ADAPTEC reserves the right to make changes to this
manual and the equipment described herein without notice.
ADAPTEC has made all reasonable effort to insure that
the information in this manual is accurate and complete.
However, ADAPTEC shall not be liable for any technical
or editorial errors or omissions made herein or for
incidental, special, or consequential damage of whatsoeve r
nature resulting from the furn ishing of this manual, or
operation and performance of equipment in connection with
this manual.
All Trademarks acknowledged.
Warranty
Basic Warranty - In the absence of any optional warranty
or continuing provisions by formal agreement, ADAPTEC
warrants its products in accordance with the schedules listed
below. Purchaser hereafter mentioned refers at all times to
the customer who purchased ADAPTEC product(s).
3
2Gb SANbloc Warranty - Adaptec warrants 2Gb
SANbloc products of its manufacture to be free from defect
in material and workmanship for a period of three (3) years
from the date of shipment. During this period, if the
customer experiences difficulties with a ADAPTEC 2Gb
SANbloc system and is unable to resolve the problem via
phone with ADAPTEC Technical Support a Return
Material Authorization (RMA) number will be issued for the
faulty component. Following receipt of an RMA, the
Purchaser is responsible fo r returning the product to
Disclaimer
4
ADAPTEC, freight prepaid. ADAPTEC, upon verification of warranty, will repair or replace at its option the
2Gb SANbloc component in question, and will then return
the product to the P urchaser, freight prepaid.
Cable Warranty - All ADAPTEC provided cables are
warranted for ninety (90) d ays from the t ime of shipment.
Questionable cables should be returned to ADAPTEC,
freight prepaid where they will be repaired or replaced by
ADAPTEC at its option and returned to the Purchaser,
freight prepaid.
General Terms - The above warranties shall not apply to
expendable components such as fuses, bulbs, and the like,
nor to connectors, adapters, and other items not a part of the
basic product. ADAPTEC shall have no obligation to
make repairs or to cause replacement requi red through
normal wear and tear or necessitated in whole or in part by
catastrophe, fault or negligence of th e user, improper or
unauthorized use of the product, or use of the product in
such a manner for which it was not designed, or by causes
external to the product, such as, but not limited to, power
failure or air conditioning. The ADAPTEC sole obligation
hereunder shall be to repair or replace any defectiv e product,
and unless stated, pay return transportation costs for such
replacement. Purchaser shall provide labor for removal of
the defective product, shipping charges for return to
ADAPTEC and installation of its replacement. On-site
services are not a part of this warranty. Above warranties are
subject to change without noti ce.
Warranty
Returned Material - Warranty claims must be received by
ADAPTEC within the applicable warranty period. A
replaced product, or part thereof, shall become the property
of EUROLOGIC and shall be returned to ADAPTEC at
Purchaser’s expense. All returned material must be accompanied by a Return Materials Authorization (RMA) number
assigned by ADAPTEC. For RMA numbers contact
ADAPTEC Customer Support Monday-Friday 3am-5pm PST at:
THE EXPRESSED WARRANTIES SET FORTH IN THIS
AGREEMENT ARE IN LIEU OF ALL OTHER
WARRANTIES, EXPRESSED OR IMPLIED, INCLUDING
WITHOUT LIMITATION, ANY WARRANTIES OF
MERCHANTABILITY OR FITNESS FOR A PARTICULAR
PURPOSE, AND ALL SUCH OTHER WARRANTIES ARE
HEREBY DISCLAIMED AND EXCLUDED BY
EUROLOGIC. THESE STANDARD EXPRESS
WARR ANTIES ARE IN LIEU OF ALL OBLIGATIONS OR
LIABILITIES ON THE PART OF EUROLOGIC FOR
DAMAGES, INCLUDING BUT NOT LIMITED TO
SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES
ARISING OUT OF OR IN CONNECTION WITH THE USE
OR PERFORMANCE OF THE PRODUCT.
Equipment and parts necessary for upgrade.................................. 105
Upgrading from JBOD to RAID................................................... 105
Installing the Battery Backup Unit................................................ 107
11
12
Preface
This Installation Guide describes the installation and
operation of the 2Gb SANbloc Series. The following
products are covered: FC2101CDT2-AC, FC2101C DR2-AC,
FC2101ODT2-AC, FC2101ODR2-AC, FC2101MDT2-AC,
FC2101MDR2-AC.
Audience
This Installation Guide is intended for use by the person
installing and operating the 2Gb SANbloc Series. This
Installation Guide describes the operation of the 2Gb
SANbloc Series only. For details relating to the host system,
refer to the documentation supplied with the host system.
Conventions Used In This User Guide
The following conventions are used throughout this Installation Guide.
13
Note: A NOTE gives general information, such as help ful tip s
and references to related information.
CAUTION: A CAUTION means take care. There is a risk of causing damage to the equipment or losing data.
WARNING: A WARNING means beware. There is a risk of electric shock or personal injury. Before working on the enclosure be
aware of the hazards that exist.
Audience
14
Getting Support
If you are having difficulties inst alling or oper ating your
2Gb SANbloc Series you can contact ou r World Wide
Support Centre for assistance Monday-Friday 3am to 5pm Pacific:
WARNING: Changes or modifications to this unit not expressly
approved by the party responsible for complian ce could void the
user’s authority to operate the equipment.
This equipment has been tested an d found to co mply with
the limits for a class A digital device, pursuant to Part 15 of
the FCC Rules.
These limits are designed to provide reasonable protection
against harmful interference when operated in a commercial
environment.
This equipment generates, uses and can rad iate radio
frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications.
Operation of this equipment in a residential area is likely to
cause harmful interference, in which case, the user will be
required to correct the interference at his own expense.
Any changes or modifications to this equipment not
expressly approved by Eurologic Systems Ltd. coul d void
the user’s authority to operate this equipment.
Getting Support
VCCI
English Translation:
This is a Class A product based o n the standard of t he
Voluntary Con trol Council f or Interference by Information
Technology Equipment. If this equipment is used in a
domestic environment, radio di sturbance may aris e. When
such trouble occurs, the user may be required to take
corrective actions.
European Community Statement
This equipment complies with the following European directives:
EMC Directive 89/336/EEC an d amending Di rectives 92/31/
EEC and 93/68/EEC Low Voltage Directive 73/23/EEC.
15
VCCI
16
Safety Statements
The following safety statements must be read befo re
installation. For language translations of these statements
refer to Appendix B.
CAUTION: This equipment is intended only for installation in a
restricted access location.
CAUTION: Allow disk drives and power supplies to reach room
ambient temperature before powering on the system.
CAUTION: It is recommended that if interconnecting equ ipment
resides within more than one equipment rack cabinet, th ese cabinets should be at t he same ground po tential.
Safety Statements
CAUTION: Before attempting to install or remove any of the components, ensure that anti-static precautions have been taken. The
minimum requirem ent is an anti-static wrist strap and grounding
wire.
CAUTION: When installing or removing a rackmount shelf,
remove all power supplies and disk drives. It is recommended that
you work with at least one other person. This is necessary to prevent personal injury and damage to the shelf.
CAUTION: The tower skin set is not a field replaceable unit and
therefore must not be removed from t he Storage Array.
CAUTION: After removing the LS Module the resulting hole must
be blocked, by installing a blanking plate or by installing a
replacement LS Module. Failure to do so can disrupt air flow and
seriously reduce cooling.
WARNING: A possible shock hazard may exist in the area of the
fan connection.
WARNING: Disconnect the power cord before removing the
power supply from the storage enclosure.
17
WARNING: The module handles are to facilitate the easy insertion and removal of the modules, they should not be used to lift
and/or carry the enclosure.
Safety Statements
18
Safety Statements
Chapter 1: Introduction
This Chapter introduces the 2Gb SANbloc Series. The main
features of the Series are described along with a list of the
models that are available.
Introduction
The 2Gb SANbloc Series provides a highly flexible, high
performance storage solution that evolves to meet your
changing needs. Based on a modular, “building block”
enclosure design, the 2Gb SANbloc Series offers exceptional
scalability. Each enclosure supports up to 14 disk d rives, or
1TB of capaci ty in a dense 3U form factor. As your storage
needs grow, simply add 2Gb SANbloc enclosures dynamically - up to a total of 8 enclosures. The 2Gb SANbloc
Series can be scaled in multiple dimensions, enabling
flexible configuration of capacity, performance and
functionality, to match and grow with virtually any application or IT environment. The enclosure is available with
your choice of copper, or optical I/O mo dules, and is
downward compatible to 1GB, protecting your investment. A
high performance, industry fi rst Quad Loop (4 FCAL lo ops
on one enclosure) capability provi des over 700 MB/s from a
single enclosure. 2Gb Fibre Channel con nectivity provi des
simplified cabling and extremely high bandwidth, for
outstanding performance in demanding applications.
