Emerson Axp1406 Users Manual AXP IPMI Subsystem Reference

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AXP1406/AXP1600 Subsystem IPMI
Programmer’s Reference
6806800B66C
April 2008

©

Copyright 2008 Emerson
All rights reserved.

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USA

Contents

About this Manual . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
1

Supported IPMI Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
1.1
1.2

1.3
1.4
2

Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Standard IPMI Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.2.1 Global IPMI Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.2.2 BMC WatchDog Timer Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.2.3 BMC Device and Messaging Commands. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.2.4 Chassis Device Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.2.5 Event Commands. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.2.6 PEF and Alerting Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.2.7 Sensor Device Commands. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.2.8 FRU Device Commands. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.2.9 SDR Device Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.2.10 SEL Device Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.2.11 LAN Device Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.2.12 Serial/Modem Device Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
PICMG 3.0 Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Emerson and Pigeon Point OEM Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

15
15
15
16
16
17
17
17
18
19
19
19
20
20
21
22

FRU Information and Sensor Data Records . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25
2.1
2.2
2.3

Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Total Power Consumption . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
SAM1000 Physical Shelf Manager . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.3.1 SAM Physical FRU Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.3.1.1 Physical Shelf Manager FRU Data, AXP1406 . . . . . . . . . . . . . . . . . . . . . . . .
2.3.1.2 Physical Shelf Manager FRU Data, AXP1600 . . . . . . . . . . . . . . . . . . . . . . . .
2.3.2 E-Keying. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.3.3 Power Configuration. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.3.4 Sensor Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.3.5 SAM Physical Shelf Manager Analog Sensors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.3.5.1 Voltage Sensors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.3.5.2 Temperature Sensors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.3.6 SAM Module Discrete Sensors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.3.6.1 Hot Swap Sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.3.6.2 IPMB Link Sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.3.6.3 PEM A Sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.3.6.4 PEM B Sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.3.6.5 AXP Backplane ID Sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

25
25
26
26
26
27
28
28
29
30
30
32
34
35
35
36
37
39

3

Contents

2.4

2.5

4

2.3.6.6 +12 V B Valid Sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39
2.3.6.7 +12 V A Valid Sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40
2.3.6.8 Fault Event Sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41
2.3.6.9 POST Results Sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41
2.3.6.10 Shelf FRU Info Sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42
2.3.6.11 CPLD State Sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43
SAM1000 Active (Virtual) Shelf Manager . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43
2.4.1 FRU Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43
2.4.1.1 Active Shelf Manager FRU Data, AXP1406 . . . . . . . . . . . . . . . . . . . . . . . . . . 44
2.4.1.2 Active Shelf Manager FRU Data, AXP1600 . . . . . . . . . . . . . . . . . . . . . . . . . . 46
2.4.1.3 SAM1000 Shelf Manager FRU Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 48
2.4.1.4 Fan Tray FRU Data, AXP1406 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49
2.4.1.5 Fan Tray FRUs 1,2, and 3 Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50
2.4.1.6 Fan Tray FRUs 4, 5, and 6 Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51
2.4.1.7 Fan Tray FRUs 7 and 8 Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51
2.4.1.8 Fan Tray FRU Data, AXP1600 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52
2.4.1.9 Fan Tray FRUs 1, 2, and 3 Data, AXP1600 . . . . . . . . . . . . . . . . . . . . . . . . . . 53
2.4.1.10 Fan Tray FRUs 4, 5, and 6 Data, AXP1600 . . . . . . . . . . . . . . . . . . . . . . . . . . 54
2.4.1.11 Fan Tray FRUs 7, 8 and 9 Data, AXP1600 . . . . . . . . . . . . . . . . . . . . . . . . . . 55
2.4.2 E-Keying. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 55
2.4.3 Power Configuration. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56
2.4.4 Active SAM1000 Sensor Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56
2.4.5 Active SAM1000 Analog Sensors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 61
2.4.5.1 Fan Speed Sensors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 61
2.4.5.2 Fan Voltage Sensors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 70
2.4.6 SAM Active Shelf Manager Discrete Sensors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 92
2.4.6.1 Hot Swap Sensors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 93
2.4.6.2 Shm Fault Event Sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 98
2.4.6.3 IPMB Link Sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 99
2.4.6.4 Telco Alarm Sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 112
2.4.6.5 BMC Watchdog Sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 113
2.4.6.6 System Event . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 113
2.4.6.7 Fan Tray Presence Sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 114
2.4.6.8 Fan Tray -48 V Fuse Sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 119
Power Entry Module Sensor Data Records . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 124
2.5.1 PEM FRU Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 124
2.5.2 E-Keying. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 125
2.5.3 Power Configuration. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 125
2.5.4 Power Entry Module Sensor Overview. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 126
2.5.5 Power Entry Module Analog Sensors. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 126
2.5.5.1 Voltage Sensors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 127
2.5.5.2 Current Sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 131
2.5.5.3 Temperature Sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 132
2.5.6 Power Entry Module Discrete Sensors. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 132
2.5.6.1 Hot Swap Sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 132
2.5.6.2 IPMB Link Sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 133

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Contents

2.5.7
3

OEM Sensors. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 137
3.1

A

OEM Sensors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3.1.1 Telco Alarms (Pigeon Point OEM) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3.1.2 AXP Backplane ID (Emerson OEM) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3.1.3 POST Results (Emerson OEM) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3.1.4 Shelf FRU Info (Emerson OEM) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3.1.5 FT -48 V Fuse (Emerson OEM) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3.1.6 Shm Fault Event (Emerson OEM) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

137
137
138
138
139
139
140

System Behavior in Response to Sensor Events . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 141
A.1
A.2
A.3
A.4
A.5

B

Circuit Breaker State Sensors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 134

Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Cooling Management in Normal Operation Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Cooling Management in Abnormal Operation Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Adaptive Adjustment of the Minimum Fan Level . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
FRU State Management . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

141
141
141
142
144

Related Documentation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 147
B.1
B.2
B.3

Emerson Network Power - Embedded Computing Documents . . . . . . . . . . . . . . . . . . . . . . . 147
Manufacturers’ Documents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 148
Related Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 148

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

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6

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

List of Tables

Table 1-1
Table 1-2
Table 1-3
Table 1-4
Table 1-5
Table 1-6
Table 1-7
Table 1-8
Table 1-9
Table 1-10
Table 1-11
Table 1-12
Table 1-13
Table 1-14
Table 1-15
Table 1-16
Table 1-17
Table 2-1
Table 2-2
Table 2-3
Table 2-4
Table 2-5
Table 2-6
Table 2-7
Table 2-8
Table 2-9
Table 2-10
Table 2-11
Table 2-12
Table 2-13
Table 2-14
Table 2-15
Table 2-16
Table 2-17
Table 2-18
Table 2-19
Table 2-20
Table 2-21
Table 2-22
Table 2-23

Supported Global IPMI Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Supported BMC WatchDog Timer Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Supported BMC Device and Messaging Commands . . . . . . . . . . . . . . . . . . . . . . . . . .
Supported Chassis Device Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Supported Event Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Supported PEF and Alerting Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Supported Sensor Device Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Supported FRU Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Supported SDR Device Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Supported SEL Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Supported LAN Device Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Supported Serial/Modem Device Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Supported PICMG 3.0 Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
OEM Command Summary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Get Shelf Configuration Record (Cmd = 0x01) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Shelf Manager Switchover (Cmd = 0x02) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Set FRU Extracted (Cmd = 0x03) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Total Power Consumption for AXP 1406 and AXP1600 Shelves . . . . . . . . . . . . . . . . .
SAM Physical Power Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 2 Vbat . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 3 3.3 V Voltage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 4 +12 V Voltage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 5 +1.8 V . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 6 MAX6656 INT@1A . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 7 MAX6656 EXT1@1A . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 8 MAX6656 EXT2@1A . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 0 FRU 0 HOT_SWAP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 1 IPMB Link . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 9 PEM A . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 10 PEM B . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 11 NSC A (AXP1600 Only) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 12 NSC B (AXP1600 Only) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 13 AXP Backplane ID . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 14 12 V B Valid . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 15 12 V A Valid . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 16 Fault Event . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 17 POST Results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 18 Shelf FRU Info . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 128 CPLD State . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

15
16
16
17
17
17
18
19
19
19
20
20
21
22
22
23
23
25
28
29
30
31
31
32
32
33
34
35
35
36
37
37
38
39
39
40
41
41
42
43

7

List of Tables

Table 2-24
Table 2-25
Table 2-26
Table 2-27
Table 2-28
Table 2-29
Table 2-30
Table 2-31
Table 2-32
Table 2-33
Table 2-34
Table 2-35
Table 2-36
Table 2-37
Table 2-38
Table 2-39
Table 2-40
Table 2-41
Table 2-42
Table 2-43
Table 2-44
Table 2-45
Table 2-46
Table 2-47
Table 2-48
Table 2-49
Table 2-50
Table 2-51
Table 2-52
Table 2-53
Table 2-54
Table 2-55
Table 2-56
Table 2-57
Table 2-58
Table 2-59
Table 2-60
Table 2-61
Table 2-62
Table 2-63
Table 2-64
Table 2-65
Table 2-66
Table 2-67
Table 2-68
Table 2-69

8

SAM1000 Active Power Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Active SAM1000 Sensor Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 141 (0x8D) FT 1 Fan 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 142 (0x8E) FT 1 Fan 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 143 (0x8F) FT 2 Fan 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 144 (0x90) FT2 Fan 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 145 (0x91) FT 3 Fan 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 146 (0x92) FT 3 Fan 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 147 (0x93) FT 4 Fan 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 148 (0x94) FT 4 Fan 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 149 (0x95) FT 5 Fan 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 150 (0x96) FT 5 Fan 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 151 (0x97) FT 6 Fan 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 152 (0x98) FT 6 Fan 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 153 (0x99) FT 7 Fan 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 154 (0x9A) FT 7 Fan 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 155 (0x9B) FT 8 Fan 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 156 (0x9C) FT 8 Fan 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 157 (0x9D) FT 9 Fan 1, AXP1600 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 158 (0x9E) FT 9 Fan 2, AXP1600 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 171 (0xAB) FT 1 Fan 1 12 V . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 172 (0xAC) FT 1 Fan 1 VBias . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 173 (0xAD) FT 1 Fan 2 12 V . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 174 (0xAE) FT 1 Fan 2 VBias . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 175 (0xAF) FT 2 Fan 1 12 V . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 176 (0xB0) FT 2 Fan 1 VBias . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 177 (0xB1) FT 2 Fan 2 12 V . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 178 (0xB2) FT 2 Fan 2 VBias . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 179 (0xB3) FT 3 Fan 1 12 V . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 180 (0xB4) FT 3 Fan 1 VBias . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 181 (0xB5) FT 3 Fan 2 12 V . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 182 (0xB6) FT 3 Fan 2 VBias . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 183 (0xB7) FT 4 Fan 1 12 V . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 184 (0xB8) FT 4 Fan 1 VBias . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 185 (0xB9) FT 4 Fan 2 12 V . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 186 (0xBA) FT 4 Fan 2 VBias . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 187 (0xBB) FT 5 Fan 1 12 V . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 188 (0xBC) FT 5 Fan 1 VBias . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 189 (0xBD) FT 5 Fan 2 12 V . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 190 (0xBE) FT 5 Fan 2 VBias . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 191 (0xBF) FT 6 Fan 1 12 V . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 192 (0xC0) FT 6 Fan 1 VBias . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 193 (0xC1) FT 6 Fan 2 12 V . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 194 (0xC2) FT 6 Fan 2 VBias . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 195 (0xC3) FT 7 Fan 1 +12V . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 196 (0xC4) FT 7 Fan 1 VBias . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

56
56
61
61
62
62
63
63
64
64
65
65
66
66
67
67
68
68
69
70
70
71
71
72
73
73
74
74
75
76
76
77
77
78
79
79
80
80
81
82
82
83
83
84
85
85

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

List of Tables

Table 2-70
Table 2-71
Table 2-72
Table 2-73
Table 2-74
Table 2-75
Table 2-76
Table 2-77
Table 2-78
Table 2-79
Table 2-80
Table 2-81
Table 2-82
Table 2-83
Table 2-84
Table 2-85
Table 2-86
Table 2-87
Table 2-88
Table 2-89
Table 2-90
Table 2-91
Table 2-92
Table 2-93
Table 2-94
Table 2-95
Table 2-96
Table 2-97
Table 2-98
Table 2-99
Table 2-100
Table 2-101
Table 2-102
Table 2-103
Table 2-104
Table 2-105
Table 2-106
Table 2-107
Table 2-108
Table 2-109
Table 2-110
Table 2-111
Table 2-112
Table 2-113
Table 2-114
Table 2-115

Sensor No. 197 (0xC5) FT 7 Fan 2 12 V . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 86
Sensor No. 198 (0xC6) FT 7 Fan 2 VBias . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 86
Sensor No. 199 (0xC7) FT 8 Fan 1 12 V . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 87
Sensor No. 200 (0xC8) FT 8 Fan 1 VBias . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 88
Sensor No. 201 (0xC9) FT 8 Fan 2 12 V . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 88
Sensor No. 202 (0xCA) FT 8 Fan 2 VBias . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 89
Sensor No. 203 (0xCB) FT 9 Fan 1 12 V, AXP1600 . . . . . . . . . . . . . . . . . . . . . . . . . . . 90
Sensor No. 204 (0xCC) FT 9 Fan 1 VBias, AXP1600 . . . . . . . . . . . . . . . . . . . . . . . . . 90
Sensor No. 205 (0xCD) FT 9 Fan 2 12 V, AXP1600 . . . . . . . . . . . . . . . . . . . . . . . . . . 91
Sensor No. 206 (0xCE) FT 9 Fan 2 VBias, AXP1600 . . . . . . . . . . . . . . . . . . . . . . . . . 91
Sensor No. 0 (0x00) FRU 0 HOT_SWAP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 93
Sensor No. 2 (0x02) FRU 1 HOT_SWAP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 93
Sensor No. 3 (0x03) FRU 2 HOT_SWAP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 94
Sensor No. 4 (0x04) FRU 3 HOT_SWAP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 94
Sensor No. 5 (0x05) FRU 4 HOT_SWAP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 95
Sensor No. 6 (0x06) FRU 5 HOT_SWAP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 95
Sensor No. 7 (0x07) FRU 6 HOT_SWAP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 96
Sensor No. 8 (0x08) FRU 7 HOT_SWAP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 97
Sensor No. 9 (0x09) FRU 8 HOT_SWAP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 97
Sensor No. 10 (0x0A) FRU 9 HOT_SWAP, AXP1600 . . . . . . . . . . . . . . . . . . . . . . . . . 98
Sensor No. 11 (0x20) Fault Event Sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 98
Sensor No. 12 (0x0B) IPMB LINK 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 99
Sensor No. 13 (0x0C) IPMB LINK 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 100
Sensor No. 14 (0x0D) IPMB LINK 3 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 100
Sensor No. 15 (0x0E) IPMB LINK 4 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 101
Sensor No. 16 (0x0F) IPMB LINK 5 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 101
Sensor No. 17 (0x10) IPMB LINK 6 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 102
Sensor No. 18 (0x11) IPMB LINK 7 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 103
Sensor No. 19 (0x12) IPMB LINK 8 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 103
Sensor No. 20 (0x14) IPMB LINK 9 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 104
Sensor No. 21 (0x14) IPMB LINK 10 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 104
Sensor No. 22 (0x15) IPMB LINK 11 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 105
Sensor No. 23 (0x16) IPMB LINK 12 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 106
Sensor No. 24 (0x17) IPMB LINK 13 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 106
Sensor No. 25 (0x18) IPMB LINK 14 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 107
Sensor No. 26 (0x19) IPMB LINK 15, AXP1600 . . . . . . . . . . . . . . . . . . . . . . . . . . . . 108
Sensor No. 27 (0x1A) IPMB LINK 16, AXP1600 . . . . . . . . . . . . . . . . . . . . . . . . . . . . 108
Sensor No. 28 (0x1B) IPMB LINK 17 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 109
Sensor No. 29 (0x1C) IPMB LINK 18, AXP1600 . . . . . . . . . . . . . . . . . . . . . . . . . . . . 109
Sensor No. 30 (0x1D) IPMB LINK 19, AXP1600 . . . . . . . . . . . . . . . . . . . . . . . . . . . . 110
Sensor No. 31 (0x1E) IPMB LINK 20, AXP1600 . . . . . . . . . . . . . . . . . . . . . . . . . . . . 111
Sensor No. 32 (0x1F) IPMB LINK 21, AXP1600 . . . . . . . . . . . . . . . . . . . . . . . . . . . . 111
Sensor No. 131 (0x83) TELCO Alarms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 112
Sensor No. 132 (0x84) BMC Watchdog . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 113
Sensor No. 133 (0x85) SYSTEM EVENT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 113
Sensor No. 220 (0xDC) Fan Tray 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 114

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

9

List of Tables

Table 2-116
Table 2-117
Table 2-118
Table 2-119
Table 2-120
Table 2-121
Table 2-122
Table 2-123
Table 2-124
Table 2-125
Table 2-126
Table 2-127
Table 2-128
Table 2-129
Table 2-130
Table 2-131
Table 2-132
Table 2-133
Table 2-134
Table 2-135
Table 2-136
Table 2-137
Table 2-138
Table 2-139
Table 2-140
Table 2-141
Table 2-142
Table 2-143
Table 2-144
Table 2-145
Table 2-146
Table 2-147
Table 2-148
Table 2-149
Table 2-150
Table 3-1
Table A-1
Table B-1
Table B-2
Table B-3

10

Sensor No. 221 (0xDD) Fan Tray 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 222 (0xDE) Fan Tray 3 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 223 (0xDF) Fan Tray 4 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 224 (0xE0) Fan Tray 5 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 225 (0xE1) Fan Tray 6 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 226 (0xE2) Fan Tray 7 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 227 (0xE3) Fan Tray 8 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 228 (0xE4) Fan Tray 9, AXP1600 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 230 (0xE6) FT 1 -48 V Fuse . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 231 (0xE7) FT 2 -48 V Fuse . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 233 (0xE9) FT 4 -48 V Fuse . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 232 (0xE8) FT 3 -48 V Fuse . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 234 (0xEA) FT 5 -48 V Fuse . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 235 (0xEB) FT 6 -48 V Fuse . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 236 (0xEC) FT 7 -48 V Fuse . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 237 (0xED) FT 8 -48 V Fuse . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 238 (0xEE) FT9 -48 V Fuse, AXP1600 . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Configuration for PEMs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IPMI Sensors on the PEM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 2 +3.3 V . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 3 +8 V . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 4 +12 V Backplane . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 11 +48.0 V Feed . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 12 +7.5 V PEM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 13 +8 V PEM Feed 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 15 +8 V PEM Feed 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 14 +12 V Current . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 10 DS75 Temp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor #0, Hot Swap . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor #1, IPMB Physical . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor #5, CB 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor #6 CB 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 7 CB 3 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 8 CB 4 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sensor No. 9 CB 5 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Shm Fault Classes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
FRU State Table for Nonrecoverable Threshold Events from Temperature Sensors .
Emerson Newtork Power - Embedded Computing Documents . . . . . . . . . . . . . . . . .
Manufacturers Documents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Related Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

115
115
116
116
117
117
118
118
119
120
120
121
121
122
122
123
123
125
126
127
127
128
128
129
130
130
131
132
132
133
134
134
135
135
136
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144
147
148
148

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

About this Manual

Overview of Contents
The information in this reference guide support both Centellis 3406 and Centellis 3600
platforms. The differences between the two platforms are:
z

The AXP1406 is a 14-slot shelf with 2 PEMs, 2 SAMs, and 8 FTMs.

z

The AXP1600 is a 16-slot shelf with 2 PEMs, 2 SAMs, and 9 FTMs.

This guide provides FRU data and SDR for each AXP shelf. On the AXP1600 platform,
additional sensors are described for FTM FRU 9. All AXP1600 FRU data and sensor
information is clearly identified throughout this guide.
The AXP1406 and AXP1600 both have an Intelligent Peripheral Management Controller
(IPMC) which is fully compliant to the IPMI V1.5 specification. The IPMC provides access to onboard Sensor Data Records (SDRs), Field Replaceable Unit (FRU) data, and furthermore
contains an event generator. Within this document you find a description of:
z

Supported IPMI commands

z

FRU States

z

SDRs

z

FRU data

For the last two items in the list, the default values are given for reference purposes if you want
to restore the factory values.
This manual is divided into the following chapters and appendices.
Chapter 1, Supported IPMI Commands, lists IPMI commands supported by the IPMC.
Chapter 2, FRU Information and Sensor Data Records, lists the PEM, FTM, and SAM1000
Shelf Manager FRU information, as well as sensors that are accessible via IPMI for both the
AXP1406 and AXP1600 shelves.
Chapter 3, OEM Sensors, lists the additional OEM sensors that are accessible via IPMI for both
the AXP1406 and AXP1600 shelves.
Appendix A, System Behavior in Response to Sensor Events, describes the shelf manager’s
cooling management and FRU state management for nonrecoverable threshold events.
Appendix B, Related Documentation, lists publications for blade and software products used
with the Centellis 3406 and 3600 platforms.

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

11

About this Manual

Abbreviations
This document uses the following terms and abbreviations:
Term

Definition

FRU

Field Replaceable Unit. A module or component which will typically be replaced in its
entirety as part of a field service repair operation.

FTM

Fan Tray Module. An FRU that provides cooling to the shelf.

IPMB

Intelligent Platform Management Bus. Name for the architecture, protocol, and
implementation of a special bus that interconnects the baseboard and chassis
electronics and provides a communications media for system platform management
information. The bus is built on I2C and provides a communications path between
“management controllers” such as the BMC, FPC, and HSC.

LPMI

Local Peripheral Manager Interface.

LUN

Logical Unit Number. In the context of the Intelligent Platform Management Bus
protocol, this is a subaddress that allows messages to be routed to different ‘logical
units’ that reside behind the same I2C slave address.

PEM

Power Entry Module. An FRU that introduces power to the shelf.

SAM

Shelf Manager. An FRU that provides system management functions for shelf
components.

SDR

Sensor Data Record. A data record that provides platform management sensor type,
locations, event generation, and access information.

SEL

System Event Log. A non-volatile storage area and associated interfaces for storing
system platform event information for later retrieval.

Conventions
The following table describes the conventions used throughout this manual.

12

Notation

Description

0x00000000

Typical notation for hexadecimal numbers (digits
are 0 through F), for example used for addresses
and offsets

0b0000

Same for binary numbers (digits are 0 and 1)

bold

Used to emphasize a word

Screen

Used for on-screen output and code related
elements or commands in body text

Courier + Bold

Used to characterize user input and to separate it
from system output

Reference

Used for references and for table and figure
descriptions

File > Exit

Notation for selecting a submenu



Notation for variables and keys

[text]

Notation for software buttons to click on the screen
and parameter description

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

About this Manual

Notation

Description

...

Repeated item for example node 1, node 2, ...,
node 12

.

Omission of information from example/command
that is not necessary at the time being

.
.
..

Ranges, for example: 0..4 means one of the
integers 0,1,2,3, and 4 (used in registers)

|

Logical OR
Indicates a hazardous situation which, if not
avoided, could result in death or serious injury

Indicates a hazardous situation which, if not
avoided, may result in minor or moderate injury

Indicates a property damage message

No danger encountered. Pay attention to important
information

Summary of Changes
The next table provides information on the changes since the first release of this manual. This
edition supersedes all other releases.
Date

Description of Change

Replaces

April 2008

Updated to Emerson style.

6806800B66B

April 2007

Shm Fault Event OEM Sensor added.

