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Xanadu 230 Controller-drive Tray Dimensions

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Xanadu-220/230 Site Preparation Guide 34306-02, Revision A Contents CHAPTER 1: SPECIFICATIONS OF THE Xanadu-220 CONTROLLER TRAY Xanadu-220 Controller Tray Dimensions. . .............................................................................................1-2 Xanadu-220 Controller Tray Weight . ........................................................................................................1-3 Xanadu-220 Controller Tray Shipping Dimensions..............................................................................1-3 Xanadu-220 Controller Tray Temperature and Humidity . ................................................................1-4 Xanadu-220 Controller Tray Altitude Ranges. . .....................................................................................1-4 Xanadu-220 Controller Tray Airflow and Heat Dissipation................................................................1-4 Xanadu-220 Controller Tray Acoustic Noise . . .......................................................................................1-5 Xanadu-220 Controller Tray Site Wiring and Power ............................................................................1-6 Xanadu-220 Controller Tray Power Cords and Receptacles. . ..........................................................1-7 Preparing the Network for the Controllers .............................................................................................1-8 CHAPTER 2: SPECIFICATIONS OF THE Xanadu-230 CONTROLLER TRAY Xanadu 230 Controller-Drive Tray Dimensions . ...................................................................................2-2 Xanadu 230 Controller-Drive Tray Weight. .............................................................................................2-3 Xanadu 230 Controller-Drive Tray Shipping Dimensions .................................................................2-4 Xanadu 230 Controller-Drive Tray Temperature and Humidity .....................................................2-4 Xanadu 230 Controller-Drive Tray Altitude Ranges . ...........................................................................2-5 Xanadu 230 Controller-Drive Tray Airflow and Heat Dissipation ...................................................2-5 Xanadu 230 Controller-Drive Tray Acoustic Noise. ..............................................................................2-6 Xanadu 230 Controller-Drive Tray Site Wiring and Power. ...............................................................2-7 Xanadu 230 Controller-Drive Tray AC Power Input.............................................................................2-7 Xanadu 230 Controller-Drive Tray Power Factor Correction . ..........................................................2-8 Xanadu 230 Controller-Drive Tray AC Power Cords and Receptacles . .........................................2-8 Preparing the Network for the Controllers .............................................................................................2-8 CHAPTER 3: SPECIFICATIONS OF THE 3.5” 2U, 12 Bay Chassis DRIVE TRAY 3.5" 2U, 12 Bay Chassis Drive Tray Dimensions . . ................................................................................. 3-2 3.5" 2U, 12 Bay Chassis Drive Tray Weight ...............................................................................................3-2 Storage System Site Preparation Guide i 3.5" 2U, 12 Bay Chassis Drive Tray Shipping Dimensions. . ...............................................................3-3 3.5" 2U, 12 Bay Chassis Drive Tray Temperature and Humidity .......................................................3-3 3.5" 2U, 12 Bay Chassis Drive Tray Altitude Ranges. . ..........................................................................3-4 3.5" 2U, 12 Bay Chassis Drive Tray Airflow and Heat Dissipation. ...................................................3-4 3.5" 2U, 12 Bay Chassis Drive Tray Acoustic Noise ................................................................................3-5 3.5" 2U, 12 Bay Chassis Drive Tray Site Wiring and Power .................................................................3-5 3.5" 2U, 12 Bay Chassis Drive Tray AC Power Input ..............................................................................3-6 3.5" 2U, 12 Bay Chassis Drive Tray Power Factor Correction .............................................................3-6 3.5" 2U, 12 Bay Chassis Drive Tray AC Power Cords and Receptacles............................................3-6 CHAPTER 4: SPECIFICATIONS OF THE 2.5” 24 Bay Chassis DRIVE TRAY 2.5" 24 Bay Chassis Drive Tray Dimensions . . .........................................................................................4-2 2.5" 24 Bay Chassis Drive Tray Weight ......................................................................................................4-2 2.5" 24 Bay Chassis Drive Tray Shipping Dimensions. . ......................................................................4-3 2.5" 24 Bay Chassis Drive Tray Temperature and Humidity ............................................................. 4-3 2.5" 24 Bay Chassis Drive Tray Altitude Ranges. ................................................................................... 4-4 2.5" 24 Bay Chassis Drive Tray Airflow and Heat Dissipation .......................................................... 4-4 2.5" 24 Bay Chassis Drive Tray Acoustic Noise . ..................................................................................... 4-5 2.5" 24 Bay Chassis Drive Tray Site Wiring and Power ....................................................................... 4-5 2.5" 24 Bay Chassis Drive Tray AC Power Input .................................................................................... 4-6 2.5" 24 Bay Chassis Drive Tray Power Factor Correction................................................................... 4-6 2.5" 24 Bay Chassis Drive Tray AC Power Cords and Receptacles.................................................. 4-6 CHAPTER 5: SPECIFICATIONS OF THE 60-bay DRIVE TRAY 60-bay Drive Tray Dimensions. ................................................................................................................... 5-3 60-bay Drive Tray Weight . ............................................................................................................................ 5-3 60-bay Drive Tray Shipping Dimensions. ................................................................................................ 5-4 60-bay Drive Tray Temperature and Humidity . .................................................................................... 5-4 60-bay Drive Tray Altitude Ranges............................................................................................................ 5-5 60-bay Drive Tray Airflow and Heat Dissipation . ................................................................................. 5-5 60-bay Drive Tray Acoustic Noise . ............................................................................................................. 5-6 60-bay Drive Tray Site Wiring and Power ............................................................................................... 5-6 Storage System Site Preparation Guide ii 60-bay Drive Tray Power Input ................................................................................................................... 5-7 60-bay Drive Tray Power Factor Correction. ......................................................................................... 5-7 60-bay Drive Tray AC Power Cords and Receptacles.......................................................................... 5-7 iii Storage System Site Preparation Guide List of Figures CHAPTER 1 SPECIFICATIONS OF THE Xanadu-220 CONTROLLER TRAY Figure 1–1. Xanadu-220 Controller Tray – Front View . .................................................................... 