19
Features
• Redundant data pa ths with dual-ported fibre drives and dual
(200MB/s) fibr e channel loops for a t otal of 400 MB/s.
• Quad Loop feature, provides over 700MB/ s from a single
enclosure.
Introduction
20
• Downward compatible to 1GB.
• Dense enclosure with 14 drives in a 3U form factor.
• Scalable to 8.2TB (112 drives), support for 15K rpm drives.
• Enhanced enclosure services (SES) monitoring and reporting.
• No single point of failure, with redundant, hot-swappable
components.
• Intuitive, comprehensive management with Spheras Storage
Manager.
• User installable, configurable and on-line maintainable.
• Industry-standard 19-inch rackmount or deskside configuration.
• Dual AC power suppli e s.
Disk Drive CarrierThe disk drive carrier supports one inch, SCA-2 direct attach
disk drives. The 2Gb SANbloc S eries can hold up to
fourteen disk drive carriers. The disk drives can be hot
swapped and the disk drive carriers provide for bli nd mating.
Power SuppliesThe 2Gb SANbloc Series uses two AC power supplies for
normal operation, providing r edundancy of t he power
system. The power supplies can be hot swapped. The AC
power supplies provide 673 Watts continuous output power
and 853 Watts peak output power. The power supplies
provide active current sharing, power factor correction, over
current and over voltage protection i s also provided . The
power supplies have individual power inputs.
Features
CAUTION: Power supply cords shall have conductors with a
cross-sectional area not less than 4mm
corresponds to a minimum 10AWG wire.
2
. This cross-sectional area
Cooling SystemCooling is provided by the two Advan ced Cooling Modul es
(ACMs) located at the rear of the enclosure. Each of the
ACM units contain two variable speed fans. The enclosure
requires four fans for n ormal opera tion, but will operate
correctly with one fan failed (redundancy is lost i f one fan is
failed in either ACM), however, it is recommended that the
failed fan be replaced as soon as possible. Th e ACM units
can be hot swapped. The LS Module monitors and controls
the speed of each fan. The speed is set depend ing on the
ambient temperature and failed status. The fans are set to
full speed if one fan is failed. The following table shows
how the fan speed relates to temperature change.
Table 1-1 Fan Speed vs. Temperature Change
21
ACM Speed
Ambient Temp (oC)
Speed 10 to 26
Speed 226 to 28
Speed 328 to 30
Full Spee d30 +
Note: All fans in an enclosure are set to the same speed.
Features
22
I/O Option ModulesThe two rear I/O option sl ots (A and B) can contain a ra nge
of different option modules. The LS module will detect th e
type of option module installed.
I/O Option
Slot B
1
2
0
I
0
I
1
2
I/O Option
Slot A
The available option modules are:
I/O Expansion Module - Copper/Copper
This 2Gb FC expansion module has two HSSDC connect ors.
The top connector is the primary FC loop input port and the
bottom connector is availabl e for FC loop expansion / input.
A fibre channel loop back terminator is not required.
I/O Expansion Module - Optical/Copper
This 2Gb FC expansion modu le has the SFF L C optical
connector as the FC Loop Input port. The FC loop expan sion
is carried out by the HSSD C connector. A loop back terminator is not required.
Features
I/O Expansion Module- Optical/Optical
This 2Gb FC expansion modu le has two S FF LC opt ical
connectors. The top connector is the FC Loop Input port and
the bottom connector is for FC Loop E xpansion. A loo p back
terminator is not requ ired.
2Gb SANbloc RAID Controller
The 2Gb SANbloc RAID Controller is a high performance
controller, providing two host fibr e channel
fibre channel interfaces. It is an intelligent, caching
controller that supports RAID levels 0, 1, 3, 5, 0+1,
and JBOD. The controller enable s multiple hosts to
access an array of disk drives, which can be
configured as one or more virtual storage devices
(logical units).
and two device
23
Features
24
Figure 1-2: 2Gb SANbloc Series Tower Model
bloc
SAN
Series
Gb
2
1
0
2
3
4
5
18F
18F
18F
18F
18F
18F
18F
18F
18F
Features
18F
18F
18F
18F
18F
1
0
2
3
4
5
25
Figure 1-3: 2Gb SANbloc Series Rack Model
bloc
SAN
Series
0
18F
18F
1
2
3
4
5
18F
18F
18F
18F
18F
18F
18F
18F
18F
18F
18F
18F
Gb
2
0
1
2
3
4
5
Features
26
Features
Chapter 2: Installation and Setup
This Chapter describes the installation and set up of the 2Gb
SANbloc Series. Important safety instructions are discussed
along with the electrical, mechanical and environmental
precautions that need to be taken. Items that need to be set
prior to operating the 2Gb SANbloc enclosure are also
described here.
Note: Please read this Chapter carefully before attempting to
install or operate the 2Gb SANbloc Series enclosure.
27
28
Safety Statements
The following safety statements must be read before you
install or operate the 2Gb SANbloc Series. For l anguage
translations of these statements refer to Appendix B.
CAUTION: This equipment is intended only for installation in a
restricted access location.
CAUTION: Before attempting to install or remove any of the components, ensure that anti-static precautions are taken. The minimum requirement is, a properly grounded anti-static wrist strap
and ground wire.
CAUTION: If any of the components are removed the resulting
hole must be blocked, by installing a component bl ank or replacing the component. Failure to do so can seriously restrict air flow
and cooling.
Safety Statements
CAUTION: This device should be connected to a power source
which carries a fuse or circuit breaker that is greater than the rating of the shelf, but also complies with national wiring standards.
CAUTION: Allow disk drives and power supplies to reach room
CAUTION
ambient temperat ure before powering on t he sh elf.
CAUTION: It is recommended that, if interconnecting equipment
resides within more than one equ i pment rack cabinets, these
equipment racks should be at the same ground potential.
WARNING: A possible shock hazard may exist in the area of the
fan connection.
WARNING: Disconnect the power cords before removing a power
supply from the enclosure.
29
Safety Statements
30
Unpacking and Initial Setup
When you receive your system, visually inspect the exterior
of the packaging for any signs of damage. If any damage is
found the carrier and Adaptec should be informed immediately, and they will advise you of the appropriate action. The
cartons are sealed using packaging tape which shoul d be cut
open in the normal manner. Exercise caution when lifting
out the components. At this point the contents should be
verified against the packing list and Adaptec should again
be notified if any discrepancies exist. Anti-static precautions
must be observed before removing any of the components.
Installing the System in an Equipment Rack
Before installing the 2Gb SANbloc Series in an equipment
rack, it is essential that the following guidelines are
complied with, to ensure the safe and efficient operation of
the system. The 2Gb SANbloc Series can be installed in
open or closed equipment racks, with a front wid th of 19”,
by observing the environmental, electrical, and mechani cal
precautions described below.
Ambient
Temperature
Unpacking and Initial Setup
Installation of the rack system in a standard 19” cabinet may
lead to a differential between the room ambient temperature
and the internal ambient temperature of the rack
environment. The operating temperature of the 2Gb
SANbloc Series is between 5
recommended that the system be contin uously run at these
extreme temperatures. Consideration should therefore be
given to ensure that the room ambient t emperature is
compatible with these specifications.
o
C to 40oC. However, it is not
Air FlowTo ensure that the internal heat build u p is properly d issi-
pated into the room environment, air flow should in no way
be restricted. It is essential that no air vents are blocked, and
that the system is a minimum of one meter from a solid
surface such as a wall or partition . Air flow t hrough the 2 Gb
SANbloc Series is from front to rear.
Mechanical LoadingConsideration should be given to the loading of any
equipment racks. To maintain a low centre of gravity (thus
reducing the likelihood of instability) racks should be loaded
(where possible) from the bottom of the equipment rack
upwards. This is recommended to ensure personal safety.
CAUTION: When installing or removing a rack mount enclosure,
remove all disk drives. It is recommended that you work with at
least one other person when installing an enclosure. This is necessary to prevent personal injury and damage to the enclosure.
31
Installing the System in an Equ ipment Rack
32
Electrical Considerations
When installing the 2Gb SANbloc Series the following
electrical considerations must be applied.
