HP XP7 Owner Guide (H6F56-96006)
Table 26 XP7 Environmental specifications
In StorageNot OperatingOperatingItem
-25 to 60-10 to 4360.8 - 80.9 /Temperature ºC
-10 to 35
8
16 to 32
5 to 958 to 9020 to 80Relative Humidity (%)
2
292726Max. Wet Bulb ºC
201010Temperature Deviation ºC
per hour)
Sine Vibration: 4.9 m/s
1
, 5 min.5 to 10 Hz: 2.5 mm
10 to 70 Hz: 4.9 m/s
1
5 to 10Hz: 0.25 mm
10 to 300Hz:
0.49m/s2
Vibration to 10Hz: 0.25
mm
At the resonant frequency with
the highest displacement found
between 3 to 100 Hz
3
70 to 99 Hz: 0.05 mm
99 to 300 Hz: 9.8 m/s
1
Random Vibration:
0.147 m2/s3
30 min, 5 to 100 Hz
4
--Up to 2.5
7
Earthquake
resistance (m/s2)
Horizontal:78.4 m/s
1
, 15 ms-Shock
Incline Impact 1.22 m/s
5
Vertical:
Rotational Edge 0.15 m
6
--60 m to 3,000 mAltitude
Notes
1. The requirements for operating condition should be satisfied before the storage system is powered on. Maximum
temperature of 32°C should be strictly satisfied at air inlet portion. The recommended operational room temperature
is 21°C to 24°C.
2. Non-operating condition includes both packing and unpacking conditions unless otherwise specified.
3. For shipping and storage, the product should be packed with factory packing.
4. No condensation in and around the drives/media should be observed under any conditions.
5. The vibration specifications apply to all three axes.
6. See ASTM D999-01 The Methods for Vibration Testing of Shipping Containers.
7. See ASTM D4728-01 Test Method for Random Vibration Testing of Shipping Containers.
8. See ASTM D5277-92 Test Method for Performing Programmed Horizontal Impacts Using an Inclined Impact Tester.
9. See ASTM D6055-96 Test Methods for Mechanical Handling of Unitized Loads and Large Shipping Cases and
Crates.
10. When FMDs are installed.
Heat output and air flow
The following table lists the heat output and air flow requirements for XP7 Storage.
Both the control chassis and the disk chassis contain front and rear fans to circulate air through
the chassis from front to back. Air flows in through the front bezel to the rear of the component
and exits through the perforations in the rear door. Either the front fans or the rear fans can cool
the chassis by themselves. The racks do not contain fans. Airflow is from front to back.
Heat output and air flow 83