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EMC ® VMAX ® All Flash Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS REVISION 8.2

Site Planning Guide VMAX All Flash · CONTENTS 6 Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS

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Page 1: Site Planning Guide VMAX All Flash · CONTENTS 6 Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS

EMC® VMAX® All FlashSite Planning Guide

VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950Fwith HYPERMAX OS REVISION 8.2

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Copyright © 2016-2017 Dell Inc. or its subsidiaries. All rights reserved.

Published August 2017

Dell believes the information in this publication is accurate as of its publication date. The information is subject to change without notice.

THE INFORMATION IN THIS PUBLICATION IS PROVIDED “AS-IS.“ DELL MAKES NO REPRESENTATIONS OR WARRANTIES OF ANY KIND

WITH RESPECT TO THE INFORMATION IN THIS PUBLICATION, AND SPECIFICALLY DISCLAIMS IMPLIED WARRANTIES OF

MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. USE, COPYING, AND DISTRIBUTION OF ANY DELL SOFTWARE DESCRIBED

IN THIS PUBLICATION REQUIRES AN APPLICABLE SOFTWARE LICENSE.

Dell, EMC, and other trademarks are trademarks of Dell Inc. or its subsidiaries. Other trademarks may be the property of their respective owners.

Published in the USA.

EMC CorporationHopkinton, Massachusetts 01748-91031-508-435-1000 In North America 1-866-464-7381www.EMC.com

2 Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS

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7

9

Preface 11Revision history...........................................................................................14

Pre-planning tasks 15Before you begin......................................................................................... 16Tasks to review........................................................................................... 16VMAX All Flash packaging........................................................................... 17

Delivery and transportation 19Delivery arrangements................................................................................20Pre-delivery considerations........................................................................ 20Moving up and down inclines......................................................................20Shipping and storage environmental requirements......................................21

Specifications 23Radio frequency interference..................................................................... 24

Recommended minimum distance from RF emitting device...........24Power consumption and heat dissipation....................................................25

Adaptive cooling............................................................................ 26Airflow........................................................................................................ 27Air volume, air quality, and temperature..................................................... 28

Air volume specifications............................................................... 28Temperature, altitude, and humidity ranges...................................28Temperature and humidity range recommendations...................... 28Air quality requirements.................................................................29

Shock and vibration....................................................................................30Sound power and sound pressure...............................................................30Hardware acclimation times........................................................................ 31Optical multimode cables............................................................................32

Open systems host and SRDF connectivity................................... 32

Data Center Safety and Remote Support 35Fire suppressant disclaimer........................................................................ 36Remote support..........................................................................................36

Physical weight and space 39Floor load-bearing capacity........................................................................ 40Raised floor requirements...........................................................................40Physical space and weight.......................................................................... 41

Figures

Tables

Chapter 1

Chapter 2

Chapter 3

Chapter 4

Chapter 5

CONTENTS

Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS 3

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Position VMAX 250F Bay 43Bay layout and dimensions..........................................................................44Tile placement............................................................................................ 45Casters and leveling feet............................................................................ 45Cabinet stabilizing...................................................................................... 47

Position VMAX 450F, VMAX 850F, VMAX 950F Bays 49System bay layouts.................................................................................... 50

Adjacent layouts, VMAX 450F, VMAX 850F, VMAX 950F .............51Dispersed layout, VMAX 450F, VMAX 850F, VMAX 950F............. 52Adjacent and dispersed (mixed) layout ......................................... 53

Dimensions for array layouts...................................................................... 54Tile placement............................................................................................ 55Caster and leveler dimensions.................................................................... 56

Power cabling, cords and connectors 59Power distribution equipment, VMAX 250F................................................60Power distribution unit VMAX 450F, VMAX 850F, VMAX 950F................. 62Wiring configurations, VMAX 250F............................................................ 64Wiring configurations, VMAX 450F, VMAX 850F, VMAX 950F.................. 68Power interface.......................................................................................... 72Customer input power cabling.................................................................... 72

VMAX 250F customer AC power feed cabling............................... 73Best practices: Power configuration guidelines.......................................... 74Power extension cords, connectors, and wiring..........................................74

Single-phase..................................................................................75Three-phase (International (Wye))................................................80Three-phase (North American (Delta))......................................... 83Three-phase (Wye, Domestic).......................................................85

EMC racking for VMAX 250F 87Two system configurations.........................................................................88EMC rack requirements for customer components.................................... 88

Third Party Racking Option for VMAX 250F 89Computer room requirements, VMAX 250F............................................... 90Customer rack requirements, VMAX 250F................................................. 90PDU requirements for third party racks, VMAX 250F................................. 91

Component power requirements, VMAX 250F .............................. 91Power distribution equipment for third-party rack, VMAX 250F....94

Third Party Racking Option for VMAX 450F, VMAX 850F andVMAX 950F 95Computer room requirements ....................................................................96Customer rack requirements ..................................................................... 97Third party racks with vertical PDUs — RPQ Required ............................. 99

Requirements for third party racks with vertical PDUs (rear-facing).....................................................................................................100Requirements for third party racks with vertical PDUs (inward-facing) .........................................................................................102

Chassis to chassis grounding.................................................................... 103

Chapter 6

Chapter 7

Chapter 8

Chapter 9

Chapter 10

Chapter 11

CONTENTS

4 Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS

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Optional kits 105Overhead routing kit................................................................................. 106PDU/PDP kits, VMAX 250F...................................................................... 106Dispersion kits, VMAX 450F, VMAX 850F.................................................106Dispersion kits, VMAX 950F......................................................................107Securing kits............................................................................................. 108GridRunner kit and customer-supplied cable trough................................. 108

Best Practices for AC Power Connections 111Best practices overview for AC power connections................................... 112Selecting the proper AC power connection procedure...............................113Procedure A: Working with the customer's electrician onsite.................... 114

Procedure A, Task 1: Customer's electrician................................. 115Procedure A, Task 2: EMC Customer Engineer ............................ 116Procedure A, Task 2: EMC Customer Engineer (VMAX 250F)..... 120Procedure A, Task 3: Customer's electrician................................ 124

Procedure B: Verify and connect.............................................................. 125Procedure C: Obtain customer verification............................................... 126PDU labels.................................................................................................126

PDU label part numbers................................................................126Applying PDU labels, VMAX 250F ................................................127Applying PDU labels, VMAX 450F, VMAX 850F, VMAX 950F...... 128

Ground the cabinet................................................................................... 128AC power specifications............................................................................130

Chapter 12

Appendix A

CONTENTS

Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS 5

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CONTENTS

6 Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS

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Typical airflow in a hot/cold aisle environment........................................................... 27Cabinet dimensions and clearances ........................................................................... 44Placement with floor tiles........................................................................................... 45Adjacent layout, VMAX 450F, VMAX 850F, VMAX 950F............................................ 51Dispersed layout, front view....................................................................................... 52Adjacent and dispersed (mixed) layout, dual-engine array..........................................53Layout Dimensions, VMAX 450F, VMAX 850F, VMAX 950F...................................... 54Placement with floor tiles, VMAX 450F, VMAX 850F, VMAX 950F............................55Caster and leveler dimensions.................................................................................... 56Power distribution unit (PDU), VMAX 250F, rear view............................................... 61Power distribution unit (PDU) without installed wire bales, rear view.........................63Power distribution unit (PDU) with installed wire bales, rear view..............................63PDU internal wiring, VMAX 250F................................................................................64Single-phase, PDP internal wiring, VMAX 250F..........................................................65Three-phase (Delta), PDP internal wiring, VMAX 250F..............................................66Three-phase (Wye), PDP internal wiring, VMAX 250F............................................... 67Single-phase, horizontal 2U PDU internal wiring, VMAX 450F, VMAX 850F, VMAX950F...........................................................................................................................69Three-phase (Delta), horizontal 2U PDU internal wiring, VMAX 450F, VMAX 850F,VMAX 950F................................................................................................................ 70Three-phase (Wye), horizontal 2U PDU internal wiring, VMAX 450F, VMAX 850F,VMAX 950F.................................................................................................................71Customer input power cabling for VMAX 250F...........................................................73Single-phase: EF-PW40U-US (VMAX 450F, VMAX 850F), ET-PW40U-US (VMAX950F), ES-PW40U-US (VMAX 250F)........................................................................ 77Single-phase: EF-PW40URUS (VMAX 450F, VMAX 850F), ET-PW40URUS (VMAX950F), ES-PW40URUS (VMAX 250F)....................................................................... 78Single-phase: EF-PW40UIEC3 (VMAX 450F, VMAX 850F), ET-PW40UIEC3 (VMAX950F), ES-PW40UIEC3 (VMAX 250F).......................................................................78Single-phase: EF-PW40UASTL (VMAX 450F, VMAX 850F), ET-PW40UASTL (VMAX950F), ES-PW40UASTL (VMAX 250F)......................................................................79Single-phase: E-PW40L730........................................................................................79Flying leads, three-phase, international: EF-PC3YAFLE (VMAX 450F, VMAX 850F),ET-PC3YAFLE (VMAX 950F), ES-PC3YAFLE (VMAX 250F), ....................................81Three-phase, international: EF-PCBL3YAG (VMAX 450F, VMAX 850F), ET-PCBL3YAG (VMAX 950F), ES-PCBL3YAG (VMAX 250F)......................................... 82Three-phase, North American, Delta: EF-PCBL3DHR (VMAX 450F, VMAX 850F), ET-PCBL3DHR (VMAX 950F), ES-PCBL3DHR (VMAX 250F).........................................84Three-phase, North American, Delta: EF-PCBL3DHH (VMAX 450F, VMAX 850F), ET-PCBL3DHH (VMAX 950F), ES-PCBL3DHH (VMAX 250F)........................................ 84Three-phase, domestic (Black and Gray): EF-PCBL3YL23P (VMAX 450F,VMAX 850F), ET-PCBL3YL23P (VMAX 950F), ES-PCBL3YL23P (VMAX 250F)...... 86Customer rack dimension requirements .....................................................................98Requirements for customer rack with rear-facing, vertical PDUs..............................100Requirements for third party rack with inward-facing, vertical PDUs........................102Two independent customer-supplied PDUs............................................................... 112Circuit breakers ON — AC power within specification...............................................115Circuit breakers OFF — No AC power....................................................................... 115System bay power tee breakers (OFF = pulled out)...................................................116Connecting AC power, single-phase...........................................................................117Connecting AC power, three-phase........................................................................... 118Power zone connections............................................................................................119PDP power switches for Zone A and B ..................................................................... 120

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FIGURES

Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS 7

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Connecting AC power ............................................................................................... 121Power zone connections........................................................................................... 122Customer input power cabling for VMAX 250F......................................................... 123Applying the PDU labels ........................................................................................... 127PDU label , single-phase and three-phase................................................................. 128Label placement— Customer PDU Information.........................................................128Location of cabinet ground lugs................................................................................ 129

42434445464748

FIGURES

8 Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS

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Typographical conventions used in this content.......................................................... 12Revision history...........................................................................................................14Before you begin......................................................................................................... 16Shipping and storage environmental requirements......................................................21Minimum distance from RF emitting devices.............................................................. 24Power consumption and heat dissipation....................................................................25Airflow diagram key.................................................................................................... 27Maximum air volume, VMAX 250F..............................................................................28Maximum air volume, VMAX 450F, VMAX 850F, VMAX 950F....................................28Environmental operating ranges................................................................................. 28Temperature and humidity..........................................................................................29Platform shock and vibration......................................................................................30Sound power and sound pressure levels, A-weighted, VMAX 250F............................ 30Sound power and sound pressure levels, A-weighted, VMAX 450F, VMAX 850F,VMAX 950F................................................................................................................30Hardware acclimation times (systems and components).............................................31OM3 and OM4 Fibre cables — 50/125 micron optical cable.......................................32Space and weight requirements, VMAX 250F............................................................. 41Space and weight requirements, VMAX 450F, VMAX 850F, VMAX 950F................... 41Adjacent layout diagram key, VMAX 450F, VMAX 850F, VMAX 950F ....................... 51Caster and leveler dimensions diagram key................................................................ 56Extension cords and connectors options – single-phase.............................................75Extension cords and connectors options – three-phase international (Wye)..............80Extension cords and connectors options – three-phase North American (Delta)....... 83Extension cords and connectors options – three-phase Wye, domestic..................... 85Engine and 2U SPS power requirements.................................................................... 9225 drive DAE power requirements.............................................................................. 93Power Distribution Equipment C13 Outlet Connections required for 1 V-Brick ...........94Power Distribution Equipment C13 Outlet Connections required for 2 V-Bricks ........ 94Overhead routing models, VMAX 250F..................................................................... 106Overhead routing models, VMAX 450F, VMAX 850F, VMAX 950F........................... 106PDU/PDP kits for VMAX 250F................................................................................. 106Dispersion kit model numbers, VMAX 450F, VMAX 850F..........................................107Dispersion kit model numbers, VMAX 950F...............................................................107Securing kit models, VMAX 250F..............................................................................108Securing kit models, VMAX 450F, VMAX 850F, VMAX 950F....................................108Bottom routing model, VMAX 250F.......................................................................... 109Bottom routing model, VMAX 450F, VMAX 850F, VMAX 950F................................ 109Procedure options for AC power connection ............................................................ 113VMAX 250F label part numbers.................................................................................126VMAX 450F, VMAX 850F, VMAX 950F label part numbers, EMC racks ...................126Input power requirements - single-phase, North American, International, Australian..................................................................................................................................130Input power requirements - three-phase, North American, International, Australian.................................................................................................................................. 131

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42

TABLES

Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS 9

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TABLES

10 Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS

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Preface

As part of an effort to improve its product lines, EMC periodically releases revisions ofits software and hardware. Therefore, some functions described in this documentmight not be supported by all versions of the software or hardware currently in use.The product release notes provide the most up-to-date information on productfeatures.

Contact your EMC representative if a product does not function properly or does notfunction as described in this document.

Note

This document was accurate at publication time. New versions of this document mightbe released on EMC Online Support (https://support.emc.com). Check to ensure thatyou are using the latest version of this document.

PurposeThis document is intended for use by customers and/or company representatives whowant to plan the purchase and installation of a VMAX All Flash system.

AudienceThis document is intended for use by customers or company representatives.

Related documentationThe following documentation portfolios contain documents related to the hardwareplatform and manuals needed to manage your software and storage systemconfiguration. Also listed are documents for external components which interact withyour array.

EMC VMAX All Flash Product Guide for VMAX 250F, 450F, 850F, 950F with HYPERMAXOS

Provides product information regarding the purchase of a VMAX 250F, 450F,850F, 950F with HYPERMAX OS.

EMC VMAX Securing Kit Installation Guide

Describes how to install the securing kit on a VMAX3 Family array or VMAX AllFlash array.

EMC VMAX Best Practices Guide for AC Power Connections

Describes the best practices to assure fault-tolerant power to a VMAX3 Familyarray or VMAX All Flash array.

EMC VMAX Power-down/Power-up Procedure

Describes how to power-down and power-up a VMAX3 Family array or VMAX AllFlash array.

HYPERMAX OS 5977.xxx.xxx for EMC VMAX3 Family and VMAX All Flash Release Notes

Describes new features and any known limitations.

Special notice conventions used in this documentEMC uses the following conventions for special notices:

Preface 11

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DANGER

Indicates a hazardous situation which, if not avoided, will result in death orserious injury.

WARNING

Indicates a hazardous situation which, if not avoided, could result in death orserious injury.

CAUTION

Indicates a hazardous situation which, if not avoided, could result in minor ormoderate injury.

NOTICE

Addresses practices not related to personal injury.

Note

Presents information that is important, but not hazard-related.

Typographical conventionsEMC uses the following type style conventions in this document:

Table 1 Typographical conventions used in this content

Bold Used for names of interface elements, such as names of windows,dialog boxes, buttons, fields, tab names, key names, and menu paths(what the user specifically selects or clicks)

Italic Used for full titles of publications referenced in text

Monospace Used for:

l System code

l System output, such as an error message or script

l Pathnames, filenames, prompts, and syntax

l Commands and options

Monospace italic Used for variables

Monospace bold Used for user input

[ ] Square brackets enclose optional values

| Vertical bar indicates alternate selections - the bar means “or”

{ } Braces enclose content that the user must specify, such as x or y orz

... Ellipses indicate nonessential information omitted from the example

Where to get helpSupport, product and licensing information can be obtained as follows:

Preface

12 Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS

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Product information

EMC technical support, documentation, release notes, software updates, orinformation about EMC products can be obtained on the https://support.emc.com site (registration required).

Technical support

To open a service request through the https://support.emc.com site, you musthave a valid support agreement. Contact your EMC sales representative fordetails about obtaining a valid support agreement or to answer any questionsabout your account.