Circuit OverloadingCare should be taken to ensure that t he current does no t
exceed the rating of the power source circuitry. This
includes cabling, power dist ribution unit s, filters and any
other devices through which the main current flows. The
electrical power rating of the enclosure is 100 - 240 VAC,
10 - 5 Amps (50/60 Hz), and this must be added to the power
demands of any other electrical devices installed in the
equipment rack to arrive at a total power consumption
figure. In addition, surge currents must be catered for. Disk
drives may consume twice the amount of current at star t-up
time as they do during stead y state operation.
Setting Fibre Channel Loop Speed (2Gb or 1Gb)
The 2Gb SANbloc Series can be operated with fibre channel
loop speeds of either 2Gb or 1 Gb. The loo p speed is set
through the use of a jumper (JP2) located on the LS Module.
Note: If the enclosure has dual LS modules the following
procedures must be applied to both LS modules.
2Gb OperationTo set the fibre channel loop speed to 2Gb operation:
1 Remove the LS Module from the front of the encl osure.
2 On the LS Module locate the jumper position JP2 (Fig ure 2-1 ).
3 Install a jumper at JP2.
4 Replace the LS module.
Electrical Considera tions
1Gb OperationTo set the fibre channel loop speed to 1Gb operation:
1 Remove the LS module from the front of the enc lo sure.
2 On the LS Module locate the jumper position JP2 (Fig ure 2-1 ).
3 For 1Gb operation there should be no jumper installed at JP2. If
one is installed, remove it.
4 Replace the LS module.
Figure 2-1 Location of Jumpers on LS Module
33
Setting Fibre Chan nel Loop Spee d (2Gb or 1Gb)
34
Split Fibre Channel Loop Operation (Quad Loop)
The 2Gb SANbloc Series LS module allows for split FC
Loop operation, with t wo dual fibr e channel lo ops of seven
disk drives each. In this split loop mode the primary port (I/
O Slot A) will form a loop u sing the fir st seve n driv es, 1 to 7
(from right hand side of rackmou nt systems). The expansi on
port (I/O Slot B) will form a second loop using the
remaining 7 drives, 8 to 14 ( from right ha nd side of
rackmount systems).
Note: If the enclosure has dual LS modules the following
procedures must be applied to both LS modules.
CAUTION: Enclosures operating in split loop mode can not be
daisy chained to other enclosures.
Setting Up Split Loop
Operation
Removing Split Loop
Operation
Split Fibre Channel Loo p Operation ( Quad Loop)
To operate the 2Gb SANbloc Series enclosure in split fibre
channel loop mode, fo llow this procedu re:
1 Remove the LS module from the front of the enc lo sure.
2 On the LS Module locate the jumper position JP3 (Fig ure 2-1 ).
3 To operate in split loop mode, install a jumper at JP3.
4 Replace the LS module.
To remove split fibre channel loop operation from the 2Gb
SANbloc Series enclosure, follow this procedure:
1 Remove the LS module from the enclosu r e and locate jumper
JP3 (Figure 2-1).
2 To remove split loop operation, remove jumper JP3.
3 Replace the LS module.
Configuration Rules
These rules must be applied when implementing t he 2Gb
SANbloc Series configurations:
• When daisy chaining, both 2Gb enclosures must be configured
identically.
• 1Gb and 2Gb systems cannot be daisy chained together.
• Two LS modules and two I/O modules are required for dual
drive loops.
• Cannot mix optical and copper I/O modules in the same
enclosure (both I/O Modules must be th e same) .
• Cannot mix 1Gb and 2G b LS and I/O modules, an d 1Gb and
2Gb cables.
• 2Gb JBOD enclosures require 2Gb cables.
• 2Gb JBOD enclosures req uire 2Gb disk drives.
• Disk drive blanks must be ordered for any empty drive slots.
Supported Host Bus Adapters
Only the following QLogic Host Bus Adapters should be
used with the 2Gb SANbloc Series enclosures:
• QLA-2300 (Rev. C or high er )
• QLA-2310 (Rev. C or high er )
35
Configuration Rules
36
Supported Cables
WARNING: Only the following APPROVED cables must be used
with the 2Gb SANbloc Series enclosu r es.
This section lists the cables that must be used with the 2Gb
SANbloc Series enclosure. Failure to adhere to these guidelines may cause the enclosure to operate incorrectly.
Copper CablesOnly the following AMPHENOL copper Fibre Channel
cables must be used with the 2Gb SANbloc Series enclosure
(copper applications).
Optical CablesThe optical Fibre Channel cables used with the 2Gb
SANbloc Series enclosure must conform to the following:
• Minimum Length: 2 Meters
• Maximum Length: 150 Meters
Supported Cables
Chapter 3: JBOD Configurations
This Chapter describes the procedure for connecting your
2Gb SANbloc Series JBOD system to a host computer(s).
Detailed information on how to configure and daisy chain
enclosures is also provided along with instructi ons on how
to set the enclosure ID.
Setting the Enclosure ID
Each of the fourteen di sk drive slots of t he 2Gb SANbloc
Series has a unique identifier assigned to it. This identifier is
assigned using a combination of the slot number and the
enclosure ID.
The enclosure ID is set using the enclosure ID switch,
located on the rear of the 2Gb SANbloc (see Figure 3-1).
Note: The enclosure ID must be set prior to powering on the
enclosure.
37
Note: Each enclosure must have a separate ID when daisy
chained together.
Note: 2Gb Amphenol cables must be used if 2Gb operation
is required.
Note: Only QLogic 2300 and 2310 adapters should be used.
Setting the Enclosu re ID
38
Figure 3-1 Location of Enclosure ID Switch
1
2
0
I
Enclosure ID
Switch
1
This enclosure ID switch can be set to 0 through 7.
The graphic below shows the slot number and l ocation.
Slot location when viewed from the front of the enclosure
1
2
0
I
Setting the Enclosur e ID
Slot 13
LSM
Slot 2
Slot 1
Slot 0
LSM
Slot 3
Slot 4
Slot 5
Slot 6
Slot 7
Slot 8
Slot 9
Slot 10
Slot 11
Slot 12
The fourteen disk drive slot s (0 to 13), will be assigned an
identifier based on the enclosure ID and the slot number as
shown in Table 3-1.
This section describes the procedures for cabling the main
configurations of the 2Gb SANbloc Series JBOD.
Note: The following configuration procedures refer to
connecting the 2Gb SANbloc Series directly to the host
system. It is also possible to conne ct the sy ste m usi ng a Hub/
Switch.
CAUTION: B e f ore working on th e enclosure, en sure that antistatic precautions have been taken. The minimum requirement is
an anti-static wrist strap and grounding wire.
Configurations
JBOD Configurations
There are two JBOD configurations cover ed in this Inst allation Guide:
• Dual FC Loop mode (i ncluding how to dais y chain enclosures)
• Quad Loop (single enclosur e with 4 FCAL loops)
Note: The following examples show the Copper/Copper I/O
Module option for illustration purposes. The configuration
procedures are identical for all I/O Module options.
41
Dual FC Loop
Configuration
Note: For dual FC Loop enclosures there must be two LS
modules installed in the enclosure.
This section describes the procedure for connecting a dual
FC Loop configuration t o your host co mputer, and how to
daisy chain these enclosures together.
To connect the dual FC Loop enclosure to the host:
Note: You will need two HBA’s in your host system, or a single
HBA with support for tw o connections. A hub, switch or two hosts
with HBA may also be used.
1 Insert the connector on the first cable, into the top connector on
the first I/O module (see Figure 3-2).
2 Insert the other e nd of this cable int o the connector on your
HBA.
3 Insert the connector on the second cable, into the top connector
on the second I/O module (see Figure 3-2).
4 Insert the other e nd of this cable int o the connector on your
HBA.
JBOD Configur ations
42
Note: For details on your host and/or HBA refer to the documentation that was supplied with the host / HBA.
Figure 3-2 Connecting dual FC Loop confi guration to a ho st
To HBA
To HBA
1
2
0
I
1
2
0
I
See Appendix C for Loop Diagr am.
To daisy chain enclosures together, connect link cables from
the bottom connectors on the I/O modules of the first
enclosure to the top connectors of the I/O modules on t he
next enclosure (see Figure 3-3).
Note: A maximum of eight enclosures may be daisy ch ained
together.
JBOD Configurations
Figure 3-3 Daisy chaining dual FC Loop enclosures
43
To HBA
To next
enclosure
To HBA
1
2
0
I
1
2
0
I
I
I
1
2
0
1
2
0
To next
enclosure
See Appendix C for Loop Diagr am.
CAUTION: When daisy chaining enclosures, you must ensure
that each enclosure has a uniqu e Enclosure ID.
