3PAR InServ® E-Class/F-Class Storage Server Physical Planning Manual 3PAR Inc. 4209 Technology Drive Fremont, CA 94538 U.S.A. Part No.
Revision Notice This is the sixth release of this manual. A complete revision history is provided at the end of this manual. Changes The material in this document is for information only and is subject to change without notice. While reasonable efforts have been made in the preparation of this document to assure its accuracy, 3PAR Inc. assumes no liability resulting from errors or omissions in this document or from the use of the information contained herein.
This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual Table of Contents 1 Introduction 1.1 Audience 1.2 1.2 Related Documentation 1.2 1.3 Organization 1.3 1.4 Typographical Conventions 1.4 1.5 Advisories 1.5 2 System Components and Specifications 2.1 Introduction 2.1 2.2 3PAR InServ Storage Server Components 2.2 2.3 Physical Dimensions 2.5 2.4 System Capacity 2.8 2.5 Power and Heat Specifications 2.10 2.6 Environmental Specifications 2.16 2.7 Cable Specifications 2.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 3.2.2 Planning for Installation 3.3 3.2.3 Preparing a Pre-Installation Site Planning Guide 3.4 3.3 Shipping and Acclimatization Requirements 3.5 3.3.1 Shipping Requirements 3.5 3.3.2 InServ Storage Server Cabinet Shipping Containers 3.6 3.3.3 Acclimatization 3.4 Administering Management Workstations 3.11 3.11 4 Structural/Environmental Considerations 4.1 Introduction 4.2 4.2 General Information 4.2 4.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 5.3 Electrical Requirements and Limitations 5.3.1 Power and Heat Dissipation 5.3.2 Voltage Requirements 5.7 5.7 5.11 5.4 Power Quality 5.12 5.5 Voltage and Frequency Tolerance 5.13 5.6 Voltage Spikes 5.13 5.7 Electrostatic Discharge 5.13 5.8 Branch Circuits 5.14 5.9 Emergency Power Control 5.14 5.10 Redundant Power 5.14 6 Network, Cabling and Connectivity 6.1 Introduction 6.2 6.2 Planning Network Access 6.2 6.2.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 7 Third-Party Rack Mounting 7.1 Introduction 7.1 7.2 Third Party Rack Mounting Considerations 7.2 7.3 Dimensional Requirements 7.2 7.3.1 Rack Space Considerations 7.6 7.3.2 RETMA Rail Spacing 7.7 7.3.3 Maintaining Minimum Clearances 7.8 7.4 Rack Mounting Kits A IX RH viii Table of Contents 7.10 7.4.1 Two-Post Shelf Kit 7.10 7.4.2 Four-Post Shelf Kit 7.11 7.5 Redundant Power Requirements 7.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 1 Introduction In this chapter 1.1 Audience 1.2 1.2 Related Documentation 1.2 1.3 Organization 1.3 1.4 Typographical Conventions 1.4 1.5 Advisories 1.5 This manual provides information that is useful for planning and preparing for the installation of 3PAR InServ® Storage Servers.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 1.1 Audience The information in this manual is intended for use by 3PAR customers, in conjunction with the advice and assistance of a 3PAR Sales Representative or Systems Engineer, for the purpose of planning an InServ Storage Server installation. The installation of 3PAR equipment is to be completed by qualified technicians who are authorized by 3PAR to install InServ Storage Servers and their hardware components.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 1.3 Organization This manual is organized as follows: ◆ Chapter 1, Introduction (this chapter), provides an overview of this manual, including information on audience, document conventions, and related documentation. ◆ Chapter 2, System Components and Specifications, provides detailed system specifications for the InServ Storage Servers.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 1.4 Typographical Conventions The following typographical conventions are used in this guide: Typeface Meaning Example ABCDabcd Used for dialog box Enter your system name in the elements such as titles and Value box and click OK. button labels. ABCDabcd and screen output, and for Found < 12 > 73G disks. Enter cli at the Windows text you are to enter. command prompt.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 1.5 Advisories Before installing an InServ Storage Server, consult Appendix A, Agency Compliance Statements, to obtain important safety information. To avoid injury to people or damage to data and equipment, be sure to observe the cautions and warnings in this guide. Always be careful when operating any electrical equipment.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 1.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 2 System Components and Specifications In this chapter 2.1 Introduction 2.1 2.2 3PAR InServ Storage Server Components 2.2 2.3 Physical Dimensions 2.5 2.4 System Capacity 2.8 2.5 Power and Heat Specifications 2.10 2.6 Environmental Specifications 2.16 2.7 Cable Specifications 2.18 2.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 2.2 3PAR InServ Storage Server Components 3PAR Utility Storage systems are based on the 3PAR InSpire architecture, a cluster-based approach that incorporates sophisticated data management and fault tolerance technologies that can meet the storage needs of smaller sites and can easily be scaled for global organizations.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual Figure 2-1 and Figure 2-2 on page 2.4 show the front and rear views of a fully populated 2M (40U) 3PAR cabinet with the various components installed: Drive Chassis E200 Node Chassis (Controller Nodes Located Behind Bezel) Service Processor Power Distribution Units (PDUs) 0396_L_R1 Figure 2-1. The Front of an E200 InServ Storage Server (in a 2 Meter Rack) 2.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual Drive Chassis Power Supplies (4x) Controller Node Power Supplies (4x) Controller Nodes (4x) Service Processor Empty 1U Space Power Distribution Units (PDUs) (4x) (Rear View) 0698_L_R2 Figure 2-2. The Rear View of an F400 Storage Server with 4 Controller Nodes 2.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 2.3 Physical Dimensions Table 2-1 lists the physical dimensions for the E-Class and F-Class InServ Storage Server components. These specifications are subject to change without notice. Table 2-1. E-Class and F-Class InServ Storage Server Physical Dimensions Physical Dimensions for InServ Storage Server Components 1-Meter Cabinet (Only available for the E200) Dimensions (width x height x depth) 23.8 x 41.25 x 36 in. 60.5 x 104.8 x 91.