Sensor locations, Power supply sensors, Cooling fan sensors – HP P2000 G3 MSA Array Systems User Manual
Page 65: Temperature sensors, 7 power supply sensors, 8 cooling fan sensor descriptions, 9 controller module temperature sensors
HP P2000 G3 iSCSI MSA System User Guide
65
Sensor locations
The storage system monitors conditions at different points within each enclosure to alert you to problems.
Power, cooling fan, temperature, and voltage sensors are located at key points in the enclosure. In each
controller module and expansion module, the enclosure management processor (EMP) monitors the status
of these sensors to perform SCSI enclosure services (SES) functions.
The following sections describe each element and its sensors.
Power supply sensors
Each enclosure has two fully redundant power supplies with load-sharing capabilities. The power supply
sensors described in the following table monitor the voltage, current, temperature, and fans in each power
supply. If the power supply sensors report a voltage that is under or over the threshold, check the input
voltage.
Cooling fan sensors
Each power supply includes two fans. The normal range for fan speed is 4,000 to 6,000 RPM. When a
fan’s speed drops below 4,000 RPM, the EMP considers it a failure and posts an alarm in the storage
system’s event log. The following table lists the description, location, and alarm condition for each fan. If
the fan speed remains under the 4,000 RPM threshold, the internal enclosure temperature may continue to
rise. Replace the power supply reporting the fault.
During a shutdown, the cooling fans do not shut off. This allows the enclosure to continue cooling.
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 (Field Programmable Gate Array)
temperature reaches a shutdown value, the controller module is automatically shut down. Each power
supply 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.
Table 7
Power supply sensors
Description
Event/Fault ID LED condition
Power supply 1
Voltage, current, temperature, or fan fault
Power supply 2
Voltage, current, temperature, or fan fault
Table 8
Cooling fan sensor descriptions
Description
Location
Event/Fault ID LED condition
Fan 1
Power supply 1
< 4,000 RPM
Fan 2
Power supply 1
< 4,000 RPM
Fan 3
Power supply 2
< 4,000 RPM
Fan 4
Power supply 2
< 4,000 RPM
Table 9
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°C
0°C
100°C
FPGA temperature
3–97°C
0–3°C,
97–100°C
None
0°C
105°C
Onboard temperature 1
0–70°C
None
None
None