Page 1 User Guide Ultrastar® Data60 Regulatory Model H4060-J Firmware 4011-005 (SEP), 4.0.111 (OOBM) Document D018-000227-000 Revision 16 April 2025...
Page 2: Table Of Contents
Supported Operating Systems................................9 LEDs............................................. 10 Front and Rear IO LEDs................................10 IOM LEDs......................................13 IOM Fan LED......................................14 PSU LED.........................................15 Rear Fan LED.....................................16 Drive Assembly LED..................................17 Ultrastar Data60 Rack Requirements............................17 Power Requirements....................................19 ESD............................................20 Enclosure Cooling.....................................20 SAS Cabling........................................20 Compatible HDDs..................................... 22...
Page 3 User Guide Table of Contents Compatible SSDs...................................... 37 Chapter 2. Components....................38 Chassis..........................................39 Chassis Specifications................................39 Chassis Layout....................................40 IOM............................................42 IOM Specifications..................................42 IOM Layout......................................43 IOM Blank......................................44 PSU............................................45 Delta PSU......................................46 Artesyn PSU.......................................48 GosPower PSU....................................49 Rear Fan...........................................52 Rear Fan Specifications................................52 Rear Fan Layout....................................53 IOM Fan..........................................54 IOM Fan Specifications................................
Page 4 User Guide Table of Contents 3.5in HDD Assembly Specifications..........................62 3.5in HDD Assembly Layout..............................63 3.5in Drive Blank.....................................64 Chapter 3. Support......................65 Part Replacement Service Window............................66 Multiple CRU Replacements..............................66 IOM Replacement.....................................68 PSU Replacement.....................................72 Rear Fan Replacement..................................76 IOM Fan Replacement..................................80 3.5in HDD Assembly Replacement............................. 82 CMA Replacement....................................
Page 5 User Guide Table of Contents Downgrading Enclosure Firmware—Windows OS....................201 Firmware Auto-Sync.................................... 205 Enabling Auto-Sync.................................. 206 Checking Auto-Sync Status............................... 206 Disabling Auto-Sync................................. 207 OOBM Management Overview..............................207 Configuring OOBM Network Settings Using SES.....................208 Configuring OOBM Static IP Address Using cURL................... 210 Upgrading Firmware with OOBM............................
Page 6 User Guide Table of Contents Cabling for Daisy Chaining..............................263 Chapter 5. Safety......................270 Electrostatic Discharge..................................271 Optimizing Location....................................271 Power Connections....................................271 Power Cords........................................ 271 Rack-Mountable Systems................................272 Safety and Service....................................272 Safety Warnings and Cautions..............................273 Chapter 6. Regulatory.....................274 Country Certifications..................................275 Electromagnetic Compatibility (EMC) Class A Compliance..................275 Restricted Access Location................................
Page 7 User Guide Table of Contents Compatible Rack Hardware Configuration......................296 Rack Safety......................................297 CMA Standard Recommended Racks........................298 CMA Lite Recommended Racks.............................299 Vertical Rack Rail Settings..............................301 Recommended PDUs and Available Installation Space................302 CMA Standard Rack Specifications..........................303 CMA Lite Rack Specifications............................306 Installation......................................309...
Page 8: Revision History
3.5in HDD Assembly Replacement (page 82) • Updated Compatible Drives List. See Compatible HDDs (page 22) • Updated the Rack Requirements. See Ultrastar Data60 Rack April 2018 Requirements (page 17) • Updated the Firmware Upgrades. See: Firmware Upgrade (page 186) Added the Part Replacement Service Window.
Page 9 User Guide Revision History Date Revision Comment • Updated Compatible Drives List. See Compatible HDDs (page 22) • Updated the Firmware Upgrade section. See Firmware Upgrade (page 186) • Updated the Firmware Download section. See Downloading Firmware from the Support Portal (page 186) June 2018 •...
Page 10 Revision History Date Revision Comment Moved the following topics to the Ultrastar Data60Description (page section: • Ultrastar Data60 Rack Requirements (page 17) • Power Requirements (page 19) • ESD (page 20) • Enclosure Cooling (page 20) • SAS Cabling (page 20) July 2019 1.12...
Page 11 User Guide Revision History Date Revision Comment • Updated Supported Operating Systems (page 9) • Updated SAS Cabling (page 20) • Updated Compatible HDDs (page 22) August 2020 1.16 • Added section File-Based Zoning (page 232) • Updated note in about standard vs.
Page 12 User Guide Revision History Date Revision Comment • Added drive model numbers to Compatible HDDs (page 22) • Added footnote to Mechanical Specifications (page 5) that listed weights do not include Components (page 38) accessories or packaging/shipping materials • Reorganized tables in SKUs for Fully-Populated Configurations , SKUs , and SKUs for Scale-Up Modules for Partially-Populated Configurations •...
Page 13 User Guide Revision History Date Revision Comment • Added Taiwan Safety Warnings (page 283) Taiwan RoHS Information (page 288) Regulatory (page 274) • Removed smp command steps from Enabling Zoning using Windows (page 227) Disabling Zoning using Windows (page 229) •...
Page 14 User Guide Revision History Date Revision Comment Made the following changes to support firmware release 4011-005_4.0.111: • Updated firmware version references in Firmware Upgrade and Downgrade Version Information (page 189) Upgrading Enclosure , and Firmware—Linux OS (page 190) Upgrading Enclosure Firmware —Windows OS (page 194) July 2024 •...
Page 15: Notices
Per Western Digital Terms and Conditions of Sale, the user of Western Digital products in life support applications assumes all risk of such use and indemnifies Western Digital against all damages.
Page 16: Points Of Contact
Points of Contact Points of Contact For further assistance with a Western Digital product, contact Western Digital Datacenter Platforms technical support. Please be prepared to provide the following information, as applicable: part number (P/N), serial number (S/N), product name and/or model number, software version, and a brief description of the issue.
Page 17: Chapter 1. Overview
Overview This section provides a high level overview of the features of the Ultrastar Data60 . In This Chapter: - Ultrastar Data60 Description..................2 - System Architecture Overview................... 2 - System Level Block Diagram..................3 - Environmental Specifications..................4 - Electrical Specifications....................5 - Mechanical Specifications....................5...
Page 18: Ultrastar Data60Description
It is capable of hosting up to 60 HDD drives (SAS or SATA). The maximum data storage capacity of the Ultrastar Data60 is 1.56PB using 26TB Ultrastar HC570 drives (For a full list of compatible drives, see ). The enclosure runs on an input voltage of 200-240 VAC and consumes Compatible HDDs (page 22) ~1000W of power under typical conditions.
Page 19: System Architecture Overview
1.2 System Architecture Overview The Ultrastar Data60 IOM uses a cascaded expander design to allow for connection to all 60 drives. A 48-port primary expander connects with the six host ports, has a x3 link to the other IOM for IOM-IOM communication and syncing, and also has a x10 SAS link to each secondary expander.
Page 20: System Level Block Diagram
1. Overview User Guide 1.3 System Level Block Diagram 1.3 System Level Block Diagram The following image shows the system block diagram for the Ultrastar Data60 . Figure 2: System Block Diagram 1.4 Environmental Specifications Table 2: Environmental Specification Specification...
Page 21: Electrical Specifications
PSU) should be no more than the specified maximum input current. The Ultrastar Data60 can only be plugged into high line (200-240 VAC) power. If Caution: the unit is plugged into low line (110-127 VAC), the PSU will report a "Critical" state when status pages are queried using SES.
Page 22: Performance Specifications
1. Overview User Guide 1.7 Performance Specifications Specification Non-Operational Operational W: 447.0 mm x L: 712 mm x H: 174.5 mm Enclosure Dimensions / W: 17.60 in. x L: 28.03 in. x H: 6.87 in. Length of Enclosure w/ 712.0 mm / 28.03 in. o CMA 450 mm (17.72 in.) minimum width, with 465 mm (18.31 in.) ±...
Page 23: Ultrastar Data60 Layout
Table 6: Front and Rear Component Identification Number Component Enclosure Handles CMAs CMA Tray Rear Fans PSUs (Delta PSUs shown) Chassis Cover Rear Cover Alignment Brackets Rails The following is an image of the layout of the major system components inside the Ultrastar Data60 .
Page 24: List Of Customer Replaceable Units (Crus)
The following table lists the replaceable components and their part numbers. Table 7: List of Replaceable Components Component Part Number Ultrastar Data60 Chassis SAS (two IOMs, two Platinum PSUs) 1EX0443 Ultrastar Data60 Chassis SATA (one IOM, two Platinum PSUs) 1EX0442...
Page 25: Supported Operating Systems
Packaging Kit 1EX0582 Warning: Modifying your product or using it contrary to specifications may void the limited warranty. Consult Western Digital’s Limited Warranty for Platform Products for details. 1.10 Supported Operating Systems Table 8: Compatible Operating Systems OS Support 2012...
Page 26: Leds
1.11.1 Front and Rear IO LEDs The Ultrastar Data60 has a number of LEDs on the exterior of the enclosure that display various system statuses. The three LEDs on the front mirror three on the rear, allowing the general status of the enclosure to be determined from either side of the rack.
Page 27 1. Overview User Guide 1.11 LEDs Number LED Name Color Behavior Power Green Solid – Powered On In addition to the three enclosure status LEDs, the rear provides LEDs for the Ethernet and SAS ports. Figure 6: Rear LEDs Location Table 10: Rear LEDs Identification Number LED Name...
Page 28 1. Overview User Guide 1.11 LEDs Number LED Name Color Behavior Ethernet – No Connection Connectors Green – Activity Blink Link/Activity Solid – Connected...
Page 29: Iom Leds
1. Overview User Guide 1.11 LEDs 1.11.2 IOM LEDs The IOM has three LEDs, one each for power, fault, and identification. Figure 7: IOM LEDs Location Table 11: IOM LEDs Identification Number LED Name Color Behavior - Not being identified IOM Identification Blue Blink @ 0.5 Hz (75% duty cycle) –...
Page 30: Iom Fan Led
1. Overview User Guide 1.11 LEDs 1.11.3 IOM Fan LED The IOM Fan has a single LED with three distinct states for fault condition, identification, and power off. Figure 8: IOM Fan LED Location Table 12: IOM Fan LED Identification Number LED Name Color...
Page 31: Psu Led
1. Overview User Guide 1.11 LEDs 1.11.4 PSU LED The PSU has a single, multi-function LED. See the following tables for a detailed functional description. Figure 9: PSU LED Location (Delta PSU shown) Table 13: PSU LED Identification Color Delta Behavior Artesyn Behavior Name Green/...
Page 32: Rear Fan Led
1. Overview User Guide 1.11 LEDs 1.11.5 Rear Fan LED The Rear Fan has a single LED with three distinct states for indicating a fault condition, identification, or normal operation. Figure 10: Fan LED Location Table 14: Fan LED Identification Number LED Name Color...
Page 33: Drive Assembly Led
1. Overview User Guide 1.11 LEDs 1.11.6 Drive Assembly LED The HDD drive assembly itself does not contain an LED, but it instead the multi-function LED is located on the drive slot. This amber LED has three distinct states for indicating a fault condition, identification, or normal operation.
Page 34: Ultrastar Data60 Rack Requirements
The following section provides specific information necessary to install, service, and remove the Ultrastar Data60 . The installation of the Ultrastar Data60 requires two people and a space of 1270mm / 50in. in front of the installation space. The servicing of the enclosure requires one person and a minimum of 863.6mm / 34in.
Page 35: Power Requirements
For more information related to Ultrastar Data60 Rack Configurations see: Rack Configurations (page 296) 1.13 Power Requirements The following table describes the A/C input power specification for the Ultrastar Data60 . Table 17: AC Power Specifications Power Alternating Current (AC) Power Supply (2 per enclosure)
Page 36: Esd
1.16 SAS Cabling The Ultrastar Data60 can use passive cables up to 3m in length, or active cables up to 10m, for SAS connections to the host. All approved passive and active SAS cables are listed in the following tables.
Page 37 Active Cabling Active cables can be used for both direct (host-to-enclosure) and daisy-chain (enclosure-to-enclosure) connections. When daisy-chaining multiple Ultrastar Data60 enclosures together, active cables must be used between enclosures for improved signal integrity. Active Optical SAS cable support is limited to Broadcom 9300-, 9302-, 9305-, Important: 9400-, 9500-, and 9600-series HBAs.
Page 38: Compatible Hdds
1110751003 IOM Ports Based on Number of Cables As a best practice, Western Digital recommends connecting cables to specific SAS connector ports based on the number of cables being used. Please refer to the following table for the recommended ports.
Page 39 1. Overview User Guide 1.17 Compatible HDDs Ultrastar DC HC320 CMR, HDD with 3.5" Drive Carrier Table 22: DC HC320 Part / Model Numbers SATA Sector Size TCG-FIPS 1EX1227 / 1EX1226 / 1EX1223 / 1EX1222 / 1EX1343 / 512e HUS728T8TAL- HUS728T8TAL- HUS728T8TAL- HUS728T8TAL-...
Page 40 1. Overview User Guide 1.17 Compatible HDDs Ultrastar DC HC520 CMR, 12TB HDD with 3.5" Drive Carrier Table 26: DC HC520 Part / Model Numbers SATA Sector Size TCG-FIPS 1EX1015 / 1EX1013 / 1EX1014 / 1EX1009 / 1EX1007 / 1EX1008 / 1EX1338 / 512e HUH721212AL-...
Page 41 1. Overview User Guide 1.17 Compatible HDDs Ultrastar DC HC550 CMR, 18TB HDD with 3.5" Drive Carrier Table 29: DC HC550 Part / Model Numbers SATA Sector Size TCG-FIPS 1EX2481 / 1EX2482 / 1EX2478 / 1EX2479 / 1EX2480 / 512e WUH721818AL- WUH721818AL- WUH721818AL-...
Page 42 1. Overview User Guide 1.17 Compatible HDDs Ultrastar DC HC555 CMR, 20TB HDD with 3.5" Drive Carrier Table 34: DC HC555 Part / Model Numbers SATA Sector Size 1EX3318 / 1EX3317 / 1EX3319 / 512e WUH722020CL-E604 WUH722020CL-5204 WUH722020CL-5201 Ultrastar DC HC560 CMR, 20TB HDD with 3.5"...
