Vertiv UI30028 User Manual

Displayed below is the user manual for UI30028 by Vertiv which is a product in the Power Distribution Units (PDUs) category. This manual has pages.

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Geist™

Intelligent Rack PDU

Installer/User Guide

Unit Monitored Upgradeable with IMD-03x

Vertiv™ | Intelligent Rack PDU Installer/User Guide

Technical Support Site

If you encounter any installation or operational issues with your product, check the pertinent

section of this manual to see if the issue can be resolved by following outlined procedures.

Visit https://www.Vertiv.com/en-us/support/ for additional assistance.

The information contained in this document is subject to change

without notice and may not be suitable for all applications. While every

precaution has been taken to ensure the accuracy and completeness

of this document, VertivTM assumes no responsibility and disclaims all

liability for damages resulting from use of this information or for any

errors or omissions. Refer to other local practices or building codes as

applicable for the correct methods, tools, and materials to be used in

performing procedures not specifically described in this document.

The products covered by this instruction manual are manufactured

and/or sold by Vertiv. This document is the property of Vertiv and

contains confidential and proprietary information owned by Vertiv.

Any copying, use or disclosure of it without the written permission of

Vertiv is strictly prohibited.

Names of companies and products are trademarks or registered

trademarks of the respective companies. Any questions regarding

usage of trademark names should be directed to the original

manufacturer.

TABLE OF CONTENTS

1 Overview 1

1.1 Environmental 1

1.2 Electrical 2

1.3 Networking 2

1.3.1 Ethernet 2

1.3.2 Protocols 2

1.3.3 User Interfaces 2

1.4 Regulatory Compliance 2

1.4.1 Underwriters Laboratories (UL) 3

1.4.2 CE 3

1.4.3 Federal Communications Commission (FCC) 3

1.4.4 RoHS/WEEE 3

2 Installation 5

2.1 Mounting 5

2.1.1 Power Connection 18

2.1.2 U-Lock Operation 18

2.1.3 P-Lock Operation 18

3 Setup 21

3.1 Interchangeable Monitoring Device (IMD-03X) 21

3.1.1 Monitored 21

3.1.2 Enhanced Monitored (IMD-03E) 22

3.1.3 Enhanced Monitored with RS-232 (IMD-03E-S) 23

3.1.4 Rapid Spanning Tree Protocol (RSTP) 24

3.2 Network Setup 25

3.3 Web Interface 29

3.3.1 Home Page 29

3.3.2 Sensors Tab 30

3.3.3 System Tab 35

3.3.4 Help Tab 52

4 Vertiv™ Intelligence Director 53

4.1 Aggregation 53

4.2 Master rPDU 53

4.3 Network Configuration 54

4.3.1 Downstream Devices 54

4.4 Views 56

4.4.1 Summary 57

4.4.2 Groups 58

4.4.3 List 59

4.4.4 Group Configuration 60

4.5 Interfaces 61

4.5.1 Group SNMP Data 62

4.5.2 Tips and Troubleshooting 62

5 Appendices 63

Appendix A: Technical Support 63

Appendix B: Visible Light Communication (VLC) 65

Appendix C: Vertiv™ Mobile App 65

Appendix D: Available Sensors 72

Appendix E: IMD Display Codes 73

Vertiv™ | Intelligent Rack PDU Installer/User Guide

1 OVERVIEW

The Geist™ Rack Power Distribution Unit (rPDU) gives data center managers the flexibility to install the

intelligence required today, with the option to upgrade technology as needs evolve. From basic power to

power monitoring, the rPDU product line adapts to a business' needs now and in the future.

To establish this upgrade path, vertiv engineers took the robust rPDU design and incorporated an

Interchangeable Monitoring Device (IMD). PDUs last for many years and with the IMD design, businesses

are able to upgrade their PDUs to newer monitoring technologies in the future without having to replace

the entire rPDU. The hot-swappable IMD is changed out in a few simple steps, without interrupting power

to critical servers.

1.1 Environmental

The operational environmental limits pertaining to temperature, humidity and elevation are as defined in

the following tables.

DESCRIPTION MINIMUM MAXIMUM

Operating 10°C (50°F) 60°C (140°F)

Storage -40°C (-40°F) 70°C (158°F)

Table 1.1 Temperature Limits

DESCRIPTION MINIMUM MAXIMUM

Operating 5% 95% (non-condensing)

Storage 5% 95% (non-condensing)

Table 1.2 Humidity Limits

DESCRIPTION MINIMUM MAXIMUM

Operating 0 m (0 ft.) 3,050 m (10,000 ft.)