JBOD Configur ations
44
Quad Loop
Configuration
To HBA
Note: Quad loop configuration requires that the en clo su r e be
configured in spl it loop mode . To set split loop mode, a jum per
must be installed at jumper location JP3 on each LS module
in the enclosure.
This section describes the procedure for connecting the
enclosure in quad loop mo de. For this configuration there
must be two LS modules and two I/O modules instal led in
the enclosure.
1 Remove both LS modules from the enclosure and install a
jumper, at jumper location JP3 if one is not already installed.
This sets the enclosure to operate in split loop mode.
2 Attach cables to the top and bo ttom connector of both I/O
modules (see Figure 3-4).
3 Attach the other end of the s e four ca bl es to yo ur ho st systems.
Figure 3-4 Cabling the Qu ad Loop Configuration
To HBA
1
2
1
2
To HBA
JBOD Configurations
0
I
0
I
CAUTION: Enclosures in split loop mode can not be daisy
chained to other en cl os ur e s .
To HBA
Connecting a Power Source
The 2Gb SANbloc enclosure supports dual AC power
supplies. Only one power supply is required for normal
operation. However, a second, optional power supply may be
added to provide a redu ndant power system. Each power
supply has its own AC power inlet.
CAUTION: Power supply cords shall have conductors with a
cross-sectional area not less than 4mm2. This cross-sectional area
corresponds to a minimum 10AWG wire.
45
Connecting an AC
Power Source
1 Ensure all cables have been at tached as described in the
preceding sections .
2 Attach the AC power cords to the power suppli es and turn the
power supply switches to the On (-) position (see Figure 3-5).
Figure 3-5 Attaching the AC power cords
1
2
0
I
Insert Power cords into
power connectors
1
2
0
I
WARNING: This equipment must be connected to an earthed
mains socket outlet. Ensure the power cabling provides earthing
continuity to the equipment.
Connecting a Pow er Source
46
Disk Drive Spin Up Sequence
At power on, the LS module will perform its in ter nal start up
initialization routine. Then the LS module will assert the
disk drive START_1 and START_2 mot or start signals l ow
for disk drive slots 7 through 13, which will spin up the first
7 disk drives immediately. The LS module will then assert
the disk drive START_2 motor start signal l ow and leave th e
START_1 motor start signal high for disk drive slots 0
through 6 which will command the second seven disk drives
to spin up after a delay of 12 seconds times the modulo 8
value of the numeric SEL_ID of the disk drive.
Once the enclosure is powered up and all 14 drives are spun
up as depicted above, the en closure will support immediate
drive spin up with two po wer supplies present.
Modulo 8
The drive spin up sequence above uses modulo 8 to cal culate
the spin up delay. Modulo 8 is determined by:
(SHELF ID x DRIVE NUMBER)/8 = NUMBER + REMAINDER
It is the REMAINDER value that is used for the calculation
as it is always between 0 and 7 (hence modulo 8). The drive
spin up time can then be calculated as fo llows:
REMAINDER x MODE PAGE SETTING = SPIN UP DELAY ( Seconds)
EXAMPLE: A typical Mode Page Setting is 12, so if the
Remainder = 7, the Spin Up Delay would be 7 x 12, or 84
seconds.
Disk Drive Spin Up Se quence
Chapter 4: RAID Configurations
This chapter describes how to set up, configure and use the
2Gb SANbloc Series RAID Controll er. Some general information about the RAID controller is also provided.
2Gb SANbloc Series RAID Controller Introduction
The 2Gb SANbloc RAID Controller is a high performance
controller, providing two host fibr e channel
fibre channel interfaces. It is an intelligent, caching
controller that supports RAID levels 0, 1, 3, 5, 0+1,
and JBOD. The controller enable s multiple hosts to
access an array of disk drives, which can be configured
as one or more virtual storage devices (logical units).
The controller provides continuous access to data in the
event of a disk drive failure. When configured in a dualactive controller system, the RAID controller also provides
continuous access to data in the event of a controller failure.
This dual-active controller system is one in which two
controllers share
access to the same array of disk drives.
In the event of a controller failure, controller operations are assumed by the surviving controller through
a failover process. The failed controller can then be
removed and replaced while the system is online. The
new controller resumes processing array operations in
a failback process. During failover and failback, write
cache coherency is maintained with the disk drives.
and two device
47
Three circuit boards make up the RAID Controller:
• Controller: The controller circuit board contai ns the main
controller and peripheral functions, including processor,
control-store memory, XOR engine and cache controller, and
2Gb SANbloc Serie s RAID Con troller Introd uction
48
host and device fibr e channel input/output processors (IO Ps).
• I/O: The I/O circuit board provides the interface to the disk
drive enclosure (device) and host as well as general support
functions. It also contains the switching p ower supply, which
generates +3.3 Vdc and +2.5 Vdc from +5 Vdc, hot-swap
circuits, and battery backup unit (BBU) circuits.
• Ethernet (optional): The ethernet circuit board provides an
ethernet interface to the controller, and connections for debug
and out-of-band service to the host and device PCI busses.
The RAID Controller requir es a minimum of two circuit
boards: the controller and I/O. The controller and I/O
circuit boards are connected using two 38-pin
controlled impedance connectors. The controller, I/O,
and ethernet circuit boards are assembled into a stack
with the controller and ethernet boards mounted to a
controller cover plate and the I/O board mounted to
the controller board. When the ethernet circuit board
is used, it is mounted to the controller c ircuit board.
Figure 4-1 shows the three circuit boards in their
relative positions.
Figure 4-1 RAID Controller Circuit Boards
2Gb SANbloc Series RAID Co ntroller Introductio n
Features of the RAID Controller include:
• Main processor coupled with a companion chip
• Proprietary XOR engine ASIC that provides data processing
XOR function and dat a cache SDRAM control
• Four 2Gb-capable fi bre protocol chips for the device and host
• Separate memory areas for processor and user data
• Scalable data cache memory: 128, 256, 512 MB DIMMs
• 128 KB NVRAM configuration memory
• Real Time Clock
• 4 MB Flash PROM
• Transparent failover/fa ilback with multipl e tar g et ID support
The I/O circuit board includes a Battery Backup Unit (BBU)
that maintains memory content in case of AC power failure.
Power for the BBU is provided by a bat tery pack m ounted in
the fan module of the enclosur e.
RAID Controller Circuit Boards
This section gives a brief description of the t hree RAID
controller circuit boards: Controller, I/O, and Ethernet.
49
Controller Circuit
Board
The controller circuit board oversees and regulates the flow
of data from a host thr ough the I/O ci rcuit board to the disk
arrays in the 2Gb SANbloc enclosure. The controller circuit
board performs these operations with a proprietary architecture, using the following components:
I/O Circuit BoardThe I/O circuit board provides the interface between the
enclosure and a host, as well as general support functions.
The I/O circuit board provides the following:
• Connections to the host
• Connections to the enclosu r e
• Dual switching power supply for +3.3 V and +2.5 V
• Hot pluggability for the controller
• Support for the BBU
The I/O circuit board has two SFF opti cal transceivers
supporting shortwave multimode fibre on the host side and a
90-pin controlled impedance ( 50 Ohm) connector o n the
device side. An HSSDC connector with repeaters on the
expansion loop provides for a copper connection between
one of the device channels and an exp ansion module. Port
bypass circuitry on the I/O circuit board enables quadplex
operation on a second host loop. The I/O board has seven
LEDs to indicate subsystem status.
Ethernet Circuit
Board
The ethernet circuit board provides a 10BASE-T/100BASETX LAN connection for out of band service for the RAID
controller. Features of the ethernet circuit board include:
The PCI ethernet controller is a fully integrated 10BASE-T/
100BASE-TX controller consisting of both the media access
controller (MAC) and physical layer (PHY) in one packag e.
RAID Controller Circuit Boa rds
• PCI ethernet controller chip
• Enhanced scatter-gather bus mastering
• Operation in either full duplex or half-duplex mode
• Auto-negotiation for speed, duplex, and flow control
• RJ45 ethernet connector with integral activity and link status
LEDs
It has a 32 bit, 33 MHz maximum PCI interface and features
scatter-gather bus mastering, which enables it to perform
high speed data transfers on the PCI bus. It operates in either
full duplex mode or half duplex mode. It has a four wire
interface to a serial EEPROM, which can provide power-on
initialization and software configurati on.
The firmware interface is primarily thr ough the PCI
interface, but a four-wire serial EEPROM interface can
provide power-on initialization. The diagnostic interface is
through the PCI interface.