Page 43 1. Overview User Guide 1.17 Compatible HDDs Ultrastar DC HC580 CMR, 24TB HDD with 3.5" Drive Carrier Table 39: DC HC580 Part / Model Numbers SATA Sector Size 1EX3171 / 1EX3170 / 512e WUH722424AL-E6L4 WUH722424AL5204 1EX3230 / WUH722424AL5201 Ultrastar DC HC650 SMR, 20TB HDD with 3.5"...
Page 44 1. Overview User Guide 1.17 Compatible HDDs Kernel HBA FW HBA Driver 9500-8e 30.00.00.00 9500-16e 9300-8e 9300-16e 43.00.00.00 9300-4i4e 22.00.00.00 CentOS/RedHat Enterprise 5.14.0.70.13.1 9400-8e Linux (RHEL) 9400-16e 9500-8e 49.00.00.00 30.00.00.00 9500-16e Ultrastar DC HC590 CMR, 24TB HDD with 3.5" Drive Carrier Table 42: DC HC590 Part / Model Numbers SATA Sector Size...
Page 45 1. Overview User Guide 1.17 Compatible HDDs Kernel HBA FW HBA Driver 9600w-16e 9300-8e 9300-16e 43.00.00.00 9300-4i4e 22.00.00.00 9400-8e Ubuntu 22.04 5.15 9400-16e 9500-8e 50.00.00.00 31.00.00.00 9500-16e 9600-16e 8.9.1.0 8.9.1.0.0 9600w-16e 9300-8e 9300-16e 43.00.00.00 9300-4i4e 22.00.00.00 9400-8e CentOS/RedHat Enterprise 5.14.0.70.13.1 9400-16e Linux (RHEL) 9500-8e...
Page 46 1. Overview User Guide 1.17 Compatible HDDs Kernel HBA FW HBA Driver 9600-16e 8.8.1.0.0 8.8.1.0 9600w-16e 9300-8e 9300-16e 43.00.00.00 9300-4i4e 22.00.00.00 9400-8e Ubuntu 20.04 5.4.0-47-generic 9405-16e 9500-8e 50.00.00.00 31.00.00.00 9500-16e 9600-16e 8.9.1.0 8.9.1.0.0 9600w-16e 9300-8e 9300-16e 43.00.00.00 9300-4i4e 22.00.00.00 9400-8e Ubuntu 22.04 5.15 9400-16e...
Page 47 1. Overview User Guide 1.17 Compatible HDDs Ultrastar DC HC670 drives are only compatible with the OSs and HBAs listed in the following table: Kernel HBA FW HBA Driver 9300-8e 9300-16e 43.00.00.00 9300-4i4e 22.00.00.00 9400-8e Ubuntu 18.04 4.15.0-76-generic 9405-16e 9500-8e 47.00.00.00 28.00.00.00 9500-16e...
Page 48 1. Overview User Guide 1.17 Compatible HDDs Kernel HBA FW HBA Driver 9600w-16e Ultrastar DC HC680 SMR, 26TB HDD with 3.5" Drive Carrier Table 48: DC HC680 Part / Model Numbers SATA Sector Size 1EX3172 / WSH722860ALN6L4 Ultrastar DC HC680 drives are only compatible with the OSs and HBAs listed in the following table: Kernel HBA FW HBA Driver...
Page 49 1. Overview User Guide 1.17 Compatible HDDs Kernel HBA FW HBA Driver 9600-16e 8.9.1.0 8.9.1.0.0 9600w-16e 9300-8e 9300-16e 43.00.00.00 9300-4i4e 22.00.00.00 9400-8e CentOS/RedHat Enterprise 5.14.0.70.13.1 9400-16e Linux (RHEL) 9500-8e 50.00.00.00 31.00.00.00 9500-16e 9600-16e 8.9.1.0 8.9.1.0.0 9600w-16e Ultrastar DC HC680 SMR, 27TB HDD with 3.5"...
Page 50 1. Overview User Guide 1.17 Compatible HDDs Kernel HBA FW HBA Driver 9500-16e 9600-16e 8.9.1.0 8.9.1.0.0 9600w-16e 9300-8e 9300-16e 43.00.00.00 9300-4i4e 22.00.00.00 9400-8e Ubuntu 22.04 5.15 9400-16e 9500-8e 50.00.00.00 31.00.00.00 9500-16e 9600-16e 8.9.1.0 8.9.1.0.0 9600w-16e 9300-8e 9300-16e 43.00.00.00 9300-4i4e 22.00.00.00 9400-8e CentOS/RedHat Enterprise...
Page 51 1. Overview User Guide 1.17 Compatible HDDs Kernel HBA FW HBA Driver 9500-8e 28.00.00.00 9500-16e 9600-16e 8.8.1.0.0 8.8.1.0 9600w-16e 9300-8e 9300-16e 43.00.00.00 9300-4i4e 22.00.00.00 9400-8e Ubuntu 20.04 5.4.0-47-generic 9405-16e 9500-8e 50.00.00.00 31.00.00.00 9500-16e 9600-16e 8.9.1.0 8.9.1.0.0 9600w-16e 9300-8e 9300-16e 43.00.00.00 9300-4i4e 22.00.00.00 9400-8e...
Page 52 1. Overview User Guide 1.17 Compatible HDDs Table 54: DC HC690 Part / Model Numbers SATA Sector Size 1EX3272 / 1EX3271 / 1EX3329 / WSH723200ALN604 WSH723200AL4204 WSH723200AL4201 Ultrastar DC HC690 drives are only compatible with the OSs and HBAs listed in the following table: Kernel HBA FW HBA Driver...
Page 53: Compatible Ssds
KPM7XRUG3T84 PM7-M/V/R Series SSD Samsung SAS Up to 3.84TB GXG3 MZILG3T8HCLS-00A07 PM1653A SSD Note: Ultrastar Data60 supports third-party device features that are within SAS specification as mandatory. Any third-party drive features that are vendor specific are not guaranteed to function.
Page 54: In This Chapter
Components This section is intended to give an overview of all of the major components contained within the Ultrastar Data60 . Each section includes specifications, descriptions, and images that explain the features of each component. In This Chapter: - Chassis..........................39 - IOM............................42...
Page 55: Chassis
Figure 13: Ultrastar Data60 Chassis and connects all of the system components of the Ultrastar Data60 . The chassis is comprised of the drive bays that contains all of the system data storage drives and a number of other bays that contain the major system components, such as the PSUs and IOMs.
Page 56: Chassis Layout
2. Components User Guide 2.1 Chassis 2.1.2 Chassis Layout Figure 14: Chassis Component Locations Table 58: Chassis Component Descriptions Number Feature IOM and IOM Fan Bay Drive Bays Chassis Handles Rear Fans Bays PSU Bays IOM A Dual HD-Mini SAS Ports (x6) 1GB Ethernet Port (x1) IOM B Dual HD-Mini SAS Ports (x6) 1GB Ethernet Port (x1)
Page 57 The handles on the front of the chassis are not intended to be used to support the Warning: weight of the Ultrastar Data60 . Lifting the unit by the chassis handles or trying to support the unit on the handles can cause them to fail. This can cause serious damage to the unit or serious bodily harm to those handling the unit.
Page 58: Iom
User Guide 2.2 IOM 2.2 IOM Figure 15: Ultrastar Data60 IOM Each IOM provides system data connectivity through 6 Mini-SAS HD ports, capable of four 12Gbps SAS connections each. The IOMs are N+1 redundant, hot-swappable components. The IOMs are installed into the central bay from the top of the Chassis and connect to the drive board.
Page 59: Iom Layout
2. Components User Guide 2.2 IOM 2.2.2 IOM Layout Figure 16: IOM Component Locations Table 60: IOM Component Descriptions Number Feature IOM Handles Latch Release Internal IO Connector Card Edge Power Receptacle Internal IO Connector...
Page 60: Iom Blank
2.2 IOM 2.2.3 IOM Blank Figure 17: Ultrastar Data60 IOM Blank The IOM Blank is a placeholder component for filling the unused IOM slot in versions of the Ultrastar Data60 that do not leverage redundant IOMs. The IOM Blank must be installed into IOM slot B under all such circumstances.
Page 61: Psu
2. Components User Guide 2.3 PSU 2.3 PSU Your system may contain PSUs from one of two models. Please see the following sections for details on each model: • Delta PSU (page 46) • Artesyn PSU (page 48) • GosPower PSU (page 49)
Page 62: Delta Psu
2.3.1 Delta PSU Figure 18: Ultrastar Data60 Delta PSU The Ultrastar Data60 contains redundant 1600W power supply units (PSUs). Each PSU requires an input voltage between 200 - 240 VAC, is 80 PLUS Platinum certified, and utilizes a C14 power cable receptacle.
Page 63 2. Components User Guide 2.3 PSU 2.3.1.2 Delta PSU Layout Figure 19: PSU Component Locations Table 62: PSU Component Descriptions Number Feature Internal Connector Latch Release Lever C14 Power Receptacle Handle...
Page 64: Artesyn Psu
Figure 20: Ultrastar Data60 Artesyn PSU Attention: This PSU is compatible with Ultrastar Data60 , but is no longer available for order. The Ultrastar Data60 contains redundant 1800W power supply units (PSUs). Each PSU requires an input voltage between 200 - 240 VAC, is 80 PLUS Platinum certified, and utilizes a C14 power cable receptacle.
Page 65 2. Components User Guide 2.3 PSU 2.3.2.2 Artesyn PSU Layout Figure 21: Artesyn PSU Component Locations Table 64: Artesyn PSU Component Descriptions Number Feature Internal Connector Latch Release Lever C14 Power Receptacle Handle...
Page 66: Gospower Psu
2.3.3 GosPower PSU Figure 22: GosPower PSU The Ultrastar Data60 contains redundant Power Supply Units (PSUs). Each PSU requires an input voltage between 200 - 240 VAC. The PSUs are 80 PLUS Titanium certified and utilize C14 power cable receptacles.
Page 67 2. Components User Guide 2.3 PSU 2.3.3.2 GosPower PSU Layout Figure 23: GosPower PSU Component Locations Table 66: GosPower PSU Component Descriptions Number Feature Internal Connector Latch Release Lever C14 Power Receptacle Handle...
Page 68: Rear Fan
Figure 24: Ultrastar Data60 Rear Fan The Rear Fans are toolless modules that provide the primary system cooling for the Ultrastar Data60 . They are attached inside the fan housing at the rear of the chassis by two latches and a 6-pin connector, which also provides power and control signals to the modules.
Page 69: Rear Fan Layout
2. Components User Guide 2.4 Rear Fan 2.4.2 Rear Fan Layout Figure 25: Rear Fan Component Locations Table 68: Rear Fan Component Descriptions Number Feature Latch Releases Internal Power and IO Connector...
Page 70: Iom Fan
2.5 IOM Fan 2.5 IOM Fan Figure 26: Ultrastar Data60 IOM Fan The IOM Fan is designed to focus cooling on the enclosure's IOMs. It is installed into the central bay of the chassis and is accessed from the top of the enclosure through the removable cover. It is attached to the chassis via a toolless release mechanism that allows for easy replacement.
Page 71: Iom Fan Layout
2. Components User Guide 2.5 IOM Fan 2.5.2 IOM Fan Layout Figure 27: IOM Fan Component Locations Table 70: IOM Fan Component Descriptions Number Feature Latch Mechanism Fan Module Internal Connector...
Page 72: Rails
2.6 Rails 2.6 Rails Figure 28: Ultrastar Data60 Rails The Ultrastar Data60 is installed into a rack using a toolless-attach rail system. Each rail is a two- piece assembly, with one rail that attaches directly to the chassis ( inner rail ) and another ( outer rail ) that attaches to the rack.
Page 73: Rails Layout
2. Components User Guide 2.6 Rails 2.6.2 Rails Layout Figure 29: Rails Component Locations Table 72: Rails Component Descriptions Number Features Upper CMA Connector Lower CMA Connector Rear Rack Mounting Bracket Rear Latch Release Inner Rail Front Rack Mounting Bracket and Latch Release...
Page 74: Top Cover Alignment Bracket
The Top Cover Alignment Brackets are designed to keep the top cover of the Chassis in the rack while extending the Ultrastar Data60 out of the rack for servicing. The Top Cover Alignment Brackets attach to the rear vertical rack rails and rest on top of the toolless rail system.
Page 75: Cma
PSU power cord. Each arm is attached to the Ultrastar Data60 by one clip at the elbow and two at the other end. The cables are secured to the arms by plastic clips called baskets that can be opened at the top to adjust, add, or remove cables.
Page 76: Cma Layout
2. Components User Guide 2.8 CMA Specification Value Weight 1.54 kg (0.77 per arm) / 3.4 lbs. (1.7 per arm) 2.8.2 CMA Layout Figure 32: CMA Component Locations Table 75: CMA Component Descriptions Number Feature Crossbar Rail and Rack Connectors Baskets (retain cables) Elbow Connector Listed weight does not include cable tray or packaging/shipping materials.
Page 77: Cma Cable Tray
2. Components User Guide 2.8 CMA 2.8.3 CMA Cable Tray Figure 33: Overview Image The cable management assembly (CMA) comes with an optional tray that is used to support cable loads greater than ten (five per arm). The CMA Cable Tray is mounted at the bottom-rear of the chassis using four M3 x 8mm T10 Torx screws (two per side).
Page 78: In Hdd Assembly
2. Components User Guide 2.9 3.5in HDD Assembly 2.9 3.5in HDD Assembly Figure 34: Ultrastar Data60 3.5in HDD Assembly The 3.5in HDD Assembly is comprised of two parts: the storage drive and the drive carrier. The carrier attaches to the exterior of the data storage drive and caddies the drive into the enclosure. It stabilizes the motion of the drive into the drive bay so that the drive properly mounts onto the drive board.
Page 79: In Hdd Assembly Layout
2. Components User Guide 2.9 3.5in HDD Assembly 2.9.2 3.5in HDD Assembly Layout Figure 35: 3.5in HDD Assembly Component Locations Table 77: 3.5in HDD Assembly Component Descriptions Number Feature Latches Latch Release IO and Power Connectors Drive Carrier Disk Drive...
Page 80: In Drive Blank
2.9 3.5in HDD Assembly 2.9.3 3.5in Drive Blank The 3.5in Drive Blank is a placeholder component Figure 36: Ultrastar Data60 3.5in Drive Blank used to fill empty drive slots in the chassis when an Ultrastar Data60 enclosure is partially populated with drives.
