GE Industrial Solutions CAR2024FP series User Manual
Ge energy, Car2024fp series rectifier, Data sheet
GE Energy
Data Sheet
March 28, 2013
©2012 General Electric Company. All rights reserved.
CAR2024FP series rectifier
Input: 90Vac to 264Vac; Output: 24Vdc @ 83A; 3.3Vdc or 5 Vdc @ 1A
Features
Universal input with PFC
Constant power characteristic
3 front panel LEDs: input, output, fault
Remote ON/OFF control of the 24Vdc output
Remote sense on the 24Vdc output
No minimum load requirements
Redundant parallel operation
Active load sharing (single wire)
Hot Plug-ability
Efficiency: typically 90% @ 50% load
Standby orderable either as 3.3Vdc or 5Vdc
Auto recoverable OC & OT protection
Operating temperature: -10 - 70C (de-rated above
50C)
Digital status & control: I
2
C and PMBus serial bus
EN/IEC/UL60950-1 2
nd
edition; UL, CSA and VDE
EMI: class A FCC docket 20780 part 15, EN55022
Meets EN6100 immunity and transient standards
Shock & vibration: NEBS GR-63-CORE, level 3
Applications
24Vdc distributed power architectures
Telecom Base Stations
Mid to high-end Servers
Enterprise Networking
Network Attached Storage
Telecom Access Nodes
Routers/Switches
Broadband Switches
ATE Equipment
Description
The CAR2024FP series of Front-End rectifiers provide highly efficient isolated 2000 watts @ 24Vdc power from
worldwide input mains in a compact 1U industry standard form factor in an unprecedented power density of 21W/in
3
.
These rectifiers are ideal for either datacom or telecom applications such as enterprise networking, remote base
stations, mid to high-end servers, and storage equipment, where mid to light load efficiency is of key importance
given the nature of the power consumption of the end application.
The high-density, front-to-back airflow is designed for minimal space utilization and is highly expandable for future
growth. The industry standard PMBus compliant I
2
C communications buss offers a full range of control and
monitoring capabilities. The SMBAlert signal pin alerts customers automatically of any state change within the power
supply.