2Gb SANbloc Series Installation Guide P/N: MAN-FC2002-001 Revision: 1.
Disclaimer and Warranty Disclaimer 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.
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 Purchaser, freight prepaid. Cable Warranty - All ADAPTEC provided cables are warranted for ninety (90) days from the time 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.
Returned Material - Warranty claims must be received by A D A P T E C w ith in the a ppl ic a bl e w ar r an ty p er io d. 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.
THE EXPRESSED WARRANTIES SET FORTH IN THIS AGREEMENT ARE IN LIEU OF ALL OTHER WARRANTIES, EXPRESSED OR IMPLIED, INCLUDING W I T H O U T L I M I TAT I O N , A N Y WA R R A N T I E S O F MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE, AND ALL SUCH OTHER WARRANTIES ARE HEREBY DISCLAIMED AND EXCLUDED BY E U R O L O G I C .
Table of Contents Preface ................................................................................. 13 Audience .................................................................................................. 13 Conventions Used In This User Guide .................................................... 13 Getting Support........................................................................................ 14 FCC Statement ..........................................................................
Mechanical Loading ........................................................................ 31 Electrical Considerations ......................................................................... 32 Circuit Overloading ......................................................................... 32 Setting Fibre Channel Loop Speed (2Gb or 1Gb) ................................... 32 2Gb Operation ................................................................................. 32 1Gb Operation ................
Controller Circuit Board.................................................................. I/O Circuit Board............................................................................. Ethernet Circuit Board..................................................................... RAID Controller Location............................................................... RAID Controller Status LEDs......................................................... RAID Controller Configurations ...........................
Removing a Disk Drive Carrier....................................................... 77 Installing and Removing an LS Module .................................................. 79 Installing an LS Module .................................................................. 79 Removing an LS Module................................................................. 79 Installing and Removing a Power Supply................................................ 81 Installing a Power Supply..............................
AC Power Supply Input................................................................... 97 Temperature ............................................................................................. 97 Humidity .................................................................................................. 97 Altitude .................................................................................................... 98 Operational Shock..................................................................
Preface This Installation Guide describes the installation and operation of the 2Gb SANbloc Series. The following products are covered: FC2101CDT2-AC, FC2101CDR2-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.
Getting Support If you are having difficulties installing or operating your 2Gb SANbloc Series you can contact our World Wide Support Centre for assistance Monday-Friday 3am to 5pm Pacific: Telephone: email: WWW 321-207-2000 (RAID, FC, External Storage) 408-934-7274 (Hardware) ask.adaptec.com http://www.adaptec.com/support FCC Statement WARNING: Changes or modifications to this unit not expressly approved by the party responsible for compliance could void the user’s authority to operate the equipment.
VCCI English Translation: This is a Class A product based on the standard of the Voluntary Control Council for Interference by Information Technology Equipment. If this equipment is used in a domestic environment, radio disturbance may arise. When such trouble occurs, the user may be required to take corrective actions.
Safety Statements The following safety statements must be read before 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: The tower skin set is not a field replaceable unit and therefore must not be removed from the 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.
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.
• • • • • • • • • 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 supplies.
Cooling System Cooling is provided by the two Advanced Cooling Modules (ACMs) located at the rear of the enclosure. Each of the ACM units contain two variable speed fans. The enclosure requires four fans for normal operation, but will operate correctly with one fan failed (redundancy is lost if one fan is failed in either ACM), however, it is recommended that the failed fan be replaced as soon as possible. The ACM units can be hot swapped. The LS Module monitors and controls the speed of each fan.
The two rear I/O option slots (A and B) can contain a range of different option modules. The LS module will detect the type of option module installed. 1 2 I 0 1 2 0 I I/O Option Modules I/O Option Slot B I/O Option Slot A The available option modules are: I/O Expansion Module - Copper/Copper This 2Gb FC expansion module has two HSSDC connectors. The top connector is the primary FC loop input port and the bottom connector is available for FC loop expansion / input.
I/O Expansion Module- Optical/Optical This 2Gb FC expansion module has two SFF LC optical connectors. The top connector is the FC Loop Input port and the bottom connector is for FC Loop Expansion. A loop back terminator is not required. 2Gb SANbloc RAID Controller The 2Gb SANbloc RAID Controller is a high performance controller, providing two host fibre channel and two device fibre channel interfaces. It is an intelligent, caching controller that supports RAID levels 0, 1, 3, 5, 0+1, and JBOD.
