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Dell EMC™ VMAX3™ Family Site PlanningGuide
VMAX 100K, VMAX 200K, and VMAX 400KRevision 12.0
April 2020
Copyright © 2014-2020 Dell Inc. or its subsidiaries. All rights reserved.
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 Technologies, Dell, EMC, 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.
Dell EMCHopkinton, Massachusetts 01748-91031-508-435-1000 In North America 1-866-464-7381www.DellEMC.com
2 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
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9
Preface 11Revision history................................................................................................. 13
Pre-planning tasks 15Overview of data center requirements.............................................................. 16Tasks to review................................................................................................. 16
Delivery and transportation 17Delivery arrangements.......................................................................................18Pre-delivery considerations............................................................................... 18Moving up and down inclines............................................................................. 18Shipping and storage environmental requirements............................................ 19
Specifications 21Radio frequency interference............................................................................22
Recommended minimum distance from RF emitting device................. 22Power consumption and heat dissipation.......................................................... 23
Adaptive cooling...................................................................................24Airflow.............................................................................................................. 25Air volume, air quality, and temperature............................................................26
Air volume specifications......................................................................26Temperature, altitude, and humidity ranges......................................... 26Temperature and humidity range recommendations.............................26Air quality requirements....................................................................... 27
Shock and vibration.......................................................................................... 28Sound power and sound pressure..................................................................... 28Hardware acclimation times..............................................................................29Optical multimode cables.................................................................................. 29
Open systems host and SRDF connectivity..........................................30
Data Center Safety and Remote Support 31Fire suppressant disclaimer...............................................................................32Remote support................................................................................................ 32
Physical weight and space 33Floor load-bearing capacity...............................................................................34Raised floor requirements................................................................................. 34Physical space and weight................................................................................ 35
Position Bays 37
Figures
Tables
Chapter 1
Chapter 2
Chapter 3
Chapter 4
Chapter 5
Chapter 6
CONTENTS
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 3
System bay layouts...........................................................................................38Adjacent layouts, single-engine array...................................................39Adjacent layouts, dual-engine array..................................................... 40Dispersed layouts, single-engine array..................................................41Dispersed layout, dual-engine array..................................................... 42Adjacent and dispersed (mixed) layout ................................................43
Dimensions for array layouts............................................................................. 44Tile placement.................................................................................................. 45Caster and leveler dimensions...........................................................................45
Power cabling, cords and connectors 49Power distribution unit .....................................................................................50Wiring configurations........................................................................................52Power interface................................................................................................ 55Customer input power cabling.......................................................................... 55Best practices: Power configuration guidelines.................................................55Power extension cords, connectors and wiring................................................. 56
Single-phase........................................................................................ 57Three-phase Wye (International)......................................................... 62Three-phase North American Delta......................................................65Three-phase Wye (Domestic).............................................................. 67
Grounding Racks 69Grounding requirements....................................................................................70Grounding a single bay...................................................................................... 70Chassis to chassis grounding............................................................................. 71
Third Party Racking Option 73Computer room requirements .......................................................................... 74Customer rack requirements ............................................................................75Third party racks with vertical PDUs — RPQ Required ....................................77
Requirements for third party racks with vertical PDUs (rear-facing) .. 78Requirements for third party racks with vertical PDUs (inward-facing) ..80
Chassis to chassis grounding............................................................................. 81
Optional kits 83Overhead routing kit......................................................................................... 84Dispersion kits...................................................................................................84Securing kits.....................................................................................................85GridRunner kit and customer-supplied cable trough......................................... 85
Best Practices for AC Power Connections 87Best practices overview for AC power connections.......................................... 88Selecting the proper AC power connection procedure......................................89Procedure A: Working with the customer's electrician onsite........................... 90
Procedure A, Task 1: Customer's electrician......................................... 91Procedure A, Task 2: Dell EMC Customer Engineer ............................ 92Procedure A, Task 3: Customer's electrician........................................96
Procedure B: Verify and connect...................................................................... 97Procedure C: Obtain customer verification....................................................... 98PDU labels........................................................................................................ 98
Chapter 7
Chapter 8
Chapter 9
Chapter 10
Appendix
Contents
4 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
PDU label part numbers....................................................................... 98Applying PDU labels, VMAX3 Family.................................................... 99
AC power specifications.................................................................................. 100
Contents
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 5
Contents
6 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
Typical airflow in a hot/cold aisle environment................................................................. 25Adjacent layout, single-engine array................................................................................. 39Adjacent layout, dual-engine array.................................................................................... 40Dispersed layout, single-engine array................................................................................ 41Dispersed layout, dual-engine, front view..........................................................................42Adjacent and dispersed (mixed) layout, single-engine array..............................................43Adjacent and dispersed (mixed) layout, dual-engine array................................................ 44Layout dimensions, VMAX3 Family....................................................................................44Placement with floor tiles, VMAX3 Family........................................................................ 45Caster and leveler dimensions...........................................................................................46Power distribution unit (PDU) without installed wire bales, rear view...............................50Power distribution unit (PDU) with installed wire bales, rear view.....................................51Single-phase, horizontal 2U PDU internal wiring............................................................... 52Three-phase (Delta), horizontal 2U PDU internal wiring................................................... 53Three-phase (Wye), horizontal 2U PDU internal wiring.................................................... 54Single-phase: E-PW40U-US............................................................................................. 59Single-phase: E-PW40URUS............................................................................................ 60Single-phase: E-PW40UIEC3............................................................................................60Single-phase: E-PW40UASTL........................................................................................... 61Single-phase: E-PW40L730...............................................................................................61Flying leads, three-phase, international: E-PC3YAFLE, .................................................... 63Three-phase, international: E-PCBL3YAG.........................................................................64Three-phase, North American, Delta: E-PCBL3DHR.........................................................66Three-phase, North American, Delta: E-PCBL3DHH.........................................................66Three-phase, domestic (Black and Gray): E-PCBL3YL23P............................................... 68Location of cabinet ground lugs........................................................................................ 70Customer rack dimension requirements ........................................................................... 76Requirements for customer rack with rear-facing, vertical PDUs......................................78Requirements for third party rack with inward-facing, vertical PDUs............................... 80Top routing cover..............................................................................................................84Two independent customer-supplied PDUs.......................................................................88Circuit breakers ON — AC power within specification...................................................... 91Circuit breakers OFF — No AC power...............................................................................91System bay power tee breakers (OFF = pulled out)..........................................................92Connecting AC power, single-phase................................................................................. 93Connecting AC power, three-phase.................................................................................. 94Power zone connections...................................................................................................95PDU label , single-phase and three-phase.........................................................................99Label placement— Customer PDU Information................................................................ 99
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FIGURES
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 7
Figures
8 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
Typographical conventions used in this content................................................................ 12Revision history................................................................................................................. 13Before you begin............................................................................................................... 16Shipping and storage environmental requirements............................................................ 19Minimum distance from RF emitting devices.....................................................................22Power consumption and heat dissipation.......................................................................... 23Airflow diagram key.......................................................................................................... 25Maximum air volume......................................................................................................... 26Environmental operating ranges........................................................................................26Temperature and humidity................................................................................................ 26Platform shock and vibration............................................................................................ 28Sound power and sound pressure levels, A-weighted........................................................28OM3 and OM4 Fibre cables — 50/125 micron optical cable............................................. 30Space and weight requirements........................................................................................35Adjacent layout diagram key............................................................................................. 39Adjacent layout diagram key............................................................................................. 40Caster and leveler dimensions diagram key....................................................................... 46Extension cords and connectors options – single-phase................................................... 57Extension cords and connectors options – three-phase international (Wye).................... 62Extension cords and connectors options – three-phase North American (Delta)..............65Extension cords and connectors options – three-phase Wye, domestic............................67Overhead routing models.................................................................................................. 84Dispersion kit model numbers............................................................................................84Securing kit models...........................................................................................................85Bottom routing model....................................................................................................... 86Procedure options for AC power connection ....................................................................89VMAX3 Family label part numbers, EMC racks ................................................................ 98Input power requirements - Single-phase, North American, International, Australian ..... 100Input power requirements - Three-phase, North American, International, Australian ......100
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TABLES
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 9
Tables
10 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
Preface
As part of an effort to improve its product lines, Dell EMC periodically releases revisions of itssoftware and hardware. Functions that are described in this document may not be supported by allversions of the software or hardware. The product release notes provide the most up-to-dateinformation about product features.