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual Table 2-1. E-Class and F-Class InServ Storage Server Physical Dimensions (continued) Physical Dimensions for InServ Storage Server Components Maximum Load per leveling Foot 111 lbs/sq. in. 50.5 kg/sq. cm E200 Controller Node Chassis (Base Configuration) Dimensions: (width x height x 19 x 6.85 x 22 in. 48.3 x 17.4 x 55.9 cm 90 lbs. 40.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual Table 2-1. E-Class and F-Class InServ Storage Server Physical Dimensions (continued) Physical Dimensions for InServ Storage Server Components Weight: 4 Controller Nodes (fully 160 lbs. 72.6 kg 19 x 5.12 x 22 in. 48.3 x 13 x 55.9 cm 78 lbs. 35.4 kg 16.9 x 1.63 x 15 in. 42.9 x 4.27 x 38.1 cm Weight 13.2 lbs. 6.0 kg Supermicro II 16.8 x 1.7 x 22.6 in. 42.6 x 4.3 x 57.4 cm 28 lbs. 12.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 2.4 System Capacity Table 2-2 lists system capacity specifications for the E-Class/F-Class Storage Servers. Table 2-2.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual Table 2-2. System Capacity for E-Class/F-Class Storage Servers (continued) Feature E200 F200 F400 (4 Node)* RAID 5 data to 2:1, 8:1 2:1, 8:1 2:1, 8:1 6:2, 14:2 6:2, 14:2 6:2, 14:2 Drive capacities 146 15K FC, 300 50 SSD, 146 15K 50 SSD, 146 15K (GB’s approx.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 2.5 Power and Heat Specifications Table 2-3 describes electrical current requirements and heat dissipation for the E-Class/F-Class Storage Servers. Table 2-3. Power and Heat Specifications 1 Meter Cabinet (Only available for the E200) Max. Watts per Cabinet (fully 2,880 populated) Max.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual Table 2-3. Power and Heat Specifications (continued) 2 Meter Cabinet Max. Watts per Cabinet (fully * 5,580 populated) Max. BTUs/hour per cabinet 19,040[[[update]]] (fully populated) Input Voltage (VAC) (200 - 240) Frequency (Hz) (50 - 60), 1-phase Circuit Breaker Max 30 amps per PDU (de-rated to 24 amps) Power Connectors (provided) (4) L6-30P for 1+1 rdnt. 2.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual Table 2-3. Power and Heat Specifications (continued) E200 Controller Node Chassis Watts 730 BTUs/hour (fully populated) 2491 BTUs/hr. Input Voltage 100-240 VAC Frequency 50-60 Hz Power Receptacle IEC-320 for 1+1 redundancy.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual Table 2-3. Power and Heat Specifications (continued) F400 Controller Node Chassis (Quad Node) Watts 1460 BTUs/hour (fully populated) 4,982 BTUs/hr. Input Voltage 100-240 VAC Frequency 50-60 Hz Power Receptacle (2) IEC-320 for 1+1 redundancy. 2.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual Table 2-3. Power and Heat Specifications (continued) Drive Chassis Watts 525 BTUs/hour (fully populated) 1,792 BTUs/hr. Input Voltage 100-240 VAC Frequency 48 - 62 Hz Power Receptacle (2) IEC-320 with 1+1 rdnt.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual Table 2-3. Power and Heat Specifications (continued) 4 x 1 TB NL Drives Watts 47 32 BTUs/hour 160 109 Service Processor Supermicro 260 Watts Supermicro 1370 BTUs/hr. BTUs/hour (fully populated) Supermicro II 280 Watts Supermicro II 955 BTUs/hr. BTUs/hour (fully populated) Input Voltage 100-240 VAC Frequency 50-60 Hz Power Receptacle (2) IEC-320 with 1+1 rdnt. * Represents a fully populated F400 with 4 nodes.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 2.6 Environmental Specifications Table 2-4 lists the environmental specification for the E-Class/F-Class Storage Servers. Table 2-4. Environmental Specifications for InServ Storage Servers Specification Value Altitude Operating 0–10,000 ft. (3,048 m) Nonoperating 0–40,000 ft. (12,192 m) Ambient temperature Operating 50–104°F/10–40°C 0–3,000 ft. (914.4 m) 50–95°F/10–35°C 3,000–10,000 ft.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual Table 2-4. Environmental Specifications for InServ Storage Servers (continued) Specification Value Relative humidity 20–80 percent non-condensing, maximum gradient 10 percent per hour Vibration Controller Chassis: 0.1g 5-100Hz swept sine per GR-63-CORE R4-56 Drive Chassis: 0.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 2.7 Cable Specifications Table 2-5 identifies the types of cables commonly required for storage server installation. Table 2-5. Required Cables (Customer Responsibility) Cable Type Connector Type Ethernet (Category 5) RJ-45 3 cables with 2 static IPs Multimode Fibre Channel LC-LC (See Table 2-6 for diameter specification) Modem RJ-45 Table 2-6 provides cable limitations for fibre channel host connectivity. Table 2-6.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 3 General Site Planning In this chapter 3.1 Introduction 3.1 3.2 General Planning 3.2 3.2.1 Customer Responsibilities 3.2 3.2.2 Planning for Installation 3.3 3.2.3 Preparing a Pre-Installation Site Planning Guide 3.4 3.3 Shipping and Acclimatization Requirements 3.5 3.3.1 Shipping Requirements 3.5 3.3.2 InServ Storage Server Cabinet Shipping Containers 3.6 3.3.3 Acclimatization 3.4 Administering Management Workstations 3.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 3.1 Introduction This chapter provides general recommendations for physical planning and site preparation for installation and operation of the 3PAR InServ E-Class/F-Class Storage Servers. 3.2 General Planning Successful installation of 3PAR InServ Storage Servers requires careful planning and supervision in collaboration with authorized 3PAR representatives.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual Adequate power is necessary for the reliable functioning of electronic equipment and for the safety of the customer's installation. The customer is responsible for procuring, installing, and maintaining adequate power to the equipment. Refer to Chapter 5, Power Requirements for input electrical power and grounding requirements.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 3.2.3 Preparing a Pre-Installation Site Planning Guide Prior to installation, the customer will complete a systems planning document such as the 3PAR Systems Assurance and Pre-Site Planning Guide in cooperation with the local 3PAR Sales Representative or 3PAR Systems Engineer.