The ACFE chassis features Vicor’s AIM 1714 and PFM 4414 modular front-end components, each packaged in Vicor’s compact, thermally adept, 9 mm-thin, VIA package. The AIM module provides full-wave rectification, Class B conducted EMI filtering and input surge protection. The PFM, which receives its input power from the AIM, features power factor correction and delivers up to 400 Watts of fully isolated, regulated, 24 VDC or 48 VDC for powering downstream PoL regulators. The AIM/PFM combination enables power systems designers to instantly implement a full function AC-DC front-end system in a fraction of the space of conventional “1U” solutions. And, because the AIM and the PFM are each available in both board and chassis-mount configurations, systems designers can achieve maximum final system density by utilizing an available chassis as a mounting and cooling surface.
The PoL chassis features three independent PoL evaluation boards and a power input interface assembly. The power interface receives the regulated 24 or 48 VDC power from the ACFE chassis and distributes it to the three PoL evaluation boards. The three PoL evaluation boards comprise, respectively, a 3.3V, 5V and 12V PI33/PI35xx Vicor Cool-Power Zero-Voltage Switched (“ZVS”) Buck Regulator, packaged, respectively, in a 10 x 14 mm or 10 x 10 mm LGA SiP package. Capable of achieving power conversion efficiencies up to 96% while operating from a 48V distribution bus, Vicor Cool-Power ZVS Buck Regulators enable implementation of low profile PoL systems with unprecedented power density and end-to-end system efficiency.
The new ACPoL DKit provides everything necessary to begin testing and evaluating the features and benefits of Vicor’s end-to-end modular power systems solutions and the Power Component approach. Vicor’s “no surprises” Power Component Design Methodology and online PowerBench tools enable power systems engineers to rapidly design and implement complete power systems offering field proven reliability and predictability and industry-leading performance, density, efficiency and economy.
Power Component Design Methodology and Online Configuration and Design Tools
Vicor’s Power Component Design Methodology enables power system designers to reap all of the benefits of modular power component design – predictable component and system functionality and reliability, fast design cycles, and easy system configurability, re-configurability and scaling – while achieving system operating efficiency, power density and economy that rival the best alternative solutions. Utilizing Vicor’s online tools, power system designers select from an extensive portfolio of proven Vicor power components to architect, optimize and simulate their complete power system, all the way from their input sources to their points of load. This innovative approach to power system design delivers fast time-to-market and state-of-the-art performance while minimizing the possibility of last minute surprises and delays that so often occur with conventional or custom design methodologies.
Vicor at APEC
To learn more about Vicor expertise and innovations, attend our sessions at APEC 2016 in Long Beach California, March 20 – 24th. Ankur Patel, Vicor Application Engineer, will present the benefits and best practices for using “A New Bidirectional DC-DC Converter for Fuel Cell, Solar Cell and Battery Systems” (Tuesday, March 22nd, 8:30 A.M – 12:00 P.M [Vicor: 9:50 AM – 10:10 A.M], Session code T03.5, Location 104B). The following day, Paul Yeaman, Director of Application Engineering, will join several other industry expert panelists discussing current innovations and trends that will impact “The Next Generation of Power Supplies” (Wednesday, March 23rd, 11:15 A.M – 11:45 A.M, Room 101A).