Contact your Dell EMC representative if a product does not function properly or does not functionas described in this document.
Note: This document was accurate at publication time. New versions of this document mightbe released on Dell EMC Online Support (https://www.dell.com/support/home). Check toensure that you are using the latest version of this document.
Purpose
This document is intended for use by customers and/or company representatives who want toplan the purchase and installation of a VMAX3 Family system.
Audience
This document is intended for use by customers or company representatives.
Related documentation
The following documentation portfolios contain documents related to the hardware platform andmanuals needed to manage your software and storage system configuration. Also listed aredocuments for external components which interact with your array.
EMC VMAX3 Family Product Guide for VMAX 100K, VMAX 200K, VMAX 400K with HYPERMAX OS
Provides product information regarding the purchase of a VMAX3 Family 100K, 200K, 400K.
Dell EMC VMAX Securing Kit Installation Guide
Describes how to install the securing kit on a VMAX3 Family array or VMAX All Flash array.
Dell EMC VMAX Best Practices Guide for AC Power Connections
Describes the best practices to assure fault-tolerant power to a VMAX3 Family array or VMAXAll Flash array.
Dell EMC VMAX Power-down/Power-up Procedure
Describes how to power-down and power-up a VMAX3 Family array or VMAX All Flash array.
HYPERMAX OS 5977.1125.1125 for EMC VMAX3 Family and VMAX All Flash Release Notes
Describes new features and any known limitations.
Special notice conventions used in this document
Dell EMC uses the following conventions for special notices:
Note: A NOTE indicates important information that helps you make better use of your product.
CAUTION A CAUTION indicates either potential damage to hardware or loss of data and tellsyou how to avoid the problem.
WARNING A WARNING indicates a potential for property damage, personal injury, or death.
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 11
Typographical conventions
Dell EMC uses the following type style conventions in this document:
Table 1 Typographical conventions used in this content
Bold Used for names of interface elementsExamples: Names of windows, dialog boxes, buttons, fields, tabnames, key names, and menu paths (what the user 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.
| A 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 that is omitted from theexample.
Where to get help
Support, product and licensing information can be obtained as follows:
Product information
Dell EMC technical support, documentation, release notes, software updates, or informationabout Dell EMC products can be obtained at https://www.dell.com/support/home(registration required) or https://www.dellemc.com/en-us/documentation/vmax-all-flash-family.htm.
Technical support
To open a service request through the Dell EMC Online Support (https://www.dell.com/support/home) site, you must have a valid support agreement. Contact your Dell EMC salesrepresentative for details about obtaining a valid support agreement or to answer anyquestions about your account.
Your comments
Your suggestions help improve the accuracy, organization, and overall quality of thedocumentation. Send your comments and feedback to: [email protected]
Preface
12 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
Revision history
Table 2 Revision history
Revision Description and/or change
12.0 Added note to provide strain relief when host cabling and power are handledfrom overhead or wall-mounted.
11.0 Add top routing cover graphic.
10.0 Add line in grounding chapter that both grounding straps must be installedfor chassis to chassis grounding.
9.1 Fixed broken link to overhead routing kit section.
9.0 Added rack grounding chapter
8.2 Removed all references to maintaining .25" between bays.
8.1 Added recommendation for chassis to chassis grounding for multiple baysystems.
8.0 Modified power consumption and heat dissipation specifications to includesteady state and maximum values.
7.0 Corrected formula for 3rd party rack cabinet width requirements.
6.0 Updated wiring configuration diagrams and content for new 2U PDUs.Updated power distribution unit recommendations for overhead power.
5.0 l Minor edits for consistency and readability.
l Added new table row and values for "Storage time (unpowered)" in thetopic, "Shipping and storage environmental requirements."
l Added line item to Optical multimode cables topic:OM4 cables are used for SRDF connectivity over 16 Gb/s Fibre Channel I/Omodules.
4.2 l Added information and diagrams for third party racks with verticalPDUs.
l Updated heat dissipation value for system bay 2 in a dual enginesystem.
n For a 200K: Max heat dissipation changed from 30,975 to 28,912Btu/Hr.
n For a 400K: Max heat dissipation changed from 30,975 to 29,688Btu/Hr.
l Added the following note to PDU and wiring configuration topics:Note: The PDU AC power cords (single-phase and three-phase)extend 74" (188cm) from the PDU chassis and are designed toreach to the bay floor egress for connection to the customer powersupply. 15' (4.57m) extension cables are provided.
4.1 l Update: Statement re: redundant PDUs.
l Added note to Power and heat dissipation topic.
Preface
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 13
Table 2 Revision history (continued)
Revision Description and/or change
l Updated rack diagram for third party rack requirements.
4.0 Updates:
l Version numbering (to 4.0).
l Removed dual-engine dispersion reference in System layouts topic:"With dual-engine dispersion, bay placement can be wherever thecustomer wants in the data center."
3.3 Updates:
l 3rd party customer rack dimension requirements graphic.
l Single and dual-engine layout graphics.
3.2 New: NOTICE in Best practices overview for AC power connections.
3.1 Update: Customer-to-system 3-phase connectors.
3 Update: Environmental operating ranges table.
2 Update: Dual-engine layout graphic.
1 First release of the VMAX 100K, 200K, and 400K arrays with EMCHYPERMAX OS 5977.
Preface
14 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
CHAPTER 1
Pre-planning tasks
This chapter includes:
l Overview of data center requirements................................................................................... 16l Tasks to review...................................................................................................................... 16
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 15
Overview of data center requirementsVMAX 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 page 84.
To prepare the site for an array, meet with your Dell EMC Systems Engineer and CustomerEngineer to determine what is needed to prepare for delivery and installation. One or moresessions 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 andcustomer electrician.
External AC power must be supplied from anindependent customer-supplied power distribution unit(PDU).
Dell EMC recommends that the customer’s electrician beavailable at the installation site for regular and third partyracked arrays.
Best Practices for AC Power Connections on page 87provides details.
For customer-supplied third party rack support, see thedetailed physical requirements in Third Party RackingOption on page 73.
The field representative working the order must:
l Review the requisite information regarding the thirdparty racking option.
l In Sizer, select the desired configuration. In theHardware Options screen, under Rack Type, selectThird Party.
Complete the Installation Planning Task Sheet and PresiteSurvey in DXCX.
l Connection for ConnectEMC to dial home to the DellEMC Support Center. Data Center Safety andRemote Support on page 31 provides additionaldetails on remote support.
l Power, cooling and ventilation, humidity control,floor load capability, system placement, and serviceclearances as required in the data center.
Pre-planning tasks
16 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
CHAPTER 2
Delivery and transportation
This chapter includes:
l Delivery arrangements........................................................................................................... 18l Pre-delivery considerations....................................................................................................18l Moving up and down inclines................................................................................................. 18l Shipping and storage environmental requirements.................................................................19
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 17
Delivery arrangementsDelivery within the United States or Canada is by air-ride truck with custom-designed shippingmaterial, crate, and pallet. International delivery normally involves air freight.
Unless otherwise instructed, the Dell EMC Traffic Department arranges for delivery directly to thecustomer’s computer room. To ensure successful delivery of the system, Dell EMC has formedpartnerships with specially selected moving companies. These companies have movingprofessionals trained in the proper handling of large, sensitive equipment and provide theappropriate personnel, floor layments, and any ancillary moving equipment required to facilitatedelivery. Moving companies should check general guidelines, weights, and dimensions.
NOTICE Inform Dell EMC of any labor union-based restrictions or security clearancerequirements prior 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 to a floorother 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 room floor.
l Set up the necessary network and gateway access to accommodate Secure Remote Servicesso that it will be available and operable for the installation date.
Moving up and down inclinesTo prevent tipping when moving up and down inclines, close all doors and drawers. Push from therear of the rack so that the front (side with bezels or a fancy door) goes first.
All portions of the bay will clear ramp and threshold slopes up to 1:10 (rise to run ratio), per Codeof Federal Regulations — ADA Standards for Accessible Design, 28 CFR Part 36.
Delivery and transportation
18 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
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
Storage time (unpowered) Recommendation: Do not exceed 3consecutive months of unpowered storage.
