Dell EMC Unity 680, Unity 880 Hardware Information Manual
Add to My manuals26 Pages
Dell EMC Unity 680 is an advanced midrange storage system designed for modern workloads and applications. It combines the simplicity and affordability of a traditional SAN with the flexibility and scalability of a modern software-defined storage platform. With industry-leading performance, scalability, and data protection, Unity 680 is ideal for virtualized environments, databases, and other demanding workloads.
advertisement
![Dell EMC Unity 680, Unity 880 Hardware Information Manual | Manualzz Dell EMC Unity 680, Unity 880 Hardware Information Manual | Manualzz](http://s2.manualzz.com/store/data/066166921_1-7cd493d00fbfa0a2ce720c7820e0a8e9-360x466.png)
Dell EMC Unity
™
All Flash and Unity Hybrid
Unity 480/F, Unity 680/F, Unity 880/F
Hardware Information Guide
302-005-520
REV 01
Copyright © 2019 Dell Inc. or its subsidiaries. All rights reserved.
Published June 2019
Dell believes the information in this publication is accurate as of its publication date. The information is subject to change without notice.
THE INFORMATION IN THIS PUBLICATION IS PROVIDED “AS-IS.“ DELL MAKES NO REPRESENTATIONS OR WARRANTIES OF ANY KIND
WITH RESPECT TO THE INFORMATION IN THIS PUBLICATION, AND SPECIFICALLY DISCLAIMS IMPLIED WARRANTIES OF
MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. USE, COPYING, AND DISTRIBUTION OF ANY DELL SOFTWARE DESCRIBED
IN THIS PUBLICATION REQUIRES AN APPLICABLE SOFTWARE LICENSE.
Dell, EMC, and other trademarks are trademarks of Dell Inc. or its subsidiaries. Other trademarks may be the property of their respective owners.
Published in the USA.
Dell EMC
Hopkinton, Massachusetts 01748-9103
1-508-435-1000 In North America 1-866-464-7381 www.DellEMC.com
2 Unity 480/F, Unity 680/F, Unity 880/F Hardware Information Guide
CONTENTS
Chapter 1
Chapter 2
Additional resources 5
DPE component descriptions 7
2U, 25-drive DPE component overview........................................................8
System identification tags..............................................................10
DPE embedded modules and 4-port cards...................................... 11
DPE I/O module types....................................................................14
DPE power supply.......................................................................... 16
Storage processor assembly internal components.......................................17
Technical specifications 19
Operating environment requirements......................................................... 22
DPE airflow....................................................................................23
Environmental recovery.................................................................24
Shipping and storage requirements............................................... 24
Shock and Vibration.......................................................................24
Fire suppressant disclaimer........................................................... 25
Air quality requirements.................................................................25
Unity 480/F, Unity 680/F, Unity 880/F Hardware Information Guide 3
CONTENTS
4 Unity 480/F, Unity 680/F, Unity 880/F Hardware Information Guide
Additional resources
As part of an improvement effort, revisions of the software and hardware are periodically released. Therefore, some functions described in this document might not be supported by all versions of the software or hardware currently in use. The product release notes provide the most up-to-date information on product features. Contact your technical support professional if a product does not function properly or does not function as described in this document.
Where to get help
Support, product, and licensing information can be obtained as follows:
Product information
For product and feature documentation or release notes, go to Unity Technical
Documentation at: www.emc.com/en-us/documentation/unity-family.htm
.
Troubleshooting
For information about products, software updates, licensing, and service, go to Online
Support (registration required) at: https://Support.EMC.com
. After logging in, locate the appropriate Support by Product page.
Technical support
For technical support and service requests, go to Online Support at: https://
Support.EMC.com
. After logging in, locate Create a service request. To open a service request, you must have a valid support agreement. Contact your Sales
Representative for details about obtaining a valid support agreement or to answer any questions about your account.
Special notice conventions used in this document
DANGER
Indicates a hazardous situation which, if not avoided, will result in death or serious injury.
WARNING
Indicates a hazardous situation which, if not avoided, could result in death or serious injury.
CAUTION
Indicates a hazardous situation which, if not avoided, could result in minor or moderate injury.