Figure 1-2: 2Gb SANbloc Series Tower Model 2 SAN bloc Gb Series 2 0 1 5 3 4 F 18 F 18 F 18 F 18 F 18 F 18 F 18 F 18 F 18 F 18 F 18 F 18 F 18 F 18 2 0 1 5 3 4 Features
Figure 1-3: 2Gb SANbloc Series Rack Model SAN bloc 2 Gb Series 0 1 F 18 F 18 F 18 F 18 F 18 F 18 F 18 F 18 F 18 F 18 F 18 F 18 F 18 F 18 0 1 2 2 3 3 4 4 5 5 Features
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.
CAUTION Safety Statements Safety Statements The following safety statements must be read before you install or operate the 2Gb SANbloc Series. For language 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.
CAUTION: It is recommended that, if interconnecting equipment resides within more than one equipment 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.
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 should be cut open in the normal manner. Exercise caution when lifting out the components.
Air Flow To ensure that the internal heat build up is properly dissipated 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 through the 2Gb SANbloc Series is from front to rear. Mechanical Loading Consideration should be given to the loading of any equipment racks.
Electrical Considerations When installing the 2Gb SANbloc Series the following electrical considerations must be applied. Circuit Overloading Care should be taken to ensure that the current does not exceed the rating of the power source circuitry. This includes cabling, power distribution units, filters and any other devices through which the main current flows.
1Gb Operation To set the fibre channel loop speed to 1Gb operation: 1 Remove the LS module from the front of the enclosure. 2 On the LS Module locate the jumper position JP2 (Figure 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.
Split Fibre Channel Loop Operation (Quad Loop) The 2Gb SANbloc Series LS module allows for split FC Loop operation, with two dual fibre channel loops of seven disk drives each. In this split loop mode the primary port (I/ O Slot A) will form a loop using the first seven drives, 1 to 7 (from right hand side of rackmount systems). The expansion port (I/O Slot B) will form a second loop using the remaining 7 drives, 8 to 14 (from right hand side of rackmount systems).
Configuration Rules These rules must be applied when implementing the 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 the same). • Cannot mix 1Gb and 2Gb LS and I/O modules, and 1Gb and 2Gb cables.
Supported Cables WARNING: Only the following APPROVED cables must be used with the 2Gb SANbloc Series enclosures. 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 Cables Only the following AMPHENOL copper Fibre Channel cables must be used with the 2Gb SANbloc Series enclosure (copper applications).
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 instructions on how to set the enclosure ID. Setting the Enclosure ID Each of the fourteen disk drive slots of the 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.
1 2 I 0 1 2 0 I Figure 3-1 Location of Enclosure ID Switch Enclosure ID Switch 1 This enclosure ID switch can be set to 0 through 7. The graphic below shows the slot number and location.
The fourteen disk drive slots (0 to 13), will be assigned an identifier based on the enclosure ID and the slot number as shown in Table 3-1.
Configurations 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 connect the system using a Hub/ Switch. CAUTION: Before working on the enclosure, ensure that antistatic precautions have been taken. The minimum requirement is an anti-static wrist strap and grounding wire.
JBOD Configurations There are two JBOD configurations covered in this Installation Guide: • Dual FC Loop mode (including how to daisy chain enclosures) • Quad Loop (single enclosure 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. Dual FC Loop Configuration Note: For dual FC Loop enclosures there must be two LS modules installed in the enclosure.
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 configuration to a host To HBA 1 2 I 0 1 2 0 I To HBA See Appendix C for Loop Diagram. 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 the next enclosure (see Figure 3-3).
Figure 3-3 Daisy chaining dual FC Loop enclosures To HBA 1 2 I 1 2 I To next enclosure 0 1 2 0 I 0 1 2 0 I To HBA To next enclosure See Appendix C for Loop Diagram. CAUTION: When daisy chaining enclosures, you must ensure that each enclosure has a unique Enclosure ID.
Quad Loop Configuration Note: Quad loop configuration requires that the enclosure be configured in split loop mode. To set split loop mode, a jumper 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 mode. For this configuration there must be two LS modules and two I/O modules installed in the enclosure.