6806800B66A

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

13

About this Manual

Comments and Suggestions
We welcome and appreciate your comments on our documentation. We want to know what you
think about our manuals and how we can make them better.
Mail comments to us by filling out the following online form:
http://www.emersonnetworkpowerembeddedcomputing.com/ > Contact Us > Online Form
In “Area of Interest” select “Technical Documentation”. Be sure to include the title, part number,
and revision of the manual and tell us how you used it.

14

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Supported IPMI Commands

1.1

1

Introduction
This chapter describes the different commands supported by the Centellis 3000 series
platforms. Command categories are as follows:

1.2

z

Standard IPMI Commands

z

PICMG 3.0 Commands

z

Emerson and Pigeon Point OEM Commands

Standard IPMI Commands
The IPMC is fully compliant to the Intelligent Platform Management Interface v.1.5. This section
provides information on which IPMI commands are supported. Table entries marked with an “x”
indicate which FRU or ATCA blade supports a listed command.

1.2.1

Global IPMI Commands
The IPMC supports the following global IPMI commands.

Table 1-1 Supported Global IPMI Commands
NetFn Rq/Rs

Command

CMD

Active
ShelfMgr

Physical
ShelfMgr

PEMs

FTMs

ATCA
Blades

Get Device ID

0x06/0x07

0x01

X

X

X

X

X

Cold Reset

0x06/0x07

0x02

X

X

X

X

Warm Reset

0x06/0x07

0x03

X

X

X

Get Self Test Result

0x06/0x07

0x04

X

X

X

X

X

Set ACPI Power State

0x06/0x07

0x06

X

X

*

Get ACPI Power State

0x06/0x07

0x07

X

X

*

Get Device GUID

0x06/0x07

0x08

X

X

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

X

X

X

15

Supported IPMI Commands

1.2.2

BMC WatchDog Timer Commands

BMC WatchDog Timer Commands
The IPMC supports the following BMC WatchDog Timer commands.

Table 1-2 Supported BMC WatchDog Timer Commands
Command

NetFn
R1/Rs

CMD

Active
ShelfMgr

Physical
ShelfMgr

Reset Watchdog Timer

0x06/0x07

0x22

X

X

X

Set Watchdog Timer

0x06/0x07

0x24

X

X

X

Get Watchdog Timer

0x06/0x07

0x25

X

X

X

1.2.3

PEMs

FTMs

ATCA
Blades

BMC Device and Messaging Commands
The IPMC supports the following BMC device and messaging commands.

Table 1-3 Supported BMC Device and Messaging Commands
Command

NetFn
Rq/Rs

CMD

Active
ShelfMgr

Physical
ShelfMgr

PEMs

FTMs

ATCA
Blades

Set BMC Global Enables

0x06/0x07

0x2E

X

X

X

X

X

Get BMC Global Enables

0x06/0x07

0x2F

X

X

X

X

X

Clear Message Flags

0x06/0x07

0x30

X

X

X

X

X

Get Message Flags

0x06/0x07

0x31

X

X

X

X

X

Send Message

0x06/0x07

0x34

X

X

X

X

X

Get System GUID

0x06/0x07

0x37

X

X

X

X

X

Get Channel Authentication
Capabilities

0x06/0x07

0x38

X

X

X

X

X

Get Session Challenge

0x06/0x07

0x39

X

X

X

X

X

Activate Session

0x06/0x07

0x3A

X

X

X

X

X

Set Session Privilege Level

0x06/0x07

0x3B

X

X

X

X

X

Close Session

0x06/0x07

0x3C

X

X

X

X

X

Get Session Info

0x06/0x07

0x3D

X

X

X

X

X

Get AuthCode

0x06/0x07

0x3F

X

X

X

X

X

Set Channel Access

0x06/0x07

0x40

X

X

X

X

X

Get Channel Access

0x06/0x07

0x41

X

X

X

X

X

Get Channel Info Command

0x06/0x07

0x42

X

X

X

X

X

Set User Access Command

0x06/0x07

0x43

X

X

X

X

X

Get User Access Command

0x06/0x07

0x44

X

X

X

X

X

Set User Name

0x06/0x07

0x45

X

X

X

X

X

Get User Name Command

0x06/0x07

0x46

X

X

X

X

X

Set User Password Command

0x06/0x07

0x47

X

X

X

X

X

16

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Chassis Device Commands

1.2.4

Supported IPMI Commands

Chassis Device Commands
The IPMC supports the following chassis device commands.

Table 1-4 Supported Chassis Device Commands
Command

NetFn
Rq/Rs

CMD

Active
ShelfMgr

Physical
ShelfMgr

Get Chassis Capabilities

0x00/0x01

0x00

X

X

Get Chassis Status

0x00/0x01

0x01

X

X

Chassis Control

0x00/0x01

0x02

X

X

Set Chassis Capabilities

0x00/0x01

0x05

X

X

Set System Boot Options*

0x00/0x01

0x08

X

Get System Boot Options*

0x00/0x01

0x09

X

PEMs

FTMs

ATCA
Blades

*The data portion of these commands are blade-specific. Refer to the respective blade specification.

1.2.5

Event Commands
The IPMC supports the following event commands.

Table 1-5 Supported Event Commands
Command

NetFn Rq/Rs

CMD

Active
ShelfMgr

Physical
ShelfMgr

PEMs

FTMs

ATCA
Blades

Set Event Receiver

0x04/0x05

0x00

X

X

X

X

X

Get Event Receiver

0x04/0x05

0x01

X

X

X

X

X

Platform Event (a.k.a. “Event
Message”)

0x04/0x05

0x02

X

X

*

*ATCA-F101 supports this command.

1.2.6

PEF and Alerting Commands
The IPMC supports the following PEF and alerting commands.

Table 1-6 Supported PEF and Alerting Commands
Command

NetFn
Rq/Rs

CMD

Active
ShelfMgr

Physical
ShelfMgr

Get PEF Capabilities

0x04/0x05

0x10

X

X

Arm PEF Postpone Timer

0x04/0x05

0x11

X

X

Set PEF Configuration Parameters

0x04/0x05

0x12

X

X

Get PEF Configuration Parameters

0x04/0x05

0x13

X

X

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

PEMs

FTMs

ATCA
Blades

17

Supported IPMI Commands

Sensor Device Commands

Table 1-6 Supported PEF and Alerting Commands (continued)
Command

NetFn
Rq/Rs

CMD

Active
ShelfMgr

Physical
ShelfMgr

Set Last Processed Event ID

0x04/0x05

0x14

X

X

Get Last Processed Event ID

0x04/0x05

0x15

X

X

Alert Immediate

0x04/0x05

0x16

X

X

PET Acknowledge

0x04/0x05

0x17

X

X

1.2.7

PEMs

ATCA
Blades

FTMs

Sensor Device Commands
The IPMC supports the following sensor device commands.

Table 1-7 Supported Sensor Device Commands
Command

NetFn
Rq/Rs

CMD

Active
ShelfMgr

Physical
ShelfMgr

PEMs

FTMs

ATCA
Blades

Get Device SDR Info

0x04/0x05

0x20

X

X

X

X

X

Get Device SDR

0x04/0x05

0x21

X

X

X

X

X

Reserve Device SDR Repository

0x04/0x05

0x22

X

X

X

X

X

Get Sensor Reading Factors

0x04/0x05

0x23

X

X

X

X

X

Set Sensor Hysteresis

0x04/0x05

0x24

X

X

X

X

X

Get Sensor Hysteresis

0x04/0x05

0x25

X

X

X

X

X

Set Sensor Threshold

0x04/0x05

0x26

X

X

X

X

X

Get Sensor Threshold

0x04/0x05

0x27

X

X

X

X

X

Set Sensor Event Enable

0x04/0x05

0x28

X

X

X

X

X

Get Sensor Event Enable

0x04/0x05

0x29

X

X

X

X

X

Re-arm Sensor Events

0x04/0x05

0x2a

X

X

Get Sensor Event Status

0x04/0x05

0x2b

X

X

X

X

X

Get Sensor Reading

0x04/0x05

0x2d

X

X

X

X

X

Set Sensor Type

0x04/0x05

0x2e

X

X

Get Sensor Type

0x04/0x05

0x2f

X

X

*

*
X

X

X

*ATCA-F101 Supports this command.

18

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

FRU Device Commands

1.2.8

Supported IPMI Commands

FRU Device Commands
The IPMC supports the following FRU device commands.

Table 1-8 Supported FRU Commands
Command

NetFn Rq/Rs

CMD

Active
ShelfMgr

Physical
ShelfMgr

PEMs

FTMs

ATCA
Blades

Get FRU Inventory Area Info

0x0A/0x0B

0x10

X

X

X

X

X

Read FRU Data

0x0A/0x0B

0x11

X

X

X

X

X

Write FRU Data

0x0A/0x0B

0x12

X

X

X

X

X

FTMs

ATCA
Blades

1.2.9

SDR Device Commands
The IPMC supports the following SDR device commands.

Table 1-9 Supported SDR Device Commands
Command

NetFn
Rq/Rs

CMD

Active
ShelfMgr

Get SDR Repository Info

0x0A/0x0B

0x20

X

Get SDR Repository
Allocation Info

0x0A/0x0B

0x21

Reserve SDR Repository

0x0A/0x0B

0x22

X

Get SDR

0x0A/0x0B

0x23

X

Add SDR

0x0A/0x0B

0x24

X

Partial Add SDR

0x0A/0x0B

0x25

X

Delete SDR

0x0A/0x0B

0x26

X

Clear SDR Repository

0x0A/0x0B

0x27

X

Get SDR Repository Time

0x0A/0x0B

0x28

X

Set SDR Repository Time

0x0A/0x0B

0x29

X

1.2.10

Physical
ShelfMgr

PEMs

SEL Device Commands
The IPMC supports the following SEL device commands.

Table 1-10 Supported SEL Commands
Command

NetFn
Rq/Rs

CMD

Active
ShelfMgr

Get SEL Info

0x0A/0x0B

0x40

X

Get SEL Allocation Info

0x0A/0x0B

0x41

X

Reserve SEL

0x0A/0x0B

0x42

X

Get SEL Entry

0x0A/0x0B

0x43

X

Physical
ShelfMgr

PEMs

FTMs

ATCA
Blades

X

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

19

Supported IPMI Commands

LAN Device Commands

Table 1-10 Supported SEL Commands (continued)
Command

NetFn
Rq/Rs

CMD

Active
ShelfMgr

Physical
ShelfMgr

Add SEL Entry

0x0A/0x0B

0x44

X

X

Partial Add SEL Entry

0x0A/0x0B

0x45

X

X

Delete SEL Entry

0x0A/0x0B

0x46

X

X

Clear SEL

0x0A/0x0B

0x47

X

X

Get SEL Time

0x0A/0x0B

0x48

X

Set SEL Time

0x0A/0x0B

0x49

X

1.2.11

PEMs

FTMs

ATCA
Blades

X

LAN Device Commands
The IPMC supports the following LAN device commands.

Table 1-11 Supported LAN Device Commands
Command

NetFn
Rq/Rs

CMD

Active
ShelfMgr

Set LAN Configuration Parameters

0x0C/0x0D

0x01

X

Get LAN Configuration Parameters

0x0C/0x0D

0x02

X

Suspend BMC ARPs

0x0C/0x0D

0x03

X

1.2.12

Physical
ShelfMgr

PEMs

FTMs

ATCA
Blades

Serial/Modem Device Commands
The IPMC supports the following serial/modem device commands.

Table 1-12 Supported Serial/Modem Device Commands
Command

NetFn Rq/Rs

CMD

Active
ShelfMgr

Set User Callback Options

0x0C/0x0D

0x1A

X

Get User Callback Options

0x0C/0x0D

0x1B

X

20

Physical
ShelfMgr

PEMs

FTMs

ATCA
Blades

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

PICMG 3.0 Commands

1.3

Supported IPMI Commands

PICMG 3.0 Commands
The Emerson IPMC is a fully compliant AdvancedTCA Intelligent Platform Management
Controller. For example, it supports all required and mandatory AdvancedTCA commands as
defined in the PICMG 3.0 specification.

Table 1-13 Supported PICMG 3.0 Commands
Command

NetFn Rq/Rs

CMD

Active
ShelfMgr

Physical
ShelfMgr

PEMs

FTMs

ATCA
Blades

Get PICMG Properties

0x2C/0x2D

0x00

X

X

X

X

X

Get Address Info

0x2C/0x2D

0x01

X

X

X

X

X

Get Shelf Address Info

0x2C/0x2D

0x02

X

X

Set Shelf Address Info

0x2C/0x2D

0x03

X

X

FRU Control

0x2C/0x2D

0x04

X

X

X

X

X

Get FRU LED Properties

0x2C/0x2D

0x05

X

X

X

Get LED Color Capabilities

0x2C/0x2D

0x06

X

X

X

Set FRU LED State

0x2C/0x2D

0x07

X

X

X

Get FRU LED State

0x2C/0x2D

0x08

X

X

X

Set IPMB State

0x2C/0x2D

0x09

X

X

X

X

X

Set FRU Activation Policy

0x2C/0x2D

0x0A

X

X

X

X

X

Get FRU Activation Policy

0x2C/0x2D

0x0B

X

X

X

X

X

Set FRU Activation

0x2C/0x2D

0x0C

X

X

X

X

X

Get Device Locator Record
ID

0x2C/0x2D

0x0D

X

X

X

X

X

Set Port State

0x2C/0x2D

0x0E

X

X

X

Get Port State

0x2C/0x2D

0x0F

X

X

X

Compute Power Properties

0x2C/0x2D

0x10

X

X

X

X

X

Set Power Level

0x2C/0x2D

0x11

X

X

X

X

X

Get Power Level

0x2C/0x2D

0x12

X

X

X

X

X

Renegotiate Power

0x2C/0x2D

0x13

Get Fan Speed Properties

0x2C/0x2D

0x14

X

Set Fan Level

0x2C/0x2D

0x15

X

Get Fan Level

0x2C/0x2D

0x16

X

Bused Resource

0x2C/0x2D

0x17

Get IPMB Link Info

0x2C/0x2D

0x18

X

X
X

X

X

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

21

Supported IPMI Commands

1.4

Emerson and Pigeon Point OEM Commands

Emerson and Pigeon Point OEM Commands
These commands can only be sent to the Emerson AXP1406 and AXP1600 Shelf Managers,
sending these commands to other shelf managers or IPMCs will result in error responses or
undefined behavior.
The SAM supports these OEM IPMI commands that are not defined in the IPMI 1.5 or PICMG
3.0 specifications.
Table 1-14 OEM Command Summary
IPMI NetFn (Request/Response)

Emerson OEM Command

IPMI Cmd

Get Shelf Configuration Record

0x2E / 0x2F

0x01

Shelf Manager Switchover

0x2E / 0x2F

0x02

Set FRU Extracted

0x2E / 0x2F

0x03

This command gets the shelf configuration for the AXP1600.
Table 1-15 Get Shelf Configuration Record (Cmd = 0x01)

Request data

Byte

Data field

1

Pigeon Point Systems IANA Enterprise number, LSB first

2

0x0A

3

0x40
0x00

4

IANA enterprise number for the desired record, LSB first

5
6

Response
data

7

Record Type

8

Record Number

9

Offset within record

10

Count of bytes to retrieve

1

Completion Code

2

Pigeon Point Systems IANA Enterprise number, LSB first

3
4
5

0x0A
0x40
Requested bytes from the specified Shelf FRU record

…
n

22

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Emerson and Pigeon Point OEM Commands

Supported IPMI Commands

This command requests a SAM switchover.
Table 1-16 Shelf Manager Switchover (Cmd = 0x02)

Request data

Byte

Data field

1

Pigeon Point Systems IANA Enterprise number, LSB first

2

0x0A

3

0x40
0x00

4

Flags
0x00 Switchover, but do not reboot the active Shelf Manager
0x01 Switchover, and reboot the active Shelf Manager

Response data

1

Completion Code

2

0x0A

3

0x40

4

0x00

This command instructs the SAM to transition a FRU to the M0 (not installed) state.
Table 1-17 Set FRU Extracted (Cmd = 0x03)

Request data

Response data

Byte

Data field

1

Pigeon Point Systems IANA Enterprise number, LSB first

2

0x0A

3

0x40
0x00

4

IPMB address

5

FRU Id

6

Force option
0x00 Only extract specified FRU if it is in M7 state
0x01 Extract the specified FRU regardless of its current state

1

Completion Code

2

Pigeon Point Systems IANA Enterprise number, LSB first

3

0x0A

4

0x40
0x00

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

23

Supported IPMI Commands

24

Emerson and Pigeon Point OEM Commands

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

FRU Information and Sensor Data
Records
2.1

2

Introduction
This chapter introduces FRU information, e-keying, sensor overviews, and power configuration
data for each subcomponent of the AXP1406 and AXP1600 shelf. Information in this chapter
also includes:
z

Total Power Consumption

z

SAM1000 Physical Shelf Manager

z

SAM1000 Active (Virtual) Shelf Manager

z

Power Entry Module Sensor Data Records

Subcomponents include the Power Entry Modules (PEMs), upper and lower Fan Tray Modules
(FTMs), and the SAM1000 Shelf Management Alarm Module (SAMs), both physical and active.
All fan tray sensors are exposed by the Active SAM.

2.2

Total Power Consumption
The following table shows the total power requirements for the shelf. Power consumption
breakdown is shown in the next table.
Table 2-1 Total Power Consumption for AXP 1406 and AXP1600 Shelves
Amps per Fan

Maximum Total Watts

AXP1406 Shelf
8 FTMs without AdvancedTCA Blades

400 Watts

AXP1600 Shelf
9 FTMs without AdvancedTCA Blades

400 Watts

Assumes the shelf is configured with 2 SAMs, 2 PEMs, and all FTMs running at full
speed.

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

25

FRU Information and Sensor Data Records

2.3

SAM1000 Physical Shelf Manager

SAM1000 Physical Shelf Manager
This section describes in detail the physical SAM Shelf Manager, FRU data, power
configuration and sensors at IPMB addresses 0xFC and 0xFE. The information in this section
supports the SAM on both the AXP1406 and AXP1600 shelves. The AXP1600 FRU and sensor
data is highlighted and marked for ease of use.

2.3.1

SAM Physical FRU Information
The following tables provides the FRU information for the physical SAM on the AXP1406 and
AXP1600 shelves.

2.3.1.1

Physical Shelf Manager FRU Data, AXP1406
Common Header:

Format Version = 1

Internal Use Area:
Version = 1
Board Info Area:
Version

= 1

Language Code
Mfg Date/Time

= 25
= Mar 30 23:00:00 2005 (4862820 minutes since 1996)

Board Manufacturer

= Pigeon Point Systems

Board Product Name

= IPM Sentry ShMM-500

Board Serial Number

= PPS0000000

Board Part Number

= A

FRU Programmer File ID

=

Product Info Area:
Version

26

= 1

Language Code

= 25

Manufacturer Name

= Pigeon Point Systems

Product Name

= IPM Sentry Shelf Manager

Product Part / Model#

= 000000

Product Version

= Rev 1.00

Product Serial Number

= PPS0000000

Asset Tag

=

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

SAM Physical FRU Information

FRU Information and Sensor Data Records

FRU Programmer File ID

=

Multi Record Area:
PICMG Board Point-to-Point Connectivity Record (ID=0x14)
Version = 0

2.3.1.2

Physical Shelf Manager FRU Data, AXP1600
Common Header:

Version

Language Code
Mfg Date/Time

= 1
= 25
= Jan

1 00:00:00 2006 (5260320 minutes since 1996)

Board Manufacturer

= Pigeon Point Systems

Board Product Name

= IPM Sentry ShMM-500

Board Serial Number

= 08000000

Board Part Number

= 01-W3911F11B

FRU Programmer File ID

= SAM1000R.inf

Product Info Area:
Version

= 1

Language Code

= 25

Manufacturer Name

= Motorola

Product Name

= SAM1000

Product Part / Model#

= 01-W2313F11A

Product Version

= Rev 1.00

Product Serial Number

= 12345678901

Asset Tag

=

FRU Programmer File ID

= SAM1000R.inf

Multi Record Area:
PICMG Board Point-to-Point Connectivity Record (ID=0x14)
Version = 0

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

27

FRU Information and Sensor Data Records

2.3.2

E-Keying

E-Keying
The physical SAMs (IPMB 0xfc and 0xfe) each contain the following Point-to-Point
Connectivity Record:
PICMG Board Point-to-Point Connectivity Record (ID=0x14)
Version = 0
OEM GUID Count

= 0

Link Descriptor:
Link Grouping ID

= 0x00

Link Type

= 0x01

Link Type Extension

= 0x0 10/100/1000BASE-T Link (four-pair)

Link Designator

= 0x101 Channel1/BaseInterface/Ports0

PICMG®3.0 Base 10/100/1000 Base-T

Link Descriptor:

2.3.3

Link Grouping ID

= 0x00

Link Type

= 0x01

Link Type Extension

= 0x0 10/100/1000BASE-T Link (four-pair)

Link Designator

= 0x102 Channel2/BaseInterface/Ports0

PICMG®3.0 Base 10/100/1000 Base-T

Power Configuration
The following table describes the power configuration for the Physical SAM.
Table 2-2 SAM Physical Power Configuration

28

Item

Value

Meaning

Dynamic power reconfiguration
support

No

Possibility to change FRU power consumption without
switching it off, according to ATCA

Dynamic power configuration

No

Are the Power Draw levels fixed or these may vary if
additional components are hot inserted or onboard
components power consumption is changing
dynamically

Number of Power Draw Levels

1

The amount of possible power levels, normally 1

Early Power Draw Levels, Watt

20

Complete early power consumption including IPMC

Steady state Power Draw Levels,
Watt

20

Complete steady power consumption including IPMC

Transition from Early to Steady
levels, sec

0

How long does board consumes early power. Early
power is normally bigger than steady

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Sensor Overview

2.3.4

FRU Information and Sensor Data Records

Sensor Overview
The following table lists all IPMI sensors available on the physical SAM at IPMB addresses
0xFC and 0xFE. The information in this section supports the SAM on both the AXP1406 and
AXP1600 shelves. The AXP1600 FRU and sensor data is highlighted and marked for ease of
use.
Table 2-3 Sensor Overview
Sensor
No.

Sensor Name

Type of
Measurement

What does it
measure?

Sensor
Type

Availability

0

FRU 0 HOT_SWAP

Status

State of FRU

Discrete

Always

1

IPMB LINK

Status

State of IPMB link

Discrete

Always

2

Vbat

Voltage

Analog

Always

3

Vcc 3.3 V voltage

Voltage

Analog

Always

4

+12 V voltage

Voltage

Analog

Always

5

+1.8 V

Voltage

Analog

Always

6

MAX6656 INT @1A

Temperature

Analog

Always

7

MAX6656 EXT1 @1A

Temperature

Analog

Always

8

MAX6656 EXT2 @1A

Temperature

Analog

Always

9

PEM A

Status

PEM A Presence

Discrete

Always

10

PEM B

Status

PEM B Presence

Discrete

Always

11

NSC A1

Status

NSC Board
Presence

Discrete

Always

12

NSC B1

Status

NSC Board
Presence

Discrete

Always

13

AXP Backplane ID

OEM

Backplane Bus
Type

Discrete

Always

14

12 V In B Valid

Status

Power Unit

Discrete

Always

15

12 V In A Valid

Status

Power Unit

Discrete

Always

16

Fault Event

OEM

Shelf Manager
Rebooting Notifier

Discrete

Always

17

POST Results

Status

Management
Subsystem Health

Discrete

Always

18

Shelf FRU Info

OEM

Shelf Fru Info
Validity

Discrete

Always

128

CPLD State

OEM

Master and
Backup Shelf
Manager State

Discrete

Always

1. These are additional sensors on the SAM1000 for the AXP1600.

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

29

FRU Information and Sensor Data Records

2.3.5

SAM Physical Shelf Manager Analog Sensors

SAM Physical Shelf Manager Analog Sensors
The physical shelf managers at IPMB addresses 0xFC and 0xFE present the following analog
sensors:
z

Voltage Sensors

z

Temperature Sensors

The following tables describe the analog sensors available on the physical SAM. The
information in this section supports the SAM on both the AXP1406 and AXP1600 shelves. The
AXP1600 FRU and sensor data is highlighted and marked for ease of use.