NOTICE
Addresses practices not related to personal injury.
Note
Presents information that is important, but not hazard-related.
Additional resources 5
Additional resources
6 Unity 480/F, Unity 680/F, Unity 880/F Hardware Information Guide
CHAPTER 1
DPE component descriptions
l l l l
2U, 25-drive DPE component overview
............................................................... 8
.....................................................................................................9
......................................................................................................11
Storage processor assembly internal components
.............................................. 17
DPE component descriptions 7
DPE component descriptions
2U, 25-drive DPE component overview
The 25-drive DPE is two rack units (U), 8.9 cm (3.5 in.) high, 79.2 cm (31.2 in.) deep, and includes slots for twenty-five 2.5-in. drives.
The DPE consists of the following components: l l l l l
Drives
Midplane
Storage processor assembly
Power supply module
EMI shielding
Drives
Each drive consists of one drive in a carrier. The drive carriers are metal and plastic assemblies that provide smooth, reliable contact with the enclosure slot guides and midplane connectors. Each carrier has a handle with a latch and spring clips. The latch holds the drive in place to ensure proper connection with the midplane. Drive activity and fault LEDs are located on the front of the enclosure.
SAS and SAS flash drives are supported. The drives are populated in the system from left to right.
Note
The first four drive slots are reserved for system drives, and should not be removed.
You can visually distinguish between drive types by their different latch and handle mechanisms and by type, capacity, and speed labels on each drive. You can add or remove a drive while the DPE is powered on, but you should exercise special care when removing modules while they are in use. Drives are sensitive electronic components.
Midplane
The midplane separates the front-facing drives from the rear-facing SP assemblies. It distributes power and signals to all components in the enclosure. The SP assemblies and drives plug directly into the midplane.
Storage processor assembly
Each DPE contains two SP assemblies. The SP assembly is the intelligent component providing the compute capability of the DPE. Acting as the control center, each SP assembly includes status LEDs.
Storage processor assembly power supply module
Each SP assembly contains a power supply module that connects the system to an exterior power source. Redundant power supplies can keep the entire DPE running if one power supply fails. The power supplies include LEDs to indicate component status.
A latch on the module locks it into place to ensure proper connection.
EMI shielding
EMI compliance requires a properly installed electromagnetic interference (EMI) shield in front of the DPE drives. When installed in cabinets that include a front door, the DPE includes a simple EMI shield. Other installations require a front bezel that has a locking latch and integrated EMI shield. Remove the bezel or shield to remove and install the drives.
8 Unity 480/F, Unity 680/F, Unity 880/F Hardware Information Guide
DPE front view
On the front, the DPE contains the following elements: l l
Drives in 2.5 in. carriers
Status LEDs
Figure 1 DPE front view
DPE component descriptions
Table 1 DPE component locations
Location Description
SAS or SAS Flash drives
Drive fault LED
Drive ready/activity LED
DPE power on LED
Figure 2 DPE and disk drive LEDs
Table 2 DPE and disk drive LEDs
LED
Disk drive fault
Location State
Amber
Off
Description
Fault has occurred.
No fault has occurred, normal operation.
DPE front view 9
DPE component descriptions
Table 2 DPE and disk drive LEDs (continued)
LED
Disk drive active
DPE fault/power
Location State
Blue
Off
Blue
Amber
Off
Description
Disk drive activity.
Disk drive is powered off.
Power is on. No fault has occurred, normal operation.
Power is on. Fault has occurred within the enclosure.
Power is off.
System identification tags
The Product Serial Number Tag (PSNT) and World Wide Name Seed are serialized labels that allow customer support to track nested hardware material in the field.
Product Serial Number Tag
The PSNT for the 25-slot DPE is a black pull-out tag that is located between the drives in slots 16 and 17.
Figure 3 PSNT location
World Wide Name (WWN) Seed Tag
The World Wide Name (WWN) Seed tag is a blue pull-out tag that is located between the drives in slot 7 and 8.
Figure 4 WWN Seed tag location
10 Unity 480/F, Unity 680/F, Unity 880/F Hardware Information Guide
DPE component descriptions
DPE rear view
On the rear of the DPE are two SP assemblies: SP assembly A and SP assembly B.