Page 81: Chapter 3. Support
Support In This Chapter: - Part Replacement Service Window................66 - IOM Replacement......................68 - PSU Replacement......................72 - Rear Fan Replacement....................76 - IOM Fan Replacement....................80 - 3.5in HDD Assembly Replacement.................82 - CMA Replacement......................91 - Rails Replacement......................110 - Chassis Replacement....................142 - Special Considerations for Cable Routing............180 - Cabling for CMA......................
Page 82: Part Replacement Service Window
This procedure provides information and instructions for replacing multiple CRUs in a single servicing window. In order to maintain proper airflow for enclosure cooling, the Ultrastar Data60 can be opened for servicing of hot-swap components for a maximum of 5 minutes. If multiple CRUs must be replaced within that servicing window, it is critical to optimize servicing actions to make the best use of that time.
Page 83 3. Support User Guide 3.1 Part Replacement Service Window For replacement of internal CRUs, pull the enclosure out of the rack to allow access to the Step 5 : inside of the enclosure. The enclosure can stay in this position for a maximum of 5 minutes in an ambient temperature of 5°C to 35°C (de-rated for elevation).
Page 84: Iom Replacement
3. Support User Guide 3.2 IOM Replacement 3.2 IOM Replacement Before you begin: Important: Standard zoning methods (i.e. WDDCS Tool, OOBM, sg_senddiag, or SMP zoning commands) require each IOM to be configured individually. After replacing an IOM, zoning should be configured on it before the system is put back into production, otherwise, any host that is booted and has access to that IOM will see all drives.
Page 85 3. Support User Guide 3.2 IOM Replacement a. Locate the latch release on the IOM and press it in the direction shown in the following image. Figure 38: Unlatching the IOM b. Grasp both handles, one handle in each hand, and lift evenly with both hands to ensure the IOM comes out straight.
Page 86 3. Support User Guide 3.2 IOM Replacement Figure 40: Unlatching IOM Handles b. Align the IOM with the empty slot on the top of the chassis so that the arrow on the IOM latch release is facing toward the side shown in the following image. c.
Page 87 3. Support User Guide 3.2 IOM Replacement a. For enclosures running earlier firmware versions, check the fault LEDs on the IOM or on the enclosure's front and rear LED panels to determine if there is a firmware mismatch between the replacement IOM and the IOM that was not replaced. b.
Page 88: Psu Replacement
3. Support User Guide 3.3 PSU Replacement 3.3 PSU Replacement This procedure provides instructions for replacing both PSUs. Before you begin: Your system may contain different PSU models than those included in the CRU Caution: replacement package. To ensure proper enclosure functionality, both PSUs must be replaced with the PSUs included in the CRU replacement package.
Page 89 3. Support User Guide 3.3 PSU Replacement Figure 43: CMA(s) in service position (Cables not shown) Locate the faulty PSU by finding the amber LED illuminated at the rear of the enclosure. Step 2 : Step 3 : Detach the cable retention mechanism. Figure 44: Clip-Style Cable Retention Figure 45: Strap-Style Cable Retention Step 4 :...
Page 90 3. Support User Guide 3.3 PSU Replacement Figure 46: Uninstalling the PSU (Delta PSU shown) Step 6 : Remove the new PSU from its packaging. Step 7 : Install the PSU. a. Align the PSU in the orientation shown in the following image, and slide the PSU into the slot until it seats fully into the chassis.
Page 91 3. Support User Guide 3.3 PSU Replacement Figure 48: Clip-Style Cable Retention For PSUs with the strap-style retention mechanism, secure the power cable to the PSU handle with the hook-and-loop strap as shown in the following image. Figure 49: Strap-Style Cable Retention Step 8 : Ensure that the PSU's status LED is solid green, indicating the PSU is on and reporting no faults.
Page 92: Rear Fan Replacement
3. Support User Guide 3.4 Rear Fan Replacement 3.4 Rear Fan Replacement Before you begin: Note: Mark or label the old fans prior to removing them, to ensure that all 4 are replaced. Caution: All four enclosure fans must be replaced with the fans included in the CRU replacement package.
Page 93 3. Support User Guide 3.4 Rear Fan Replacement Figure 51: CMA(s) in service position (Cables not shown) To unlatch the rear fan from the fan housing, use one hand to press the clip at the top and Step 2 : bottom of the fan and pull to free it from the chassis and remove it.
Page 94 3. Support User Guide 3.4 Rear Fan Replacement Figure 52: Uninstalling the Rear Fan Step 3 : Uninstall the remaining fans. Step 4 : Install Rear Fan a. Orient the rear fan as shown in the following image. b. Insert the rear fan into the housing as shown in the following image.
Page 95 3. Support User Guide 3.4 Rear Fan Replacement Figure 53: Installing the Rear Fan Step 5 : Install the remaining fans. Step 6 : Make sure the CMA(s) is in operational position by folding the arm(s) in toward the enclosure and attaching the elbow end(s) to the connector(s) attached to the rail. Verify that all of the cabling is in functional order and does not bind or catch.
Page 96: Iom Fan Replacement
3. Support User Guide 3.5 IOM Fan Replacement 3.5 IOM Fan Replacement Replacement Requirements Personnel Required Avg. Replacement Time 1 min Max Replacement Time 5 min Required / Tools Qty. Needed Recommended None Step 1 : Grasp both handles at the front of the enclosure and pull with even pressure to extend the chassis out of the rack until it is stopped by the safety latches.
Page 97 3. Support User Guide 3.5 IOM Fan Replacement Figure 55: Removing IOM Fan Install the IOM Fan. Step 3 : a. Align the IOM Fan as shown in the following image. Figure 56: Installing the IOM Fan b. Pinch the latch release mechanism slightly and carefully lower the IOM Fan into the slot. Step 4 : Push the enclosure back into the rack to ensure proper cooling.
Page 98: In Hdd Assembly Replacement
3. Support User Guide 3.6 3.5in HDD Assembly Replacement 3.6 3.5in HDD Assembly Replacement Replacement Requirements Personnel Required Avg. Replacement Time 1 min Max Replacement Time 5 min Required / Tools Qty. Needed Recommended None Step 1 : Grasp both handles at the front of the enclosure and pull with even pressure to extend the chassis out of the rack until it is stopped by the safety latches.
Page 99 3. Support User Guide 3.6 3.5in HDD Assembly Replacement Figure 58: HDD Assembly LED Step 3 : Follow these steps to remove a 3.5in HDD Assembly. a. Find the latch release mechanism on the 3.5in HDD Assembly being removed. b. Insert a finger and a thumb into the latch release and pinch to unlatch the 3.5in HDD Assembly.
Page 100 3. Support User Guide 3.6 3.5in HDD Assembly Replacement Figure 60: Removing 3.5in HDD Assembly Step 4 : Remove the new 3.5in HDD Assembly from its packaging.
Page 101 3. Support User Guide 3.6 3.5in HDD Assembly Replacement Installing the 3.5in HDD Assembly When installing drives, populate the enclosure from left-to-right, rear-to-front. For Note: example, begin with slot 48 (as shown in the following diagram), continue through 59, then proceed with 36 through 47, and so on: Figure 61: Drive Layout...
Page 102 3. Support User Guide 3.6 3.5in HDD Assembly Replacement When installing drives, ensure that the LED pointer on the top of the drive carrier points Note: toward the front of the enclosure, as shown in the following image: Figure 62: LED Pointer Orientation Caution: To ensure proper airflow for enclosure cooling, all drive slots must be populated with either drives or drive blanks.
Page 103 3. Support User Guide 3.6 3.5in HDD Assembly Replacement Figure 63: Inserting a 3.5in HDD Assembly Lower the drive until the spring-loaded posts on the carrier contact the top edges of the drive Step 8 : slot. This is an intermediate position; the drive assembly will be fully seated later on.
Page 104 3. Support User Guide 3.6 3.5in HDD Assembly Replacement Figure 64: Intermediate Install Position Step 9 : Repeat this intermediate installation for the remaining drive assemblies, populating the enclosure from left-to-right, rear-to-front. For example, begin at drive slot 90 and proceed through 101. Then continue with 78 through 89, and so on.
Page 105 3. Support User Guide 3.6 3.5in HDD Assembly Replacement Figure 66: Seating the 3.5in HDD Assembly Figure 67: Grommet and Latch Pin Identification View the enclosure from the side to make sure all drive assemblies are flush. Step 11 :...
Page 106 3. Support User Guide 3.6 3.5in HDD Assembly Replacement Figure 68: Verify Drive Assemblies Flush Step 12 : Repeat this action to fully install the remaining drive assemblies in the same order, from left-to- right, rear-to-front. Step 13 : Push the enclosure back into the rack to ensure proper cooling.
Page 107: Cma Replacement
3. Support User Guide 3.7 CMA Replacement 3.7 CMA Replacement Replacement Requirements Personnel Required Avg. Replacement Time Max Replacement Time Tools Required / Recommended # 2 Philips Screwdriver Required Cable Ties (for configurations with greater than 10 total cables) Recommended Tape Measure Recommended Low-Profile M4 x 3.2mm Philips screws...
Page 108 3. Support User Guide 3.7 CMA Replacement Figure 70: Clip-Style Cable Retention Figure 71: Strap-Style Cable Retention c. Power down the enclosure by disconnecting both power cables, one from each PSU. Step 3 : Disconnect the remaining cables from the enclosure. Step 4 : Uncable the CMA(s).
Page 109 3. Support User Guide 3.7 CMA Replacement Figure 72: Open Baskets b. Remove one cable from the CMA at a time making sure not to put too much strain on the arm. c. Repeat these steps to remove the cables from the second arm. Step 5 : Unlatch all of the connectors that attach the CMA(s) to the enclosure and the rail by locating the latch release button and pressing it from either side of the latch.
Page 110 3. Support User Guide 3.7 CMA Replacement Figure 74: Chassis Handle Operation Follow these steps to remove a 3.5in HDD Assembly. Step 7 : a. Find the latch release mechanism on the 3.5in HDD Assembly being removed. b. Insert a finger and a thumb into the latch release and pinch to unlatch the 3.5in HDD Assembly.
Page 111 3. Support User Guide 3.7 CMA Replacement Figure 76: Removing 3.5in HDD Assembly Step 8 : Follow the previous step for each drive in the enclosure. Attach a label or mark the drives with the drive slot they were removed from in order to add them to the same slot in the future. Store the drives in an ESD safe location until the drives are ready to be installed back into an enclosure.
Page 112 The handles on the front of the chassis are not intended to be used to support the weight of the Ultrastar Data60 . Lifting the unit by the chassis handles or trying to support the unit on the handles can cause them to fail.
Page 113 The handles on the front of the chassis are not intended to be used to support the weight of the Ultrastar Data60 . Lifting the unit by the chassis handles or trying to support the unit on the handles can cause them to fail. This can cause serious damage to the unit or serious bodily harm to those handling the unit.
Page 114 3. Support User Guide 3.7 CMA Replacement c. Team-lift the enclosure until the inner rails (which are attached to the chassis) align with the extended mid-rails (which are attached to the rack), and guide the inner rails on the chassis to mate with the rack rails.
Page 115 3. Support User Guide 3.7 CMA Replacement The CMA has two arms, labeled "upper" and "lower." The lower arm should Note: have the elbow on the left side and be installed first; the upper arm should have the elbow on the right side and be installed last. a.
Page 116 3. Support User Guide 3.7 CMA Replacement Figure 83: CMA Cable Routing c. Open all of the baskets. Figure 84: Open Baskets...
Page 117 3. Support User Guide 3.7 CMA Replacement d. Connect the Ethernet cable to the Ethernet port, and route the cable through each of the baskets on the arm. e. Connect the SAS cables to the SAS ports, and route them through the baskets one at a time. Make sure to follow the labels to ensure they are connected to the proper ports.
Page 118 Close all of the baskets. k. If the Ultrastar Data60 is being installed in a rack and will subsequently be transported inside that rack, it is important to use the included cable tie to wrap the CMA bundle to ensure it does not get damaged during transport.
Page 119 3. Support User Guide 3.7 CMA Replacement Figure 88: Cover Retention Screws Step 17 : Now that the chassis is installed, test the installation by sliding the enclosure in and out of the rack a minimum of three times. If the enclosure binds, catches, or displays any incorrect motion or behavior repeat the installation.
Page 120 3. Support User Guide 3.7 CMA Replacement Installing the 3.5in HDD Assembly When installing drives, populate the enclosure from left-to-right, rear-to-front. For Note: example, begin with slot 48 (as shown in the following diagram), continue through 59, then proceed with 36 through 47, and so on: Figure 90: Drive Layout...
Page 121 3. Support User Guide 3.7 CMA Replacement When installing drives, ensure that the LED pointer on the top of the drive carrier points Note: toward the front of the enclosure, as shown in the following image: Figure 91: LED Pointer Orientation Caution: To ensure proper airflow for enclosure cooling, all drive slots must be populated with either drives or drive blanks.
Page 122 3. Support User Guide 3.7 CMA Replacement Figure 92: Inserting a 3.5in HDD Assembly Lower the drive until the spring-loaded posts on the carrier contact the top edges of the drive Step 23 : slot. This is an intermediate position; the drive assembly will be fully seated later on.
Page 123 3. Support User Guide 3.7 CMA Replacement Figure 93: Intermediate Install Position Step 24 : Repeat this intermediate installation for the remaining drive assemblies, populating the enclosure from left-to-right, rear-to-front. For example, begin at drive slot 90 and proceed through 101. Then continue with 78 through 89, and so on.
Page 124 3. Support User Guide 3.7 CMA Replacement Figure 95: Seating the 3.5in HDD Assembly Figure 96: Grommet and Latch Pin Identification Repeat this action to fully install the remaining drive assemblies in the same order, from left-to- Step 26 : right, rear-to-front. Now that the drives are installed into the chassis, test the installation by sliding the enclosure Step 27 : in and out of the rack a minimum of three times.
Page 125 3. Support User Guide 3.7 CMA Replacement If the chassis is being installed into a rack that will be shipped fully assembled, you must install Step 28 : eight (four per side) of the included M5 x 12mm T15 Flat Head Torx screws into the two brackets at the front of the chassis in the following locations.