Your commentsYour suggestions help us improve the accuracy, organization, and overall quality of thedocumentation. Send your comments and feedback to: [email protected]

Preface

13

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Revision history

Table 2 Revision history

Revision Description and/or change Datereleased

8.2 Fixed typo for single-phase PDP wiring configuration. August, 2017

8.1 Added recommendation for chassis to chassis grounding formultiple bay systems.

June, 2017

8.0 Added VMAX 950F product content. May, 2017

7.0 Updated power and heat dissipation numbers for VMAX 250F.Corrected formula for 3rd party rack cabinet widthrequirements.

September,2016

6.0 Added VMAX 250F product content and adjusted documentarchitecture for readability.Updated wiring configuration diagrams and content for new2U PDUs.

Updated power distribution unit recommendations foroverhead power.

August, 2016

5.0 In Position Bays chapter, removed an incorrect image. June, 2016

4.0 Added content to support option for 3rd-party racks. May, 2016

3.0 Modified topics to reflect Slot 9 is reserved for compression. April, 2016

2.0 Updated values in the power and heat dissipation specificationtable.

February,2016

1.0 First release of the VMAX All Flash with EMC HYPERMAX OSfor VMAX 450F, VMAX 450FX, VMAX 850F, andVMAX 850FX.

February,2016

Preface

14 Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS

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CHAPTER 1

Pre-planning tasks

This chapter includes:

l Before you begin.................................................................................................16l Tasks to review...................................................................................................16l VMAX All Flash packaging...................................................................................17

Pre-planning tasks 15

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Before you beginVMAX All Flash arrays are designed for installation in data centers that provide:

l Sufficient physical space

l Controlled temperature and humidity

l Airflow and ventilation

l Power and grounding

l System cable routing facilities

l Fire protection

Raised floors are preferred.

For information regarding overhead cable routing, see: Overhead routing kit on page106.

To prepare the site for an array, meet with your EMC Systems Engineer and EMCCustomer Engineer and determine what is needed to prepare for delivery andinstallation.

One or more sessions may be necessary to finalize installation plans.

Tasks to reviewThe following table provides a list of tasks to review during the planning process:

Table 3 Before you begin

Task Comments and/or Provide

Identify power requirements with customer and customerelectrician.

External AC power must be supplied from an independentcustomer-supplied power distribution unit (PDU).

EMC recommends that the customer’s electrician be availableat the installation site for regular and third party rackedarrays.

Best Practices for AC Power Connections on page 111provides details.

For customer-supplied third party rack support, see thedetailed physical requirements in Third Party Racking Optionfor VMAX 250F on page 89 and Third Party Racking Optionfor VMAX 450F, VMAX 850F and VMAX 950F on page 95.

The field representative working the order must:

l Review the requisite information regarding the third partyracking option.

l In Sizer, select the desired configuration. In the

Hardware Options screen, under Rack Type, select

Third Party.

Complete the Installation Planning Task Sheet and PresiteSurvey in DXCX.

l Connection for ConnectEMC to dial home to the EMCSupport Center. Data Center Safety and Remote Supporton page 35 provides additional details on remotesupport.

Pre-planning tasks

16 Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS

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Table 3 Before you begin (continued)

Task Comments and/or Provide

l Power, cooling and ventilation, humidity control, floorload capability, system placement, and service clearancesas required in the data center.

VMAX All Flash packagingVMAX All Flash arrays offer the simplest packaging ever delivered for a platform. Thebasic building block is an appliance-based entity called a V-Brick in open system arraysand a zBrick in mainframe arrays. Each V-Brick or zBrick includes:

l An engine with two directors (the redundant data storage processing unit)

l Flash capacity in Drive Array Enclosures (DAEs):

n VMAX 250F: Two 25-slot DAEs with a minimum base capacity of 13TBu

n VMAX 450F, VMAX 850F: Two 120-slot DAEs with a minimum base capacity of53TBu

n VMAX 950F (open or mixed systems): Two 120-slot DAEs with a minimum basecapacity of 53TBu

n VMAX 950F (mainframe systems): Two 120-slot DAEs with a minimum basecapacity of 13TBu

l Multiple software packages are available: F and FX packages for open systemarrays and zF and zFX for mainframe arrays.

This document uses the term V-Brick for planning purposes. All guidelines that applyto V-Bricks also apply to zBricks.

Pre-planning tasks

VMAX All Flash packaging 17

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Pre-planning tasks

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CHAPTER 2

Delivery and transportation

This chapter includes:

l Delivery arrangements....................................................................................... 20l Pre-delivery considerations................................................................................20l Moving up and down inclines..............................................................................20l Shipping and storage environmental requirements............................................. 21

Delivery and transportation 19

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Delivery arrangementsDelivery within the United States or Canada is by air-ride truck with custom-designedshipping material, crate, and pallet. International delivery normally involves air freight.

Unless otherwise instructed, the EMC Traffic Department arranges for deliverydirectly to the customer’s computer room. To ensure successful delivery of thesystem, EMC has formed partnerships with specially selected moving companies.These companies have moving professionals trained in the proper handling of large,sensitive equipment. These companies provide the appropriate personnel, floorlayments, and any ancillary moving equipment required to facilitate delivery. Movingcompanies should check general guidelines, weights, and dimensions.

NOTICE

Inform EMC of any labor union-based restrictions or security clearance requirementsprior to delivery.

Pre-delivery considerationsTake into account the following considerations prior to the delivery at your site:

l Weight capacities of the loading dock, tailgate, and service elevator if delivery is toa floor other than the receiving floor.

l Length and thickness of covering required for floor protection.

l Equipment ramp availability if the receiving floor is not level with computer roomfloor.

l Set up the necessary network and gateway access to accommodate EMC SecureRemote Support (ESRS) so that it will be available and operable for the installationdate.

Moving up and down inclinesTo prevent tipping when moving up and down inclines, the following guidelines arerecommended:

l When moving cabinets, all doors/drawers should be closed.

l When moving the cabinet down an incline, the front of the cabinet must go first.

l When moving the cabinet up an incline, the rear of the bay goes last.

All portions of the bay will clear ramp and threshold slopes up to 1:10 (rise to runratio), per Code of Federal Regulations — ADA Standards for Accessible Design, 28CFR Part 36.

Delivery and transportation

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Shipping and storage environmental requirementsThe following table provides the environmental requirements for shipping and storage:

Table 4 Shipping and storage environmental requirements

Condition Setting

Ambient temperature -40° to 149° F (-40° to 65° C)

Temperature gradient 43.2° F/hr (24° C/hr)

Relative humidity 10% to 90% noncondensing

Maximum altitude 25,000 ft (7619.7 m)

Storage time (unpowered) Recommendation: Do not exceed 6consecutive months of unpowered storage.

Delivery and transportation

Shipping and storage environmental requirements 21

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Delivery and transportation

22 Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS

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CHAPTER 3

Specifications

This chapter includes:

l Radio frequency interference.............................................................................24l Power consumption and heat dissipation........................................................... 25l Airflow................................................................................................................27l Air volume, air quality, and temperature.............................................................28l Shock and vibration........................................................................................... 30l Sound power and sound pressure...................................................................... 30l Hardware acclimation times................................................................................31l Optical multimode cables................................................................................... 32

Specifications 23

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Radio frequency interferenceElectro-magnetic fields, which include radio frequencies can interfere with theoperation of electronic equipment. EMC Corporation products have been certified towithstand radio frequency interference (RFI) in accordance with standardEN61000-4-3. In Data Centers that employ intentional radiators, such as cell phonerepeaters, the maximum ambient RF field strength should not exceed 3 Volts /meter.

The field measurements should be taken at multiple points in close proximity to EMCCorporation equipment. It is recommended to consult with an expert prior to installingany emitting device in the Data Center. In addition, it may be necessary to contract anenvironmental consultant to perform the evaluation of RFI field strength and addressthe mitigation efforts if high levels of RFI are suspected.

The ambient RFI field strength is inversely proportional to the distance and powerlevel of the emitting device.

Recommended minimum distance from RF emitting deviceThe following table provides the recommended minimum distances between EMCarrays and RFI emitting equipment. Use these guidelines to verify that cell phonerepeaters or other intentional radiator devices are at a safe distance from the EMCCorporation equipment.

Table 5 Minimum distance from RF emitting devices

Repeater power levela Recommended minimum distance

1 Watt 9.84 ft (3 m)

2 Watt 13.12 ft (4 m)

5 Watt 19.69 ft (6 m)

7 Watt 22.97 ft (7 m)

10 Watt 26.25 ft (8 m)

12 Watt 29.53 ft (9 m)

15 Watt 32.81 ft (10 m)

a. Effective Radiated Power (ERP)

Specifications

24 Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS

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Power consumption and heat dissipationEMC provides the EMC Power Calculator to refine the power and heat figures to moreclosely match your array. Contact your EMC Sales Representative or use the EMCPower Calculator for specific supported configurations. The following table providescalculations of maximum power and heat dissipation.

NOTICE

Power consumption and heat dissipation details vary based on the number of systemand storage bays. Ensure that the installation site meets these worst caserequirements.

Table 6 Power consumption and heat dissipation

VMAX 250F VMAX 450F VMAX 850F VMAX 950F

Maximum powerand heatdissipation at<26°C and>35°C a

Maximumtotal powerconsumption<26°C />35°C(kVA)

Maximumheatdissipation<26°C />35°C(Btu/Hr)

Maximumtotal powerconsumption<26°C />35°C(kVA)

Maximumheatdissipation<26°C />35°C(Btu/Hr)

Maximumtotal powerconsumption<26°C />35°C(kVA)

Maximumheatdissipation<26°C />35°C(Btu/Hr)

Maximumtotal powerconsumption<26°C />35°C(kVA)

Maximumheatdissipation<26°C />35°C(Btu/Hr)

System bay 1Dual V-Brick

4.13 / 5.19 14,090 /17,698

6.69 / 9.05 22,813 /30,861

6.94 / 9.30 23,665 /31,713

7.25 / 9.61 24,712 /32,760

System bay 2Dual V-Brickb

N/A 6.28 / 8.38 21,415 /28,576

6.49 / 8.59 22,131 /29,292

6.80 / 8.90 23,178 /30,339

a. Power values and heat dissipations shown at >35°C reflect the higher power levels associated with both the battery rechargecycle, and the initiation of high ambient temperature adaptive cooling algorithms. Values at <26°C are reflective of more steadystate maximum values during normal operation.

b. Power values for system bay 2 and all subsequent system bays where applicable.

Specifications

Power consumption and heat dissipation 25

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Adaptive coolingThe systems apply adaptive cooling based on customer environments to save energy.Engines and DAEs access thermal data through components located within theirenclosures. Based on ambient temperature and internal activity, they set the coolingfan speeds. As the inlet temperatures increase, the adaptive cooling increases the fanspeeds, with the resulting platform power increasing up to the maximum values shownbelow. These values, along with the SPS recharge power consumption, contribute tothe maximum system power consumption values over 35°C shown in Table 6 on page25.

VMAX 250F

l DAE25 (25 Drives) = 7VA - 24 BTU/hr

l Engine = 255VA - 870 BTU/hr

VMAX 450F, VMAX 850F

l DAE120 (2.5 Drives) = 305VA - 1024 BTU/hr

l Engine = 180VA - 614 BTU/hr

VMAX 950F

l DAE120 (2.5 Drives) = 305VA - 1024 BTU/hr

l Engine = 255VA - 870 BTU/hr

Specifications

26 Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS

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AirflowSystems are designed for typical hot aisle/cold aisle data center cooling environmentsand installation:

l On raised or nonraised floors.

l In hot aisle/cold aisle arrangements.

The airflow provides less mixing of hot and cold air, which can result in a higher returntemperature to the computer room air conditioner (CRAC). This promotes better heattransfer outside the building and achieves higher energy efficiency and lower PowerUsage Effectiveness (PUE). Additional efficiency can be achieved by sequestering theexhaust air completely and connecting ducts directly to a CRAC unit or to the outside.

Best practice is to place a perforated floor tile in front of each bay to allow adequatecooling air supply when installing on a raised floor. The following figure shows typicalairflow in a hot aisle/ cold aisle environment.

Figure 1 Typical airflow in a hot/cold aisle environment

5

6

5

4 4

8

7 99

1 1

22

3

Table 7 Airflow diagram key

# Description # Description

1 To refrigeration unit 6 Hot aisle

2 Suspended ceiling 7 Perforated rear doors

3 Air return 8 Pressurized floor

4 System bays 9 Perforated floor tile

5 Cold aisle

Specifications

Airflow 27

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Air volume, air quality, and temperatureThe installation site must meet certain recommended requirements for air volume,temperature, altitude, and humidity ranges, and air quality.

Air volume specificationsThe following table provides the recommended maximum amount of air volume.

Table 8 Maximum air volume, VMAX 250F

Bay Units

System bay, 1 V-Brick 490 cfm (13.9 m3/min)

System bay, 2 V-Bricks 980 cfm (27.8 m3/min)

Table 9 Maximum air volume, VMAX 450F, VMAX 850F, VMAX 950F

Bay Units

System bay 1,325 cfm (37.4 m3/min)

Temperature, altitude, and humidity rangesThe following table provides the recommended environmental operating ranges.

Table 10 Environmental operating ranges

Condition System

Operating temperature and operatingaltitude a

l 50° – 90° F (10° to 32° C) at 7,500 ft(2,286 m)

l 50° – 95° F (10° to 35° C) at 3,317 ft(950 m)

Operating altitude (maximum) 10,000 ft (3,048 m) 1.1° derating per 1,000ft b

Operating relative humidity extremes 20% to 80% noncondensing

Operating rate of temperature change 9° F/Hr (5° C/Hr)

Thermal excursion 122° F (48° C) (up to 24 hours)

a. These values apply to the inlet temperature of any component within the bay.b. Derating equals an operating temperature of 29.25° C

Temperature and humidity range recommendationsThe following table provides the recommended operating and humidity ranges toensure long-term reliability, especially in environments where air quality is a concern.

Specifications

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Table 11 Temperature and humidity

Condition System

Operating temperature range 64°— 75° F (18° to 24° C)

Operating relative humidity range 40 — 55%

Air quality requirementsVMAX All Flash arrays are designed to be consistent with the requirements of theAmerican Society of Heating, Refrigeration and Air Conditioning Engineers (ASHRAE)Environmental Standard Handbook and the most current revision of ThermalGuidelines for Data Processing Environments, ASHRAE TC 9.9 2011.

The arrays are best suited for Class 1A Datacom environments, which consist of tightlycontrolled environmental parameters, including temperature, dew point, relativehumidity and air quality. These facilities house mission critical equipment and aretypically fault tolerant, including the air conditioners. In a data center environment, ifthe air conditioning fails and the temperature is lost, a vault may occur to protectdata.

The data center should maintain a cleanliness level as identified in ISO 14664-1, class 8for particulate dust and pollution control. The air entering the data center should befiltered with a MERV 11 filter or better. The air within the data center should becontinuously filtered with a MERV 8 or better filtration system. In addition, effortsshould be maintained to prevent conductive particles, such as zinc whiskers, fromentering the facility.

The allowable relative humidity level is 20–80% non condensing, however, therecommended operating environment range is 40–55%. For data centers withgaseous contamination, such as high sulfur content, lower temperatures and humidityare recommended to minimize the risk of hardware corrosion and degradation. Ingeneral, the humidity fluctuations within the data center should be minimized. It is alsorecommended that the data center be positively pressured and have air curtains onentry ways to prevent outside air contaminants and humidity from entering thefacility.

For facilities below 40% relative humidity (RH), EMC recommends using groundingstraps when contacting the equipment to avoid the risk of electrostatic discharge(ESD), which can harm electronic equipment.

Note

As part of an ongoing monitoring process for the corrosiveness of the environment,EMC recommends placing copper and silver coupons (per ISA 71.04-1985, Section 6.1Reactivity) in airstreams representative of those in the data center. The monthlyreactivity rate of the coupons should be less than 300 Angstroms. When monitoredreactivity rate is exceeded, the coupon should be analyzed for material species and acorrective mitigation process emplaced.

Specifications

Air quality requirements 29

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Shock and vibrationThe following table provides the platform shock and vibration maximums and thetransportation shock and vibration levels (in the vertical direction).

Note

Levels shown apply to all three axes, and should be measured with an accelerometer inthe equipment enclosures within the cabinet.

Table 12 Platform shock and vibration

Platform condition Response measurement level (shouldnot exceed)

Non operational shock 10 G's, 7 ms duration

Operational shock 3 G's, 11 ms duration

Non operational random vibration .40 Grms, 5-500Hz, 30 minutes

Operational random vibration .21 Grms, 5-500Hz, 10 minutes

Packaged system condition

Transportation shock 10 G's, 12 ms duration

Transportation random vibration 1.15 Grms, 1 hour

Frequency range 1-200 Hz

Sound power and sound pressureVMAX 250F

Table 13 Sound power and sound pressure levels, A-weighted, VMAX 250F

Configuration Sound power levels(LWAd) (B) a

Sound pressure levels(LpA) (dB) b

System bay, 1 V-Brick 7.1 58.9

a. Declared noise emissions with.3B correction factor added per ISO9296.b. Measured at the four bystander positions per ISO7779

VMAX 450F, VMAX 850F, VMAX 950F

Table 14 Sound power and sound pressure levels, A-weighted, VMAX 450F, VMAX 850F, VMAX950F

Configuration Sound power levels(LWAd) (B) a

Sound pressure levels(LpA) (dB) b

System bay (max) 7.9 66

System bay (min) 7.6 63

a. Declared noise emissions with.3B correction factor added per ISO9296.