The ethernet circuit board connects to the cont roller circuit
board through a 114 pin Mictor impedance controlled
connector. The electrical interface is with the primary PCI
bus (host bus) on the controller circuit board. In addit ion to
the PCI signals, this connector provides the 3.3 V power for
the ethernet circuit board. The power required for this board
is a maximum of 860 mA at 3.3 V, approximately 2.85 W.
51
RAID Con t roller
Location
The RAID controller is installed in the rear of the enclosure
in the location shown in F igure 4-2.
Figure 4-2 RAID Controller location
RAID Controller
1
2
3
4
5
6
7
1
2
0
I
RAID Controller
1
2
0
I
1
2
3
4
5
6
7
The above illustration shows a dual RAID configuration .
RAID Controller Circuit Bo ards
52
The main parts of the RAID Controller are described in
Figure 4-3.
Figure 4-3 Main componen t s of RAID controller
1
Status LEDs
2
3
4
5
6
7
FC Host Connectors (SSF optical)
RS232
HSSDC Connector
Ethernet Connection
RAID Con t roller
Status LEDs
The RAID controller has 7 Status LEDs as shown above.
Table 6-1 describes what these LEDs signify.
Ta ble 6-1 Controller Status LEDs
RAID Controller Circuit Boa rds
LEDDescription
1Yellow - Not Ready. Normally Off. Goes On during
power up sequence.
2Green - Ready. Normally On
3Green - Dirty Cache. On when there is data in cache.
4Yellow - BBU Fault. Normally Off.
5Green - Partner Fail. Normally Off
6Green - Device Activit y i.e. on drive channels. Flash es
with activity.
7Green - Host Activity. Flas hes with activ ity.
RAID Controller Configurations
This section describes how to cable the two standard RAID
controller configurations: Single RAID Controller and Dual
RAID Controller (dual active). The procedure for daisy
chaining these standard configurations to expansions enclosures is also described. This section also describes how to
set the enclosure ID.
Setting the Enclosure ID
Each of the fourteen disk drive slots of the SANbloc S eries
has a unique identifier assigned to it. This identifier is
assigned using a combination of the Slot number an d the
enclosure ID.
The enclosure ID is set, using the enclosure ID switch,
located on the rear of the SANbloc (see Figure 4-4).
Note: The enclosure ID must be set prior to powering on the
enclosure.
53
Note: Each enclosure must have a separate ID when daisy
chained together.
RAID Controller Configur ations
54
Figure 4-4 Location of Enclosure ID Switch
1
2
0
I
Enclosure ID
Switch
1
0
I
This enclosure ID switch can be set to 0 through 7.
The graphic below shows the slot number and l ocation.
Slot location when viewed from the front of the enclosure
Slot 3
Slot 4
Slot 5
Slot 6
Slot 7
Slot 8
Slot 9
Slot 10
Slot 11
Slot 12
LSM
Slot 13
Slot 0
Slot 1
Slot 2
LSM
1
2
Setting the Enclosur e ID
The fourteen disk drive slot s (0 to 13), will be assigned an
identifier based on the enclosure ID and the slot number as
shown in Table 6-2.
This section shows how to connect the RAID enclosures to a
host system(s). The procedure for daisy chaining the enclosures together is also described.
Configurations
56
Single RAID
Controller
Configuration
In this configuration only one RAID cont roll er is i nstalled in
the enclosure’s I/O slot. The second I/O slot must contain an
I/O module or a blank plate.
Note: The following configuration procedures refer to
connecting the 2Gb SANbloc Series directly to the host
system. It is also possible to conne ct the sy ste m usi ng a Hub/
Switch.
CAUTION: B e f ore working on th e enclosure, en sure that antistatic precautions have been taken. The minimum requirement is
an anti-static wrist strap and grounding wire.
To connect this configuration to a host system, follow thi s
procedure:
Connecting a Single RAID Controller to a Host
1 Plug both host cables into the host con nectors on the RAID
controller (see Figure 4-5).
Note: For single HBA configurations only one of the host
connectors should be used.
Configurations
2 Connect the opposite ends of these host cables, to the HBA’s of
the host system.
Note: For details on your host and/or HBA refer to the documentation that was supplied with the host / HBA.
Figure 4-5 Single RAID Controller to Host Connector
57
1
2
0
I
1
2
0
I
HBA 1
HBA 2
1
2
3
4
5
6
7
Daisy Chaining a Single Controller Enclosure
To daisy chain the RAID enclosure to an expansion
enclosure, connect link cables from the RAID controller to
the top connectors of the I/O modules of the expansion
enclosure (see Figure 4-6).
Note: A maximum of eight enclosures may be daisy ch ained
together.
Configurations
58
Figure 4-6 Daisy Chaining Single Controller Enclosure
Link Cable
I/O Module
Connect this
cable for dual
loop operation
To next
enclosure
RAID Controller
1
2
0
I
1
2
0
I
HBA 1
HBA 2
1
2
3
4
5
6
7
Link Cable
1
2
0
I
Total of 8 enclosures may be daisy chained together.
0
I
1
2
To next
enclosure
CAUTION: When daisy chaining enclosures, you must ensure
that each enclosure has a uniqu e Enclosure ID.
Configurations
59
Dual RAID
Controller
Configuration
In this configuration two RAID Controllers are installed in
the enclosures I/O slots.
Note: The following configuration procedures refer to
connecting the 2Gb SANbloc Series directly to the host
system. It is also possible to conne ct the sy ste m usi ng a Hub/
Switch.
CAUTION: B e f ore working on th e enclosure, en sure that antistatic precautions have been taken. The minimum requirement is
an anti-static wrist strap and grounding wire.
To connect this configuration to a host system, follow thi s
procedure:
Connecting Dual RAID Controllers to a Host System
Note: This example configuration assumes that the RAID
enclosure is being attached to two separate host systems,
each containi ng tw o HBA’s. Other configurations, such a s one
host with 4 HBA’s are also possible.
1 Plug two host cables in to the host connectors of the first RAID
controller (one cable into eac h FC connector).
2 Plug the opposite ends of these cables into the HBA’s of the first
host system (see Figure 4-7)
3 Plug two host cables in to the host connectors of the second
RAID controller (one cable into each FC connector).
4 Plug the opposite ends of these cables into the HBA’s of the
second host system (see Figure 4-7)
Configurations
60
Figure 4-7 Dual RAID Controller Configuration
Host B
HBA 1
HBA 2
Host A
1
2
3
4
5
6
7
1
2
0
I
1
2
0
I
HBA 1
HBA 2
1
2
3
4
5
6
7
Daisy Chaining a Dual Controller Enclosure
To daisy chain the RAID enclosure to an expansion
enclosure, connect link cables from the RAID enclosure to
the top connectors of the I/O modules of the expansion
enclosure (see Figure 4-8).
Note: A maximum of eight enclosures may be daisy ch ained
together.
Configurations
Figure 4-8 Daisy Chaining a Dual Controller Enclosure
61
Host B
HBA 1
HBA 2
1
2
3
4
5
6
7
Link Cable
To next
enclosure
Host A
1
2
0
I
1
2
0
I
HBA 1
HBA 2
1
2
3
4
5
6
7
Link Cable
1
2
0
I
Total of 8 enclosures may be daisy chained together.
I
1
2
0
enclosure
To next
CAUTION: When daisy chaining enclosures, you must ensure
that each enclosure has a uniqu e Enclosure ID.
Configurations
62
Connecting a Power Source
The 2Gb SANbloc enclosure supports dual AC power
supplies. Only one power supply is required for normal
operation. However, a second, optional, power supply may
be added to provide a redundant power system. Each power
supply has its own AC power inlet.
CAUTION: Power supply cords shall have conductors with a
cross-sectional area not less than 4mm2. This cross-sectional area
corresponds to a minimum 10AWG wire.
Connecting an AC
Power Source
1
2
3
4
5
6
7
Connecting a Pow er Source
1 Ensure all cables have been at tached as described in the
preceding sections .
2 Attach the AC power cords to the power suppli es and turn the
power supply switches to the On (-) position (see Figure 4-9).
Figure 4-9 Attaching the AC power cords
1
2
0
I
Insert Power cords into
power connectors
1
1
2
2
3
4
5
6
7
0
I
WARNING: This equipment must be connected to an earthed
mains socket outlet. Ensure the power cabling provides earthing
continuity to the equipment.