Page 126: Rails Replacement
3. Support User Guide 3.8 Rails Replacement 3.8 Rails Replacement Replacement Requirements 3 Total (2 for Team Personnel Required Lifting Purposes and 1 to Guide and Spot) Avg. Replacement Time ~1 hr Max Replacement Time Tools Required / Recommended Long T15 Torx Screwdriver Required # 2 Philips Screwdriver Required...
Page 127 3. Support User Guide 3.8 Rails Replacement Figure 99: CMA(s) in service position (Cables not shown) Disconnect the Enclosure from power. Step 2 : a. Locate the redundant PSUs at the rear of the enclosure. b. Detach the cable retention mechanism from both power cords. Figure 100: Clip-Style Cable Retention ...
Page 128 3. Support User Guide 3.8 Rails Replacement Figure 101: Strap-Style Cable Retention c. Power down the enclosure by disconnecting both power cables, one from each PSU. Step 3 : Disconnect the HD Mini-SAS cables from the rear of the enclosure by pulling (don't jerk) on the blue tab that is extending outward from the connector.
Page 129 3. Support User Guide 3.8 Rails Replacement There are three total connections that need to be released, one at the elbow and two at the opposite end. b. To release a connector, press the blue latch release button and pull the connector free. Figure 103: Unlatching a CMA Connector Step 7 : Complete the previous step for the second CMA.
Page 130 3. Support User Guide 3.8 Rails Replacement Figure 105: Unlatch Drive Carrier (IOM Not Shown) c. Lift the 3.5in HDD Assembly free from the enclosure. Figure 106: Removing 3.5in HDD Assembly...
Page 131 3. Support User Guide 3.8 Rails Replacement Follow the previous step for each drive in the enclosure. Attach a label or mark the drives with the Step 10 : drive slot they were removed from in order to add them to the same slot in the future. Store the drives in an ESD safe location until the drives are ready to be installed back into an enclosure.
Page 132 The handles on the front of the chassis are not intended to be used to support the weight of the Ultrastar Data60 . Lifting the unit by the chassis handles or trying to support the unit on the handles can cause them to fail.
Page 133 3. Support User Guide 3.8 Rails Replacement Figure 110: Remove Inner Rail b. Locate and unlatch the springlock on the side of the inner rail. Figure 111: Inner Rail Spring Latch c. Slide the inner rail toward the front of the enclosure to unlock it from the pegs that secure it to the sidewall and pull it free.
Page 134 3. Support User Guide 3.8 Rails Replacement Figure 112: Rear Screws Removal Figure 113: Rear Screwplate Removal b. Move to the front of the rack and remove the three screws that hold the latch bracket to the front of the rack using a T15 Torx screwdriver. Be careful, the rack latch bracket will be free once the screws are removed.
Page 135 3. Support User Guide 3.8 Rails Replacement a. From the front of the rack, locate the release clip as shown in the following image. Figure 115: Front Rail Release Clip Operation b. Press the release clip and press lightly toward the rear of the rack to compress the rail clear of the rack post.
Page 136 3. Support User Guide 3.8 Rails Replacement There are Right and Left rails and they must be installed as a set. Each inner Note: rail will read "R" for the right or "L" for the left embossed on the inside. Each outer rail will read "R-Front"...
Page 137 3. Support User Guide 3.8 Rails Replacement Figure 118: Inner Rail Attachment c. Slide the inner rail toward the rear of the chassis to lock it in place. There will be an audible click and the mounting pegs will cover the front part of the keyhole. Figure 119: Slide Inner Rail Caution: When installing the inner rail onto the chassis, make sure to only use...
Page 138 3. Support User Guide 3.8 Rails Replacement Figure 120: Rear Rail Latch Release Latch c. Align the rail on the rack posts at the U-height desired for installation. The bottom of the rail will be the lower most U of the total 4U height. d.
Page 139 3. Support User Guide 3.8 Rails Replacement a. From the rear of the rack, orient the alignment brackets so that the groove that will catch the cover is facing the inside of the rack. Figure 122: Alignment Bracket Groove (highlighted in red) b.
Page 140 3. Support User Guide 3.8 Rails Replacement Option 1 : Using a Long T15 Torx Screwdriver, Option2: Using a Long T15 Torx Screwdriver, install M5 x 12mm T15 Flat Head Torx screws install the screw plate to attach the rear (with washers) to attach the rear cover cover alignment bracket and the rear rail alignment bracket.
Page 141 3. Support User Guide 3.8 Rails Replacement Figure 125: Rack Latch Bracket Installed b. Use 6 of the included M5 x 12mm screws and the T15 Torx screwdriver to install each bracket, 3 screws per bracket. Caution: Always install the top cover onto the enclosure before installing the chassis into a rack.
Page 142 The handles on the front of the chassis are not intended to be used to support the weight of the Ultrastar Data60 . Lifting the unit by the chassis handles or trying to support the unit on the handles can cause them to fail. This can cause serious damage to the unit or serious bodily harm to those handling the unit.
Page 143 3. Support User Guide 3.8 Rails Replacement c. Team-lift the enclosure until the inner rails (which are attached to the chassis) align with the extended mid-rails (which are attached to the rack), and guide the inner rails on the chassis to mate with the rack rails.
Page 144 3. Support User Guide 3.8 Rails Replacement Secure the chassis top cover to the rack using the captive M5 thumb-screws as shown in the Step 25 : following image. Use a T15 Torx screwdriver, and tighten the screws to 3.38-3.61 Nm / 30-32 in- lbf.
Page 145 3. Support User Guide 3.8 Rails Replacement Installing the 3.5in HDD Assembly When installing drives, populate the enclosure from left-to-right, rear-to-front. For Note: example, begin with slot 48 (as shown in the following diagram), continue through 59, then proceed with 36 through 47, and so on: Figure 131: Drive Layout...
Page 146 3. Support User Guide 3.8 Rails Replacement When installing drives, ensure that the LED pointer on the top of the drive carrier points Note: toward the front of the enclosure, as shown in the following image: Figure 132: LED Pointer Orientation Caution: To ensure proper airflow for enclosure cooling, all drive slots must be populated with either drives or drive blanks.
Page 147 3. Support User Guide 3.8 Rails Replacement Figure 133: Inserting a 3.5in HDD Assembly Lower the drive until the spring-loaded posts on the carrier contact the top edges of the drive Step 30 : slot. This is an intermediate position; the drive assembly will be fully seated later on.
Page 148 3. Support User Guide 3.8 Rails Replacement Figure 134: Intermediate Install Position Step 31 : Repeat this intermediate installation for the remaining drive assemblies, populating the enclosure from left-to-right, rear-to-front. For example, begin at drive slot 90 and proceed through 101. Then continue with 78 through 89, and so on.
Page 149 3. Support User Guide 3.8 Rails Replacement Figure 136: Seating the 3.5in HDD Assembly Figure 137: Grommet and Latch Pin Identification Repeat this action to fully install the remaining drive assemblies in the same order, from left-to- Step 33 : right, rear-to-front. Install the CMA(s).
Page 150 3. Support User Guide 3.8 Rails Replacement a. Orient the CMA so that the elbow is on the left hand side. b. Attach all three of the connectors to the brackets on the rails. There should be one at the elbow side and two at the other end.
Page 151 3. Support User Guide 3.8 Rails Replacement Figure 139: CMA Cable Routing c. Open all of the baskets. Figure 140: Open Baskets...
Page 152 3. Support User Guide 3.8 Rails Replacement d. Connect the Ethernet cable to the Ethernet port, and route the cable through each of the baskets on the arm. e. Connect the SAS cables to the SAS ports, and route them through the baskets one at a time. Make sure to follow the labels to ensure they are connected to the proper ports.
Page 153 Close all of the baskets. k. If the Ultrastar Data60 is being installed in a rack and will subsequently be transported inside that rack, it is important to use the included cable tie to wrap the CMA bundle to ensure it does not get damaged during transport.
Page 154 3. Support User Guide 3.8 Rails Replacement Figure 144: Open Baskets a. Connect the Ethernet cable to the Ethernet port on the right hand side of the Ultrastar Data60 and route the cable through each of the baskets on the CMA. b.
Page 155 3. Support User Guide 3.8 Rails Replacement Figure 145: Connected Cable Routing d. Wrap cable tie around the installed cable bundle between the ports and the first basket of the CMA Note: Each cable must be given enough slack at the connector end to operate smoothly.
Page 156 3. Support User Guide 3.8 Rails Replacement Figure 146: Nominal Cable Length at Connectors e. Attach the cable retention mechanism. For PSUs with the clip-style retention mechanism, loop the clip around the power cable and pinch it until the clip catches and locks in place. Then slide the clip forward until it stops near the cable connector.
Page 157 3.8 Rails Replacement Figure 148: Strap-Style Cable Retention f. If the Ultrastar Data60 is being installed in a rack and will subsequently be transported inside that rack, it is important to use the included cable tie to wrap the CMA bundle to ensure it does not get damaged during transport.
Page 158: Chassis Replacement
3. Support User Guide 3.9 Chassis Replacement 3.9 Chassis Replacement Replacement Requirements Personnel Required Avg. Replacement Time 2 hr. Max Replacement Time 2 hr. Tools Required / Recommended Long T15 Torx Screwdriver Required # 2 Philips Screwdriver Required T30 Torx Screwdriver Required Long T10 Torx Screwdriver Required...
Page 159 3. Support User Guide 3.9 Chassis Replacement Figure 150: CMA(s) in service position (Cables not shown) Disconnect the Enclosure from power. Step 2 : a. Locate the redundant PSUs at the rear of the enclosure. b. Detach the cable retention mechanism from both power cords. Figure 151: Clip-Style Cable Retention ...
Page 160 3. Support User Guide 3.9 Chassis Replacement Figure 152: Strap-Style Cable Retention c. Power down the enclosure by disconnecting both power cables, one from each PSU. Step 3 : Disconnect the HD Mini-SAS cables from the rear of the enclosure by pulling (don't jerk) on the blue tab that is extending outward from the connector.
Page 161 3. Support User Guide 3.9 Chassis Replacement There are three total connections that need to be released, one at the elbow and two at the opposite end. b. To release a connector, press the blue latch release button and pull the connector free. Figure 154: Unlatching a CMA Connector Step 7 : Complete the previous step for the second CMA.
Page 162 3. Support User Guide 3.9 Chassis Replacement Figure 156: Crossbar Swinging Out c. Once the crossbar is straight it should easily come free from the mounting bracket. Step 9 : Uninstall the PSU. a. Grasp the PSU handle and release lever in a downward pinching motion to release the latching mechanism.
Page 163 3. Support User Guide 3.9 Chassis Replacement Figure 158: Uninstalling the Rear Fan Step 12 : Grasp both handles at the front of the enclosure and pull with even pressure to extend the chassis out of the rack until it is stopped by the safety latches. The safety latches will prevent the enclosure from coming out of the rack completely and the cover will remain in the rack attached to the rear alignment brackets.
Page 164 3. Support User Guide 3.9 Chassis Replacement Figure 159: Chassis Handle Operation Remove all of the drives from the chassis before uninstalling the chassis. Be prepared to label the Step 13 : drives as they are removed so they can be reinstalled in the same location in the new chassis. Follow these steps to remove a 3.5in HDD Assembly.
Page 165 3. Support User Guide 3.9 Chassis Replacement Figure 161: Removing 3.5in HDD Assembly Step 15 : Follow the previous step for each drive in the enclosure. Attach a label or mark the drives with the drive slot they were removed from in order to add them to the same slot in the future. Store the drives in an ESD safe location until the drives are ready to be installed back into an enclosure.
Page 166 3. Support User Guide 3.9 Chassis Replacement Figure 163: Removing IOM Step 17 : Remove the second IOM. Step 18 : Remove the IOM Fan. a. With one hand, grasp around the center square of the fan housing as shown in the following image.
Page 167 3. Support User Guide 3.9 Chassis Replacement Figure 165: Inner Rail Safety Latch Release Step 20 : Push the chassis back into the rack. Step 21 : Locate the M5 thumb-screws on the top cover of the enclosure that keep it in place when the drawer is extended, and unscrew them using a T15 Torx screwdriver.
Page 168 The handles on the front of the chassis are not intended to be used to support the weight of the Ultrastar Data60 . Lifting the unit by the chassis handles or trying to support the unit on the handles can cause them to fail.
Page 169 3. Support User Guide 3.9 Chassis Replacement Figure 168: Remove Inner Rail b. Locate and unlatch the springlock on the side of the inner rail. Figure 169: Inner Rail Spring Latch c. Slide the inner rail toward the front of the enclosure to unlock it from the pegs that secure it to the sidewall and pull it free.
Page 170 3. Support User Guide 3.9 Chassis Replacement Figure 170: Uninstalling the Cable Tray Always install the top cover onto the enclosure before installing the chassis into a Caution: rack. Not having the top cover installed may damage the alignment brackets. Step 26 : Ensure the top cover is installed.
Page 171 3. Support User Guide 3.9 Chassis Replacement Figure 171: Inner Rail Attachment c. Slide the inner rail toward the rear of the chassis to lock it in place. There will be an audible click and the mounting pegs will cover the front part of the keyhole. Figure 172: Slide Inner Rail Caution: When installing the inner rail onto the chassis, make sure to only use...
Page 172 3. Support User Guide 3.9 Chassis Replacement Figure 173: Cable Tie Mount Location Step 29 : Secure the cable tray onto the enclosure using the included M3 x 8mm T10 Torx screws and the Long T10 Torx Screwdriver. These screws should be tightened to .33-.56 Nm / 3-5 in-lbf. Figure 174: Installing the Cable Tray Extend the mid-rails out of the rack so that they are protruding from the front of the rack and the Step 30 :...
Page 173 3. Support User Guide 3.9 Chassis Replacement Figure 175: Extend Mid-Rails Step 31 : Install the chassis into the rails. a. Extend the bearing plates on the inside of the mid-rails until they are fully forward (detent has engaged). This prevents potential damage due to improper mating of the rails. Figure 176: Bearing Plate...
Page 174 The handles on the front of the chassis are not intended to be used to support the weight of the Ultrastar Data60 . Lifting the unit by the chassis handles or trying to support the unit on the handles can cause them to fail. This can cause serious damage to the unit or serious bodily harm to those handling the unit.