Delivery and transportation
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 19
Delivery and transportation
20 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
CHAPTER 3
Specifications
This chapter includes:
l Radio frequency interference................................................................................................ 22l Power consumption and heat dissipation...............................................................................23l Airflow...................................................................................................................................25l Air volume, air quality, and temperature................................................................................ 26l Shock and vibration...............................................................................................................28l Sound power and sound pressure..........................................................................................28l Hardware acclimation times.................................................................................................. 29l Optical multimode cables...................................................................................................... 29
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 21
Radio frequency interferenceElectro-magnetic fields, which include radio frequencies can interfere with the operation ofelectronic equipment. Dell EMC products have been certified to withstand radio frequencyinterference (RFI) in accordance with standard EN61000-4-3. In Data Centers that employintentional radiators, such as cell phone repeaters, the maximum ambient RF field strength shouldnot exceed 3 Volts /meter.
The field measurements should be taken at multiple points in close proximity to Dell EMCequipment. It is recommended to consult with an expert prior to installing any emitting device inthe Data Center. In addition, it may be necessary to contract an environmental consultant toperform the evaluation of RFI field strength and address the mitigation efforts if high levels of RFIare suspected.
The ambient RFI field strength is inversely proportional to the distance and power level of theemitting device.
Recommended minimum distance from RF emitting deviceThe following table provides the recommended minimum distances between Dell EMC arrays andRFI emitting equipment. Use these guidelines to verify that cell phone repeaters or otherintentional radiator devices are at a safe distance from the 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
22 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
Power consumption and heat dissipationDell EMC provides the Dell EMC Power Calculator to refine the power and heat figures to moreclosely match your array. Contact your Dell EMC Sales Representative or use the Dell EMC PowerCalculator for specific supported configurations. The following table provides calculations ofmaximum 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 case requirements.
Table 6 Power consumption and heat dissipation
VMAX 100K VMAX 200K VMAX 400K
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)
System bay 1Single engine
8.27 / 10.8 28,201 /36,828
8.37 / 10.9 28,542 /37,169
8.57 / 11.1 29,224 /37,851
System bay 2Single engineb
8.13 / 10.4 27,723 /35,464
8.33 / 10.6 28,405 /36,146
8.43 / 10.7 28,746 /36,487
System bay 1Dual engine
6.44 / 8.8 21,960 /30,008
6.74 / 9.1 22,983 /31,031
7.04 / 9.4 24,006 /32,054
System bay 2Dual engineb
N/A 6.7 / 8.8 22,847 /30,008
6.9 / 9 23,529 /30,690
a. Power values and heat dissipations shown at >35°C reflect the higher power levels associated with both the batteryrecharge cycle, and the initiation of high ambient temperature adaptive cooling algorithms. Values at <26°C arereflective of more steady state maximum values during normal operation.
b. Power values for system bay 2 and all subsequent system bays where applicable.
Specifications
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 23
Adaptive coolingThe systems apply adaptive cooling based on customer environments to save energy. Engines andDAEs access thermal data through components located within their enclosures. Based on ambienttemperature and internal activity, they set the cooling fan speeds. As the inlet temperaturesincrease, the adaptive cooling increases the fan speeds, with the resulting platform powerincreasing up to the maximum values shown below. These values, along with the SPS rechargepower consumption, contribute to the maximum system power consumption values over 35°Cshown in Table 6 on page 23.
l DAE120 (2.5 Drives) = 305VA - 1024 BTU/hr
l DAE60 (3.5 Drives) = 265VA - 904 BTU/hr
l Engine = 80VA - 273 BTU/hr
Specifications
24 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
AirflowSystems are designed for typical hot aisle/cold aisle data center cooling environments andinstallation:
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 return temperatureto the computer room air conditioner (CRAC). This promotes better heat transfer outside thebuilding and achieves higher energy efficiency and lower Power Usage Effectiveness (PUE).Additional efficiency can be achieved by sequestering the exhaust air completely and connectingducts 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 adequate cooling airsupply when installing on a raised floor. The following figure shows typical airflow 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
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 25
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
Bay Units
System bay, single-engine 1,320 cfm (37.5 m3/min)
System bay, dual-engine 1,325 cfm (37.4 m3/min)
Temperature, altitude, and humidity rangesThe following table provides the recommended environmental operating ranges.
Table 9 Environmental operating ranges
Condition System
Operating temperature (normal conditions)a 10°–32°C (50°–90°F) at 2,286 m (7,500 ft)10°–35°C (50°–95°F) at 950 m (3,317 ft)
Operating temperature (excursion limit), 24hours annually
32°–50°C (50°–122°F) at 2,286 m (7,500ft)
Operating altitude (maximum) & derating 3,048 m (10,000 ft) derate 1.1°C per 305 mabove 2,286 m
Operating humidity range 20% to 80% RH non-condensing
Operating temperature rate of change 20°C/hour
a. These values apply to the inlet temperature of any component within the bay.
Temperature and humidity range recommendationsThe following table provides the recommended operating and humidity ranges to ensure long-termreliability, especially in environments where air quality is a concern.
Table 10 Temperature and humidity
Condition System
Operating temperature range 64°— 75° F (18° to 24° C)
Operating relative humidity range 40 — 55%
Specifications
26 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
Air quality requirementsVMAX arrays are designed to be consistent with the requirements of the American Society ofHeating, Refrigeration and Air Conditioning Engineers (ASHRAE) Environmental StandardHandbook and the most current revision of Thermal Guidelines for Data Processing Environments,ASHRAE TC 9.9 2011.
The arrays are best suited for Class 1A Datacom environments, which consist of tightly controlledenvironmental parameters, including temperature, dew point, relative humidity and air quality.These facilities house mission critical equipment and are typically fault tolerant, including the airconditioners. In a data center environment, if the air conditioning fails and the temperature is lost,a vault may occur to protect data.
The data center should maintain a cleanliness level as identified in ISO 14664-1, class 8 forparticulate dust and pollution control. The air entering the data center should be filtered with aMERV 11 filter or better. The air within the data center should be continuously filtered with aMERV 8 or better filtration system. In addition, efforts should be maintained to prevent conductiveparticles, such as zinc whiskers, from entering the facility.
The allowable relative humidity level is 20–80% non condensing, however, the recommendedoperating environment range is 40–55%. For data centers with gaseous contamination, such ashigh sulfur content, lower temperatures and humidity are recommended to minimize the risk ofhardware corrosion and degradation. In general, the humidity fluctuations within the data centershould be minimized. It is also recommended that the data center be positively pressured and haveair curtains on entry ways to prevent outside air contaminants and humidity from entering thefacility.
For facilities below 40% relative humidity (RH), Dell EMC recommends using grounding strapswhen contacting the equipment to avoid the risk of electrostatic discharge (ESD), which can harmelectronic equipment.
Note: As part of an ongoing monitoring process for the corrosiveness of the environment, DellEMC recommends placing copper and silver coupons (per ISA 71.04-1985, Section 6.1Reactivity) in airstreams representative of those in the data center. The monthly reactivityrate of the coupons should be less than 300 Angstroms. When monitored reactivity rate isexceeded, the coupon should be analyzed for material species and a corrective mitigationprocess put in place.
Specifications
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 27
Shock and vibrationThe following table provides the platform shock and vibration maximums and the transportationshock 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 11 Platform shock and vibration
Platform condition Response measurement level (should notexceed)
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 pressureThe following table provides the sound power and sound pressure levels.
Table 12 Sound power and sound pressure levels, A-weighted
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.b. Measured at the four bystander positions per ISO7779
Specifications
28 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
Hardware acclimation timesUnits must acclimate to the operating environment before applying power. This requires theunpackaged system or component to reside in the operating environment for up to 16 hours inorder to thermally stabilize and prevent condensation.
Transit/storage environmentOperating environmenttemperature Acclimation time
Temperature Humidity
Nominal
68-72°F(20-22°C)
Nominal
40-55% 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
l If there are signs of condensation after the recommended acclimation time has passed, allowan additional 8 hours to stabilize.
l Systems and components must not experience changes in temperature and humidity that arelikely to cause condensation to form on or in that system or component. Do not exceed theshipping and storage temperature gradient of 45°F/hr (25°C/hr).