2.3.5.1

Voltage Sensors
The following table describes the analog voltage sensors on the physical SAM.
Table 2-4 Sensor No. 2 Vbat
Feature

Raw Value/Description

Sensor Name

Vbat

Interpreted Value

Device
Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x60

PICMG Shelf Management
Controller

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable threshold mask,
Settable threshold mask (bytes
19, 20)

0x12, 0x12

Reading Type

30

Upper and Lower Critical
Thresholds are Readable and
Settable
Unsigned

Lower critical threshold

0x00

0 Volts

Upper critical threshold

0xFF

3.315 Volts

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

SAM Physical Shelf Manager Analog Sensors

FRU Information and Sensor Data Records

Table 2-5 Sensor No. 3 3.3 V Voltage
Feature

Raw Value/Description

Sensor Name

Vcc 3.3 V voltage

Interpreted Value

Device
Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x60

PICMG Shelf Management
Controller

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable threshold mask,
Settable threshold mask (bytes
19, 20)

0x12, 0x12

Reading Type

Upper and Lower Critical
Thresholds are Readable and
Settable
Unsigned

Lower critical threshold

0x73

3.0245 Volts

Upper critical threshold

0x88

3.5768 Volts

Table 2-6 Sensor No. 4 +12 V Voltage
Feature

Raw Value/Description

Sensor Name

+12 V voltage

Interpreted Value

Device
Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x60

PICMG Shelf Management
Controller

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable threshold mask,

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FRU Information and Sensor Data Records

SAM Physical Shelf Manager Analog Sensors

Table 2-6 Sensor No. 4 +12 V Voltage (continued)
Feature

Raw Value/Description

Interpreted Value

Settable threshold mask (bytes
19, 20)

0x12, 0x12

Upper and Lower Critical
Thresholds are Readable and
Settable

Reading Type

Unsigned

Lower critical threshold

0x00

0 Volts

Upper critical threshold

0xFF

15.81 Volts

Feature

Raw Value/Description

Interpreted Value

Sensor Name

+1.8 V

Table 2-7 Sensor No. 5 +1.8 V

Type of measurement

Voltage

Device
Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x60

PICMG Shelf Management
Controller

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable threshold mask,
Settable threshold mask (bytes
19, 20)

0x10, 0x10

Reading Type

Unsigned

Upper critical threshold

2.3.5.2

Upper Critical Threshold is
Readable and Settable

0xFF

2.499 Volts

Temperature Sensors
The following tables describe the analog temperature sensors available on the physical SAM.
Table 2-8 Sensor No. 6 MAX6656 INT@1A
Feature

Raw Value/Description

Sensor Name

MAX6656 INT @1A

Interpreted Value

Device

32

Sensor Type

0x01

Temperature

Class

0x01

Threshold

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

SAM Physical Shelf Manager Analog Sensors

FRU Information and Sensor Data Records

Table 2-8 Sensor No. 6 MAX6656 INT@1A (continued)
Feature

Raw Value/Description

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x60

Interpreted Value

PICMG Shelf Management
Controller

Rearm mode

Auto

Hysteresis support

Readable and Settable

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable threshold mask,
Settable threshold mask (bytes
19, 20)

0x38, 0x38

Reading Type
Upper Non-Critical, Critical and
Non-Recoverable threshold

Upper Non-Critical, Critical and
Non-Recoverable Thresholds
are Readable and Settable
2's Complement

0x50, 0x5A, 0x64

(80, 90, 100) Centigrade

Table 2-9 Sensor No. 7 MAX6656 EXT1@1A
Feature

Raw Value/Description

Sensor Name

MAX6656 EXT1 @1A

Interpreted Value

Device
Sensor Type

0x01

Temperature

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x60

PICMG Shelf Management
Controller

Rearm mode

Auto

Hysteresis support

Readable and Settable

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable threshold mask,
Settable threshold mask (bytes
19, 20)

0x38, 0x38

Reading Type
Upper Non-Critical, Critical and
Non-Recoverable threshold

Upper Non-Critical, Critical and
Non-Recoverable Thresholds
are Readable and Settable
2's Complement

0x50, 0x5A, 0x64

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

(80, 90, 100) Centigrade

33

FRU Information and Sensor Data Records

SAM Module Discrete Sensors

Table 2-10 Sensor No. 8 MAX6656 EXT2@1A
Feature

Raw Value/Description

Sensor Name

MAX6656 EXT2 @1A

Interpreted Value

Device
Sensor Type

0x01

Temperature

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x60

PICMG Shelf Management
Controller

Rearm mode

Auto

Hysteresis support

Readable and Settable

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable threshold mask,
Settable threshold mask (bytes
19, 20)

0x38, 0x38

Reading Type

2's Complement

Upper Non-Critical, Critical and
Non-Recoverable threshold

2.3.6

Upper Non-Critical, Critical and
Non-Recoverable Thresholds
are Readable and Settable

0x50, 0x5A, 0x64

(80, 90, 100) Centigrade

SAM Module Discrete Sensors
The physical shelf managers at IPMB addresses 0xFC and 0xFE present the following discrete
sensors:

34

z

Hot Swap Sensor

z

IPMB Link Sensor

z

PEM A Sensor

z

PEM B Sensor

z

AXP Backplane ID Sensor

z

+12 V B Valid Sensor

z

+12 V A Valid Sensor

z

Fault Event Sensor

z

POST Results Sensor

z

Shelf FRU Info Sensor

z

CPLD State Sensor

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

SAM Module Discrete Sensors

2.3.6.1

FRU Information and Sensor Data Records

Hot Swap Sensor
The following table describes the discrete hot swap sensor available on the physical SAM.
Table 2-11 Sensor No. 0 FRU 0 HOT_SWAP
Feature

Raw Value/Description

Sensor Name

FRU 0 HOT_SWAP

Type of Measurement

Hot Swap State

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xF0

Hot Swap

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x60

PICMG Shelf Management
Controller

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes 15,
16)

0xFF, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0xFF, 0x00

Reading Definition

2.3.6.2

Interpreted Value

Supports 8 Successive States
According to PICMG 3.0

IPMB Link Sensor
The following table describes the discrete IPMB link sensor available on the physical SAM.
Table 2-12 Sensor No. 1 IPMB Link
Feature

Raw Value/Description

Sensor Name

IPMB LINK

Interpreted Value

Type of Measurement

IPMB Link State

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xF1

IPMB Link

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x60

Rearm mode

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

PICMG Shelf Management
Controller

Auto

35

FRU Information and Sensor Data Records

SAM Module Discrete Sensors

Table 2-12 Sensor No. 1 IPMB Link (continued)
Feature

Raw Value/Description

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x0F, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x0F, 0x00

Reading Definition

2.3.6.3

Interpreted Value

Supports 4 Successive States
According to PICMG 3.0

PEM A Sensor
The following table describes the discrete PEM A sensor available on the physical SAM.
Table 2-13 Sensor No. 9 PEM A
Feature

Raw Value/Description

Sensor Name

PEM A

Type of Measurement

Presence

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0x25

Entity Presence

Sensor Owner LUN

0x00

Entity ID

0x0A

Entity Instance

0x00

Power Supply

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x03, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x03, 0x00

Reading Definition

36

Interpreted Value

Supports 2 Successive States
According to IPMI 1.5

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

SAM Module Discrete Sensors

2.3.6.4

FRU Information and Sensor Data Records

PEM B Sensor
The following table describes the discrete PEM B sensor available on the physical SAM.
Table 2-14 Sensor No. 10 PEM B
Feature

Raw Value/Description

Sensor Name

PEM B

Interpreted Value

Type of Measurement

Presence

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0x25

Entity Presence

Sensor Owner LUN

0x00

Entity ID

0x0A

Entity Instance

0x01

Power Supply

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x03, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x03, 0x00

Reading Definition

Supports 2 Successive States
According to IPMI 1.5

Two additional NSC Presence sensor support the SAM used in the AXP1600 shelf.

Table 2-15 Sensor No. 11 NSC A (AXP1600 Only)
Feature

Raw Value/Description

Sensor Name

NSC A

Interpreted Value

Type of Measurement

Presence

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0x25

Entity Presence

Sensor Owner LUN

0x00

Entity ID

0x0B (add-in card)

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Power Supply

37

FRU Information and Sensor Data Records

SAM Module Discrete Sensors

Table 2-15 Sensor No. 11 NSC A (AXP1600 Only) (continued)
Feature

Raw Value/Description

Entity Instance

0x00

Interpreted Value

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x03, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x03, 0x00

Reading Definition

Supports 2 Successive States
According to IPMI 1.5

Table 2-16 Sensor No. 12 NSC B (AXP1600 Only)
Feature

Raw Value/Description

Sensor Name

NSC B

Type of Measurement

Presence

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0x25

Entity Presence

Sensor Owner LUN

0x00

Entity ID

0x0B (add-in card

Entity Instance

0x01

Power Supply

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x03, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x03, 0x00

Reading Definition

38

Interpreted Value

Supports 2 Successive States
According to IPMI 1.5

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

SAM Module Discrete Sensors

2.3.6.5

FRU Information and Sensor Data Records

AXP Backplane ID Sensor
The following table describes the discrete AXP backplane ID sensor available on the physical
SAM. For more detail on this sensor, refer to AXP Backplane ID (Emerson OEM) on page 138.
Table 2-17 Sensor No. 13 AXP Backplane ID
Feature

Raw Value/Description

Sensor Name

AXP Backplane ID

Type of Measurement

Specifies Bus Type of the
Backplane

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xDB

OEM-reserved

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x60

PICMG Shelf Management
Controller

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x01, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x01 0x00

Reading Definition

2.3.6.6

Interpreted Value

Supports 1 Successive State
According to Motorola XXXX

+12 V B Valid Sensor
The following table describes the discrete +12 V B valid sensor available on the physical SAM.
Table 2-18 Sensor No. 14 12 V B Valid
Feature

Raw Value/Description

Sensor Name

12 V In B Valid

Interpreted Value

Type of Measurement

State of Power Unit B

Class

Discrete

Event/Reading Type

0x03

'digital' Discrete

Sensor Type

0x09

Power Unit

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x60

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

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Controller

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SAM Module Discrete Sensors

Table 2-18 Sensor No. 14 12 V B Valid (continued)
Feature

Raw Value/Description

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x03, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x03, 0x00

Reading Definition

2.3.6.7

Interpreted Value

Supports 2 Successive States
According to IPMI 1.5

+12 V A Valid Sensor
The following table describes the discrete +12V A valid sensor available on the physical SAM.
Table 2-19 Sensor No. 15 12 V A Valid
Feature

Raw Value/Description

Sensor Name

12 V In A Valid

Type of Measurement

State of Power Unit A

Class

Discrete

Event/Reading Type

0x03

'digital' Discrete

Sensor Type

0x09

Power Unit

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x60

PICMG Shelf Management
Controller

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x03, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x03, 0x00

Reading Definition

40

Interpreted Value

Supports 2 Successive States
According to IPMI 1.5

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

SAM Module Discrete Sensors

2.3.6.8

FRU Information and Sensor Data Records

Fault Event Sensor
The following table describes the discrete fault event sensor available on the physical SAM.
Table 2-20 Sensor No. 16 Fault Event
Feature

Raw Value/Description

Sensor Name

Fault Event

Type of Measurement

Reports that the Shelf Manager
has Rebooted.

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xDC

OEM-reserved

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x60

PICMG Shelf Management
Controller

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x01, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x01, 0x00

Reading Definition

2.3.6.9

Interpreted Value

Supports 1 State
According to Motorola XXX

POST Results Sensor
The following table describes the discrete POST results sensor available on the physical SAM.
For more information on this sensor, refer to POST Results (Emerson OEM) on page 138.
Table 2-21 Sensor No. 17 POST Results
Feature

Raw Value/Description

Sensor Name

POST Results

Interpreted Value

Type of Measurement

POST Results

Class

Discrete

Event/Reading Type

0x06

'digital' Discrete

Sensor Type

0x28

Management Subsystem Health

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x60

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

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Controller

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SAM Module Discrete Sensors

Table 2-21 Sensor No. 17 POST Results (continued)
Feature

Raw Value/Description

Interpreted Value

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x02, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x03, 0x00

Reading Definition

Supports 2 Successive States
According to IPMI 1.5

2.3.6.10 Shelf FRU Info Sensor
The following table describes the discrete shelf FRU info sensor available on the physical SAM.
For more information on this sensor, refer to Shelf FRU Info (Emerson OEM) on page 139.
Table 2-22 Sensor No. 18 Shelf FRU Info
Feature

Raw Value/Description

Sensor Name

Shelf FRU Info

Type of Measurement

Basic validation of the Shelf
FRU Info

Class

Discrete

Event/Reading Type

0x09

'digital' Discrete

Sensor Type

0xDD

OEM-reserved

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x60

PICMG Shelf Management
Controller

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x03, 0x00

Deassertion Event Mask(bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x03, 0x00

Reading Definition

42

Interpreted Value

Supports 2 Successive States
According to Motorola XXX

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

SAM1000 Active (Virtual) Shelf Manager

FRU Information and Sensor Data Records

2.3.6.11 CPLD State Sensor
The following table describes the discrete CPLD state sensor available on the physical SAM.
Table 2-23 Sensor No. 128 CPLD State
Feature

Raw Value/Description

Sensor Name

CPLD State

Type of Measurement

States of the Master and Backup
Shelf Managers

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xDE

OEM-reserved

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x60

PICMG Shelf Management
Controller

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0xF7, 0x07

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0xF7, 0x07

Reading Definition

2.4

Interpreted Value

Supports 10 States
According to Motorola XXX

SAM1000 Active (Virtual) Shelf Manager
This section describes in detail all available IPMI sensors of the Active SAM1000 at IPMB
address 0x20. The information in this section supports the SAM on both the AXP1406 and
AXP1600 shelves. The AXP1600 FRU and sensor data is highlighted and/or marked for ease
of use.

2.4.1

FRU Information
FRU 0 of address 0x20 corresponds to the main FRU information of the respective Physical
SAM that is running as the Active SAM; it could be either FRU 0 of IPMB address 0xFC or FRU
0 of IPMB address 0xFE.
Active Shelf Manager FRU Data, AXP1406
There are an additional eight managed FRUs (FRUs 1 to 8) that correspond to each of the eight
fan trays that cool the chassis. The Active SAM FRU information is addressed as FRU 254
which is cached information from data stored as a FRU 1 in each of the PEMs (IPMB addresses
0x66 and 0x68).

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FRU Information and Sensor Data Records

FRU Information

Active Shelf Manager FRU Data, AXP1600
There are an additional nine managed FRUs (FRUs 1 to 9) that correspond to each of the nine
fan trays that cool the chassis. The Active SAM FRU information is addressed as FRU 254
which is cached information from data stored as a FRU 1 in each of the PEMs (IPMB addresses
0x66 and 0x68).
The following tables show an example of the output obtained when retrieving FRU information
using the CLIA tool of the Active SAM.

2.4.1.1

Active Shelf Manager FRU Data, AXP1406
# clia fruinfo 20 254
Pigeon Point Shelf Manager Command Line Interpreter

66: FRU # 1, FRU Info
Common Header:

Format Version = 1

Chassis Info Area:
Version

= 1

Chassis Type

= (2)

Chassis Part Number

= CHS1406

Chassis Serial Number

= 0000001

Board Info Area:
Version

= 1

Language Code
Mfg Date/Time

= 25
= Mar 29 00:00:00 2006 (5385600 minutes since 1996)

Board Manufacturer

= Motorola

Board Product Name

= CHS1406

Board Serial Number

= 0000001

Board Part Number

= CHS1406

FRU Programmer File ID

= CHS1406.inf

Product Info Area:
Version

44

= 1

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

FRU Information

FRU Information and Sensor Data Records

Language Code

= 25

Manufacturer Name

= Motorola

Product Name

= CHS1406

Product Part / Model#

= CHS1406

Product Version

= Rev. 1

Product Serial Number

= 0000001

Asset Tag

=

FRU Programmer File ID

= CHS1406.inf

Multi Record Area:
PICMG Shelf Manager IP Connection Record (ID=0x13)
Version = 1

Record Type

= Management Access Record

Version

= 2

Sub-Record Type: Component Name (0x05)

PICMG Address Table Record (ID=0x10)
Version = 0

PICMG Backplane Point-to-Point Connectivity Record (ID=0x04)
Version = 0

PICMG Backplane Point-to-Point Connectivity Record (ID=0x04)
Version = 0

PICMG Shelf Power Distribution Record (ID=0x11)
Version = 0

PICMG Radial IPMB-0 Link Mapping Record (ID=0x15)
Version = 0

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FRU Information and Sensor Data Records

FRU Information

PICMG Shelf Activation And Power Management Record (ID=0x12)
Version = 0

2.4.1.2

Record Type

= 0xc0 OEM Record

Version

= 2

Manufacturer ID

= 0x0000A1 MOTOROLA

Record ID

= 0x02

Active Shelf Manager FRU Data, AXP1600
Pigeon Point Shelf Manager Command Line Interpreter

20: FRU # 254, FRU Info
Common Header:

Format Version = 1

Chassis Info Area:
Version

= 1

Chassis Type

= (1)

Chassis Part Number

= 01-W1055C12B

Chassis Serial Number

= 00001

Board Info Area:
Version

= 1

Language Code

= 25

Mfg Date/Time

= Jan

1 00:00:00 2006 (5260320 minutes since 1

996)

46

Board Manufacturer

= Motorola

Board Product Name

= CHS1600

Board Serial Number

= 1234567890

Board Part Number

= CHS1600

FRU Programmer File ID

= CHS1600R_ShelfFru.inf

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

FRU Information

FRU Information and Sensor Data Records

Product Info Area:
Version

= 1

Language Code

= 25

Manufacturer Name

= Motorola

Product Name

= CHS1600

Product Part / Model#

= CHS1600

Product Version

= Rev. 1

Product Serial Number

= 00001

Asset Tag

=

FRU Programmer File ID

= CHS1600R_ShelfFru.inf

Multi Record Area:
PICMG Shelf Manager IP Connection Record (ID=0x13)
Version = 1

Record Type

= Management Access Record

Version

= 2

Sub-Record Type: Component Name (0x05)

PICMG Address Table Record (ID=0x10)
Version = 0

PICMG Backplane Point-to-Point Connectivity Record (ID=0x04)
Version = 0

PICMG Backplane Point-to-Point Connectivity Record (ID=0x04)
Version = 0

PICMG Backplane Point-to-Point Connectivity Record (ID=0x04)
Version = 0

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FRU Information and Sensor Data Records

FRU Information

PICMG Shelf Power Distribution Record (ID=0x11)
Version = 0

PICMG Radial IPMB-0 Link Mapping Record (ID=0x15)
Version = 0

PICMG Shelf Activation And Power Management Record (ID=0x12)
Version = 1

2.4.1.3

Record Type

= 0xc0 OEM Record

Version

= 2

Manufacturer ID

= 0x0000A1 MOTOROLA

Record ID

= 0x02

SAM1000 Shelf Manager FRU Data
Pigeon Point Shelf Manager Command Line Interpreter
fc: FRU # 0, FRU Info
Common Header:

Format Version = 1

Internal Use Area:
Version = 1
Board Info Area:
Version

= 1

Language Code
Mfg Date/Time

= 25
= Jan

1 00:00:00 2006 (5260320 minutes since 1996)

Board Manufacturer

= Pigeon Point Systems

Board Product Name

= IPM Sentry ShMM-500

Board Serial Number

= 08000000

Board Part Number

= 01-W3911F11B

FRU Programmer File ID

= SAM1000R.inf

Product Info Area:
Version

48

= 1

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

FRU Information

FRU Information and Sensor Data Records

Language Code

= 25

Manufacturer Name

= Motorola

Product Name

= SAM1000

Product Part / Model#

= 01-W2313F11A

Product Version

= Rev 1.00

Product Serial Number

= 12345678901

Asset Tag

=

FRU Programmer File ID

= SAM1000R.inf

Multi Record Area:
PICMG Board Point-to-Point Connectivity Record (ID=0x14)
Version = 0

2.4.1.4

Fan Tray FRU Data, AXP1406
There are eight fan trays in the AXP1406 shelf, six of them are located at the top of the shelf
and two are located in the bottom. Looking at the shelf from the top; the location of the fan tray
FRUs 1 through 6 looks like this:
Figure 2-1

Upper Fan Tray Locations, AXP1406
Top Rear

6

5

4

1

2

3

Top Front

The bottom fan tray are FRU 7 (left side) and FRU 8 (right side) looking at the shelf from the
front.
Figure 2-2

Lower Fan Tray Locations, AXP1406

7

8
Bottom Front

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FRU Information and Sensor Data Records

FRU Information

The FRU information for fan trays 1, 2 and 3 is the same (except serial numbers); similarly for
fan trays 4, 5 and 6; and for fan trays 7 and 8. This information follows:

2.4.1.5

Fan Tray FRUs 1,2, and 3 Data
Pigeon Point Shelf Manager Command Line Interpreter

20: FRU # 1, FRU Info
Common Header:

Format Version = 1

Board Info Area:
Version

= 1

Language Code
Mfg Date/Time

= 25
= Jan 10 00:00:00 2006 (5273280 minutes since 1996)

Board Manufacturer

= Motorola

Board Product Name

= CHS1406 Fan Tray

Board Serial Number

= AA123456

Board Part Number

= 0106876A01B

FRU Programmer File ID

= CHS1406R_FT_UpperFront.inf

Product Info Area:
Version

50

= 1

Language Code

= 25

Manufacturer Name

= Motorola

Product Name

= CHS1406 Fan Tray

Product Part / Model#

= TFT-F-1406

Product Version

= Rev. 1.00

Product Serial Number

= AA123456

Asset Tag

=

FRU Programmer File ID

= CHS1406R_FT_UpperFront.inf

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

FRU Information

2.4.1.6

FRU Information and Sensor Data Records

Fan Tray FRUs 4, 5, and 6 Data
Pigeon Point Shelf Manager Command Line Interpreter

20: FRU # 4, FRU Info
Common Header:
Format Version = 1
Board Info Area:
Version

= 1

Language Code

= 25

Mfg Date/Time

= Jan

1 00:00:00 2006 (5260320 minutes since 1996)

Board Manufacturer

= Motorola

Board Product Name

= CHS1406 Fan Tray

Board Serial Number

= AA123456

Board Part Number

= 0106877A01B

FRU Programmer File ID

= CHS1406R_FT_UpperRear.inf

Product Info Area:
Version

2.4.1.7

= 1

Language Code

= 25

Manufacturer Name

= Motorola

Product Name

= CHS1406 Fan Tray

Product Part / Model#

= TFT-R-1406

Product Version

= Rev. 1.00

Product Serial Number

= AA123456

Asset Tag

=

FRU Programmer File ID

= CHS1406R_FT_UpperRear.inf

Fan Tray FRUs 7 and 8 Data
Pigeon Point Shelf Manager Command Line Interpreter
20: FRU # 7, FRU Info
Common Header:

Format Version = 1

Board Info Area:
Version

= 1

Language Code

= 25

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Mfg Date/Time

FRU Information

= Jan 10 00:00:00 2006 (5273280 minutes since 1996)