Page 175 3. Support User Guide 3.9 Chassis Replacement Figure 177: Installing the Chassis d. Once the rails are mated properly, slide the enclosure into the rack until it is stopped by the safety catch on the rails. Push the release lever on the safety latch (located on the side of each of the rails), and push the enclosure the rest of the way into the rack.
Page 176 3. Support User Guide 3.9 Chassis Replacement Figure 179: Cover Retention Screws Step 33 : Now that the chassis is installed, test the installation by sliding the enclosure in and out of the rack a minimum of three times. If the enclosure binds, catches, or displays any incorrect motion or behavior repeat the installation.
Page 177 3. Support User Guide 3.9 Chassis Replacement Figure 180: Lower CMA Orientation c. Slowly slide the enclosure forward to ensure the arm is operating properly, then slide it back into the rack. d. CMA Standard: Repeat these steps to install the upper arm with the elbow facing to the right.
Page 178 3. Support User Guide 3.9 Chassis Replacement a. Ensure that the handles on the IOM are not latched. To unlatch them, press the latch release in the direction shown in the following image. Figure 182: Unlatching IOM Handles b. Align the IOM with the empty slot on the top of the chassis so that the arrow on the IOM latch release is facing toward the side shown in the following image.
Page 179 3. Support User Guide 3.9 Chassis Replacement Figure 184: Installing the IOM Fan b. Pinch the latch release mechanism slightly and carefully lower the IOM Fan into the slot. Installing the 3.5in HDD Assembly Note: When installing drives, populate the enclosure from left-to-right, rear-to-front. For example, begin with slot 48 (as shown in the following diagram), continue through 59, then proceed with 36 through 47, and so on: Figure 185: Drive Layout...
Page 180 3. Support User Guide 3.9 Chassis Replacement When installing drives, ensure that the LED pointer on the top of the drive carrier points Note: toward the front of the enclosure, as shown in the following image: Figure 186: LED Pointer Orientation Caution: To ensure proper airflow for enclosure cooling, all drive slots must be populated with either drives or drive blanks.
Page 181 3. Support User Guide 3.9 Chassis Replacement Figure 187: Inserting a 3.5in HDD Assembly Lower the drive until the spring-loaded posts on the carrier contact the top edges of the drive Step 42 : slot. This is an intermediate position; the drive assembly will be fully seated later on.
Page 182 3. Support User Guide 3.9 Chassis Replacement Figure 188: Intermediate Install Position Step 43 : Repeat this intermediate installation for the remaining drive assemblies, populating the enclosure from left-to-right, rear-to-front. For example, begin at drive slot 90 and proceed through 101. Then continue with 78 through 89, and so on.
Page 183 3. Support User Guide 3.9 Chassis Replacement Figure 190: Seating the 3.5in HDD Assembly Figure 191: Grommet and Latch Pin Identification Repeat this action to fully install the remaining drive assemblies in the same order, from left-to- Step 45 : right, rear-to-front. If the chassis is being installed into a rack that will be shipped fully assembled, you must install Step 46 : eight (four per side) of the included M5 x 12mm T15 Flat Head Torx screws into the two brackets...
Page 184 3. Support User Guide 3.9 Chassis Replacement Figure 192: Shipping Bracket Screw Locations Step 47 : Install the PSU. a. Align the PSU in the orientation shown in the following image, and slide the PSU into the slot until it seats fully into the chassis. Figure 193: Installing the PSU b.
Page 185 3. Support User Guide 3.9 Chassis Replacement Figure 194: Clip-Style Cable Retention For PSUs with the strap-style retention mechanism, secure the power cable to the PSU handle with the hook-and-loop strap as shown in the following image. Figure 195: Strap-Style Cable Retention Step 48 : Install the second PSU.
Page 186 3. Support User Guide 3.9 Chassis Replacement Figure 196: Installing the Rear Fan Step 50 : Install the rest of the rear fans into the rear of the enclosure. Step 51 : Install the CMA(s). The CMA has two arms, labeled "upper" and "lower." The lower arm should Note: have the elbow on the left side and be installed first;...
Page 187 3. Support User Guide 3.9 Chassis Replacement Figure 197: Lower CMA Orientation c. Slowly slide the enclosure forward to ensure the arm is operating properly, then slide it back into the rack. d. CMA Standard: Repeat these steps to install the upper arm with the elbow facing to the right.
Page 188 3. Support User Guide 3.9 Chassis Replacement Figure 199: Crossbar Underside Peg c. Swing the crossbar so that the thumbscrew lines up with the mounting hole on the opposite side of the enclosure. Figure 200: Swinging Motion of Crossbar to Locking Position d.
Page 189 3. Support User Guide 3.9 Chassis Replacement Figure 201: Tightening the Thumbscrew e. Check that the crossbar is fully secured to the CMA mounting bracket by pulling on the bar to ensure it does not move. Cable the CMA(s). Step 53 : a.
Page 190 3. Support User Guide 3.9 Chassis Replacement Figure 202: CMA Cable Routing c. Open all of the baskets. Figure 203: Open Baskets...
Page 191 3. Support User Guide 3.9 Chassis Replacement d. Connect the Ethernet cable to the Ethernet port, and route the cable through each of the baskets on the arm. e. Connect the SAS cables to the SAS ports, and route them through the baskets one at a time. Make sure to follow the labels to ensure they are connected to the proper ports.
Page 192 Close all of the baskets. k. If the Ultrastar Data60 is being installed in a rack and will subsequently be transported inside that rack, it is important to use the included cable tie to wrap the CMA bundle to ensure it does not get damaged during transport.
Page 193 3. Support User Guide 3.9 Chassis Replacement Figure 207: Open Baskets a. Connect the Ethernet cable to the Ethernet port on the right hand side of the Ultrastar Data60 and route the cable through each of the baskets on the CMA. b.
Page 194 3. Support User Guide 3.9 Chassis Replacement Figure 208: Connected Cable Routing d. Wrap cable tie around the installed cable bundle between the ports and the first basket of the CMA Note: Each cable must be given enough slack at the connector end to operate smoothly.
Page 195 3. Support User Guide 3.9 Chassis Replacement Figure 209: Nominal Cable Length at Connectors e. Attach the cable retention mechanism. For PSUs with the clip-style retention mechanism, loop the clip around the power cable and pinch it until the clip catches and locks in place. Then slide the clip forward until it stops near the cable connector.
Page 196: Special Considerations For Cable Routing
3.10 Special Considerations for Cable Routing Figure 211: Strap-Style Cable Retention f. If the Ultrastar Data60 is being installed in a rack and will subsequently be transported inside that rack, it is important to use the included cable tie to wrap the CMA bundle to ensure it does not get damaged during transport.
Page 197 3. Support User Guide 3.10 Special Considerations for Cable Routing Figure 212: Nominal Cable Length at Connectors The cables at the port side of the CMA should crisscross in front of the IOMs. To accomplish this, the cables connected to the ports for IOM B (right hand side when facing the rear) should be connected to the upper CMA, and the cables connected to the ports for IOM A (left hand side when facing the rear) should be connected to the lower CMA.
Page 198: Cabling For Cma
3. Support User Guide 3.11 Cabling for CMA When the cables are routed into the CMA, make sure there is some slack given to the elbow joint of the CMA. It is recommended not to wrap the cables tightly around this joint because this can cause binding and prevent smooth operation.
Page 199: Before You Begin
3. Support User Guide 3.11 Cabling for CMA 3.11.1 Before You Begin The cable configurations detailed in this section are intended to provide the optimal setup for your specific configuration. During the cabling of the CMA, the HD Mini-SAS and SFP+ cables should be installed into the CMA first, followed by Ethernet cables, and finally the power cables on top.
Page 200 3. Support User Guide 3.11 Cabling for CMA 3.11.2.1 SFP+ and HD Mini-SAS Cable Configuration This configuration includes the use of up to four SFP+ and two HD Mini-SAS cables installed into a CMA arm. Figure 217: Service Loop Dimension Figure Table 96: Service Loop Dimension Table 6in.
Page 201: Chapter 4. Management
Management In This Chapter: - Management Overview....................186 - Firmware Upgrade....................... 186 - Firmware Features Overview...................188 - Enclosure Firmware Upgrade and Downgrade..........189 - Firmware Auto-Sync....................205 - OOBM Management Overview................207 - SES Page 02........................212 - Zoning..........................213 - Subenclosure Nickname..................242 - Partially Populated Enclosures................
Page 202: Management Overview
4.1 Management Overview 4.1 Management Overview This section provides an overview of the system management features available in the Ultrastar Data60 through the in-band SAS connections using SG3_utils software, and out-of-band using a REST interface over HTTPS to access Western Digital's implementation of the DMTF Redfish API.
Page 203 4.2 Firmware Upgrade The support portal will appear. Click the Downloads option from the top banner. Step 2 : The Western Digital downloads page will appear. Choose a product from the Select Product dropdown list. Step 3 : Note: Filenames will vary, depending on the options chosen from the Select Product section.
Page 204: Firmware Features Overview
SEP. The SEP operates in a dual IOM environment. To a host server, the SEP exists as a dual ported SAS device, one port on each IOM. The firmware on the Ultrastar Data60 provides an Active/Active architecture for IOM redundancy. This allows each IOM to independently report the enclosure status information such as drive power, fan speed, and LED states.
Page 205: Enclosure Firmware Upgrade And Downgrade
4.4 Enclosure Firmware Upgrade and Downgrade This section provides information on actions that should be taken before starting a firmware upgrade or downgrade on the Ultrastar Data60 . Devices (<dev>) In order to initiate a firmware upgrade on the enclosure, a target must be identified. Linux targets are referred to as sg (SCSI Generic) devices and appear as <dev>...
Page 206: Upgrading Enclosure Firmware-Linux Os
Warning: event, and the drives will be disabled during this process. Connect the Ultrastar Data60 to a standard SAS HBA or a RAID SAS HBA hosted on the Linux Step 1 : Server that presents the Enclosure Services Processor to the Linux operating system. The Enclosure Services Processor in the Ultrastar Data60 will be referred to as an IOM.
Page 207 Step 5 : Check the current expander firmware and the OOBM versions. wddcs <device> rcli "show enc" wddcs <version> Copyright (c) 2019-2021 Western Digital Corporation or its affiliates Device: <device> Enclosure Information (IOM A) ENCL CONFIG : 4U60 PARTNUM : 1ES1049-A5...
Page 208 Only one enclosure may be upgraded at a time. a. Initiate the upgrade by issuing the following command: ./Ultrastar_Data60_102_FWUpdate -f HGST_Ultrastar-DATA60-DATA102- Server60-8_SEP_bundle_<FW Version>.tar.gz Ultrastar_Data60_102_FWUpdate v1.0.0 Copyright (c) 2022-2023 Western Digital Corporation or its affiliates Logfile = Ultrastar_Data60_102_FWUpdate_2023_1_12_8_50_23.txt <FW Target File = HGST_Ultrastar-DATA60-DATA102-Server60-8_SEP_bundle_ Version>...
Page 209 Use the WDDCS Tool to verify that the SEP and OOBM firmware has been upgraded to the preferred version of firmware and is running on all expanders. # wddcs rcli "show enc" wddcs v2.0.6.0 Copyright (c) 2019-2021 Western Digital Corporation or its affiliates Device: <device> Enclosure Information (IOM A) ENCL CONFIG : 4U60...
Page 210: Upgrading Enclosure Firmware-Windows Os
Step 1 : Connect the Ultrastar Data60 to a standard SAS HBA or a RAID SAS HBA hosted on the Windows Server that presents the Enclosure Services Processor to the operating system. The Enclosure Services Processor in the Ultrastar Data60 will be referred to as an IOM.
Page 211 4. Management User Guide 4.4 Enclosure Firmware Upgrade and Downgrade Enclosure Information (IOM A) ENCL CONFIG : 4U60 PARTNUM : 1ES1049-A5 SERIAL : USWSJ01119EZ002C IOM A PARTNUM : 1EB1049-A2 SERIAL : THCLS00719EG005E FW(PRI) : xxxx-xxx FW(SEC1) : xxxx-xxx FW(SEC2) : xxxx-xxx FW(OOBM) : x.x.x MAC : 00:0C:CA:08:1E:B1 IP ADDR : xx.xxx.xxx.214...
Page 212 Only one enclosure may be upgraded at a time. Note: a. Initiate the upgrade by issuing the following command: ./Ultrastar_Data60_102_FWUpdate -f HGST_Ultrastar-DATA60-DATA102- Server60-8_SEP_bundle_<FW Version>.tar.gz. Ultrastar_Data60_102_FWUpdate v1.0.0 Copyright (c) 2022-2023 Western Digital Corporation or its affiliates Logfile = Ultrastar_Data60_102_FWUpdate_2023_1_12_8_50_23.txt Target File = HGST_Ultrastar-DATA60-DATA102-Server60-8_SEP_bundle_ <FW Version> .tar.gz <path to firmware files>...
Page 213 4. Management User Guide 4.4 Enclosure Firmware Upgrade and Downgrade Enclosure Information (IOM A) ENCL CONFIG : 4U60 PARTNUM : 1ES1049-A5 SERIAL : USWSJ01119EZ002C IOM A PARTNUM : 1EB1049-A2 SERIAL : THCLS00719EG005E FW(PRI) : <version> FW(SEC1) : <version> FW(SEC2) : <version> FW(OOBM) : <version>...
Page 214: Downgrading Enclosure Firmware-Linux Os
Step 1 : Connect the Ultrastar Data60 to a standard SAS HBA or a RAID SAS HBA hosted on the Linux Server that presents the Enclosure Services Processor to the Linux operating system. The Enclosure Services Processor in the Ultrastar Data60 will be referred to as an IOM.
Page 215 Perform the downgrade on the enclosure. Note: One enclosure may be downgraded at a time. a. Initiate the downgrade by issuing the following command: ./Ultrastar_Data60_102_FWUpdate -f HGST_Ultrastar-DATA60-DATA102- Server60-8_SEP_bundle_<FW Version>.tar.gz. Ultrastar_Data60_102_FWUpdate v1.0.0 Copyright (c) 2022-2023 Western Digital Corporation or its affiliates Logfile = Ultrastar_Data60_102_FWUpdate_2023_1_12_8_50_23.txt...
Page 216 Step 7 : preferred version of firmware and is running on all expanders. # wddcs rcli "show enc" wddcs v2.0.6.0 Copyright (c) 2019-2021 Western Digital Corporation or its affiliates Device: <device> Enclosure Information (IOM A) ENCL CONFIG : 4U60 PARTNUM : 1ES1049-A5...