Each SP assembly contains the following hardware components: l l l
One embedded module
Two optional I/O modules
One power supply module
Figure 5 DPE rear view with hardware component locations
Table 3 DPE hardware component locations
Location Description
Storage processor assembly B
5
Storage processor assembly A
Power supply module
I/O module, slots 0 and 1
Embedded module
DPE embedded modules and 4-port cards
About embedded modules
Each SP assembly contains one embedded module that can hold one 4-port card for connectivity.
Note
Both SP assemblies must have the same type of embedded modules in the same slots.
The embedded module contains the following components: l l l l
One 4-port card
One non-maskable interrupt (NMI) button
Two mini-SAS HD back-end ports
Two RJ-45 LAN connectors
DPE rear view 11
DPE component descriptions l l l n n
System management port ( )
Service port ( )
One USB 3.0 port
One mini-USB port (unused)
One DB9 serial port (service access)
Note
The following figure shows the location of these components on the embedded module in SP assembly A. The location of the components in SP assembly B is mirrored.
Figure 6 Embedded module rear view with component locations
12
Table 4 Embedded module component locations
Location Description
4-port card
Mini serial port (unused)
Mini-SAS HD back-end ports
5
6
7
8
DB9 serial port (unused)
RJ-45 LAN connector - service port
RJ 45 LAN connector - system management port
Non-maskable interrupt (NMI) button
USB 3.0 port
About 4-port cards
The 4-port card is an optional component located within the embedded module. There are two supported 4-port cards: the 25GbE 4-port card and the 10GbE BaseT 4-port card.
The 25GbE 4-port card supports 1GbE SFP to RJ45, 10GbE or 25GbE SFP28, 25GbE passive TwinAx, and 10GbE active or passive TwinAx. Depending on the installed SFP or TwinAx cable, the following speeds are supported: 1GbE, 10GbE, and 25GbE. The ports may be configured individually with TwinAx or any of the supported SFPs.
Unity 480/F, Unity 680/F, Unity 880/F Hardware Information Guide
DPE component descriptions
The 10GbE BaseT 4-port card serves Ethernet traffic and iSCSI block protocol. The following speeds are supported: 1GbE and 10 GbE.
Embedded module and 4-port card LED status
Figure 7 Embedded module LEDs
Table 5 Embedded module LEDs
LED
Embedded module power
Location
Ethernet port link
Ethernet port activity
SAS port/activity Link
Port link
Storage processor assembly fault
State Description
Amber
Off
Green
Off
Amber
Off
Blue
Off
Green
Embedded module has faulted
No fault has occurred, normal operation.
Link established.
No link established.
Port activity.
No port activity.
SAS port link is up.
No link established.
Link up with high speed.
Amber
Off
Amber
Blue
Link up with degraded speed.
Link down.
Fault has occurred.
Storage processor assembly in Degraded Mode.
Amber or blue blinking
System is booting.
Blue and amber alternating
(green for 3 seconds)
Blue and amber alternating at one second intervals
System not initialized. A management IP address has not been assigned.
Storage processor assembly in Service Mode.
DPE embedded modules and 4-port cards 13
DPE component descriptions
Table 5 Embedded module LEDs (continued)
LED Location
Storage processor assembly power
Unsafe to remove
State Description
Off
Green
Green blinking Storage processor assembly is initializing a serial over LAN session (Standby Mode).
Off Storage processor assembly is off.
White
No fault has occurred, normal operation.
Storage processor assembly is on (main power).
Off
Do not remove the embedded module. Improper removal could cause data loss.
Safe to remove the embedded module when the embedded module has been properly prepared.
Nonmaskable interrupt (NMI) button
The nonmaskable interrupt (NMI) button is a recessed button located on the embedded module, which is used to reset the system password or force a system reboot.
Use a bent paper clip or pen to press the recessed button. Press the button for approximately 2 seconds to reset the password. The SP assembly fault LED blinks blue when the password has been successfully reset.
Press the button for 10 or more seconds to force a system reboot.