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 3.3 Shipping and Acclimatization Requirements Safe transport of InServ Storage Servers requires the appropriate shipping containers. A separate crate holds each storage server cabinet while drive magazine shipping containers hold a maximum of thirty drive magazines each. 3.3.1 Shipping Requirements 3PAR recommends shipping all InServ Storage Server components through surface transport.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 3.3.2 InServ Storage Server Cabinet Shipping Containers A separate crate holds each storage server cabinet while drive magazine shipping containers hold a maximum of 16 drive magazines each. The drive magazines are shipped in a separate container. Shipping container measurements are as follows: ■ Wooden cabinet crate (one per 2M rack cabinet): Height: 83 in. (210.8 cm) x Width: 42 in. (106.7 cm) x Depth: 51 in. (129.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual When the equipment arrives, you must make sure that there is enough room to unload and unpack the server. The specific amount of space you will need to unpack the server is based on the dimensions of the container, the ramp, and the room required to access the server so that it can be moved to its placement destination.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 3.3.2.1 Cabinet Shipping Container (2 Meter) Measurements for the shipping container are as follows: ■ Cabinet crate (one per cabinet): Height: 83 in. (210.8 cm) x Width: 42 in. (106.7 cm) x Depth: 51 in. (129.5 cm) ■ Open ramp length: 78 in. (193 cm) ■ Approximate shipping weight: 2000 lbs. (907 kg) Figure 3-2 shows the front view of the shipping container: (Front) 0625_L_R1 Figure 3-2.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual The equipment is removed from the front of the container by pulling on two straps that wrap around the cabinet. Figure 3-3 shows the front view of the container with the ramp down and the straps exposed: Straps 0624_L_R1 Figure 3-3. Front View of 2 Meter Container with Ramp Down 3.3.2.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual ■ Wooden cabinet crate (one per 1M rack cabinet): 52 5/8 in. (133.7 cm) x 34 in. (86.4 cm) x 46 in. (116.8 cm) (International) Approximate shipping weight in 1M wooden crate: 860 lbs. (390 kg) Figure 3-4 shows the front view of the 1 meter shipping container with the ramp down: Bolt (2x) Bottom Edge of Crate Panel Front of Panel Rotary Latch (4x) 0019_L_R1 Figure 3-4. Front View of 1 Meter Wooden Shipping Container with Ramp Down 3.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 3.3.3 Acclimatization InServ Storage Servers shipped or stored at extreme temperatures may require time to adjust to operating temperatures before start-up. The maximum acceptable rate of temperature change for a non-operating system is 18 °F/hr (10°C/hr). The storage server requires time to acclimatize to new environmental conditions before being powered on.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 3.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 4 Structural/Environmental Considerations In this chapter 4.1 Introduction 4.2 4.3 Establishing the Proper Foundation 4.3 4.3.1 Benefits of Raised Floors 4.3 4.3.2 Raised Floor Requirements 4.4 4.3.3 Weight and Pressure Loads 4.6 4.3.4 Tile Cutout Specifications 4.7 4.3.5 Anchoring Dimensions for InServ Storage Servers 4.8 4.3.6 Additional Flooring Recommendations 4.10 4.3.7 Hot-Aisle/Cold-Aisle Cooling Layout 4.11 4.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 4.1 Introduction This chapter discusses the placement, housing and environmental considerations for 3PAR InServ E-Class/F-Class Storage Servers. NOTE: The measurements and specifications described in this chapter are specific for 3PAR InServ Storage Servers, but the generic information is useful when planning installations that utilize 3PAR components in third-party racks. See Chapter 7, Third-Party Rack Mounting for further details. 4.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 4.3 Establishing the Proper Foundation As with any electronic equipment that generates heat, the 3PAR InServ Storage Servers must be housed in a cool environment. Common techniques for maintaining an optimal operating environment generally incorporate the use of raised flooring and alternating hot and cold aisle layouts. 4.3.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 4.3.2 Raised Floor Requirements There are additional structural considerations when installing InServ Storage Servers in environments with raised flooring. NOTE: This section considers a standard raised floor construction that consists of the following: 24 in. (61 cm) square or 24 in. (61 cm) X 36 in. (91.5 cm) panels, steel or aluminum stringers, and pedestal supports attached to an underlying concrete slab or steel deck.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual Placing each storage server cabinet across two floor tiles is strongly recommended. It is also strongly recommended that a vented floor tile be placed in front of each cabinet. Figure 4-1 shows two storage servers side-by-side, each resting across two floor tiles. Vented Tiles 0206_L_R1 Figure 4-1.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual When placing cabinets with their weight shared by the same panels as shown in Figure 4-2 on page 4.5, verify that each panel can tolerate the maximum weight per panel, calculated as follows: weight cabinet x + weight cabinet y 2 where cabinet x and cabinet y are cabinets or equipment resting partially on the same floor panel. 4.3.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 4.3.4 Tile Cutout Specifications Figure 4-3 defines the recommended tile cutout specifications for 3PAR storage server cabinets. 24 in. (61 cm) Floor Tile 24 x 24 in. (61 x 61 cm) 24 in. (61 cm) 23.8 in. (60.5 cm) 8.5 in. (21.6 cm) Cabinet Rear 13 in. (33 cm) Storage Server Cabinet 23.8 x 36 in. (60.5 x 91.4 cm) 7 in. (17.8 cm) 24 in. (61 cm) Cabinet Cable Routing Opening 6 in. (15.2 cm) Power Cable Cutout 8 x 6 in. (20.3 x 15.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 4.3.5 Anchoring Dimensions for InServ Storage Servers Some installations may want to anchor InServ Storage Servers to the floor for better stability, especially in seismically active locations. While 3PAR does not supply, or specifically recommend any particular anchoring solution, there are several third-party anchoring kits that can be procured for this purpose.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual Leveler Foot (4X) Caster (4X) All Dimensions in Millimeters 0736_L_R1 Figure 4-6. Bottom View Dimensions for the InServ Storage Server 4.