Disk Drive Spin Up Sequence
At power on, the LS module will perform its in ter nal start up
initialization routine. Then the LS module will assert the
disk drive START_1 and START_2 mot or start signals l ow
for disk drive slots 7 through 13, which will spin up the first
7 disk drives immediately. The LS module will then assert
the disk drive START_2 motor start signal l ow and leave th e
START_1 motor start signal high for disk drive slots 0
through 6 which will command the second seven disk drives
to spin up after a delay of 12 seconds times the modulo 8
value of the numeric SEL_ID of the disk drive.
Once the enclosure is powered up and all 14 drives are spun
up as depicted above, the en closure will support immediate
drive spin up with two po wer supplies present.
Modulo 8
The drive spin up sequence above uses modulo 8 to cal culate
the spin up delay. Modulo 8 is determined by:
(SHELF ID x DRIVE NUMBER)/8 = NUMBER + REMAINDER
It is the REMAINDER value that is used for the calculation
as it is always between 0 and 7 (hence modulo 8). The drive
spin up time can then be calculated as fo llows:
REMAINDER x MODE PAGE SETTING = SPIN UP DELAY ( Seconds)
EXAMPLE: A typical Mode Page Setting is 12, so if the
Remainder = 7, the Spin Up Delay would be 7 x 12, or 84
seconds.
63
Disk Drive Spin Up Sequen ce
64
Disk Drive Spin Up Se quence
Chapter 5: System Monitoring
This Chapter describes the de vices used to moni tor the
2Gb SANbloc Series. The location of the monitoring LEDs
and how to interpret th em is described.
Overview
The front mounted LS module is the main monitoring
device of the 2Gb SANbloc Series. This module is complemented by status and fault L EDs, mounted on all the major
components of the enclosure, such as, disk d rives, power
supplies, Advanced Cooling Modules (ACMs), and RAID
Controller. All these monitoring devices are discussed in the
following sections.
LS Module
The LS Module (Loop Resiliency and SES Module)
provides monitoring and contr ol for the 2Gb SANbloc
Series. The module reports status and receives control information over the Enclosure Services Interface (ESI) port of
any of the fourteen disk drives installed in the enclosure.
The LS Module also provi des loop resiliency for the Fibre
Channel loop (in the form o f Port Bypass Circu its).
65
The 2Gb SANbloc Series contains one L S Module as
standard. However, a second optional LS Module is
available to provide active/passive fail-over for the
enclosure services communication, and to provide a second
Fibre Channel Loop. Only one LS Modul e communicates
(using ESI communication) wi th the host system at any one
time, but both LS modul es will continuou sly monitor the
Overview
66
system. If the active LS Module fails, then the ESI communication with the host system will be taken over by the
passive LS Module.
LS Module Features• Monitoring/Control for 2 Power Supplies and 2 ACMs
• Reports status and receives control information via the FC loop
• Microcontroller for data processing, control and communica-
tions
• Volatile and non-volatile memory for the microcontroller
• Temperature sensor
• Audible alarm with manual an d software disable
• FC link monitoring and status information
• Firmware download capability
• Reporting of PSU, LS module, I/O module, and backplane
serial number and revision
• I/O module and backplane type reporting
• Control of 6 front LEDs for enclosure and module status
• I/O option slot statu s monitoring
2Gb SANbloc
Enclosure LEDs
LS Module
The 2Gb SANbloc Series has six LEDs located on each of
the front mounted LS Modul es. These LEDs show the status
of the enclosure, power supply, Fibre Channel Loops, LS
Module status and the operating mode of the enclosure (1GB
or 2Gb operation). Figur e 5-1 shows the l ocation of the
LEDs
67
Figure 5-1 Location of 2Gb SANbloc Enclosure LEDs
bloc
SAN
Series
0
18F
18F
1
2
3
4
5
18F
18F
18F
18F
18F
18F
18F
18F
18F
18F
18F
18F
Gb
2
0
1
2
3
4
5
LED 0
LED 1
LED 2
LED 3
LED 4
LED 5
0
1
2
3
4
5
Table 5-1 shows the meaning of each of the LEDs, and
how to interpret them.
LS Module
68
Table 5-1 Enclosure LED Descriptions
DescriptionColorIndication
LED 0Power OnGreenNormally ON, indicates power is
LED 1Shelf FaultAmberNormally OFF indicates no faults
LED 2FC Loop AGreenON indicates FC Loop A closed.
LED 3FC Loop BGreenON indicates FC Loop B closed.
LED 4LS FaultAmberNormally OFF indicating that the
LED 52Gb OperationGreenON indicates the FC loop is operat-
applied. OFF indicates no power.
exist in the enclosure. ON indicates a fault. Flashing of this LED
indicates the both a 1GB and a 2Gb
I/O module has been detected.
OFF indicates FC Loop A open
OFF indicates FC Loop B open.
LS Module has no fault. ON indicates an LS Module fault. Flashing
of this LED indicates that the LS is
a 1GB LS module in a 2Gb system.
ing at 2Gb/Sec speed. OFF indicates the FC Loop is operating at
1GB/Sec Speed. Flashing of this
LED indicates that the LS module
is set to an incorrect speed.
Note: The audible alarm will sound when an error is
detected.
LS Module
CAUTION: If 1 GB an d 2Gb hardware i s mi xe d in an enclosure at
power up, and the enclosure is set to 2Gb, the drives will not spin
up and LED 5 will flash.
Disk Drive LEDs
Each disk drive carrier has two LED indicators visible
from the front of the 2Gb SANbloc enclosure. The green
disk drive ready LED is controlled by t he disk drive, and the
bi-colour LED is con trolled by th e LS Modul e. The
following table shows how to interpret these LEDs.
Table 5-2 Disk Drive LED Descriptions
69
Drive Ready Green
LED
Drive ControlledOffOffSlot empty, r eady for in s ert
Drive ControlledOnOffDrive online, ready for opera-
Drive ControlledON 125ms
Drive ControlledON 250ms
Drive ControlledOn 500ms
Drive ControlledOffOn 125ms
Drive ControlledOff
Bicolor LED
Green
Off 125ms
Off 250ms
Off 125ms
Off
Bicolor LED
Amber
Off
Off
Off
Off
Off
Off
Off 125ms
On 125ms
Off 750ms
Condition
tion
Drive Identify (POD)
Prepare for removal
Drive Rebuild
Drive Fail
Drive off-line, Loop A or Loop
a
B
a. The shelf fault Amber LED is On. This is visible from the front of the
enclosure
Note: The audible alarm will sound when an error is
detected.
Disk Drive LEDs
70
Figure 5-2 Disk Drive Carrier LEDs
Disk Drive Ready
(Green)
BiColor LED
(Green/Amber)
18F
Disk Drive LEDs
Power Supply LEDs
AC power supplies provide 853W peak output power and
673W continuous output power.
indicators on it, which are visible from the rear of the
enclosure. The green Power OK LED is on when the power
supply is operating normally. This green LED is driven by
the power supply, and indicates that the power supply output
voltages are operating nor mally. The power supply amber
Fault LED is driven by the LS Module an d power supply.
This amber LED is ON when the LS Module detects a power
supply fault, or it will flash, when the power supply Locate
feature is selected.
Note: The audible alarm will sound when an error is detected
Figure 5-3 Power Supp ly LEDs
71
The 2Gb SANbloc Series uses two AC power supplies. The
The 2Gb SANbloc Series power su pply has two LE D
0
I
Power Supply LEDs
Fault LED
Power OK
72
Advanced Cooling Module (ACM) LEDs
The 2Gb SANbloc Series has two variable speed fans per
advanced cooling module. Each of t he two AC Ms on t he rear
of the 2Gb SANbloc Series enclosure has two fault LEDs
visible from the rear of the enclosure. The LEDs are labeled
“1” and “2” to correspond with the two fans inside the ACM
assembly. These LEDs are normally off and will only be on
when a fault is detected in a fan by the LS Module.
Note: The audible alarm will sound when an error is
detected.
Figure 5-4 Advanced Cooling Module LEDs
Advanced Cooling M odule (ACM ) LEDs
1
2
Fan1 Fau lt
Fan2 Fault
RAID Controller LEDs
The RAID controller has 7 LEDs located and numbered as
shown.
Figure 5-5 RAID controller LEDs
The table below describes the LEDs meaning.
Ta ble 5-3 Controller Status LEDs
LEDDescription
Status LEDs
73
1
2
3
4
5
6
7
FC Host Connectors (SSF optical)
RS232
HSSDC Connector
Ethernet Connection
1Yellow - Not Ready. Normally Off. Goes On during
power up sequence.
2Green - Ready. Normally On
3Green - Dirty Cache. On when there is data in cache.
4Yellow - BBU Fault. Normally Off.