Figure 8 Location of the NMI button on the embedded module
DPE I/O module types
I/O module installation priority
There are two I/O module slots per SP assembly: slot 0 and slot 1. Slot 0 has a 16 lane
PCIe channel, and slot 1 has an 8 lane PCIe channel.
Populate new I/O modules in the following order to take advantage of the increased speed on slot 0. If two I/O modules are ordered, use the same installation priority for both I/O modules.
14 Unity 480/F, Unity 680/F, Unity 880/F Hardware Information Guide
DPE component descriptions
1. 4-port 25GbE Optical I/O module
2. 4-port 16Gb Fibre Channel I/O module
3. 4-port 10GbE BaseT I/O module
4. 4-port 12Gb SAS backend I/O module
When adding new I/O modules, always install I/O modules in pairs: one module in SP assembly A and one module in SP assembly B. Both SP assemblies must have the same type of I/O modules in the same slots.
I/O module LED status
Figure 9 DPE I/O module LEDs
Table 6 DPE I/O module LEDs
LED
Port link
Power fault
Location State Description
Green or blue Link up
Off Link down
Green Power
Amber Power fault
4-port 25GbE Optical I/O module
The 4-port 25GbE Optical I/O module is an Ethernet I/O module that is used to serve
Ethernet network traffic and iSCSI block protocol to hosts for the platform. The I/O module uses an optical 10G or 25G capable SFP+ connection to a host or switch port.
4-port 16Gb Fibre Channel I/O module
The 4-port 16Gb Fibre Channel I/O module comes with four optical ports, one power and fault LED, and a combination link and activity LED for each optical port. This I/O module can interface at speeds of 4, 8, and 16 Gb/s FC for host or initiator layered connections.
4-port 10GbE BaseT I/O module
The 4-port 10GbE BaseT I/O module can interface at speeds of 1 Gb/s and 10 Gb/s and supports both IP(file) and iSCSI (Block) on the same SP assembly. Ports can be configured as both IP and iSCSI simultaneously. The I/O module comes with four 10-
Gb/s RJ-45 ports, one power/fault LED, activity LED, and link LED for each port.
DPE I/O module types 15
DPE component descriptions
4-port 12Gb SAS backend I/O module
Where supported, the 4-port 12Gb SAS backend I/O module comes with four x4 lane mini-SAS high density (HD) ports, one power and fault LED, and a combination link and activity LED for each port. Install thisI/O module into the SP assembly to provide additional SAS buses. Labeled 12Gb SAS v1.
Note
The optional back-end 12-Gb/s SAS module is only supported on Unity 480F, Unity
680F, and Unity 880F systems.
The 4-port 12Gb SAS backend I/O module can also be configured to support x8 lane cabling for the 80-drive DAE by combining ports 0 and 1 as back-end 2, or ports 2 and
3 to create back-end 4. The I/O module can also be configured to support both x4 lane and x8 lane back-ends simultaneously.
Note
If the 4-port 12Gb SAS backend I/O module is to be configured for x8 lane cabling, the x8 lane cable must be inserted into the I/O module before persisting it. If the x8 lane cables are not inserted into the I/O module first, all four ports default to x4 lane ports.
DPE power supply
NOTICE
The power supply used in your system must meet the system power requirements and must be the same type of power supply to be used in both nodes. Do not mix power supply types.
Figure 10 DPE power supply LEDs
16
Table 7 DPE power supply LEDs
LED
AC power (input)
Location
DC power (output)
Fault
State
Green
Off
Green
Off
Solid amber
Description
AC power is on.
AC power is off. Verify source power
DC power is on.
DC power is off. Verify source power.
Power supply or backup fault.
Check cable connection.
Unity 480/F, Unity 680/F, Unity 880/F Hardware Information Guide
DPE component descriptions
Table 7 DPE power supply LEDs (continued)
LED Location State
Blinking amber
Off
Description
BIOS, POST, and OS starting up or system overheating.
No fault.