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 4.3.6 Additional Flooring Recommendations Consider the following recommendations for raised floor installations: ■ The flooring should be high enough to allow under the floor routing of cables and specified airflow to system air intakes. The recommended minimum floor clearance is 30.5 cm (12 in). An additional 3 in. (7.6 cm) should be allowed for cables and connectors. A floor clearance of 18 in.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual ◆ The resistance between adjacent tiles should not be less than 150 kilohms when measured between any points on the floor, spaced 36 in. (91.5 cm) apart. ◆ Maintenance of antistatic floor covering should be performed according to supplier's recommendations. 4.3.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual A cold aisle has perforated floor tiles or grates that enable cold air to rise from the raised floor whereas the hot aisle has no tiles or grates so that hot air and cold air do not mix. Seal cable cutouts in both hot aisles and cold aisles to increase under the floor pressure and to eliminate cold or hot air redirection.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual When establishing an operating site for an InServ storage server, provide for adequate access to cabinets by following the access area recommendations in Table 4-4. Table 4-4. Access Area for InServ Storage Servers Cabinet Surface Access Area During Operation Front 30 in (76.2 cm) Rear 30 in (76.2 cm) NOTE: InServ Storage Servers have On/Off switches located at the rear of the system.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 4.5 Meeting Environmental Conditions For the 3PAR InServ Storage Servers, it is recommended that you maintain a controlled environment that requires a high degree of cleanliness, close control of temperature and humidity, and infrequent personnel access. 3PAR also recommends the installation site meet the specifications detailed in GR-63-CORE for office vibration.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual Table 4-5. Environmental Specifications for InServ Storage Servers (continued) Specification Value Temperature gradient Operating 59°F/15°C/hr Nonoperating 68°F/20°C/hr Relative humidity 20–80 percent non-condensing, maximum gradient 10 percent per hour Vibration Controller Chassis: 0.1g 5-100Hz swept sine per GR-63-CORE R4-56 Drive Chassis: 0.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual for any period negatively affects the system’s reliability and performance, and continued operation for extended periods under such conditions might actually cause the system to shut down. CAUTION: Heated air from nearby equipment should not exhaust into the front of the InServ Storage Server. Table 4-6.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual The air-conditioning units should have controls monitoring under the floor output that respond to 2° F (1° C) and 5 percent relative humidity. Humidification is normally required to replace moisture removed during the cooling process. The relative humidity for a subsystem equipment room should be set at 40 percent.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual ■ Metal flakes or filings, such as those produced by sawing, filing, or drilling. ■ Floor-cleaning solutions with high ammonia content. Deteriorating/decomposing building materials, including floor tiles, fabrics, sheetrock, insulation, and acoustical tiles. ■ Pollutants generated by any servicing performed in and around the computer room. ■ Paper chaff, dust, and toners from printers within the computer room.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 4.5.4 Minimizing Vibration The E-Class/F-Class Controller Chassis have been tested to operate without damage to the system when subjected to continuous vibration per GR-63-CORE R4-56, and the storage array has also been tested to operate error-free when subjected to continuous vibration not exceeding 0.21grms from 5 to 500Hz. These levels represent vibration typically encountered in a data center environment.
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3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 5 Power Requirements In this chapter 5.1 Introduction 5.2 5.2 Powering InServ Storage Servers 5.2 5.2.1 Power Distribution Units (PDUs) 5.5 5.2.2 Power Cord Connections 5.6 5.3 Electrical Requirements and Limitations 5.3.1 Power and Heat Dissipation 5.3.2 Voltage Requirements 5.7 5.7 5.11 5.4 Power Quality 5.12 5.5 Voltage and Frequency Tolerance 5.13 5.6 Voltage Spikes 5.13 5.7 Electrostatic Discharge 5.13 5.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 5.1 Introduction This chapter defines the general power requirements for the 3PAR E-Class/F-Class InServ Storage Servers. 5.2 Powering InServ Storage Servers The cabinets used to house the InServ Storage Server components are divided into power domains where each contains a drive cage or controller node and two dedicated power supplies.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual Drive Chassis Power Supplies (2x) Controller Node Power Supplies (2x) Service Processor Power Distribution Units (PDUs) (4x) (Rear View) 00707_L_R1 Figure 5-1. Power Supplies Within the Power Domains 3PAR cabinets contain four (PDUs) and each requires service from a dedicated single-phase 200-240 VAC, 30-A grounded electrical circuit.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual Customer Power A1 3PAR PDU - 0 3PAR PDU - 1 Customer Power A2 Customer Power B1 3PAR PDU - 2 3PAR PDU - 3 Customer Power B2 0732_L_R1 NOTE: If a storage server cabinet has only one Node Chassis and up to four Drive Chassis (i.e., it does not have components installed in the top four bays (bays 0–3), or the highest 16U of the cabinet), the two upper PDUs (PDU 0 and PDU1) are not used to power the system and need not be connected.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 5.2.1 Power Distribution Units (PDUs) For each cabinet, the four Power Distribution Units (PDUs) occupy the lowest chassis bay in the cabinet. Figure Figure 5-2 shows the four PDUs at the bottom of a 3PAR cabinet. PDUs 0 1 2 3 0216_L_R2 Figure 5-2. Power Distribution Units Each PDU has two power banks, each with a separate circuit breaker, to be used exclusively for storage server components (Figure 5-3).
