3 node auto shutdown sensor, Node auto shutdown sensor, Table 18: power unit redundancy sensor – Kontron S4600 SEL Troubleshooting User Manual

System Event Log Troubleshooting Guide for EPSD

Platforms Based on Intel

®

Xeon

®

Processor E5 4600/2600/2400/1600/1400 Product Families

Power Subsystems

Revision 1.1

Intel order number G90620-002

37

Table 18: Power Unit Redundancy Sensor – Event Trigger Offset – Next Steps

Event Trigger Offset

Description

Next Steps

Hex

Description

00h

Fully redundant

System is fully operational.

Informational Event

01h

Redundancy lost

System is not running in
redundant power supply mode.

This event is accompanied by specific power supply errors
(AC lost, PSU failure, and so on). Troubleshoot these events
accordingly.

02h

Redundancy degraded

03h

Non-redundant, sufficient from redundant

04h

Non-redundant, sufficient from insufficient

05h

Non-redundant, insufficient

06h

Non-redundant, degraded from fully redundant

07h

Redundant, degraded from non-redundant

4.3.3

Node Auto Shutdown Sensor

The BMC supports a Node Auto Shutdown sensor for logging a SEL event due to an emergency shutdown of a node due to loss of
power supply redundancy or PSU CLST throttling due to an over-current warning condition. This sensor is applicable only to multi-
node systems.

The sensor is rearmed on power-on (AC or DC power on transitions).

This sensor is only used for triggering SEL to indicate node or power auto shutdown assertion or deassertion.

Table 19: Node Auto Shutdown Sensor Typical Characteristics

Byte

Field

Description

11

Sensor Type

09h = Power Unit

12

Sensor Number

B8h

13

Event Direction and
Event Type

[7] Event direction

0b = Assertion Event

1b = Deassertion Event