OCPRF100 MP Server System Technical Product Specification

Revision 1.0

Table 3-6: System Power Budget – Current (A) and Power (W)

Total power (includes 2% distribution loss)

1268.1

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Notes: 1. There is no 240 VA protection circuit in the OCPRF100 MP server system.

2.Minimum load for second memory carrier is zero; assumes no carrier is installed.

3.3.2Cooling System

3.3.2.1Description

There are two independent cooling subsystems:

The upper system, encompassing the front panel, Profusion carrier, and I/O carrier.

The lower systems, encompassing the memory carriers, peripheral bay, and power supplies.

Air flows in through the bezel and exhausts out the rear of the chassis.

Cooling system redundancy to the upper system is provided by the 5+1 redundant fans at the front top of the system. All systems come with redundant cooling for the upper area in standard factory configuration with six upper system fans. Each fan provides tachometer signal output to the front panel to indicate a fan failure. There may be time limit restrictions on the service time for fan and PCI hot-plug card replacement.

Cooling system redundancy of the lower system is provided by the 2+1 system power supplies. Each power supply fan provides tachometer signal output. A power supply fan failure is indicated at the front panel as a predictive power supply failure. There may be time restrictions on the service time for power supply hot swap replacement.

3.3.2.2Redundancy and Ambient Temperature Control

3.3.2.2.1System Fans

The front panel provides either of two fan input voltages to the system fans. Under normal ambient room conditions (less than 30° C), the front panel supplies 8.4 Vdc to the system fans. When a system fan fails or when the room ambient temperature exceeds 30° C, the fan input voltage is increased to 12 Vdc. Following a room temperature excursion above 30° C, the fan voltage does not change back to 8.4 Vdc until the room temperature drops below 28° C and all system fans are operational.

3.3.2.2.2Power Supply Fans

The power supply fans are controlled independently by each supply. The ambient temperature sensed at the inlet to each supply is used as the input to a control circuit, which continuously var-

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