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 5.2.2 Power Cord Connections 3PAR InServ Storage Servers arrive with all internal power cords configured and connected. The AC cords connect two power supplies at the rear of the controller nodes and drive chassis to the PDUs at the bottom of the cabinet. The length of the power cord is 10 feet.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 5.3 Electrical Requirements and Limitations Before physically installing an InServ Storage Server, verify that the operating site has the necessary electrical circuitry. Each InServ Storage Server will require 4 (200 - 240) Volt, 30 Amp outlets or 2 outlets for 1 Meter cabinets or if only the bottom half of the 2 Meter cabinet is occupied. For proper redundant power protection, power should be supplied from two or more power sources.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual Table 5-1. Power and Heat Specifications (continued) Max. BTUs/hour per cabinet (fully 9,825 populated) Input Voltage (VAC) (200 - 240) Frequency (Hz) (50 - 60), 1-phase 50/60 Circuit Breaker Max 30 amps per PDU (de-rated to 24 amps) Power Connectors (provided) (2) L6-30P for 1+1 redundancy 2 Meter Cabinet Max. Watts per Cabinet (fully populated) *5,580 Max.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual Table 5-1. Power and Heat Specifications (continued) Watts 730 BTUs/hour (fully populated) 2491 BTUs/hr Input Voltage 100-240 VAC Frequency 50-60 Hz Power Receptacle (2) IEC-320 for 1+1 redundancy. F400 Controller Node Chassis (Quad Node) Watts 1460 BTUs/hour (fully populated) 4,982 BTUs/hr. Input Voltage 100-240 VAC Frequency 50-60 Hz Power Receptacle (2) IEC-320 for 1+1 redundancy.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual Table 5-1. Power and Heat Specifications (continued) Supermicro 1370 BTUs/hr. BTUs/hour (fully populated) Supermicro II 280 Watts Supermicro II 955 BTUs/hr. BTUs/hour (fully populated) Input Voltage 100-240 VAC Frequency 50-60 Hz Power Receptacle (2) IEC-320 with 1+1 rdnt. * Represents a fully populated F400 with 4 nodes. 5.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 5.3.2 Voltage Requirements The following are the voltage requirements for the InServ E-Class/F-Class Storage Servers: ■ 200-240 VAC ■ 50-60 Hz Table 5-2 lists current requirements for storage server components depending on voltage. NOTE: All calculations in Table 5-2 are based on fully populated components; for example, a fully populated E200/F200 drive chassis contains 16 disks.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual Table 5-3 lists total current limitations for storage server systems depending on voltage. The total current drawn by all components installed in a single cabinet must not exceed these totals. Table 5-3. Total Current Limitations Per System Current at Current at Current at 200 VAC (A) 220 VAC (A) 240 VAC (A) 14.4 13.1 12.0 23.4 21.3 19.5 Maximum current per 1M cabinet (2 PDUs) Maximum current per 2M cabinet (4 PDUs) 5.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 5.5 Voltage and Frequency Tolerance Steady state voltage must be maintained within 10 percent of the normal rated voltage, measured (under load) at the power input terminal of the specified server. The frequency must be maintained at (50-60 Hz), 1 phase 50/60 +2 percent, -4 percent. When there is a possibility of brownouts or other marginal voltage conditions, installing a voltage monitor may be advisable. 5.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 5.8 Branch Circuits The individual panel branch circuits should be protected by suitable circuit breakers properly rated according to manufacturer specifications and applicable codes. Each circuit breaker should be labeled to identify the branch circuit it is controlling. The receptacle should also be labeled. Plan on a circuit breaker maximum of 30 A per PDU (de-rated to 24 A). 5.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual Table 5-4. Maximum Current Draw Per Outlet Requirements for Storage Server Components Maximum Load (A) Line Voltage Controller Chassis Drive Chassis Service Processor 110 3.6 4.5 3.5 208 1.8 2.2 1.7 230 1.6 2.0 1.5 (VAC) InServ Storage Servers with 3PAR cabinets support redundant power within the system through the use of redundant PDUs and redundant power supplies.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual Upper Power Domain Lower Power Domain (Front View) 0726_L_R1 Figure 5-5. Front View of the Power Domains Within the Controller Nodes and Drive Chassis 5.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual Upper Power Domain Lower Power Domain (Rear View) 0728_L_R1 Figure 5-6. Rear View of the Power Domains Within the Controller Nodes and Drive Chassis NOTE: The Rear for the E200 and F200 are the same except for the arrangement of ports on each of the different controller nodes. The F400 has four controller nodes. 5.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual Figure 5-7 and Figure 5-8 illustrate standard redundant power configurations for a fully loaded E200 Storage Server housed in a 2M rack and 1M rack. PDUs are numbered 0 through 4 with each PDU receptacle numbered 0 through 7. The service processor and chassis PDU Cord number corresponds with a PDU and receptacle number. For example, PDU 2 and outlet 6 is expressed as 2.6.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual PDU Cord # The PDU (X) and PDU Outlet (Y) correspond to the PDU Cord Number (X.Y) connected to the chassis components. PDU Number PDU Cord # Bay # 1.5 1 E200 Node Chassis 0.0 Rail RU # 17 0.1 Drive Chassis 0 0.2 Drive Chassis 1 1.6 2 14 X PDU Outlet Y PDU Cord Number X.Y 1.7 3 11 0 0 1.0 Drive Chassis 2 1.1 1.2 1 1 2 2 0.6 4 Drive Chassis 3 0.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual Figure 5-9 and Figure 5-10 illustrate standard redundant power configuration for a fully loaded F200 and F400 Storage Server housed in a 2M rack. PDUs are numbered 0 through 4 with each PDU receptacle numbered 0 through 7. The service processor and chassis PDU Cord number corresponds with a PDU and receptacle number. For example, PDU 2 and outlet 6 is expressed as 2.6.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual PDU Cord # Y PDU Cord Number X.Y 39 Drive Chassis 7 0.0 1.6 0 36 0.1 Drive Chassis 6 1.7 1 1.0 Drive Chassis 5 0.6 2 X PDU Outlet Rail RU # Bay # Top Cable Routing Access The PDU (X) and PDU Outlet (Y) correspond to the PDU Cord Number (X.Y) connected to the chassis components. PDU Number PDU Cord # Drive Chassis 4 1.1 2.0 33 0.7 3 3.5 4 30 27 23 F400 Node Chassis 5 3.6 2.1 19 2.2 Drive Chassis 0 3.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 5.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 6 Network, Cabling and Connectivity In this chapter 6.1 Introduction 6.2 6.2 Planning Network Access 6.2 6.2.1 Supported Network Topologies 6.2 6.3 Adapter Connections for the E-Class/F-Class Controller Nodes 6.6 6.3.1 E-Class Controller Node 6.7 6.3.2 F-Class Controller Node 6.8 6.3.3 Controller Node Slot Loading Order 6.9 6.3.4 Drive Chassis Connections 6.11 6.3.5 Host Connections 6.11 6.4 TCP/IP Port Assignments 6.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 6.9.1 Connecting the Service Processor 6.24 6.1 Introduction This chapter provides information on determining the best network configuration for the 3PAR InServ Storage Server components being installed at your site, necessary connections and cable routing options. NOTE: The information that follows assumes an established network and discusses how to connect an InServ Storage Server to that network. 6.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual NOTE: To provide redundancy and to permit online software upgrades, both controller nodes in a single horizontal node pair (for example, nodes 0 and 1, nodes 2 and 3, and so on) must maintain connections to the internal customer network. 6.2.1.1 Shared Network With a shared network topology, the storage server and service processor share the internal customer network (Figure 6-1).