Storage processor assembly internal components
Included within the SP assembly are the following components: l l l l
Dual inline memory modules (DIMM)
M.2 SSDs
Internal battery backup module
Fan module
Dual inline memory modules
Twenty-four, 288-pin DIMM sockets support up to 12 DDR4 DIMMs, capable of up to
96 GB, 192 GB, or 384 GB of memory, depending on the model.
Internal battery backup module
The SP assembly includes a Lithium-ion (Li-ion) internal battery that powers the associated SP assembly during a power event.
M.2 SSD
Each SP assembly has two slots for M.2 SSD on a M.2 SSD adaptor located between
DIMM slots 5/17 and 6/18. One M.2 SSD is used for general system operations, while the other M.2 SSD is used for vaulting.
Fan module
Six redundant fan modules connect to the motherboard within the SP assembly to provide continuous airflow through the front drives and through the rear of the SP assembly to keep the components at optimal operating temperatures.
Note
The SP assembly performs a protective thermal shutdown if two cooling modules fault within the same SP assembly.
Storage processor assembly internal components 17
DPE component descriptions
18 Unity 480/F, Unity 680/F, Unity 880/F Hardware Information Guide
CHAPTER 2
Technical specifications
l l l l
..................................................................................... 20
....................................................................................... 21
........................................................................................... 21
Operating environment requirements
.................................................................22
Technical specifications 19
Technical specifications
Technical specifications
Storage processor assembly specifications
Parameter (per SP assembly)
Unity 480/480F Unity 680/680F
CPU Two, 8-core 1.8 GHz
Intel Skylake processors
Memory 96 GB (12 x 8 GB)
Embedded SAS ports Two, 4-lane 12 GB
SAS
Optional SAS ports Four, 4-lane or two,
8-lane 12 Gb/s SAS
I/O module
Unity 880/880F
Two, 12-core 2.1 GHz
Intel Skylake processors
Two, 16-core 2.1 GHz
Intel Skylake processors
192 GB (12 x 16 GB) 384 GB (12 x 32 GB)
Two, 4-lane 12 GB
SAS
Two, 4-lane 12 GB
SAS
Four, 4-lane or two,
8-lane 12 Gb/s SAS
I/O module
Four, 4-lane or two,
8-lane 12 Gb/s SAS
I/O module
20
DAE and drive specifications
Supported DAEs: l l l
2U, 25-drive disk-array enclosure
3U, 15-drive disk-array enclosure
3U, 80-drive disk-array enclosure
Table 8 Drive and DAE support
Parameter
Maximum drives
Minimum drives
Maximum DAEs
Maximum 25-drive
DAE
Maximum 15-drive
DAE
Maximum 80-drive
DAE
Unity 480/480F
750
4
48
29 (750)
48 (745)
9 (745)
Unity 680/680F
1000
4
60
39 (1000)
60 (925)
12 (985)
Unity 880/880F
1500
4
60
59 (1500)
60 (925)
18 (1465)
Drive counts listed in parentheses next to the maximum amount of DAEs represent the maximum achievable drive count when using the maximum of each DAE, plus the 25 drives on the DPE.
Embedded module specifications
Supported optional 4-port cards: l l
10GbE BaseT 4-port card
25GbE 4-port card
The 4-port card can also be left unpopulated.
I/O module specifications
Supported I/O modules:
Unity 480/F, Unity 680/F, Unity 880/F Hardware Information Guide
Technical specifications l l l l
4-port 16Gb Fibre Channel I/O module
4-port 25GbE Optical I/O module
4-port 10GbE BaseT I/O module
4-port 12Gb SAS backend I/O module
Power supply unit specifications
You can use high line power, such as in a rack, or low line power, such as from a wall power outlet, to supply power to the DPE. All Unity models support both high line and low line power. A step-up transformer, not included, is required to use high line power with Unity 880/880F systems.
Table 9 Power specifications per Unity model
Model
Unity 480/480F
Unity 680/680F
Unity 880/880F
High line
1800 W
1800 W
1800 W
Low line
1450 W
1450 W
1800 W (Step-up transformer required)
Dimensions and weight
Table 10 2U, 25-drive DPE, dimensions and weight
Dimension
Weight (unpopulated)
Vertical size
Height
Width
Depth
Value
25.9 kg (54.11 lbs)
2 NEMA units
8.72 cm (3.43 in.)