Specifications

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Table 14 Sound power and sound pressure levels, A-weighted, VMAX 450F, VMAX 850F, VMAX950F (continued)

b. Measured at the four bystander positions per ISO7779

Hardware acclimation timesSystems and components must acclimate to the operating environment beforeapplying power. This requires the unpackaged system or component to reside in theoperating environment for up to 16 hours in order to thermally stabilize and preventcondensation.

Table 15 Hardware acclimation times (systems and components)

If the last 24 hours of theTRANSIT/STORAGEenvironment was this:

…and the OPERATINGenvironment is this:

…then let the systemor componentacclimate in the newenvironment this manyhours:

Temperature Humidity

Nominal68-72°F(20-22°C)

Nominal40-55% RH

Nominal 68-72°F (20-22°C)40-55% RH

0-1 hour

Cold<68°F (20°C)

Dry<30% RH

<86°F (30°C) 4 hours

Cold<68°F (20°C)

Damp≥30% RH

<86°F (30°C) 4 hours

Hot>72°F (22°C)

Dry<30% RH

<86°F (30°C) 4 hours

Hot>72°F (22°C)

Humid30-45% RH

<86°F (30°C) 4 hours

Humid45-60% RH

<86°F (30°C) 8 hours

Humid≥60% RH

<86°F (30°C) 16 hours

Unknown <86°F (30°C) 16 hours

NOTICE

l If there are signs of condensation after the recommended acclimation time haspassed, allow an additional eight (8) hours to stabilize.

l Systems and components must not experience changes in temperature andhumidity that are likely to cause condensation to form on or in that system orcomponent. Do not exceed the shipping and storage temperature gradient of45°F/hr (25°C/hr).

Specifications

Hardware acclimation times 31

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Optical multimode cablesOptical multimode 3 (OM3) and optical multimode 4 (OM4) cables are available foropen systems host and SRDF connectivity. To obtain OM3 or OM4 cables, contactyour local sales representative.

l OM3 cables are used for SRDF connectivity over: 4, 8, and 10 Gb/s Fibre ChannelI/O modules, 10 GbE and 1 GbE I/O modules.

l OM4 cables are used for SRDF connectivity over 16 Gb/s Fibre Channel I/Omodules.

l OM4 cables are used with 16 Gb/s Fibre Channel I/O modules to provide FibreChannel connection to switches. Distances of up to 190 m over 8 Gb/s FibreChannel and 125 m over 16 Gb/s Fibre Channel modules are supported.OM2 or OM3 cables can be used, but distance is reduced.

l OM3 cables support 8 and 16 Gb/s Fibre Channel distances up to 150 m or 16 Gb/sFibre Channel distances up to 100 m.

l OM2 cables support 8 Gb/s Fibre Channel distances up to 50 m or 10 Gb/sEthernet up to 82 m.

Note

OM2 cables can be used, but they will not support 8 Gb/s Fibre Channel (SRDF)distances greater then 50 m. For longer distances, use OM3 cables.

Open systems host and SRDF connectivityThe following table provides the OM3 and OM4 cables.

Table 16 OM3 and OM4 Fibre cables — 50/125 micron optical cable

Model number Description

SYM-OM3-1M LC-LC, 1 meter

SYM-OM3-3M LC-LC, 3 meter

SYM-OM3-5M LC-LC, 5 meter

SYM-OM3-10M LC-LC, 10 meter

SYM-OM3-30M LC-LC, 30 meter

SYM-OM3-50M LC-LC, 50 meter

SYM-OM3-100M LC-LC, 100 meter

SYM-OM4-1M LC- LC, 1 meter

SYM-OM4-3M LC- LC, 3 meter

SYM-OM4-5M LC- LC, 5 meter

SYM-OM4-10M LC- LC, 10 meter

SYM-OM4-30M LC- LC, 30 meter

SYM-OM4-50M LC- LC, 50 meter

Specifications

32 Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS

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Table 16 OM3 and OM4 Fibre cables — 50/125 micron optical cable (continued)

Model number Description

SYM-OM4-100M LC- LC, 100 meter

Specifications

Open systems host and SRDF connectivity 33

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Specifications

34 Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS

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CHAPTER 4

Data Center Safety and Remote Support

This chapter includes:

l Fire suppressant disclaimer................................................................................ 36l Remote support................................................................................................. 36

Data Center Safety and Remote Support 35

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Fire suppressant disclaimerFire prevention equipment in the computer room should always be installed as anadded safety measure. A fire suppression system is the responsibility of the customer.When selecting appropriate fire suppression equipment and agents for the datacenter, choose carefully. An insurance underwriter, local fire marshal, and localbuilding inspector are all parties that you should consult during the selection a firesuppression system that provides the correct level of coverage and protection.

Equipment is designed and manufactured to internal and external standards thatrequire certain environments for reliable operation. We do not make compatibilityclaims of any kind nor do we provide recommendations on fire suppression systems. Itis not recommended to position storage equipment directly in the path of highpressure gas discharge streams or loud fire sirens so as to minimize the forces andvibration adverse to system integrity.

Note

The previous information is provided on an “as is” basis and provides norepresentations, warranties, guarantees or obligations on the part of our company.This information does not modify the scope of any warranty set forth in the terms andconditions of the basic purchasing agreement between the customer and EMC .

Remote supportEMC Secure Remote Support (ESRS) is an IP-based, automated, connect home andremote support solution. ESRS is the preferred method of connectivity. EMCrecommends using two connections with ESRS for connection to the redundantmanagement module control station (MMCS).

ESRS customers must provide the following:

l An IP network with Internet connectivity.

l Capability to add Gateway Client servers and Policy Manager servers to thecustomer network.

l Network connectivity between the servers and EMC devices to be managed byESRS

l Internet connectivity to EMC’s ESRS infrastructure by using outbound ports.

l Network connectivity between ESRS Client(s) and Policy Manager.

Once installed, ESRS monitors the array and automatically notifies EMC CustomerService in the event of a problem. If an error is detected, an EMC support professionalutilizes the secure connection to establish a remote support session to diagnose, and ifnecessary, perform a repair.

EMC Customer Service can use ESRS to:

l Perform downloads of updated software in lieu of a site visit.

l Deliver license entitlements directly to the array.

Data Center Safety and Remote Support

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NOTICE

EMC provides an optional modem that uses a regular telephone line or operates with aPBX. EMC recommends using two connections to the redundant management modulecontrol station (MMCS).

The EMC Secure Remote Support Gateway Site Planning Guide provides additionalinformation.

Data Center Safety and Remote Support

Remote support 37

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Data Center Safety and Remote Support

38 Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS

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CHAPTER 5

Physical weight and space

This chapter includes:

l Floor load-bearing capacity................................................................................40l Raised floor requirements.................................................................................. 40l Physical space and weight.................................................................................. 41

Physical weight and space 39

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Floor load-bearing capacityStorage arrays can be installed on raised floors. Customers must be aware that theload-bearing capacity of the data center floor is not readily available through a visualinspection of the floor. The only definitive way to ensure that the floor is capable ofsupporting the load associated with the array is to have a certified architect or thedata center design consultant inspect the specifications of the floor to ensure that thefloor is capable of supporting the array weight.

CAUTION

l Customers are ultimately responsible for ensuring that the floor of the datacenter on which the array is to be configured is capable of supporting thearray weight, whether the array is configured directly on the data center flooror on a raised floor supported by the data center floor.

l Failure to comply with these floor loading requirements could result in severedamage to the storage array, the raised floor, subfloor, site floor and thesurrounding infrastructure should the raised floor, subfloor or site floor fail.

l Notwithstanding anything to the contrary in any agreement between EMCand the customer, EMC fully disclaims any and all liability for any damage orinjury resulting from the customer’s failure to ensure that the raised floor,subfloor and/or site floor are capable of supporting the storage array weight.The customer assumes all risk and liability associated with such failure.

Raised floor requirementsBest practice is to use 24 x 24 inch heavy-duty, concrete-filled steel floor tiles. If adifferent size or type of tile is used, the customer must ensure that the tiles have aminimum load rating that is sufficient for supporting the storage array weight. Ensureproper physical support of the system by following requirements that are based on theuse of 24 x 24 in. (61 x 61 cm) heavy-duty, concrete-filled steel floor tiles.

Raised floors must meet the following requirements:

l Floor must be level.l Floor tiles and stringers must be rated to withstand concentrated loads of two

casters each that weigh up to 700 lb (317.5 kg).

Note

Caster weights are measured on a level floor. The front of the array weighs more thanthe rear of the configuration.

l Floor tiles and stringers must be rated for a minimum static ultimate load of 3,000lb (1,360.8 kg).

l Floor tiles must be rated for a minimum of 1,000 lb (453.6 kg) on rolling load.l For floor tiles that do not meet the minimum rolling load rate, EMC recommends

the use of coverings, such as plywood, to protect floors during system roll.l Floor tile cutouts weaken the tile. An additional pedestal mount adjacent to the

cutout of a tile can minimize floor tile deflection. The number and placement of

Physical weight and space

40 Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS

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additional pedestal mounts relative to a cutout should be in accordance with thetile manufacturer’s recommendations.

l Take care when positioning the bays to make sure that a caster is not moved into acutout. Cutting tiles per specifications ensures the proper caster placement.

l Use or create no more than one floor tile cutout that is no more than 8 in. (20 cm)wide by 6 in. (15 cm) deep in each 24 x 24 in. (61 x 61 cm) floor tile.

l Ensure that the weight of any other objects in the data center does notcompromise the structural integrity of the raised floor or the subfloor (nonraisedfloor) of the data center.

Physical space and weightThe following table provides the physical space, maximum weights, and clearance forservice.

VMAX 250F

Table 17 Space and weight requirements, VMAX 250F

Bayconfigurations a

Height(in/cm) b

Width(in/cm)

Depthc

(in/cm)Weight(max lbs/kg)

1 system, 1 V-Brick 75/190 24/61 42 in (106.7 cm) 570/258

1 system, 2 V-Bricks,or2 systems, 1 V-Brickeach

75/190 24/61 42 in (106.7 cm) 850/385

2 systems, 2 V-Bricks in one system,1 V-Brick in other

75/190 24/61 42 in (106.7 cm) 1130/513

2 systems, 2 V-Bricks each system

75/190 24/61 42 in (106.7 cm) 1410/640

a. Clearance for service/airflow is the front at 42 in (106.7 cm) front and the rear at 30 in(76.2 cm).

b. An additional 18 in (45.7 cm) is recommended for ceiling/top clearance.c. Includes rear door.

VMAX 450F, VMAX 850F, VMAX 950F

Table 18 Space and weight requirements, VMAX 450F, VMAX 850F, VMAX 950F

Bayconfigurations a

Heightb

(in/cm)Widthc

(in/cm)Depthd

(in/cm)Weight(max lbs/kg)

System bay 75/190 24/61 47/119 1860/844

a. Clearance for service/airflow is the front at 42 in (106.7 cm) front and the rear at 30 in(76.2 cm).

b. An additional 18 in (45.7 cm) is recommended for ceiling/top clearance.c. Measurement includes .25 in. (0.6 cm) gap between bays.d. Includes front and rear doors.

Physical weight and space

Physical space and weight 41

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Physical weight and space

42 Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS

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CHAPTER 6

Position VMAX 250F Bay

This chapter includes:

l Bay layout and dimensions................................................................................. 44l Tile placement....................................................................................................45l Casters and leveling feet....................................................................................45l Cabinet stabilizing.............................................................................................. 47

Position VMAX 250F Bay 43

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Bay layout and dimensionsPlacing arrays in the data center or computer room involves understandingdimensions, planning for cutouts, and ensuring clearance for power and host cables.

l On nonraised floors, cables are routed overhead. Anoverhead routing bracket is available for purchase to alloweasier access of overhead cables into the bay.

l On raised floors, cables are routed across the subfloorbeneath the tiles.

l For the system bay, ensure the following:

n A service area of 42 in (106 cm) for the front.

n A service area of 30 in (76 cm) for the rear.

Front

Rear

.25 in. (.64 cm) gapbetween bays

24.02 in.(61.01 cm)

24 in.(61 cm)

Bezel

39.37 in.(100.0 cm)rack only

41.25 in.(104.8 cm)

Includesfrontbezels

42 in. (106 cm)service area

30 in. (76 cm)service area

Figure 2 Cabinet dimensions and clearances

Height 75.0 in.(190 cm)

Depth 39.37 in.(98.425 cm)

(not including bezels)

Width 24.0 in.(60 cm)

Rear Access

(76 cm)30.00 in.

Front Access

(106 cm)42 in.

Position VMAX 250F Bay

44 Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS

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Tile placementYou must understand tile placement to ensure that the array is positioned properly andto allow sufficient room for service and cable management.

When placing the array, consider the following:

l Typical floor tiles are 24 in. (61 cm) by 24 in. (61 cm).

l Typical cutouts are:

n 8 in. (20.3 cm) by 6 in. (15.2 cm) maximum.

n 9 in. (22.9 cm) from the front and rear of the floor tile.

n Centered on the tiles, 9 in (22.9 cm) from the front and rear and 8 in (20.3)from sides.

l Maintain a .25 in. (.64 cm) gap between bays.

l Service area of 42 in (106 cm) for the front and 30 in (76 cm) for the rear on thesystem bays.

The following figure provides tile placement information for all VMAX 250F arrays.

Figure 3 Placement with floor tiles

A

Front

.25 in. (.64 cm) gap

between cabinets

Rear

System

bay

Floor tiles

24 in.

(61 cm) sq.

42 in. (106 cm)

service area

(front and rear)

30 in. (76 cm)

service area,

rear(61 cm)24 in.

41.25 in.

(104.8 cm)

includes

front

bezels

Casters and leveling feetThe cabinet bottom includes four caster wheels. The front wheels are fixed; the tworear casters swivel in a 1.75-inch diameter. Swivel position of the caster wheels willdetermine the load-bearing points on your site floor, but does not affect the cabinet

Position VMAX 250F Bay

Tile placement 45

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footprint. Once you have positioned, leveled, and stabilized the cabinet, the fourleveling feet determine the final load-bearing points on your site floor.

CL3627

Front

Rear

Front

RearOuter surfaceof rear door

Outer surfaceof rear door

18.830

20.700

28.240

(based on swivelposition of caster wheel)

17.102 minimum(based on swivel

position of caster wheel)

20.580 maximum

Top view

Rear view Rear view

Note: Some items in the views are removed for clarity.

Right

side viewDimension 3.620 to center ofcaster wheel from this surface(see detail A)

Dimension 3.620 to center of caster wheel from this surface

3.620

27.370

minimum(based onswivel positionof caster wheel)

29.120

maximum(based onswivel positionof caster wheel)

1.750Swivel diameterreference (seedetail B)

Detail A(right frontcorner)

1.750Caster swiveldiameter

Detail B

20.650

35.390

Bottom view

Leveling feet

Leveling feet

Floor tile

cutout

All measurements are in inches.

NOTICE

The customer is ultimately responsible for ensuring that the data center floor on whichthe system is to be configured is capable of supporting the system weight, whetherthe system is configured directly on the data center floor, or on a raised floorsupported by the data center floor. Failure to comply with these floor-loadingrequirements could result in severe damage to the system, the raised floor, subfloor,site floor and the surrounding infrastructure. Notwithstanding anything to thecontrary in any agreement between the manufacturer and customer, the manufacturerfully disclaims any and all liability for any damage or injury resulting from customer'sfailure to ensure that the raised floor, subfloor and/or site floor are capable ofsupporting the system weight as specified in this guide. The customer assumes all riskand liability associated with such failure.

Position VMAX 250F Bay

46 Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS

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Cabinet stabilizingIf you intend to secure the optional stabilizer brackets to the site floor, prepare thelocation for the mounting bolts. (See Securing kits on page 108.) The additionalbrackets help to prevent the cabinet from tipping while you service cantilevered levels,or from rolling during minor seismic events. The brackets provide three levels ofprotection for stabilizing the unit:

l Anti-tip bracket - Use this bracket to provide an extra measure of anti-tip security.One or two kits may be used. For cabinets with components that slide, it isrecommended that you use two kits.

1.56

EMC2853

61.00

42.56 7.00

17.25

21.25

2.78

3.39

.438

7.00

All measurements are in inches.

Fro

nt

Re

ar

l Anti-move bracket - Use this bracket to permanently fasten the unit to the floor.

42.88

40.88

16.92

21.258.46

.502.00

3.55

.438

EMC2854

Fro

nt

Re

ar

All measurements are in inches.

l Seismic restraint bracket - Use this bracket to provide the highest protection frommoving or tipping.