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 6.2.1.2 Split Network With a split network topology, the storage server is on the internal customer network, but the storage server communicates with the service processor on a dedicated private network segment (Figure 6-2).
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual ◆ Two Ethernet connections from the private network segment to the storage server controller nodes. 1 ◆ One Ethernet connection from the private segment to the service processor. ◆ A static IP address for the service processor. 6.2.1.3 Private Network With a private network topology, the storage server and the service processor sit on the same private network segment on the customer local area network.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual ◆ At least one management station on the private network segment. NOTE: It is strongly recommended that the private network segment also have a management station to communicate with the service processor. NOTE: When implementing Remote Copy interfaces, the service processor should not be assigned to the same subnet. 6.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 6.3.1 E-Class Controller Node As shown in Figure 6-4, for the E200 node, there are two onboard controller slots (slots 0 and 3), which hold two Fibre Channel SFPs each. In addition, there are two controller slots (slots 1 and 2) to hold a maximum of two adapters each.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 6.3.2 F-Class Controller Node As shown in Figure 6-5, for the F-Class node, there is one onboard controller slot (slot 2), which holds four Fibre Channel SFPs. In addition, there are two controller slots (slots 0 and 1) to hold a maximum of two PCI adapters each for dual-port Fibre Channel and iSCSI connections. Slot 0 Slot 1 Slot 2 FC / iSCSI FC / iSCSI FC Ethernet Port (E0) GigE Ethernet Port (E1) GigE 0681_L_R2 Figure 6-5.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 6.3.3 Controller Node Slot Loading Order Table 6-1 shows the controller slot loading order for the E-Class and F-Class controller nodes: Table 6-1.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 6.3.3.1 Slotting Rules When configuring an F-Class with FC adapters, there are two possible configurations around the embedded ports and FC adapter assignments: ■ Case A (if you plan on adding more FC host ports (or iSCSI, or RC over FC): Slot 2 Slot Slot 0 1 Disk Host Port 4 Port 3 Port 1 Port 2 Disk Host Figure 6-6.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 6.3.4 Drive Chassis Connections The following guidelines should be followed for drive chassis connections: E-Class Control Node: ■ Fibre Channel ports in controller slot 0 are typically reserved for drive chassis connections. ■ The optimal Fibre Channel slot loading order for drive chassis connections is slot 0, slot 1 and slot 3.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 6.4 TCP/IP Port Assignments Table 6-2 describes the TCP/IP port assignments for communication between various components: Table 6-2.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual Port Usage 162: SNMPTRAP Used by the 3PAR SNMP agent to Flow of Traffic send unsolicited alerts as SNMPv2c traps for 3rd party SNMP Manager applications by the following components: ■ 3PAR SNMP Agent 3rd Party SNMP Manager <-3PAR InServ SNMP agent 427: Service Location Used by the 3PAR CIM API to Protocol (SLP) provide CIM Server location information by the following component: ■ 3PAR CIM Server 3rd Party CIM Client <--> 3PAR
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual Port Usage 5782: 3PAR Used for InServ monitoring and Management Service configuration over an unsecured (unsecured) channel by the following Flow of Traffic components: ■ ■ 3PAR InForm Management 3PAR IMC <--> 3PAR InServ CLI Console Server 3PAR InForm CLI 3PAR CLI <--> 3PAR InServ CLI Server ■ 3PAR Recovery Manager Recovery Manager <--> 3PAR InServ CLI Server ■ 3PAR System Reporter 3PAR System Reporter <--> 3PAR InSe
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual Port Usage 5783: 3PAR Used for InServ monitoring and Management Service configuration over a secured with SSL (secured) channel by the following Flow of Traffic components: ■ ■ 3PAR InForm Management 3PAR IMC <--> 3PAR InServ CLI Console Server 3PAR InForm CLI 3PAR CLI <--> 3PAR InServ CLI Server ■ 3PAR Recovery Manager Recovery Manager <--> 3PAR InServ CLI Server ■ 3PAR System Reporter 3PAR System Reporter <--> 3PAR
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual Port Usage 5988: WBEM CIM-XML Used for InServ monitoring and (HTTP) (unsecured) configuration over an unsecured Flow of Traffic channel by the following component: ■ 3PAR CIM Server 3rd Party CIM Client <--> 3PAR InServ CIM Server 5989: WBEMCIM-XML Used for InServ monitoring and (HTTPS) (secured) configuration over a secured channel by the following component: ■ 3PAR CIM Server 3rd Party CIM Client <--> 3PAR InServ CIM Serve
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 6.5 Required Cables The quantities and lengths of the cables required for storage server installation vary according to the specific storage server and network configuration. Fibre Channel cables are used externally to connect the controller node to the customer switch or host (in the case of a directly connected host).
