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White Papers (8)

Title	Date	Size	Publication Number
A Comparison of Aluminum vs. Copper As Used in Electrical Equipment 7 pages; The intended purpose is to provide the user with the information necessary to make an informed decision on the selection of copper or aluminum conductors within electrical equipment.	Date: 04/02/2008	Size: 86.39 KB	Publication Number: Alum-Copper
A Deeper Look into Switchgear and Switchboards This document looks at whether to apply switchgear or switchboards and how to cost effectively use switchboard functionalities.	Date: 12/17/2004	Size: 152.67 KB	Publication Number: GEAR-OR-BOARDS
Application of Switchgear and Switchboards The choice of using either switchgear or switchboards must be based on many different criteria and the design of the power system requires thought be given to each one. Following are insights into just a few of the differences to help in making those decisions.	Date: 12/16/2004	Size: 92.39 KB	Publication Number: APPLICATION
Avoiding GF Problems when Designing for Multiple Low Voltage Sources The purpose of this article is to point out some of the problems associated with meeting the requirements of providing equipment ground fault protection on multiple-source low voltage distribution equipment, both switchgear and switchboards, and how to contend with them.	Date: 03/28/2005	Size: 145.86 KB	Publication Number: MULTI-LOW VOLT
Design Considerations to Enhance Safety and Reliability for Service Entrance Switchboards White Paper - design options discussed can be considered as a discrete layer of improvement to the conventional switchboard design.	Date: 04/28/2016	Size: 211.98 KB	Publication Number: DesignConsiderations
Improving Selectivity and Arc Flash Protection through Optimized Instantaneous Protection Settings 8 pages.	Date: 07/23/2012	Size: 415.93 KB	Publication Number: ESW-IEEE
Plug-in vs Bolt-on Connections White Paper	Date: 08/12/2020	Size: 537.11 KB	Publication Number: 1SQC900001G0201
Zone Selective Interlocking On Instantaneous (I-ZSI) and Waveform Recognition (WFR) GE’s zone selective interlocking with instantaneous protection (I-ZSI) has been developed to provide safety and selectivity at the same time, all the time. Zone selective interlocking schemes are limited to circuit breakers that are a short distance of each other. Selectivity between a circuit breaker and its downstream current limiting device without control signal connections between the two have also been developed. GEs waveform recognition (WFR) algorithm extends the zone of selectivity from the low voltage switchgear down to the low voltage MCCs, panelboards and any other equipment and at the same time reduces the arc flash energy at this equipment to a low level. This feature has no distance limitation.	Date: 02/07/2013	Size: 392.66 KB	Publication Number: IZSI-WFR

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