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.
Disk Drive Spin Up Sequence At power on, the LS module will perform its internal start up initialization routine. Then the LS module will assert the disk drive START_1 and START_2 motor start signals low for disk drive slots 7 through 13, which will spin up the first 7 disk drives immediately.
Chapter 4: RAID Configurations This chapter describes how to set up, configure and use the 2Gb SANbloc Series RAID Controller. 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 fibre channel and two device fibre channel interfaces. It is an intelligent, caching controller that supports RAID levels 0, 1, 3, 5, 0+1, and JBOD.
host and device fibre channel input/output processors (IOPs). • 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 power supply, which generates +3.3 Vdc and +2.5 Vdc from +5 Vdc, hot-swap circuits, and battery backup unit (BBU) circuits.
Features of the RAID Controller include: • Main processor coupled with a companion chip • Proprietary XOR engine ASIC that provides data processing XOR function and data cache SDRAM control • Four 2Gb-capable fibre protocol chips for the device and host ports • Dual internal 528 MB/s, 64-bit, 66 MHz PCI buses • 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 failov
• Cache DIMM memory I/O Circuit Board The 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 enclosure • Dual switching power supply for +3.3 V and +2.
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 configuration. The firmware interface is primarily through the PCI interface, but a four-wire serial EEPROM interface can provide power-on initialization.
The main parts of the RAID Controller are described in Figure 4-3. Figure 4-3 Main components of RAID controller 1 2 Status LEDs 3 4 FC Host Connectors (SSF optical) 5 6 7 RS232 HSSDC Connector Ethernet Connection RAID Controller Status LEDs The RAID controller has 7 Status LEDs as shown above. Table 6-1 describes what these LEDs signify. Table 6-1 Controller Status LEDs LED RAID Controller Circuit Boards Description 1 Yellow - Not Ready. Normally Off. Goes On during power up sequence.
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 Series has a unique identifier assigned to it.
1 2 I 0 1 2 0 I Figure 4-4 Location of Enclosure ID Switch Enclosure ID Switch 1 This enclosure ID switch can be set to 0 through 7. The graphic below shows the slot number and location. Slot location when viewed from the front of the enclosure LSM Slot 0 Slot 1 Slot 2 Slot 3 Slot 4 Slot 5 Slot 6 Slot 7 Slot 8 Slot 9 Slot 10 Slot 11 Slot 12 Slot 13 LSM The fourteen disk drive slots (0 to 13), will be assigned an identifier based on the enclosure ID and the slot number as shown in Table 6-2.
Table 6-2 Disk Drive Identifier Table Enclosure ID Drive Slot 0 1 2 3 4 5 6 7 Slot 0 3 18 33 48 63 78 93 108 Slot 1 4 19 34 49 64 79 94 109 Slot 2 5 20 35 50 65 80 95 110 Slot 3 6 21 36 51 66 81 96 111 Slot 4 7 22 37 52 67 82 97 112 Slot 5 8 23 38 53 68 83 98 113 Slot 6 9 24 39 54 69 84 99 114 Slot 7 10 25 40 55 70 85 100 115 Slot 8 11 26 41 56 71 86 101 116 Slot 9 12 27 42 57 72 87 102 117 Slot 10 13 28
Single RAID Controller Configuration In this configuration only one RAID controller is installed 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 connect the system using a Hub/ Switch. CAUTION: Before working on the enclosure, ensure that antistatic precautions have been taken.
Figure 4-5 Single RAID Controller to Host Connector HBA 1 1 1 2 2 HBA 2 1 2 3 4 5 6 0 I 0 I 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 chained together.
Figure 4-6 Daisy Chaining Single Controller Enclosure I/O Module RAID Controller HBA 1 1 1 2 2 HBA 2 1 2 3 4 5 6 Connect this cable for dual loop operation Link Cable 1 2 I To next enclosure Total of 8 enclosures may be daisy chained together. 0 1 2 0 I Link Cable 0 I 0 I 7 To next enclosure CAUTION: When daisy chaining enclosures, you must ensure that each enclosure has a unique Enclosure ID.