Board Manufacturer

= Motorola

Board Product Name

= CHS1406 Fan Tray

Board Serial Number

= AA123456

Board Part Number

= 0106878A01B

FRU Programmer File ID

= CHS1406R_FT_LowerFront.inf

Product Info Area:
Version

2.4.1.8

= 1

Language Code

= 25

Manufacturer Name

= Motorola

Product Name

= CHS1406 Fan Tray

Product Part / Model#

= BFT-F-1406

Product Version

= Rev. 1.00

Product Serial Number

= AA123456

Asset Tag

=

FRU Programmer File ID

= CHS1406R_FT_LowerFront.inf

Fan Tray FRU Data, AXP1600
There are nine fan trays in the AXP1600 shelf, six of them are located at the top of the shelf
and three are located in the bottom. Looking at the shelf from the top; the location of the fan
tray FRUs 1 through 6 looks like this:
Figure 2-3

Upper Fan Tray Locations, AXP1600
Top Rear

6

5

4

1

2

3

Top Front

52

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

FRU Information

FRU Information and Sensor Data Records

The bottom three fan trays are FTM 7 (left side) and FTM 8 (center), and FTM 9 (right side)
looking at the shelf from the front.
Figure 2-4

Lower Fan Tray Locations, AXP1600

7

9

8
Bottom Front

The FRU information for fan trays 1, 2 and 3 is the same (except serial numbers); similarly for
fan trays 4, 5 and 6; and for fan trays 7, 8 and 9. This information follows:

2.4.1.9

Fan Tray FRUs 1, 2, and 3 Data, AXP1600
Pigeon Point Shelf Manager Command Line Interpreter

20: FRU # 1, FRU Info
Common Header:

Format Version = 1

Board Info Area:
Version

= 1

Language Code
Mfg Date/Time

= 25
= Jan

1 00:00:00 2006 (5260320 minutes since 1996)

Board Manufacturer

= Motorola

Board Product Name

= CHS1600 Fan Tray

Board Serial Number

= 1234567890

Board Part Number

= 01-W2327F12A

FRU Programmer File ID

= CHS1600R_FT_UpperFront.inf

Product Info Area:
Version

= 1

Language Code

= 25

Manufacturer Name

= Motorola

Product Name

= CHS1600 Fan Tray

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FRU Information and Sensor Data Records

FRU Information

Product Part / Model#

= TFT-F-1600

Product Version

= Rev. 1.00

Product Serial Number

= 1234567890

Asset Tag

=

FRU Programmer File ID

= CHS1600R_FT_UpperFront.inf

2.4.1.10 Fan Tray FRUs 4, 5, and 6 Data, AXP1600
Pigeon Point Shelf Manager Command Line Interpreter

20: FRU # 4, FRU Info
Common Header:

Format Version = 1

Board Info Area:
Version

= 1

Language Code
Mfg Date/Time

= 25
= Jan

1 00:00:00 2006 (5260320 minutes since 1996)

Board Manufacturer

= Motorola

Board Product Name

= CHS1600 Fan Tray

Board Serial Number

= 1234567890

Board Part Number

= 01-W2328F12A

FRU Programmer File ID

= CHS1600R_FT_UpperRear.inf

Product Info Area:
Version

54

= 1

Language Code

= 25

Manufacturer Name

= Motorola

Product Name

= CHS1600 Fan Tray

Product Part / Model#

= TFT-R-1600

Product Version

= Rev. 1.00

Product Serial Number

= 1234567890

Asset Tag

=

FRU Programmer File ID

= CHS1600R_FT_UpperRear.inf

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

E-Keying

FRU Information and Sensor Data Records

2.4.1.11 Fan Tray FRUs 7, 8 and 9 Data, AXP1600
Pigeon Point Shelf Manager Command Line Interpreter

20: FRU # 7, FRU Info
Common Header:

Format Version = 1

Board Info Area:
Version

= 1

Language Code
Mfg Date/Time

= 25
= Jan

1 00:00:00 2006 (5260320 minutes since 1996)

Board Manufacturer

= Motorola

Board Product Name

= CHS1600 Fan Tray

Board Serial Number

= 1234567890

Board Part Number

= 01-W2329F12A

FRU Programmer File ID

= CHS1600R_FT_LowerFront.inf

Product Info Area:
Version

2.4.2

= 1

Language Code

= 25

Manufacturer Name

= Motorola

Product Name

= CHS1600 Fan Tray

Product Part / Model#

= BFT-F-1600

Product Version

= Rev. 1.00

Product Serial Number

= 1234567890

Asset Tag

=

FRU Programmer File ID

= CHS1600R_FT_LowerFront.inf

E-Keying
The active (virtual) SAM does not have e-keyed backplane interfaces, and hence the FRU
information for it does not contain a PICMG Point-to-Point Connectivity Record.

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55

FRU Information and Sensor Data Records

2.4.3

Power Configuration

Power Configuration
The following table describes the power configuration for the Active SAM.
Table 2-24 SAM1000 Active Power Configuration

2.4.4

Item

Value

Meaning

Dynamic power reconfiguration support

No

Possibility to change FRU power consumption
without switching it off, according to
AdvancedTCA

Dynamic power configuration

No

Are the power draw levels fixed or these may vary
if additional components are hot inserted or
onboard components’ power consumption is
changing dynamically

Number of power draw levels

1

The amount of possible power levels, normally 1

Early power draw levels, Watt

5

Complete early power consumption including
IPMC

Steady state power draw levels, Watt

5

Complete steady power consumption including
IPMC

Transition from Early to Steady levels,
sec

0

How long does board consumes early power.
Early power is normally bigger than steady

Active SAM1000 Sensor Overview
The following table lists the discrete and analog sensors that reside on the Active SAM. The
information in this section supports the SAM on both the AXP1406 and AXP1600 shelves. The
AXP1600 FRU and sensor data is highlighted and/or marked for ease of use.
Rows that are highlighted in blue provide information for the additional sensors on the
SAM1000 for the AXP1600.
Table 2-25 Active SAM1000 Sensor Overview
Sensor
No.

56

Sensor Name

Type of
Measurement

What does it
measure?

Sensor
Type

Availability

0

FRU 0
HOT_SWAP

Status

State of FRU

Discrete

Always

2

FRU 1
HOT_SWAP

Status

State of FRU

Discrete

Always

3

FRU 2
HOT_SWAP

Status

State of FRU

Discrete

Always

4

FRU 3
HOT_SWAP

Status

State of FRU

Discrete

Always

5

FRU 4
HOT_SWAP

Status

State of FRU

Discrete

Always

6

FRU 5
HOT_SWAP

Status

State of FRU

Discrete

Always

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Active SAM1000 Sensor Overview

FRU Information and Sensor Data Records

Table 2-25 Active SAM1000 Sensor Overview (continued)
Sensor
No.

Sensor Name

Type of
Measurement

What does it
measure?

Sensor
Type

Availability

7

FRU 6
HOT_SWAP

Status

State of FRU

Discrete

Always

8

FRU 7
HOT_SWAP

Status

State of FRU

Discrete

Always

9

FRU 8
HOT_SWAP

Status

State of FRU

Discrete

Always

10

FRU9 HOT_SWAP

Status

State of FRU

Discrete

Always

11

SHM FAULT
EVENT

Status

State of SHM

Discrete

Always

12

IPMB LINK 1

Status

State of IPMB
link

Discrete

Always

13

IPMB LINK 2

Status

State of IPMB
link

Discrete

Always

14

IPMB LINK 3

Status

State of IPMB
link

Discrete

Always

15

IPMB LINK 4

Status

State of IPMB
link

Discrete

Always

16

IPMB LINK 5

Status

State of IPMB
link

Discrete

Always

17

IPMB LINK 6

Status

State of IPMB
link

Discrete

Always

18

IPMB LINK 7

Status

State of IPMB
link

Discrete

Always

19

IPMB LINK 8

Status

State of IPMB
link

Discrete

Always

20

IPMB LINK 9

Status

State of IPMB
link

Discrete

Always

21

IPMB LINK 10

Status

State of IPMB
link

Discrete

Always

22

IPMB LINK 11

Status

State of IPMB
link

Discrete

Always

23

IPMB LINK 12

Status

State of IPMB
link

Discrete

Always

24

IPMB LINK 13

Status

State of IPMB
link

Discrete

Always

25

IPMB LINK 14

Status

State of IPMB
link

Discrete

Always

26

IPMB LINK 15

Status

State of IPMB
link

Discrete

Always

27

IPMB LINK 16

Status

State of IPMB
link

Discrete

Always

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

57

FRU Information and Sensor Data Records

Active SAM1000 Sensor Overview

Table 2-25 Active SAM1000 Sensor Overview (continued)

58

Sensor
No.

Sensor Name

Type of
Measurement

What does it
measure?

Sensor
Type

Availability

28

IPMB LINK 17

Status

State of IPMB
link

Discrete

Always

29

IPMB LINK 18

Status

State of IPMB
link

Discrete

Always

30

IPMB LINK 19

Status

State of IPMB
link

Discrete

Always

31

IPMB LINK 20

Status

State of IPMB
link

Discrete

Always

32

IPMB LINK 21

Status

State of IPMB
link

Discrete

Always

131

TELCO Alarms

Status

State of
TELCO Alarms

Discrete

Always

132

BMC Watchdog

Status

State of BMC
Watchdog on
active SAM

Discrete

Always

133

SYSTEM EVENT

Status

State of PEF
actions,
system
reconfigured
events, etc.

Discrete

Always

141

FT 1 Fan 1

Fan Speed

RPM of Fan 1

Analog

Always

142

FT 1 Fan 2

Fan Speed

RPM of Fan 2

Analog

Always

143

FT 2 Fan 1

Fan Speed

RPM of Fan 1

Analog

Always

144

FT 2 Fan 2

Fan Speed

RPM of Fan 2

Analog

Always

145

FT 3 Fan 1

Fan Speed

RPM of Fan 1

Analog

Always

146

FT 3 Fan 2

Fan Speed

RPM of Fan 2

Analog

Always

147

FT 4 Fan 1

Fan Speed

RPM of Fan 1

Analog

Always

148

FT 4 Fan 2

Fan Speed

RPM of Fan 2

Analog

Always

149

FT 5 Fan 1

Fan Speed

RPM of Fan 1

Analog

Always

150

FT 5 Fan 2

Fan Speed

RPM of Fan 2

Analog

Always

151

FT 6 Fan 1

Fan Speed

RPM of Fan 1

Analog

Always

152

FT 6 Fan 2

Fan Speed

RPM of Fan 2

Analog

Always

153

FT 7 Fan 1

Fan Speed

RPM of Fan 1

Analog

Always

154

FT 7 Fan 2

Fan Speed

RPM of Fan 2

Analog

Always

155

FT 8 Fan 1

Fan Speed

RPM of Fan 1

Analog

Always

156

FT 8 Fan 2

Fan Speed

RPM of Fan 2

Analog

Always

157

FT 9 Fan 1

Fan Speed

RPM of Fan 1

Analog

Always

158

FT 9 Fan 2

Fan Speed

RPM of Fan 2

Analog

Always

171

FT 1 Fan 1 12 V

Voltage

Analog

Always

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Active SAM1000 Sensor Overview

FRU Information and Sensor Data Records

Table 2-25 Active SAM1000 Sensor Overview (continued)
Sensor
No.

Sensor Name

Type of
Measurement

172

FT 1 Fan 1 VBias

173

What does it
measure?

Sensor
Type

Availability

Voltage

Analog

Always

FT 1 Fan 2 12 V

Voltage

Analog

Always

174

FT 1 Fan 2 VBias

Voltage

Analog

Always

175

FT 2 Fan 1 12 V

Voltage

Analog

Always

176

FT 2 Fan 1 VBias

Voltage

Analog

Always

177

FT 2 Fan 2 12 V

Voltage

Analog

Always

178

FT 2 Fan 2 VBias

Voltage

Analog

Always

179

FT 3 Fan 1 12 V

Voltage

Analog

Always

180

FT 3 Fan 1 VBias

Voltage

Analog

Always

181

FT 3 Fan 2 12 V

Voltage

Analog

Always

182

FT 3 Fan 2 VBias

Voltage

Analog

Always

183

FT 4 Fan 1 12 V

Voltage

Analog

Always

184

FT 4 Fan 1 VBias

Voltage

Analog

Always

185

FT 4 Fan 2 12 V

Voltage

Analog

Always

186

FT 4 Fan 2 VBias

Voltage

Analog

Always

187

FT 5 Fan 1 12 V

Voltage

Analog

Always

188

FT 5 Fan 1 VBias

Voltage

Analog

Always

189

FT 5 Fan 2 12 V

Voltage

Analog

Always

190

FT 5 Fan 2 VBias

Voltage

Analog

Always

191

FT 6 Fan 1 12 V

Voltage

Analog

Always

192

FT 6 Fan 1 VBias

Voltage

Analog

Always

193

FT 6 Fan 2 12 V

Voltage

Analog

Always

194

FT 6 Fan 2 VBias

Voltage

Analog

Always

195

FT 7 Fan 1 12 V

Voltage

Analog

Always

196

FT 7 Fan 1 VBias

Voltage

Analog

Always

197

FT 7 Fan 2 12 V

Voltage

Analog

Always

198

FT 7 Fan 2 VBias

Voltage

Analog

Always

199

FT 8 Fan 1 12 V

Voltage

Analog

Always

200

FT 8 Fan 1 VBias

Voltage

Analog

Always

201

FT 8 Fan 2 12 V

Voltage

Analog

Always

202

FT 8 Fan 2 VBias

Voltage

Analog

Always

203

FT 9 Fan 1 12 V

Voltage

Analog

Always

204

FT 9 Fan 1 VBias

Voltage

Analog

Always

205

FT 9 Fan 2 12 V

Voltage

Analog

Always

206

FT 9 Fan 2 VBias

Voltage

Analog

Always

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

59

FRU Information and Sensor Data Records

Active SAM1000 Sensor Overview

Table 2-25 Active SAM1000 Sensor Overview (continued)

60

Sensor
No.

Sensor Name

Type of
Measurement

What does it
measure?

Sensor
Type

Availability

220

Fan Tray 1

Status

Fan Tray 1
Presence

Discrete

Always

221

Fan Tray 2

Status

Fan Tray 2
Presence

Discrete

Always

222

Fan Tray 3

Status

Fan Tray 3
Presence

Discrete

Always

223

Fan Tray 4

Status

Fan Tray 4
Presence

Discrete

Always

224

Fan Tray 5

Status

Fan Tray 5
Presence

Discrete

Always

225

Fan Tray 6

Status

Fan Tray 6
Presence

Discrete

Always

226

Fan Tray 7

Status

Fan Tray 7
Presence

Discrete

Always

227

Fan Tray 8

Status

Fan Tray 8
Presence

Discrete

Always

228

Fan Tray 9

Status

Fan Tray 9
Presence

Discrete

Always

230

FT 1 -48 V Fuse

Status

OEM-reserved

Discrete

Always

231

FT 2 -48 V Fuse

Status

OEM-reserved

Discrete

Always

232

FT 3 -48 V Fuse

Status

OEM-reserved

Discrete

Always

233

FT 4 -48 V Fuse

Status

OEM-reserved

Discrete

Always

234

FT 5 -48 V Fuse

Status

OEM-reserved

Discrete

Always

235

FT 6 -48 V Fuse

Status

OEM-reserved

Discrete

Always

236

FT 7 -48 V Fuse

Status

OEM-reserved

Discrete

Always

237

FT 8 -48 V Fuse

Status

OEM-reserved

Discrete

Always

238

FT 9 -48 V Fuse

Status

OEM-reserved

Discrete

Always

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Active SAM1000 Analog Sensors

2.4.5

FRU Information and Sensor Data Records

Active SAM1000 Analog Sensors
The Active SAM at IPMB address 0x20 presents the following analog sensors:
All fan sensors are exposed by the Active SAM.

2.4.5.1

z

Fan Speed Sensors

z

Fan Voltage Sensors

Fan Speed Sensors
The following tables describe the analog fan speed sensors available on the Active SAM.
Table 2-26 Sensor No. 141 (0x8D) FT 1 Fan 1
Feature

Raw Value/Description

Sensor Name

FT 1 Fan 1

Interpreted Value

Device
Sensor Type

0x04

Fan Speed

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x60

Cooling Unit

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x02, 0x00

Reading Type
Lower critical threshold

Lower Critical Threshold is
Readable
Unsigned

0x23

1190 RPM

Table 2-27 Sensor No. 142 (0x8E) FT 1 Fan 2
Feature

Raw Value/Description

Sensor Name

FT 1 Fan 2

Interpreted Value

Device
Sensor Type

0x04

Fan Speed

Class

0x01

Threshold

0x00

Sensor Owner LUN

Entity ID

0x1E

Entity Instance

0x60

Rearm mode

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Cooling Unit

Auto

61

FRU Information and Sensor Data Records

Active SAM1000 Analog Sensors

Table 2-27 Sensor No. 142 (0x8E) FT 1 Fan 2 (continued)
Feature

Raw Value/Description

Interpreted Value

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x02, 0x00

Reading Type

Lower Critical Threshold is
Readable
Unsigned

Lower critical threshold

0x23

1190 RPM

Table 2-28 Sensor No. 143 (0x8F) FT 2 Fan 1
Feature

Raw Value/Description

Sensor Name

FT 2 Fan 1

Interpreted Value

Device
Sensor Type

0x04

Fan Speed

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x61

Cooling Unit

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x02, 0x00

Reading Type

Lower Critical Threshold is
Readable
Unsigned

Lower critical threshold

0x23

1190 RPM

Table 2-29 Sensor No. 144 (0x90) FT2 Fan 2
Feature

Raw Value/Description

Sensor Name

FT 2 Fan 2

Interpreted Value

Device
Sensor Type

0x04

Fan Speed

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x61

Rearm mode

62

Cooling Unit

Auto

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Active SAM1000 Analog Sensors

FRU Information and Sensor Data Records

Table 2-29 Sensor No. 144 (0x90) FT2 Fan 2 (continued)
Feature

Raw Value/Description

Interpreted Value

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x02, 0x00

Reading Type
Lower critical threshold

Lower Critical Threshold is
Readable
Unsigned

0x23

1190 RPM

Table 2-30 Sensor No. 145 (0x91) FT 3 Fan 1
Feature

Raw Value/Description

Sensor Name

FT 3 Fan 1

Interpreted Value

Device
Sensor Type

0x04

Fan Speed

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x62

Cooling Unit

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x02, 0x00

Reading Type
Lower critical threshold

Lower Critical Threshold is
Readable
Unsigned

0x23

1190 RPM

Table 2-31 Sensor No. 146 (0x92) FT 3 Fan 2
Raw Value/Description

Feature

Sensor Name

FT 3 Fan 2

Interpreted Value

Device
Sensor Type

0x04

Fan Speed

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x62

Rearm mode

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Cooling Unit

Auto

63

FRU Information and Sensor Data Records

Active SAM1000 Analog Sensors

Table 2-31 Sensor No. 146 (0x92) FT 3 Fan 2 (continued)
Raw Value/Description

Feature

Interpreted Value

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x02, 0x00

Reading Type

Lower Critical Threshold is
Readable
Unsigned

Lower critical threshold

0x23

1190 RPM

Table 2-32 Sensor No. 147 (0x93) FT 4 Fan 1
Feature

Raw Value/Description

Sensor Name

FT 4 Fan 1

Interpreted Value

Device
Sensor Type

0x04

Fan Speed

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x63

Cooling Unit

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x02, 0x00

Reading Type

Lower Critical Threshold is
Readable
Unsigned

Lower critical threshold

0x23

1190 RPM

Table 2-33 Sensor No. 148 (0x94) FT 4 Fan 2
Feature

Raw Value/Description

Sensor Name

FT 4 Fan 2

Interpreted Value

Device
Sensor Type

0x04

Fan Speed

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x63

Rearm mode

64

Cooling Unit

Auto

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Active SAM1000 Analog Sensors

FRU Information and Sensor Data Records

Table 2-33 Sensor No. 148 (0x94) FT 4 Fan 2 (continued)
Feature

Raw Value/Description

Interpreted Value

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x02, 0x00

Reading Type
Lower critical threshold

Lower Critical Threshold is
Readable
Unsigned

0x23

1190 RPM

Table 2-34 Sensor No. 149 (0x95) FT 5 Fan 1
Feature

Raw Value/Description

Sensor Name

FT 5 Fan 1

Interpreted Value

Device
Sensor Type

0x04

Fan Speed

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x64

Cooling Unit

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x02, 0x00

Reading Type
Lower critical threshold

Lower Critical Threshold is
Readable
Unsigned

0x23

1190 RPM

Table 2-35 Sensor No. 150 (0x96) FT 5 Fan 2
Feature

Raw Value/Description

Sensor Name

FT 5 Fan 2

Interpreted Value

Device
Sensor Type

0x04

Fan Speed

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x64

Rearm mode

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Cooling Unit

Auto

65

FRU Information and Sensor Data Records

Active SAM1000 Analog Sensors

Table 2-35 Sensor No. 150 (0x96) FT 5 Fan 2 (continued)
Feature

Raw Value/Description

Interpreted Value

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x02, 0x00

Reading Type

Lower Critical Threshold is
Readable
Unsigned

Lower critical threshold

0x23

1190 RPM

Table 2-36 Sensor No. 151 (0x97) FT 6 Fan 1
Feature

Raw Value/Description

Sensor Name

FT 6 Fan 1

Interpreted Value

Device
Sensor Type

0x04

Fan Speed

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x65

Cooling Unit

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x02, 0x0

Reading Type

Lower Critical Threshold is
Readable
Unsigned

Lower critical threshold

0x23

1190 RPM

Table 2-37 Sensor No. 152 (0x98) FT 6 Fan 2
Raw Value/Description

Feature

Sensor Name

FT 6 Fan 2

Interpreted Value

Device
Sensor Type

0x04

Fan Speed

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x65

Rearm mode

66

Cooling Unit

Auto

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Active SAM1000 Analog Sensors

FRU Information and Sensor Data Records

Table 2-37 Sensor No. 152 (0x98) FT 6 Fan 2 (continued)
Raw Value/Description

Feature

Interpreted Value

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x02, 0x0

Reading Type
Lower critical threshold

Lower Critical Threshold is
Readable
Unsigned

0x23

1190 RPM

Table 2-38 Sensor No. 153 (0x99) FT 7 Fan 1
Feature

Raw Value/Description

Sensor Name

FT 7 Fan 1

Interpreted Value

Device
Sensor Type

0x04

Fan Speed

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x66

Cooling Unit

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x02, 0x00

Reading Type
Lower critical threshold

Lower Critical Threshold is
Readable
Unsigned

0x83

5895 RPM

Table 2-39 Sensor No. 154 (0x9A) FT 7 Fan 2
Feature

Raw Value/Description

Sensor Name

FT 7 Fan 2

Interpreted Value

Device
Sensor Type

0x04

Fan Speed

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x66

Rearm mode

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Cooling Unit

Auto

67

FRU Information and Sensor Data Records

Active SAM1000 Analog Sensors

Table 2-39 Sensor No. 154 (0x9A) FT 7 Fan 2 (continued)
Feature

Raw Value/Description

Interpreted Value

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x02, 0x00

Reading Type

Lower Critical Threshold is
Readable
Unsigned

Lower critical threshold

0x83

5895 RPM

Table 2-40 Sensor No. 155 (0x9B) FT 8 Fan 1
Feature

Raw Value/Description

Sensor Name

FT 8 Fan 1

Interpreted Value

Device
Sensor Type

0x04

Fan Speed

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x67

Cooling Unit

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x02, 0x00

Reading Type

Lower Critical Threshold is
Readable
Unsigned

Lower critical threshold

0x83

5895 RPM

Table 2-41 Sensor No. 156 (0x9C) FT 8 Fan 2
Feature

Raw Value/Description

Sensor Name

FT 8 Fan 2

Interpreted Value

Device
Sensor Type

0x04

Fan Speed

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x67

Rearm mode

68

Cooling Unit

Auto

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Active SAM1000 Analog Sensors

FRU Information and Sensor Data Records

Table 2-41 Sensor No. 156 (0x9C) FT 8 Fan 2 (continued)
Feature

Raw Value/Description

Interpreted Value

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x02, 0x00

Reading Type
Lower critical threshold

Lower Critical Threshold is
Readable
Unsigned

0x83

5895 RPM

Two additional Fan Speed sensors support the SAM used in the AXP1600 shelf.

