000 | nam a22 4500 | ||
---|---|---|---|
999 |
_c32533 _d32533 |
||
008 | 230901b xxu||||| |||| 00| 0 eng d | ||
020 | _a9783030959012 | ||
082 |
_a621.38152 _bRIN |
||
100 | _aRincon-Mora, Gabriel Alfonso | ||
245 | _aSwitched inductor power IC design | ||
260 |
_bSpringer, _c2023 _aCham : |
||
300 |
_axvi, 514 p. ; _bill., _c24 cm |
||
365 |
_b59.99 _cEUR _d94.90 |
||
504 | _aIncludes index. | ||
520 | _aThis textbook uses design insight, real-life examples, illustrative figures, easy-to-follow equations, and simple SPICE code to show how semiconductor devices (diodes, bipolar-junction transistors (BJTs), and metal-oxide-semiconductor (MOS) field-effect transistors (FETs) ) work independently and collectively in switched-inductor power supplies; how these power supplies transfer power, consume power, and react and respond across frequency; how feedback loops switch, control, and stabilize them; and how the building blocks that comprise them are implemented and designed. This book is focused and complete, with a holistic approach and perspective on power IC design that extends from semiconductor devices to fully-closed feedback systems. Readers will develop the insight needed to interpret, assess, and design switched inductor power ICs, which almost all electronic systems need, yet no other book addresses this way. Comprehensive Power IC Design textbook: from semiconductor devices to fully-looped feedback systems Provides insight, using plain language, focus on basic concepts, & application to realistic examples Includes SPICE code that readers can use to explore concepts. | ||
650 | _aIntegrated circuits | ||
650 | _aAsynchronous buck | ||
650 | _aBuck- boost, Capacitance | ||
650 | _aCurrent loop | ||
650 | _aDepletion region | ||
650 | _aDuty-cycle | ||
650 | _aElectron energy | ||
650 | _aFeedback control | ||
650 | _aGate-channel field | ||
650 | _aHysteretic comparator | ||
650 | _aInverting feedback loop | ||
650 | _aLoop variation | ||
650 | _aMOSFETs model | ||
650 | _aSwitched inductor | ||
650 | _aTriode | ||
650 | _aVoltage control | ||
942 |
_2ddc _cBK |