Adaptive out of step relay algorithm /

Turner, Steven Primitivo,

January 1992

Thesis (M.S.)--Virginia Polytechnic Institute and State University, 1992. / Vita. Abstract. Includes bibliographical references (leaves 92-93). Also available via the Internet.

Algorithms. Voltage regulators.

Observability method for the least median of squares estimator as applied to power systems /

Cheniae, Michael G.,

January 1991

Thesis (M.S.)--Virginia Polytechnic Institute and State University, 1991. / Vita. Abstract. Includes bibliographical references (leaves 74-76). Also available via the Internet.

Voltage regulators Power resources

AC mains voltage regulation by solid-state power conversion techniques /

Hau, King-kuen.

January 1990

Thesis (M. Phil.)--University of Hong Kong, 1991.

Voltage regulators. Electric power

Switching-type voltage regulators

Guenther, Richard Harrison,

January 1967

Thesis (M.S.)--University of Wisconsin--Madison, 1967. / eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references.

Voltage regulators. Electric switchgear.

Analysis of total dose effects in a low-dropout voltage regulator

Ramachandran, Vishwa.

January 2006

Thesis (M.S. in Electrical Engineering)--Vanderbilt University, Dec. 2006. / Title from title screen. Includes bibliographical references.

Voltage regulators. Integrated circuits

Design of a self regulated and protected electrification transformer /

Beckers, Peter C.

January 2007

Thesis (MScIng)--University of Stellenbosch, 2007. / Bibliography. Also available via the Internet.

Effect of rectified waves of voltage upon the losses and efficiency in direct-current shunt motors

Swift, Wayne Bradley

January 1950

Typescript, etc.

Motors

Voltage regulators

Fully Integrated Digital Low-Drop-Out Regulator Design based on Event-Driven PI Control

Kim, Doyun

January 2019

A system-on-chip (SoC) with near-threshold supply voltage (NTV) operation has received a significant amount of attention. Its high energy-efficiency supports a number of low-power emerging applications such as wireless sensor networks and Internet-of-Thing edge devices. Integrating various digital, analog, mixed-signal, and power sub-systems, such SoC designs need to employ tens of voltage domains to push the envelope of energy-efficiency, performance, and robustness. A low-drop-out (LDO) regulator is a key building block for creating voltage domains on a chip thanks to its high power density. In particular, its digital implementation, i.e., digital LDO, recently has emerged as a popular topology since it can support a wide range of input voltage from super-threshold to near-threshold voltage regimes, while conventional analog LDOs become less effective. One of the critical overheads in existing digital LDO designs is a requirement of off-chip output capacitor for stabilizing the output voltage, due to inadequate latency in active control paths. It is possible to employ higher clock frequency in a digital LDO; however such solutions inevitably increase power dissipation. This off-chip capacitor overhead can significantly increase chip pin count and printed circuit board (PCB) space, thus limiting the number of power domains that an SoC can have. This thesis presents my research on fully-integrated digital LDO designs based on event-driven control architecture. My research focuses on scaling down the output capacitor size to the integrable level and improving transient performance such as maximum voltage change and settling time. To shrink the output capacitor size, we introduced the event-driven control and the binary digital PI controller in our first event-driven LDO design. Thanks to the event-driven control, we achieved control loop latency reduction without compromising power consumption, leading to output capacitor size reduction. The first design shows 2.7x improvement over the previous digital LDO designs in Figure-of-Merit with a 400pF of output capacitor. To further reduce output capacitor size and support larger load current, we implemented the second event-driven digital LDO designs with fine-grained parallelism. The parallel structure of its PI controller reduces the latency of the proportional part, which mainly regulates output voltage, so it achieves better transient performance with reduced size of capacitor. Also, the parallel-shift-register-based integration part lowers computation and area overheads. The second design outperforms the state of the arts by over 17x in Figure-of-Merits with only a 100pF of output capacitor. In the last design, we introduced initialization and self-triggering control. The initialization estimates load current change in the beginning of regulation process and sets the controller output close to the desired value. This leads to substantial reduction of settling time. Also, thanks to self-triggering control, the hardware overhead from counting the event interval is removed without the first response time degradation, achieving high current density. The last design with a 100pF of output capacitor improves settling time and current density by 3.8x and 6.7x, respectively, while achieving comparable transient performance in terms of Figure-of-Merit.

Electrical engineering

Systems on a chip

Voltage regulators

THE DYNAMIC THERMAL ANALYSIS OF A VOLTAGE REGULATOR CIRCUIT.

Woodworth, Ronald Keith.

January 1985

No description available.

Voltage regulators.

Heat sinks (Electronics)

An efficient switched capacitor buck-boost voltage regulator using delta-sigma control loop

Rao, Arun

29 April 2002

Voltage converters or charge pumps find their use in many circuits. They are extensively used in hand held devices as cell phones, pagers, PDA's and laptops. Some of the important issues relating to design of voltage regulators for handheld devices are size, efficiency and noise. Another important factor to be considered is the discharge characteristic of the various batteries used by the handheld devices. This thesis addresses the issues of tones present in the conventional switched capacitor voltage regulator. An alternate architecture with a delta-sigma control loop to eliminate this problem is proposed. Also discussed is a method to compute the efficiency of switched capacitor charge pumps. A test chip implementing the new architecture was fabricated in a 0.72-micron CMOS process. The results of the test chip verify the improved architecture. / Graduation date: 2002

Voltage regulators

Switched capacitor circuits