Position VMAX 250F Bay

Cabinet stabilizing 47

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42.88

40.88

8.305.92

28.03

.438

3.55

2.00

2.00

16.60

24.90 .50

8.46

16.92

21.25

30.03

EMC2856

Fro

nt

Rear

All measurements are in inches.

29.23

Position VMAX 250F Bay

48 Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS

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CHAPTER 7

Position VMAX 450F, VMAX 850F, VMAX 950FBays

This chapter includes:

l System bay layouts............................................................................................50l Dimensions for array layouts.............................................................................. 54l Tile placement....................................................................................................55l Caster and leveler dimensions............................................................................56

Position VMAX 450F, VMAX 850F, VMAX 950F Bays 49

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System bay layoutsThe number of bays and the system layout depend on the array model, the customerrequirements, and the space and organization of the customer data center.

Storage arrays can be placed in the following layouts:

l Adjacent — all bays are positioned side-by-side.

l Dispersed — dispersed layouts are provided with longer fabric and Ethernet cablebundles that allow 82 ft (25 m) of separation between system bay 1 and systembays 2 through 4.

Dispersed system bays require dispersed cable and optics kits and one set of sideskins for each dispersed system bay in the configuration.

Note

n The routing strategy (beneath raised floor or overhead), site requirements, andthe use of GridRunners (optional) or cable troughs can cause the actualdistances to vary.

n GridRunners are used to create a strain relief for all dispersed, under the floor,cable bundles. GridRunners are installed in the locations where the cable bundleenters and exits the area under the raised floor.

l Adjacent and dispersed bays (mixed) layouts — allow both adjacent and dispersedlayout within a single array.

Position VMAX 450F, VMAX 850F, VMAX 950F Bays

50 Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS

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Adjacent layouts, VMAX 450F, VMAX 850F, VMAX 950FVMAX 450F, VMAX 850F, VMAX 950F systems with adjacent layouts position systembay 1 next to system bay 2, and system bay 3 next to system bay 4.

The following figure shows the adjacent layout by model type.

Figure 4 Adjacent layout, VMAX 450F, VMAX 850F, VMAX 950F

System

bay 1

System

bay 2

Engine 1

Engine 2 Engine 4

Engine 3

00 R1

System

bay 3

System

bay 4

Engine 5 Engine 7

Engine 8Engine 6

R2 R3

Bay position

12

Table 19 Adjacent layout diagram key, VMAX 450F, VMAX 850F, VMAX 950F

# Description

1 VMAX 450F

2 VMAX 850F, VMAX 950F

Position VMAX 450F, VMAX 850F, VMAX 950F Bays

Adjacent layouts, VMAX 450F, VMAX 850F, VMAX 950F 51

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Dispersed layout, VMAX 450F, VMAX 850F, VMAX 950FThe following figure shows a dispersed layout for a VMAX 450F, VMAX 850F, VMAX950F array.

Figure 5 Dispersed layout, front view

System

bay 1

Engine 7

Engine 2

Engine 1

Engine 8

Engine 5

Engine 6

Engine 3

Engine 4

System

Bay 2

System

Bay 1

System

Bay 3

System

Bay 4

Position VMAX 450F, VMAX 850F, VMAX 950F Bays

52 Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS

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Adjacent and dispersed (mixed) layoutThe following figure shows a dual-engine array with a mixed layout.

Figure 6 Adjacent and dispersed (mixed) layout, dual-engine array

System

bay 1

Engine 1

Initial

install

System

bay 2

Engine 3

Engine 2

Engine 4

System

bay 3

Engine 5

Engine 6

00 R1

Bay position

Position VMAX 450F, VMAX 850F, VMAX 950F Bays

Adjacent and dispersed (mixed) layout 53

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Dimensions for array layoutsPlacing arrays in the data center or computer room involves understandingdimensions, planning for cutouts, and ensuring clearance for power and host cables.

l On nonraised floors, cables are routed overhead. An overhead routing bracket isprovided to allow easier access of overhead cables into the bay

l On raised floors, cables are routed across the subfloor beneath the tiles.

l Ensure there is a service area of 42 in (106 cm) for the front and 30 in (76 cm) forthe rear of each system bay.

The following figure shows the layout dimensions:

Figure 7 Layout Dimensions, VMAX 450F, VMAX 850F, VMAX 950F

Front

Rear

47 in.(119 cm)Includes

front and rear doors

.25 in. (.64 cm) gapbetween bays

24.02 in.(61.01 cm)

24 in.(61 cm)

Position VMAX 450F, VMAX 850F, VMAX 950F Bays

54 Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS

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Tile placementYou must understand tile placement to ensure that the array is positioned properly andto allow sufficient room for service and cable management.

When placing the array, consider the following:

l Typical floor tiles are 24 in. (61 cm) by 24 in. (61 cm).

l Typical cutouts are:

n 8 in. (20.3 cm) by 6 in. (15.2 cm) maximum.

n 9 in. (22.9 cm) from the front and rear of the floor tile.

n Centered on the tiles, 9 in (22.9 cm) from the front and rear and 8 in (20.3)from sides.

l Maintain a .25 in. (.64 cm) gap between bays.

l Service area of 42 in (106 cm) for the front and 30 in (76 cm) for the rear on thesystem bays.

The following figure provides tile placement information for all VMAX All Flash arrays(with doors).

Figure 8 Placement with floor tiles, VMAX 450F, VMAX 850F, VMAX 950F

Rear

A A

System

bay

System

bay

A

System

bay

A

System

bay

Front

F

l

o

o

r

T

i

l

e

Position VMAX 450F, VMAX 850F, VMAX 950F Bays

Tile placement 55

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Caster and leveler dimensionsThe bay(s) bottom includes four caster wheels. The front wheels are fixed; the tworear casters swivel in a 1.75-in. diameter. Swivel position of the caster wheelsdetermines the load-bearing points on your site floor, but does not affect the cabinetfootprint. Once you have positioned, leveled, and stabilized the bay(s), the fourleveling feet determine the final load-bearing points on your site floor.

The following figure shows caster and leveler dimensions.

Figure 9 Caster and leveler dimensions

Front

Rear

Front

Rear

18.830

20.700

31.740

*117.102 minimum 20.580 maximum

Top view

Rear view Rear view

Right side view

3.628

3.620

30.870 minimum

32.620 maximum

1.750

1.750

20.650

40.35

Bottom view

Leveling feet

*1*2

*3

3.620

*4*7

*5

*6

*8

*9

*10

Table 20 Caster and leveler dimensions diagram key

# Description

*1 Minimum (17.102) and maximum (20.58)distances based on the swivel position of thecaster wheel.

Position VMAX 450F, VMAX 850F, VMAX 950F Bays

56 Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS

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Table 20 Caster and leveler dimensions diagram key (continued)

# Description

*2 Right front corner detail. Dimension (3.628)to the center of caster wheel from surface.

*3 Diameter (1.750) of caster wheel swivel.

*4 Outer surface of rear door.

*5

*6 Diameter (1.75) of swivel (see detail *3).

*7 Bottom view of leveling feet.

*8 Maximum (32.620) distance based on swivelposition of the caster wheel.

*9 Minimum (30.870) distance based on swivelposition of the caster wheel.

*10 Distance (3.620) to the center of the casterwheel from the surface (see detail *2).

Position VMAX 450F, VMAX 850F, VMAX 950F Bays

Caster and leveler dimensions 57

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Position VMAX 450F, VMAX 850F, VMAX 950F Bays

58 Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS

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CHAPTER 8

Power cabling, cords and connectors

This chapter includes:

l Power distribution equipment, VMAX 250F....................................................... 60l Power distribution unit VMAX 450F, VMAX 850F, VMAX 950F.........................62l Wiring configurations, VMAX 250F.................................................................... 64l Wiring configurations, VMAX 450F, VMAX 850F, VMAX 950F..........................68l Power interface..................................................................................................72l Customer input power cabling............................................................................72l Best practices: Power configuration guidelines.................................................. 74l Power extension cords, connectors, and wiring................................................. 74

Power cabling, cords and connectors 59

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Power distribution equipment, VMAX 250FThe VMAX 250F is powered by two redundant sets of power distribution equipment,one set for each power zone. Each set of power distribution equipment consists of apower distribution panel (PDP) and a power distribution unit (PDU).

The power distribution equipment is available in three wiring configurations:

l Single-phase

l Three-phase Delta

l Three-phase Wye

Note

The PDP AC power cords (single-phase and three-phase) extend approximately 10"(25cm) above the bay egress for connection to the customer power supply. 15ft(4.57m) extension cables are provided.

Each PDU provides the following components:

l A total of 12 power outlets for field replaceable units (FRUs). The outlets aredivided into three banks with each bank consisting of four IEC 60320 C13individual AC outlets.

l Each bank of outlets is connected to individual branch circuits that are protectedby a single two pole 20 Amp circuit breaker.

l PDP input connectors differ depending on the customer input power.

If the customer requires power to be supplied from overhead, the Overhead routing kitis available to route the power cables inside the machine through the top.

Power cabling, cords and connectors

60 Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS

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Figure 10 Power distribution unit (PDU), VMAX 250F, rear view

Rear view

2 V-Bricks

PDPs

10

10

A

B

10

10

A

B

1 V-Brick

10

10

A

BON

I

OFF

O

ON

I

OFF

O

ON

I

OFF

O

ON

I

OFF

O

ON

I

OFF

O

ON

I

OFF

O

ON

I

OFF

O

ON

I

OFF

O

ON

I

OFF

O

ON

I

OFF

O

ON

I

OFF

O

ON

I

OFF

O

PDUs

PDP

PDU

PDP

PDU

Power zone A(right, gray)

Power zone B(left, black)

Power zone A(right, gray)

Power zone B(left, black)

(Power zone B)

(Power zone B)

(Power zone B)

(Power zone A)

(Power zone B)

(Power zone A)

(Power zone A)

(Power zone A)

Power cabling, cords and connectors

Power distribution equipment, VMAX 250F 61

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Power distribution unit VMAX 450F, VMAX 850F, VMAX950F

The VMAX 450F, VMAX 850F, VMAX 950F arrays are powered by two redundantpower distribution units (PDUs), one PDU for each power zone.

Both PDUs are mechanically connected together, including mounting brackets, tocreate a single 2U structure, as shown in the following figures. The PDUs areintegrated to support AC-line input connectivity and provide outlets for everycomponent in the bay.

The PDU is available in three wiring configurations that include:

l Single-phase

l Three-phase Delta

l Three-phase Wye

Note

The PDU AC power cords (single-phase and three-phase) extend 74" (188cm) fromthe PDU chassis and are designed to reach to the bay floor egress for connection tothe customer power supply. 15' (4.57m) extension cables are provided.

Each PDU provides the following components:

l A total of 24 power outlets for field replaceable units (FRUs). The outlets aredivided into six banks with each bank consisting of four IEC 60320 C13 individualAC outlets.

l Each bank of outlets is connected to individual branch circuits that are protectedby a single two pole 20 Amp circuit breaker.

l Depending on which PDU option selected there is a different input connector foreach PDU.

If the customer requires power to be supplied from overhead, EMC recommendsreplacing the rear top cover of the bay with the ceiling routing top cover, described in Overhead routing kit on page 106, which allows the power cables inside the machineto be routed out through the top.

A second option is to "drop" the power cables down the hinge side, to the bottom, androute them inside the machine. The cables should be dressed to allow all doors to openfreely and space should be provisioned accordingly to accommodate an adjacentcabinet.

Power cabling, cords and connectors

62 Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS

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Figure 11 Power distribution unit (PDU) without installed wire bales, rear view

Figure 12 Power distribution unit (PDU) with installed wire bales, rear view

Power cabling, cords and connectors

Power distribution unit VMAX 450F, VMAX 850F, VMAX 950F 63

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Wiring configurations, VMAX 250F

NOTICE

These wiring configurations are used for the redundant PDP and PDU powerdistribution equipment. Each figure represents a single PDP/PDU assembly and onepower zone.

PDU wiring configuration, VMAX 250FFigure 13 PDU internal wiring, VMAX 250F

L

N

G

L

N

G

L

N

G

L

N

G

L

N

G

L

N

G

L

N

G

L

N

G

L

N

G

L

N

G

L

N

G

L

N

G

AMP Mate-N-Lok

High Current Pins

L

N

G

P1

P4

P3

P8

P9

P7

P2

CB1

CB2

CB3

VMAX 250F PDU

Power Distribution Unit

Power cabling, cords and connectors

64 Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS

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Single-phase PDP wiring configuration, VMAX 250FFigure 14 Single-phase, PDP internal wiring, VMAX 250F

J1 J2

B CAN G

TB 1 TB 2

1 2 3 4 5 1 2 3 4 5

VMAX 250F PDP

Power Distribution Panel

SINGLE PHASE

Single-phase PDP Connector

L6-30P x 1 (per power zone)

Note

All wires shown in the wire diagram that are not connected to the connectors aredisconnected inside the PDP.

Power cabling, cords and connectors

Wiring configurations, VMAX 250F 65

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Three-phase (Delta) PDP wiring configuration, VMAX 250FFigure 15 Three-phase (Delta), PDP internal wiring, VMAX 250F

J1 J2

1 2 3 4 5TB 2

1 2 3 4 5TB 1

VMAX 250F PDP

Power Distribution Panel

3-PHASE, DELTA

Hubbell CS-8365C or equivalent

Power cabling, cords and connectors

66 Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS

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Three-phase (Wye) PDP wiring configuration, VMAX 250FFigure 16 Three-phase (Wye), PDP internal wiring, VMAX 250F

J1 J2

1 2 3 4 5TB 2

1 2 3 4 5TB 1

VMAX 250F PDP

Power Distribution Panel

3-PHASE, WYE

ABL SURSUM S52S30A or equivalent

Power cabling, cords and connectors

Wiring configurations, VMAX 250F 67

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Wiring configurations, VMAX 450F, VMAX 850F, VMAX950F

NOTICE

These wiring configurations are used for the redundant PDU in the complete assembly(PDU A and PDU B). Each figure represents half of the independent PDU assembly.The same wiring configurations are used on each PDU.

Note

The PDU AC power cords (single-phase and three-phase) extend 74" (188cm) fromthe PDU chassis and are designed to reach to the bay floor egress for connection tothe customer power supply. 15' (4.57m) extension cables are provided.

Power cabling, cords and connectors

68 Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS

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Single-phase wiring configuration, VMAX 450F, VMAX 850F, VMAX 950FFigure 17 Single-phase, horizontal 2U PDU internal wiring, VMAX 450F, VMAX 850F, VMAX950F

1 2 3

1514 16 18 19 2120

20A CB4

22

20A CB1

20A CB5 20A CB6

23

20A CB2 20A CB3

L1

L1

L1

L1 L1

L1

4 5 6 7 8 9 10 11

13

LN LN LN

L1

= 1

0A

WG

L2

= 1

0 A

WG

10 AWG

NL L N L N

P1

L2

L2 L2

L2

L2

L2

G

G =

10

AW

G

G

L1

= 1

0A

WG

L2

= 1

0 A

WG

G =

10

AW

G G

reen

L1

= 1

0A

WG

L2

= 1

0 A

WG

G =

10

AW

G G

reen

G

P2 P3

.

LN LN

17

NL L N L N

LN

12

24

P3P1 P2

Single-phase PDU connector, L6-30P x 6

Power cabling, cords and connectors

Wiring configurations, VMAX 450F, VMAX 850F, VMAX 950F 69

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Three-phase (Delta) wiring configuration, VMAX 450F, VMAX 850F, VMAX 950FFigure 18 Three-phase (Delta), horizontal 2U PDU internal wiring, VMAX 450F, VMAX 850F,VMAX 950F

20A CB4

20A CB1

20A CB5 20A CB6

L1L2

L3G

20A CB2 20A CB3

L1

L1

L1

L1L2

L2

L2

L2 L3

L3 L3

L3

L1(X

) =

8A

WG

Bla

ck

wir

e

L2

(Y

) =

8 A

WG

White

wir

e

L3

(Z

) =

8 A

WG

Re

d w

ire

G =

8 A

WG

Gre

en

8 AWG

P1

1413 15 17 18 2019 21 22

12

LN LN LNLN LN

16

LN

1 2 3 4 5 6 7 8 9 10 11

NL L NL N

NL L N L N

23 24

Hubbell CS-8365L or equivalent x 2

Power cabling, cords and connectors

70 Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS

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Three-phase (Wye) wiring configuration, VMAX 450F, VMAX 850F, VMAX 950FFigure 19 Three-phase (Wye), horizontal 2U PDU internal wiring, VMAX 450F, VMAX 850F,VMAX 950F

P1

20ACB4

20ACB1

20ACB5

20ACB6

L1 L2 L3 N

20ACB2

20ACB3

L1

L1

L2

L2 L3

L3

L1

(X

) B

row

n

L2

(Y

) B

lack

L3

(Z

) G

ray

Gre

en/y

ello

w

10 AWG

G

N

N N

N

N

N

N B

lue

1413 15 17 18 2019 21 22

12

LN LN LNLN LN

16

LN

1 2 3 4 5 6 7 8 9 10 11

NL L N L NNL L N L N

23 24

ABL SURSUM S52S30A or equivalent x 2

Power cabling, cords and connectors

Wiring configurations, VMAX 450F, VMAX 850F, VMAX 950F 71

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Power interfaceData centers must conform to the corresponding specification for arrays installed inNorth American, International, and Australian sites.