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 connect the system using a Hub/ Switch. CAUTION: Before working on the enclosure, ensure that antistatic precautions have been taken. The minimum requirement is an anti-static wrist strap and grounding wire.
Figure 4-7 Dual RAID Controller Configuration Host A Host B HBA 1 HBA 1 HBA 2 1 2 1 1 2 2 HBA 2 1 2 7 I 0 7 0 3 4 5 6 I 3 4 5 6 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 chained together.
Figure 4-8 Daisy Chaining a Dual Controller Enclosure Host A Host B HBA 1 HBA 1 HBA 2 1 2 1 1 2 2 HBA 2 1 2 I 0 7 0 7 I 3 4 5 6 3 4 5 6 Link Cable 1 2 I To next enclosure Total of 8 enclosures may be daisy chained together. 0 1 2 0 I Link Cable To next enclosure CAUTION: When daisy chaining enclosures, you must ensure that each enclosure has a unique Enclosure ID.
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.
Disk Drive Spin Up Sequence At power on, the LS module will perform its internal start up initialization routine. Then the LS module will assert the disk drive START_1 and START_2 motor start signals low for disk drive slots 7 through 13, which will spin up the first 7 disk drives immediately.
Disk Drive Spin Up Sequence
Chapter 5: System Monitoring This Chapter describes the devices used to monitor the 2Gb SANbloc Series. The location of the monitoring LEDs and how to interpret them 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 LEDs, mounted on all the major components of the enclosure, such as, disk drives, power supplies, Advanced Cooling Modules (ACMs), and RAID Controller.
system. If the active LS Module fails, then the ESI communication with the host system will be taken over by the passive LS Module.
Figure 5-1 Location of 2Gb SANbloc Enclosure LEDs SAN bloc 2 Gb Series 0 1 F 18 F 18 F 18 F 18 F 18 F 18 F 18 F 18 F F 18 18 F 18 F 18 F 18 F 18 0 1 2 2 3 3 4 4 5 5 LED LED LED LED LED LED 0 1 2 3 4 5 0 1 2 3 4 5 Table 5-1 shows the meaning of each of the LEDs, and how to interpret them.
Table 5-1 Enclosure LED Descriptions Description Color Indication LED 0 Power On Green Normally ON, indicates power is applied. OFF indicates no power. LED 1 Shelf Fault Amber Normally OFF indicates no faults 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. LED 2 FC Loop A Green ON indicates FC Loop A closed. OFF indicates FC Loop A open LED 3 FC Loop B Green ON indicates FC Loop B closed.
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 the disk drive, and the bi-colour LED is controlled by the LS Module. The following table shows how to interpret these LEDs.
Figure 5-2 Disk Drive Carrier LEDs BiColor LED (Green/Amber) Disk Drive Ready (Green) F 18 Disk Drive LEDs
Power Supply LEDs The 2Gb SANbloc Series uses two AC power supplies. The AC power supplies provide 853W peak output power and 673W continuous output power. The 2Gb SANbloc Series power supply has two LED 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 normally.
Advanced Cooling Module (ACM) LEDs The 2Gb SANbloc Series has two variable speed fans per advanced cooling module. Each of the two ACMs on the 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.
RAID Controller LEDs The RAID controller has 7 LEDs located and numbered as shown. Figure 5-5 RAID controller LEDs 1 2 Status LEDs 3 4 5 6 7 FC Host Connectors (SSF optical) RS232 HSSDC Connector Ethernet Connection The table below describes the LEDs meaning. Table 5-3 Controller Status LEDs LED Description 1 Yellow - Not Ready. Normally Off. Goes On during power up sequence. 2 Green - Ready. Normally On 3 Green - Dirty Cache. On when there is data in cache. 4 Yellow - BBU Fault.
RAID Controller LEDs
Chapter 6: Installing and Removing Components This Chapter describes the procedures for installing 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.
Location of the Components SAN bloc 2 Gb Series 0 1 F 18 F 18 F 18 F 18 F 18 F F 18 18 F 18 F 18 F 18 F 18 F 18 F F 0 18 18 1 2 2 3 3 4 4 5 5 Disk Drives LS Module LS Module 1 2 I I/O Module/ RAID Controller Location of the Components Power Supplies 0 1 2 0 I ACMs I/O Module/ RAID Controller
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. Installing 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 LEDs are on the top (on the right for desk side systems).