Optical multimode cablesOptical multimode 3 (OM3) and optical multimode 4 (OM4) cables are available for open systemshost and SRDF connectivity. To obtain OM3 or OM4 cables, contact your local salesrepresentative.
l OM3 cables are used for SRDF connectivity over: 4, 8, and 10 Gb/s Fibre Channel I/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/O modules.
l OM4 cables are used with 16 Gb/s Fibre Channel I/O modules to provide Fibre Channelconnection to switches. Distances of up to 190 m over 8 Gb/s Fibre Channel and 125 m over 16Gb/s Fibre Channel modules are supported.
Specifications
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 29
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/s FibreChannel distances up to 100 m.
l OM2 cables support 8 Gb/s Fibre Channel distances up to 50 m or 10 Gb/s Ethernet up to 82m.
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 13 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
SYM-OM4-100M LC- LC, 100 meter
Specifications
30 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
CHAPTER 4
Data Center Safety and Remote Support
This chapter includes:
l Fire suppressant disclaimer................................................................................................... 32l Remote support.....................................................................................................................32
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 31
Fire suppressant disclaimerFire prevention equipment in the computer room should always be installed as an added safetymeasure. A fire suppression system is the responsibility of the customer. When selectingappropriate fire suppression equipment and agents for the data center, choose carefully. Aninsurance underwriter, local fire marshal, and local building inspector are all parties that you shouldconsult during the selection of a fire suppression system that provides the correct level ofcoverage and protection.
Equipment is designed and manufactured to internal and external standards that require certainenvironments for reliable operation. We do not make compatibility claims of any kind nor do weprovide recommendations on fire suppression systems. It is not recommended to position storageequipment directly in the path of high pressure gas discharge streams or loud fire sirens so as tominimize the forces and vibration adverse to system integrity.
Note: The previous information is provided on an “as is” basis and provides no representations,warranties, guarantees or obligations on the part of our company. This information does notmodify the scope of any warranty set forth in the terms and conditions of the basic purchasingagreement between the customer and the manufacturer.
Remote supportSecure Remote Services is an IP-based, automated, connect home and remote support solution.Secure Remote Services is the preferred method of connectivity. Two connections with SecureRemote Services are recommended for connection to the redundant management module controlstation (MMCS).
Customers of Secure Remote Services must provide the following:
l An IP network with Internet connectivity.
l Capability to add Gateway Client servers and Policy Manager servers to the customer network.
l Network connectivity between the servers and Dell EMC devices to be managed by SecureRemote Services.
l Internet connectivity to the Secure Remote Services infrastructure by using outbound ports.
l Network connectivity between Secure Remote Services Client(s) and Policy Manager.
Once installed, Secure Remote Services monitors the array and automatically notifies Dell EMCCustomer Service in the event of a problem. If an error is detected, a support professional utilizesthe secure connection to establish a remote support session to diagnose, and if necessary,perform a repair.
Customer Service can use Secure Remote Services to:
l Perform downloads of updated software in lieu of a site visit.
l Deliver license entitlements directly to the array.
NOTICE Dell EMC provides an optional modem that uses a regular telephone line or operateswith a PBX. Dell EMC recommends using two connections to the redundant managementmodule control station (MMCS).
The Dell EMC Secure Remote Services Site Planning Guide provides additional information.
Data Center Safety and Remote Support
32 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
CHAPTER 5
Physical weight and space
This chapter includes:
l Floor load-bearing capacity................................................................................................... 34l Raised floor requirements......................................................................................................34l Physical space and weight.....................................................................................................35
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 33
Floor load-bearing capacityStorage arrays can be installed on raised floors. Customers must be aware that the load-bearingcapacity of the data center floor is not readily available through a visual inspection of the floor. Theonly definitive way to ensure that the floor is capable of supporting the load associated with thearray is to have a certified architect or the data center design consultant inspect the specificationsof the floor to ensure that the floor is capable of supporting the array weight.
CAUTION
l Customers are ultimately responsible for ensuring that the floor of the data center onwhich the array is to be configured is capable of supporting the array weight, whether thearray is configured directly on the data center floor or on a raised floor supported by thedata center floor.
l Failure to comply with these floor loading requirements could result in severe damage tothe storage array, the raised floor, subfloor, site floor and the surrounding infrastructureshould the raised floor, subfloor or site floor fail.
l Notwithstanding anything to the contrary in any agreement between Dell EMC and thecustomer, Dell EMC fully disclaims any and all liability for any damage or injury resultingfrom the customer’s failure to ensure that the raised floor, subfloor and/or site floor arecapable of supporting the storage array weight. The customer assumes all risk and liabilityassociated with such failure.
Raised floor requirementsBest practice is to use 24 x 24 inch heavy-duty, concrete-filled steel floor tiles. If a different sizeor type of tile is used, the customer must ensure that the tiles have a minimum load rating that issufficient for supporting the storage array weight. Ensure proper physical support of the systemby following requirements that are based on the use 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 eachthat 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 3,000 lb (1,360.8kg).
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, Dell EMC recommends the use ofcoverings, 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 tilecan minimize floor tile deflection. The number and placement of additional pedestal mountsrelative to a cutout should be in accordance with the tile manufacturer’s recommendations.
l Take care when positioning the bays to make sure that a caster is not moved into a cutout.Cutting tiles per specifications ensures the proper caster placement.
Physical weight and space
34 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
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 not compromise thestructural integrity of the raised floor or the sub-floor (non-raised floor) of the data center.
Physical space and weightThe following table provides the physical space, maximum weights, and clearance for service.
Table 14 Space and weight requirements
Bayconfigurations a
Heightb
(in/cm)Width(in/cm)
Depthc
(in/cm)Weight(max lbs/kg)
System bay, single-engine
75/190 24/61 47/119 2065/937
System bay, dual-engine
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. Includes front and rear doors.
Physical weight and space
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 35
Physical weight and space
36 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
CHAPTER 6
Position Bays
This chapter includes:
l System bay layouts............................................................................................................... 38l Dimensions for array layouts................................................................................................. 44l Tile placement....................................................................................................................... 45l Caster and leveler dimensions............................................................................................... 45
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 37
System bay layoutsThe number of bays and the system layout depend on the array model, the customer requirements,and the space and organization of the customer data center.
Storage arrays can be placed in the following layouts:
l Adjacent — bays are positioned side-by-side.
l Dispersed — dispersed layouts are provided with longer MIBE optical and Ethernet cablebundles that allow 82 ft (25 m) of separation between system bay 1 and system bays 2 through8.
Dispersed system bays require dispersed cable and optics kits and one set of side skins foreach dispersed system bay in the configuration.
l Adjacent and dispersed bays (mixed) layouts — allow both adjacent and dispersed layout ofeither single or dual-engine arrays with adjacent and dispersed bays.
Note: Single and dual-engine arrays cannot be mixed.
Position Bays
38 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
Adjacent layouts, single-engine arrayOn single-engine arrays with adjacent layouts, bays are positioned side-by-side to the right ofsystem bay 1 (front view) and secured with lower brackets.
The following figure shows adjacent layout of a single-engine array.
Figure 2 Adjacent layout, single-engine array
System
bay 1System
bay 2
System
bay 3System
bay 4
System
bay 5System
bay 6
System
bay 7
System
bay 8
Engine 1 Engine 2 Engine 3 Engine 4 Engine 5 Engine 6 Engine 7 Engine 8
R1 R2 R3 R4 R5 R6 R700
Bay position
2 31
Table 15 Adjacent layout diagram key
# Description
1 VMAX 100K
2 VMAX 200K
3 VMAX 400K
Position Bays
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 39
Adjacent layouts, dual-engine arrayDual-engine systems with adjacent layouts position system bay 1 next to system bay 2, and systembay 3 next to system bay 4.
The following figure shows the adjacent layout of dual-engine arrays by model type.
Figure 3 Adjacent layout, dual-engine arraySy
ste
m
bay
1
Syst
em
bay
2
En
gin
e 1
En
gin
e 2
En
gin
e 4
En
gin
e 3
00
R1
Syst
em
bay
3
Syst
em
bay
4
En
gin
e 5
En
gin
e 7
En
gin
e 8
En
gin
e 6
R2
R3
Bay
po
siti
on
23
1
Table 16 Adjacent layout diagram key
# Description
1 VMAX 100K
2 VMAX 200K
3 VMAX 400K
Position Bays
40 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
Dispersed layouts, single-engine arrayThe following figure shows a single-engine array with eight system bays in a dispersed layout.
