated Type-III compensation network to guarantee loop stability. Current-Mode Control (CMC)
The design of power supplies is a critical aspect of modern electronics, as they play a crucial role in ensuring the reliable operation of a wide range of devices, from smartphones and laptops to servers and data centers. In 2017, Texas Instruments published a comprehensive guide to power supply design, authored by Robert A. Mammano, a renowned expert in the field. This article provides an in-depth review of the fundamentals of power supply design, as outlined in Mammano's seminal work.
Robert A. Mammano’s Fundamentals of Power Supply Design (Texas Instruments, 2017) is a master class from a living legend. It does not promise to make the reader an overnight expert, but it provides a systematic, reliable pathway to competence. For the hardware engineer tasked with designing a 12V-to-3.3V buck converter for an IoT device, or for the recent graduate struggling to stabilize a flyback supply, this book offers clear, actionable guidance. While technology marches on, the fundamentals—magnetism, switching loss, loop stability, and thermal management—remain eternal. Mammano captures these fundamentals with an authority and clarity that will keep this volume relevant for decades to come. It is highly recommended for every power engineer’s bookshelf and a fitting legacy for one of the field’s great innovators.