Page 217: Downgrading Enclosure Firmware-Windows Os
Step 2 : Connect the Ultrastar Data60 to a standard SAS HBA or a RAID SAS HBA hosted on the Windows Server that presents the Enclosure Services Processor to the operating system. The...
Page 218 Step 4 : Input the sg_scan -s command to find the IOM devices to ensure that they can be accessed. If the Ultrastar Data60 is connected to an HBA that does not present the Note: Enclosure Services Processor to the host for management purposes, Western Digital recommends attaching the Ultrastar Data60 to a host that does expose the Enclosure Services Processor so that the upgrade may be performed.
Page 219 One enclosure may be downgraded at a time. a. Initiate the downgrade by issuing the following command: ./Ultrastar_Data60_102_FWUpdate -f HGST_Ultrastar-DATA60-DATA102- Server60-8_SEP_bundle_<FW Version>.tar.gz. Ultrastar_Data60_102_FWUpdate v1.0.0 Copyright (c) 2022-2023 Western Digital Corporation or its affiliates Logfile = Ultrastar_Data60_102_FWUpdate_2023_1_12_8_50_23.txt <FW Target File = HGST_Ultrastar-DATA60-DATA102-Server60-8_SEP_bundle_ Version>...
Page 220 Step 9 : preferred version of firmware and is running on all expanders. # wddcs rcli "show enc" wddcs v2.0.6.0 Copyright (c) 2019-2021 Western Digital Corporation or its affiliates Device: <device> Enclosure Information (IOM A) ENCL CONFIG : 4U60 PARTNUM : 1ES1049-A5...
Page 221: Firmware Auto-Sync
4. Management User Guide 4.5 Firmware Auto-Sync PARTNUM : 1ES1049-A5 SERIAL : USWSJ01119EZ002C IOM A PARTNUM : 1EB1049-A2 SERIAL : THCLS00719EG005E FW(PRI) : <version> FW(SEC1) : <version> FW(SEC2) : <version> FW(OOBM) : <version> MAC : 00:0C:CA:08:1E:B1 IP ADDR : xx.xxx.xxx.214 IOM B PARTNUM : 1EB1049-A2 SERIAL : THCLS00719EG0090...
Page 222: Enabling Auto-Sync
4. Management User Guide 4.5 Firmware Auto-Sync Restrictions • Auto-Sync will not be operational when a manual firmware upgrade is in progress. • Manual firmware upgrade will not be available when an Auto-Sync firmware upgrade is in progress. 4.5.1 Enabling Auto-Sync Step 1 : Follow the instructions in the Firmware Upgrade (page 186)
Page 223: Disabling Auto-Sync
4. Management User Guide 4.5 Firmware Auto-Sync number of secondary subenclosures: 0 generation code: 0x0 subenclosure identifier: 0 [primary] No download microcode operation in progress download microcode status: [0x0] download microcode additional status: 0x0 download microcode maximum size: 1703914 bytes download microcode expected buffer id: 0x0 download microcode expected buffer id offset: 0 When the mismatch is detected and the syncing has begun, the...
Page 224: Oobm Management Overview
4.6 OOBM Management Overview 4.6 OOBM Management Overview The Ultrastar Data60 uses an implementation of DMTF Redfish for out-of-band system management. All the SES enclosure information can be obtained through the out-of-band management port using RESTful API calls to the management port over HTTPS. The OOBM ports are configured for DHCP by default.
Page 225 4. Management User Guide 4.6 OOBM Management Overview To change the OOBM network configuration on IOM A to DHCP : sg_wr_mode /dev/sg3 --dbd --page=0x23,0x01 -- contents=e3,01,00,1A,01,00,00,00,01,00,00,00,00,00,00,00, 00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00 Device = /dev/sg3 • = 01 (IOM A) • Setting = 01 (DHCP) •...
Page 226: Configuring Oobm Static Ip Address Using Curl
4. Management User Guide 4.6 OOBM Management Overview 00,00,00,00,C0,A8,00,0A,FF,FF,FF,00,C0,A8,00,01 <dev> The result, when IOM B is not booting (no IP): e3,01,00,30,03,00,00,00,00,00,00,00,C0,A8,00,0A,FF,FF,FF,00,C0,A8,00,01, 00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00 <dev> Note: Setting an invalid gateway will result in that field being zeroed-out. 4.6.2 Configuring OOBM Static IP Address Using cURL This procedure provides instructions for assiging a static IP address to the OOBM network interface using a cURL command.
Page 227: Upgrading Firmware With Oobm
If applicable, repeat these steps to set the OOBM IP address for the second I/O module. 4.6.3 Upgrading Firmware with OOBM This procedure provides instructions for upgrading the firmware of the Ultrastar Data60 using the OOBM API. Open a web browser, go to: , and download the firmware Step 1 :...
Page 228 4. Management User Guide 4.6 OOBM Management Overview {"ImageURI": "tftp://<tftp IP address>/HGST_Ultrastar-DATA60-DATA102- Server60-8_SEP_bundle_3010-007_3.1.11.tar.gz"} Windows Example: {\"ImageURI\":\"https://<https IP address>/HGST_Ultrastar-DATA60-DATA102- Server60-8_SEP_bundle_3010-007_3.1.11.tar.gz\"} Step 4 : To check the status of this process, make a GET request to the following target: This command may need to be issued multiple times until it reports a Note: completed status.
Page 229: Ses
Portal (page 186) 4.8.2 Predefined Zoning Configurations There are four predefined zoning configurations for the Ultrastar Data60 . Each configuration connects a different number of host ports to a set number of drives, called a zone group. This section provides information about each of the predefined zoning configurations.
Page 230 4. Management User Guide 4.8 Zoning /redfish/v1/Systems/Self/Storage/<Enclosure Logical ID>/Actions/Storage.Zoning { "ZoningConfig": "0" } cURL POST: curl -X POST -k -u admin:admin -H "Content-type: application/json" https://<IP Address>/redfish/v1/Systems/Self/Storage/<Enclosure Logical ID>/Actions/ Storage.Zoning -d '{"ZoningConfig" : "0"}' Figure 224: Configuration 0 There is no SAS cable connection table for this configuration, because the host servers do not rely on specific ports to see specific drives and drive slots.
Page 231 4. Management User Guide 4.8 Zoning • In-band management : Configuration 1 can be initiated in-band with the command by sg_senddiag passing as the zoning configuration option. See: sg_senddiag Command (page 220) for the actual senddiag command. • Out-of-band management : Configuration 1 can be initiated out-of-band by passing as the option for each IOM.
Page 232 4. Management User Guide 4.8 Zoning Table 99: SAS Cable Connections for Configuration 1 Host Enclosure IOM SAS Port Host 1 Host 2 Host 3 Host 4 Host 5 Host 6 Configuration 2 Configuration 2 allows up to three redundantly configured hosts to view a specific zone group of drives. Each host will be able to view up to 20drives that are mapped to both IOMs.
Page 233 4. Management User Guide 4.8 Zoning Figure 226: Configuration 2 Connect the host servers to the enclosure using SAS cables in the configuration listed in the table below. The left side of the table displays the host number, and the right side displays the appropriate IOM SAS ports on the enclosure for that host.
Page 234 4. Management User Guide 4.8 Zoning Host Enclosure IOM SAS Port Configuration 3 Configuration 3 allows up to two redundantly configured hosts to view a specific zone group of drives. Each host will be able to view up to 30 drives that are mapped to both IOMs. Each zone group will display all of the devices that are contained within that zone.
Page 235 4. Management User Guide 4.8 Zoning Figure 227: Configuration 3 Connect the host servers to the enclosure using SAS cables in the configuration listed in the table below. The left side of the table displays the host number, and the right side displays the appropriate IOM SAS ports on the enclosure for that host.
Page 236: Sg_Senddiag Command
IOMs on the enclosure. When the IOM SAS Address is applied to the string, each pair of characters should be offset by a comma. 4.8.4 Enabling Zoning using Linux From the host server, identify the sg devices that are associated with the Ultrastar Data60 Step 1 : IOMs.
Page 237 4. Management User Guide 4.8 Zoning b. From the output, identify the device handles (bolded in the following example): /dev/sg<dev>: scsi9 channel=0 id=43 lun=0 HGST H4060-J 3010 [rmb=0 cmdq=1 pqual=0 pdev=0xd] /dev/sg<dev>: scsi9 channel=0 id=196 lun=0 HGST H4060-J 0101 [rmb=0 cmdq=1 pqual=0 pdev=0xd] c.
Page 238 4. Management User Guide 4.8 Zoning sg_senddiag <a> --pf --raw=04,00,00,90,<b>,<c>,00,00,<d> a. sg device (<dev>): device associated with IOM A b. Enable Zoning: 61 c. Zoning Configuration: configuration 01, 02, or 03 Note: For information on preconfigured zoning configurations, see: Predefined Zoning Configurations (page 213) d.
Page 239 4. Management User Guide 4.8 Zoning b. Enabling a predefined zoning configuration will reset the SAS connector ports which may cause the sg_senddiag command to return a status of DID_TIME_OUT or DID_SOFT_ERROR. Despite the error, the zoning configuration will be enabled. The zoning configuration can be verified after both IOMs have been zoned.
Page 240: Disabling Zoning Using Linux
9, PHYs 14-27 as being in zone group 10, and so on. 4.8.5 Disabling Zoning using Linux Step 1 : From the host server, identify the sg devices that are associated with the Ultrastar Data60 IOMs. a. Issue the following command: sg_scan -i | grep -i H4060-J -B 1 b.
Page 241 4. Management User Guide 4.8 Zoning Addressed logical unit: designator type: NAA, code set: Binary 0x5000ccab0300003c Target port: designator type: NAA, code set: Binary transport: Serial Attached SCSI Protocol (SPL-4) 0x5000ccab0300003c designator type: Relative target port, code set: Binary transport: Serial Attached SCSI Protocol (SPL-4) Relative target port: 0x1 Target device that contains addressed lu: designator type: NAA,...
Page 242 4. Management User Guide 4.8 Zoning For information on preconfigured zoning configurations, see: Note: Predefined Zoning Configurations (page 213) d. IOM SAS Address: SAS Address associated with IOM B Note: A comma should be placed after each bit of data in the IOM SAS Address that was recorded.
Page 243: Enabling Zoning Using Windows
Note: Repeat this substep for all hosts. 4.8.6 Enabling Zoning using Windows From the host server, identify the SCSI devices associated with the Ultrastar Data60 IOMs. Step 1 : Note: The operating system associates each SEP device as a SCSI device. The SCSI device of the SEP can be used to get status from or control elements within the enclosure.
Page 244 4. Management User Guide 4.8 Zoning sg_vpd <dev> -p0x83 b. Identify and match the IOM SAS address and sg device for both IOMs from the output. Each address appears bolded in the example below. Addressed logical unit: designator type: NAA, code set: Binary 0x5000ccab0300003c Target port:...
Page 245: Disabling Zoning Using Windows
Host_status=0x03 [DID_TIME_OUT] Driver_status=0x00 [DRIVER_OK] 4.8.7 Disabling Zoning using Windows Step 1 : From the host server, identify the SCSI devices that are associated with the Ultrastar Data60 IOMs. Note: The operating system associates each SEP device as a SCSI device. The SCSI device of the SEP can be used to get status from or control elements within the enclosure.
Page 246 4. Management User Guide 4.8 Zoning a. Issue the following command: sg_scan -s | findstr /i H4060-J b. Identify the SCSI devices from the output. The device information follows SCSI0 . SCSI0<dev> claimed=0 pdt=dh HGST H4060-J 0101 0428 SCSI0<dev> claimed=0 pdt=dh HGST H4060-J 0101...
Page 247 4. Management User Guide 4.8 Zoning sg_senddiag <a> --pf --raw=04,00,00,90,<b>,<c>,00,00,<d> a. SCSI device (<dev>): device associated with IOM A b. Disable Zoning: 60 c. Zoning Configuration: configuration 00 Note: For information on preconfigured zoning configurations, see: Predefined Zoning Configurations (page 213) d.
Page 248: File-Based Zoning
File-based zoning—introduced with firmware 2030—is a method of configuring zoning on an enclosure using a binary configuration file provided by Western Digital Engineering. The file is downloaded to the enclosure, and the zoning configuration is stored on the baseboard, where it both enables the file-based zoning feature and configures the default zoning of the enclousre.
Page 249 4. Management User Guide 4.8 Zoning • Disabling zoning using the file-based feature – This involves downloading and activating a binary file ) that sets the enclosure zoning to configuration 0, thereby "disabling" zoning Disable_Config.bin while keeping the file-based zoning feature enabled. •...
Page 250 WDDCS Tool User Guide Step 6 : Use the WDDCS Tool's command to view the SEP device handles: show # wddcs show wddcs v4.3.2.0 Copyright (c) 2019-2025 Western Digital Corporation or its affiliates Device: /dev/<dev> product : H4060-J serial : USCSJ03717EB0001 firmware: 2050-028...
Page 251 : Ultrastar Data60 Step 7 : Use the WDDCS Tool's command to determine which IOM each handle is assigned to: # wddcs iom wddcs v4.3.2.0 Copyright (c) 2019-2025 Western Digital Corporation or its affiliates Device: /dev/<dev> Dual IOM operation IOM A Device: /dev/<dev>...
Page 252 4. Management User Guide 4.8 Zoning 4.8.8.2 Disabling File-Based Zoning Using Linux This task provides instructions for disabling zoning and/or disabling the file-based zoning feature in a Linux operating system environment. Step 1 : From a command line, use the commands to list all enclosure devices lsscsi grep attached to the host:...
Page 253 WDDCS Tool, please see the WDDCS Tool User Guide . Step 5 : Use the WDDCS Tool's command to view the SEP device handles: show # wddcs show wddcs v4.3.2.0 Copyright (c) 2019-2025 Western Digital Corporation or its affiliates Device: /dev/<dev> product : H4060-J serial : USCSJ03717EB0001 firmware: 2050-028...
Page 254 SEP handle to verify Step 7 : zone status the zoning configuration of each IOM: # wddcs /dev/<dev> zone status wddcs v4.3.2.0 Copyright (c) 2019-2025 Western Digital Corporation or its affiliates Device: /dev/<dev> Zoning (Disabled) # wddcs /dev/<dev> zone status wddcs v4.3.2.0...