Table 2-42 Sensor No. 157 (0x9D) FT 9 Fan 1, AXP1600
Feature

Raw Value/Description

Sensor Name

FT 9 Fan 1

Interpreted Value

Device
Sensor Type

0x04

Fan Speed

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x68

Cooling Unit

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x02, 0x00

Reading Type
Lower critical threshold

Lower Critical Threshold is
Readable
Unsigned

0x83

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

5895 RPM

69

FRU Information and Sensor Data Records

Active SAM1000 Analog Sensors

Table 2-43 Sensor No. 158 (0x9E) FT 9 Fan 2, AXP1600
Feature

Raw Value/Description

Sensor Name

FT 9 Fan 2

Interpreted Value

Device
Sensor Type

0x04

Fan Speed

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x68

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x02, 0x00

Reading Type

Lower Critical Threshold is
Readable
Unsigned

Lower critical threshold

2.4.5.2

Cooling Unit

0x83

5895 RPM

Fan Voltage Sensors
The following tables describe the analog fan voltage sensors available on the Active SAM.
Table 2-44 Sensor No. 171 (0xAB) FT 1 Fan 1 12 V
Feature

Raw Value/Description

Sensor Name

FT 1 Fan 1 12 V

Interpreted Value

Device

70

Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x60

Cooling Unit

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Active SAM1000 Analog Sensors

FRU Information and Sensor Data Records

Table 2-44 Sensor No. 171 (0xAB) FT 1 Fan 1 12 V (continued)
Feature

Raw Value/Description

Interpreted Value

Readable and Settable
threshold mask (bytes 19, 20)

0x36, 0x00

Upper and Lower Critical and
Non-recoverable Thresholds
are Readable

Reading Type

Unsigned

Lower critical and nonrecoverable thresholds

0x50, 0x4c

(6.88, 6.536) Volts

Upper critical and nonrecoverable thresholds

0x9F, 0xA0

(13.674, 13.76) Volts

Table 2-45 Sensor No. 172 (0xAC) FT 1 Fan 1 VBias
Feature

Raw Value/Description

Sensor Name

FT 1 Fan 1 VBias

Interpreted Value

Device
Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x60

Cooling Unit

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x36, 0x00

Reading Type

Upper and Lower Critical and
Non-recoverable Thresholds
are Readable
Unsigned

Lower critical and nonrecoverable thresholds

0x73, 0x71

(9.89, 9.718) Volts

Upper critical and nonrecoverable thresholds

0x87, 0xA5

(11.61, 14.19) Volts

Table 2-46 Sensor No. 173 (0xAD) FT 1 Fan 2 12 V
Feature

Raw Value/Description

Sensor Name

FT 1 Fan 2 12 V

Interpreted Value

Device
Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

71

FRU Information and Sensor Data Records

Active SAM1000 Analog Sensors

Table 2-46 Sensor No. 173 (0xAD) FT 1 Fan 2 12 V (continued)
Feature

Raw Value/Description

Interpreted Value

Entity ID

0x1E

Cooling Unit

Entity Instance

0x60

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x36, 0x00

Reading Type

Upper and Lower Critical and
Non-recoverable Thresholds
are Readable
Unsigned

Lower critical and nonrecoverable thresholds

0x50, 0x4c

(6.88, 6.536) Volts

Upper critical and nonrecoverable thresholds

0x9F, 0xA0

(13.674, 13.76) Volts

Table 2-47 Sensor No. 174 (0xAE) FT 1 Fan 2 VBias
Feature

Raw Value/Description

Sensor Name

FT 1 Fan 2 VBias

Interpreted Value

Device
Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x60

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x36, 0x00

Reading Type

72

Cooling Unit

Upper and Lower Critical and
Non-recoverable Thresholds
are Readable
Unsigned

Lower critical and nonrecoverable thresholds

0x73, 0x71

(9.89, 9.718) Volts

Upper critical and nonrecoverable thresholds

0x87, 0xA5

(11.61, 14.19) Volts

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Active SAM1000 Analog Sensors

FRU Information and Sensor Data Records

Table 2-48 Sensor No. 175 (0xAF) FT 2 Fan 1 12 V
Feature

Raw Value/Description

Sensor Name

FT 2 Fan 1 12 V

Interpreted Value

Device
Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x61

Cooling Unit

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x36, 0x00

Reading Type

Upper and Lower Critical and
Non-recoverable Thresholds
are Readable
Unsigned

Lower critical and nonrecoverable thresholds

0x50, 0x4c

(6.88, 6.536) Volts

Upper critical and nonrecoverable thresholds

0x9F, 0xA0

(13.674, 13.76) Volts

Table 2-49 Sensor No. 176 (0xB0) FT 2 Fan 1 VBias
Feature

Raw Value/Description

Sensor Name

FT 2 Fan 1 VBias

Interpreted Value

Device
Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x61

Cooling Unit

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

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Active SAM1000 Analog Sensors

Table 2-49 Sensor No. 176 (0xB0) FT 2 Fan 1 VBias (continued)
Feature

Raw Value/Description

Interpreted Value

Readable and Settable
threshold mask (bytes 19, 20)

0x36, 0x00

Upper and Lower Critical and
Non-recoverable Thresholds are
Readable

Reading Type

Unsigned

Lower critical and nonrecoverable thresholds

0x73, 0x71

(9.89, 9.718) Volts

Upper critical and nonrecoverable thresholds

0x87, 0xA5

(11.61, 14.19) Volts

Table 2-50 Sensor No. 177 (0xB1) FT 2 Fan 2 12 V
Feature

Raw Value/Description

Sensor Name

FT 2 Fan 2 12 V

Interpreted Value

Device
Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x61

Cooling Unit

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x36, 0x00

Reading Type

Upper and Lower Critical and
Non-recoverable Thresholds are
Readable
Unsigned

Lower critical and nonrecoverable thresholds

0x50, 0x4c

(6.88, 6.536) Volts

Upper critical and nonrecoverable thresholds

0x9F, 0xA0

(13.674, 13.76) Volts

Table 2-51 Sensor No. 178 (0xB2) FT 2 Fan 2 VBias
Feature

Raw Value/Description

Sensor Name

FT 2 Fan 2 VBias

Interpreted Value

Device

74

Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Active SAM1000 Analog Sensors

FRU Information and Sensor Data Records

Table 2-51 Sensor No. 178 (0xB2) FT 2 Fan 2 VBias (continued)
Feature

Raw Value/Description

Interpreted Value

Entity ID

0x1E

Cooling Unit

Entity Instance

0x61

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x36, 0x00

Reading Type

Upper and Lower Critical and
Non-recoverable Thresholds
are Readable
Unsigned

Lower critical and nonrecoverable thresholds

0x73, 0x71

(9.89, 9.718) Volts

Upper critical and nonrecoverable thresholds

0x87, 0xA5

(11.61, 14.19) Volts

Table 2-52 Sensor No. 179 (0xB3) FT 3 Fan 1 12 V
Feature

Raw Value/Description

Sensor Name

FT 3 Fan 1 12 V

Interpreted Value

Device
Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x62

Cooling Unit

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x36, 0x00

Reading Type

Upper and Lower Critical and
Non-recoverable Thresholds
are Readable
Unsigned

Lower critical and nonrecoverable thresholds

0x50, 0x4c

(6.88, 6.536) Volts

Upper critical and nonrecoverable thresholds

0x9F, 0xA0

(13.674, 13.76) Volts

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

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Active SAM1000 Analog Sensors

Table 2-53 Sensor No. 180 (0xB4) FT 3 Fan 1 VBias
Feature

Raw Value/Description

Sensor Name

FT 3 Fan 1 VBias

Interpreted Value

Device
Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x62

Cooling Unit

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x36, 0x00

Reading Type

Upper and Lower Critical and
Non-recoverable Thresholds
are Readable
Unsigned

Lower critical and nonrecoverable thresholds

0x73, 0x71

(9.89, 9.718) Volts

Upper critical and nonrecoverable thresholds

0x87, 0xA5

(11.61, 14.19) Volts

Table 2-54 Sensor No. 181 (0xB5) FT 3 Fan 2 12 V
Feature

Raw Value/Description

Sensor Name

FT 3 Fan 2 12 V

Interpreted Value

Device

76

Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x62

Cooling Unit

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Active SAM1000 Analog Sensors

FRU Information and Sensor Data Records

Table 2-54 Sensor No. 181 (0xB5) FT 3 Fan 2 12 V (continued)
Feature

Raw Value/Description

Interpreted Value

Readable and Settable
threshold mask (bytes 19, 20)

0x36, 0x00

Upper and Lower Critical and
Non-recoverable Thresholds
are Readable

Reading Type

Unsigned

Lower critical and nonrecoverable thresholds

0x50, 0x4c

(6.88, 6.536) Volts

Upper critical and nonrecoverable thresholds

0x9F, 0xA0

(13.674, 13.76) Volts

Table 2-55 Sensor No. 182 (0xB6) FT 3 Fan 2 VBias
Feature

Raw Value/Description

Sensor Name

FT 3 Fan 2 VBias

Interpreted Value

Device
Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x62

Cooling Unit

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x36, 0x00

Reading Type

Upper and Lower Critical and
Non-recoverable Thresholds
are Readable
Unsigned

Lower critical and nonrecoverable thresholds

0x73, 0x71

(9.89, 9.718) Volts

Upper critical and nonrecoverable thresholds

0x87, 0xA5

(11.61, 14.19) Volts

Table 2-56 Sensor No. 183 (0xB7) FT 4 Fan 1 12 V
Feature

Raw Value/Description

Sensor Name

FT 4 Fan 1 12 V

Interpreted Value

Device
Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

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FRU Information and Sensor Data Records

Active SAM1000 Analog Sensors

Table 2-56 Sensor No. 183 (0xB7) FT 4 Fan 1 12 V (continued)
Feature

Raw Value/Description

Interpreted Value

Entity ID

0x1E

Cooling Unit

Entity Instance

0x63

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x36, 0x00

Reading Type

Upper and Lower Critical and
Non-recoverable Thresholds
are Readable
Unsigned

Lower critical and nonrecoverable thresholds

0x50, 0x4c

(6.88, 6.536) Volts

Upper critical and nonrecoverable thresholds

0x9F, 0xA0

(13.674, 13.76) Volts

Table 2-57 Sensor No. 184 (0xB8) FT 4 Fan 1 VBias
Feature

Raw Value/Description

Sensor Name

FT 4 Fan 1 VBias

Interpreted Value

Device
Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x63

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x36, 0x00

Reading Type

78

Cooling Unit

Upper and Lower Critical and
Non-recoverable Thresholds
are Readable
Unsigned

Lower critical and nonrecoverable thresholds

0x73, 0x71

(9.89, 9.718) Volts

Upper critical and nonrecoverable thresholds

0x87, 0xA5

(11.61, 14.19) Volts

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Active SAM1000 Analog Sensors

FRU Information and Sensor Data Records

Table 2-58 Sensor No. 185 (0xB9) FT 4 Fan 2 12 V
Feature

Raw Value/Description

Sensor Name

FT 4 Fan 2 12 V

Interpreted Value

Device
Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x63

Cooling Unit

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x36, 0x00

Reading Type

Upper and Lower Critical and
Non-recoverable Thresholds
are Readable
Unsigned

Lower critical and nonrecoverable thresholds

0x50, 0x4c

(6.88, 6.536) Volts

Upper critical and nonrecoverable thresholds

0x9F, 0xA0

(13.674, 13.76) Volts

Table 2-59 Sensor No. 186 (0xBA) FT 4 Fan 2 VBias
Feature

Raw Value/Description

Sensor Name

FT 4 Fan 2 VBias

Interpreted Value

Device
Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x63

Cooling Unit

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

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FRU Information and Sensor Data Records

Active SAM1000 Analog Sensors

Table 2-59 Sensor No. 186 (0xBA) FT 4 Fan 2 VBias (continued)
Feature

Raw Value/Description

Interpreted Value

Readable and Settable
threshold mask (bytes 19, 20)

0x36, 0x00

Upper and Lower Critical and
Non-recoverable Thresholds
are Readable

Reading Type

Unsigned

Lower critical and nonrecoverable thresholds

0x73, 0x71

(9.89, 9.718) Volts

Upper critical and nonrecoverable thresholds

0x87, 0xA5

(11.61, 14.19) Volts

Table 2-60 Sensor No. 187 (0xBB) FT 5 Fan 1 12 V
Feature

Raw Value/Description

Sensor Name

FT 5 Fan 1 12 V

Interpreted Value

Device
Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x64

Cooling Unit

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x36, 0x00

Reading Type

Upper and Lower Critical and
Non-recoverable Thresholds
are Readable
Unsigned

Lower critical and nonrecoverable thresholds

0x50, 0x4c

(6.88, 6.536) Volts

Upper critical and nonrecoverable thresholds

0x9F, 0xA0

(13.674, 13.76) Volts

Table 2-61 Sensor No. 188 (0xBC) FT 5 Fan 1 VBias
Feature

Raw Value/Description

Sensor Name

FT 5 Fan 1 VBias

Interpreted Value

Device

80

Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Active SAM1000 Analog Sensors

FRU Information and Sensor Data Records

Table 2-61 Sensor No. 188 (0xBC) FT 5 Fan 1 VBias (continued)
Feature

Raw Value/Description

Interpreted Value

Entity ID

0x1E

Cooling Unit

Entity Instance

0x64

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x36, 0x00

Reading Type

Upper and Lower Critical and
Non-recoverable Thresholds
are Readable
Unsigned

Lower critical and nonrecoverable thresholds

0x73, 0x71

(9.89, 9.718) Volts

Upper critical and nonrecoverable thresholds

0x87, 0xA5

(11.61, 14.19) Volts

Table 2-62 Sensor No. 189 (0xBD) FT 5 Fan 2 12 V
Feature

Raw Value/Description

Sensor Name

FT 5 Fan 2 12 V

Interpreted Value

Device
Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x64

Cooling Unit

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x36, 0x00

Reading Type

Upper and Lower Critical and
Non-recoverable Thresholds
are Readable
Unsigned

Lower critical and nonrecoverable thresholds

0x50, 0x4c

(6.88, 6.536) Volts

Upper critical and nonrecoverable thresholds

0x9F, 0xA0

(13.674, 13.76) Volts

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

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FRU Information and Sensor Data Records

Active SAM1000 Analog Sensors

Table 2-63 Sensor No. 190 (0xBE) FT 5 Fan 2 VBias
Feature

Raw Value/Description

Sensor Name

FT 5 Fan 2 VBias

Interpreted Value

Device
Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x64

Cooling Unit

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x36, 0x00

Reading Type

Upper and Lower Critical and
Non-recoverable Thresholds
are Readable
Unsigned

Lower critical and nonrecoverable thresholds

0x73, 0x71

(9.89, 9.718) Volts

Upper critical and nonrecoverable thresholds

0x87, 0xA5

(11.61, 14.19) Volts

Table 2-64 Sensor No. 191 (0xBF) FT 6 Fan 1 12 V
Feature

Raw Value/Description

Sensor Name

FT 6 Fan 1 12 V

Interpreted Value

Device

82

Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x65

Cooling Unit

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Active SAM1000 Analog Sensors

FRU Information and Sensor Data Records

Table 2-64 Sensor No. 191 (0xBF) FT 6 Fan 1 12 V (continued)
Feature

Raw Value/Description

Interpreted Value

Readable and Settable
threshold mask (bytes 19, 20)

0x36, 0x00

Upper and Lower Critical and
Non-recoverable Thresholds
are Readable

Reading Type

Unsigned

Lower critical and nonrecoverable thresholds

0x50, 0x4c

(6.88, 6.536) Volts

Upper critical and nonrecoverable thresholds

0x9F, 0xA0

(13.674, 13.76) Volts

Table 2-65 Sensor No. 192 (0xC0) FT 6 Fan 1 VBias
Feature

Raw Value/Description

Sensor Name

FT 6 Fan 1 VBias

Interpreted Value

Device
Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x65

Cooling Unit

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x36, 0x00

Reading Type

Upper and Lower Critical and
Non-recoverable Thresholds are
Readable
Unsigned

Lower critical and nonrecoverable thresholds

0x73, 0x71

(9.89, 9.718) Volts

Upper critical and nonrecoverable thresholds

0x87, 0xA5

(11.61, 14.19) Volts

Table 2-66 Sensor No. 193 (0xC1) FT 6 Fan 2 12 V
Feature

Raw Value/Description

Sensor Name

FT 6 Fan 2 12 V

Interpreted Value

Device
Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

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Active SAM1000 Analog Sensors

Table 2-66 Sensor No. 193 (0xC1) FT 6 Fan 2 12 V (continued)
Feature

Raw Value/Description

Interpreted Value

Entity ID

0x1E

Cooling Unit

Entity Instance

0x65

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x36, 0x00

Reading Type

Upper and Lower Critical and
Non-recoverable Thresholds
are Readable
Unsigned

Lower critical and nonrecoverable thresholds

0x50, 0x4c

(6.88, 6.536) Volts

Upper critical and nonrecoverable thresholds

0x9F, 0xA0

(13.674, 13.76) Volts

Table 2-67 Sensor No. 194 (0xC2) FT 6 Fan 2 VBias
Feature

Raw Value/Description

Sensor Name

FT 6 Fan 2 VBias

Interpreted Value

Device
Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x65

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x36, 0x00

Reading Type

84

Cooling Unit

Upper and Lower Critical and
Non-recoverable Thresholds
are Readable
Unsigned

Lower critical and nonrecoverable thresholds

0x73, 0x71

(9.89, 9.718) Volts

Upper critical and nonrecoverable thresholds

0x87, 0xA5

(11.61, 14.19) Volts

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Active SAM1000 Analog Sensors

FRU Information and Sensor Data Records

Table 2-68 Sensor No. 195 (0xC3) FT 7 Fan 1 +12V
Feature

Raw Value/Description

Sensor Name

FT 7 Fan 1 12 V

Interpreted Value

Device
Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x66

Cooling Unit

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x36, 0x00

Reading Type

Upper and Lower Critical and
Non-recoverable Thresholds are
Readable
Unsigned

Lower critical and nonrecoverable thresholds

0x50, 0x4c

(6.88, 6.536) Volts

Upper critical and nonrecoverable thresholds

0x9F, 0xA0

(13.674, 13.76) Volts

Table 2-69 Sensor No. 196 (0xC4) FT 7 Fan 1 VBias
Feature

Raw Value/Description

Sensor Name

FT 7 Fan 1 VBias

Interpreted Value

Device
Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x66

Cooling Unit

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

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FRU Information and Sensor Data Records

Active SAM1000 Analog Sensors

Table 2-69 Sensor No. 196 (0xC4) FT 7 Fan 1 VBias (continued)
Feature

Raw Value/Description

Interpreted Value

Readable and Settable
threshold mask (bytes 19, 20)

0x36, 0x00

Upper and Lower Critical and
Non-recoverable Thresholds
are Readable

Reading Type

Unsigned

Lower critical and nonrecoverable thresholds

0x73, 0x71

(9.89, 9.718) Volts

Upper critical and nonrecoverable thresholds

0x87, 0xA5

(11.61, 14.19) Volts

Table 2-70 Sensor No. 197 (0xC5) FT 7 Fan 2 12 V
Feature

Raw Value/Description

Sensor Name

FT 7 Fan 2 12 V

Interpreted Value

Device
Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x66

Cooling Unit

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x36, 0x00

Reading Type

Upper and Lower Critical and
Non-recoverable Thresholds
are Readable
Unsigned

Lower critical and nonrecoverable thresholds

0x50, 0x4c

(6.88, 6.536) Volts

Upper critical and nonrecoverable thresholds

0x9F, 0xA0

(13.674, 13.76) Volts

Table 2-71 Sensor No. 198 (0xC6) FT 7 Fan 2 VBias
Feature

Raw Value/Description

Sensor Name

FT 7 Fan 2 VBias

Interpreted Value

Device

86

Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Active SAM1000 Analog Sensors

FRU Information and Sensor Data Records

Table 2-71 Sensor No. 198 (0xC6) FT 7 Fan 2 VBias (continued)
Feature

Raw Value/Description

Interpreted Value

Entity ID

0x1E

Cooling Unit

Entity Instance

0x66

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x36, 0x00

Reading Type

Upper and Lower Critical and
Non-recoverable Thresholds
are Readable
Unsigned

Lower critical and nonrecoverable thresholds

0x73, 0x71

(9.89, 9.718) Volts

Upper critical and nonrecoverable thresholds

0x87, 0xA5

(11.61, 14.19) Volts

Table 2-72 Sensor No. 199 (0xC7) FT 8 Fan 1 12 V
Feature

Raw Value/Description

Sensor Name

FT 8 Fan 1 12 V

Interpreted Value

Device
Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x67

Cooling Unit

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x36, 0x00

Reading Type

Upper and Lower Critical and
Non-recoverable Thresholds are
Readable
Unsigned

Lower critical and nonrecoverable thresholds

0x50, 0x4c

(6.88, 6.536) Volts

Upper critical and nonrecoverable thresholds

0x9F, 0xA0

(13.674, 13.76) Volts

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Table 2-73 Sensor No. 200 (0xC8) FT 8 Fan 1 VBias
Feature

Raw Value/Description

Sensor Name

FT 8 Fan 1 VBias

Interpreted Value

Device
Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x67

Cooling Unit

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x36, 0x00

Reading Type

Upper and Lower Critical and
Non-recoverable Thresholds
are Readable
Unsigned

Lower critical and nonrecoverable thresholds

0x73, 0x71

(9.89, 9.718) Volts

Upper critical and nonrecoverable thresholds

0x87, 0xA5

(11.61, 14.19) Volts

Table 2-74 Sensor No. 201 (0xC9) FT 8 Fan 2 12 V
Feature

Raw Value/Description

Sensor Name

FT 8 Fan 2 12 V

Interpreted Value

Device

88

Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x67

Cooling Unit

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Active SAM1000 Analog Sensors

FRU Information and Sensor Data Records

Table 2-74 Sensor No. 201 (0xC9) FT 8 Fan 2 12 V (continued)
Feature

Raw Value/Description

Interpreted Value

Readable and Settable
threshold mask (bytes 19, 20)

0x36, 0x00

Upper and Lower Critical and
Non-recoverable Thresholds
are Readable

Reading Type

Unsigned

Lower critical and nonrecoverable thresholds

0x50, 0x4c

(6.88, 6.536) Volts

Upper critical and nonrecoverable thresholds

0x9F, 0xA0

(13.674, 13.76) Volts

Table 2-75 Sensor No. 202 (0xCA) FT 8 Fan 2 VBias
Feature

Raw Value/Description

Sensor Name

FT 8 Fan 2 VBias

Interpreted Value

Device
Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x67

Cooling Unit

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x36, 0x00

Reading Type

Upper and Lower Critical and
Non-recoverable Thresholds
are Readable
Unsigned

Lower critical and nonrecoverable thresholds

0x73, 0x71

(9.89, 9.718) Volts

Upper critical and nonrecoverable thresholds

0x87, 0xA5

(11.61, 14.19) Volts

Additional Fan Voltage sensors support the SAM used in the AXP1600 shelf.