44.72 cm (17.61 in.)
79.55 cm (31.32 in.)
Note
The weight does not include mounting rails. Allow approximately 2.3-4.5 kg (5-10 lb) for a rail set.
Power requirements
Power consumption values are based on enclosures with all power supplies, drives, embedded modules and I/O modules populated.
To estimate power consumption values for your specific environment, go to https:// powercalculator.emc.com/ .
Dimensions and weight 21
Technical specifications
Table 11 DPE power requirements, per model
Specification Unity 480/480F Unity 680/680F Unity880/880F
AC line voltage
AC line current
(operating maximum)
Power consumption
(operating maximum)
Power factor
Heat dissipation
(operating maximum)
100 to 240 VAC
± 10%, single phase,
47 to 63 Hz
10.6 A max at 100
VAC; 5.3 A max at
200VAC
In-rush current
Startup surge current 120 Apk hot per line cord, at any line voltage
AC protection
45 Apk cold per line cord, at any line voltage
20 A fuse on each power supply, single line
100 to 240 VAC
± 10%, single phase,
47 to 63 Hz
11.72 A max at 100
VAC; 5.86 A max at
200VAC
1060 VA (1050W) max at 100 VAC; 1060
VA (1050 W) max at
200 VAC
1172 VA (1161 W) max at 100 VAC; 1172 VA
(1161 W) max at 200
VAC
1440.77 VA (1411.96) max at 100 VAC;
1440.77 VA (1411.96
W) max at 200 VAC
0.95 minimum at full load, @ 100/ 200 VAC
0.95 minimum at full load, @ 100/ 200 VAC
0.95 minimum at full load, @ 100/ 200 VAC
3.78 x 10 6 J/hr,
(3,581 Btu/hr) max at
100 VAC; 3.78 x 10
J/hr, (3,581 Btu/hr) max 200VAC
6
4.18 x 10 6 J/hr,
(3,960 Btu/hr) max at 100 VAC; 4.18 x 10 6
J/hr, (3,960 Btu/hr) max 200VAC
5.08 x 10 6 J/hr,
(4,818 Btu/hr) max at
100 VAC; 5.08 x 10 6
J/hr, (4,818 Btu/hr) max 200VAC
45 Apk cold per line cord, at any line voltage
120 Apk hot per line cord, at any line voltage
20 A fuse on each power supply, single line
100 to 240 VAC
± 10%, single phase,
47 to 63 Hz
14.41 A max at 100
VAC; 7.2 A max at
200VAC
45 Apk cold per line cord, at any line voltage
120 Apk hot per line cord, at any line voltage
20 A fuse on each power supply, single line
AC inlet type (high line power)
IEC320-C14 appliance coupler, per power zone
IEC320-C14 appliance coupler, per power zone
IEC320-C14 appliance coupler, per power zone
AC inlet type (low line power)
IEC320-C20 appliance coupler, per power zone
IEC320-C20 appliance coupler, per power zone
IEC320-C20 appliance coupler, per power zone
Ride-through sharing 10 ms min
Current sharing ± 5 percent of full load, between power supplies
10 ms min
± 5 percent of full load, between power supplies
10 ms min
± 5 percent of full load, between power supplies
Operating environment requirements
Temperature gradient and altitude requirements
Systems and components must not experience changes in temperature and humidity that are likely to cause condensation to form on or in that system or component. Do not exceed the temperature gradient of 20°C/hr (36°F/hr), or the altitude requirement of 3050 m (10,0000 ft).
22 Unity 480/F, Unity 680/F, Unity 880/F Hardware Information Guide
DPE airflow
Technical specifications
Recommended range of operation
The recommended range of operation is the limit under which equipment operates the most reliably while still achieving reasonably energy-efficient data center operation.
The recommended range of operation is 18°C–27°C (64.4°F to 80.6°F) at 5.5°C
(41.9°F) dew point to 60% relative humidity and 15°C (59°F) dew point.
Continuous allowable range of operation
Data center economization techniques such as free cooling can be employed to improve overall data center efficiency. These techniques can cause equipment inlet conditions to fall outside the recommended range, but still within the continuously allowable range. Equipment can be operated without any hourly limitations in this range.