5Green - Partner Fail. Normally Off
6Green - Device Activit y i.e. on drive channels. Flash es
with activity.
7Green - Host Activity. Flas hes with activ ity.
RAID Controller L EDs
74
RAID Controller LEDs
Chapter 6: Installing and Removing Compo-
nents
This Chapter describes the pro cedures for installi ng and
removing the replaceable components in the 2Gb SANbloc
Series.
WARNING: The module handles are to facilitate the easy insertion and removal of the modules, they should not be used to lift
and/or carry the enclosure.
75
76
Location of the Components
bloc
SAN
Series
0
18F
18F
1
2
3
4
5
18F
18F
18F
18F
18F
18F
18F
18F
18F
18F
1
2
3
4
5
Gb
2
0
18F
18F
LS
Module
I/O Module/
RAID Controller
Disk Drives
ACMs
1
2
0
I
Power Supplies
LS
Module
1
2
0
I
I/O Module/
RAID Controller
Location of the Co mponents
Installing and Removing a Disk Drive Carrier
The disk drive carriers are located in the front of the
enclosure. Follow these procedures to install and remove the
disk drive carrier.
77
Installing a Disk
Drive Carrier
Removing a Disk
Drive Carrier
1 Select the disk drive slot into which the disk drive carrier is to be
installed and remove the carrier blank if there is one installed.
2 Orient the disk drive carrier such that the L EDs are on the top
(on the right for desk side systems).
3 With the cam lever fully open slide the carrier into the slot until
the lever starts to close.
4 Fully close the cam lever. The lever is fully closed, and the drive
locked in place, when the lever “clicks” into position.
1 Using your finger, release the locking tab by pressing it in the
direction shown in Fi gure 5-1, and pull the ca m lever towards
you.
2 Fully open the cam lever. (approx. 90o to enclosure).
3 With the cam le ver o pen wait for at le as t o ne m inu te to al low th e
disk drive to spin down fully before removing it.
4 Gently, pull the disk drive carrier out of the enclosure.
CAUTION: Immediately r e place the disk drive carri er or install a
disk drive carrier blank to maintain correct airflow.
Installing and Rem oving a Disk Drive Carr ier
78
Figure 6-1 Disk Drive Carrier
Push locking tab in this direction to open
18F
Cam Lever
Installing and Removing a Disk Drive Car rier
Installing and Removing an LS Module
The LS Modules are located in the front of the enclosure.
Follow these procedures to install and remove the LS
Modules.
79
Installing an LS
Module
Removing an LS
Module
1 Select the LS Module slot in to which the LS Module is to be
inserted and remove the LS blank if one is installed.
2 Orient the LS Module such that the LEDs are on the top (on the
right for deskside systems).
3 With the cam lever fully open slide the LS Module into the slot
until the lever starts to close.
4 Fully close the cam lever. The lever is fully closed, and the LS
Module locked in place, when t he l ever “clicks” into position.
1 Using your finger, release the locking tab by pressing it in the
direction shown in Fi gure 5-2, and pull the ca m lever towards
you.
2 Fully open the cam lever (approx. 90o to enclosure).
3 Gently, pull the LS Module out of the enclosure.
CAUTION: Immediately replace the LS Mod ul e or install an LS
Module blank to maintain correct airflow.
Installing and Removing an LS Module
80
Figure 6-2 LS Module
Push locking tab in this direction to op e n
0
1
2
3
4
5
Cam Lever
Installing and Removing a n LS Module
Installing and Removing a Power Supply
The power supplies are located in the rear of the
enclosure. Follow these procedures to install and remove the
power supplies.
81
Installing a Power
Supply
Removing a Power
Supply
1 Select the power supply slot into which the power supply is to be
inserted and remove the carrier blank if there is one installed.
2 Orient the power supply, such that the LEDs are on the top (on
the right hand side for rack mount systems).
3 Gently slide the power supply into the empty power supply slot.
4 Secure in place using the two fixing screws (torque setting
0.3Nm).
5 Install th e po w er cables.
1 Turn off the power supply, and remove the power cabl e.
2 Loosen the two fixing screws.
3 Using the power supply handle, gently slide it out of the
enclosure.
CAUTION: Immediately repl ace the power supply carrier or
install a power supply carrier blank to maintain correct airflow.
Figure 6-3 Power Supply
0
I
AC
Inlet
Handle
On/Off
Switch
Installing and Removing a Power Supp ly
82
Installing and Removing an Advanced Cooling Module
The advanced cooling modules are l ocated in the r ear of
the enclosure. Follow these procedures to install and remove
the advanced cooling modules.
Installing an
Advanced Cooling
Module
Removing an
Advanced Cooling
Module
1 Select the advance d cooling module slot into which the module
is to be installed.
2 Orient the module, such that the LEDs are on the top (on the
right hand side for rack mount systems).
3 Gently slide the ACM into the empty ACM slot.
4 Secure in place using the two fixing screws (torque setting
0.3Nm).
1 Loosen the two fixing screws.
2 Using the advanced cooling module handle, gently slide it out of
the enclosu r e .
CAUTION: Immediately replace the ACM to maintain correct airflow.
Figure 6-4 Advanced Cooling Module
LEDs
1
2
Handle
Installing and Removing a n Advanced Co oling Module
Installing and Removing an I/O Module/RAID Controller
Note: In the following section, “I/O Module” is taken to
include the RAID Controller in addition to the I/O Module.
The I/O module is located i n the rear of th e enclosure.
Follow these procedures to install and remove the I/O
module.
83
Installing an I/O
Module/RAID
Controller
Removing an I/O
Module/RAID
Controller
1 Remove the I/O module blank if there is one installed.
2 Gently insert the I/O module into the slot.
3 Secure in place using the two fixing screws (torque setting
0.3Nm).
4 Connect the cables as described in Chapter 3.
1 Remove all cables.
2 Loosen the two fixing screws.
3 Using the module handle, gently slide the I/O Module out of the
slot.
CAUTION: Immediately replace the carrier or install an I/O module blank to mainta in correct airflow.
Installing and Removing an I/O M odule/RAID Con troller
84
Installing and Removing a n I/O Module/RAID Con troller
Appendix A: Safety Statement Translations
CAUTION: This equipment is intended only for installation in a
restricted access location.
ACHTUNG: Dieses Gerät sollte nur an eine m Ort mit Zugang-
skontrolle installiert werden.
FÖRSIKTIGHET: Denna utrustning får endast installeras på
ställe med begränsad åtko ms t.
VAROITUS: Laitteisto on tarkoitettu asennettavaksi ainoast-
aan sivullisilta suojattuun paikkaan.
85
FORSIGTIG: Dette udstyr er kun beregnet til installation i et
område med begrænse t adg an g.
OBS: Dette utstyret er bare beregnet for installering på steder
med adgangsbegrensning.
CAUTION
86
CAUTION: Allow disk drives and power supplies to re ac h
room ambient temperature before powering on the shelf.
ACHTUNG: Ehe Laufwerke und Netzteile an die Stromversor-
gung angeschlossen werden, sollten sie sich an die Raumtemperatur angepasst haben.
FÖRSIKTIGHET: Låt skivdrivenheter och strömtillförsel nå
rumstemperatur innan strömförsörjningen slås på.
VAROITUS: Ennen kuin kytket virran hyllyyn sijoitettuihin
levyasemiin ja teholähteisiin, odota, että laitteet saavuttavat
huoneiston lämpötilan.
FORSIGTIG: Sørg for, at drev og strømf orsy ninge r har opnå et
rumtemperaturer, før strømmen tilsluttes hylden.
OBS: La diskstasjoner og strømforsyninger nå romtemperatur
før du slår på strømmen til hyllen.
CAUTION
CAUTION: It is recommended that if interconnecting equip-
ment resides within more than one equipment rack cabinet,
these rack cabinets should be at the same ground potential.
ACHTUNG: Befinden sich Verbindungselemente in mehr als
einem Rack-Gehäuse, sollten die Racks dasselbe Massepotential
aufweisen.
FÖRSIKTIGHET: Vi rekommenderar, om förbindelseutrust-
ning finns i mer än ett utrustningshyllskåp, att dessa hyllskåp
ligger på samma jordpotential.
VAROITUS: Jos toisiinsa yhdistettyjä laitteita sijaitsee useam-
massa kuin yhdessä kehykse ssä , on suos it elt av aa sijoittaa
kyseiset kehykset samalle taso lle .
87
FORSIGTIG: Hvis der i mere end ét udstyrsrackkabin et er
indbyrdes forbundet udstyr, bør disse kabinetter have samme
grundspænding.