Figure 4 Dispersed layout, single-engine array
System
bay 1
System
bay 3
System
bay 4
System
bay 5System
bay 6
System
bay 8
System
bay 2
System
bay 7
Engine 3Engine 4 Engine 5 Engine 6 Engine 7
Engine 2Engine 1
Engine 8
Position Bays
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 41
Dispersed layout, dual-engine arrayThe following figure shows an example of a dual-engine dispersed layout.
Figure 5 Dispersed layout, dual-engine, 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 Bays
42 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
Adjacent and dispersed (mixed) layoutThe following figure shows a single-engine array with a mixed layout.
Figure 6 Adjacent and dispersed (mixed) layout, single-engine array
System
bay 1System
bay 2
System
bay 4
System
bay 3
Engine 3
Engine 1 Engine 2 Engine 4
Initialinstall
Upgrade
00 R1 R2
Bay position
Initialinstall
The following figure shows a dual-engine array with a mixed layout.
Position Bays
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 43
Figure 7 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
Dimensions for array layoutsPlacing arrays in the data center or computer room involves understanding dimensions, planningfor cutouts, and ensuring clearance for power and host cables.
l On nonraised floors, cables are routed overhead. An overhead routing bracket is provided toallow 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) for the rear ofeach system bay.
The following figure shows the layout dimensions:
Figure 8 Layout dimensions, VMAX3 Family
Front
Rear
47 in.(119 cm)Includes
front and rear doors
24.02 in.(61.01 cm)
24 in.(61 cm)
Position Bays
44 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
Tile placementYou must understand tile placement to ensure that the array is positioned properly and to allowsufficient 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 Service area of 42 in (106 cm) for the front and 30 in (76 cm) for the rear on the system bays.
The following figure provides tile placement information for all VMAX3 arrays (with doors).
Figure 9 Placement with floor tiles, VMAX3 Family
Rear
A A
System
bay
System
bay
A
System
bay
A
System
bay
A A A
System
bay
A
System
baySystem
baySystem
bay
Front
F
l
o
o
r
T
i
l
e
Caster and leveler dimensionsThe bottom of each bay includes four caster wheels. The front wheels are fixed; the two rearcasters swivel in a 1.75-in. diameter. Swivel position of the caster wheels determines the load-bearing points on your site floor, but does not affect the cabinet footprint. Once you havepositioned, leveled, and stabilized the bays, the four leveling feet determine the final load-bearingpoints on your site floor.
The following figure shows caster and leveler dimensions.
Position Bays
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 45
Figure 10 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 17 Caster and leveler dimensions diagram key
# Description
*1 Minimum (17.102) and maximum (20.58)distances based on the swivel position of thecaster wheel.
*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.
Position Bays
46 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
Table 17 Caster and leveler dimensions diagram key (continued)
# Description
*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 Bays
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 47
Position Bays
48 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
CHAPTER 7
Power cabling, cords and connectors
This chapter includes:
l Power distribution unit ......................................................................................................... 50l Wiring configurations............................................................................................................ 52l Power interface.....................................................................................................................55l Customer input power cabling...............................................................................................55l Best practices: Power configuration guidelines..................................................................... 55l Power extension cords, connectors and wiring..................................................................... 56
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 49
Power distribution unitThe VMAX3 array is powered by two redundant power distribution units (PDUs), one PDU for eachpower zone.
Both PDUs are mechanically connected together, including mounting brackets, to create a single2U structure, as shown in the following figures. The PDUs are integrated to support AC-line inputconnectivity and provide outlets for every component 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) from thePDU chassis and are designed to reach to the bay floor egress for connection to the customerpower 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 are divided into sixbanks with each bank consisting of four IEC 60320 C13 individual AC outlets.
l Each bank of outlets is connected to individual branch circuits that are protected by a singletwo pole 20 Amp circuit breaker.
l Depending on which PDU option selected there is a different input connector for each PDU.
If the customer requires power to be supplied from overhead, Dell EMC recommends replacing therear top cover of the bay with the ceiling routing top cover, described in Overhead routing kit onpage 84, which allows the power cables inside the machine to be routed out through the top.
A second option is to "drop" the power cables down the hinge side, to the bottom, and route theminside the machine. The cables should be dressed to allow all doors to open freely and space shouldbe provisioned accordingly to accommodate an adjacent cabinet.
Figure 11 Power distribution unit (PDU) without installed wire bales, rear view
Power cabling, cords and connectors
50 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
Figure 12 Power distribution unit (PDU) with installed wire bales, rear view
Note: Utilize proper strain relief methods when customer-provided power drops are locatedoverhead or wall-mounted.
Power cabling, cords and connectors
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 51
Wiring configurationsNOTICE 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 samewiring configurations are used on each PDU.
Note: The PDU AC power cords (single-phase and three-phase) extend 74" (188cm) from thePDU chassis and are designed to reach to the bay floor egress for connection to the customerpower supply. 15' (4.57m) extension cables are provided.
Single-phase wiring configuration
Figure 13 Single-phase, horizontal 2U PDU internal wiring
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
52 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
Three-phase (Delta) wiring configuration
Figure 14 Three-phase (Delta), horizontal 2U PDU internal wiring
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
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 53
Three-phase (Wye) wiring configuration
Figure 15 Three-phase (Wye), horizontal 2U PDU internal wiring
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
54 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
Power interfaceData centers must conform to the corresponding specification for arrays installed in NorthAmerican, International, and Australian sites.
Each bay in a system configuration contains a complete 2U PDU assembly. The PDU assembly isconstructed with two electrically individual PDUs.
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 required receptacles ontheir PDUs for zone A and zone B power for each system bay.
Dell EMC recommends that the customer's electrician be present at installation time to work withthe Dell EMC customer engineer to verify power redundancy.
Refer to the Dell EMC Best Practices Guide for AC Power Connections for PowerMax 2000, 8000 withPowerMaxOS for required items at the customer site.
Best practices: Power configuration guidelinesThe following section provides best practice guidelines for evaluating and connecting power, aswell as for choosing a UPS component.
Uptime Institute best practices
Follow these best practice guidelines when connecting AC power to the array:
l The Dell EMC customer engineer (CE) should discuss with the customer the need forvalidating AC power redundancy at each bay. If the power redundancy requirements are notmet in each bay, a Data Unavailable (DU) event could occur.
l The customer should complete power provisioning with the data center prior to connectingpower to the array.
l The customer‘s electrician or facilities representative must verify that the AC voltage is withinspecification at each of the power drops being fed to each product bay.
l All of the power drops should be labeled to indicate the source of power (PDU) and thespecific 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 customer PDU.
l The electrician or facilities representative must verify that there are two power drops fed fromseparate redundant PDUs prior to turning on the array:
n If both power drops to a bay are connected to the same PDU incorrectly, a DU event willresult during normal data center maintenance when the PDU is switched off. The label onthe power cables depicts the correct connection.
l The electrician should pay particular attention to how each PDU receives power from eachUPS within the data center because it is possible to create a scenario where turning off a UPSfor maintenance could cause both power feeds to a single bay to be turned off, creating a DUevent.
l The customer’s electrician should perform an AC verification test by turning off the individualcircuit breakers feeding each power zone within the bay, while the customer engineer monitorsthe LED on the SPS modules to verify that power redundancy has been achieved in each bay.
Power cabling, cords and connectors
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 55
One customer 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 different interfaceconnector options. The selected cords are used to interface between the customer’s power sourceand each PDU connection.
The number of cords needed is determined by the number of bays in the array and the type ofinput power source used (single-phase or three-phase).
Power cabling, cords and connectors
56 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
Single-phaseThe following tables describe the extension cords and connector options for single-phase powertransmission.
Table 18 Extension cords and connectors options – single-phase
Plug on each DellEMC power corda
Dell EMC-suppliedextension cord/modelnumberb, c
Dell EMCPowerCableP/N
Dell EMC-suppliedextension cordreceptacle (P1)connecting to DellEMC plug
Dell EMC-suppliedextension cordplug (P2)connecting tocustomer PDUreceptacle
Customer PDUreceptacle
NEMA L6-30
E-PW40U-US 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
E-PW40URUS 038-003-441 (BLK15FT)
038-003-901 (GRY15FT)
038-003-482 (BLK21FT)
038-003-797 (GRY21FT)
NEMA L6-30R Russellstoll 3750DP Russellstoll 9C33U0
E-PW40UIEC3
CAUTION The singlephase line voltage mustbe below 264VAC to usethese cable assemblies.