1-1 Figure 1–2. Xanadu-220 Controller Tray – Rear View . ...................................................................... 1-2 Figure 1–3. Dimensions of the Xanadu-220 Controller Tray – Front View . ............................... 1-2 Figure 1–4. Airflow Through the Xanadu-220 Controller Tray – Front View . . ......................... 1-5 Figure 1–5. AC Power Distribution to a Xanadu-220 Storage Array – Rear View . .................. 1-7 CHAPTER 2 SPECIFICATIONS OF THE Xanadu-230 CONTROLLER-DRIVE TRAY Figure 2–1. Xanadu 230 Controller-Drive Tray with 12 Drives – Front View ............................ 2-1 Figure 2–2. Xanadu 230 Controller-Drive Tray with 24 Drives – Front View ............................ 2-1 Figure 2–3. Xanadu 230 Controller-Drive Tray Duplex Configuration – Rear View . ............. 2-2 Figure 2–4. Xanadu 230 Controller-Drive Tray Simplex Configuration – Rear View . ............ 2-2 Figure 2–5. Dimensions of the Xanadu 230 Controller-Drive Tray (12-Drive Model) – Front View .......................................................................................................................................................... 2-2 Figure 2–6. Dimensions of the Xanadu 230 Controller-Drive Tray (24-Drive Model) – Front View .......................................................................................................................................................... 2-3 Figure 2–7. Airflow Through the Xanadu 230 Controller-Drive Tray with 12 Drives – Front View .......................................................................................................................................................... 2-5 Figure 2–8. Airflow Through the Xanadu 230 Controller-Drive Tray with 24 Drives – Front View .......................................................................................................................................................... 2-6 Storage System Site Preparation Guide iv List of Tables CHAPTER 1 SPECIFICATIONS OF THE Xanadu-220 CONTROLLER TRAY Table 1–1. Weights of the Xanadu-220 Controller Tray ................................................................... 1-3 Table 1–2. Component Weights of the Xanadu-220 Controller Tray . ......................................... 1-3 Table 1–3. Shipping Carton Dimensions for the Xanadu-220 Controller Tray . ...................... 1-3 Table 1–4. Temperature Requirements and Humidity Requirements for the Xanadu-220 Controller Tray . . ..................................................................................................................... 1-4 Table 1–5. Altitude Ranges for the Xanadu-220 Controller Tray . ................................................. 1-4 Table 1–6. Power Ratings and Heat Dissipation for the Xanadu-220 Controller Tray . ........ 1-5 Table 1–7. Sound Levels for the Xanadu-220 Controller Tray . . .................................................... 1-5 CHAPTER 2 SPECIFICATIONS OF THE Xanadu-230 CONTROLLER-DRIVE TRAY Table 2–1. Weights of the Xanadu 230 Controller-Drive Tray . .......................................................... 2-3 Table 2–2. Component Weights of the Xanadu 230 Controller-Drive Tray . .................................. 2-3 Table 2–3. Shipping Carton Dimensions for the Xanadu 230 Controller-Drive Tray . ................. 2-4 Table 2–4. Temperature Requirements and Humidity Requirements for the Xanadu 230 Controller-Drive Tray . ................................................................................................................ 2-4 Table 2–5. Altitude Ranges for the Xanadu 230 Controller-Drive Tray . ......................................... 2-5 Table 2–6. Power and Heat Dissipation For The Xanadu 230 Controller-Drive Tray . ................ 2-6 Table 2–7. Acoustic Noise at 25°C for the Xanadu 230 Controller-Drive Tray . ............................ 2-6 Table 2–8. AC Power Requirements for the Xanadu 230 Controller-Drive Tray ..................... 2-7 Storage System Site Preparation Guide v CHAPTER 3 SPECIFICATIONS OF THE 3.5” 2U, 12 Bay Chassis DRIVE TRAY Table 3–1. Weights of the 3.5" 2U, 12 Bay Chassis Drive Tray . ................................................................................................................ 3-2 Table 3–2. Component Weights of the 3.5" 2U, 12 Bay Chassis Drive Tray . ....................................................................................... 3-2 Table 3–3. Drive Tray and Shipping Carton Dimensions for the 3.5" 2U, 12 Bay Chassis Drive Tray . .................................... 3-3 Table 3–4. Temperature Requirements and Humidity Requirements for the 3.5" 2U, 12 Bay Chassis Drive Tray ...................................................................................................................................................................... 3-3 Table 3–5. Altitude Ranges for the 3.5" 2U, 12 Bay Chassis Drive Tray . ............................................................................................... 3-4 Table 3–6. Power Ratings and Heat Dissipation for the 3.5" 2U, 12 Bay Chassis Drive Tray .................................................... 3-4 Table 3–7. Acoustic Noise at 25°C for the 3.5" 2U, 12 Bay Chassis Drive Tray . ................................................................................... 3-5 Table 3–8. AC Power Requirements for the 3.5" 2U, 12 Bay Chassis Drive Tray ................................................................................. 3-6 CHAPTER 4 SPECIFICATIONS OF THE 2.5” 24 Bay Chassis DRIVE TRAY Table 4–1. Weights of the 2.5" 24 Bay Chassis Drive Tray . .................................................................................. 4 - 2 Table 4–2. Component Weights of the 2.5" 24 Bay Chassis Drive Tray ........................................................... 4 - 2 Table 4–3. Drive Tray & Shipping Carton Dimensions for 2.5" 24 Bay Chassis Tray .... ............................... 4-3 Table 4–4. Temperature Requirements and Humidity Requirements for the 2.5" 24 Bay Chassis Drive Tray .. . ......................................................................................................................................... 4 - 3 Table 4–5. Altitude Ranges for the 2.5" 24 Bay Chassis Drive Tray ........................................................................ 4 - 4 Table 4–6. Power Ratings & Heat Dissipation for the 2.5" 24 Bay Chassis Drive Tray . ..................................... 4 - 4 Table 4–7. Acoustic Noise at 25°C for the 2.5" 24 Bay Chassis Drive Tray ............................................................. 4 - 5 Table 4–8. AC Power Requirements for the 2.5" 24 Bay Chassis Drive Tray . ....................................................... 4-6 CHAPTER 5 SPECIFICATIONS OF THE 60-bay DRIVE TRAY Table 5–1. Weights of the 60-bay Drive Tray . ........................................................................................................ 5 - 3 Table 5–2. Component Weights of the 60-bay Drive Tray ................................................................................. 5 - 4 Table 5–3. Shipping Carton Dimensions for the 60-bay Drive Tray . .............................................................. 5-4 Table 5–4. Temperature Requirements and Humidity Requirements for the 60-bay Drive Tray . .................................................................................................................................................................... 5 - 4 Table 5–5. Altitude Ranges for the 60-bay Drive Tray . . ........................................................................................... 5 - 5 Table 5–6. Power Ratings and Heat Dissipation for the 60-bay Drive Tray ........................................................ 5 - 6 Table 5–7. Sound Levels for the 60-bay Drive Tray ..................................................................................................... 