MSOE Library Home	Login My List - 0 Help
	Home   Search   My Account

Basic Advanced Power History

Search:  Author KeywordsBarcodeBib No.Call Number Keyword Search (Enter part of a call number -- use wildcards)General Keyword SearchKeyword Search of Contents NotesKeyword Search of Credits Notes (Enter word or words)Keyword Search of FormatKeyword Search of Item DescriptionKeyword Search of Publisher's NameName Keyword SearchPublication Date Keyword SearchSearch Part of an ISBN NumberSearch Part of an ISSN NumberSeries Title KeywordsSubject KeywordsTitle Keywords       Refine Search     > You're searching: Walter Schroeder Library, Milwaukee School of Engineering

Item Information   Holdings       More by this author     Brusky, Nicholas, author.     Acharya, Dr. Kishore, thesis advisor     Kumpaty, Dr. Subha     Shimek, Professor Gary, committee member     Milwaukee School of Engineering     Subjects     Switched capacitor circuits     Detectors     Sensors.     Electric circuit analysis     MSE Project.     Browse Catalog     by author:      Brusky, Nicholas, author.      Acharya, Dr. Kishore, thesis advisor      Kumpaty, Dr. Subha      Shimek, Professor Gary, committee member      Milwaukee School of Engineering       by title:      Inductive current se...         MARC Display

Inductive current sensor and filter design, analysis and simulation for use in medium voltage capacitor switching applications : a report submitted to the faculty of the Milwaukee School of Engineering in partial fulfillment of the requirements for the degree of Master of Science in Engineering / by Nicholas Brusky. by Brusky, Nicholas, author., Acharya, Dr. Kishore, thesis advisor, Kumpaty, Dr. Subha, Shimek, Professor Gary, committee member, Milwaukee School of Engineering [Milwaukee School of Engineering], [2017] Subjects Switched capacitor circuits   Detectors   Sensors.   Electric circuit analysis   MSE Project. Description:  60 leaves : illustrations, some of which are in color ; 29 cm Contents:  No electronic publication until November 16, 2019. Project description -- Background -- Self-calibrating and self-contained synchronous switch concept -- Sensor and filter design and verification -- Conclusion. The purpose of this study is to design, simulate and validate the design of a non-contact current measuring sensor and filter circuit that could be the basis of a self-calibrating medium voltage capacitor switch control. The closing of a medium voltage capacitor switch, and the subsequent insertion of shunt capacitance onto an electrical distribution line, results in the generation of disruptive transients. A sensor and filter circuit that is capable of properly detecting and measuring the transient may allow a controller to precisely time the closure of the switch in order to reduce the transient to acceptable levels. The existing products in the marketplace are functional at transient reduction but are not universally applied because of the product costs. One of the major cost challenges of such a design is the sensing of current on electrical lines running up to 38,000 volts. The proposed system would reduce the severity and occurrence of damaging transients by providing sensor, filter, and feedback timing correction scheme at minimal cost. An inductive sensor and filter circuit is proposed and is shown to be effective as a sensor capable of measuring current flow in a conductor with adequate clearance to be added to a standard switch design. The sensor output requires conditioning to be compatible with standard microprocessor inputs. A filter design for this purpose is proposed and is shown to be adequate to condition the signal and obtain the desired signals needed for switch timing feedback. The filter was analyzed with simulation software and shown to perform the desired function. Finally, validation of the sensor and filter system are presented using a transient generation test fixture. Form:  text unmediated volume   Copy/Holding information Location Collection Call No. Status   Walter Schroeder Library Master's Theses AC805 .B789 2017 Available Add Copy to MyList Format: HTMLPlain textDelimited Subject:   Email to:

Horizon Information Portal 3.25_9885

© 2001-2013 SirsiDynix All rights reserved.