VMAX 250FEach system contains a complete set of power distribution equipment.

VMAX 450F, VMAX 850F, VMAX 950FEach bay in a system configuration contains a complete 2U PDU assembly. The PDUassembly is constructed with two electrically individual PDUs.

NOTICE

Customers are responsible for meeting all local electrical safety requirements.

Customer input power cablingBefore the array is delivered, the customer must supply and install the requiredreceptacles on the customer’s PDUs for zone A and zone B power for the system bay.

NOTICE

EMC recommends that the customer's electrician be present at installation time towork with the EMC Customer Engineer to verify power redundancy.

Refer to the EMC VMAX Best Practices Guide for AC Power Connections for requireditems at the customer site.

Power cabling, cords and connectors

72 Site Planning Guide VMAX 250F, VMAX 450F, VMAX 850F, VMAX 950F with HYPERMAX OS

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VMAX 250F customer AC power feed cablingWhen connecting customer input power to a VMAX 250F, the EMC-supplied 15ft(4.57m) extension cords must be used and approximately 24in (61cm) of slack mustbe left directly under the bay floor egress.

Note

For power zone-A, use the extension cord with gray sleeves at the ends.

Figure 20 Customer input power cabling for VMAX 250F

Rear viewExample shown:

2 V-Bricks

PDPs

Customer’sPDU 2

Power feed 2

Customer’sPDU 1

Circuit breakers - Numbers

27

28

29

30

...

Circuit breakers - Numbers

27

28

29

30

...

Power feed 1

10

10

A

B

10

10

A

B

ON

I

OFF

O

ON

I

OFF

O

ON

I

OFF

O

ON

I

OFF

O

ON

I

OFF

O

ON

I

OFF

O

EMC 15ft (4.57m) Extension Cordwith 24in (61cm) slack under floor egress

Customer power feed

Customer power feed

PDUs

40U rack

PDP

PDU

Power zone A(right, gray)

Power zone B(left, black)

(Power zone B)

(Power zone B) (Power zone A)

(Power zone A)

Data center sub-floor

Data center floor

Power cabling, cords and connectors

VMAX 250F customer AC power feed cabling 73

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Best practices: Power configuration guidelinesThe following section provides best practice guidelines for evaluating and connectingpower, as well as for choosing a UPS component.

Uptime Institute best practicesFollow these best practice guidelines when connecting AC power to the array:

l The EMC customer engineer (CE) should discuss with the customer the need forvalidating AC power redundancy at each bay. If the power redundancyrequirements are not met in each EMC bay, a Data Unavailable (DU) event couldoccur.

l The customer should complete power provisioning with the data center prior toconnecting power to the array.

l The customer‘s electrician or facilities representative must verify that the ACvoltage is within specification at each of the power drops being fed to each EMCproduct bay.

l All of the power drops should be labeled to indicate the source of power (PDU)and the specific circuit breakers utilized within each PDU:

n Color code the power cables to help achieve redundancy.

n Clearly label the equipment served by each circuit breaker within the customerPDU.

l The electrician or facilities representative must verify that there are two powerdrops fed from separate redundant PDUs prior to turning on the array:

n If both power drops to a bay are connected to the same PDU incorrectly, a DUevent will result during normal data center maintenance when the PDU isswitched off. The label on the power cables depicts the correct connection.

l The electrician should pay particular attention to how each PDU receives powerfrom each UPS within the data center because it is possible to create a scenariowhere turning off a UPS for maintenance could cause both power feeds to a singlebay to be turned off, creating a DU event.

l The customer’s electrician should perform an AC verification test by turning offthe individual circuit breakers feeding each power zone within the bay, while theCustomer Engineer monitors the LED on the SPS modules to verify that powerredundancy has been achieved in each bay.

One PDU should never supply both power zone feeds to any one rack of equipment.

Power extension cords, connectors, and wiringThe following section illustrates a variety of extension cords that offer differentinterface connector options. The selected cords are used to interface between thecustomer’s power source and each PDU connection.

The amount of cords needed is determined by the number of bays in the array and thetype of input power source used (single-phase or three-phase).

Power cabling, cords and connectors

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Single-phaseThe following tables describe the extension cords and connector options for single-phase power transmission.

Table 21 Extension cords and connectors options – single-phase

Plug on eachEMC powercorda

EMC-supplied extensioncord/model numberb, c

EMCPowerCableP/N

EMC-suppliedextension cordreceptacle (P1)connecting toEMC plug

EMC-suppliedextension cordplug (P2)connecting tocustomer PDUreceptacle

Customer PDUreceptacle

NEMA L6-30

ES-PW40U-US(VMAX 250F)

EF-PW40U-US(VMAX 450F, VMAX 850F)

ET-PW40U-US (VMAX950F)

038-003-438 (BLK15FT)

038-003-898 (GRY15FT)

038-003-479 (BLK21FT)

038-003-794 (GRY21FT)

NEMA L6-30R NEMA L6-30P NEMA L6-30R

ES-PW40URUS(VMAX 250F)

EF-PW40URUS(VMAX 450F, VMAX 850F)

ET-PW40URUS (VMAX950F)

038-003-441 (BLK15FT)

038-003-901 (GRY15FT)

038-003-482 (BLK21FT)

038-003-797 (GRY21FT)

NEMA L6-30R Russellstoll 3750DP Russellstoll 9C33U0

ES-PW40UIEC3(VMAX 250F)

EF-PW40UIEC3(VMAX 450F, VMAX 850F)

ET-PW40UIEC3 (VMAX950F)

038-003-440 (BLK15FT)

038-003-900 (GRY15FT)

038-003-481 (BLK21FT)

NEMA L6-30R IEC-309 332P6 IEC-309 332C6

Power cabling, cords and connectors

Single-phase 75

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Table 21 Extension cords and connectors options – single-phase (continued)

Plug on eachEMC powercorda

EMC-supplied extensioncord/model numberb, c

EMCPowerCableP/N

EMC-suppliedextension cordreceptacle (P1)connecting toEMC plug

EMC-suppliedextension cordplug (P2)connecting tocustomer PDUreceptacle

Customer PDUreceptacle

CAUTION

The single phase linevoltage must be below264VAC to use these cableassemblies.

038-003-796 (GRY21FT)

ES-PW40UASTL(VMAX 250F)

EF-PW40UASTL(VMAX 450F, VMAX 850F)

ET-PW40UASTL (VMAX950F)

038-003-439 (BLK15FT)

038-003-899 (GRY15FT)

038-003-480 (BLK21FT)

038-003-795 (GRY21FT)

NEMA L6-30R CLIPSAL 56PA332 CLIPSAL56CSC332

E-PW40L730

CAUTION

The single phase linevoltage must be below264VAC to use these cableassemblies.

038-004-301 (BLK15FT)

038-004-302 (GRY15FT)

038-004-303 (BLK21FT)

038-004-304 (GRY21FT)

NEMA L6-30R NEMA L7-30P NEMA L7-30R

a. VMAX 450F, VMAX 850F, VMAX 950F: Six (6) plugs per system bay

VMAX 250F: Up to four (4) power cordsb. Two (2) cords per model, cord length of 15 feet / 4.57 meters.c. The EMC ordering system defaults to one of the extension cord models based on the country of installation. The default value

can be overridden in the EMC ordering system.

Customer-to-system wiring for bays (single-phase)

The following figures provide cable descriptions for customer-to-system wiring forsingle-phase power transmission.

Power cabling, cords and connectors

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Note

Each single-phase power cable L (Line), N (Neutral) or L (Line) signal connectiondepends on the country of use.

Figure 21 Single-phase: EF-PW40U-US (VMAX 450F, VMAX 850F), ET-PW40U-US (VMAX950F), ES-PW40U-US (VMAX 250F)

P1 P2

L6-30R L6-30P

X Y

G

Power cord wiring diagram

Color From To Signal

BLK P1-X P2-X L

WHT P1-Y P2-Y N

GRN P1-G P2-G GND

XY

G

L6-30R L6-30P

X Y

G

Power cord wiring diagram

Color From To Signal

BLK P1-X P2-X L

WHT P1-Y P2-Y L

GRN P1-G P2-G GND

XY

G

L6-30R L6-30P

Power cabling, cords and connectors

Single-phase 77

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Figure 22 Single-phase: EF-PW40URUS (VMAX 450F, VMAX 850F), ET-PW40URUS (VMAX950F), ES-PW40URUS (VMAX 250F)

P1 P2

L6-30R 3750DP

X Y

G

Color From To Signal

BLK P1-X P2-L1 L

WHT P1-Y P2-L2 N

GRN P1-G P2-G GND

Power cord wiring diagram

L6-30R

L1 L2

G

3750DP

X Y

G

Color From To Signal

BLK P1-X P2-L1 L

WHT P1-Y P2-L2 L

GRN P1-G P2-G GND

Power cord wiring diagram

L6-30R

L1 L2

G

3750DP

Figure 23 Single-phase: EF-PW40UIEC3 (VMAX 450F, VMAX 850F), ET-PW40UIEC3 (VMAX950F), ES-PW40UIEC3 (VMAX 250F)

X Y

G

P1 P2

L6-30R 332P6W

G

Y X

Color From To Signal

BRN P1-X P2-X L

BLU P1-Y P2-Y N

GRN/YEL P1-G P2-G GND

X Y

G

Power cord wiring diagram

L6-30R 332P6W

X Y

G

Color From To Signal

BLK P1-X P2-X L

WHT P1-Y P2-Y L

GRN/YEL P1-G P2-G GND

Power cord wiring diagram

L6-30R 332P6W

G

Y X

G

Y X

Power cabling, cords and connectors

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Figure 24 Single-phase: EF-PW40UASTL (VMAX 450F, VMAX 850F), ET-PW40UASTL (VMAX950F), ES-PW40UASTL (VMAX 250F)

P1 P2

L6-30R

CLIPSAL

56PA332

Color From To Signal

BRN P1-X P2-AP L

BLU P1-Y P2-N N

GRN/YEL P1-G P2-E GND

X Y

G

Power cord wiring diagram

L6-30R 56PA332

G

Y X

G

Y X

G

Y X

Color From To Signal

BRN P1-X P2-AP L

BLU P1-Y P2-N L

GRN/YEL P1-G P2-E GND

X Y

G

Power cord wiring diagram

L6-30R 56PA332

G

Y X

G

Y X

X Y

G

Figure 25 Single-phase: E-PW40L730

L6-30R L7-30P

P1 P2

Color Signal P1 P2

BLK L X Brass

WHT N Y W (Silver)

GRN/YEL GND GND GND

X Y

G

Power cord wiring diagram

L6-30R L7-30P

Color Signal P1 P2

BLK L X Brass

WHT L Y W (Silver)

GRN/YEL GND GND GND

X Y

G

Power cord wiring diagram

L6-30R L7-30P

Power cabling, cords and connectors

Single-phase 79

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Three-phase (International (Wye))The following table describes the extension cords and connector for three-phaseinternational (Wye) power transmission.

Table 22 Extension cords and connectors options – three-phase international (Wye)

Plug on eachEMC powercorda

EMC suppliedextension cordEMC modelnumberb

EMC Power CableP/N

EMC suppliedextension cordreceptacle (P1)connecting toEMC plug

EMC suppliedextension cordplug (P2)connecting tocustomer PDUreceptacle

Customer PDUreceptacle

ABL Sursum -S52S30A orHubbell -C530P6S

ES-PC3YAFLE(VMAX 250F)c

EF-PC3YAFLE(VMAX 450F,VMAX 850F)c

ET-PC3YAFLE(VMAX 950F)c

038-004-572 (BLK15FT)

038-004-573 (GRY15FT)

ABL Sursum -K52S30A orHubbell -C530C6S

Flying Leads

(International)

Determined bycustomer

ES-PCBL3YAG(VMAX 250F)

EF-PCBL3YAG(VMAX 450F,VMAX 850F)

ET-PCBL3YAG(VMAX 950F)

038-004-574 (BLK15FT)

038-004-575 (GRY15FT)

ABL Sursum -K52S30A orHubbell -C530C6S

ABL Sursum -S52S30A orHubbell -C530P6S

ABL Sursum -K52S30A orHubbell -C530C6S

a. Two (2) plugs per bay.Up to four (4) plugs if a third party or second system is in the rack.

b. Two (2) cords per model, cord length of 15 feet / 4.57 meters.c. The EMC ordering system defaults to one of the extension cord models based on the country of installation. The default value

can be overridden in the EMC ordering system.

Power cabling, cords and connectors

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Customer-to-system wiring (three-phase, International)

The following figures provide cable descriptions for customer-to-system wiring forthree-phase international power transmission.

Figure 26 Flying leads, three-phase, international: EF-PC3YAFLE (VMAX 450F, VMAX 850F),ET-PC3YAFLE (VMAX 950F), ES-PC3YAFLE (VMAX 250F),

P1

Shrink tubing

ABL Sursum - K52S30A or

Hubbell - C530C6S

Wire

Color From

Hubbell

Connector

ABL –

Sursum

Connector

TO

BRN P1 R1 L1 X-(L1)

BLK P1 S2 L2 Y-(L2)

GRY P1 T3 L3 Z-(L3)

BLU P1 N N W-(N)

GRN/YEL P1 G PE GND

Power cabling, cords and connectors

Three-phase (International (Wye)) 81

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Figure 27 Three-phase, international: EF-PCBL3YAG (VMAX 450F, VMAX 850F), ET-PCBL3YAG (VMAX 950F), ES-PCBL3YAG (VMAX 250F)

P1

ABL Sursum - K52S30A or

Hubbell - C530C6S

P2

ABL Sursum - S52S30A or

Hubbell - C530P6S

Wire Color From Hubbell ABL-Surum To Hubbell ABL-Surum

BRN P1 R1 L1 P2 R1 L1

BLK P1 S2 L2 P2 S2 L2

GRY P1 T3 L3 P2 T3 L3

BLU P1 N N P2 N N

GRN/YEL P1 G PE P2 G PE

Power cabling, cords and connectors

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Three-phase (North American (Delta))The following table describes the extension cords and connector for three-phaseNorth American (Delta) power transmission.

Table 23 Extension cords and connectors options – three-phase North American (Delta)

Plug on eachEMC powercorda

EMC suppliedextension cordEMC modelnumberb

EMC Power CableP/N

EMC supplied

extension cordreceptacle (P1)connecting toEMC plug

EMC suppliedextension cordplug (P2)connecting tocustomer PDUreceptacle

Customer PDUreceptacle

HubbellCS-8365C

ES-PCBL3DHR(VMAX 250F)c

EF-PCBL3DHR(VMAX 450F,VMAX 850F)c

ET-PCBL3DHR(VMAX 950F)c

038-003-272 (BLK15FT)

038-003-789 (GRY15FT)

HubbellCS-8364C

Russellstoll9P54U2

Russellstoll9C54U2d

ES-PCBL3DHH(VMAX 250F)

EF-PCBL3DHH(VMAX 450F,VMAX 850F)

ET-PCBL3DHH(VMAX 950F)

038-003-271 (BLK 15FT)

038-003-788 (GRY15FT)

HubbellCS-8364C

HubbellCS-8365C

HubbellCS-8364C

a. Two (2) plugs per bay.b. Two (2) cords per model, cord length of 15 feet / 4.57 meters.c. The EMC ordering system defaults to one of the extension cord models based on the country of installation. The default value

can be overridden in the EMC ordering system.d. EMC supplied as EMC model number E-ACON3P-50.

Power cabling, cords and connectors

Three-phase (North American (Delta)) 83

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Customer-to-system wiring (three-phase, North American (Delta))

The following figures provide cable descriptions for three-phase North American(Delta) power transmission.

Figure 28 Three-phase, North American, Delta: EF-PCBL3DHR (VMAX 450F, VMAX 850F), ET-PCBL3DHR (VMAX 950F), ES-PCBL3DHR (VMAX 250F)

P1 P2

CS8364 Russellstoll 9P54U2

CS8364 9P54U2Color

BLK

WHT

RED

GRN

From

P1-X

P1-Y

P1-Z

P1-G

To

P2-X

P2-Y

P2-Z

P2-G

Signal

L1

L2

L3

GND

X

YZX

Y

Z

Power cord wiring diagram

Figure 29 Three-phase, North American, Delta: EF-PCBL3DHH (VMAX 450F, VMAX 850F), ET-PCBL3DHH (VMAX 950F), ES-PCBL3DHH (VMAX 250F)

P1 P2

CS8364 CS8365

CS8364 CS8365Color

BLK

WHT

RED

GRN

From

P1-X

P1-Y

P1-Z

P1-G

To

P2-X

P2-Y

P2-Z

P2-G

Signal

L1

L2

L3

GND

Y

Z

ZX

X

Y

Power cabling, cords and connectors

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Three-phase (Wye, Domestic)The following table describes the extension cords and connector for three-phase Wyedomestic power transmission.