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
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 57
Table 18 Extension cords and connectors options – single-phase (continued)
Plug on each DellEMC power corda
Dell EMC-suppliedextension cord/modelnumberb, c
Dell EMCPowerCableP/N
Dell EMC-suppliedextension cordreceptacle (P1)connecting to DellEMC plug
Dell EMC-suppliedextension cordplug (P2)connecting tocustomer PDUreceptacle
Customer PDUreceptacle
038-003-796 (GRY21FT)
E-PW40UASTL 038-003-439 (BLK15FT)
038-003-899 (GRY15FT)
038-003-480 (BLK21FT)
038-003-795 (GRY21FT)
NEMA L6-30R CLIPSAL 56PA332 CLIPSAL56CSC332
E-PW40L730CAUTION The singlephase line voltage mustbe below 264VAC to usethese cable assemblies.
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. Six (6) plugs per system bayb. Two (2) cords per model, cord length of 15 feet / 4.57 meters.c. The Dell 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 Dell EMC ordering system.
Customer-to-system wiring for bays (single-phase)
The following figures provide cable descriptions for customer-to-system wiring for single-phasepower transmission.
Note: Each single-phase power cable L (Line), N (Neutral) or L (Line) signal connectiondepends on the country of use.
Power cabling, cords and connectors
58 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
Figure 16 Single-phase: E-PW40U-US
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
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 59
Figure 17 Single-phase: E-PW40URUS
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 18 Single-phase: E-PW40UIEC3
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
60 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
Figure 19 Single-phase: E-PW40UASTL
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 20 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
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 61
Three-phase Wye (International)The following table describes the extension cords and connector for three-phase international(Wye) power transmission.
Table 19 Extension cords and connectors options – three-phase international (Wye)
Plug on eachDell EMC powercorda
Dell EMCsuppliedextension cordDell EMC modelnumberb
Dell EMC PowerCable P/N
Dell EMCsuppliedextension cordreceptacle (P1)connecting toDell EMC plug
Dell EMCsuppliedextension cordplug (P2)connecting tocustomer PDUreceptacle
Customer PDUreceptacle
ABL Sursum -S52S30A orHubbell -C530P6S
E-PC3YAFLEc 038-004-572 (BLK15FT)
038-004-573 (GRY15FT)
ABL Sursum -K52S30A orHubbell -C530C6S
Flying Leads
(International)
Determined bycustomer
E-PCBL3YAG 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 Dell 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 Dell EMC ordering system.
Power cabling, cords and connectors
62 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
Customer-to-system wiring (three-phase, International)
The following figures provide cable descriptions for customer-to-system wiring for three-phaseinternational power transmission.
Figure 21 Flying leads, three-phase, international: E-PC3YAFLE,
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
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 63
Figure 22 Three-phase, international: E-PCBL3YAG
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
64 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
Three-phase North American DeltaThe following table describes the extension cords and connector for three-phase North American(Delta) power transmission.
Table 20 Extension cords and connectors options – three-phase North American (Delta)
Plug on eachDell EMC powercorda
Dell EMCsuppliedextension cordDell EMC modelnumberb
Dell EMC PowerCable P/N
Dell EMCsupplied
extension cordreceptacle (P1)connecting toDell EMC plug
Dell EMCsuppliedextension cordplug (P2)connecting tocustomer PDUreceptacle
Customer PDUreceptacle
HubbellCS-8365C
E-PCBL3DHRc 038-003-272 (BLK15FT)
038-003-789 (GRY15FT)
HubbellCS-8364C
Russellstoll9P54U2
Russellstoll9C54U2d
E-PCBL3DHH 038-003-271 (BLK15FT)
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 Dell 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 Dell EMC ordering system.d. Dell EMC supplied as Dell EMC model number E-ACON3P-50.
Power cabling, cords and connectors
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 65
Customer-to-system wiring (three-phase, North American (Delta))
The following figures provide cable descriptions for three-phase North American (Delta) powertransmission.
Figure 23 Three-phase, North American, Delta: E-PCBL3DHR
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 24 Three-phase, North American, Delta: E-PCBL3DHH
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
66 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
Three-phase Wye (Domestic)The following table describes the extension cords and connector for three-phase Wye domesticpower transmission.
Table 21 Extension cords and connectors options – three-phase Wye, domestic
Plug on back ofDell EMCsystema
Dell EMC suppliedextension cordDell EMC modelnumberb
Dell EMCPower CableP/N
Dell EMCsuppliedextension cordreceptacle (P1)connecting toDell EMC plug
Dell EMCsuppliedextension cordplug (P2)connecting tocustomer PDUreceptacle
Customer PDUreceptacle
ABL SursumS52.30
E-PCBL3YL23P 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 Dell 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 Dell EMC ordering system.d. The line to neutral voltage must be below 264VAC to use these cable assemblies.
Power cabling, cords and connectors
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 67
Customer-to-system wiring (three-phase, Wye, Domestic)
The following figure provides cable descriptions for models with three-phase Wye domestic powertransmission.
Figure 25 Three-phase, domestic (Black and Gray): E-PCBL3YL23PH
ubbell
C530C6S
NEM
A
P1
P2
L22-3
0P
Colo
r Fro
m (
P1)
T
o (
P2) S
ignal
BLK1
P1-R
1
P2-X
L1
BLK2
P1-S
2
P2-Y
L2
BLK3
P1-T
3
P2-Z
L3
BLK4
P1-N
P2-N
NG
RN
/YLW
P1-G
P2-G
GN
D
C530C6S
L22-3
0P
Bla
ck, 15 f
t
Gra
y, 1
5 f
t
P1
P2
Colo
r
Fro
m (
P1)
To (
P2)
Sig
nal
BRN
P1-R
1
P2-X
L1
BLK
P1-S
2
P2-Y
L2
GRAY
P1-T
3
P2-Z
L3
BLU
E
P1-N
P2-N
NG
RN
/YLW
G
ND
GN
D
G
ND
C530C6S
L22-3
0P
Power cabling, cords and connectors
68 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
CHAPTER 8
Grounding Racks
Supplemental rack grounding is not required for single bay configurations. Chassis to chassisgrounding is required for systems with multiple bays.
l Grounding requirements........................................................................................................ 70l Grounding a single bay.......................................................................................................... 70l Chassis to chassis grounding..................................................................................................71
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 69
Grounding requirementsThe following table summarizes rack grounding requirements for VMAX systems.
Number of racks in system Grounding required? Reference
1 No Grounding a single bay onpage 70
2+ Yes Chassis to chassis groundingon page 71
Grounding a single bayEquipment correctly installed within the cabinet is grounded through the AC power cables andconnectors. In general, supplemental grounding is not required for a single bay.
If your site requires external grounding (for example, to a common grounding network beneath thesite floor), you can use the grounding lugs provided on each of the cabinet’s bottom supports.
Figure 26 Location of cabinet ground lugs
CL4827
046-003-3
50
Grounding Racks
70 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
Chassis to chassis groundingRack to rack chassis ground connections are required to mitigate the risk of large AC powertransients in the data center affecting system performance. Large AC power transients can occurfrom one or a combination of: electrical power grid problems feeding a facility; weak facilitygrounding; powerful lightning storm strikes; or facility power equipment failure.
In multiple bay Dell EMC rack systems, use the rack to rack grounding kit, PN 106-562-209, toprovide chassis to chassis grounding. The kit provides straps for both the front and rear of thecabinets. Both straps must be installed to provide chassis to chassis grounding.
In customer rack systems, mechanisms for tying racks together to provide the ground connectioncan vary based on the rack provided by the customer and site facility preference. PN 106-562-209is a rack to rack grounding kit for Dell EMC racks. The grounding kit may or may not work on racksprovided by the customer due to the variety of ground location positions on racks. If the groundingkit does not work, a site electrician should add a ground cable tying the two racks common frameground points together with 6AWG wire.