5 - 6 Table 5–8. AC Power Requirements for the 60-bay Drive Tray . ............................................................................. 5-7 vi Storage System Site Preparation Guide Document Conventions Definitions of Safety Notices DANGER Indicates an imminently hazardous situation that will result in death or severe personal injury. WARNING Indicates a potentially hazardous situation that could result in death or severe personal injury. CAUTION Indicates a potentially hazardous situation that could result in moderate or minor personal injury. Definitions of Informational Notices ATTENTION Indicates a potentially hazardous situation that could result in data loss (or other interruption) or equipment damage. IMPORTANT Indicates information or criteria that is necessary to perform a procedure correctly. NOTE Indicates a clarification of a concept or presents a maintenance tip. Storage System Site Preparation Guide vii ............................................................................. About This Document This document is a site preparation guide that defines the hardware, power, and environmental requirements that must be met prior to the installation of the following products: • The Xanadu-220 controller tray • The Xanadu 230 controller-drive tray • The 2.5" 24 Bay Chassis drive tray • The 3.5" 2U, 12 Bay Chassis drive tray • The 60-bay drive tray This document is a site preparation guide that defines the hardware, power, and environmental requirements. Use this document prior to delivery and installation to make sure that the appropriate and required preparation tasks have been completed. This document does not explain procedures for installing the hardware trays or for installing and configuring the software. This document helps you make decisions about ventilation, electrical power, floor loading, and network configuration. It is recommended that a power survey be conducted to make sure that the storage array’s input power is free of noise, spikes, and fluctuations. Storage System Site Preparation Guide viii Refer to the Product Release Notes for SANtricity® ES Storage Manager Version 10.70 for any updated information regarding hardware, software, or firmware products that might not be covered in this document. Intended Readers This document is intended for system operators, system administrators, and technical support personnel who are responsible for installation and setup of the storage array. Users must be familiar with computer system operations. In addition, they should understand disk storage technology, Redundant Array of Independent Disks (RAID) concepts, networking, and Fibre Channel, Infiniband, and iSCSI technologies. The reader must have a basic knowledge of storage area network (SAN) hardware functionality (controllers, drives, and hosts) and SAN cabling. Related Publications The following documents have information that is related to the site preparation process. You can obtain any of these documents by contacting a Customer and Technical Support representative or your storage representative. • Xanadu-220 Controller Tray Initial Setup Guide •Xanadu-230 Controller-Drive Tray Initial Setup Guide • 2.5” 2U, 12 Bay Chassis Drive Tray Initial Setup Guide viiii • 3.5" 2U, 12 Bay Chassis Drive Tray Initial Setup Guide • 60-bay Drive Tray Initial Setup Guide Storage System Site Preparation Guide • Product Release Notes for SANtricity® ES Storage Manager Version 10.70 Web Address For information related to the products mentioned in this document, go to: http://www.raidinc.com Additional Information From the RAID, Inc. Support website, you can find contact information, query the knowledge base, submit a service request or search for documentation. Visit the RAID, Inc. Support web site at: www.raidinc.com KWWSZZZUDLGLQFFRPVXSSRUWSKS Storage System Site Preparation Guide x Chapter 1 Specifications of the Xanadu-220 Controller Tray The Xanadu-220 controller tray is a compact, rackmounted unit that provides high-capacity disk storage for Fibre Channel, Infiniband, and iSCSI environments, depending on the choice of the host interface card. The Xanadu-220 controller tray contains two power-fan canisters that include the power supplies and fans. One power-fan canister can provide electrical power and cooling to the controller tray if the other power-fan canister is turned off or malfunctions. In the front, behind the bezel, are two power-fan canisters and one interconnectbattery canister. Figure 1–1 Xanadu-220 Controller Tray – Front View 1 Power-Fan Canisters (Left and Right) and the Interconnect-Battery Canister (Center) 2 Top of the Xanadu-220 Controller Tray In the rear are two controller canisters with controller A on the top and controller B on the bottom. Controller A is upside down, and controller B is right-side up. Storage System Site Preparation Guide 1-1 Specifications of the Xanadu-220 Controller Tray . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Figure 1–2 Xanadu-220 Controller Tray – Rear View 76215-00 Xanadu-220 Controller Tray Dimensions The Xanadu-220 controller tray conforms to the 48.3-cm (19-in.) rack standard. Figure 1–3 Dimensions of the Xanadu-220 Controller Tray – Front View 1-2 Storage System Site Preparation Guide Xanadu-220 Controller Tray Weight Table 1–1 Weights of the Xanadu-220 Controller Tray Weight Unit Maximum* Xanadu-220 controller Empty** 36.79 kg (81.1 lb) Shipping*** 13.15 kg (29.0 lb) 49.44 kg (109.0 lb) *Maximum weight indicates a controller tray with all of its components installed. **Empty weight indicates a controller tray with the controller canisters, the power-fan canisters, and the interconnect-battery canister removed. ***Shipping weight indicates the maximum weight of a controller tray and all shipping material. Table 1–2 Component Weights of the Xanadu-220 Controller Tray Component Weight Controller canister 6.24 kg (13.8 lb) Power-fan canister 3.719 kg (8.20 lb) Interconnect-battery canister (with two batteries installed) 4.082 kg (9.00 lb) Battery canister 1.134 kg (2.50 lb) Xanadu-220 Controller Tray Shipping Dimensions Table 1–3 Shipping Carton Dimensions for the Xanadu-220 Controller Tray Height 44.45 cm (17.50 in.) – Includes the height of the pallet. Storage System Site Preparation Guide Width 62.23 cm (24.50 in.) Depth 78.74 cm (31.00 in.) 1-3 Specifications of the Xanadu-220 Controller Tray . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Xanadu-220 Controller Tray Temperature and Humidity Table 1–4 Temperature Requirements and Humidity Requirements for the Xanadu-220 Controller Tray Condition Temperature* Parameter Requirement Operating range 10°C to 40°C (32°F to 104°F) Maximum rate of change 10°C (18°F) per hour Storage range –10°C to 65°C (14°F to 149°F) Maximum rate of change 15°C (27°F) per hour Transit range –40°C to 65°C (–40°F to 149°F) Maximum rate of change 20°C (36°F) per hour Relative humidity (no Operating range condensation) Storage range 20% to 80% 10% to 93% Transit range 5% to 95% Maximum dew point 26°C (79°F) Maximum gradient 10% per hour *If you plan to operate a system at an altitude between 1000 m to 3048 m (3280 ft to 10,000 ft) above sea level, lower the environmental temperature 1.7°C (3.3°F) for every 1000 m (3280 ft) above sea level. Xanadu-220 Controller Tray Altitude Ranges Table 1–5 Altitude Ranges for the Xanadu-220 Controller Tray Environment Altitude Operating 30.5 m (100 ft) below sea level to 3048 m (10,000 ft) above sea level Storage 30.5 m (100 ft) below sea level to 3048 m (10,000 ft) above sea level Transit 30.5 m (100 ft) below sea level to 12,000 m (40,000 ft) above sea level Xanadu-220 Controller Tray Airflow and Heat Dissipation Airflow goes from the front of the controller tray to the rear of the controller tray. Allow at least 76 cm (30 in.) of clearance in front of the controller tray and at least 61 cm (24 in.) of clearance behind the controller tray for service clearance, ventilation, and heat dissipation. 