Table 24 Extension cords and connectors options – three-phase Wye, domestic

Plug on back ofEMC systema

EMC suppliedextension cordEMC modelnumberb

EMC PowerCable P/N

EMC suppliedextension cordreceptacle (P1)connecting toEMC plug

EMC suppliedextension cordplug (P2)connecting tocustomer PDUreceptacle

Customer PDUreceptacle

ABL SursumS52.30

ES-PCBL3YL23P(VMAX 250F)c,d

EF-PCBL3YL23P(VMAX 450F,VMAX 850F)c,d

ET-PCBL3YL23P(VMAX 950F)c,d

038-004-305(BLK 15FT)

038-004-306(GRY 15FT)

Hubbell C530C6S NEMA L22-30P NEMA L22-30R

a. Two (2) plugs per bay.b. Two (2) cords per model, cord length of 15 feet / 4.57 meters.c. The EMC ordering system defaults to one of the extension cord models based on the country of installation. The default value

can be overridden in the EMC ordering system.d. The line to neutral voltage must be below 264VAC to use these cable assemblies.

Power cabling, cords and connectors

Three-phase (Wye, Domestic) 85

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Customer-to-system wiring (three-phase, Wye, Domestic)

The following figure provides cable descriptions for models with three-phase Wyedomestic power transmission.

Figure 30 Three-phase, domestic (Black and Gray): EF-PCBL3YL23P (VMAX 450F,VMAX 850F), ET-PCBL3YL23P (VMAX 950F), ES-PCBL3YL23P (VMAX 250F)

HubbellC530C6S

NEMA

P1 P2

L22-30P

Color From (P1) To (P2) Signal

BLK1 P1-R1 P2-X L1 BLK2 P1-S2 P2-Y L2BLK3 P1-T3 P2-Z L3 BLK4 P1-N P2-N NGRN/YLW P1-G P2-G GND

C530C6SL22-30P

Black, 15 ft

Gray, 15 ft

P1 P2

Color From (P1) To (P2) Signal

BRN P1-R1 P2-X L1 BLK P1-S2 P2-Y L2GRAY P1-T3 P2-Z L3 BLUE P1-N P2-N NGRN/YLW GND GND GND

C530C6SL22-30P

Power cabling, cords and connectors

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CHAPTER 9

EMC racking for VMAX 250F

This chapter includes:

l Two system configurations................................................................................ 88l EMC rack requirements for customer components............................................ 88

EMC racking for VMAX 250F 87

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Two system configurationsTwo VMAX 250F systems can be installed in a rack. Each system can have one or twoV-Bricks. The second system must be installed as a field upgrade option.

VMAX 250F systems in a rack must conform to the following requirements:

l Lower system: 1U - 20U

l Upper system 21U - 40U

The following diagrams illustrate possible configurations for two VMAX 250F systemsin a rack.

EMC rack requirements for customer componentsCustomer components can coexist in an EMC rack with a VMAX 250F system. Thesystem must be properly positioned within the rack in accordance with followingphysical placement rules:

l EMC equipment should stack from the bottom while customer equipment stacksfrom the top of the rack.

l A system must exist within contiguous space.(Customer equipment must be above a VMAX 250F system and not interwovenwithin the EMC system.)

l All customer equipment must be electrically isolated and powered by a second pairof PDP/PDUs. This pair is sold as an optional kit.

l EMC racks with two VMAX 250F systems cannot install customer components inthe rack.

EMC racking for VMAX 250F

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CHAPTER 10

Third Party Racking Option for VMAX 250F

This chapter includes:

l Computer room requirements, VMAX 250F....................................................... 90l Customer rack requirements, VMAX 250F.........................................................90l PDU requirements for third party racks, VMAX 250F.........................................91

Third Party Racking Option for VMAX 250F 89

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Computer room requirements, VMAX 250F

The following computer room requirements provide service access and minimizephysical disruption:

l A minimum of 42 inches (107 cm) front and 30 inches (76 cm) rear clearance isrequired to provide adequate airflow and to allow for system service.

Customer rack requirements, VMAX 250FThe array components are fully tested at the factory and then transferred to the mini-rack for shipping. Only EMC customer support engineers are authorized to install thesystem into a customer rack. The original shipping mini-rack, when empty, is returnedto EMC after the installation is complete.

To ensure successful installation and secure component placement, customer racksmust conform to the following requirements:

l National Electrical Manufacturers Association (NEMA) standard for 19-inchcabinets.

l Racks must be at least 38 inches deep, and provide 24 to 32 inch front-to-rear raildepth.

l VMAX 250F systems require a minimum of 10U of continuous space for one V-Brick (minimum configuration). 20U of continuous space is required for two V-Bricks (maximum configuration).

l Threaded hole racks are not supported.

l The customer rack must have customer-supplied PDPs and PDUs installed andconnected to customer power.

l Customer rack must support a minimum 850 lbs (385 kg) of weight PLUS theweight of any 3rd party components within the rack.

Note

The customer must ensure floor load bearing requirements are met.

l Components and cables installed in customer racks must conform to theseconfiguration rules:

n After installation, components and cables within the rack cannot be moved toavailable space in different rack, or to a different location within the same rack.

n The system must be properly positioned within the rack in accordance withfollowing physical placement rules:

– Customer equipment can coexist within the same rack.(Suggest that EMC equipment should stack from the bottom whilecustomer equipment stacks from the top of the rack.)

– A system must exist within contiguous space.(Customer equipment can be below or above the system, but notinterwoven within the EMC system.)

n Two, independent systems can coexist in a rack. The recommendedconfiguration is:

Third Party Racking Option for VMAX 250F

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– Lower system: 1U - 20U

– Upper system 21U - 40U

l Round or square channel openings must support M5 screws that secure EMC railsand components. Clip nuts are provided by EMC as required.

l To ensure proper clearance and air flow to the array components, customersupplied front doors and standard bezels, if used, must include a minimum of 2.5inch (6.3 cm) clearance between the back surface of the door to the front surfaceof the vertical NEMA rails.Front and rear doors must also provide:

n A minimum of 60% (evenly distributed) air perforation openings.

n Appropriate access for service personnel, with no items that prevent front orrear access to EMC components.

n Exterior visibility of system LEDs.

PDU requirements for third party racks, VMAX 250FCustomers must provide all power distribution equipment and infrastructure for aVMAX 250F system installed in a customer rack.

General requirements:

l IEC 320-C13 outlets. Minimum quantity of six per PDU for no more than two V-Bricks.

l Carefully plan the connection of VMAX 250F hardware to the available IEC 320-C13 outlets such that the VMAX 250F load current does not exceed the rating ofany power distribution circuit breakers. Best practice is the circuit breakeroperating current at nominal AC input voltage should not exceed 80% of thecircuit breaker rating.Refer to Component power requirements, VMAX 250F on page 91 for inputrequirements for each VMAX 250F component.

Refer to Power distribution equipment for third-party rack, VMAX 250F on page94 for planning the number of connections required to support VMAX 250Fcomponents.

l Two independent AC power zones with 4800 VA minimum rating for each zone.

l 200-240VAC, 50-60 Hz, available at each IEC 320-C13 outlet.

l Ability to simultaneously turn On/Off all IEC C13 outlets within a power zone.

l Distance from any component AC inlet connection to its corresponding C13 ACoutlet can not exceed 66 inches (66 inches is the maximum AC cable length,including routing / service loop)

l EMC does not recommend sharing the same power distribution equipment withcustomer equipment or multiple VMAX 250F systems. The customer assumes allresponsibility for system power availability.

l There are no cabling requirements; however, EMC recommends to use standardcabling diagrams as a guide to ensure load balancing.Component cabling is performed by EMC field personnel during installation.

Component power requirements, VMAX 250FThe tables below provide the power requirements and descriptions for individualVMAX 250F components.

Third Party Racking Option for VMAX 250F

PDU requirements for third party racks, VMAX 250F 91

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EMC provides a power and weight calculator. Use this calculator to refine the powerand heat values to more-closely match the hardware configuration for your system.

Engine and 2U SPS power requirements

Table 25 Engine and 2U SPS power requirements

Requirement Description

AC line voltage 200 to 240 V AC ± 10%, single-phase, 47 to63 Hz

AC line current (operating maximum) 6.38 A max, at 200V AC

Power consumption (operating maximum) 1275VA (1250W) max, at 200V AC

Heat dissipation (operating maximum) 4.5 x 106 J/hr. (4,265 Btu/hr.) max @ 200Vac

In-rush current 30 A max for ½ line cycle, per line cord at 240V AC

AC protection 10 A fuse on each power supply, one phase

AC inlet type IEC320-C14 appliance coupler, per powerzone

Charge times SPS will reach 95% capacity within 6 hours ifit is fully discharged.

Notes:

l Ratings assume a fully loaded engine. Product power may vary depending on each productconfiguration. For specific product configuration power numbers, refer to the EMC powercalculator, https://powercalculator.emc.com. The power calculator only supportsproducts with an input voltage of 200-240 V AC.

l All power figures shown represent max normal operating numbers with the chassis runningin a normal 20ºC to 25ºC ambient temperature environment. The chassis power numbersgiven may increase 5% when running in a higher ambient temperature environment.

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25DAE power requirements

Table 26 25 drive DAE power requirements

Requirement Description

AC line voltage 100 to 240V AC ± 10%, single-phase, 47 to 63Hz

AC line current (operating maximum)4.73 A max at 100V AC

2.50 A max at 200V AC

Power consumption (operating maximum)473 VA (442 W) max, at 100V AC

500 VA (435 W) max, at 200V AC

Heat dissipation (operating maximum)

1.59 x 106 J/hr. (1,508 Btu/hr.) max @ 100VAC

1.80 x 106 J/hr, (1706 Btu/hr) max @ 200Vac

In-rush current 30 Apk "cold" per line cord at any line voltage

Startup surge current 40 Apk "hot" per line cord, at any line voltage

AC protection 15 A fuse on each power supply, both phases

AC inlet type IEC320-C14 appliance coupler, per powerzone

Note

l Ratings assume a fully loaded DAE that includes 2 power supplies and 25 worst case diskdrives operating in an ambient environment above 35°C. For specific productconfiguration power numbers, refer to the EMC power calculator, https://powercalculator.emc.com.

l Product power may vary depending on each product configuration and ambient operatingtemperature.

l All power figures shown represent max normal operating numbers with the chassis runningin a normal ambient temperature environment. The chassis power numbers given mayincrease 5% when running in a higher ambient temperature environment.

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Power distribution equipment for third-party rack, VMAX 250FRefer to the tables below for outlet connectivity requirements based on the quantityof V-bricks in the system.

Table 27 Power Distribution Equipment C13 Outlet Connections required for 1 V-Brick

Component

Number of C13 outlets required

TotalsZone A Zone B

25 drive 2U DAE(DAE 2)

1 1 2

25 drive 2U DAE(DAE 1)

1 1 2

4U Engine (1)+ 2U SPS(SPS 3A and 3B)

1 1 2

Total C13 outlets: 6

Table 28 Power Distribution Equipment C13 Outlet Connections required for 2 V-Bricks

Component

Number of C13 outlets required

TotalsZone A C13outlets

Zone B C13 outlets

25 drive 2U DAE(DAE 4)

1 1 2

25 drive 2U DAE(DAE 3)

1 1 2

4U Engine (2)+ 2U SPS(SPS 2A and 2B)

1 1 2

25 drive 2U DAE(DAE 2)

1 1 2

25 drive 2U DAE(DAE 1)

1 1 2

4U Engine (1)+ 2U SPS(SPS 3A and 3B)

1 1 2

Total C13 outlets: 12

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CHAPTER 11

Third Party Racking Option for VMAX 450F,VMAX 850F and VMAX 950F

This chapter includes:

l Computer room requirements ........................................................................... 96l Customer rack requirements ............................................................................. 97l Third party racks with vertical PDUs — RPQ Required .....................................99l Chassis to chassis grounding............................................................................ 103

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Computer room requirements

The following computer room requirements provide service access and minimizephysical disruption:

l To ensure integrity of cables and connections, do not move racks that are secured(bolted) together after installation.

l A minimum of 42 inches (107 cm) front and 30 inches (76 cm) rear clearance isrequired to provide adequate airflow and to allow for system service.

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Customer rack requirementsThe array components are shipped in a fully tested EMC rack and are installed into thecustomer-supplied rack by EMC customer support engineers only. The originalshipping rack, when empty, is returned to EMC after the installation is complete.

To ensure successful installation and secure component placement, customer racksmust conform to the following requirements:

l National Electrical Manufacturers Association (NEMA) standard for 19-inchcabinets.

l Individual racks must be empty at the time of installation.

l Threaded hole racks are not supported.

l The cabinet must be in its final location with stabilizing (anti-tip) bracketsinstalled.

l A separate rack that supports a minimum 2000 lb/907 kg of weight must beprovided for each system bay.

Note

The customer must ensure floor load bearing requirements are met.

l Components and cables installed in customer racks must conform to theseconfiguration rules:

n Components and cables within a system bay can not be moved to availablespace in different bay, or to a different location within the same bay.

n System must be properly positioned in accordance with physical placementrules.

l Internal depth of at least 43 inches (109 cm) with the front and rear doors closed.This measurement is from the front surface of the NEMA rail to the rear door.

l Round or square channel openings must support M5 screws that secure EMC railsand components. Clip nuts are provided by EMC as required.

l Non-dispersed rack-to-rack pass-through cable access at least 3 inches (7.6 cm)in diameter must be available via side panels or horizontal through openings.

l To ensure proper clearance and air flow to the array components, customersupplied front doors and standard bezels, if used, must include a minimum of 2.5inch (6.3 cm) clearance between the back surface of the door to the front surfaceof the vertical NEMA rails.Front and rear doors must also provide:

n A minimum of 60% (evenly distributed) air perforation openings.

n Appropriate access for service personnel, with no items that prevent front orrear access to EMC components.

n Exterior visibility of system LEDs.

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Figure 31 Customer rack dimension requirements

Rack

Post

Rea

r

(19” (48.26 cm) min

Rack

Post

Rack

Post

Rack

Post

Rear NEMA Front NEMA

Front NEMA Rear NEMA

(24

” (6

0.9

6 c

m)

min

)

19

” N

EM

A

Fro

nt

—Fro

nt

Door—

a b c

(24” (60.96 cm) min)

2.5” (6.35 cm) (min)

(48

.26

cm

)—Rear D

oor—

Min depth

(43” (109.2 cm) min)

d

e

Rack, Top View

Rack depth = a+b+c

Dim Label Description

a = distance between front surface of rack post and NEMA rail.

b = distance between NEMA rails.(24" (60.96 cm) recommended, up to 34" (86.36 cm) allowed.)

c = distance between rear NEMA rails to interior surface of rear door.Minimum requirement = 19" (48.26 cm).

d If a front door exists, = distance between inner-front surface of the front door and the front NEMArail.

e = distance between rear surface of rack post to inner surface of rear door.

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Third party racks with vertical PDUs — RPQ RequiredEach system bay is powered by two redundant power distribution units (PDUs), onePDU for each power zone. Rather than use the standard EMC horizontal PDU, thecustomer can use vertical PDUs via RPQ. The general requirements for third partyracks with rear-facing or inward-facing PDUs are listed below.

l Requirements for third party racks with vertical PDUs (inward-facing) on page102

l Requirements for third party racks with vertical PDUs (rear-facing) on page 100

General requirements for vertical PDUs within third party racksIn addition to meeting standard VMAX array power requirements, vertical PDUs shouldabide by the following:

l Both PDUs support AC-line input connectivity and provide outlets for everycomponent in the bay.

l The PDU must be available in the wiring configuration that matches the customerpower supply.Options include:

n Single-phase

n Three-phase Delta

n Three-phase Wye

l Each PDU should meet the following requirements:

n At a minimum, a total of 24 power outlets must be provided.The outlets are divided into six banks with each bank consisting of four IEC60320 C13 individual AC outlets.

n Each bank of outlets is connected to individual branch circuits that areprotected by a single two pole 20 Amp circuit breaker.

n The PDU capacity should exceed the power requirements shown in the PowerCalculator for the specific max configuration.

n Single PDU mounted per side per Figure 32 on page 100 and Figure 33 on page102.

If the customer requires power to be supplied from overhead, EMC recommends oneof the following:

l Option 1: Replace the rear top cover of the bay with the ceiling routing top cover,described in Overhead routing kit on page 106, which allows the power cablesinside the machine to be routed out through the top.

l Option 2: "Drop" the power cables down the hinge side, to the bottom, and routethem inside the machine.