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 6.6 External Cable Connections Table 6-4 includes specific guidelines for connecting the controller nodes to the network and to host computers. Refer to Supported Network Topologies on page 6.2 for descriptions of the supported network topologies. Table 6-4.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual ■ Each controller node supports one Ethernet connection to a switch or hub. Separate connections from the Ethernet switch or hub to at least two controller nodes are required to support redundancy. With redundancy, one IP address is shared between the two connections and only one network connection is active at a time. If the active network connection fails, the IP address is automatically moved to the surviving network connection.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 6.7 Internal Cable Connections For storage servers housed in single cabinets, internal system Fibre Channel cabling is complete upon arrival. For multiple-cabinet configurations, the installation technician completes connections between the controller node cabinet and the drive chassis cabinet or cabinets. NOTE: For important exceptions to the cabling rules and guidelines described in this section, see the InForm OS Administrator’s Guide.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 6.8 Cable Routing Options Typical storage server cabinets have both upper and lower access openings available for Fibre Channel cable routing Figure 6-8. Upper Access Opening Lower Access Opening 0016_L_R2 Figure 6-8.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 6.9 Service Processor Connections The Service Processor provides remote error detection and reporting and supports diagnostic and maintenance activities for InServ Storage Servers (Figure 6-9 or Figure 6-10). Eth-1 (Int) Eth-0 (Ext) 0638_L_R1 Figure 6-9. Supermicro Service Processor with Ethernet Ports Eth-1 (Int) Eth-0 (Ext) 0806_L_R1 Figure 6-10.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual NOTE: When the service processor connects by modem, the customer is responsible for supplying an analog phone line. Table 6-7 summarizes the connectivity options for both data transfer and remote operations. Data transfer involves external communications between the service processor and 3PAR or another connection portal. Remote operations include problem solving and diagnostics performed from a remote location.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 6.9.1 Connecting the Service Processor The service processor uses customer-supplied connections, as outlined in Supported Network Topologies on page 6.2. Table 6-8 provides general guidelines for completing these external connections. Table 6-8.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 7 Third-Party Rack Mounting In this chapter 7.1 Introduction 7.1 7.2 Third Party Rack Mounting Considerations 7.2 7.3 Dimensional Requirements 7.2 7.3.1 Rack Space Considerations 7.6 7.3.2 RETMA Rail Spacing 7.7 7.3.3 Maintaining Minimum Clearances 7.8 7.4 Rack Mounting Kits 7.10 7.4.1 Two-Post Shelf Kit 7.10 7.4.2 Four-Post Shelf Kit 7.11 7.5 Redundant Power Requirements 7.12 7.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 7.2 Third Party Rack Mounting Considerations Some installations may want to use third-party cabinets to house the InServ Storage Server components supplied by 3PAR. You can choose to use a Two Post Cabinet or a Four Post Cabinet providing that they meet the mounting requirements described in this chapter.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 17.677 21.390 (All Measurements in Inches) .834 Max 19.000 13.772 (F400) 6.886 (E200/F200) 0511_L_R1 Figure 7-1. Required Dimensions for the InServ E200/F200 and the F400 Node Chassis 7.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 17.650 21.390 (All Measurements in Inches) 19.000 5.066 0512_L_R1 Figure 7-2. Required Dimensions for the DC3 Drive Chassis 7.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual If you are installing the 3PAR equipment in a Four Post Cabinet, it must meet the minimum and maximum specifications shown in Figure 7-3. Cabinet Post (4) Internal Rail Minimum: 22 Inches Maximum: 39 Inches Cabinet Wall Maximum: 18.50 Inches Minimum: 17.75 Inches Top View of Cabinet 0521_L_R1 Figure 7-3.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 7.3.1 Rack Space Considerations 3PAR highly recommends installing node-chassis and all drive chassis in contiguous rack space. This is especially true for the initial installation as it ensures Fibre Channel cables will reach and provides consistency for servicing and installation. When adding additional drive chassis at a later date, it is desirable to place them with the initial chassis, but it is not required.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 7.3.2 RETMA Rail Spacing The Radio Electronics Television Manufacturers Association (RETMA) railing is a standard of rack spacing. An E200 and F200 node chassis requires 4U of spacing and an F400 requires 8U of space. The drive chassis requires 3U of spacing. The actual physical height of a service processor is 1U, but it requires 2U of spacing in the rack for servicing. See Figure 7-5 for the RETMA rack spacing diagram.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 7.3.3 Maintaining Minimum Clearances Proper clearances should be maintained for all third-party rack mounted installations to allow for proper ventilation, cabling and access for maintenance. Table 7-1 shows the minimum clearance that should be maintained for third-party rack installations: Table 7-1. Minimum Clearances for Third-Party Racks Minimum Clearances Service Front: 30 in. (76.2 cm) Rear: 30 in. (76.2 cm) x 19" (50.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual Figure 7-6 shows the minimum clearances that should be reserved for the 2 post and 4 post rack system.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 7.4 Rack Mounting Kits There are two different rack-mounting kits available to accommodate different styles of racks. The specific type and features of the rack dictates the necessary mounting kit. Use Table 7-2 to determine the appropriate mounting kits for the type of rack you are planning to use. Table 7-2.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 7.4.1.2 Flush Mounting Flush-mount shelves are mounted on the back of the posts. The equipment is placed on the shelf and secured to the front of the rack posts using screws appropriate for your particular rack. Flush mounting is permitted in two-post racks that have been reinforced with wall supports. 7.4.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual 7.5 Redundant Power Requirements Each InServ Storage Server component is supplied with redundant power supplies. The controller nodes and drive chassis are designed to continue operating even when AC power is lost to one of its supplies. For this feature to operate properly, each power supply line cord within an enclosure must be attached to a separate branch circuit, each controlled and protected by its own circuit breaker.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual A Agency Compliance Statements In this appendix A.1 Safety Precautions A.2 A.2 Safety Agency Compliance Notices A.2 A.2.1 System Placement and Security A.2 A.2.2 Battery Replacement and Disposal A.5 A.2.3 Controller Nodes A.8 A.2.4 Drive Chassis A.13 A.3 3PAR Power Cables A.16 A.4 Energy Consumption Efficiency A.