1-4 Storage System Site Preparation Guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Xanadu-220 Controller Tray Acoustic Noise Figure 1–4 Airflow Through the Xanadu-220 Controller Tray – Front View The tabulated power and heat dissipation values in Table 2–6 are the maximum measured operating power. Maximum configuration units are typically operated at higher data rates or have larger random access memory (RAM) capabilities. Table 1–6 Power Ratings and Heat Dissipation for the Xanadu-220 Controller Tray Component KVA Xanadu-220 controller tray 0.562 Watts (AC) 540 Btu/Hr 1842 Amps (240 VAC) 2.25 Xanadu-220 Controller Tray Acoustic Noise Table 1–7 Sound Levels for the Xanadu-220 Controller Tray Measurement Level Sound power 6.0 bels Sound pressure 60 dBA Storage System Site Preparation Guide 1-5 Specifications of the Xanadu-220 Controller Tray . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Xanadu-220 Controller Tray Site Wiring and Power The agency ratings for the Xanadu-220 controller tray are 5.40 A at 100 VAC and 2.25 A at 240 VAC. These ratings are the overall maximum currents for this system. The Xanadu-220 controller tray uses wide-ranging redundant power supplies that automatically accommodate voltages to the AC power source. The power supplies operate within the range of 90 VAC to 264 VAC, at a minimum frequency of 50 Hz and a maximum frequency of 60 Hz. Voltage levels can fluctuate within the specified range. The power supplies meet standard voltage requirements for both North American (USA and Canada) operation and worldwide (except USA and Canada) operation. The power supplies use standard industrial wiring with line-to-neutral or line-to-line power connections. Keep this information in mind when you prepare the installation site for the controller tray: • Protective ground – Site wiring must include a protective ground connection to the AC power source. NOTE Protective ground is also known as safety ground or chassis ground. • Circuit overloading – Power circuits and associated circuit breakers must provide enough power and overload protection. To prevent damage to the controller tray, isolate its power source from large switching loads, such as air-conditioning motors, elevator motors, and factory loads. • Power interruptions – The controller tray can withstand these applied voltage interruptions: ■ Input transient – 50 percent of the nominal voltage • ■ Duration – One-half cycle ■ Maximum frequency – Once every 10 seconds Power failures – If a total power failure occurs, the controller tray automatically performs a power-on recovery sequence without operator intervention after the power is restored. NOTE When a power failure occurs, the controller tray uses battery power to back up the data that is in cache. If you are installing a large storage array configuration, you must make sure that you are supplying the correct AC source voltages and not creating an over-current situation. 1-6 Storage System Site Preparation Guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Xanadu-220 Controller Tray Power Cords and Receptacles When calculating the cabinet’s total power requirements, take the controller tray’s 540 W and divide it by the cabinet’s input voltage. If you are using 240 VAC, you obtain a maximum current of 2.25 A. Then add the amperage of each drive tray. If each drive tray uses 1.85 A, then 10 drive trays would use 18.5 A. In this example, your total storage array would use a rated maximum of 20.75 A. Xanadu-220 Controller Tray Power Cords and Receptacles Each Xanadu-220 controller tray is shipped with two AC power cords. Each AC power cord connects one of the power-fan canisters in the controller tray to an independent, external AC power source, such as a wall receptacle, or to any acceptable uninterruptible power supply (UPS). Figure 1–5 AC Power Distribution to a Xanadu-220 Storage Array – Rear View 83005-00 1 2 3 4 4 1 2 3 4 5 4 5 4 AC Power Cord to the Drive Tray AC Power Cord to the Xanadu-220 Controller Tray Power Strip Portion of the Power Distribution Unit AC Power Cord to the External Power Source Rear of the Cabinet The optional UPS equipment is either placed external from the cabinet, or it is placed at the bottom of the cabinet. UPS devices provide a continuous supply of electrical power when utility power is unavailable. Some UPS equipment can also provide power conditioning to protect your storage array from voltage spikes, line noise, and undesirable power fluctuations, such as brownout. Contact an electrician to help you select and install the correct UPS equipment. Storage System Site Preparation Guide 1-7 Specifications of the Xanadu-220 Controller Tray . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . The switched-rack power distribution unit (PDU) is also available for some customersupplied cabinets. These new PDUs are stand-alone, network-manageable devices that allow programmable control of the power outlets. This capability enables you to control each outlet independently, manage power sequencing, and monitor the aggregate current draw through the switched-rack PDU. Additional equipment may be used to support temperature monitoring as well. Preparing the Network for the Controllers If you plan to use Ethernet connections from the storage management station to the controllers, you will be using the out-of-band management method. For this configuration, you should meet with your network administrator before you order and install the equipment so that you can prepare for the setup and management of the devices on the IP network. Each controller uses its Ethernet management ports to connect to the IP network and communicate with the other devices on the IP network (often requiring a special application to set up the protocol). Your network administrator can pre-assign the addresses that you need to manage the communication between the devices on the IP network. Depending on your storage configuration, you will need these addresses: • Up to two network IP addresses for each controller • Up to two subnet mask addresses for each controller • Either two IPv4 addresses (one static and one dynamic) or one IPv6 address for each controller • A Dynamic Host Configuration Protocol (DHCP) address for each controller If switches are used in your storage environment, you will also need to know if zoning will be used, and how it will be configured. 1-8 Storage System Site Preparation Guide Chapter 2 Specifications of the ;DQDGX ControllerDrive Tray The Xanadu 230 controller-drive tray is available in a rackmount model, with a capacity of either 12 drives or 24 drives. Figure 2–1 Xanadu 230 Controller-Drive Tray with 12 Drives – Front View 1 End Caps (the Left End Cap Has the Controller-Drive Tray Summary LEDs) 2 Drive Canisters Figure 2–2 Xanadu 230 Controller-Drive Tray with 24 Drives – Front View 1 2 98006-13 1 End Caps (the Left End Cap Has the Controller-Drive Tray Summary LEDs) 2 Drive Canisters Storage System Site Preparation Guide 2-1 Specifications of the Xanadu 230 Controller-Drive Tray . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . Figure 2–3 Xanadu 230 Controller-Drive Tray Duplex Configuration – Rear View 1 1 98008-05 2 2 1 Controller Canister 2 Power-Fan Canister Figure 2–4 Xanadu 230 Controller-Drive Tray Simplex Configuration – Rear View 1 DC ! AC DC ! AC 98008-07 2 1 Controller Canister 2 Power-Fan Canister Xanadu 230 Controller-Drive Tray Dimensions The Xanadu 230 controller-drive tray conforms to the 48.26-cm (19.0-in.) rack standard. Figure 2–5 Dimensions of the Xanadu 230 Controller-Drive Tray (12-Drive Model) – Front View 97007-01 48.26 cm (19.00 in.) 8.64 cm (3.40 in.) 55.25 cm (21.75 in.) 2-2 Storage System Site Preparation Guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Xanadu 230 Controller-Drive Tray Weight Figure 2–6 Dimensions of the Xanadu 230 Controller-Drive Tray (24-Drive Model) – Front View 96003-04 48.26 cm (19.00 in.) 8.81 cm (3.47 in.) 49.78 cm (19.6 in.) Xanadu 230 Controller-Drive Tray Weight Table 2–1 Weights of the Xanadu 230 Controller-Drive Tray Weight Unit Maximum* Empty** Shipping*** Xanadu 230 controller-drive tray, with twelve 8.89-cm (3.5-in.) drives 27 kg (59.52 lb) 18.60 kg (41.01 lb) 31.75 kg (70.0 lb) Xanadu 230 controller-drive tray, with twenty-four 6.35-cm (2.5-in.) drives 26 kg (57.32 lb) 21.70 kg (47.84 lb) 31.75 kg (70.0 lb) *Maximum weight indicates a controller-drive tray with all of its drives and other components installed. Because drive weights can vary greatly, this value can vary from the value specified as much as either 0.3 kg (0.6 lb) times the maximum number of drives per controller-drive tray for 3.5-in. SATA drives or 0.08 kg (0.18 lb) times the maximum number of drives per controller-drive tray for 2.5-in. SATA drives. **Empty weight indicates a controller-drive tray with the controller canisters, the power-fan canisters, and the drives removed. ***Shipping weight indicates the maximum weight of the controller-drive tray and all shipping material. Table 2–2 Component Weights of the Xanadu 230 Controller-Drive Tray Component Weight Controller canister 2.131 kg (4.70 lb) Power-fan canister 2.500 kg (5.51 lb) 2.5-in. SATA drive 0.3 kg (0.6 lb) 3.5-in. SATA drive 1.0 kg (2.2 lb) Storage System Site Preparation Guide 2-3 Specifications of the Xanadu 230 Controller-Drive Tray . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Xanadu 230 Controller-Drive Tray Shipping Dimensions Table 2–3 Shipping Carton Dimensions for the Xanadu 230 Controller-Drive Tray Height Width Depth 24.13 cm (9.5 in.)* 63.50 cm (25 in.) 58.42 cm (23 in.) 24.13 cm (9.5 in.)** 68.58 cm (27 in.) 58.42 cm (23 in.) *Xanadu 230 controller-drive tray with twelve 3.5-in. drives. **Xanadu 230 controller-drive tray with twenty-four 2.5-in. drives. Xanadu 230 Controller-Drive Tray Temperature and Humidity Table 2–4 Temperature Requirements and Humidity Requirements for the Xanadu 230 Controller-Drive Tray Condition Temperature Relative humidity (no condensation) Parameter Requirement Operating range (both cabinet and subsystem) 10°C to 35°C (50°F to 104°F) Maximum rate of change 10°C (50°F) per hour Storage range –10°C to 50°C (14°F to 122°F) Maximum rate of change 15°C (59°F) per hour Transit range –40°C to 60°C (–40°F to 140°F) Maximum rate of change 20°C (68°F) per hour Operating range (both cabinet and subsystem) 20% to 80% Storage range 10% to 90% Transit range 5% to 90% Operating gradient 10°C (50°F) per hour maximum Storage gradient 15°C (59°F) per hour maximum Transit gradient 20°C (68°F) per hour maximum Maximum dew point 26°C (79°F) Maximum gradient 10% per hour *If you plan to operate a system at an altitude between 1000 m to 3000 m (3280 ft to 9842 ft) above sea level, lower the environmental temperature 1.7°C (35.06°F) for every 1000 m (3280 ft) above sea level. 2-4 Storage System Site Preparation Guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Xanadu 230 Controller-Drive Tray Altitude Ranges Xanadu 230 Controller-Drive Tray Altitude Ranges Table 2–5 Altitude Ranges for the Xanadu 230 Controller-Drive Tray Environment Altitude Operating 30.5 m (100 ft) below sea level to 3000 m (9,840 ft) above sea level Storage 30.5 m (100 ft) below sea level to 3000 m (9,840 ft) above sea level Transit 30.5 m (100 ft) below sea level to 12,000 m (40,000 ft) above sea level Xanadu 230 Controller-Drive Tray Airflow and Heat Dissipation Allow at least 76 cm (30 in.) of clearance in front of the controller-drive tray and 61 cm (24 in.) behind the controller-drive tray for service clearance, ventilation, and heat dissipation. Figure 2–7 Airflow Through the Xanadu 230 Controller-Drive Tray with 12 Drives – Front View 2 98007-02 1 1 76 cm (30 in.) clearance in front of the cabinet 2 61 cm (24 in.) clearance behind the cabinet Storage System Site Preparation Guide 2-5 Specifications of the Xanadu 230 Controller-Drive Tray . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Figure 2–8 Airflow Through the Xanadu 230 Controller-Drive Tray with 24 Drives – Front View 2 98007-01 1 1 76 cm (30 in.) clearance in front of the cabinet 2 61 cm (24 in.) clearance behind the cabinet Table 2–6 Power and Heat Dissipation For The Xanadu 230 Controller-Drive Tray Component KVA Watts (AC) Btu/Hr Controller canisters with two power-fan canisters and 12 drives 0.400 399 1366 Controller canisters with two power-fan canisters and 24 drives 0.331 330 1127 Xanadu 230 Controller-Drive Tray Acoustic Noise Table 2–7 Acoustic Noise at 25°C for the Xanadu 230 Controller-Drive Tray Measurement 2-6 Level Sound power (standby operation) 6.5 bels maximum Sound pressure (normal operation) 65 dBA maximum Storage System Site Preparation Guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Xanadu 230 Controller-Drive Tray Site Wiring and Power Xanadu 230 Controller-Drive Tray Site Wiring and Power The Xanadu 230 controller-drive tray uses wide-ranging, redundant power supplies that automatically accommodate voltages to the AC power source. The power supplies meet standard voltage requirements for both North American (USA and Canada) operation and worldwide (except USA and Canada) operation. The power supplies use standard industrial wiring with line-to-neutral or line-to-line power connections. Keep this information in mind when you prepare the installation site for the controllerdrive tray: • Protective ground – Site wiring must include a protective ground connection to the AC power source. NOTE Protective ground is also known as safety ground or chassis ground. • Circuit overloading – Power circuits and associated circuit breakers must provide enough power and overload protection. To prevent damage to the controller-drive tray, isolate its power source from large switching loads, such as air-conditioning motors, elevator motors, and factory loads. • Power interruptions – The controller-drive tray can withstand these applied voltage interruptions: • ■ Input transient – 50 percent of the nominal voltage ■ Duration – One-half cycle ■ Frequency – Once every 10 seconds Power failures – If a total power failure occurs, the controller-drive tray automatically performs a power-on recovery sequence without operator intervention. Xanadu 230 Controller-Drive Tray AC Power Input Each power supply contains one 10-A slow-blow fuse. Table 2–8 AC Power Requirements for the Xanadu 230 Controller-Drive Tray Parameter Low Range High Range Nominal voltage 100 VAC 240 VAC Frequency 50 to 60 Hz 50 to 60 Hz Idle current A* A** Maximum operating current A* A** Storage System Site Preparation Guide 2-7 Specifications of the Xanadu 230 Controller-Drive Tray . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Parameter Low Range High Range *This data was not verified at the time of publication. For the verified figures, refer to the Product Release Notes for SANtricity ES Storage Manager for Version 10.70. Xanadu 230 Controller-Drive Tray Power Factor Correction Power factor correction is applied within the power supply, which maintains the power factor of the controller-drive tray at greater than 0.95 with nominal input voltage. Xanadu 230 Controller-Drive Tray AC Power Cords and Receptacles Each Xanadu 230 controller-drive tray is shipped with two AC power cords. Each AC power cord connects one of the power supplies in a controller-drive tray to an independent, external AC power source, such as a wall receptacle or a UPS. If you have a cabinet with internal power cabling, such as a ladder cord, you do not need the AC power cords that are shipped with the controller-drive tray. Preparing the Network for the Controllers If you plan to use Ethernet connections from the storage management station to the controllers, you will be using the out-of-band management method. For this configuration, you should meet with your network administrator before you order and install the equipment so that you can prepare for the setup and management of the devices on the IP network. Each controller uses its Ethernet management ports to connect to the IP network and communicate with the other devices on the IP network (often requiring a special application to set up the protocol). Your network administrator can pre-assign the addresses that you need to manage the communication between the devices on the IP network. Depending on your storage configuration, you will need these addresses: • Up to two network IP addresses for each controller • Up to two subnet mask addresses for each controller • Either two IPv4 addresses (one static and one dynamic) or one IPv6 address for each controller • A Dynamic Host Configuration Protocol (DHCP) address for each controller If switches are used in your storage environment, you will also need to know if zoning will be used, and how it will be configured. 