Grounding Racks
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 71
Grounding Racks
72 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
CHAPTER 9
Third Party Racking Option
This chapter includes:
l Computer room requirements ...............................................................................................74l Customer rack requirements ................................................................................................ 75l Third party racks with vertical PDUs — RPQ Required ........................................................ 77l Chassis to chassis grounding................................................................................................. 81
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 73
Computer room requirements
The following computer room requirements provide service access and minimize physicaldisruption:
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 is required toprovide adequate airflow and to allow for system service.
Third Party Racking Option
74 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
Customer rack requirementsThe array components are shipped in a fully tested Dell EMC rack and are installed into thecustomer-supplied rack by Dell EMC customer support engineers only. The original shipping rack,when empty, is returned to Dell EMC after the installation is complete.
To ensure successful installation and secure component placement, customer racks must conformto the following requirements:
l National Electrical Manufacturers Association (NEMA) standard for 19-inch cabinets.
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) brackets installed.
l A separate rack that supports a minimum 2000 lb/907 kg of weight must be provided for eachsystem bay.
Note: The customer must ensure floor load bearing requirements are met.
l Components and cables installed in customer racks must conform to these configuration rules:
n Components and cables within a system bay can not be moved to available space indifferent bay, or to a different location within the same bay.
n System must be properly positioned in accordance with physical placement rules.
l Internal depth of at least 43 inches (109 cm) with the front and rear doors closed. Thismeasurement 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 rails and components.Clip nuts are provided as required.
l Non-dispersed rack-to-rack pass-through cable access at least 3 inches (7.6 cm) in diametermust be available via side panels or horizontal through openings.
l To ensure proper clearance and air flow to the array components, customer supplied frontdoors and standard bezels, if used, must include a minimum of 2.5 inch (6.3 cm) clearancebetween the back surface of the door to the front surface of 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 or rear access toDell EMC components.
n Exterior visibility of system LEDs.
Third Party Racking Option
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 75
Figure 27 Customer rack dimension requirements
Rack
Post
Re
ar
(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 frontNEMA rail.
e = distance between rear surface of rack post to inner surface of rear door.
Third Party Racking Option
76 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
Third party racks with vertical PDUs — RPQ RequiredEach system bay is powered by two redundant power distribution units (PDUs), one PDU for eachpower zone. Rather than use the standard Dell EMC horizontal PDU, the customer can use verticalPDUs via RPQ. The general requirements for third party racks with rear-facing or inward-facingPDUs are listed below.
l Requirements for third party racks with vertical PDUs (inward-facing) on page 80
l Requirements for third party racks with vertical PDUs (rear-facing) on page 78
General requirements for vertical PDUs within third party racks
In addition to meeting standard VMAX array power requirements, vertical PDUs should abide bythe following:
l Both PDUs support AC-line input connectivity and provide outlets for every component in thebay.
l The PDU must be available in the wiring configuration that matches the customer powersupply.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 IEC 60320 C13individual AC outlets.
n Each bank of outlets is connected to individual branch circuits that are protected by asingle two pole 20 Amp circuit breaker.
n The PDU capacity should exceed the power requirements shown in the Power Calculatorfor the specific max configuration.
n Single PDU mounted per side per Figure 28 on page 78 and Figure 29 on page 80.
If the customer requires power to be supplied from overhead, Dell EMC recommends one of thefollowing:
l Option 1: Replace the rear top cover of the bay with the ceiling routing top cover, described in Overhead routing kit on page 84, which allows the power cables inside the machine to berouted out through the top.
l Option 2: "Drop" the power cables down the hinge side, to the bottom, and route them insidethe machine.
The cables should be dressed to allow all doors to open freely, minimize cable congestion, andprovide access to components within the system.
Third Party Racking Option
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 77
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 to ensure that therack and PDU combination are sufficient for the array.
Figure 28 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 frontNEMA rail.
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:
Third Party Racking Option
78 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
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 parallelsurface that 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
Third Party Racking Option
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 79
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 to ensure thatthe rack and PDU combination are sufficient for the array.
Figure 29 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 frontNEMA rail.
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)
Third Party Racking Option
80 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
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 required to mitigate the risk of large AC powertransients in the data center affecting system performance. Large AC power transients can occurfrom one or a combination of: electrical power grid problems feeding a facility; weak facilitygrounding; powerful lightning storm strikes; or facility power equipment failure.
In multiple bay Dell EMC rack systems, use the rack to rack grounding kit, PN 106-562-209, toprovide chassis to chassis grounding. The kit provides straps for both the front and rear of thecabinets. Both straps must be installed to provide chassis to chassis grounding.
In customer rack systems, mechanisms for tying racks together to provide the ground connectioncan vary based on the rack provided by the customer and site facility preference. PN 106-562-209is a rack to rack grounding kit for Dell EMC racks. The grounding kit may or may not work on racksprovided by the customer due to the variety of ground location positions on racks. If the groundingkit does not work, a site electrician should add a ground cable tying the two racks common frameground points together with 6AWG wire.
Third Party Racking Option
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 81
Third Party Racking Option
82 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
CHAPTER 10
Optional kits
This chapter includes:
l Overhead routing kit..............................................................................................................84l Dispersion kits....................................................................................................................... 84l Securing kits......................................................................................................................... 85l GridRunner kit and customer-supplied cable trough..............................................................85
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 83
Overhead routing kitWhen installing an array in non-raised or raised floor environments, the host cabling and power arehandled from overhead using the top routing kit.
Note: Utilize proper strain relief methods when customer-provided power drops are locatedoverhead or wall-mounted.
Figure 30 Top routing cover
Table 22 Overhead routing models
Model Top routing kit
VMAX3 Family E-TOP-KIT
Dispersion kitsEach dispersed system bay requires a dispersion kit specific to the bay number. The dispersion kitsinclude a 82 foot (25 m) optical cable and optics for the dispersed engine. When installing adispersed layout, side skins (E-SKINS) are required.
The following table lists model numbers for new installations and upgrades.
Table 23 Dispersion kit model numbers
Model Description
E-DSOPTICE2 VMAX VG SYS BAY 2 DSP CBLOPTICS KIT
E-DSOPTICE2U VMAX VG SYS BAY 2 DSP CBLOPTICS KITUPG
E-DSOPTICE3 VMAX VG SYS BAY 3 DSP CBLOPTICS KIT
E-DSOPTICE3U VMAX VG SYS BAY 3 DSP CBLOPTICS KITUPG
E-DSOPTICE4 VMAX VG SYS BAY 3 DSP CBLOPTICS KITUPG
E-DSOPTICE4U VMAX VG SYS BAY 4 DSP CBLOPTICS KITUPG
Optional kits
84 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
Table 23 Dispersion kit model numbers (continued)
Model Description
E-DSOPTICE5 VMAX VG SYS BAY 5 DSP CBLOPTICS KIT
E-DSOPTICE5U VMAX VG SYS BAY 5 DSP CBLOPTICS KITUPG
E-DSOPTICE6 VMAX VG SYS BAY 6 DSP CBLOPTICS KIT
E-DSOPTICE6U VMAX VG SYS BAY 6 DSP CBLOPTICS KITUPG
E-DSOPTICE7 VMAX VG SYS BAY 7 DSP CBLOPTICS KIT
E-DSOPTICE7U VMAX VG SYS BAY 7 DSP CBLOPTICS KITUPG
E-DSOPTICE8 VMAX VG SYS BAY 8 DSP CBLOPTICS KIT
E-DSOPTICE8U VMAX VG SYS BAY 8 DSP CBLOPTICS KITUPG
Securing kitsThe Securing Kits contain heavy brackets plus hardware used to attach the brackets to the framesof the system bays. The brackets are attached to the floor using bolts that engage the flooringsubstructure provided by the customer.
The Dell EMC VMAX Securing Kit Installation Guide provides installation instructions.
Table 24 Securing kit models
Model Description
E-SECURE Secure kit for single bay
E-SECUREADD Secure kit for joining bays
GridRunner kit and customer-supplied cable trough
The Dell EMC GridRunner™ bottom routing kit (E-BOT-KIT) and customer-supplied cable troughscan help organize and protect subfloor cables that connect separated bays. GridRunners reducethe vertical drop of the dispersion cables, which may increase the distance between the separatedbays.
Each GridRunner supports the cable bundle above the subfloor. GridRunners are installed withbrackets that attach to the stanchions under the raised floor. The stanchions are up to one inch indiameter, measured at six inches (15.24 cm) below the raised tiles.