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Table 2-76 Sensor No. 203 (0xCB) FT 9 Fan 1 12 V, AXP1600
Feature

Raw Value/Description

Sensor Name

FT 9 Fan 1 12 V

Interpreted Value

Device
Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x68

Cooling Unit

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x36, 0x00

Upper and Lower Critical and
Non-recoverable Thresholds are
Readable

Reading Type

Unsigned

Lower critical and nonrecoverable thresholds

0x50, 0x4c

(6.88, 6.536) Volts

Upper critical and nonrecoverable thresholds

0x9F, 0xA0

(13.674, 13.76) Volts

Table 2-77 Sensor No. 204 (0xCC) FT 9 Fan 1 VBias, AXP1600
Feature

Raw Value/Description

Sensor Name

FT 9 Fan 1 VBias

Interpreted Value

Device

90

Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x68

Cooling Unit

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Active SAM1000 Analog Sensors

FRU Information and Sensor Data Records

Table 2-77 Sensor No. 204 (0xCC) FT 9 Fan 1 VBias, AXP1600 (continued)
Feature

Raw Value/Description

Interpreted Value

Readable and Settable
threshold mask (bytes 19, 20)

0x36, 0x00

Upper and Lower Critical and
Non-recoverable Thresholds
are Readable

Reading Type

Unsigned

Lower critical and nonrecoverable thresholds

0x73, 0x71

(9.89, 9.718) Volts

Upper critical and nonrecoverable thresholds

0x87, 0xA5

(11.61, 14.19) Volts

Table 2-78 Sensor No. 205 (0xCD) FT 9 Fan 2 12 V, AXP1600
Feature

Raw Value/Description

Sensor Name

FT 9 Fan 2 12 V

Interpreted Value

Device
Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x68

Cooling Unit

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x36, 0x00

Reading Type

Upper and Lower Critical and
Non-recoverable Thresholds
are Readable
Unsigned

Lower critical and nonrecoverable thresholds

0x50, 0x4c

(6.88, 6.536) Volts

Upper critical and nonrecoverable thresholds

0x9F, 0xA0

(13.674, 13.76) Volts

Table 2-79 Sensor No. 206 (0xCE) FT 9 Fan 2 VBias, AXP1600
Feature

Raw Value/Description

Sensor Name

FT 9 Fan 2 VBias

Interpreted Value

Device
Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

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Table 2-79 Sensor No. 206 (0xCE) FT 9 Fan 2 VBias, AXP1600 (continued)
Feature

Raw Value/Description

Interpreted Value

Entity ID

0x1E

Cooling Unit

Entity Instance

0x68

Rearm mode

Auto

Hysteresis support

No

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable and Settable
threshold mask (bytes 19, 20)

0x36, 0x00

Reading Type

2.4.6

Upper and Lower Critical and
Non-recoverable Thresholds
are Readable
Unsigned

Lower critical and nonrecoverable thresholds

0x73, 0x71

(9.89, 9.718) Volts

Upper critical and nonrecoverable thresholds

0x87, 0xA5

(11.61, 14.19) Volts

SAM Active Shelf Manager Discrete Sensors
The active shelf managers at IPMB address 0x20 present the following discrete sensors:
z

Hot Swap Sensors

z

Shm Fault Event Sensor

z

IPMB Link Sensor

z

Telco Alarm Sensor

z

BMC Watchdog Sensor

z

System Event

z

Fan Tray Presence Sensor

z

Fan Tray -48 V Fuse Sensor

The following tables describe the discrete sensors available on the active SAM.

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2.4.6.1

FRU Information and Sensor Data Records

Hot Swap Sensors
The following table describes the discrete hot swap sensors available on the Active SAM.
Table 2-80 Sensor No. 0 (0x00) FRU 0 HOT_SWAP
Feature

Raw Value/Description

Sensor Name

FRU 0 HOT_SWAP

Interpreted Value

Type of Measurement

Hot Swap State of Main FRU

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xF0

Hot Swap

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x01

PICMG Shelf Management
Controller

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0xFF, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0xFF, 0x00

Reading Definition

Supports 8 Successive States
According to PICMG 3.0

Table 2-81 Sensor No. 2 (0x02) FRU 1 HOT_SWAP
Feature

Raw Value/Description

Sensor Name

FRU 1 HOT_SWAP

Interpreted Value

Type of Measurement

Hot Swap State of Fan Tray 1

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xF0

Hot Swap

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x60

Cooling Unit

Rearm mode

Auto

Event message control

Entire Sensor only

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Table 2-81 Sensor No. 2 (0x02) FRU 1 HOT_SWAP (continued)
Feature

Raw Value/Description

Assertion Event Mask (bytes
15,16)

0xFF, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0xFF, 0x00

Reading Definition

Interpreted Value

Supports 8 Successive States
According to PICMG 3.0

Table 2-82 Sensor No. 3 (0x03) FRU 2 HOT_SWAP
Feature

Raw Value/Description

Sensor Name

FRU 2 HOT_SWAP

Interpreted Value

Type of Measurement

Hot Swap State of Fan Tray 2

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xF0

Hot Swap

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x61

Cooling Unit

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0xFF, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0xFF, 0x00

Reading Definition

Supports 8 Successive States
According to PICMG 3.0

Table 2-83 Sensor No. 4 (0x04) FRU 3 HOT_SWAP

94

Feature

Raw Value/Description

Sensor Name

FRU 3 HOT_SWAP

Interpreted Value

Type of Measurement

Hot Swap State of Fan Tray 3

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xF0

Hot Swap

Sensor Owner LUN

0x00

Entity ID

0x1E

Cooling Unit

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

SAM Active Shelf Manager Discrete Sensors

FRU Information and Sensor Data Records

Table 2-83 Sensor No. 4 (0x04) FRU 3 HOT_SWAP (continued)
Feature

Raw Value/Description

Entity Instance

0x62

Interpreted Value

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0xFF, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes 19,
20)

0xFF, 0x00

Reading Definition

Supports 8 Successive States
According to PICMG 3.0

Table 2-84 Sensor No. 5 (0x05) FRU 4 HOT_SWAP
Feature

Raw Value/Description

Sensor Name

FRU 4 HOT_SWAP

Interpreted Value

Type of Measurement

Hot Swap State of Fan Tray 4

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xF0

Hot Swap

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x63

Cooling Unit

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0xFF, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0xFF, 0x00

Reading Definition

Supports 8 Successive States
According to PICMG 3.0

Table 2-85 Sensor No. 6 (0x06) FRU 5 HOT_SWAP
Feature

Raw Value/Description

Sensor Name

FRU 5 HOT_SWAP

Interpreted Value

Type of Measurement

Hot Swap State of Fan Tray 5

Class

Discrete

Event/Reading Type

0x6F

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Sensor-specific

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Table 2-85 Sensor No. 6 (0x06) FRU 5 HOT_SWAP (continued)
Feature

Raw Value/Description

Interpreted Value

Sensor Type

0xF0

Hot Swap

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x64

Cooling Unit

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0xFF, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0xFF, 0x00

Reading Definition

Supports 8 Successive States
According to PICMG 3.0

Table 2-86 Sensor No. 7 (0x07) FRU 6 HOT_SWAP
Feature

Raw Value/Description

Sensor Name

FRU 6 HOT_SWAP

Type of Measurement

Hot Swap State of Fan Tray 6

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xF0

Hot Swap

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x65

Cooling Unit

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0xFF, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0xFF, 0x00

Reading Definition

96

Interpreted Value

Supports 8 Successive States
According to PICMG 3.0

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

SAM Active Shelf Manager Discrete Sensors

FRU Information and Sensor Data Records

Table 2-87 Sensor No. 8 (0x08) FRU 7 HOT_SWAP
Feature

Raw Value/Description

Sensor Name

FRU 7 HOT_SWAP

Interpreted Value

Type of Measurement

Hot Swap State of Fan Tray 7

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xF0

Hot Swap

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x66

Cooling Unit

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0xFF, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0xFF, 0x00

Reading Definition

Supports 8 Successive States
According to PICMG 3.0

Table 2-88 Sensor No. 9 (0x09) FRU 8 HOT_SWAP
Feature

Raw Value/Description

Sensor Name

FRU 8 HOT_SWAP

Interpreted Value

Type of Measurement

Hot Swap State of Fan Tray 8

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xF0

Hot Swap

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x67

Cooling Unit

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0xFF, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0xFF, 0x00

Reading Definition

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Supports 8 Successive States
According to PICMG 3.0

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A FRU 9 Hot Swap sensor supports the SAM used in the AXP1600 shelf.

Table 2-89 Sensor No. 10 (0x0A) FRU 9 HOT_SWAP, AXP1600
Feature

Raw Value/Description

Sensor Name

FRU 8 HOT_SWAP

Type of Measurement

Hot Swap State of Fan Tray 8

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xF0

Hot Swap

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x68

Cooling Unit

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0xFF, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0xFF, 0x00

Reading Definition

2.4.6.2

Interpreted Value

Supports 8 Successive States
According to PICMG 3.0

Shm Fault Event Sensor
The following table describes the discrete Shm Fault Event sensor available on the Active SAM.
Table 2-90 Sensor No. 11 (0x20) Fault Event Sensor

98

Feature

Raw Value/Description

Sensor Name

Shm Fault Event

Interpreted Value

Type of Measurement

Status of various classes of
software discovered faults in the
Shm

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xDE

OEM-reserved

Sensor Owner LUN

0x00

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

SAM Active Shelf Manager Discrete Sensors

FRU Information and Sensor Data Records

Table 2-90 Sensor No. 11 (0x20) Fault Event Sensor (continued)
Feature

Raw Value/Description

Interpreted Value

Entity ID

0xF0

PICMG Shelf Management
Controller

Entity Instance

0x01

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0xFE 0x01

Deassertion Event Mask (bytes
17,18)

0xFE 0x01

Discrete Reading Mask (bytes
19, 20)

0xFE 0x01

Reading Definition

2.4.6.3

According to Motorola XXX

IPMB Link Sensor
The following table describes the discrete IPMB link sensors available on the Active SAM.
Table 2-91 Sensor No. 12 (0x0B) IPMB LINK 1
Feature

Raw Value/Description

Sensor Name

IPMB LINK 1

Interpreted Value

Type of Measurement

IPMB Link 1 State

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xF1

IPMB Link

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x01

PICMG Shelf Management
Controller

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x0F, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x0F, 0x00

Reading Definition

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Supports 4 Successive States
According to PICMG 3.0

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Table 2-92 Sensor No. 13 (0x0C) IPMB LINK 2
Feature

Raw Value/Description

Sensor Name

IPMB LINK 2

Interpreted Value

Type of Measurement

IPMB Link 2 State

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xF1

IPMB Link

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x01

PICMG Shelf Management
Controller

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x0F, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x0F, 0x00

Reading Definition

Supports 4 Successive States
According to PICMG 3.0

Table 2-93 Sensor No. 14 (0x0D) IPMB LINK 3

100

Feature

Raw Value/Description

Sensor Name

IPMB LINK 3

Interpreted Value

Type of Measurement

IPMB Link 3 State

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xF1

IPMB Link

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x01

PICMG Shelf Management
Controller

Rearm mode

Auto

Event message control

Entire Sensor only

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SAM Active Shelf Manager Discrete Sensors

FRU Information and Sensor Data Records

Table 2-93 Sensor No. 14 (0x0D) IPMB LINK 3 (continued)
Feature

Raw Value/Description

Assertion Event Mask (bytes
15,16)

0x0F, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x0F, 0x00

Reading Definition

Interpreted Value

Supports 4 Successive States
According to PICMG 3.0

Table 2-94 Sensor No. 15 (0x0E) IPMB LINK 4
Feature

Raw Value/Description

Sensor Name

IPMB LINK 4

Interpreted Value

Type of Measurement

IPMB Link 4 State

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xF1

IPMB Link

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x01

PICMG Shelf Management
Controller

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x0F, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x0F, 0x00

Reading Definition

Supports 4 Successive States
According to PICMG 3.0

Table 2-95 Sensor No. 16 (0x0F) IPMB LINK 5
Feature

Raw Value/Description

Sensor Name

IPMB LINK 5

Interpreted Value

Type of Measurement

IPMB Link 5 State

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xF1

IPMB Link

Sensor Owner LUN

0x00

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Table 2-95 Sensor No. 16 (0x0F) IPMB LINK 5 (continued)
Feature

Raw Value/Description

Interpreted Value

Entity ID

0xF0

PICMG Shelf Management
Controller

Entity Instance

0x01

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x0F, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x0F, 0x00

Reading Definition

Supports 4 Successive States
According to PICMG 3.0

Table 2-96 Sensor No. 17 (0x10) IPMB LINK 6
Feature

Raw Value/Description

Sensor Name

IPMB LINK 6

Type of Measurement

IPMB Link 6 State

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xF1

IPMB Link

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x01

PICMG Shelf Management
Controller

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x0F, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x0F, 0x00

Reading Definition

102

Interpreted Value

Supports 4 Successive States
According to PICMG 3.0

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SAM Active Shelf Manager Discrete Sensors

FRU Information and Sensor Data Records

Table 2-97 Sensor No. 18 (0x11) IPMB LINK 7
Feature

Raw Value/Description

Sensor Name

IPMB LINK 7

Interpreted Value

Type of Measurement

IPMB Link 7 State

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xF1

IPMB Link

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x01

PICMG Shelf Management
Controller

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x0F, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x0F, 0x00

Reading Definition

Supports 4 Successive States
According to PICMG 3.0

Table 2-98 Sensor No. 19 (0x12) IPMB LINK 8
Feature

Raw Value/Description

Sensor Name

IPMB LINK 8

Interpreted Value

Type of Measurement

IPMB Link 8 State

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xF1

IPMB Link

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x01

PICMG Shelf Management
Controller

Rearm mode

Auto

Event message control

Entire Sensor only

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

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Table 2-98 Sensor No. 19 (0x12) IPMB LINK 8 (continued)
Feature

Raw Value/Description

Assertion Event Mask (bytes
15,16)

0x0F, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x0F, 0x00

Reading Definition

Interpreted Value

Supports 4 Successive States
According to PICMG 3.0

Table 2-99 Sensor No. 20 (0x14) IPMB LINK 9
Feature

Raw Value/Description

Sensor Name

IPMB LINK 9

Interpreted Value

Type of Measurement

IPMB Link 9 State

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xF1

IPMB Link

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x01

PICMG Shelf Management
Controller

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x0F, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x0F, 0x00

Reading Definition

Supports 4 Successive States
According to PICMG 3.0

Table 2-100 Sensor No. 21 (0x14) IPMB LINK 10

104

Feature

Raw Value/Description

Sensor Name

IPMB LINK 10

Interpreted Value

Type of Measurement

IPMB Link 10 State

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xF1

IPMB Link

Sensor Owner LUN

0x00

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

SAM Active Shelf Manager Discrete Sensors

FRU Information and Sensor Data Records

Table 2-100 Sensor No. 21 (0x14) IPMB LINK 10 (continued)
Feature

Raw Value/Description

Interpreted Value

Entity ID

0xF0

PICMG Shelf Management
Controller

Entity Instance

0x01

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x0F, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x0F, 0x00

Reading Definition

Supports 4 Successive States
According to PICMG 3.0

Table 2-101 Sensor No. 22 (0x15) IPMB LINK 11
Feature

Raw Value/Description

Sensor Name

IPMB LINK 11

Interpreted Value

Type of Measurement

IPMB Link 11 State

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xF1

IPMB Link

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x01

PICMG Shelf Management
Controller

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x0F, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x0F, 0x00

Reading Definition

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Supports 4 Successive States
According to PICMG 3.0

105

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Table 2-102 Sensor No. 23 (0x16) IPMB LINK 12
Feature

Raw Value/Description

Sensor Name

IPMB LINK 12

Interpreted Value

Type of Measurement

IPMB Link 12 State

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xF1

IPMB Link

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x01

PICMG Shelf Management
Controller

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x0F, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x0F, 0x00

Reading Definition

Supports 4 Successive States
According to PICMG 3.0

Table 2-103 Sensor No. 24 (0x17) IPMB LINK 13

106

Feature

Raw Value/Description

Sensor Name

IPMB LINK 13

Interpreted Value

Type of Measurement

IPMB Link 13 State

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xF1

IPMB Link

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x01

PICMG Shelf Management
Controller

Rearm mode

Auto

Event message control

Entire Sensor only

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

SAM Active Shelf Manager Discrete Sensors

FRU Information and Sensor Data Records

Table 2-103 Sensor No. 24 (0x17) IPMB LINK 13 (continued)
Feature

Raw Value/Description

Assertion Event Mask (bytes
15,16)

0x0F, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x0F, 0x00

Reading Definition

Interpreted Value

Supports 4 Successive States
According to PICMG 3.0

Table 2-104 Sensor No. 25 (0x18) IPMB LINK 14
Feature

Raw Value/Description

Sensor Name

IPMB LINK 14

Interpreted Value

Type of Measurement

IPMB Link 14 State

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xF1

IPMB Link

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x01

PICMG Shelf Management
Controller

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x0F, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x0F, 0x00

Reading Definition

Supports 4 Successive States
According to PICMG 3.0

Additional IPMB LINK sensors support the SAM used in the AXP1600 shelf.

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

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Table 2-105 Sensor No. 26 (0x19) IPMB LINK 15, AXP1600
Feature

Raw Value/Description

Sensor Name

IPMB LINK 15

Interpreted Value

Type of Measurement

IPMB Link 14 State

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xF1

IPMB Link

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x01

PICMG Shelf Management
Controller

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x0F, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x0F, 0x00

Reading Definition

Supports 4 Successive States
According to PICMG 3.0

Table 2-106 Sensor No. 27 (0x1A) IPMB LINK 16, AXP1600

108

Feature

Raw Value/Description

Sensor Name

IPMB LINK 16

Interpreted Value

Type of Measurement

IPMB Link 14 State

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xF1

IPMB Link

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x01

PICMG Shelf Management
Controller

Rearm mode

Auto

Event message control

Entire Sensor only

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

SAM Active Shelf Manager Discrete Sensors

FRU Information and Sensor Data Records

Table 2-106 Sensor No. 27 (0x1A) IPMB LINK 16, AXP1600 (continued)
Feature

Raw Value/Description

Assertion Event Mask (bytes
15,16)

0x0F, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x0F, 0x00

Reading Definition

Interpreted Value

Supports 4 Successive States
According to PICMG 3.0

Table 2-107 Sensor No. 28 (0x1B) IPMB LINK 17
Feature

Raw Value/Description

Sensor Name

IPMB LINK 17

Interpreted Value

Type of Measurement

IPMB Link 17 State

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xF1

IPMB Link

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x01

PICMG Shelf Management
Controller

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x0F, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x0F, 0x00

Reading Definition

Supports 4 Successive States
According to PICMG 3.0

Table 2-108 Sensor No. 29 (0x1C) IPMB LINK 18, AXP1600
Feature

Raw Value/Description

Sensor Name

IPMB LINK 18

Interpreted Value

Type of Measurement

IPMB Link 17 State

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xF1

IPMB Link

Sensor Owner LUN

0x00

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

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Table 2-108 Sensor No. 29 (0x1C) IPMB LINK 18, AXP1600 (continued)
Feature

Raw Value/Description

Interpreted Value

Entity ID

0xF0

PICMG Shelf Management
Controller

Entity Instance

0x01

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x0F, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x0F, 0x00

Reading Definition

Supports 4 Successive States
According to PICMG 3.0

Table 2-109 Sensor No. 30 (0x1D) IPMB LINK 19, AXP1600
Feature

Raw Value/Description

Sensor Name

IPMB LINK 19

Type of Measurement

IPMB Link 17 State

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xF1

IPMB Link

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x01

PICMG Shelf Management
Controller

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x0F, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x0F, 0x00

Reading Definition

110

Interpreted Value

Supports 4 Successive States
According to PICMG 3.0

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

SAM Active Shelf Manager Discrete Sensors

FRU Information and Sensor Data Records

Table 2-110 Sensor No. 31 (0x1E) IPMB LINK 20, AXP1600
Feature

Raw Value/Description

Sensor Name

IPMB LINK 20

Interpreted Value

Type of Measurement

IPMB Link 17 State

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xF1

IPMB Link

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x01

PICMG Shelf Management
Controller

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x0F, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x0F, 0x00

Reading Definition

Supports 4 Successive States
According to PICMG 3.0

Table 2-111 Sensor No. 32 (0x1F) IPMB LINK 21, AXP1600
Feature

Raw Value/Description

Sensor Name

IPMB LINK 21

Interpreted Value

Type of Measurement

IPMB Link 17 State

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xF1

IPMB Link

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x01

PICMG Shelf Management
Controller

Rearm mode

Auto

Event message control

Entire Sensor only

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

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Table 2-111 Sensor No. 32 (0x1F) IPMB LINK 21, AXP1600 (continued)
Feature

Raw Value/Description

Assertion Event Mask (bytes
15,16)

0x0F, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x0F, 0x00

Reading Definition

2.4.6.4

Interpreted Value

Supports 4 Successive States
According to PICMG 3.0

Telco Alarm Sensor
The following table describes the discrete Telco alarm sensor available on the Active SAM.
Further information on this sensor can be found at Telco Alarms (Pigeon Point OEM) on page
137.
Table 2-112 Sensor No. 131 (0x83) TELCO Alarms
Feature

Raw Value/Description

Sensor Name

TELCO Alarms

Type of Measurement

State of the TELCO Alarms

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xDF

OEM-reserved

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x01

PICMG Shelf Management
Controller

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x00, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x07, 0x00

Reading Definition

112

Interpreted Value

OEM States
According to Pigeon Point

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

SAM Active Shelf Manager Discrete Sensors

2.4.6.5

FRU Information and Sensor Data Records

BMC Watchdog Sensor
The following table describes the discrete BMC Watchdog sensor available on the Active SAM.
Table 2-113 Sensor No. 132 (0x84) BMC Watchdog
Feature

Raw Value/Description

Sensor Name

BMC Watchdog

Type of Measurement

State of the BMC Watchdog on
the Active SAM

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0x23

IPMI Watchdog 2

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x01

PICMG Shelf Management
Controller

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x0F, 0x01

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x0F, 0x01

Reading Definition

2.4.6.6

Interpreted Value

Supports 5 States
According to IPMI 1.5

System Event
The following table describes the discrete system event sensor available on the Active SAM.
Table 2-114 Sensor No. 133 (0x85) SYSTEM EVENT
Feature

Raw Value/Description

Sensor Name

System Event

Interpreted Value

Type of Measurement

Presence

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0x12

System Event

Sensor Owner LUN

0x00

Entity ID

0xF0

Entity Instance

0x01

Rearm mode

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

PICMG Shelf Management
Controller

Auto

113

FRU Information and Sensor Data Records

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Table 2-114 Sensor No. 133 (0x85) SYSTEM EVENT (continued)
Feature

Raw Value/Description

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x1F, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x1F, 0x00

Reading Definition

2.4.6.7

Interpreted Value

Supports 5 Successive States
According to IPMI 1.5

Fan Tray Presence Sensor
The following table describes the discrete fan tray presence sensor available on the Active
SAM.
Table 2-115 Sensor No. 220 (0xDC) Fan Tray 1
Feature

Raw Value/Description

Sensor Name

Fan Tray 1

Type of Measurement

Fan Tray 1 Presence

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0x25

Entity Presence

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x60

0x1E

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask(bytes
15,16)

0x03, 0x00

Deassertion Event Mask(bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x03, 0x00

Reading Definition

114

Interpreted Value

Supports 2 Successive States
According to IPMI 1.5

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

SAM Active Shelf Manager Discrete Sensors

FRU Information and Sensor Data Records

Table 2-116 Sensor No. 221 (0xDD) Fan Tray 2
Feature

Raw Value/Description

Sensor Name

Fan Tray 2

Interpreted Value

Type of Measurement

Fan Tray 2 Presence

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0x25

Entity Presence

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x61

0x1E

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask(bytes
15,16)

0x03, 0x00

Deassertion Event Mask(bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x03, 0x00

Reading Definition

Supports 2 Successive States
According to IPMI 1.5

Table 2-117 Sensor No. 222 (0xDE) Fan Tray 3
Feature

Raw Value/Description

Sensor Name

Fan Tray 3

Interpreted Value

Type of Measurement

Fan Tray 3 Presence

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0x25

Entity Presence

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x62

0x1E

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask(bytes
15,16)

0x03, 0x00

Deassertion Event Mask(bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x03, 0x00

Reading Definition

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Supports 2 Successive States
According to IPMI 1.5

115

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Table 2-118 Sensor No. 223 (0xDF) Fan Tray 4
Feature

Raw Value/Description

Sensor Name

Fan Tray 4

Interpreted Value

Type of Measurement

Fan Tray 4 Presence

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0x25

Entity Presence

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x63

0x1E

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask(bytes
15,16)

0x03, 0x00

Deassertion Event Mask(bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x03, 0x00

Reading Definition

Supports 2 Successive States
According to IPMI 1.5

Table 2-119 Sensor No. 224 (0xE0) Fan Tray 5
Feature

Raw Value/Description

Sensor Name

Fan Tray 5

Type of Measurement

Fan Tray 5 Presence

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0x25

Entity Presence

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x64

0x1E

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask(bytes
15,16)

0x03, 0x00

Deassertion Event Mask(bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x03, 0x00

Reading Definition

116

Interpreted Value

Supports 2 Successive States
According to IPMI 1.5

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

SAM Active Shelf Manager Discrete Sensors

FRU Information and Sensor Data Records

Table 2-120 Sensor No. 225 (0xE1) Fan Tray 6
Feature

Raw Value/Description

Sensor Name

Fan Tray 6

Interpreted Value

Type of Measurement

Fan Tray 6 Presence

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0x25

Entity Presence

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x65

0x1E

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask(bytes
15,16)

0x03, 0x00

Deassertion Event Mask(bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x03, 0x00

Reading Definition

Supports 2 Successive States
According to IPMI 1.5

Table 2-121 Sensor No. 226 (0xE2) Fan Tray 7
Feature

Raw Value/Description

Sensor Name

Fan Tray 7

Interpreted Value

Type of Measurement

Fan Tray 7 Presence

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0x25

Entity Presence

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x66

0x1E

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask(bytes
15,16)

0x03, 0x00

Deassertion Event Mask(bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x03, 0x00

Reading Definition

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Supports 2 Successive States
According to IPMI 1.5

117

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SAM Active Shelf Manager Discrete Sensors

Table 2-122 Sensor No. 227 (0xE3) Fan Tray 8
Feature

Raw Value/Description

Sensor Name

Fan Tray 8

Interpreted Value

Type of Measurement

Fan Tray 8 Presence

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0x25

Entity Presence

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x67

Cooling Unit

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x03, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x03, 0x00

Reading Definition

Supports 2 Successive States
According to IPMI 1.5

An additional Fan Tray Presence sensor supports the SAM used in the AXP1600 shelf.