2-8 Storage System Site Preparation Guide Chapter 3 Specifications of the 3.5” 2U, 12 Bay Chassis Drive Tray The 3.5" 2U, 12 Bay Chassis drive tray contains Serial Attached SCSI (SAS) drives. Each 3.5" 2U, 12 Bay Chassis contains these components: • A maximum of 12 drives • One or two power-supply fan canisters • One or two environmental services monitor (ESM) canisters Figure 3–1 3.5" 2U, 12 Bay Chassis Drive Tray – Front View 1 End Caps (the Left End Cap Has the Drive Tray LEDs) 2 Drives 3 Right End Cap Figure 3–2 3.5" 2U, 12 Bay Chassis Drive Tray – Rear View 1 DC ! AC 2 DC ! AC 97002-06 3 1 ESM A Canister 2 ESM B Canister 3 Power-Fan A Canister Storage System Site Preparation Guide 3-1 Specifications of the 3.5" 2U, 12 Bay Chassis Drive Tray. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.5" 2U, 12 Bay Chassis Drive Tray Dimensions Figure 3–3 Dimensions of the 3.5" 2U, 12 Bay Chassis Drive Tray – Front View 97007-01 48.26 cm (19.00 in.) 8.64 cm (3.40 in.) 55.25 cm (21.75 in.) 3.5" 2U, 12 Bay Chassis Drive Tray Weight Table 3–1 Weights of the 3.5" 2U, 12 Bay Chassis Drive Tray Weight Unit Maximum* Drive tray 27 kg (59.52 lb) Empty** 18.60 kg (41.01 lb) Shipping*** 31.75 kg (70.0 lb) *Maximum weight indicates drive tray with all of its drives and other components installed. Because drive weights can vary greatly, this value can vary from the value specified as much as 0.3 kg (0.6 lb) times the maximum number of drives per drive tray for 3.5-in. SAS drives. **Empty weight indicates a drive tray with the ESM canisters, the power-fan canisters, and the drives removed. ***Shipping weight indicates the maximum weight of a fully-populated drive tray and all shipping material. Table 3–2 Component Weights of the 3.5" 2U, 12 Bay Chassis Drive Tray Component 3-2 Weight ESM canister 1.750 kg (3.86 lb) Power-fan canister 2.500 kg (5.51 lb) 3.5-in. SAS drive 1.0 kg (2.2 lb) Storage System Site Preparation Guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.5" 2U, 12 Bay Chassis Drive Tray Shipping Dimensions 3.5" 2U, 12 Bay Chassis Shipping Dimensions Table 3–3 Drive Tray and Shipping Carton Dimensions for the 3.5" 2U, 12 Bay Chassis Height Width 24.13 cm (9.5 in.) 58.42 cm (23.00 in.) Depth 68.58 cm (27 in.) 3.5" 2U, 12 Bay Chassis Temperature & Humidity Table 3–4 Temperature Requirements and Humidity Requirements for the 3.5" 2U, 12 Bay Chassis Condition Temperature Relative humidity (no condensation) Parameter Requirement Operating range (both cabinet and subsystem) 10°C to 40°C (50°F to 104°F) Maximum rate of change 10°C (50°F) per hour Storage range –10°C to 50°C (14°F to 122°F) Maximum rate of change 15°C (59°F) per hour Transit range –40°C to 60°C (–40°F to 140°F) Maximum rate of change 20°C (68°F) per hour Operating range (both cabinet and subsystem) 20% to 80% Storage range 10% to 90% Transit range 5% to 90% Operating gradient 10°C (50°F) per hour Storage gradient 15°C (59°F) per hour Transit gradient 20°C (68°F) per hour Maximum dew point 26°C (79°F) Maximum gradient 10% per hour *If you plan to operate a system at an altitude between 1000 m to 3000 m (3280 ft to 9842 ft) above sea level, lower the environmental temperature 1.7°C (35.06°F) for every 1000 m (3280 ft) above sea level. Storage System Site Preparation Guide 3-3 Specifications of the 3.5" 2U, 12 Bay Chassis Drive Tray. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.5" 2U, 12 Bay Chassis Altitude Ranges Table 3–5 Altitude Ranges for the 3.5" 2U, 12 Bay Chassis Drive Tray Environment Altitude Operating 30.5 m (100 ft) below sea level to 3000 m (9,840 ft) above sea level Storage 30.5 m (100 ft) below sea level to 3000 m (9,840 ft) above sea level Transit 30.5 m (100 ft) below sea level to 12,000 m (40,000 ft) above sea level 3.5" 2U, 12 Bay Chassis Airflow and Heat Dissipation Airflow goes from the front of the drive tray to the rear of the drive tray. Allow at least 76 cm (30 in.) of clearance in front of the drive tray and at least 61 cm (24 in.) of clearance behind the drive tray for service clearance, ventilation, and heat dissipation. Figure 3–4 Airflow Through the 3.5" 2U, 12 Bay Chassis – Front View 1 76 cm (30 in.) clearance in front of the cabinet 2 61 cm (24 in.) clearance behind the cabinet The tabulated power and heat dissipation values in Table 11–6 are the maximum measured operating power. Table 3–6 Power Ratings and Heat Dissipation for the 3.5" 2U, 12 Bay Chassis Unit Drive tray 3-4 KVA 0.276 AC Watts 276 Btu/Hr 945 Storage System Site Preparation Guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3.5" 2U, 12 Bay Chassis Drive Tray Acoustic Noise 3.5" 2U, 12 Bay Chassis Acoustic Noise Table 3–7 Acoustic Noise at 25°C for the 3.5" 2U, 12 Bay Chassis Measurement Level Sound power (standby operation) 6.5 bels maximum Sound power (normal operation) 6.8 bels maximum 3.5" 2U, 12 Bay Chassis Site Wiring and Power The 3.5" 2U, 12 Bay Chassis uses wide-ranging, redundant power supplies that automatically accommodate voltages to the AC power source. The power supplies meet standard voltage requirements for both North American (USA and Canada) operation and worldwide (except USA and Canada) operation. The power supplies use standard industrial wiring with line-toneutral or line-to-line power connections. Keep this information in mind when preparing the installation site for the drive tray: • Protective ground – Site wiring must include a protective ground connection to the AC power source. NOTE Protective ground is also known as safety ground or chassis ground. • Circuit overloading – Power circuits and associated circuit breakers must provide enough power and overload protection. To prevent damage to the drive tray, isolate its power source from large switching loads, such as air-conditioning motors, elevator motors, and factory loads. • Power interruptions – The drive tray can withstand these applied voltage interruptions: • ■ Input transient – 50 percent of the nominal voltage ■ Duration – One-half cycle ■ Maximum frequency – Once every 10 seconds Power failures – If a total power failure occurs, the drive tray automatically performs a power-on recovery sequence without operator intervention after the power is restored. Storage System Site Preparation Guide 3-5 Specifications of the 3.5" 2U, 12 Bay Chassis. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.5" 2U, 12 Bay Chassis AC Power Input The AC power sources must provide the correct voltage, current, and frequency specified on the tray and serial number label. Table 3–8 AC Power Requirements for the 3.5" 2U, 12 Bay Chassis Parameter Low Range High Range Nominal voltage 100 VAC 240 VAC Frequency 50 to 60 Hz 50 to 60 Hz Idle current A* A* Maximum operating current A* A* *This data was not verified at the time of publication. For the verified figures, refer to the Product Release Notes for SANtricity ES Storage Manager for Version 10.70. 3.5" 2U, 12 Bay Chassis Power Factor Correction Power factor correction is applied within the power supply of each 3.5" 2U, 12 Bay Chassis, which maintains the power factor of the drive tray at greater than 0.95 with nominal input voltage. 