Kepco in Flushing, NY, US (United States)

www.kepcopower.com

Company Overview:

Kepco, an ISO 9001:2000 company founded in 1946, specializes in analog-controlled fast-programmable d-c power supplies, producing conventional & bi-directional outputs. Digital control is supported under GPIB, RS232, VXI & now, Ethernet, with the introduction of our first LXI (LAN eXtensions for Instrumentation) product, the KLP series. We offer industrial & OEM modular power supplies in single & multi-outputs. Many models are RoHS compliant & many offer forced current sharing for hot-swap & N+1 redundancy applications.

Kepco pioneered the modern power supply with the first programmable & first current stabilized power supply, the first automatic crossover (voltage & current) power supply, the bipolar (4-quadrant) power supply & the concept of the wide-band operational power supply. This continues today with the development of technologies that expand the conventional operating range by including a constant power locus.


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Contact Details

Address:131-38 Sanford Ave, Flushing, NY, 11355, United States
Telephone:(718) 461-7006
Fax:(718) 767-1102
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Pages on Kepco's website :

Typically, output power from the power system is divided to facilitate physical connections to the load. For example, a 21 Ampere redundant power system (two or more 21 Ampere power supplies) may be connected to ten loads drawing 1 Ampere, and 1 load drawing 10 Amperes. 

Redundancy And Hot Swapping Keep Systems Running If You Plan To Remain Viable In Markets Where Downtime Is Unacceptable, High-Availability Systems Are A Prerequisite. 

Engineer: Why would anyone need redundant power supplies? Our system will be replaced by the next generation product long before the power supply fails. Does the customer need 24 hours a day, and 7 day a week availability? 

Recognizing the Need. The growing dependence of our society upon electronic data processing has created a need for continuously operational systems. The original applications for this level of performance (financial institutions, air and rail transportation, telephone systems, etc. 

Abstract: This paper deals with a power factor correction circuit based on the isolated boost converter. An additional circuit provides zero-voltage-transition (ZVT) switching while maintaining constant frequency operation. 

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