The continuous allowable range of operation is 10°C–35°C (50°F–95°F) at 20% to
80% relative humidity with 21°C (69.8°F) maximum dew point (maximum wet bulb temperature). De-rate the maximum allowable dry bulb temperature by 1°C per 300 m above 950 m (1°F per 547 ft above 3117 ft).
Expanded allowable range of operation
During certain times of the day or year, equipment inlet conditions can fall outside the continuously allowable range but still within the expanded improbable range.
Equipment operation is limited to ≤ 10% of annual operating hours in this range.
The expanded allowable range of operation is 5°C–10°C and 35°C–40°C (with no direct sunlight on the equipment) at -12°C dew point and 8% to 85% relative humidity with 24°C dew point (maximum wet bulb temperature). Outside the continuously allowable range (10°C–35°C), the system can operate down to 5°C or up to 40°C for a maximum of 10% of its annual operating hours. For temperatures 35 °C–40°C
(95°F–104°F), de-rate the maximum allowable dry bulb temperature by 1°C per 175 m above 950 m (1°F per 319 ft above 3117 ft).
Exceptions to the expanded allowable range of operation
During certain times of the day or year, equipment inlet conditions can fall outside the continuously allowable range but still within the expanded exceptional range.
Equipment operation is limited to ≤ 1% of annual operating hours in this range.
Exceptions to the expanded allowable range of operation are 5°C–10°C and 35°C–
40°C (with no direct sunlight on the equipment) at -12°C dew point and 8% to 85% relative humidity with 24°C dew point (maximum wet bulb temperature). Outside the continuously allowable range (10°C–35°C), the system can operate down to 5°C or up to 45°C for a maximum of 1% of its annual operating hours. For temperatures between 35°C and 45°C (95°F–104°F), de-rate the maximum allowable dry bulb temperature by 1°C per 125 m above 950 m (1°F per 228 ft above 3117 ft).
The DPE uses an adaptive cooling algorithm that increases or decreases fan speed as the unit senses changes to the external ambient temperature. Exhaust increases with ambient temperature and fan speed, and is roughly linear within recommended operating parameters. Note that the information in the table below is typical, and was measured without cabinet front/rear doors that would potentially reduce front-toback air flow.
DPE airflow 23
Technical specifications
Table 12 DPE airflow
Max Airflow CFM
106 CFM
Min Airflow CFM
40 CFM
Max Power
Usage (Watts)
850 W
Environmental recovery
If the system exceeds the maximum ambient temperature by approximately 10°C
(18°F), the SP assemblies in the system begin an orderly shutdown that saves cached data, and then shut themselves down. Link control cards (LCCs) in each DAE in the system power down disks but remain powered on.
If the system detects that the temperature has dropped to an acceptable level, it restores power to the DPEs and the LCCs restore power to their disks.
Shipping and storage requirements
NOTICE
Systems and components must not experience changes in temperature and humidity that are likely to cause condensation to form on or in that system or component. Do not exceed the shipping and storage temperature gradient of 45°F/hr (25°C/hr).
Table 13 Shipping and storage requirements
Requirement Description
Ambient temperature -40° F to 149°F (-40°C to 65°C)
Temperature gradient
Relative humidity
45°F/hr (25°C/hr)
10% to 90% noncondensing
Elevation -50 to 35,000 ft (-16 to 10,600 m)
Storage time (unpowered) Recommendation Do not exceed 6 consecutive months of unpowered storage.
Shock and Vibration
Products have been tested to withstand the shock and random vibration levels. The levels apply to all three axes and should be measured with an accelerometer on the equipment enclosures within the cabinet and shall not exceed:
Platform condition
Non operational shock
Operational shock
Non operational random vibration
Operational random vibration
Response measurement level
10 G’s, 7 ms duration
3 G’s, 11 ms duration
0.40 Grms, 5–500 Hz, 30 minutes
0.21 Grms, 5–500 Hz, 10 minutes
24 Unity 480/F, Unity 680/F, Unity 880/F Hardware Information Guide
Technical specifications
Systems that are mounted on an approved package have completed transportation testing to withstand the following shock and vibrations in the vertical direction only and shall not exceed:
Packaged system condition Response measurement level
Transportation shock
Transportation random vibration
10 G’s, 12ms duration l l
1.15 Grms
1 hour Frequency range 1–200 Hz
Fire suppressant disclaimer
Fire prevention equipment in the computer room should always be installed as an added safety measure. A fire suppression system is the responsibility of the customer.