Figure 6-1 Disk Drive Carrier Push locking tab in this direction to open F 18 Cam Lever Installing and Removing a Disk Drive Carrier
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. Installing 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.
Figure 6-2 LS Module Push locking tab in this direction to open 0 1 2 3 4 5 Cam Lever Installing and Removing an 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. Installing 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.
Installing and Removing an Advanced Cooling Module The advanced cooling modules are located in the rear of the enclosure. Follow these procedures to install and remove the advanced cooling modules. Installing an Advanced Cooling Module 1 Select the advanced 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.
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 in the rear of the enclosure. Follow these procedures to install and remove the I/O module. Installing 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).
Installing and Removing an I/O Module/RAID Controller
CAUTION Appendix A: Safety Statement Translations CAUTION: This equipment is intended only for installation in a restricted access location. ACHTUNG: Dieses Gerät sollte nur an einem Ort mit Zugangskontrolle installiert werden. FÖRSIKTIGHET: Denna utrustning får endast installeras på ställe med begränsad åtkomst. VAROITUS: Laitteisto on tarkoitettu asennettavaksi ainoastaan sivullisilta suojattuun paikkaan. FORSIGTIG: Dette udstyr er kun beregnet til installation i et område med begrænset adgang.
CAUTION: Allow disk drives and power supplies to reach CAUTION room ambient temperature before powering on the shelf. ACHTUNG: Ehe Laufwerke und Netzteile an die Stromversorgung angeschlossen werden, sollten sie sich an die Raumtemperatur angepasst haben. FÖRSIKTIGHET: Låt skivdrivenheter och strömtillförsel nå rumstemperatur innan strömförsörjningen slås på.
CAUTION CAUTION: It is recommended that if interconnecting equipment 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 förbindelseutrustning finns i mer än ett utrustningshyllskåp, att dessa hyllskåp ligger på samma jordpotential.
CAUTION 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 sichergestellt werden, dass antistatische Vorsichtsmaßnahmen ergriffen wurden. Mindestanforderung sind ein ordnungsgemäß geerdetes Antistatik-Armband und ein Erdungskabel.
CAUTION trisitet. Minimumskravet er riktig jordet antistatisk håndleddstropp og jordingsledning. 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 when installing a disk shelf. This is necessary to prevent personal injury and damage to the shelf. ACHTUNG:Vor der Installation oder dem Entfernen eines Rackmontagefachs müssen alle Netzteile und Laufwerke entfernt werden.
CAUTION 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.
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 entfernt werden. FÖRSIKTIGHET: Det yttre höljet är inte en utbytbar enhet och skall därför inte avlägsnas från lagringsuppsättningen. VAROITUS: Tornikehys ei ole paikan päällä vaihdettavissa eikä sitä saa poistaa muistijärjestelmästä.
CAUTION 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.
WARNING 93 OBS: Når en LS Module er fjernet, må hullet blokkeres ved å installere en maskeringsplate eller 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 fläktanslutningen.
Appendix B: Technical Specifications Host Interface • One or two Fibre Channel interfaces, 200MB\s each, 400 MB\s total. • External hub and switch support. Disk Drive Interface • Dual independent Fibre Channel interfaces, 200MB\s each, 400MB\s total. System Max drives per enclosure: Up to 14 drives Max drives per subsystem: Up to 112 drives Redundant, Hot Swappable Components • Two power supplies, removable from the rear. • Two advanced cooling modules, removable from the rear.
Physical Dimensions Deskside Enclosure Height: 20 inches (50.8cm) Width: 9 inches (22.9cm) Depth: 20 inches (50.8cm) Weight: 60 lbs (29.5kg) maximum Rack Enclosure Height: 5.22 inches (13.3cm) Width: 17.5 inches (44.5cm) Depth: 20 inches (50.8cm) Weight: 60 lbs (29.
Disk Drives Rotational Velocity: 10K; 15K Form factor: 3.5” Height: 1.0” Interface: Fibre Channel (2Gb FC support) Power Supply AC Power Supply Input Input Voltage: 85 - 264 VAC Current Rating 10 - 5 Amps Input Frequency: 47 - 63 Hz Max. Peak Output Power 853 Watts Max.