Table 2-123 Sensor No. 228 (0xE4) Fan Tray 9, AXP1600

118

Feature

Raw Value/Description

Sensor Name

Fan Tray 9

Interpreted Value

Type of Measurement

Fan Tray 8 Presence

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0x25

Entity Presence

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x68

Cooling Unit

Rearm mode

Auto

Event message control

Entire Sensor only

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

SAM Active Shelf Manager Discrete Sensors

FRU Information and Sensor Data Records

Table 2-123 Sensor No. 228 (0xE4) Fan Tray 9, AXP1600 (continued)
Feature

Raw Value/Description

Assertion Event Mask (bytes
15,16)

0x03, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x03, 0x00

Reading Definition

2.4.6.8

Interpreted Value

Supports 2 Successive States
According to IPMI 1.5

Fan Tray -48 V Fuse Sensor
The following tables describes the discrete fan tray -48 V fuse sensors available on the Active
SAM. For further information on these sensors, refer to FT -48 V Fuse (Emerson OEM) on page
139.
Table 2-124 Sensor No. 230 (0xE6) FT 1 -48 V Fuse
Feature

Raw Value/Description

Sensor Name

FT 1 -48V Fuse

Interpreted Value

Type of Measurement

State of Fuse

Class

Discrete

Event/Reading Type

0x03

'digital' Discrete

Sensor Type

0xC0

OEM-reserved

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x60

Cooling Unit

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x02, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x03, 0x00

Reading Definition

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Supports 2 Successive States
According to Pigeon Point

119

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SAM Active Shelf Manager Discrete Sensors

Table 2-125 Sensor No. 231 (0xE7) FT 2 -48 V Fuse
Feature

Raw Value/Description

Sensor Name

FT 2 -48 V Fuse

Interpreted Value

Type of Measurement

State of Fuse

Class

Discrete

Event/Reading Type

0x03

'digital' Discrete

Sensor Type

0xC0

OEM-reserved

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x61

Cooling Unit

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x02, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x03, 0x00

Reading Definition

Supports 2 Successive States
According to Pigeon Point

Table 2-126 Sensor No. 233 (0xE9) FT 4 -48 V Fuse
Feature

Raw Value/Description

Sensor Name

FT 4 -48 V Fuse

Type of Measurement

State of Fuse

Class

Discrete

Event/Reading Type

0x03

'digital' Discrete

Sensor Type

0xC0

OEM-reserved

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x63

Cooling Unit

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x02, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x03, 0x00

Reading Definition

120

Interpreted Value

Supports 2 Successive States
According to Pigeon Point

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

SAM Active Shelf Manager Discrete Sensors

FRU Information and Sensor Data Records

Table 2-127 Sensor No. 232 (0xE8) FT 3 -48 V Fuse
Feature

Raw Value/Description

Sensor Name

FT 3 -48 V Fuse

Interpreted Value

Type of Measurement

State of Fuse

Class

Discrete

Event/Reading Type

0x03

'digital' Discrete

Sensor Type

0xC0

OEM-reserved

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x62

Cooling Unit

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x02, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x03, 0x00

Reading Definition

Supports 2 Successive States
According to Pigeon Point

Table 2-128 Sensor No. 234 (0xEA) FT 5 -48 V Fuse
Feature

Raw Value/Description

Sensor Name

FT 5 -48 V Fuse

Interpreted Value

Type of Measurement

State of Fuse

Class

Discrete

Event/Reading Type

0x03

'digital' Discrete

Sensor Type

0xC0

OEM-reserved

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x64

Cooling Unit

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x02, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x03, 0x00

Reading Definition

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Supports 2 Successive States
According to Pigeon Point

121

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SAM Active Shelf Manager Discrete Sensors

Table 2-129 Sensor No. 235 (0xEB) FT 6 -48 V Fuse
Feature

Raw Value/Description

Sensor Name

FT 6 -48 V Fuse

Interpreted Value

Type of Measurement

State of Fuse

Class

Discrete

Event/Reading Type

0x03

'digital' Discrete

Sensor Type

0xC0

OEM-reserved

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x65

Cooling Unit

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x02, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x03, 0x00

Reading Definition

Supports 2 Successive States
According to Pigeon Point

Table 2-130 Sensor No. 236 (0xEC) FT 7 -48 V Fuse
Feature

Raw Value/Description

Sensor Name

FT 7 -48 V Fuse

Type of Measurement

State of Fuse

Class

Discrete

Event/Reading Type

0x03

'digital' Discrete

Sensor Type

0xC0

OEM-reserved

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x66

Cooling Unit

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x02, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x03, 0x00

Reading Definition

122

Interpreted Value

Supports 2 Successive States
According to Pigeon Point

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

SAM Active Shelf Manager Discrete Sensors

FRU Information and Sensor Data Records

Table 2-131 Sensor No. 237 (0xED) FT 8 -48 V Fuse
Feature

Raw Value/Description

Sensor Name

FT 8 -48 V Fuse

Interpreted Value

Type of Measurement

State of Fuse

Class

Discrete

Event/Reading Type

0x03

'digital' Discrete

Sensor Type

0xC0

OEM-reserved

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x67

Cooling Unit

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x02, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x03, 0x00

Reading Definition

Supports 2 Successive States
According to Pigeon Point

An additional -48 V Fuse sensor supports the SAM used in the AXP1600 shelf.

Table 2-132 Sensor No. 238 (0xEE) FT9 -48 V Fuse, AXP1600
Feature

Raw Value/Description

Sensor Name

FT 9 -48 V Fuse

Interpreted Value

Type of Measurement

State of Fuse

Class

Discrete

Event/Reading Type

0x03

'digital' Discrete

Sensor Type

0xC0

OEM-reserved

Sensor Owner LUN

0x00

Entity ID

0x1E

Entity Instance

0x68

Cooling Unit

Rearm mode

Auto

Event message control

Entire Sensor only

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

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Power Entry Module Sensor Data Records

Table 2-132 Sensor No. 238 (0xEE) FT9 -48 V Fuse, AXP1600 (continued)
Feature

Raw Value/Description

Assertion Event Mask (bytes
15,16)

0x02, 0x00

Deassertion Event Mask (bytes
17,18)

0x00, 0x00

Discrete Reading Mask (bytes
19, 20)

0x03, 0x00

Reading Definition

2.5

Interpreted Value

Supports 2 Successive States
According to Pigeon Point

Power Entry Module Sensor Data Records
This section describes in detail all available IPMI sensors of the Power Entry Module.

2.5.1

PEM FRU Information
There are two PEMs; one at IPMB address 0x66 and another at IPMB address 0x68. The main
FRU (FRU 0) contains the FRU information of the PEM and it is the same for both PEMs (except
for the serial number). FRU 1 contains the FRU information that the Active SAM caches as FRU
254 of IPMB address 0x20.
The FRU 0 information in a PEM1000 is represented in the next table.
Pigeon Point Shelf Manager Command Line Interpreter
66: FRU # 0, FRU Info
Common Header:

Format Version = 1

Board Info Area:
Version

= 1

Language Code
Mfg Date/Time

= 25
= Jan

1 00:00:00 2006 (5260320 minutes since 1996)

Board Manufacturer

= Motorola

Board Product Name

= PEM1000

Board Serial Number

= 1234567890

Board Part Number

= 01-W2330F11A

FRU Programmer File ID

= PEM1000R.inf

Product Info Area:
Version

= 1

Language Code

124

= 25

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

E-Keying

2.5.2

FRU Information and Sensor Data Records

Manufacturer Name

= Motorola

Product Name

= AXP Power Entry Module

Product Part / Model#

= PEM1000

Product Version

= Rev. 01

Product Serial Number

= 1234567890

Asset Tag

=

FRU Programmer File ID

= PEM1000R.inf

E-Keying
The Power Entry Module does not have e-keyed backplane interfaces, and as a result the FRU
information for the PEM does not contain a PICMG Point-to-Point Connectivity Record.

2.5.3

Power Configuration
The next table describes the power configuration for the PEMs.
Table 2-133 Power Configuration for PEMs
Item

Value

Description

Dynamic power reconfiguration support

No

Possibility to change FRU power
consumption without switching it off,
according to AdvancedTCA

Dynamic power configuration

No

Are the power draw levels fixed or these
may vary if additional components are
hot inserted or onboard component
power consumption is changing
dynamically

Number of power draw levels

1

The amount of possible power levels,
normally 1

Early power draw levels, watt

0.1

Complete early power level including
IPMC

Steady state power draw levels, watt

0.1

Complete steady power consumption
including IPMC

Transition from early to steady levels in seconds

0

How long does board consume early
power. Early power is normally bigger
than steady power

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

125

FRU Information and Sensor Data Records

2.5.4

Power Entry Module Sensor Overview

Power Entry Module Sensor Overview
The following table lists all IPMI sensors available on the Power Entry Module.
Table 2-134 IPMI Sensors on the PEM

2.5.5

Sensor
No.

Sensor Name

Type of
Measurement

What does it
measure?

Sensor
Type

Availability

0

Hot Swap

Status

State of FRU

Discrete

Always

1

IPMB Physical

Status

State of IPMB link

Discrete

Always

2

+3.3 V

Voltage

Analog

Always

3

+8 V Backup Out

Voltage

Analog

Always

4

+12 V Backplane

Voltage

Analog

Always

5

CB 1

Status

Circuit Breaker fuse
state

OEMreserved

Always

6

CB 2

Status

Circuit Breaker fuse
state

OEMreserved

Always

7

CB 3

Status

Circuit Breaker fuse
state

OEMreserved

Always

8

CB 4

Status

Circuit Breaker fuse
state

OEMreserved

Always

9

CB 5

Status

Circuit Breaker fuse
state

OEMreserved

Always

10

DS75 Temp

Temperature

Analog

Always

11

+48.0 V FEED

Voltage

Analog

Always

12

+7.5 V PEM

Voltage

Analog

Always

13

+8 V PEM Feed 2

Voltage

Analog

Always

14

+12 V Current

Current

Analog

Always

15

+8 V PEM Feed 1

Voltage

Analog

Always

Power Entry Module Analog Sensors
The analog sensors available on the PEM can be divided into the following four categories:

126

z

Voltage Sensors

z

Current Sensor

z

Temperature Sensor

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Power Entry Module Analog Sensors

2.5.5.1

FRU Information and Sensor Data Records

Voltage Sensors
The following sensors measure voltages of the PEM.
Table 2-135 Sensor No. 2 +3.3 V
Feature

Raw Value/Description

Sensor Name

+3.3 V

Interpreted Value

Device
Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x0A

Entity Instance

0x60

Power Supply

Rearm mode

Auto

Hysteresis support

Readable/Settable

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable threshold mask,
Settable threshold mask (bytes
19, 20)

0x3F, 0x3F

Reading Type

Upper and Lower Non-Critical,
Critical and Non-Recoverable
Thresholds are Readable and
Settable
Unsigned

Lower Non-Critical, Critical and
Non-Recoverable thresholds

0xD8, 0xD4, 0xD1

(3.1104, 2.0528, 3.0096) Volts

Upper Non-Critical, Critical and
Non-Recoverable thresholds

0xF4, 0xF7, 0xFA

(3.5136, 3.5568, 3.6) Volts

Feature

Raw Value/Description

Interpreted Value

Sensor Name

+8 V Backup Out

Table 2-136 Sensor No. 3 +8 V

Device
Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x0A

Entity Instance

0x60

Power Supply

Rearm mode

Auto

Hysteresis support

Readable/Settable

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

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Power Entry Module Analog Sensors

Table 2-136 Sensor No. 3 +8 V (continued)
Feature

Raw Value/Description

Interpreted Value

Readable threshold mask,
Settable threshold mask (bytes
19, 20)

0x3F, 0x3F

Upper and Lower Non-Critical,
Critical and Non-Recoverable
Thresholds are Readable and
Settable

Reading Type

Unsigned

Lower Non-Critical, Critical and
Non-Recoverable thresholds

0x87, 0x7D, 0x74

(7.02, 6.5, 6.032) Volts

Upper Non-Critical, Critical and
Non-Recoverable thresholds

0xAE, 0xB7, 0xC1

(0.048, 9.516, 10.036) Volts

Table 2-137 Sensor No. 4 +12 V Backplane
Feature

Raw Value/Description

Sensor Name

+12 V Backplane

Interpreted Value

Device
Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x0A

Entity Instance

0x60

Power Supply

Rearm mode

Auto

Hysteresis support

Readable/Settable

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable threshold mask,
Settable threshold mask (bytes
19, 20)

0x3F, 0x3F

Reading Type

Upper and Lower Non-Critical,
Critical and Non-Recoverable
Thresholds are Readable and
Settable
Unsigned

Lower Non-Critical, Critical and
Non-Recoverable thresholds

0xD4, 0xCA, 0xC1

(11.024, 10.504, 10.036) Volts

Upper Non-Critical, Critical and
Non-Recoverable thresholds

0xFA, 0xFF, 0xFF

(13, 13.26, 13.26) Volts

Table 2-138 Sensor No. 11 +48.0 V Feed
Feature

Raw Value/Description

Sensor Name

+48.0 V FEED

Interpreted Value

Device

128

Sensor Type

0x02

Voltage

Class

0x01

Threshold

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Power Entry Module Analog Sensors

FRU Information and Sensor Data Records

Table 2-138 Sensor No. 11 +48.0 V Feed (continued)
Feature

Raw Value/Description

Sensor Owner LUN

0x00

Entity ID

0x0A

Entity Instance

0x60

Interpreted Value

Power Supply

Rearm mode

Auto

Hysteresis support

Readable/Settable

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable threshold mask,
Settable threshold mask (bytes
19, 20)

0x3F, 0x3F

Reading Type

Upper and Lower Non-Critical,
Critical and Non-Recoverable
Thresholds are Readable and
Settable
Unsigned

Lower Non-Critical, Critical and
Non-Recoverable thresholds

0x86, 0x7A, 0x73

(42.076, 38.308, 36.11) Volts

Upper Non-Critical, Critical and
Non-Recoverable thresholds

0xE6, 0xEF, 0xF3

(72.22, 75.046, 76.302) Volts

Table 2-139 Sensor No. 12 +7.5 V PEM
Feature

Raw Value/Description

Sensor Name

+7.5 V PEM

Interpreted Value

Device
Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x0A

Entity Instance

0x60

Power Supply

Rearm mode

Auto

Hysteresis support

Readable/Settable

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable threshold mask,
Settable threshold mask (bytes
19, 20)

0x3F, 0x3F

Reading Type

Upper and Lower Non-Critical,
Critical and Non-Recoverable
Thresholds are Readable and
Settable
Unsigned

Lower Non-Critical, Critical and
Non-Recoverable thresholds

0x7D, 0x74, 0x6A

(6.5, 6.032, 5.512) Volts

Upper Non-Critical, Critical and
Non-Recoverable thresholds

0xA4, 0xAE, 0xB7

(8.528, 9.048, 9.516) Volts

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

129

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Power Entry Module Analog Sensors

Table 2-140 Sensor No. 13 +8 V PEM Feed 2
Feature

Raw Value/Description

Sensor Name

+8 V PEM Feed 2

Interpreted Value

Device
Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x0A

Entity Instance

0x60

Power Supply

Rearm mode

Auto

Hysteresis support

Readable/Settable

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable threshold mask,
Settable threshold mask (bytes
19, 20)

0x3F, 0x3F

Reading Type

Upper and Lower Non-Critical,
Critical and Non-Recoverable
Thresholds are Readable and
Settable
Unsigned

Lower Non-Critical, Critical and
Non-Recoverable thresholds

0x87, 0x7D, 0x74

(7.02, 6.5, 6.032) Volts

Upper Non-Critical, Critical and
Non-Recoverable thresholds

0xAE, 0xB7, 0xC1

(9.048, 9.516, 10.036) Volts

Table 2-141 Sensor No. 15 +8 V PEM Feed 1
Feature

Raw Value/Description

Sensor Name

+8 V PEM Feed 1

Interpreted Value

Device

130

Sensor Type

0x02

Voltage

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x0A

Entity Instance

0x60

Power Supply

Rearm mode

Auto

Hysteresis support

Readable/Settable

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Power Entry Module Analog Sensors

FRU Information and Sensor Data Records

Table 2-141 Sensor No. 15 +8 V PEM Feed 1 (continued)
Feature

Raw Value/Description

Interpreted Value

Readable threshold mask,
Settable threshold mask (bytes
19, 20)

0x3F, 0x3F

Upper and Lower Non-Critical,
Critical and Non-Recoverable
Thresholds are Readable and
Settable

Reading Type

2.5.5.2

Unsigned

Lower Non-Critical, Critical and
Non-Recoverable thresholds

0x87, 0x7D, 0x74

(7.02, 6.5, 6.032) Volts

Upper Non-Critical, Critical and
Non-Recoverable thresholds

0xAE, 0xB7, 0xC1

(9.048, 9.516, 10.036) Volts

Current Sensor
The following table describes the sensor that measures the +12V current on the PEM.
Table 2-142 Sensor No. 14 +12 V Current
Feature

Raw Value/Description

Sensor Name

+12 V Current

Interpreted Value

Device
Sensor Type

0x03

Current

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x0A

Entity Instance

0x60

Power Supply

Rearm mode

Auto

Hysteresis support

Readable/Settable

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable threshold mask,
Settable threshold mask (bytes
19, 20)

0x38, 0x38

Reading Type
Upper Non-Critical, Critical and
Non-Recoverable thresholds

Upper Non-Critical, Critical and
Non-Recoverable Thresholds
are Readable and Settable
Unsigned

0x4A, 0x4E, 0x52

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

(9.028, 9.516, 10.004) Amps

131

FRU Information and Sensor Data Records

2.5.5.3

Power Entry Module Discrete Sensors

Temperature Sensor
The following tables describe the temperature sensors available on the PEMs.
Table 2-143 Sensor No. 10 DS75 Temp
Feature

Raw Value/Description

Sensor Name

DS75 Temp

Interpreted Value

Device
Sensor Type

0x01

Temperature

Class

0x01

Threshold

Sensor Owner LUN

0x00

Entity ID

0x0A

Entity Instance

0x60

Power Supply

Rearm mode

Auto

Hysteresis support

Readable/Settable

Threshold access support

Readable/Settable

Event message control

Entire Sensor only

Readable threshold mask,
Settable threshold mask (bytes
19, 20)

0x38, 0x38

Reading Type

Unsigned

Upper Non-Critical, Critical and
Non-Recoverable thresholds

2.5.6

Upper Non-Critical, Critical and
Non-Recoverable Thresholds
are Readable and Settable

0x28, 0x3C, 0x50

(40, 60, 80) Centigrades

Power Entry Module Discrete Sensors
The following tables describe these discrete sensors available on the PEM:

2.5.6.1

z

Hot Swap Sensor

z

IPMB Link Sensor

z

Circuit Breaker State Sensors

Hot Swap Sensor
The following table describes the discrete hot swap sensor available on the PEM.
Table 2-144 Sensor #0, Hot Swap
Feature

Raw Value/Description

Sensor Name

Hot Swap

Type of Measurement

Hot Swap State

Class

Discrete

Event/Reading Type

132

Interpreted Value

0x6F

Sensor-specific

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Power Entry Module Discrete Sensors

FRU Information and Sensor Data Records

Table 2-144 Sensor #0, Hot Swap (continued)
Feature

Raw Value/Description

Interpreted Value

Sensor Type

0xF0

Hot Swap

Sensor Owner LUN

0x00

Entity ID

0x0A

Entity Instance

0x60

Rearm Mode

Auto

Event Message Control

Entire Sensor Only

Assertion Event Mask (byte 15, 16)

0xFF, 0x00

Deassertion Event Mask (byte 17, 18)

0x00, 0x00

Discrete Reading Mask (byte 19, 20)

0xFF, 0x00

Reading Definition

2.5.6.2

Power Supply

Supports 8 Successive States
According to PICMG 3.0

IPMB Link Sensor
The following table describes the IPMB link sensor on the PEMs.
Table 2-145 Sensor #1, IPMB Physical
Feature

Raw Value/Description

Sensor Name

IPMB Physical

Interpreted Value

Type of Measurement

IPMB Link State

Class

Discrete

Event/Reading Type

0x6F

Sensor-specific

Sensor Type

0xF1

IPMB Link

Sensor Owner LUN

0x00

Entity ID

0x0A

Entity Instance

0x60

Rearm Mode

Auto

Event Message Control

Entire Sensor Only

Assertion Event Mask (byte 15, 16)

0x0F, 0x00

Deassertion Event Mask (byte 17, 18)

0x00, 0x00

Discrete Reading Mask (byte 19, 20)

0x0F, 0x00

Reading Definition

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Supports 4 Successive States
According to PICMG 3.0

133

FRU Information and Sensor Data Records

2.5.7

Circuit Breaker State Sensors

Circuit Breaker State Sensors
The following tables describe the OEM circuit breaker state sensors available on the PEM.
Table 2-146 Sensor #5, CB 1
Feature

Raw Value/Description

Sensor Name

CB 1

Interpreted Value

Type of Measurement

Monitors if the circuit breaker
has been opened.l

Class

Discrete

Event/Reading Type

0x03

Digital Discrete

Sensor Type

0xC0

OEM-reserved

Sensor Owner LUN

0x00

Entity ID

0x0A

Entity Instance

0x60

Power Supply

Rearm Mode

Auto

Event Message Control

Entire Sensor only

Assertion Event Mask (byte 15, 16)

0x02, 0x00

Deassertion Event Mask (byte 17, 18)

0x02, 0x00

Discrete Reading Mask (byte 19, 20)

0x03, 0x00

Reading Definition

Supports 2 States
According to Pigeon Point

Table 2-147 Sensor #6 CB 2
Feature

Raw Value/Description

Sensor Name

CB 2

Interpreted Value

Type of Measurement

Monitors if the circuit breaker
has been opened.l

Class

Discrete

Event/Reading Type

0x03

Digital Discrete

Sensor Type

0xC0

OEM-reserved

Sensor Owner LUN

0x00

Entity ID

0x0A

Power Supply

Entity Instance

134

Rearm Mode

Auto

Event Message Control

Discrete State Event
Enable/Disable

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Circuit Breaker State Sensors

FRU Information and Sensor Data Records

Table 2-147 Sensor #6 CB 2 (continued)
Feature

Raw Value/Description

Interpreted Value

Assertion Event Mask (byte 15, 16)

0x02, 0x00

State Deasserted
State Asserted

Deassertion Event Mask (byte 17, 18)

0x02, 0x00

State Deasserted
State Asserted

Discrete Reading Mask (byte 19, 20)

0x03, 0x00

Supports 2 Successive States

Reading Definition

According to IPMI 1.5

Table 2-148 Sensor No. 7 CB 3
Feature

Raw Value/Description

Sensor Name

CB 3

Interpreted Value

Type of Measurement

Monitors if the Circuit Breaker
has been opened.