OBS: Dersom sammenkoblingsutstyr er montert i mer en n ett
kabinett i utstyrsrack, anbefales det at kabinettene blir montert
slik at de har samme jordingspotensial.
CAUTION
88
CAUTION: Before attempting to install or remove any of the
components, ensure that anti-static precautions have been
taken. The minimum requirement is a properly grounded antistatic wrist strap and grounding wire.
ACHTUNG: Vor dem Entfernen oder Installieren einer
Komponente sollte sichergestel lt werden, dass antistatische Vorsichtsmaßnahmen ergriffen wurden. Mindestanforderung sind
ein ordnungsgemäß geerdetes Antistatik-Armband und ein
Erdungskabel.
FÖRSIKTIGHET: Se till att antistatiska åt gärder vidtages
innan någon av komponenterna installeras eller avlägsnas. Minimikravet är ett ordentligt jordat antistatiskt armband och jordledning.
VAROITUS: Ennen komponenttien asentamista tai poista-
mista varmista, että antistaattisista varotoimenpiteistä on huolehdittu. Vähimmäisvaatimuksin a on asianmukaise sti
maadoitettu ant istaattinen rannehihna ja maadoitu sjohto.
FORSIGTIG: Før du forsøger at installere eller fjerne en af
komponenterne, skal du tage antistatiske forholdsregler. Minimumskravet er en korrekt jordet, antistatisk håndledsrem og en
afleder.
CAUTION
OBS: Før det blir gjort forsøk på installere eller fjerne kompo-
nenter, må det tas forholdsregler for å avverge statisk elek-
trisitet. Minimumskravet er riktig jor det antistati s k
håndleddstropp og jording s le dni ng.
CAUTION: When installing or removing a rackmount shelf,
remove all power supplies and disk drives. It is recommended
that you work with at least one other pers on when installing a
disk shelf. This is necessary to prevent personal injury and d amage to the shelf.
ACHTUNG:Vor der Installation oder dem Entfernen eines
Rackmontagefachs müssen alle Netzteile und Laufwerke
entfernt werden. Es wird empfohlen, die Installation des Laufwerkfachs von mindestens zwei Personen vornehmen zu lassen.
Dies ist notwendig, um Verletzunge n bzw. Schäden am Fach z u
vermeiden.
FÖRSIKTIGHET: När en utrustningshylla installeras ell er
avlägsnas ska all strömtillförsel bortkopplas och alla skivdriv enheter avlägsnas. Det rekommenderas att du arbetar med minst
en person till när en skivhylla ska installeras. Detta är nödvändigt för att förhindra personliga skador och skador på hyllan.
89
VAROITUS: Poista kaikki teholähteet ja levyasemat ennen
hyllyn asentamista kehykseen tai poistamista kehyksestä. Levyhyllyä asennettae ssa on suos ite lt a va a kä yt tä ä ainakin yhtä
avustajaa. Tämä on välttämätöntä loukkaantumisten ja hyllyn
vaurioitumisen välttämiseksi.
CAUTION
90
FORSIGTIG: Når en rackmonteret hylde installeres eller
fjernes, skal al strømforsyning og alle drev fjernes. Det anbefales, at der mindst er én anden person til stede, når en
drevhylde installeres. Det er nødvendigt for at undgå personskade og beskadigelse af hylden.
OBS: Når hylle for rackmontering blir installert eller fjernet,
må alle strømforsyninger og diskstasjoner fjernes. Det anbefales
at du arbeider sammen med minst én annen person når du
installerer en diskhylle. Dette er nødvendig for å hindre personskade og skade på hyllen.
CAUTION
CAUTION: The tower skin set is not a field replaceable unit
and therefore must not be removed from the Storage Array.
ACHTUNG: Das Tower-Gehäuse kann nicht am Einsatzort
ausgetauscht werden und sollte deshalb nicht en tfernt werden.
FÖRSIKTIGHET: Det yttre höljet är inte en utbytbar enhet
och skall därför inte avlägsnas från lagringsuppsättningen.
VAROITUS: Tornikehys ei ole paikan pää llä vaihdettavissa
eikä sitä saa poistaa muistijärjestelmästä.
FORSIGTIG: Søjleindkapslingen kan ikke udskiftes på stedet
og må derfor ikke fjernes fra lagringssystem et.
91
OBS: Det ytre dekse let er ikke ko nstruert for å kunne s kiftes på
stedet, og må derfor ikke fjernes fra lagringskabinettet.
CAUTION
92
CAUTION: After removing the LS Module the resulting hole
must be blocked by installing a blanking plate or by installing a
replacement LS Module. Failure to do this can disrupt airflow
and seriously reduce cooling.
ACHTUNG: Nach dem Entfernen des LS Module muss die
entstehende Lücke durch eine Blende oder durch die Installation eines anderen LS Module geschlossen werden . Wird dies
nicht beachtet, kann es zu Unterbrechung der Luftzufuhr und
zu stark verminderter Kühlung kommen.
FÖRSIKTIGHET: När en LS Module avlägsnas skall utrym-
met som blir kvar blockeras genom att en blindplåt installeras
eller genom att sätta in en ny LS Module. Ett allvarligt avbrott i
luftflödet kan orsakas och därmed reducera kylningen om detta
inte görs.
VAROITUS: LS Module-valvontayksikön poistamisen
seurauksena s ynty vä au kko on pe itett ävä suoj ale vyllä tai asent amalla uusi valvontayksikkö entisen tilalle. Muussa tapauksessa
ilmavirran kulku saattaa häiriintyä, mikä heikentää jäähdytystä
merkittävästi.
FORSIGTIG: Når LS Module er fjernet, skal det hul, der
opstår, dækkes. Det gøres enten ved at påsætte en udstanset
plade eller ved at installere en anden LS Module til erstatning.
Hvis du ikke gør det, kan det give forstyrrelser i luftstrømningerne og reducere afkøling en alvorligt.
CAUTION
OBS: Når en LS Module er fjernet, må hullet blokkeres ved å
installere en maskeringsplate el ler ved å sette inn en annen LS
Module. Dersom dette ikke gjøres, kan det forstyrre lufttilstrømningen og gi sterkt redusert kjøling.
WARNING: A possible shock hazard may exist in the area of
the fan connection.
VORSICHT: Im Bereich des Lüftungsanschlusses besteht
Stromschlaggefahr.
VARNING: Det finns risk för elstötar i området runt fläk-
tanslutningen.
93
VAARA: Tuuletinliitännän ympäristössä voi olla sähköiskun
vaara.
ADVARSEL: Der er fare for stød i området, hvor ventilatoren
er tilsluttet.
ADVARSEL: Det kan være en viss risiko for ele ktrisk støt i
nærheten av tilkoblingspunktet for viften.
WARNING
94
Appendix B: Technical Specifications
Host Interface
• One or two Fibre Channel interfaces, 200 MB\s each, 400 MB\s
• Relative Humid ity Operating: 10% to 80%, non-co ndensing
• Max. Rate of Operational Humidity Change: 10% per hour
• Relative Humidity Storage: 5% to 95%, non-condensing
Disk Drives
98
Altitude
• Altitude Operating: -200 to 10,000 feet
• Altitude Storage: -200 to 40,000 feet
Operational Shock
Half sine shock: 3G half sine shock with a pulse duration
of 11 milliseconds or less. No permanent damage will occur
at or below this leve l.
Operational Vibration
Sinusoidal vibration from 5 to 350 Hz at 0.2G (0 to peak)
at a sweep rate of 1/2 octave per minute. No permanent
damage will occur at or below these levels.
Altitude
Regulatory Agency Compliance
99
Product Safety
Standards
• UL1950 Information Technology Equipment (US)
• CSA C22.2 No 950 Information Technology Equipment
(Canadian Law)
• EN 60950 Information Technology Equipment (European
Norm)
Product Safety Third
Party Certifications
• UL Listed USA
• CSA Certification Canada
• CB Certificate and Report from NEMKO
• NEMKO Norway
• TUV-GS German
CE MarkEmi ssion Testing: Light Industry CE NELEC EN 50 081-
1,1995
• Radiated Emiss ions CENELEC EN 55 022, 1992
• Conducted Emissions CENELEC EN 55 022, 1991
Immunity Testing: CISPR 24 for ITE
Immunity Testing: Light Industry CENEL EC EN 50 082- 1,
1997
• Electrostatic Discharge CENELEC EN 61000-4-2, 1995
• Radiated Immunity CENELEC EN 61000-4-3
• Electrical Fast Transients (Burst) CENELEC EN 61000-4-4