Page 255 4. Management User Guide 4.8 Zoning length=96 (0x60) Peripheral device type: enclosure services device Vendor identification: HGST Product identification: H4060-J Product revision level: 2050 Unit serial number: USWSJ02819EZ0012 C:\> sg_inq SCSI<dev> standard INQUIRY: PQual=0 Device_type=13 RMB=0 LU_CONG=0 version=0x06 [SPC-4] [AERC=0] [TrmTsk=0] NormACA=0 HiSUP=0...
Page 256 4. Management User Guide 4.8 Zoning wddcs v4.3.2.0 Copyright (c) 2019-2025 Western Digital Corporation or its affiliates Device: <dev> product : H4060-J serial : USWSJ02819EZ0012 firmware: 2050-028 name : Ultrastar Data60 Device: <dev> product : H4060-J serial : USWSJ02819EZ0012 firmware: 2050-028...
Page 257 WDDCS Tool, please see the WDDCS Tool User Guide . Step 4 : Use the WDDCS Tool's command to view the SEP device handles: show C:\> wddcs show wddcs v4.3.2.0 Copyright (c) 2019-2025 Western Digital Corporation or its affiliates Device: SCSI<dev> product : H4060-J serial : USWSJ02819EZ0012 firmware: 2050-028...
Page 258: Subenclosure Nickname
: Ultrastar Data60 Step 5 : Use the WDDCS Tool's command to determine which IOM each handle is assigned to: C:\> wddcs iom wddcs v4.3.2.0 Copyright (c) 2019-2025 Western Digital Corporation or its affiliates Device: SCSI<dev> Dual IOM operation IOM A Device: SCSI<dev>...
Page 259 4. Management User Guide 4.9 Subenclosure Nickname # sg_ses <device> -p0x0 <manufacturer> <regulatorymodel> <firmwareversion> Supported diagnostic pages: Supported Diagnostic Pages [sdp] [0x0] Configuration (SES) [cf] [0x1] Enclosure Status/Control (SES) [ec,es] [0x2] Help Text (SES) [ht] [0x3] String In/Out (SES) [str] [0x4] Threshold In/Out (SES) [th] [0x5] Element Descriptor (SES) [ed] [0x7] Additional Element Status (SES-2) [aes] [0xa]...
Page 260: Partially Populated Enclosures
4.10 Partially Populated Enclosures 4.10.1 Partial Population Configurations The Ultrastar Data60 supports partially-populated configurations that allow a user to increase the size of storage based on their needs. There are specific requirements that must be followed to ensure that the enclosure functions properly during operation. Partial population configurations that do not comply with the requirements listed in this section may result in enclosure performance issues.
Page 261: Installing Drives
4. Management User Guide 4.10 Partially Populated Enclosures Figure 228: Minimum HDD Partial Population 4.10.2 Installing Drives This section provides steps on how to install drives into the enclosure. The enclosure is shipped with a minimum of 24 HDDs. Before beginning the process of adding drives, refer to the Partial Population Configurations (page 244) section to determine what configuration will be used and what is required of...
Page 262 4. Management User Guide 4.10 Partially Populated Enclosures Figure 229: Chassis Handle Operation Locate the area that the new drives will be installed into. Step 2 : Step 3 : Follow the requirements for partial populations listed in Partial Population Configurations (page 244) Installing the 3.5in HDD Assembly When installing drives, populate the enclosure from left-to-right, rear-to-front.
Page 263 4. Management User Guide 4.10 Partially Populated Enclosures When installing drives, ensure that the LED pointer on the top of the drive carrier points Note: toward the front of the enclosure, as shown in the following image: Figure 231: LED Pointer Orientation Caution: To ensure proper airflow for enclosure cooling, all drive slots must be populated with either drives or drive blanks.
Page 264 4. Management User Guide 4.10 Partially Populated Enclosures Figure 232: Inserting a 3.5in HDD Assembly Lower the drive until the spring-loaded posts on the carrier contact the top edges of the drive Step 6 : slot. This is an intermediate position; the drive assembly will be fully seated later on.
Page 265 4. Management User Guide 4.10 Partially Populated Enclosures Figure 233: Intermediate Install Position Step 7 : Repeat this intermediate installation for the remaining drive assemblies, populating the enclosure from left-to-right, rear-to-front. For example, begin at drive slot 90 and proceed through 101. Then continue with 78 through 89, and so on.
Page 266 4. Management User Guide 4.10 Partially Populated Enclosures Figure 235: Seating the 3.5in HDD Assembly Figure 236: Grommet and Latch Pin Identification View the enclosure from the side to make sure all drive assemblies are flush. Step 9 :...
Page 267: Daisy Chaining
4.11.1 Daisy Chaining Configurations The Ultrastar Data60 supports configurations up to four enclosures daisy chained together using active cables. The Daisy Chaining Key identifies the specific information needed to use the cable maps in the following sections. The daisy chaining configurations are broken into two sections: one host configurations and two host configurations.
Page 268: One Host Cable Configurations
4. Management User Guide 4.11 Daisy Chaining Figure 238: Daisy Chaining Key The following section identifies the different host configurations for daisy chaining multiple enclosures with either one or two hosts. One Host Configurations : The following diagram is an example of how the enclosures will be connected via the IO SAS ports and what number each enclosure is.
Page 269 4. Management User Guide 4.11 Daisy Chaining Two Enclosures: One Host with a Single HBA Source Device Destination Device Host1: P1 Enclosure1: IOMA, A6 Host1: P2 Enclosure2: IOMB, B1 Enclosure1: IOMA, A4 Enclosure2: IOMA, A1 Enclosure1: IOMB, B3 Enclosure2: IOMB, B6 Two Enclosures: One Host with a Two HBAs Source Device Destination Device...
Page 270 4. Management User Guide 4.11 Daisy Chaining Three Enclosures: One Host with a Single HBA Source Device Destination Device Host1: P1 Enclosure1: IOMA, A6 Host1: P2 Enclosure3: IOMB, B1 Enclosure1: IOMA, A3 Enclosure2: IOMA, A1 Enclosure1: IOMB, B3 Enclosure2: IOMB, B6 Enclosure2: IOMA, A3 Enclosure3: IOMA, A1 Enclosure2: IOMB, B3...
Page 271 4. Management User Guide 4.11 Daisy Chaining Three Enclosures: One Host with a Two HBAs Source Device Destination Device Host1: P1 Enclosure1: IOMA, A6 Host1: P2 Enclosure3: IOMB, B1 Host1: P3 Enclosure3: IOMA, A6 Host1: P4 Enclosure1: IOMB, B1 Enclosure1: IOMA, A1 Enclosure2: IOMA, A2 Enclosure1: IOMB, B6 Enclosure2: IOMB, B5...
Page 272 4. Management User Guide 4.11 Daisy Chaining Four Enclosures: One Host with a Single HBA Source Device Destination Device Host1: P1 Enclosure1: IOMA, A6 Host1: P2 Enclosure4: IOMB, B1 Enclosure1: IOMA, A3 Enclosure2: IOMA, A1 Enclosure1: IOMB, B3 Enclosure2: IOMB, B6 Enclosure2: IOMA, A3 Enclosure3: IOMA, A1 Enclosure2: IOMB, B3...
Page 273 4. Management User Guide 4.11 Daisy Chaining Four Enclosures: One Host with a Two HBAs Source Device Destination Device Host1: P1 Enclosure1: IOMA, A6 Host1: P2 Enclosure4: IOMB, B1 Host1: P3 Enclosure4: IOMA, A6 Host1: P4 Enclosure1: IOMB, B1 Enclosure1: IOMA, A1 Enclosure2: IOMA, A2 Enclosure1: IOMB, B6 Enclosure2: IOMB, B5...
Page 274: Two Host Cable Configurations
4. Management User Guide 4.11 Daisy Chaining Four SATA Enclosure: One Host with a Single HBA Source Device Destination Device Host1: P1 Enclosure1: IOMA, A4 Host1: P2 Enclosure1: IOMA, A6 Enclosure1: IOMA, A1 Enclosure2: IOMA, A2 Enclosure2: IOMA, A1 Enclosure3: IOMA, A2 Enclosure3: IOMA, A1 Enclosure4: IOMA, A2 4.11.3 Two Host Cable Configurations...
Page 275 4. Management User Guide 4.11 Daisy Chaining Two Enclosures: Two Hosts with One HBA Source Device Destination Device Host1: P1 Enclosure1: IOMA, A6 Host1: P2 Enclosure2: IOMB, B1 Host2: P1 Enclosure1: IOMB, B1 Host2: P2 Enclosure2: IOMA, A6 Enclosure1: IOMA, A3 Enclosure2: IOMA, A1 Enclosure1: IOMB, B5 Enclosure2: IOMB, B6...
Page 276 4. Management User Guide 4.11 Daisy Chaining Three Enclosures: Two Hosts with One HBA Source Device Destination Device Host1: P1 Enclosure1: IOMA, A6 Host1: P2 Enclosure3: IOMB, B1 Host2: P1 Enclosure1: IOMB, B1 Host2: P2 Enclosure3: IOMA, A6 Enclosure1: IOMA, A3 Enclosure2: IOMA, A1 Enclosure2: IOMA, A3 Enclosure3: IOMA, A1...
Page 277 4. Management User Guide 4.11 Daisy Chaining Three Enclosures: Two Hosts with Two HBAs Source Device Destination Device Host1: P1 Enclosure1: IOMA, A6 Host1: P2 Enclosure3: IOMB, B1 Host1: P3 Enclosure1: IOMA, A4 Host1: P4 Enclosure3: IOMB, B3 Host2: P1 Enclosure1: IOMB, B1 Host2: P2 Enclosure3: IOMA, A6...
Page 278 4. Management User Guide 4.11 Daisy Chaining Four Enclosures: Two Hosts with One HBA Source Device Destination Device Host1: P1 Enclosure1: IOMA, A6 Host1: P2 Enclosure4: IOMB, B1 Host2: P1 Enclosure1: IOMB, B1 Host2: P2 Enclosure4: IOMA, A6 Enclosure1: IOMA, A3 Enclosure2: IOMA, A1 Enclosure2: IOMA, A3 Enclosure3: IOMA, A1...
Page 279: Cabling For Daisy Chaining
4. Management User Guide 4.11 Daisy Chaining Four Enclosures: Two Hosts with Two HBAs Source Device Destination Device Host1: P1 Enclosure1: IOMA, A6 Host1: P2 Enclosure4: IOMB, B1 Host1: P3 Enclosure1: IOMA, A4 Host1: P4 Enclosure4: IOMB, B3 Host2: P1 Enclosure1: IOMB, B1 Host2: P2 Enclosure4: IOMA, A6...
Page 280 4. Management User Guide 4.11 Daisy Chaining Before cabling the lower CMA, note the following routing of the cables. Note: For best results, the cables that are supported by the upper CMA are inserted into IOM B (right hand side looking at the rear) and the lower CMA cables are routed to IOM A (left hand side looking at the rear) in a "criss-cross"...
Page 281 4. Management User Guide 4.11 Daisy Chaining Figure 253: Open Baskets d. Connect all of the SAS cables that will be used and route them through the baskets one at a time. Make sure to follow the labels to make sure they are connected to the proper port. e.
Page 282 4. Management User Guide 4.11 Daisy Chaining Figure 254: Nominal Cable Length at Connectors f. Close all of the baskets. g. Reconnect the CMA at the elbow to the connectors on the rail. Cable the upper CMA. Step 3 : a. Unlatch the elbow side of the CMA arm and swing it forward by pressing the blue button that says “push”...
Page 283 4. Management User Guide 4.11 Daisy Chaining Figure 255: Open Baskets a. Connect the SAS cables and route them through the baskets one at a time. Make sure to follow the labels to make sure they are connected to the proper port. b.
Page 284 4. Management User Guide 4.11 Daisy Chaining Figure 256: Connected Cable Routing c. Wrap cable tie around the installed cable bundle between the ports and the first basket of the CMA Note: Each cable must be given enough slack at the connector end to operate smoothly.
Page 285 4. Management User Guide 4.11 Daisy Chaining Figure 257: Nominal Cable Length at Connectors d. Close all of the baskets. e. Reconnect the CMA at the elbow to connector A. Connect the SAS cables to the host server(s) according to the Step 4 : One Host Cable Configurations (page 252)
Page 286: In This Chapter
Safety The following chapter provides safety information for the Ultrastar Data60 . In This Chapter: - Electrostatic Discharge....................271 - Optimizing Location....................271 - Power Connections..................... 271 - Power Cords........................271 - Rack-Mountable Systems..................272 - Safety and Service..................... 272 - Safety Warnings and Cautions................273...
Page 287: Electrostatic Discharge
5.1 Electrostatic Discharge CAUTION Electrostatic discharge can harm delicate components inside Western Digital products. Electrostatic discharge (ESD) is a discharge of stored static electricity that can damage equipment and impair electrical circuitry. It occurs when electronic components are improperly handled and can result in complete or intermittent failures.
Page 288: Rack-Mountable Systems
• The power supply cord(s) is / are the main disconnect device to AC power. The socket outlet(s) must be near the equipment and readily accessible for disconnection. 5.5 Rack-Mountable Systems : Always install rack rails and storage enclosure according to Ultrastar Data60 product CAUTION documentation. Follow all cautions, warnings, labels, and instructions provided within the rackmount instructions.
Page 289: Safety Warnings And Cautions
5. Safety User Guide 5.7 Safety Warnings and Cautions Use caution when accessing part of the product that are labeled as potential shock hazards, hazardous access to moving parts such as fan blades. 5.7 Safety Warnings and Cautions To avoid personal injury or property damage, before you begin installing the product, read, observe, and adhere to all of the following safety instructions and information.
Page 290: Chapter 6. Regulatory
Regulatory The following chapter provides regulatory statements for the Ultrastar Data60 , H4060-J . Western Digital storage enclosures are marked to indicate compliance to various country and regional standards. Note: Potential equipment damage: Operation of this equipment with cables that are not properly shielded and not correctly grounded may cause interference to other electronic equipment and result in violation of Class A legal requirements.