Class

Discrete

Event/Reading Type

0x03

'digital' Discrete

Sensor Type

0xC0

OEM-reserved

Sensor Owner LUN

0x00

Entity ID

0x0A

Entity Instance

0x60

Power Supply

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x02, 0x00

Deassertion Event Mask (bytes
17,18)

0x02, 0x00

Discrete Reading Mask (bytes
19, 20)

0x03, 0x00

Reading Definition

Supports 2 States
According to Pigeon Point

Table 2-149 Sensor No. 8 CB 4
Feature

Raw Value/Description

Sensor Name

CB 4

Interpreted Value

Type of Measurement

Monitors if the Circuit Breaker
has been opened.

Class

Discrete

Event/Reading Type

0x03

'digital' Discrete

Sensor Type

0xC0

OEM-reserved

Sensor Owner LUN

0x00

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135

FRU Information and Sensor Data Records

Circuit Breaker State Sensors

Table 2-149 Sensor No. 8 CB 4 (continued)
Feature

Raw Value/Description

Interpreted Value

Entity ID

0x0A

Power Supply

Entity Instance

0x60

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x02, 0x00

Deassertion Event Mask (bytes
17,18)

0x02, 0x00

Discrete Reading Mask (bytes
19, 20)

0x03, 0x00

Reading Definition

Supports 2 States
According to Pigeon Point

Table 2-150 Sensor No. 9 CB 5
Feature

Raw Value/Description

Sensor Name

CB 5

Type of Measurement

Monitors if the Circuit Breaker
has been opened.

Class

Discrete

Event/Reading Type

0x03

'digital' Discrete

Sensor Type

0xC0

OEM-reserved

Sensor Owner LUN

0x00

Entity ID

0x0A

Entity Instance

0x60

Power Supply

Rearm mode

Auto

Event message control

Entire Sensor only

Assertion Event Mask (bytes
15,16)

0x02, 0x00

Deassertion Event Mask (bytes
17,18)

0x02, 0x00

Discrete Reading Mask (bytes
19, 20)

0x03, 0x00

Reading Definition

136

Interpreted Value

Supports 2 States
According to Pigeon Point

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

OEM Sensors

3.1

3

OEM Sensors
This section describes the various OEM sensors provided by Emerson and Pigeon Point
Systems that are located on the SAM.

3.1.1

z

Telco Alarms (Pigeon Point OEM)

z

AXP Backplane ID (Emerson OEM)

z

POST Results (Emerson OEM)

z

Shelf FRU Info (Emerson OEM)

z

FT -48 V Fuse (Emerson OEM)

z

Shm Fault Event (Emerson OEM)

Telco Alarms (Pigeon Point OEM)
The ShM implements the alarm generation mechanism as part of the platform event filtering
(PEF) framework. An OEM action in PEF is implemented as alarm generation. The ShM
implements the alarm sensor in its own sensor space. The sensor type for this sensor is OEM
specific, currently chosen to be DFh. The sensor is a discrete sensor with three states:
z

State 0 reflects the presence of the Critical alarm

z

State 1 reflects the presence of the Major alarm

z

State 2 reflects the presence of the Minor alarm

Changes in the states of this sensor may be mapped to events using regular IPMI mechanisms.
Subsequently, platform event filtering may be used to specify actions, such as chassis reset or
power cycle, that should be invoked for these events, or alerts to be sent to remote destinations
(including the System Manager).
The alarm sensor is recorded in the device SDR repository maintained by the ShM. The
command Re-Arm Sensor Events can be used by the ShM to clear active Major and Minor
alarms.
The ShM tracks the current state of alarms and the alarm cutoff input line and modifies the state
of alarm LEDs accordingly. When the alarm cutoff signal gets activated, the ShM stops
generating the alarms to the external output, but maintains the alarm state internally. The alarm
LED(s) is (are) left blinking during that time. When the alarm cutoff signal gets deactivated, the
state of external outputs and LEDs is restored according to the current state of the alarms
(Minor and Major alarms may still be cleared while alarm cutoff is active).

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

137

OEM Sensors

AXP Backplane ID (Emerson OEM)

Alarm cutoff is deactivated automatically after a timeout defined as a configuration parameter
(see PPS user guide for the Shmm 500 for more details about TELCO Alarms configuration
parameters).

3.1.2

AXP Backplane ID (Emerson OEM)
This sensor reports the ID number of the IPMB backplane type. The 1406 and 1600 contain a
readable value which reports a unique identifier of the backplane type. While the main purpose
of this sensor is to report the unique ID of the backplane, it can also be used to determine if a
SAM has connectivity problems to the backplane. This sensor is available on each physical
ShMM controller.

3.1.3

z

Sensor Reading - Unique identification number of the backplane

z

Current State Mask - 0x00 = No failure reading ID
0x01 = ECC check failed on read value

z

Events - No events are generated by this sensor.

POST Results (Emerson OEM)
This sensor reports the results of the U-Boot POST tests. This sensor is available on each
physical ShMM controller. POST results are reported in an 8-bit bit-field. Any bit that is set (set
to 1) indicates that the respective POST failure occurred.
z

Sensor Reading - POST State in a 8-bit value according to the following mask definition:
Bit
Bit
Bit
Bit
Bit
Bit
Bit
Bit

7
6
5
4
3
2
1
0

-

RTC
Watchdog
CRC
Ethernet
UART
I2C
Memory
IPMB

z

Current State Mask - 0x01 = POST Passed
0x02 = POST Failed

z

Events - Events are generated at shelf manager start up that will report failure events for
each individual test that fails as follows:

Event Data Byte 1 = 0x61
Event Data Byte 2 = 0x3F
POST Sensor Reading = Bit 0 (IPMB)
Bit 1 (Memory)
Bit 2 (I2C)
Bit 3 (UART)
Bit 4 (Ethernet)

138

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Shelf FRU Info (Emerson OEM)

OEM Sensors

Bit 5 (CRC)
Bit 6 (Watchdog)
Bit 7 (RTC)

3.1.4

Shelf FRU Info (Emerson OEM)
This sensor reports the validity of the Shelf FRU Information. This sensor is available on each
physical ShMM controller. The check it performs is basic checksum and length checks based
on information of previous sections of the FRU area; and key bytes that are expected to have
certain values.
z

Sensor Reading - 0x00 (meaningless since discrete sensor reading)

z

Current State Mask - 0x01 Shelf FRU Info not found (Disabled)
0x02 Shelf FRU Info found (Enabled)

z

Events - Events are generated when the state of the FRU Info found state changes.

Event Data Byte 1 = 0x01 Shelf FRU Info not found (Disabled)
0x02 Shelf FRU Info found (Enabled)
Event Data Byte 2 = 0xFF (Unspecified)
Event Data Byte 3 = 0xFF (Unspecified)

3.1.5

FT -48 V Fuse (Emerson OEM)
This sensor reads the System Status Register of the respective Fan Tray and verifies if the bit
for 48 V input power OK is set. The 48 V input power ok bit is set if all input fuses are intact.
z

Sensor Reading - 0x00 (NULL Discrete sensor reading)

z

Current State Mask - 0x01 (State Deasserted, all input fuses are intact)
0x02 (State Asserted, not all input fuses are intact)

z

Events - No events are generated by this sensor.

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

139

OEM Sensors

3.1.6

Shm Fault Event (Emerson OEM)

Shm Fault Event (Emerson OEM)
This sensor reports the status of Fault Classes on the Active shelf. When the value is read it
indicates the presence or absence of each fault class. Currently defined fault classes relate to
the health of the FTMs in the shelf.
z

Sensor Reading - This is a 2-byte bit mask of active fault conditions detected by the sensor.
A '1' in any bit indicates the specified fault is active. Refer to the following table for fault
classes.

z

Current State Mask - 0x1FE - mask of possible fault event bits

z

Events - For FTM-related faults, an event is generated when any FTM transitions into or
out of a fault condition. An event is flagged as an assertion event when at least one FTM
exhibits the fault class. It is flagged as a deassertion event when no FTMs remain with the
fault class.

Table 3-1 Shm Fault Classes
Fault
Class

Meaning

0

Not used.

1

One or more fan trays are missing.

2

One or more fan trays' speed sensors are below critical threshold.
By default, all of a FTM's speed sensors must be below critical speed in order to declare a
fault at that FTM; however through a new configuration option in shelfman.conf, the
administrator can change the behavior to declare a fault if any speed sensor is critical.

140

3

One or more fan trays' speed sensors do not show significant increase when the active shelf
manager asserts FULL_SPEED signal as part of the Fan Tray Latent Fault Check algorithm.
(Active FULL_SPEED test)

4

One or more fan trays' speed sensors do not return to a normal speed following the release
of FULL_SPEED signal by the active shelf manager, as part of the Fan Tray Latent Fault
Check algorithm. (Active FULL_SPEED test)

5

One or more fan trays' speed sensors do not show significant increase when the redundant
shelf manager asserts FULL_SPEED signal as part of the Fan Tray Latent Fault Check
algorithm. (Redundant FULL_SPEED test)

6

One or more fan trays' speed sensors do not return to a normal speed following the release
of FULL_SPEED signal by the active shelf manager, as part of the Fan Tray Latent Fault
Check algorithm. (Redundant FULL_SPEED test)

7

One or more fan trays' speed sensors do not show significant increase when the active shelf
manager increases the speed level to its maximum value as part of the Fan Tray Latent
Fault Check algorithm. (PSOC LFC test)

8

One or more fan trays' speed sensors do not return to a normal speed following the lowering
of the speed level by the active shelf manager, as part of the Fan Tray Latent Fault Check
algorithm. (PSOC test)

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

A

System Behavior in Response to
Sensor Events
A.1

A

Introduction
This chapter introduces important information for those who are developing their own
applications code, based on how the Centellis 3406 and 3600 system behaves to different
events.

A.2

Cooling Management in Normal Operation Mode
The Shelf Manager operates in normal mode with respect to cooling if no temperature sensor
in the shelf reports crossing of one of the upper thresholds (noncritical, critical or
nonrecoverable). In that case, there is no need to accelerate the fan speed.
On the contrary, the Shelf Manager in normal mode periodically reduces the fan speed by
FAN_LEVEL_STEP_DOWN* levels (once per COOLING_FAN_DECREASE_TIMEOUT*
seconds) until the fan speed reaches the minimum fan level or the shelf goes to abnormal mode
(with at least one of the temperature sensors reporting one of its upper thresholds crossed).
The minimum fan level is initially specified as a configuration parameter, but its value is
adjusted if the transition to the abnormal mode happens, in order to prevent subsequent
recurrence of the thermal alert.

A.3

Cooling Management in Abnormal Operation
Mode
The Shelf Manager operates in abnormal mode with respect to cooling if at least one
temperature sensor in the shelf reports crossing of one of the upper thresholds (noncritical,
critical or nonrecoverable). In that case, the Shelf Manager takes over the control of all fan
trays, including those that support local control mode, but excluding any fans for which the Get
Fan Level command reports that the fan is in 'Emergency Shut Down' mode. The Shelf
Manager raises the fan speed by FAN_LEVEL_STEP_UP* levels for every fan tray every
COOLING_FAN_INCREASE_TIMEOUT* seconds until the temperature reported by all
temperature sensors falls below the thresholds.
Additionally, when at least one critical temperature threshold has been exceeded, the Shelf
Manager starts reducing the power level of FRUs one level each COOLING_POLL_TIMEOUT*
seconds, if possible. FRUs are not powered down in that case, for example, SetPowerLevel(0)
is not issued. In that state, the Shelf Manager also immediately raises the level of all fans to the
maximum level and keeps it at maximum.

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

141

System Behavior in Response to Sensor Events

Adaptive Adjustment of the Minimum Fan Level

When at least one nonrecoverable temperature threshold has been exceeded on a FRU, the
Shelf Manager powers down the FRU (sending them the SetPowerLevel(0) command) and
refuses to power the FRU back up for COOLING_POLL_TIMEOUT* seconds. In that state, the
Shelf Manager also immediately raises the level of all fans to the maximum level and keeps it
at maximum.

A.4

Adaptive Adjustment of the Minimum Fan Level
The Shelf Manager changes the minimum fan level over time to prevent oscillations of the shelf
between normal and abnormal cooling mode. When the shelf transitions from normal to
abnormal cooling mode, this means that the current fan level is insufficient for effective cooling
of the shelf. In that case, the Shelf Manager dynamically changes the minimum fan level to the
current level + 1, so that next time in normal mode the Shelf Manager will not try to decrease
the fan level so low. (In the case of multiple fans and different fan levels, the Shelf Manager
chooses the maximum current fan level.) This makes the algorithm to converge to a certain fan
level after several oscillations; at that level, the shelf operates in normal cooling mode and this
is the minimum possible fan level at which the shelf can operate in normal cooling mode.
To accommodate for possible changes in the thermal load in the shelf in a long run, an
additional enhancement is implemented. After the shelf stays in normal cooling mode at a
stable fan level for a substantial period of time (specified as a configuration parameter
NORMAL_STABLE_TIME*, with a default of 1 hour), the minimum fan level is decreased by
one and the current fan level is allowed to drop to the new minimum. If the thermal load in the
shelf has decreased, the shelf will continue to operate at the reduced fan level. Otherwise, the
shelf will transition to the abnormal cooling state and the fan level will converge to a new stable
value after several oscillations.

142

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

Adaptive Adjustment of the Minimum Fan Level

System Behavior in Response to Sensor Events

The following graph illustrates the behavior of the above cooling algorithm in finding a stable
fan level in real shelf, in the presence of a substantial thermal load in the shelf. The
configuration parameter NORMAL_STABLE_TIME* is set to 30 minutes. The graph presents
the fan speed changes over a period of 70 minutes. The horizontal axis has time scaled from 0
to 70 minutes.
Figure A-1

Cooling Algorithm

The fan speed is initially lowered to 3. This causes a thermal alert and after a single increase
in fan speed, during the subsequent fan speed reduction, the level stabilizes at 4. After the
expiration of a period defined by the parameter NORMAL_STABLE_TIME* (which is equal to
30 minutes) the level is lowered to 3 which again causes a thermal alert, an increase in fan
speed with subsequent reductions, and the fan level again stabilizes at 4.
* These are configurable options in /etc/shelfman.conf. If these values are not defined in
shelfman.conf, default levels are used.

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

143

System Behavior in Response to Sensor Events

A.5

FRU State Management

FRU State Management
The following table provides the SAM action, FRU status, hot swap state for each FRU
temperature sensor in the shelf.

Table A-1 FRU State Table for Nonrecoverable Threshold Events from Temperature Sensors
FRU

Temperature Sensor

SAM Action
Step-1

Active
SAM

FRU Status
Step-2

Operation

Hot Swap
State
H/S LED

Sensor # 6("MAX6656 INT
@1A")
Sensor # 7("MAX6656 EXT1
@1A")
Sensor # 8("MAX6656 EXT2
@1A")

Set all FANmodule speed
MAX

H/S LED
ON. Still
working as
Active.

M6->M1
Turn ON
(Logical
SAM
(0x20) will
show M4
state)

Standby Sensor # 6("MAX6656 INT
SAM
@1A")
Sensor # 7("MAX6656 EXT1
@1A")
Sensor # 8("MAX6656 EXT2
@1A")

Set all FANmodule speed
MAX

H/S LED
ON.

M6->M1

Turn ON

PEM

Sensor # 12 ("DS75 Temp")

Set all FANmodule speed
MAX

Issue
"deactivate"
command to
PEM

Still working. M6 > M1

Turn ON

ATCAF101

Sensor # 8 ("Inlet Temp")

Set all FANmodule speed
MAX

Issue
"deactivate"
command to
F101

Payload
M6 > M1
powered
down by the
SAM.

Turn ON

Sensor # 9 ("Outlet Temp")

Set all FANmodule speed
MAX

Issue
"deactivate"
command to
F101

Payload
M6 > M1
powered
down by the
SAM.

Turn ON

Sensor # 10 ("PMC Temp")

Set all FANmodule speed
MAX

Issue
"deactivate"
command to
F101

Payload
M6 > M1
powered
down by the
SAM.

Turn ON

Sensor # 20 ("Artesyn Temp")

Set all FANmodule speed
MAX

Issue
"deactivate"
command to
F101

Payload
M6 > M1
powered
down by the
SAM.

Turn ON

144

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

FRU State Management

System Behavior in Response to Sensor Events

Table A-1 FRU State Table for Nonrecoverable Threshold Events from Temperature Sensors (continued)
FRU

ATCA7221

Temperature Sensor

SAM Action

FRU Status
Hot Swap
State
H/S LED

Step-1

Step-2

Operation

Sensor # 0
("BrdTempNearPMC")

Set all FANmodule speed
MAX

Issue
"deactivate"
command to
7221

Payload
M6 > M1
powered
down by the
SAM.

Turn ON

Sensor # 1 ("Temp Near Mem ")

Set all FANmodule speed
MAX

Issue
"deactivate"
command to
7221

Payload
M6 > M1
powered
down by the
SAM.

Turn ON

Sensor # 2 ("Temp CPU 0")

Set all FANmodule speed
MAX

Issue
"deactivate"
command to
7221

Payload
M6 > M1
powered
down by the
SAM.

Turn ON

Sensor # 3 ("Temp CPU 1")

Set all FANmodule speed
MAX

Issue
"deactivate"
command to
7221

Payload
M6 > M1
powered
down by the
SAM.

Turn ON

Sensor # 6 ("Die Temp CPU 0")

Set all FANmodule speed
MAX

Issue
"deactivate"
command to
7221

Payload
M6 > M1
powered
down by the
SAM.

Turn ON

Sensor # 7 ("Die Temp CPU 1")

Set all FANmodule speed
MAX

Issu e
"deactivate"
command to
7221

Payload
M6 > M1
powered
down by the
SAM.

Turn ON

Sensor # 10 ("12V DCDC
Temp.")

Set all FANmodule speed
MAX

Issue
"deactivate"
command to
7221

Payload
M6 > M1
powered
down by the
SAM.

Turn ON

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

145

System Behavior in Response to Sensor Events

146

FRU State Management

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

B

Related Documentation

B.1

B

Emerson Network Power - Embedded Computing
Documents
The Emerson Network Power - Embedded Computing publications listed below are referenced
in this manual. You can obtain electronic copies of Emerson Network Power - Embedded
Computing publications by contacting your local Emerson sales office. For documentation of
final released (GA) products, you can also visit the following website:
http://www.emersonnetworkpowerembeddedcomputing.com > Solution Services> Technical
Documentation Search. This site provides the most up-to-date copies of Emerson Network
Power - Embedded Computing product documentation.
Table B-1 Emerson Newtork Power - Embedded Computing Documents
Document Title

Publication Number

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference

6806800B66

Centellis R2 (AXP1405) to R3 (AXP1406/AXP1600) Porting Reference

6806800C31

ATCA-F101-5E System Controller and Switching Blade Installation and
Use

6806800C15

ATCA-7221 Reference Guide

6806800A50

ATCA-7107 Reference Guide

6806800A48

ATCA-S100 Reference Guide

6806800A36

ATCA-F101 Basic Blade Service Software Release 3

6806800C12

ATCA-7221 Basic Blade Service Software Release 3

6806800C14

ATCA-F101 Basic Blade Service Software Release 3

6806800C13

Centellis 3406/3600 Release 3.0 Document Collection

6806800C29

Pigeon Point Shelf Manager External Interface Reference, Release 2.1.1

DOCSHMEXTINT

Pigeon Point IPM Sentry Shelf Manager User Guide, 2.1.1

DOCSHMUG

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)

147

Related Documentation

B.2

Manufacturers’ Documents

Manufacturers’ Documents
For additional information, refer to the following table for manufacturers’ data sheets or user’s
manuals. As an additional help, a source for the listed document is provided. Please note that,
while these sources have been verified, the information is subject to change without notice.
Table B-2 Manufacturers Documents
Document Title

Web Site Source

IPM Sentry Shelf Manager User Guide

http://www.emersonnetworkpowerembeddedcompu
ting.com
P/N DOCShMUG

IPM Sentry Shelf - External Interface
Reference, Release

http://www.emersonnetworkpowerembeddedcompu
ting.com
P/N DOCShMEXTINT

B.3

Related Specifications
For additional information, refer to the following table for related specifications. As an additional
help, a source for the listed document is provided. Please note that, while these sources have
been verified, the information is subject to change without notice.
Table B-3 Related Specifications
Document Title

Source

IPMI Specifications, http://www.intel.com/design/servers/ipmi
IPMI Spec v1.5, Document Revision 1.1, February 20, 2002

Intel Corporation, HewlettPackard, DEC, NEC

IPMI v1.5 Addenda, Errata, and Clarifications, Addendum
Document Revision 5, January 29, 2004

Intel Corporation, HewlettPackard, DEC, NEC

Intelligent Platform Management Interface Specification v1.0,
Document Revision 1.1, November 15 1999

Intel Corporation, HewlettPackard, NEC, Dell

IPMI Implementer's Guide, Draft Version 0.7, September 16, 1998

Intel Corporation

IPMI Platform Management FRU Information Storage Definition
V1.0, September 27, 1999

Intel Corporation

PCI Industrial Manufacturers Group (PICMG) http://www.picmg.com/
AdvancedTCA Base 3.0 Specification, Revision 2.0

148

PICMG 3.0 R 2.0,Dated
03/18/05

AXP1406/AXP1600 Subsystem IPMI Programmer’s Reference (6806800B66C)



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