HP StorageWorks 2012sa Modular Smart Array user (488320-004, March 2013)
Table Of Contents
- Contents
- About This Guide
- 1
- System Components
- 2
- Installing and Cabling Enclosures
- 3
- Connecting Hosts
- 4
- Configuring a System for the First Time
- 5
- Troubleshooting
- Fault Isolation Methodology
- Correcting Enclosure IDs
- Using System LEDs to Diagnose Problems
- Is the front panel Fault ID amber?
- Is the controller back panel OK LED off?
- Is the controller back panel Fault/Service Required LED amber?
- Are both drive module LEDs, Online/Activity, and Fault/UID LEDs off?
- Is the drive module Fault/UID LED blinking amber?
- Is a connected port’s Host Link Status LED off?
- Is a connected port’s Expansion Port status LED off?
- Is a connected port’s Ethernet link status LED off?
- Is the power-and-cooling module AC Power Good LED off?
- Is the power-and-cooling module DC Voltage/Fan Fault/Service Required LED amber?
- Is the drive enclosure back panel OK LED off?
- Is the drive enclosure Fault/Service Required LED amber?
- Isolating a Host-Side Connection Fault
- Isolating a Controller Module Expansion Port Connection Fault
- Resolving Voltage and Temperature Warnings
- A
- Environmental Requirements and Specifications
- B
- Regulatory Compliance and Safety
- Index
68 HP 2012sa Modular Smart Array user guide • January 2013
Temperature Sensors
Extreme high and low temperatures can cause significant damage if they go
unnoticed. Each controller module has six temperature sensors. Of these, if the CPU
or FPGA temperature reaches a shutdown value, the controller module is
automatically shut down. Each power-and-cooling module has one temperature
sensor.
When a temperature fault is reported, it must be remedied as quickly as possible to
avoid system damage. This can be done by warming or cooling the installation
location.
When a power supply sensor goes out of range, the Fault/ID LED illuminates amber
and an event is logged to the event log.
Table 5-3 Controller Module Temperature Sensors
Description
Normal
Operating
Range
Warning
Operating
Range
Critical
Operating
Range
Shutdown
Values
CPU Temperature 3–88°C 0–3°C,
88–90°C
> 90°C0°C
100°C
FPGA Temperature 3–97°C 0–3°C,
97–100°C
None 0°C
100°C
Onboard Temperature 1 0–70°C None None None
Onboard Temperature 2 0–70°C None None None
Onboard Temperature 3
(Capacitor Temperature)
0–70°C None None None
CM Temperature 5–50°C<=5 °C,
>= 50 °C
<=0 °C,
>= 55 °C
None
Table 5-4 Power-and-Cooling Module Temperature Sensors
Description Normal Operating Range
Power Supply 1 Temperature
(power-and-cooling module 0)
0–80°C
Power Supply 2 Temperature
(power-and-cooling module 0)
0–80°C