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual A.1 Safety Precautions To be safe and to protect system data and equipment, always follow the instructions in this manual when installing, maintaining, troubleshooting, and upgrading InServ Storage Servers and their components. In addition, please take the following precautions: ■ Follow all instructions, warnings, and cautions printed on individual storage server components.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual WAARSCHUWING: Deze eenheid dient te worden geïnstalleerd op een beperkt toegankelijke locatie. ADVERTENCIA: Está unidad deberá ser instalada en una área de acceso restringido. A.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual For storage servers with 3PAR cabinets, secure the system by locking the rear doors on all cabinets. WARNING: Hazardous energy is located behind the rear access door of the storage server cabinet. ACHTUNG: Hinter der rückwärtigen Zugangstür des Storage-Server-Schranks liegen gefährliche Spannungen an. AVERTISSEMENT: Énergie dangereuse située derrière la porte d'accès arrière du coffret de serveur de stockage.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual A.2.2 Battery Replacement and Disposal Storage server controller nodes contain 3-V lithium coin batteries. These batteries require periodic replacement. WARNING: There is danger of an explosion if the lithium coin battery inside the controller node is incorrectly replaced. Replace the coin battery only with the same or equivalent type recommended by the manufacturer.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual ADVERTENCIA: Existe el peligro de explosión si la batería de litio dentro del controlador del nodo es reemplazada incorrectamente. Reemplacela solamente con una batería del mismo tipo o con una de tipo equivalente recomendado por el fabricante. CAUTION: Dispose of used batteries according to the manufacturer’s instructions. A.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual VORSICHT: Gebrauchte Batterien nur gemäß Herstelleranweisung entsorgen. ATTENTION: Débarrassez-vous des batteries use selon les instructions de fabricant. WAARSCHUWING: Verwijder gebruikte batterijen volgens de instructies van de fabrikant. PRECAUCION: Deseche baterías usadas de acuerdo a las instrucciones del fabricante. A.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual A.2.3 Controller Nodes For controller nodes installed in cabinets not provided by 3PAR, observe the following precautions: WARNING: Install this unit in a restricted access location. ACHTUNG: Diese Einheit darf nicht frei zugänglich installiert werden. AVERTISSEMENT: Installer cette unité dans un endroit restreint d'accès. WAARSCHUWING: Deze eenheid dient te worden geïnstalleerd op een beperkt toegankelijke locatie.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual WARNING: Hazardous energy located on rear connectors. ACHTUNG: An den rückwärtigen Anschlüssen liegen gefährliche Spannungen an. AVERTISSEMENT: Énergie dangereuse située sur les connecteurs arrière. WAARSCHUWING: Gevaarlijke energievelden achter de aansluitingen aan de achterzijde. A.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual ADVERTENCIA: Energía peligrosa localizada en los conectores traseros. WARNING: There is danger of an explosion if the lithium coin battery inside the controller node is incorrectly replaced. Replace the coin battery only with the same or equivalent type recommended by the manufacturer. ACHTUNG: Bei unsachgemäßem Austausch der Lithium-Knopfbatterie im Steuerknoten besteht Explosionsgefahr.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual AVERTISSEMENT: Il y a un danger d'explosion si la batterie de lithium à l'intérieur du contrôleur est incorrectement positionnée. Remplacez la batterie seulement avec le même type ou équivalent recommandé par le fabricant. WAARSCHUWING: Er bestaat kans op explosies als de lithium muntbatterij in de controller node niet op de juiste wijze wordt vervangen.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual CAUTION: Dispose of used batteries according to the manufacturer’s instructions. VORSICHT: Gebrauchte Batterien nur gemäß Herstelleranweisung entsorgen. ATTENTION: Débarrassez-vous des batteries use selon les instructions de fabricant. WAARSCHUWING: Verwijder gebruikte batterijen volgens de instructies van de fabrikant. PRECAUCION: Deseche baterías usadas de acuerdo a las instrucciones del fabricante. A.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual A.2.4 Drive Chassis For drive chassis installed in cabinets not provided by 3PAR, observe the following precautions: WARNING: Install this unit in a restricted access location. ACHTUNG: Diese Einheit darf nicht frei zugänglich installiert werden. AVERTISSEMENT: Installer cette unité dans un endroit restreint d'accès. WAARSCHUWING: Deze eenheid dient te worden geïnstalleerd op een beperkt toegankelijke locatie.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual WARNING: There is danger of an explosion if the battery is incorrectly replaced. Replace only with the same or equivalent type recommended by the manufacturer. ACHTUNG: Bei unsachgemäßem Austausch der Batterie besteht Explosionsgefahr. Sie darf nur durch eine gleiche bzw. vom Hersteller empfohlene gleichwertige Batterie ersetzt werden. AVERTISSEMENT: Il y a un danger d'explosion si la batterie est incorrectement positionnée.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual WAARSCHUWING: Er bestaat kans op een explosie als de batterij niet op de juiste wijze wordt vervangen. Alleen te vervangen door een type dat equivalent is aan het type dat door de fabrikant wordt aanbevolen. ADVERTENCIA: Existe el peligro de explosión si la batería es reemplazada incorrectamente. Reemplácela solamente con una batería del mismo tipo o un tipo equivalente recomendado por el fabricante. A.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual A.3 3PAR Power Cables English Compliance Statement All power cables provided by 3PAR are for exclusive use for 3PAR products. Japanese Compliance Statement A.4 Energy Consumption Efficiency Energy consumption efficiency*= 0.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual Index A access recommendations, physical 4.13 altitude requirements and specifications 2.16, 4.14 audience, for this manual 1.2 authorized technicians, list of 1.2 B batteries explosion warning for A.5 lithium, replacement and disposal of A.5 C cabinets controller nodes, current requirements 5.11 drive chassis current requirements 5.11 non-3PAR, controller node warnings A.8 numbering in PDUs 5.5 cables included with servers 6.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual structural requirements 4.4 to 4.6 H humidity specifications for servers 2.17, 4.15 cooling 4.15 electrical 5.4 structural 4.5 RETMA 7.7 spacing, definition 7.7 revision history RH.1 M modem cables included with server 2.18, 6.17 modem connection configuration 6.24 N NEMA L6-30 receptacle connectors 5.4 notes, about 4.12 notes, cautions, and warnings, explanation 1.5 numbering power supplies 5.2 P PDUs.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual W weight and load for server 4.6 Index IX.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual IX.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual Revision History Release Level Revision Summary 320-200120 Rev A First version of this manual to accommodate physical planning for March 2009 the 3PAR InServ E-Class and F-Class Storage Servers and third-party rack installations. 320-200120 Rev B Second version of this manual with updated specifications and May 2009 additional information based on field requirements.
3PAR InServ E-Class/F-Class Storage Server Physical Planning Manual RH.