Mammano Robert A 2017 Fundamentals Of Power Supply Design Texas Instruments !new! Guide
To truly appreciate the book's value, it helps to understand the ingenuity of its author. Mammano didn't invent PWM control in a vacuum. In an interview, he described the development of the SG1524 as something that was "inevitable". Switching power supplies had been built with discrete components since the 1950s, and some individual analog and digital functions were becoming available as separate ICs.
Furthermore, the book addresses the "silent killers" of power design: EMI and thermal management. Texas Instruments' influence is visible here, as the text incorporates modern testing standards and board layout techniques that are essential for passing regulatory certifications. It highlights how parasitic inductance and capacitance in a PCB layout can ruin an otherwise perfect theoretical design.
For the student, it is the best possible introduction to the field. For the professional, it is a troubleshooting guide and a refresher on the physics that are often forgotten in the rush of deadlines. In an industry where efficiency and reliability are paramount, this book is an indispensable resource. To truly appreciate the book's value, it helps
The book highlights critical layout and shielding strategies:
A foundational element of Mammano’s book is the systematic classification of power supply topologies. Choosing the correct topology is the most critical decision in the early stages of a design, as it dictates efficiency limits, component stresses, and overall cost. Non-Isolated Topologies Switching power supplies had been built with discrete
Practical, actionable power supply design principles.
Reflecting the 2017 state-of-the-art, the book introduces multi-phase converters for high-current CPUs, switched-capacitor converters (charge pumps), and basic LED driver topologies. It also addresses electromagnetic interference (EMI) fundamentals and filtering techniques. It highlights how parasitic inductance and capacitance in
Establishes standard worldwide AC grid variations, DC-DC source constraints, component parameters, and basic non-isolated linear versus switching regulation.
Transfers energy directly through a transformer during the switch on-time. It requires a reset winding or active clamp circuit to demagnetize the core.
Inverts the input voltage and can step it either up or down, though it suffers from high pulsed currents at both input and output terminals. Isolated Topologies