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 level. 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.
Regulatory Agency Compliance Product Safety Standards • UL1950 Information Technology Equipment (US) • CSA C22.
Regulatory Agency Compliance
Appendix C: Configuration Loop Diagrams External Loop Diagram for a Single Enclosure System - Single Loop 3 4 5 6 7 8 9 Enclosure ID 0 10 16 15 14 13 12 Circles denote disk drives with drive ID shown.
External Loop Diagram for a Dual Enclosure System - Single Loop 3 4 5 6 8 7 9 Enclosure ID 0 10 16 18 15 19 14 20 13 21 12 11 22 23 24 Enclosure ID 1 25 31 30 29 28 27 Circles denote disk drives with drive ID shown.
External Loop Diagram for a Single Enclosure System - Dual Loop 3 4 5 6 7 8 9 Enclosure ID 0 10 16 15 14 13 12 Circles denote disk drives with drive ID shown.
External Loop Diagram for a Dual Enclosure System - Dual Loop 3 4 5 6 8 7 9 Enclosure ID 0 10 16 18 15 19 14 20 13 21 12 11 22 23 24 Enclosure ID 1 25 31 30 29 28 27 26 Circles denote disk drives with drive ID shown.
Appendix D: Upgrading a 2Gb SANbloc JBOD Array to a RAID Array In this section the procedure for upgrading a 2Gb SANbloc Series Storage Array from a JBOD system to a RAID system is described. The equipment and parts necessary for the upgrade are also described. Equipment and parts necessary for upgrade The following is a list of the equipment and parts required for the upgrade from JBOD to RAID: • Anti-static wrist strap and properly earthed grounding wire. • Phillips head screw driver.
driver. RAID Controller Installed 1 1 2 2 1 2 3 4 5 6 RAID Controller Screws 0 I 0 I 7 5 If you are upgrading to a dual RAID configuration then repeat steps 2 through 4 to install the second RAID controller. 6 Attach the host cable(s) to the host connector on the RAID controller and attach the other end of the cable(s) to your HBA/ hub/switch (refer to Chapter 4 for more details). HBA 1 1 1 2 2 HBA 2 1 2 3 4 5 6 0 I 0 I 7 7 Install the battery backup unit as described below.
Installing the Battery Backup Unit The battery backup unit (BBU) for the RAID controller is installed on the ACM unit (see Figure D-1). Figure D-1 Location of Battery Backup Unit on ACM BBU goes here ACM Assembly Follow this procedure to install the Battery Backup Unit (BBU): 1 Remove the ACM from the enclosure by loosening the two ACM screws and using the handle, slide the ACM out of the enclosure. 2 Lay the ACM on a flat surface as in Figure D-1 above. 3 Orient the BBU as shown (see Figure D-2).
Figure D-2 Installing the BBU BBU Connector Feed cable through hole provided and attach to the connector Tabs Tabs BBU 4 Feed the BBU cable through the hole provided and connect it to the BBU connector (see Figure D-2). 5 Press the BBU into position and secure it by ensuring the four tabs “click” into place. 6 Replace the ACM in the enclosure and tighten the ACM screws to complete the installation.
A advanced cooling module, leds, 72 advanced cooling modules, 21, 81, 82 air flow, 31 ambient temperature, 30 audience, 13 B battery backup unit (BBU) 107 battery backup unit, location 107 C cabling, dual i/o module, 41 circuit overloading, 32 communication, esi, 65 compliance, agency, 99 conventions, 13 current, input, 32 D daisy chaining, 42, 57, 60 dimensions, 96 disk drive spin up sequence 46, 63 disk drive, carrier, 20, 77 disk drive, leds, 69 disk drives, 97 dual i/o module, configuration, 41
loop resiliency and ses module, 65 ls module, 79 M modulo 8 63 monitoring, system, 65, 96 N notification, 96 O S safety statements, 16, 28 safety statements, translations, 28, 85 shock, operational, 98 single i/o module, configuration, 41 single raid controller configuration 56 specifications, technical, 95 spin up sequence 46, 63 support, 5, 14 operating temperature, 30 T P port bypass circuits, 65 power consumption 32 power output 20 power rating, 32 power source 62 power supplies, 20, 81, 97 p