The cables should be dressed to allow all doors to open freely, minimize cablecongestion, and provide access to components within the system.

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Requirements for third party racks with vertical PDUs (rear-facing)If using a rear-facing PDU within a third party rack, refer to the diagram below toensure that the rack and PDU combination are sufficient for the array.

Figure 32 Requirements for customer rack with rear-facing, vertical PDUs

Customer Rack with rear-facing non-EMC PDU, Top View

Rack

PostRear NEMAFront NEMA

Front NEMA Rear NEMA

Fro

nt

—Fro

nt

Door—

Rack

Post

Rack

Post

Rack

Postpw

pw Customer PDU

Customer PDU

Space required by enclosures

engine rails, and cable

management arms

j

—Rear D

oor—

e

a b c(24” (60.96 cm) min)

Min depth (k)

(43” (109.2 cm) min)

Re

ar

19

” N

EM

A(4

8.2

6 c

m)

d

2.5” (6.35 cm) (min)

fg

f

g

h i

Rack depth = a+b+c

Dim Label Description

a = distance between front surface of rack post and NEMA rail.

b = distance between NEMA rails.(24" (60.96 cm) recommended, up to 34" (86.36 cm) allowed.)

c = distance between rear NEMA rails to exterior, rear surface of rack.

d If a front door exists, = distance between inner-front surface of the front door and the front NEMArail.

e = distance between rear surface of rack post to inner surface of rear door.

f = distance between inside surface of rack post and 19" (48.26cm) space required by rails,enclosures, and cable management arms. Minimum of 3" (7.62cm) is recommended.

Note: If no rack post, minimum recommended distance is measured to inside surface of rack.

g = width of rack post.

h = 19" (48.26 cm) + (2f)Min requirement = 25" (63.5 cm)

i = rack width (minimum)19" (48.26 cm) + (2f) + (2g)

Where:

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Dim Label Description

l f = recommended minimum of 3" (7.62cm)

l g = rear rack post width (if any)

l pw + ½" (1.3cm) ≤ f+g

j ≥ 6" (15.24cm) is a requirement.Distance between rear-facing surface of vertical PDU and the rack post or any other parallel surfacethat may interfere with the power cables.

Note: Dimension k is dependent on this value.

k = min depth: b+cWhere:

l j ≥ 6" (15.24cm) is a requirement.

l IF j is ≥ 6" (15.24cm), min rack depth = 43" (109.2cm).

l IF j is < 6" (15.24cm), min rack depth = 43" (109.2cm) + distance required to make j ≥ 6"(15.24cm).

pw = PDU width

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Requirements for third party racks with vertical PDUs (rear-facing) 101

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Requirements for third party racks with vertical PDUs (inward-facing)If using a inward-facing PDU within a third party rack, refer to the diagram below toensure that the rack and PDU combination are sufficient for the array.

Figure 33 Requirements for third party rack with inward-facing, vertical PDUs

Rack with inward-facing non-EMC PDU, Top View

Rack

Post

Rear NEMA Front NEMA

Front NEMA Rear NEMA

Fro

nt

—Fro

nt

Door—

Rack

Post

Rack

Post

Rack

Post

Space required by enclosures

engine rails, and cable

management arms

PDU

pw

pd

a b(24” (60.96 cm) min)

d

2.5” (6.35 cm) (min)

(f)

19

” (4

8.2

6 c

m)+

(2

g)

min

e

—Rear D

oor—

Re

ar

19

” N

EM

A(4

8.2

6 c

m)

cbg

PDU

c

(h) 43” (109.2 cm) min

Min depth

Rack depth = a+b+c

Dim Label Description

a = distance between front surface of rack post and NEMA rail.

b = distance between NEMA rails.(24" (60.96 cm) recommended, up to 34" (86.36 cm) allowed.)

c = distance between rear NEMA to exterior, rear surface of rack.

cb (Cable Bend) = 4" minimum (10.156 cm)

d If a front door exists, = distance between inner-front surface of the front door and the front NEMArail.

e = distance between rear surface of rack post to inner surface of rear door.

f = rack width: 19" (48.26cm) + (2g)(Min requirement for inward-facing vertical PDU)

g ≥ pd (PDU Depth) + cb (Cable Bend)

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Dim Label Description

Note: PDU and connected cords cannot interfere with serviceability of system. This includesmaintenance of cable management arms.

h min depth: = b+c (43" (109.2cm) minimum)This is minimum space required for enclosures, engine rails, and cable management arms.

pd = PDU depth

pw = PDU width

Chassis to chassis groundingRack to rack chassis ground connections are strongly recommended to mitigate therisk of large AC power transients in the data center affecting system performance.Large AC power transients can occur from one or a combination of: electrical powergrid problems feeding a facility; weak facility grounding; powerful lightning stormstrikes; or facility power equipment failure. Mechanisms for tying racks together toprovide the ground connection can vary based on the rack provided by the customerand site facility preference.

P/N 106-562-209 is a rack to rack grounding kit for EMC racks. The grounding kitmay or may not work on racks provided by the customer due to the variety of groundlocation positions on racks.

Third Party Racking Option for VMAX 450F, VMAX 850F and VMAX 950F

Chassis to chassis grounding 103

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Third Party Racking Option for VMAX 450F, VMAX 850F and VMAX 950F

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CHAPTER 12

Optional kits

This chapter includes:

l Overhead routing kit.........................................................................................106l PDU/PDP kits, VMAX 250F............................................................................. 106l Dispersion kits, VMAX 450F, VMAX 850F........................................................ 106l Dispersion kits, VMAX 950F............................................................................. 107l Securing kits.....................................................................................................108l GridRunner kit and customer-supplied cable trough......................................... 108

Optional kits 105

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Overhead routing kitVMAX 250FWhen installing a VMAX 250F bay in nonraised or raised floor environments, the hostcabling and power is handled from overhead using the overhead cable routing kit.

Table 29 Overhead routing models, VMAX 250F

Model Description

ES-TOP-KIT Top routing kit

VMAX 450F, VMAX 850F, VMAX 950FWhen installing an array in nonraised or raised floor environments, the host cablingand power is handled from overhead using the overhead cable routing kit.

Table 30 Overhead routing models, VMAX 450F, VMAX 850F, VMAX 950F

Model Description

E-TOP-KIT Top routing kit

PDU/PDP kits, VMAX 250FPDP/PDU kits are available when installing a second VMAX 250F system or customercomponents in an EMC rack.

Table 31 PDU/PDP kits for VMAX 250F

Model Description

ES-PWRKIT-1P Single Phase PDU/PDP

ES-PWRKIT-1PU Single Phase PDU/PDP UPG

ES-PWRKIT-3D 3P Delta Phase PDU/PDP

ES-PWRKIT-3DU 3P Delta Phase PDU/PDP UPG

ES-PWRKIT-3Y 3WYE Phase PDU/PDP

ES-PWRKIT-3YU 3WYE Phase PDU/PDP UPG

Dispersion kits, VMAX 450F, VMAX 850FEach dispersed system bay requires a dispersion kit specific to the bay number. Thedispersion kits include a 82 foot (25 m) optical cable and optics for the dispersedengine. When installing a dispersed layout, side skins (EF-SKINS) are required.

The following table lists model numbers for new installations and upgrades.

Optional kits

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Table 32 Dispersion kit model numbers, VMAX 450F, VMAX 850F

Model Description

EF-DSOPTICE2 VMAX AF ENG 2 DSP CBLOPTICS KIT

EF-DSOPTICE2U VMAX AF ENG 2 DSP CBLOPTICS KIT UPG

EF-DSOPTICE3 VMAX AF ENG 3 DSP CBLOPTICS KIT

EF-DSOPTICE3U VMAX AF ENG 3 DSP CBLOPTICS KIT UPG

EF-DSOPTICE4 VMAX AF ENG 4 DSP CBLOPTICS KIT

EF-DSOPTICE4U VMAX AF ENG 4 DSP CBLOPTICS KIT UPG

EF-DSOPTICE5 VMAX AF ENG 5 DSP CBLOPTICS KIT

EF-DSOPTICE5U VMAX AF ENG 5 DSP CBLOPTICS KIT UPG

EF-DSOPTICE6 VMAX AF ENG 6 DSP CBLOPTICS KIT

EF-DSOPTICE6U VMAX AF ENG 6 DSP CBLOPTICS KIT UPG

EF-DSOPTICE7 VMAX AF ENG 7 DSP CBLOPTICS KIT

EF-DSOPTICE7U VMAX AF ENG 7 DSP CBLOPTICS KIT UPG

EF-DSOPTICE8 VMAX AF ENG 8 DSP CBLOPTICS KIT

EF-DSOPTICE8U VMAX AF ENG 8 DSP CBLOPTICS KIT UPG

Dispersion kits, VMAX 950FEach dispersed system bay requires a dispersion kit specific to the bay number. Thedispersion kits include a 82 foot (25 m) optical cable and optics for the dispersedengine. When installing a dispersed layout, side skins (ET-SKINS) are required.

The following table lists model numbers for new installations and upgrades.

Table 33 Dispersion kit model numbers, VMAX 950F

Model Description

ET-DSOPTICE2 VMAX AF ENG 2 DSP CBLOPTICS KIT

ET-DSOPTICE2U VMAX AF ENG 2 DSP CBLOPTICS KIT UPG

ET-DSOPTICE3 VMAX AF ENG 3 DSP CBLOPTICS KIT

ET-DSOPTICE3U VMAX AF ENG 3 DSP CBLOPTICS KIT UPG

ET-DSOPTICE4 VMAX AF ENG 4 DSP CBLOPTICS KIT

ET-DSOPTICE4U VMAX AF ENG 4 DSP CBLOPTICS KIT UPG

ET-DSOPTICE5 VMAX AF ENG 5 DSP CBLOPTICS KIT

ET-DSOPTICE5U VMAX AF ENG 5 DSP CBLOPTICS KIT UPG

ET-DSOPTICE6 VMAX AF ENG 6 DSP CBLOPTICS KIT

ET-DSOPTICE6U VMAX AF ENG 6 DSP CBLOPTICS KIT UPG

ET-DSOPTICE7 VMAX AF ENG 7 DSP CBLOPTICS KIT

Optional kits

Dispersion kits, VMAX 950F 107

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Table 33 Dispersion kit model numbers, VMAX 950F (continued)

Model Description

ET-DSOPTICE7U VMAX AF ENG 7 DSP CBLOPTICS KIT UPG

ET-DSOPTICE8 VMAX AF ENG 8 DSP CBLOPTICS KIT

ET-DSOPTICE8U VMAX AF ENG 8 DSP CBLOPTICS KIT UPG

Securing kitsVMAX 250FThe Securing Kits contain heavy brackets plus hardware used to attach the bracketsto the frames of the system bay. The brackets are attached to the floor using boltsthat engage the flooring substructure provided by the customer.

The EMC VMAX Securing Kit Installation Guide provides installation instructions.

Table 34 Securing kit models, VMAX 250F

Model Description

ES-SECURE Secure kit for single bay

ES-SECUREJK Secure kit for joining bays

VMAX 450F, VMAX 850F, VMAX 950FThe Securing Kits contain heavy brackets plus hardware used to attach the bracketsto the frames of the system bays. The brackets are attached to the floor using boltsthat engage the flooring substructure provided by the customer.

The EMC VMAX Securing Kit Installation Guide provides installation instructions.

Table 35 Securing kit models, VMAX 450F, VMAX 850F, VMAX 950F

Model Description

E-SECURE Secure kit for single bay

E-SECUREADD Secure kit for joining bays

GridRunner kit and customer-supplied cable trough

VMAX 250FThe EMC GridRunner™ bottom routing kit (ES-BOT-KIT) and customer-supplied cabletroughs can help organize and protect subfloor cables.

Each GridRunner supports the cable bundle above the subfloor. GridRunners areinstalled with brackets that attach to the stanchions under the raised floor. Thestanchions are up to one inch in diameter, measured at six inches (15.24 cm) belowthe raised tiles.

To ensure sufficient support of the cable bundle, a GridRunner should be installedevery two meters.

Optional kits

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Table 36 Bottom routing model, VMAX 250F

Model Description

ES-BOT-KIT Bottom routing kit

VMAX 450F, VMAX 850F, VMAX 950FThe EMC GridRunner™ bottom routing kit (E-BOT-KIT) and customer-supplied cabletroughs can help organize and protect subfloor cables that connect separated bays.GridRunners reduce the vertical drop of the dispersion cables, which may increase thedistance between the separated bays.

Each GridRunner supports the cable bundle above the subfloor. GridRunners areinstalled with brackets that attach to the stanchions under the raised floor. Thestanchions are up to one inch in diameter, measured at six inches (15.24 cm) belowthe raised tiles.

To ensure sufficient support of the cable bundle, a GridRunner should be installedevery two meters.

Table 37 Bottom routing model, VMAX 450F, VMAX 850F, VMAX 950F

Model Description

E-BOT-KIT a Bottom routing kit

a. GridRunner basket for supporting cables beneath the floor for dispersed bays.

Optional kits

GridRunner kit and customer-supplied cable trough 109

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Optional kits

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APPENDIX A

Best Practices for AC Power Connections

This chapter includes:

l Best practices overview for AC power connections...........................................112l Selecting the proper AC power connection procedure...................................... 113l Procedure A: Working with the customer's electrician onsite............................114l Procedure B: Verify and connect...................................................................... 125l Procedure C: Obtain customer verification....................................................... 126l PDU labels........................................................................................................ 126l Ground the cabinet........................................................................................... 128l AC power specifications................................................................................... 130

Best Practices for AC Power Connections 111

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Best practices overview for AC power connectionsTo assure fault tolerant power, external AC power must be supplied from independent,customer-supplied, power distribution units (PDUs) as shown in Figure 34 on page112.

NOTICE

For systems operating from three phase AC power, two independent and isolated ACpower sources are recommended for the two individual power zones in each rack ofthe system. This provides for the highest level of redundancy and system availability.If independent AC power is not available, there is a higher risk of data unavailabilityshould a power failure occur, including individual phase loss occurring in both powerzones.

NOTICE

Before connecting external AC power to EMC bays, verify that the bays have beenplaced in their final position as explained in the installation guide.

Figure 34 Two independent customer-supplied PDUs

Customer’sPDU 1

Customer’sPDU 2

Circuit breakerson (|)

Circuit breakerson (|)

Circuit breakers - Numbers

27

28

29

30

Circuit breakers - Numbers

...

8

9

10

11

...

Power feed 1 Power feed 2

Best Practices for AC Power Connections

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Selecting the proper AC power connection procedureThe EMC Customer Engineer must select the proper AC power connection procedure

There are three possible scenarios at the installation site regarding the connection ofcustomer AC power to the EMC array. The EMC Customer Engineer (CE) must selectthe proper AC power connection procedure for the scenario.

1. Refer to table below which summarizes the three possible scenarios at theinstallation site when you are about to connect external AC power to the EMCarray.

2. Select the procedure that applies to your situation and follow the instructions forthat procedure.

Table 38 Procedure options for AC power connection

If the scenario is... then use this procedure:

The customer’s electrician is available at the installation site. Aa, See: Procedure A: Working with the customer's electricianonsite on page 114

Access to customer-supplied, labeled, power cables (beneathraised floor or overhead).

(And the customer’s electrician is NOT available at theinstallation site.)

B, See: Procedure B: Verify and connect on page 125

Customer-supplied PDU source cables are already pluggedinto the EMC PDU (or VMAX 250F PDP) and you have noaccess to the customer-supplied, labeled, power cables(beneath raised floor or overhead).(And the customer’s electrician is NOT available at theinstallation site.)

C, See: Procedure C: Obtain customer verification on page126

a. Procedure A assures fault tolerant power in the EMC array.

Best Practices for AC Power Connections

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Procedure A: Working with the customer's electrician onsiteUse this procedure if the customer’s electrician is available at the installation site.

This procedure requires three basic tasks that alternate between the customer'selectrician, the EMC CE and back to the customer's electrician.

l Task 1: Customer's electrician

l Task 2: EMC Customer Engineer (CE)

l Task 3: Customer's electrician

Best Practices for AC Power Connections

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Procedure A, Task 1: Customer's electrician

NOTICE

This task is performed by the customer's electrician.

Procedure

1. Verify that the customer-supplied AC source voltage output on each customer-supplied PDU is within the AC power specification shown in AC powerspecifications on page 130. Measure the voltage output of each power cable asshown in Figure 35 on page 115.

2. Turn OFF all the relevant circuit breakers in customer-supplied PDU 1 andcustomer-supplied PDU 2.

3. Verify that the customer-supplied power cables connected to PDU 1 and PDU 2have no power as shown in Figure 36 on page 115.

Figure 35 Circuit breakers ON — AC power within specification

Customer’sPDU 1

Customer’sPDU 2

Circuit breakerson (|)

Circuit breakerson (|)

Circuit breakers - Numbers

27

28

29

30

Circuit breakers - Numbers

...

8

9

10

11

...