3.5" 2U, 12 Bay Chassis AC Power Cords and Receptacles Each 3.5" 2U, 12 Bay Chassis drive tray is shipped with two AC power cords, which use the standard AC outlets in the destination country. Each AC power cord connects one of the power supplies in the drive tray to an independent, external AC power source, such as a wall receptacle, or to any uninterruptible power supply (UPS). 3-6 Storage System Site Preparation Guide Chapter 4 Specs of the 2.5” 24 Bay Chassis Drive Tray The 2.5" 24 Bay Chassis drive tray contains Serial Attached SCSI (SAS) drives. Each 2.5" 24 Bay Chassis drive tray contains these components: • A maximum of 24 drives • One or two power-supply fan canisters • One or two environmental services monitor (ESM) canisters Figure 4–1 2.5" 24 Bay Chassis Drive Tray – Front View 1 Left End Cap (Has the Drive Tray LEDs) 2 Drives 3 Right End Cap Figure 4–2 2.5" 24 Bay Chassis Drive Tray – Rear View 1 DC ! AC 2 DC ! AC 97002-06 3 1 ESM A Canister 2 ESM B Canister 3 Power-Fan Canister Storage System Site Preparation Guide 4-1 Specifications of the 2.5" 24 Bay Chassis Drive Tray. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2.5" 24 Bay Chassis Drive Tray Dimensions Figure 4–3 Dimensions of the 2.5" 24 Bay Chassis Drive Tray – Front View 96003-04 48.26 cm (19.00 in.) 8.81 cm (3.47 in.) 49.78 cm (19.6 in.) 2.5" 24 Bay Chassis Drive Tray Weight Table 4–1 Weights of the 2.5" 24 Bay Chassis Drive Tray Weight Unit Maximum* 2.5" 24 Bay Chassis 26 kg (57.32 lb) Empty** Shipping*** 21.70 kg (47.84 lb) 31.75 kg (70.0 lb) *Maximum weight indicates a drive tray with all of its drives and other components installed. Because drive weights can vary greatly, this value can vary from the value specified as much as 0.08 kg (0.18 lb) times the maximum number of drives per drive tray for 2.5-in. SAS drives. **Empty weight indicates a drive tray with the ESM canisters, the power-fan canisters, and the drives removed. ***Shipping weight indicates the maximum weight of a fully-populated drive tray and all shipping material. Table 4–2 Component Weights of the 2.5" 24 Bay Chassis Drive Tray Component 4-2 Weight ESM canister 0.907 kg (2.00 lb) Power-fan canister 2.500 kg (5.51 lb) 2.5-in. SAS drive 0.3 kg (0.6 lb) Storage System Site Preparation Guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2.5" 24 Bay Chassis Drive Tray Shipping Dimensions 2.5" 24 Bay Chassis Drive Tray Shipping Dimensions Table 4–3 Drive Tray and Shipping Carton Dimensions for the 2.5" 24 Bay Chassis Drive Tray Height Width 24.13 cm (9.5 in.) 58.42 cm (23.00 in.) Depth 63.50 cm (25 in.) 2.5" 24 Bay Chassis Drive Tray Temperature & Humidity Table 4–4 Temperature Requirements and Humidity Requirements for the 2.5" 24 Bay Chassis Drive Tray Condition Temperature Relative humidity (no condensation) Parameter Requirement Operating range (both cabinet and subsystem) 10°C to 35° C 50°F to 104°F) Maximum rate of change 10°C (18°F) per hour] Storage range –10°C to 50°C (14°F to 122°F) Maximum rate of change 15°C (59°F) per hour Transit range –40°C to 60°C (–40°F to 140°F) Maximum rate of change 20°C (68°F) per hour Operating range (both cabinet and subsystem) 20% to 80% Storage range 10% to 90% Transit range 5% to 90% Operating gradient 10°C (50°F) per hour Storage gradient 15°C (59°F) per hour Transit gradient 20°C (68°F) per hour Maximum dew point 26°C (79°F) Maximum gradient 10% per hour *If you plan to operate a system at an altitude between 1000 m to 3000 m (3280 ft to 9842 ft) above sea level, lower the environmental temperature 1.7°C (3.3°F) for every 1000 m (3280 ft) above sea level. Storage System Site Preparation Guide 4-3 Specifications of the 2.5" 24 Bay Chassis Drive Tray. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2.5" 24 Bay Chassis Drive Tray Altitude Ranges Table 4–5 Altitude Ranges for the 2.5" 24 Bay Chassis Drive Tray Environment Altitude Operating 30.5 m (100 ft) below sea level to 3000 m (9,840 ft) above sea level Storage 30.5 m (100 ft) below sea level to 3000 m (9,840 ft) above sea level Transit 30.5 m (100 ft) below sea level to 12,000 m (40,000 ft) above sea level 2.5" 24 Bay Chassis Drive Tray Airflow & Heat Dissipation Airflow goes from the front of the drive tray to the rear of the drive tray. Allow at least 76 cm (30 in.) of clearance in front of the drive tray and at least 61 cm (24 in.) of clearance behind the drive tray for service clearance, ventilation, and heat dissipation. Figure 4–4 Airflow Through the 2.5" 24 Bay Chassis Drive Tray – Front View 1 76 cm (30 in.) clearance in front of the cabinet 2 61 cm (24 in.) clearance behind the cabinet The tabulated power and heat dissipation values in Table 12–6 are the maximum measured operating power. Table 4–6 Power Ratings and Heat Dissipation for the 2.5" 24 Bay Chassis Drive Tray Unit 2.5" 24 Bay Chassis tray 4-4 KVA Watts (AC) 0.241 240.1 Btu/Hr 821 Storage System Site Preparation Guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2.5" 24 Bay Chassis Drive Tray Acoustic Noise 2.5" 24 Bay Chassis Drive Tray Acoustic Noise Table 4–7 Acoustic Noise at 25°C for the 2.5" 24 Bay Chassis Drive Tray Measurement Level Sound power (standby operation) 6.5 bels maximum Sound power (normal operation) 6.8 bels maximum 2.5" 24 Bay Chassis Drive Tray Site Wiring & Power The 2.5" 24 Bay Chassis drive tray uses wide-ranging, redundant power supplies that automatically accommodate voltages to the AC power source. The power supplies meet standard voltage requirements for both North American (USA and Canada) operation and worldwide (except USA and Canada) operation. The power supplies use standard industrial wiring with line-to-neutral or line-to-line power connections. Keep this information in mind when preparing the installation site for the drive tray: • Protective ground – Site wiring must include a protective ground connection to the AC power source. NOTE Protective ground is also known as safety ground or chassis ground. • Circuit overloading – Power circuits and associated circuit breakers must provide enough power and overload protection. To prevent damage to the drive tray, isolate its power source from large switching loads, such as air-conditioning motors, elevator motors, and factory loads. • Power interruptions – The drive tray can withstand these applied voltage interruptions: • ■ Input transient – 50 percent of the nominal voltage ■ Duration – One-half cycle ■ Maximum frequency – Once every 10 seconds Power failures – If a total power failure occurs, the drive tray automatically performs a power-on recovery sequence without operator intervention after the power is restored. Storage System Site Preparation Guide 4-5 Specifications of the 2.5" 24 Bay Chassis Drive Tray . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2.5" 24 Bay Chassis Drive Tray AC Power Input The AC power sources must provide the correct voltage, current, and frequency specified on the tray and serial number label. Table 4–8 AC Power Requirements for the 2.5" 24 Bay Chassis Drive Tray Parameter Low Range High Range Nominal voltage 100 VAC 240 VAC Frequency 50 to 60 Hz 50 to 60 Hz Idle current A* A* Maximum operating current A* A* *This data was not verified at the time of publication. For the verified figures, refer to the Product Release Notes for SANtricity ES Storage Manager for Version 10.70. 2.5" 24 Bay Chassis Drive Tray Power Factor Correction Power factor correction is applied within the power supply of each 2.5" 24 Bay Chassis drive tray, which maintains the power factor of the drive tray at greater than 0.95 with nominal input voltage. 2.5" 24 Bay Chassis Drive Tray AC Power Cords & Receptacles Each 2.5" 24 Bay Chassis drive tray is shipped with two AC power cords, which use the standard AC utlets in the destination country. Each AC power cord connects one of the power upplies in the drive tray to an independent, external AC power source, such as a wall receptacle, or to any uninterruptible power supply (UPS). 