When selecting appropriate fire suppression equipment and agents for the data center, choose carefully. An insurance underwriter, local fire marshal, and local building inspector are all parties that you should consult during the selection of a fire suppression system that provides the correct level of coverage and protection.
Equipment is designed and manufactured to internal and external standards that require certain environments for reliable operation. We do not make compatibility claims of any kind nor do we provide recommendations on fire suppression systems. It is not recommended to position storage equipment directly in the path of high pressure gas discharge streams or loud fire sirens so as to minimize the forces and vibration adverse to system integrity.
Note
The previous information is provided on an “as is” basis and provides no representations, warranties, guarantees or obligations on the part of our company.
This information does not modify the scope of any warranty set forth in the terms and conditions of the basic purchasing agreement between the customer and the manufacturer.
Air quality requirements
The products are designed to be consistent with the requirements of the American
Society of Heating, Refrigeration and Air Conditioning Engineers (ASHRAE)
Environmental Standard Handbook and the most current revision of Thermal
Guidelines for Data Processing Environments, Second Edition, ASHRAE 2009b.
Cabinets are best suited for Class 1 datacom environments, which consist of tightly controlled environmental parameters, including temperature, dew point, relative humidity and air quality. These facilities house mission-critical equipment and are typically fault-tolerant, including the air conditioners.
The data center should maintain a cleanliness level as identified in ISO 14664-1, class 8 for particulate dust and pollution control. The air entering the data center should be filtered with a MERV 11 filter or better. The air within the data center should be continuously filtered with a MERV 8 or better filtration system. In addition, efforts should be maintained to prevent conductive particles, such as zinc whiskers, from entering the facility.
The allowable relative humidity level is 20 to 80% non condensing, however, the recommended operating environment range is 40 to 55%. For data centers with gaseous contamination, such as high sulfur content, lower temperatures and humidity
Fire suppressant disclaimer 25
Technical specifications are recommended to minimize the risk of hardware corrosion and degradation. In general, the humidity fluctuations within the data center should be minimized. It is also recommended that the data center be positively pressured and have air curtains on entry ways to prevent outside air contaminants and humidity from entering the facility.
For facilities below 40% relative humidity, it is recommended to use grounding straps when contacting the equipment to avoid the risk of Electrostatic discharge (ESD), which can harm electronic equipment.
As part of an ongoing monitoring process for the corrosiveness of the environment, it is recommended to place copper and silver coupons (per ISA 71.04-1985, Section 6.1
Reactivity), in airstreams representative of those in the data center. The monthly reactivity rate of the coupons should be less than 300 Angstroms. When monitored reactivity rate is exceeded, the coupon should be analyzed for material species and a corrective mitigation process put in place.
Storage time (unpowered) recommendation: do not exceed 6 consecutive months of unpowered storage.
26 Unity 480/F, Unity 680/F, Unity 880/F Hardware Information Guide
advertisement
Related manuals
advertisement
Table of contents
- 3 Contents
- 5 Additional resources
- 7 DPE component descriptions
- 8 2U, 25-drive DPE component overview
- 9 DPE front view
- 10 System identification tags
- 11 DPE rear view
- 11 DPE embedded modules and 4-port cards
- 14 DPE I/O module types
- 16 DPE power supply
- 17 Storage processor assembly internal components
- 19 Technical specifications
- 20 Technical specifications
- 21 Dimensions and weight
- 21 Power requirements
- 22 Operating environment requirements
- 23 DPE airflow
- 24 Environmental recovery
- 24 Shipping and storage requirements
- 24 Shock and Vibration
- 25 Fire suppressant disclaimer
- 25 Air quality requirements