VIV0101THJ Datasheet, PDF(1/16 Page) Vicor Corporation

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VIV0101THJ Datasheet, PDF (1/16 Pages) Vicor Corporation – DC to DC Voltage Transformation

VIV0101THJ

VTMTM

DC to DC

Voltage Transformation

PRELIMINARY DATASHEET

C NRTL US

FEATURES

â¢ 48 Vdc â 12 Vdc 10 A Voltage Transformation Module

- Operating from standard 48 V or 24 V PRMs

â¢ High efficiency (>95%) reduces system power

consumption

â¢ High density (801 W/in3)

â¢ âHalf Chipâ Vâ¢I Chip package enables surface mount,

low impedance interconnect to system board

â¢ Contains built-in Protection features:

- Overvoltage lockout

- Overcurrent

- Short circuit

- Over temperature protection

â¢ Provides enable/disable control, internal temperature

monitoring, current monitoring

â¢ ZVS/ZCS resonant Sine Amplitude Converter topology

â¢ Less than 50ÂºC temperature rise at full load

in typical applications

TYPICAL APPLICATION

â¢ High End Computing Systems

â¢ Automated Test Equipment

â¢ Telecom Base Stations

â¢ High Density Power Supplies

â¢ Communication Systems

TYPICAL APPLICATION

VIN

PRM

+In

+Out

-In

-Out

DESCRIPTION

The Vâ¢I Chip Voltage Transformation Module is a high efficiency

(>95%) Sine Amplitude Converter (SAC)TM operating from a 26 to

55 Vdc primary bus to deliver an isolated 12 V secondary. The

Sine Amplitude Converter offers a low AC impedance beyond

the bandwidth of most downstream regulators, which means

that capacitance normally at the load can be located at the

input to the Sine Amplitude Converter. Since the K factor of the

VIV0101THJ is 1/4, that capacitance value can be reduced by a

factor of 16x, resulting in savings of board area, materials and

total system cost.

The VIV0101THJ is provided in a Vâ¢I Chip package compatible

with standard pick-and-place and surface mount assembly

processes. The Vâ¢I Chip package provides flexible thermal

management through its low junction-to-case and junction-to-

board thermal resistance. With high conversion efficiency the

VIV0101THJ increases overall system efficiency and lowers

operating costs compared to conventional approaches.

The VIV0101THJ enables the utilization of Factorized Power

Architecture providing efficiency and size benefits by lowering

conversion and distribution losses and promoting high density

point of load conversion.

VIN = 26 â 55 V

VOUT = 6.5 â 13.8 V (NO LOAD)

IOUT = 10 A(NOM)

K = 1/4

+In

+Out

VTM

-Out

-In

v i c o r p o w e r. c o m

Vâ¢I CHIP INC. (A VICOR COMPANY) 25 FRONTAGE RD. ANDOVER, MA 01810 800-735-6200

Rev. 1.3

9/2009

Page 1 of 16

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