4-6 Storage System Site Preparation Guide Chapter 5 Specifications of the 60-bay Drive Tray The 60-bay drive tray has five separate drawers and is capable of handling 4-Gb Fibre Channel speeds. Each drive drawer contains up to 12 drives, making 60 drives the total capacity of the 60-bay drive tray. The 60-bay drive tray contains these components: • Up to 60 SATA drives • Two power canisters • Two fan canisters • Two environmental services monitor (ESM) canisters Figure 5–1 60-bay Drive Tray – Front View with Bezel Removed 1 2 3 4 5 92000-04 1 2 3 4 5 Drive Drawer 1 Drive Drawer 2 Drive Drawer 3 Drive Drawer 4 Drive Drawer 5 Storage System Site Preparation Guide 5-1 Specifications of the 60-bay Drive Tray. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Figure 5–2 60-bay Drive Tray – Rear View 2 1 1 92001-01 3 1 Fan Canisters 2 Power Canisters 3 ESM Canisters An AC power source supplies power to the power canister. Figure 5–3 Power Source Options for the 60-bay Drive Tray – Rear View 1 AC Power Switch on the Power Canister The drive trays come with drive interface ports that enable you to establish up to four drive channels when using the Xanadu-220 controller tray for your disk storage solution. 5-2 Storage System Site Preparation Guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 60-bay Drive Tray Dimensions 60-bay Drive Tray Dimensions The 60-bay drive tray is only available as a rackmount model that conforms to the 100-cm (40.0-in.) rack depth. Figure 5–4 Dimensions of the 60-bay Drive Tray – Front View 92015-03 17.78 cm (7.00 in.) 82.55 cm (32.50 in.) 48.26 cm (19.00 in.) 60-bay Drive Tray Weight Table 5–1 Weights of the 60-bay Drive Tray Unit 60-bay drive tray Weight Maximum* 102.1 kg (225 lb) Empty** 56.7 kg (125 lb) Shipping*** 192 kg (420 lb) *Maximum weight indicates a drive tray with all of its drives and other components installed. Because drive weights can vary greatly, this value can vary from the value specified as much as 0.3 kg (0.6 lb) times the maximum number of drives per drive tray for drives weighing 0.725 kg (1.6 lb). **Empty weight indicates a drive tray with the ESM canisters, the power canisters, the fan canisters, and the drives removed. ***Shipping weight indicates the empty weight of a drive tray and all shipping material, as well as the weight of the 60 drives that are shipped separately in multi-pack cartons. Storage System Site Preparation Guide 5-3 Specifications of the 60-bay Drive Tray. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Table 5–2 Component Weights of the 60-bay Drive Tray Component Weight ESM canister 1.65 kg (3.64 lb) Power canister 2.5 kg (5.46 lb) Fan canister Approximately 1 kg (2.2 lb) Drive 0.74 kg (1.64 lb) 60-bay Drive Tray Shipping Dimensions Table 5–3 Shipping Carton Dimensions for the 60-bay Drive Tray Height 48.26 cm (19 in.) Width Depth 60.96 cm (24.00 in.) 100.97 cm (39.75 in.) 60-bay Drive Tray Temperature and Humidity Table 5–4 Temperature Requirements and Humidity Requirements for the 60-bay Drive Tray Condition Temperature* Relative humidity (no condensation) Parameter Requirement Operating range 0°C to 35°C (32°F to 95°F) Maximum rate of change 10°C (95°F) per hour Storage range –10°C to 50°C (95°F to 122°F) Maximum rate of change 15°C (59°F) per hour Transit range –40°C to 60°C (–40°F to 140° F) without the battery Maximum rate of change 20°C (68°F) per hour Operating range 20% to 80% Storage range 10% to 90% Transit range 5% to 95% Maximum dew point 26°C (79°F) Maximum gradient 10% per hour *If you plan to operate a system at an altitude between 1000 m to 3000 m (3280 ft to 9842 ft) above sea level, lower the environmental temperature 1.7°C (35°F) for every 1000 m (3280 ft) above sea level. 5-4 Storage System Site Preparation Guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 60-bay Drive Tray Altitude Ranges 60-bay Drive Tray Altitude Ranges Table 5–5 Altitude Ranges for the 60-bay Drive Tray Environment Altitude Operating 30.5 m (100 ft) below sea level to 3000 m (9842 ft) above sea level Storage 30.5 m (100 ft) below sea level to 3000 m (9842 ft) above sea level Transit 30.5 m (100 ft) below sea level to 12,000 m (40,000 ft) above sea level 60-bay Drive Tray Airflow and Heat Dissipation Airflow goes from the front of the drive tray to the rear of the drive tray. Allow at least 81 cm (32 in.) of clearance in front of the drive tray and at least 61 cm (24 in.) of clearance behind the drive tray for service clearance, ventilation, and heat dissipation. Figure 5–5 Airflow Through the 60-bay Drive Tray – Front View 1 81 cm (32 in.) clearance in front of the cabinet 2 61 cm (24 in.) clearance behind the cabinet Storage System Site Preparation Guide 5-5 Specifications of the 60-bay Drive Tray. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . The tabulated power and heat dissipation values in Table 13–6 are the maximum measured operating power. Table 5–6 Power Ratings and Heat Dissipation for the 60-bay Drive Tray Unit 60-bay drive tray with two power supplies, two ESMs, 60 drives (Seagate 1000-Gb SATA), and two fan canisters, full speed KVA 1.203 Watts (AC) 1181 Btu/hr 4039 60-bay Drive Tray Acoustic Noise Table 5–7 Sound Levels for the 60-bay Drive Tray Measurement Level Sound power (standby operation) 6.5 bels Sound power (normal operation) 6.8 bels Sound pressure 68 dBA 60-bay Drive Tray Site Wiring and Power The agency ratings for the 60-bay drive tray are 8.64 A at 200 VAC and 7.20 A at 240 VAC. These ratings are the overall maximum AC currents for this system. The 60-bay drive tray uses wide-ranging, redundant power supplies that automatically accommodate voltages to the AC power source. The power supplies meet standard voltage requirements for both North American (USA and Canada) operation and worldwide (except USA and Canada) operation. The power supplies use standard industrial wiring with line-to-neutral or line-to-line power connections. Keep this information in mind when you prepare the installation site for the drive tray: • Protective ground – Site wiring must include a protective ground connection to the AC power source. NOTE • 5-6 Protective ground is also known as safety ground or chassis ground. Circuit overloading – Power circuits and associated circuit breakers must provide enough power and overload protection. To prevent damage to the drive tray, isolate its power source from large switching loads, such as air-conditioning motors, elevator motors, and factory loads. Storage System Site Preparation Guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 60-bay Drive Tray Power Input • • Power interruptions – The drive tray can withstand these applied voltage interruptions: ■ Input transient – 50 percent of the nominal voltage ■ Duration – One-half cycle ■ Maximum frequency – Once every 10 seconds Power failures – If a total power failure occurs, the drive tray automatically performs a power-on recovery sequence without operator intervention after the power is restored. 60-bay Drive Tray Power Input Each power supply contains one 15-A slow-blow fuse. Table 5–8 AC Power Requirements for the 60-bay Drive Tray Parameter High Range Nominal voltage 200 to 240 VAC Frequency 50 to 60 Hz Idle current 5.5 A Maximum operating current 9.4 A Maximum surge current 10.34 A 60-bay Drive Tray Power Factor Correction Power factor correction is applied within the power canister of each 60-bay drive tray, which maintains the power factor of the drive tray at no less than 0.95 with at all input voltage levels. 60-bay Drive Tray AC Power Cords and Receptacles Each 60-bay drive tray is shipped with two AC power cords, which fit the standard AC outlets in the destination country. Each AC power cord connects one of the power canisters in the drive tray to an independent, external AC power source, such as a wall receptacle, or to any uninterruptible power supply (UPS). Storage System Site Preparation Guide 5-7