YV12T25 Datasheet, PDF(1/12 Page) Power-One

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YV12T25 Datasheet, PDF (1/12 Pages) Power-One – YV12T25 DC-DC Converter

YV12T25 DC-DC Converter

10 - 14 VDC Input; 0.8 - 5.5 VDC Programmable @ 25 A

Data Sheet

The

Products: Y-Series

Applications

ï· Intermediate Bus Architectures

ï· Telecommunications

ï· Data communications

ï· Distributed Power Architectures

ï· Servers, workstations

Benefits

ï· High efficiencyâ no heat sink required

ï· Cost effective

ï· Reduces Total Solution Board Area

Features

ï· RoHS lead-free solder and lead-solder-exempted

products are available

ï· Delivers up to 25 A

ï· Input range 10 - 14 V

ï· Small size and low profile: 1.25â x 2.00â x 0.335â

(31.7 x 50.8 x 8.50 mm)

ï· Start-up into pre-biased output

ï· No minimum load required

ï· Operating ambient temperature: -40 Â°C to 85 Â°C

ï· Remote output sense

ï· Remote ON/OFF

ï· Fixed frequency operation (500 kHz)

ï· Auto-reset output overcurrent protection

ï· High reliability, MTBF = 23 Million Hours

ï· All materials meet UL94, V-0 flammability rating

ï· UL60950 recognition in U.S. & Canada, and

certification per IEC/EN60950

Description

Power-Oneâs point-of-load converters are recommended for use with regulated bus converters in an Intermediate

Bus Architecture (IBA). The YV-Series of non-isolated dc-dc converters deliver up to 25 Amps of output current

in a through-hole (SIP) package. Operating from a 10 - 14 VDC input, the YV12T25 converter is an ideal choice

for Intermediate Bus Architectures where Point-of-Load (POL) power delivery is a requirement. The converter

provides an extremely tight regulated programmable output voltage of 0.80 V to 5.5 V.

The YV-Series of converters provide exceptional thermal performance, even in high temperature environments

with minimal airflow. This performance is accomplished through the use of advanced circuitry, packaging and

processing techniques to achieve a design possessing ultra-high efficiency, excellent thermal management, and

a very low body profile.

The low body profile minimizes impedance to system airflow, thus enhancing cooling for both upstream and

downstream devices. The use of automation for assembly, coupled with advanced power electronics and thermal

design, results in a product with extremely high reliability.

ZD-01983 Rev. 2.1, 25-Jun-10

www.power-one.com

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