Page 291: Country Certifications
6. Regulatory User Guide 6.1 Country Certifications 6.1 Country Certifications Table 116: Country Certifications Country/Region Authority or Mark Australia/New Zealand European Union India Israel Japan VCCI Korea MSIP North America (Canada, USA) Nemko South Africa SABS Taiwan BSMI Ukraine Ukrsepro 6.2 ...
Page 292: Restricted Access Location
• KN35 6.3 Restricted Access Location The Ultrastar Data60 is intended for installation in a server room or computer room where at least one of the following conditions apply: • Access can only be gained by service persons or by users who have been instructed about the restrictions applied to the location and about any precautions that shall be taken, and/or •...
Page 293 6. Regulatory User Guide 6.5 Europe (CE Declaration of Conformity) Leatherhead KT22 2LU Telephone: +44 1372 366000 EU Import Representation Contact BP 80006 92135 Issy les Moulineaux, France...
Page 294: Fcc Class A Notice
Any modifications made to this device that are not approved by Western Digital may void the authority granted to the user by the FCC to operate equipment.
Page 295: Ices-003 Class A Notice-Avis Nmb-003, Classe A
6. Regulatory User Guide 6.7 ICES-003 Class A Notice—Avis NMB-003, Classe A 6.7 ICES-003 Class A Notice—Avis NMB-003, Classe A This Class A digital apparatus complies with Canadian ICES-003. Cet appareil numerique de la classe A est conforme à la norme NMB-003 du Canada.
Page 296: Japanese Compliance Statement, Class A Ite
6. Regulatory User Guide 6.8 Japanese Compliance Statement, Class A ITE 6.8 Japanese Compliance Statement, Class A ITE The following Japanese compliance statement pertains to VCCI EMI regulations: English translation: This is a Class A product based on the Technical Requirement of the Voluntary Control Council for Interference by Information Technology (VCCI).
Page 297: South Korea Warning Label Statement, Class A Ite
6. Regulatory User Guide 6.9 South Korea Warning Label Statement, Class A ITE 6.9 South Korea Warning Label Statement, Class A ITE...
Page 298: Taiwan Warning Label Statement, Class A Ite
6. Regulatory User Guide 6.10 Taiwan Warning Label Statement, Class A ITE 6.10 Taiwan Warning Label Statement, Class A ITE English translation: This is a Class A product. In a domestic environment, this product may cause radio interference, in which case, the user may be required to take adequate measures.
Page 299: Taiwan Safety Warnings
6. Regulatory User Guide 6.11 Taiwan Safety Warnings 6.11 Taiwan Safety Warnings...
Page 300 6. Regulatory User Guide 6.11 Taiwan Safety Warnings...
Page 301 6. Regulatory User Guide 6.11 Taiwan Safety Warnings...
Page 302 6. Regulatory User Guide 6.11 Taiwan Safety Warnings...
Page 303 6. Regulatory User Guide 6.11 Taiwan Safety Warnings...
Page 304: Taiwan Rohs Information
6. Regulatory User Guide 6.12 Taiwan RoHS Information 6.12 Taiwan RoHS Information...
Page 305: Chapter 7. Appendices
Appendices In This Chapter: - Non-TAA SKUs for Fully Populated Configurations........290 - Non-TAA SKUs for Partially Populated Configurations........292 - TAA SKUs for Fully Populated Configurations..........294 - Non-TAA SKUs for Scale-Up Modules............... 295 - Rack Configurations....................296...
Page 306: Non-Taa Skus For Fully Populated Configurations
7. Appendices User Guide 7.1 Non-TAA SKUs for Fully Populated Configurations 7.1 Non-TAA SKUs for Fully Populated Configurations Table 117: Fully Populated Configurations SATA Drive Sector Capacity TCG- Type Size FIPS 1800TB HC690 1ES2746 1ES2743 1ES2870 1560TB HC590 512e 1ES2751 1ES2749 1ES2876 HC590...
Page 307 7. Appendices User Guide 7.1 Non-TAA SKUs for Fully Populated Configurations SATA Drive Sector Capacity TCG- Type Size FIPS 1ES1560 1ES1643 1ES1644 * This part number is no longer available.
Page 308: Non-Taa Skus For Partially Populated Configurations
7. Appendices User Guide 7.2 Non-TAA SKUs for Partially Populated Configurations 7.2 Non-TAA SKUs for Partially Populated Configurations Table 118: Partially Populated Configurations SATA Drive Sector Capacity TCG- Type Size FIPS 720TB HC690 1ES2747 1ES2744 1ES2871 624TB HC590 512e 1ES2752 1ES2750 1ES2877 HC590...
Page 309 7. Appendices User Guide 7.2 Non-TAA SKUs for Partially Populated Configurations * This part number is no longer available.
Page 310: Taa Skus For Fully Populated Configurations
7. Appendices User Guide 7.3 TAA SKUs for Fully Populated Configurations 7.3 TAA SKUs for Fully Populated Configurations Table 119: Fully Populated Configurations SATA Drive Sector Capacity TCG- Type Size FIPS 1800TB HC690 1ES2748 1ES2745 1ES2872 1560TB HC590 512e 1ES2754 1ES2753 1ES2878 HC590...
Page 311: Non-Taa Skus For Scale-Up Modules
7. Appendices User Guide 7.4 Non-TAA SKUs for Scale-Up Modules 7.4 Non-TAA SKUs for Scale-Up Modules Table 120: 12-Pack nTAA Scale-Up Modules SATA Drive Sector Capacity TCG- Type Size FIPS 420TB HC690 1EX3260 1EX3259 1EX3323 364TB HC590 512e 1EX3258 1EX3257 1EX3322 360TB HC690...
Page 312: Rack Configurations
7.5 Rack Configurations This section provides an overview of rack requirements and recommendations. 7.5.1 Compatible Rack Hardware Configuration The following table(s) list the approved rack hardware configurations for the Ultrastar Data60 : Table 121: Compatible Hardware Configuration 1 PDU Mounting Additional Mounting...
Page 313: Rack Safety
Rack Configurations (page 296) 7.5.2 Rack Safety When extended out of the rack on the rail system, the Ultrastar Data60 will be ~630mm / 24.8in. extended outward. This may be a potential tipping hazard depending on the configuration of the rack. Ensure that leveling feet, anti-tilt, and any other safety features recommended by the specific rack manufacturers have been deployed before servicing.
Page 314: Cma Standard Recommended Racks
These screws should be tightened to 3.38-3.61 Nm / 30-32 in-lbf using a Long T15 Torx Screwdriver. Figure 265: Shipping Bracket Screw Locations 7.5.3 CMA Standard Recommended Racks The following is a list of racks that are recommended for the Ultrastar Data60 using CMA Standard. Table 125: Recommended Racks Rack Vendor...
Page 315: Cma Lite Recommended Racks
SREXTENDER in. x W: in. x D: in. w/ Rack Extender 7.5.4 CMA Lite Recommended Racks The following is a list of racks that are recommended for the Ultrastar Data60 using CMA Lite. Table 126: Recommended Racks Rack Vendor Part Number...
Page 316 7. Appendices User Guide 7.5 Rack Configurations Rack Vendor Part Number Dimensions Notes Units The enclosure cannot be installed into the U spaces 2989.2mm x W: 609.6mm x D: that are in line WEDIT602 1317.6mm/ with the front 98in. x W: 24in. x D: 51.9in. door stiffeners or the door latch in the CMA Lite...
Page 317: Vertical Rack Rail Settings
7. Appendices User Guide 7.5 Rack Configurations Rack Vendor Part Number Dimensions Notes Units The enclosure cannot be installed into the U spaces 2444.8mm x W: 609.6mm x D: that are in line WEDIT606 1317.6mm/ with the front 96.25in. x W: 24in. x D: 51.8in. door stiffeners or the door latch in the CMA Lite...
Page 318: Recommended Pdus And Available Installation Space
7. Appendices User Guide 7.5 Rack Configurations Figure 267: Rear Vertical Rack Rails 7.5.6 Recommended PDUs and Available Installation Space The following is a list of available PDU space that is recommended for use in each rack. Table 127: Available PDU Space Rack Model PDU Orientation...
Page 319: Cma Standard Rack Specifications
7. Appendices User Guide 7.5 Rack Configurations Figure 268: PDU in the Zero Space 7.5.7 CMA Standard Rack Specifications This section provides information related to the recommended rack models, compatible PDUs, and required accessories and hardware using CMA Standard. Each rack recommendation comes with information specific to what PDUs are approved and what hardware is required to mount them.
Page 320 7. Appendices User Guide 7.5 Rack Configurations Table 128: Recommended CRENLO/EMCOR Rack Models Model Number Rack Units Dimensions 2060mm x W: 600mm x D: 1200mm / AS-160099-03 81.1in. x W: 23.6in. x D: 47.2in. 2057mm x W: 600mm x D: 1270mm / DC-42U2448-G 80.9in.
Page 321 7. Appendices User Guide 7.5 Rack Configurations Model Number Width Depth Orientation STV-4503 55.5mm / 2.18in. 86.15mm / 3.39in. Rear Table 133: Required Accessories and Hardware Supplier Part Number Description Server Technology KIT-MB40 PDU Mounting Bracket 7.5.7.3 TRIPP LITE Table 134: Recommended TRIPP LITE Rack Models Model Number Rack Units Dimensions...
Page 322: Cma Lite Rack Specifications
7. Appendices User Guide 7.5 Rack Configurations Table 137: Required Accessories and Hardware Supplier Part Number Description Server Technology KIT-MB40 PDU Mounting Bracket Tripp Lite SREXTENDER Rack Extension 7.5.7.4 APC/Schneider Table 138: Recommended APC/Schneider Rack Models Model Number Rack Units Dimensions 1991mm x W: 600mm x D: 1222mm AR3300 78.4in.
Page 323 7. Appendices User Guide 7.5 Rack Configurations Model Number Rack Units Dimensions 2057mm x W: 600mm x D: 1270mm / DC-42U2448-G 80.9in. x W: 23.6in. x D: 50in. Table 142: Compatible PDUs Model Number Width Depth Orientation STV-4501 55.5mm / 2.18in. 86.15mm / 3.39in.
Page 324 7. Appendices User Guide 7.5 Rack Configurations Table 146: Required Accessories and Hardware Supplier Part Number Description Server Technology KIT-MB40 PDU Mounting Bracket 7.5.8.3 TRIPP LITE Table 147: Recommended TRIPP LITE Rack Models Model Number Rack Units Dimensions 1111.25mm x W: 601.98mm x D: 1200mm / SR42UBDP 43.75in.
Page 325: Installation
7. Appendices User Guide 7.5 Rack Configurations 7.5.8.4 APC/Schneider Table 151: Recommended APC/Schneider Rack Models Model Number Rack Units Dimensions 1991mm x W: 600mm x D: 1222mm AR3300 78.4in. x W: 23.6in. x D: 48.18in. Table 152: Compatible PDUs Model Number Width Depth Orientation...
Page 326 7. Appendices User Guide 7.5 Rack Configurations Table 154: Procedure Info # of People Required Tools Required Parts Required • Two Flat Brackets • Two Right-Angle Brackets • Two Backer Plates • Torx T15 Screwdriver • M6 x 16 Hex Cap Screws •...
Page 327 7. Appendices User Guide 7.5 Rack Configurations Figure 270: Flat Bracket Installation (bottom) d. Align the right-angle bracket behind the flat bracket over the holes on the left-hand side of the flat bracket. e. Slide the washers onto the mounting bolts and secure the right-angle bracket to the backer plate through the flat bracket.
Page 328 7. Appendices User Guide 7.5 Rack Configurations Figure 272: Right-Angle Bracket Installed (bottom)
Page 329 7. Appendices User Guide 7.5 Rack Configurations Figure 273: Flush Right-Angle Bracket (bottom) Step 2 : Install the top side bracket using the provided hardware. a. Locate the two screw holes at the top of the back side of the PDU. b.
Page 330 7. Appendices User Guide 7.5 Rack Configurations Figure 275: Flat Bracket Installation (top) d. Align the right-angle bracket behind the flat bracket over the holes on the left-hand side of the flat bracket. e. Slide the washers onto the mounting bolts and secure the right-angle bracket to the backer plate through the flat bracket.
Page 331 7. Appendices User Guide 7.5 Rack Configurations Figure 277: Right-Angle Bracket Installed (top)
Page 332 7. Appendices User Guide 7.5 Rack Configurations Figure 278: Flush Right-Angle Bracket (top) Step 3 : Install the PDU into the rear of the rack. a. Locate the top row of holes on the top vertical rail. b. Secure the right-angle bracket on the top vertical rail with the provided bolts and nuts. Before fully tightening the bolts, ensure that the plug side of the PDU is 145mm / 5.7in away from the rear rack rail.
Page 333 7. Appendices User Guide 7.5 Rack Configurations Figure 280: PDU Installation (bottom) Figure 281: PDU Distance from Rack Rear Rail...
Page 334 7. Appendices User Guide 7.5 Rack Configurations 7.5.9.2 PDU Mounting Bracket Installation (KIT-MB-40) The installation of PDU mounting bracket kit (KIT-MB-40) for the AFCO, TRIPPLITE, and CRENLO racks extends the PDUs farther back in the rack to allow for more room for the CMA and enclosure. The PDU Bracket Installation procedure should be completed after the installation of the system, rails, and cables.
Page 335 7. Appendices User Guide 7.5 Rack Configurations Figure 283: Install the PDU Mounting Button onto the Angle Bracket b. Repeat the previous step to install the PDU mounting button on the remaining angle- bracket. Step 3 : Install the angle-bracket to the bottom of the PDU using the provided hardware. a.
Page 336 7. Appendices User Guide 7.5 Rack Configurations Figure 284: Install the Angle Bracket on the PDU (Bottom) Step 4 : Install the angle-bracket to the top of the PDU using the provided hardware. a. Locate the two screw holes at the top of the back side of the PDU. b.
Page 337 7. Appendices User Guide 7.5 Rack Configurations Figure 285: Install the Angle Bracket on the PDU (Top) Step 5 : Install the PDU into the rear of the rack. a. Locate the middle set of keyholes on the rear vertical rack rails. b.
Page 338 7. Appendices User Guide 7.5 Rack Configurations Figure 286: Align PDU with Keyholes Figure 287: PDU Installed into Keyholes c. Verify that the PDU is secure by pressing on the front of the PDU. If the PDU does not shift, it is properly mounted. If the PDU does shift, remove the PDU and repeat the PDU installation step to ensure it is secure.

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