Labels on customer power lines

Power feed 1 Power feed 2

PDU 1CB 28

PDU 2

CB 9

Voltmeter

TYPE PM89 CLASS 25 01

0

100 240300V

Voltmeter

TYPE PM89 CLASS 25 01

0

100 240300V

Figure 36 Circuit breakers OFF — No AC power

Customer’sPDU 1

Customer’sPDU 2

Circuit breakeroff (0)

Circuit breakeroff (0)Circuit breakers - Numbers

27

28

29

30

Circuit breakers - Numbers

...

8

9

10

11

...

PDU 2

CB 9

PDU 1CB 28

Labels on customer power lines

Voltmeter

TYPE PM89 CLASS 25 01

0

100 240300V

Voltmeter

TYPE PM89 CLASS 25 01

0

100 240300V

Best Practices for AC Power Connections

Procedure A, Task 1: Customer's electrician 115

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Procedure A, Task 2: EMC Customer EngineerBefore you begin

Before connecting power to the system, make sure that the power for both zone Aand zone B are turned OFF. This task is performed by the EMC Customer Engineer.

Figure 37 System bay power tee breakers (OFF = pulled out)

2

1

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

22

23

24

25

26

27

28

29

30

31

32

33

34

35

36

37

38

39

40

PDU PDU

System Bay (rear view)

Zo

ne

B

Zo

ne

A

12

34

56

12

34

56

Power zone B

Left side

Power zone A

Right side1

23

45

6

12

34

56

Zone A

Right side

Zone B

Left side

Power zone B

Left side

Power zone A

Right side

(With

re

ar

do

or

rem

ove

d)

(With

re

ar

do

or

)

ON OFF

12

34

56

12

34

56

Procedure

1. Confirm that the customer-supplied power cables are labeled and that eachlabel contains the relevant customer-supplied PDU and circuit breaker numbers.If power cables are not equipped with labels, alert the customer.

2. Compare the numbers on the customer-supplied power cables for each EMCbay to verify that power zone A and power zone B are powered by a differentcustomer-supplied PDU.

3. Do one of the following to connect power zone A and power zone B in each bay.If necessary, use the 15ft extension cords provided by EMC.

l For single-phase power: Connect customer-supplied PDU power cables tothe EMC bay by connecting to the bay's AC input cables for power zone Aand power zone B as shown below.

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Figure 38 Connecting AC power, single-phase

Customer’s PDU 1

Zone B

AC input

cable B

15 ft. extension

cord options

Mating connector or

customer-supplied cable

Customer’s PDU 2

Zone A

AC input

cable A

15 ft. extension

cord options

Mating connector or

customer-supplied cable

EMC-supplied power cable

and connector from the PDUCable connectors are shown

as they exit the bottom rear

of the bay.

Rear viewSystem bay

Zone B PDU

(Left)Zone A PDU

(Right)

EMC-supplied power cable

and connector from the PDU

P1 P2 P3 P1 P2 P3P2 and P3 used

depending on

configuration

l For three-phase power: Connect customer-supplied PDU power cables tothe EMC bay by connecting to the bay's AC input cables for power zone Aand power zone B as shown below.

Best Practices for AC Power Connections

Procedure A, Task 2: EMC Customer Engineer 117

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Figure 39 Connecting AC power, three-phase

Customer’s PDU 1

Zone B

AC input

cable B

15 ft. extension

cord options

Mating connector or

customer-supplied cable

Customer’s PDU 2

Zone A

AC input

cable A

15 ft. extension

cord options

Mating connector or

customer-supplied cable

EMC-supplied power cable

and connector from the PDU

Rear viewSystem bay

Zone B PDU

(Left)

Zone A PDU

(Right)

EMC-supplied power cable

and connector from the PDU

Zone B PDU

(Left)Zone A PDU

(Right)

Cable connectors are shown

as they exit the bottom rear

of the bay.

NOTICE

Do not connect EMC bay power zone A and power zone B to the samecustomer-supplied PDU. The customer will lose power redundancy and risk DataUnavailability (DU) if the PDU fails or is turned off during a maintenanceprocedure.

Best Practices for AC Power Connections

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Figure 40 Power zone connections

:tnatropmIlaunam noitcurtsni ot refeR

Zone B Zone A

(Rear View)SYSTEM

Customer’s Power

Source 1

Circuit

Breakers

(CBs)

Zone B Zone A

(Rear View)SYSTEM

Customer’s Power

Source 1

Circuit

Breakers

(CBs)

Customer’s Power

Source 2

Circuit

Breakers

(CBs)

:tnatropmIlaunam noitcurtsni ot refeR

Zone B Zone A

(Rear View)SYSTEM

Customer’s Power

Source 1

Circuit

Breakers

(CBs)

Zone B Zone A

(Rear View)SYSTEM

Customer’s Power

Source 1

Circuit

Breakers

(CBs)

Customer’s Power

Source 2

Circuit

Breakers

(CBs)

046-001-749_01

Best Practices for AC Power Connections

Procedure A, Task 2: EMC Customer Engineer 119

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Procedure A, Task 2: EMC Customer Engineer (VMAX 250F)Before you begin

Before connecting power to the system, make sure that the power for both zone Aand zone B are turned OFF. This task is performed by the EMC Customer Engineer.

Figure 41 PDP power switches for Zone A and B

Rear viewExample shown:

2 V-Bricks

PDP

10

10

A

B

10

10

A

B

ON

I

OFF

O

ON

I

OFF

O

ON

I

OFF

O

ON

I

OFF

O

ON

I

OFF

O

ON

I

OFF

O

PDU

40U rack

PDP

PDU

Power zone A(right, gray)

Power zone B(left, black)

(Power zone B)

(Power zone B) (Power zone A)

(Power zone A)

ON|

OFF

Zone A

Zone A power switch

ON|

OFF

Zone B

Zone B power switch

Power zone B(left, black)

40U rack

Power zone A(right, gray)

Example shown:

2 V-Bricks

PDU(Power zone A)

PDU(Power zone B)

Procedure

1. Confirm that the customer-supplied power cables are labeled and that eachlabel contains the relevant customer-supplied PDU and circuit breaker numbers.If power cables are not equipped with labels, alert the customer.

2. Compare the numbers on the customer-supplied power cables for each EMCbay to verify that power zone A and power zone B are powered by a differentcustomer-supplied PDU.

3. Do the following to connect power zone A and power zone B in each bay. Youmust use the 15ft extension cords provided by EMC. To ensure serviceability,make sure there is 2ft (61cm) of cable slack directly under the bay floor-egress.See VMAX 250F customer AC power feed cabling on page 73 for more details.

l For both single-phase and three-phase, connect customer-supplied PDUpower cables to the EMC bay by connecting to the bay's AC input cables forpower zone A and power zone B as shown below:

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Figure 42 Connecting AC power

Customer’s PDU 1

Zone B

AC input

cable B

15 ft. extension

cord mandatory with 2ft slack

Mating connector or

customer-supplied cable

Customer’s PDU 2

Zone A

AC input

cable A

15 ft. extension

cord mandatory with 2ft slack

Mating connector or

customer-supplied cable

EMC-supplied power cable

and connector from the PDP

Cable connectors are shown

as they exist near the bottom

of the bay.

Rear view

VMAX 250F bay

EMC-supplied power cable

and connector from the PDP

PDP PDP(Power zone B, left) (Power zone A, right)

NOTICE

Do not connect EMC bay power zone A and power zone B to the samecustomer-supplied PDU. The customer will lose power redundancy and risk DataUnavailability (DU) if the PDU fails or is turned off during a maintenanceprocedure.

Best Practices for AC Power Connections

Procedure A, Task 2: EMC Customer Engineer (VMAX 250F) 121

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Figure 43 Power zone connections

Best Practices for AC Power Connections

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VMAX 250F customer AC power feed cabling

When connecting customer input power to a VMAX 250F, the EMC-supplied 15ft(4.57m) extension cords must be used and approximately 24in (61cm) of slack mustbe left directly under the bay floor egress.

Note

For power zone-A, use the extension cord with gray sleeves at the ends.

Figure 44 Customer input power cabling for VMAX 250F

Rear viewExample shown:

2 V-Bricks

PDPs

Customer’sPDU 2

Power feed 2

Customer’sPDU 1

Circuit breakers - Numbers

27

28

29

30

...

Circuit breakers - Numbers

27

28

29

30

...

Power feed 1

10

10

A

B

10

10

A

B

ON

I

OFF

O

ON

I

OFF

O

ON

I

OFF

O

ON

I

OFF

O

ON

I

OFF

O

ON

I

OFF

O

EMC 15ft (4.57m) Extension Cordwith 24in (61cm) slack under floor egress

Customer power feed

Customer power feed

PDUs

40U rack

PDP

PDU

Power zone A(right, gray)

Power zone B(left, black)

(Power zone B)

(Power zone B) (Power zone A)

(Power zone A)

Data center sub-floor

Data center floor

Best Practices for AC Power Connections

Procedure A, Task 2: EMC Customer Engineer (VMAX 250F) 123

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Procedure A, Task 3: Customer's electrician

NOTICE

This task is performed by the customer's electrician.

Procedure

1. Working with the EMC Customer Engineer, turn ON all the relevant circuitbreakers in customer-supplied PDU 2.

Verify that only power supply and/or SPS LEDs in power zone A are ON orflashing green in every bay in the array.

Note

If all power supply and/or SPS LEDs in a bay are ON or flashing green, the bayis incorrectly wired because the AC power to both EMC power zones is suppliedby a single PDU, that is, customer-supplied PDU 2. Wiring must be correctedbefore moving on to the next step.

2. Turn OFF the relevant circuit breakers in customer-supplied PDU 2.

Verify that the power supply and/or SPS LEDs that turned green in theprevious step changed from green to OFF and/or flashing yellow. The yellowSPS lights flash for a maximum of 5 minutes.

Note

Note that power supplies connected to an SPS continue to have green lightsON while the SPS yellow light continues to flash indicating the SPS is providingon-battery power.

3. Repeat step 1 and step 2 for power zone B and customer-supplied PDU 1.

4. Turn ON all the relevant circuit breakers in customer-supplied PDU 1 andcustomer-supplied PDU 2.

5. Label the PDUs as described in PDU labels on page 126.

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Procedure B: Verify and connectPerform this procedure if the two conditions listed below are true:

l Access to customer-supplied, labeled, power cables (beneath raised floor oroverhead).

l The customer's electrician is not available at the installation site.

This procedure requires the EMC Customer Engineer to verify that the customer'selectrician has complied with power specifications. Once verified, the EMC CustomerEngineer makes the required power connections overhead or under the floor.

Procedure

1. Have the customer verify that their electrician has complied with powerspecifications for voltage levels and redundancy. If the customer cannot verifythis, provide them with a copy of Procedure A. Inform the customer that theirarray may prematurely shut down in the event of a site power issue.

2. Access the labeled, power cables (beneath raised floor or overhead) to verifythat the customer-supplied power cables are properly labeled as shown in Figure 36 on page 115 and described in Procedure A, Task 2.

3. Compare the numbers on the customer-supplied power cables for each EMCbay to verify that power zone A and power zone B are powered by a differentcustomer-supplied PDU.

4. If power extension cables are required, connect them to power zone A andpower zone B in each bay.

5. Connect the customer-supplied power cables to EMC power zones as describedin Procedure A, Task 2.

6. Record the customer-supplied PDU information as described in Procedure A,Task 2.

7. Label the PDUs as described in PDU labels on page 126.

Best Practices for AC Power Connections

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Procedure C: Obtain customer verificationPerform this procedure if the three conditions listed below are true:

l The customer-supplied PDU source cables are already plugged into the EMC PDU.

l You have no access to the area below the raised floor.

l The customer's electrician is not available at the installation site.

Procedure

1. Have the customer verify that their electrician has complied with powerspecifications for voltage levels and redundancy. If the customer cannot verifythis, provide them with a copy of Procedure A. Inform the customer that theirarray may prematurely shut down in the event of a site power issue.

2. Record the customer-supplied PDU information (AC source voltage) asdescribed in step 1 of Procedure A, Task 1: Customer's electrician on page 115and label the PDUs as described in PDU labels on page 126.

PDU labelsBefore applying labels to the PDUs, one of the following procedures must have beencompleted:

l Procedure A: Working with the customer's electrician onsite on page 114

l Procedure B: Verify and connect on page 125

l Procedure C: Obtain customer verification on page 126

If necessary, see Selecting the proper AC power connection procedure on page 113 toselect the correct procedure.

PDU label part numbers

VMAX 250F

Table 39 VMAX 250F label part numbers

PN Description Location

PN 046-003-593 LABEL: CUSTOMER PDU INFORMATION OPEN ME FIRST KIT, PN 106-887-093

VMAX 450F, VMAX 850F, VMAX 950F

Table 40 VMAX 450F, VMAX 850F, VMAX 950F label part numbers, EMC racks

For... Use PN Description Location

All bays PN 046-001-750 LABEL: CUSTOMER 1P 3P PDU INFOWRITEABLE

OPEN ME FIRST, KIT, PN 106-887-026

Best Practices for AC Power Connections

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Applying PDU labels, VMAX 250FProcedure

1. Locate and complete the PDU label.

2. Place the label on the bottom, inner surface of the PDU enclosure for side A andB.

Figure 45 Applying the PDU labels

Rear viewExample shown:

2 V-Bricks

PDP

10

10

A

B

10

10

A

B

ONI

OFFO

ONI

OFFO

ONI

OFFO

ONI

OFFO

ONI

OFFO

ONI

OFFO

PDU

40U rack

PDP

PDU

Power zone A(right, gray)

Power zone B(left, black)

(Power zone B)

(Power zone B) (Power zone A)

(Power zone A)

046-003-593_A02

Power Zone B Power Zone A

Customer PDU

Information

PDU

Panel

CB’s

PDU

Panel

CB’s

(Add label to bottom,inside surface of PDU)

(Add label to bottom,inside surface of PDU)

PDU label(not to scale)

Best Practices for AC Power Connections

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Applying PDU labels, VMAX 450F, VMAX 850F, VMAX 950FProcedure

1. For each bay, locate and complete the PDU label.

Note

For three-phase power, enter data only in the P1 column.

2. Place the label on the top surface of the PDU enclosure for side A and B.

Figure 46 PDU label , single-phase and three-phase

Customer PDU Information

Power Zone B

PDU

Panel

CB(s)

P1 P2 P3

Power Zone A

PDU

Panel

CB(s)

P1 P2 P3

Figure 47 Label placement— Customer PDU Information

Rear View

Zone A PDU labelZone B PDU label

Ground the cabinetEquipment correctly installed within the cabinet is grounded through the AC powercables and connectors. In general, supplemental grounding is not required.

If your site requires external grounding (for example, to a common grounding networkbeneath the site floor), you can use the grounding lugs provided on each of thecabinet’s bottom supports.

Best Practices for AC Power Connections

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Figure 48 Location of cabinet ground lugs

CL4827

046-003-3

50

Best Practices for AC Power Connections

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AC power specifications

Table 41 Input power requirements - single-phase, North American, International, Australian

Specification North American 3-wireconnection(2 L & 1 G)a

International andAustralian 3-wireconnection(1 L & 1 N & 1 G)a

Input nominal voltage 200–240 VAC ± 10% L- Lnom

220–240 VAC ± 10% L- Nnom

Frequency 50–60 Hz 50–60 Hz

Circuit breakers 30 A 32 A

Power zones Two Two

Minimum power requirementsat customer site(VMAX 250F)

l One 30 A, single phase drop per zone.

l Two power zones require 2 drops, each drop rated for 30A.

l Two systems in an EMC rack require 4 drops, each droprated for 30 A.

Minimum power requirementsat customer site (VMAX450F, VMAX 850F, VMAX950F)

l Three 30 A, single-phase drops per zone.

l Two power zones require 6 drops, each drop rated for 30A.

l PDU A and PDU B require three separate single-phase 30A drops for each.

a. L = line or phase, N = neutral, G = ground

Best Practices for AC Power Connections

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Table 42 Input power requirements - three-phase, North American, International, Australian

Specification North American 4-wireconnection(3 L & 1 G)a

International 5-wireconnection(3 L & 1 N & 1 G)a

Input voltageb 200–240 VAC ± 10% L- Lnom

220–240 VAC ± 10% L- Nnom

Frequency 50–60 Hz 50–60 Hz

Circuit breakers 50 A 32 A

Power zones Two Two

Minimum power requirementsat customer site

l Two 50 A, three-phasedrops per bay.

l PDU A and PDU B requireone separate three-phaseDelta 50 A drops foreach.

Two 32 A, three-phase dropsper bay.

a. L = line or phase, N = neutral, G = groundb. An imbalance of AC input currents may exist on the three-phase power source feeding the

array, depending on the configuration. The customer's electrician must be alerted to thispossible condition to balance the phase-by-phase loading conditions within the customer'sdata center.

Best Practices for AC Power Connections

AC power specifications 131

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Best Practices for AC Power Connections

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