PIM400 Series ATCA Board Power Input Modules

GE Critical Powers' PIM400 series simplifies the task of implementing dual-redundant hot swap

Image of GE Critical Power's PIM400 Series ATCA Board Power Input ModulesGE Critical Power PIM400 series of power input modules are designed to greatly simplify the task of implementing dual-redundant hot swap 48 VDC power distribution with EMI filtering on an ATCA or other telecom boards. The PIM400, with optional I²C digital interface capability, when used with a variety of GE’s series of bus converters (Barracuda™ Series) /POLs (DLynx™ Series) provides for a quick, simple, and elegant power solution to a wide variety of demanding and intelligent power system architectures.

  • Digital interface options with I²C
  • Delivers up to 400 W of rated power
  • -48 V/10 A dual-redundant input power distribution
  • High efficiency : 98% typical
  • Industry-standard quarter-brick size
  • OR-ing FETs for A&B feeds
  • A&B Feed Loss or open fuse alarm
  • Hot swap capability
  • Inrush current protection
  • Industry-standard quarter-brick size
  • Input voltage range: -36 to -75 V
  • Management power: 3.3 V/3.6 A and 5.0 V/150 mA
  • Integral EMI filter designed for minimal external filtering
  • Independent holdup capacitor charging voltage trimmable from 50 to 95 V
  • Operating temperature range : -40ºC to 85ºC


ImageManufacturer Part NumberDescriptionTypeNumber of OutputsAvailable Quantity
PIM400Z datasheet linkDC/DC CONVERTER 3.3V 5V 400WPIM400ZDC/DC CONVERTER 3.3V 5V 400WIsolated Module271 - Immediate
PIM400Z product page link
PIM400KZ datasheet linkDC/DC CONVERTER 3.3V 5V 400WPIM400KZDC/DC CONVERTER 3.3V 5V 400WIsolated Module, Digital25 - Immediate
PIM400KZ product page link
PIM400K6Z datasheet linkCONVERTER DC/DC 3.3 5V 400WPIM400K6ZCONVERTER DC/DC 3.3 5V 400WIsolated Module, Digital10PIM400K6Z product page link
PIM400K8Z datasheet linkCONVERTER DC/DC 3.3V 5A 400WPIM400K8ZCONVERTER DC/DC 3.3V 5A 400WIsolated Module, Digital10PIM400K8Z product page link
Published: 2014-04-03