To ensure sufficient support of the cable bundle, a GridRunner should be installed every twometers.
Optional kits
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 85
Table 25 Bottom routing model
Model Description
E-BOT-KIT a Bottom routing kit
a. GridRunner basket for supporting cables beneath the floor for dispersed bays.
Optional kits
86 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
APPENDIX
Best Practices for AC Power Connections
This chapter includes:
l Best practices overview for AC power connections...............................................................88l Selecting the proper AC power connection procedure.......................................................... 89l Procedure A: Working with the customer's electrician onsite................................................90l Procedure B: Verify and connect...........................................................................................97l Procedure C: Obtain customer verification........................................................................... 98l PDU labels.............................................................................................................................98l AC power specifications...................................................................................................... 100
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 87
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 31 on page 88.
For systems operating from three phase AC power, two independent and isolated AC powersources are recommended for the two individual power zones in each rack of the system. Thisprovides for the highest level of redundancy and system availability. If independent AC power isnot available, there is a higher risk of data unavailability should a power failure occur, includingindividual phase loss occurring in both power zones.
Before connecting external AC power to storage bays, verify that the bays have been placed intheir final position as explained in the installation guide.
Figure 31 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
88 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
Selecting the proper AC power connection procedureNote: The Dell EMC Customer Engineer must select the proper AC power connectionprocedure.
Table 26 on page 89 summarizes the three possible scenarios to connect customer AC power tothe storage array. Select the procedure that matches the customer's situation.
Table 26 Procedure options for AC power connection
Situation on site Procedure
The customer’s electrician is available at the installationsite.
Procedure A: Working with the customer's electricianonsite on page 90. This procedure assures fault tolerantpower in the storage array.
The customer’s electrician is NOT available at theinstallation site, but you have access to customer-supplied, labeled, power cables (beneath a raised floor oroverhead).
Procedure B: Verify and connect on page 97
The customer’s electrician is NOT available at theinstallation site, customer-supplied PDU source cablesare already plugged into the PDU , and you have noaccess to the customer-supplied power cables.
Procedure C: Obtain customer verification on page 98
Best Practices for AC Power Connections
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 89
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's electrician, theDell EMC CE and back to the customer's electrician.
l Task 1: Customer's electrician
l Task 2: Dell EMC Customer Engineer (CE)
l Task 3: Customer's electrician
Best Practices for AC Power Connections
90 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
Procedure A, Task 1: Customer's electricianAbout this task
NOTICE This task is performed by the customer's electrician.
Procedure
1. Verify that the customer-supplied AC source voltage output on each customer-suppliedPDU is within the AC power specification shown in AC power specifications on page 100.Measure the voltage output of each power cable as shown in Figure 32 on page 91.
2. Turn OFF all the relevant circuit breakers in customer-supplied PDU 1 and customer-supplied PDU 2.
3. Verify that the customer-supplied power cables connected to PDU 1 and PDU 2 have nopower as shown in Figure 33 on page 91.
Figure 32 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 33 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
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 91
Procedure A, Task 2: Dell EMC Customer EngineerBefore you begin
Before connecting power to the system, make sure that the power for both zone A and zone B areturned OFF. This task is performed by the Dell EMC Customer Engineer.
Figure 34 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 each label containsthe relevant customer-supplied PDU and circuit breaker numbers. If power cables are notequipped with labels, alert the customer.
2. Compare the numbers on the customer-supplied power cables for each Dell EMC bay toverify that power zone A and power zone B are powered by a different customer-suppliedPDU.
3. Do one of the following to connect power zone A and power zone B in each bay. Ifnecessary, use the 15ft extension cords provided by Dell EMC.
l For single-phase power: Connect customer-supplied PDU power cables to the Dell EMCbay by connecting to the bay's AC input cables for power zone A and power zone B asshown below.
Best Practices for AC Power Connections
92 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
Figure 35 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 to the Dell EMCbay by connecting to the bay's AC input cables for power zone A and power zone B asshown below.
Best Practices for AC Power Connections
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 93
Figure 36 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 Dell 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 maintenance procedure.
Best Practices for AC Power Connections
94 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
Figure 37 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
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 95
Procedure A, Task 3: Customer's electricianAbout this task
Note: This task is performed by the customer's electrician.
Procedure
1. Working with the Dell EMC Customer Engineer, turn ON all the relevant circuit breakers incustomer-supplied PDU 2.
Verify that only power supply and/or SPS LEDs in power zone A are ON or flashing green inevery bay in the array.
CAUTION The bay is incorrectly wired if all (power zone A and B) power supply and/orSPS LEDs in a bay are ON or flashing green. Check that the AC power to both storagebay power zones is not supplied by a single PDU (customer-supplied PDU 2). The wiringmust be corrected before 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 the previous stepchanged from green to OFF and/or flashing yellow. The yellow SPS lights flash for amaximum of 5 minutes.
Note: Power supplies connected to an SPS continue to have green lights ON while theSPS yellow light continues to flash indicating the SPS is providing on-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 and customer-suppliedPDU 2.
5. Label the PDUs as described in PDU labels on page 98.
Best Practices for AC Power Connections
96 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
Procedure B: Verify and connectAbout this task
Perform this procedure if the two conditions listed below are true:
l You have 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 Dell EMC Customer Engineer to verify that the customer's electricianhas complied with power specifications. Once verified, the Dell EMC Customer Engineer makes therequired power connections overhead or under the floor.
Note: Utilize proper strain relief methods when customer-provided power drops are locatedoverhead or wall-mounted.
Procedure
1. Have the customer verify that their electrician has complied with power specifications forvoltage levels and redundancy. If the customer cannot verify this, provide them with a copyof Procedure A. Inform the customer that their array may prematurely shut down in theevent of a site power issue.
2. Access the labeled, power cables (beneath raised floor or overhead) to verify that thecustomer-supplied power cables are properly labeled as shown in Figure 33 on page 91 anddescribed in Procedure A, Task 2.
3. Compare the numbers on the customer-supplied power cables for each storage bay to verifythat power zone A and power zone B are powered by a different customer-supplied PDU.
4. Connect the customer's PDU AC cables to the storage bay power zones as described inProcedure A, Task 2.
5. Record the customer-supplied PDU information as described in Procedure A, Task 2.
6. Label the PDUs as described in PDU labels on page 98.
Best Practices for AC Power Connections
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 97
Procedure C: Obtain customer verificationAbout this task
Perform this procedure if the three conditions listed below are true:
l The customer-supplied PDU source cables are already plugged into the storage bay 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 power specifications forvoltage levels and redundancy. If the customer cannot verify this, provide them with a copyof Procedure A. Inform the customer that their array may prematurely shut down in theevent of a site power issue.
2. Record the customer-supplied PDU information (AC source voltage) as described in step 1of Procedure A, Task 1: Customer's electrician on page 91 and label the PDUs as described in PDU labels on page 98.
PDU labelsBefore applying labels to the PDUs, one of the following procedures must have been completed:
l Procedure A: Working with the customer's electrician onsite on page 90
l Procedure B: Verify and connect on page 97
l Procedure C: Obtain customer verification on page 98
If necessary, see Selecting the proper AC power connection procedure on page 89 to select thecorrect procedure.
PDU label part numbers
VMAX3 Family
Table 27 VMAX3 Family label part numbers, EMC racks
For... Use PN Description Location
All bays PN 046-001-750 LABEL: CUSTOMER 1P 3P PDUINFO WRITEABLE
OPEN ME FIRST, KIT, PN 106-887-026
Best Practices for AC Power Connections
98 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K
Applying PDU labels, VMAX3 FamilyProcedure
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 38 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 39 Label placement— Customer PDU Information
Rear View
Zone A PDU labelZone B PDU label
Best Practices for AC Power Connections
Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K 99
AC power specifications
Table 28 Input power requirements - Single-phase, North American, International, Australian
Specification North American 3-wireconnection(2 L & 1 G)a
International and Australian3-wire connection(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
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 PDU.
a. L = line or phase, N = neutral, G = ground
Table 29 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
One 50 A three-phase linecord per power zone.
One 32 A three-phase linecord per power zone.
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
100 Dell EMC™ VMAX3™ Family Site Planning Guide VMAX 100K, VMAX 200K, and VMAX 400K