Storage 0 m (0 ft.) 15,240 m (50,000 ft.)

Table 1.3 Elevation Limits

1.2 Electrical

Electrical product characteristics and performance are defined in the following table. Also, please see the

product nameplate for additional rating limits.

TYPE RATINGS

NEMA 5-15R or L5-15R 125VAC, 12A

NEMA 5-20R or L5-20R 125VAC, 16A

NEMA 6-20R or L6-20R 250VAC, 16A

NEMA L5-30R 125VAC, 24A

NEMA L6-30R 250VAC, 24A

IEC-60320 C13 250VAC, 10A (UL & CSA 12A, 250VAC)

IEC-60320 C19 250VAC, 16A (UL & CSA 16A, 250VAC)

U-Lock Locking IEC-60320 C13 250VAC, 10A (UL & CSA 12A, 250VAC)

U-Lock Locking IEC-60320 C19 250VAC, 16A (UL & CSA 16A, 250VAC)

Combination C13/C19 250VAC, 16A (UL & CSA 16A, 250VAC) with C20 cord

250VAC, 10A (UL & CSA 12A, 250VAC) with C14 cord

Saf-D-Grid 277VAC, 16A

Table 1.4 Receptacle Ratings

1.3 Networking

The product communications requirements are defined in the next sections.

1.3.1 Ethernet

The Ethernet link speed for this product is: 10/100 Mb; full duplex.

1.3.2 Protocols

The communication protocols supported by this product include: ARP, IPv4, IPv6, ICMP, ICMPv6, NDP,

TCP, UDP, RSTP, STP, DNS, HTTP, HTTPS (TLSv1.3), SMTP, SMTPS, DHCP, SNMP (V1/V2c/V3), LDAP,

TACACS+, RADIUS, NTP, SSH, RS232 and Syslog.

1.3.3 User Interfaces

This product supports the following user interfaces: SNMP, JSON-based Web GUI, JSON API and

Command-line interface using SSH or Serial (RS232).

1.4 Regulatory Compliance

Vertiv™ products are regulated for Safety, Emissions and Environment Impact per the following agencies

and policies.

Vertiv™ | Intelligent Rack PDU Installer/User Guide

1.4.1 Underwriters Laboratories (UL)

UL standards are used to assess products; test components, materials, systems and performance; and

evaluate environmentally sustainable products, renewable energies, food and water products, recycling

systems and other innovative technologies.

The UL standards specific to this equipment are as noted on the device nameplate.

1.4.2 CE

The placement of the CE mark on a product signifies a manufacturer's declaration that the product

complies with the applicable European (EU) health, safety and environmental protection requirements,

including EU legislation and product directives. The CE mark is required for products offered for sale

within the European Economic Area (EEA).

The specific regulations, directives and standards applicable to each product are specified on the

Declaration of Conformity.

1.4.3 Federal Communications Commission (FCC)

The Federal Communications Commission (FCC) regulates interstate and international communications

by radio, television, wire, satellite and cable in all 50 states, the District of Columbia and U.S. territories. An

independent U.S. government agency overseen by Congress, the FCC is the United States' primary

authority for communications laws, regulation and technological innovation.

The FCC standards specific to this equipment are:

•This Class A device complies with Part 15 of the FCC Rules. Operation is subject to the following two

conditions:

i. This device may not cause harmful interference.

ii. This device must accept any interference received, including interference that may cause

undesired operation.

•This Class A digital apparatus complies with Canadian ICES-003.

Cet appareil numérique de la classe A est conforme à la norme NMB-003 du Canada.

WARNING! Changes or modifications to this unit not expressly approved by the party

responsible for compliance could void the user's authority to operate this equipment.

1.4.4 RoHS/WEEE

RoHS, also known as Lead-Free, stands for Restriction of Hazardous Substances. RoHS, also known as

Directive 2002/95/EC, originated in the European Union and restricts the use of six hazardous materials

found in electrical and electronic products. All applicable products in the EU market after July 1, 2006,

must pass RoHS compliance. RoHS impacts the entire electronics industry and many electrical products

as well.

WEEE stands for Waste from Electrical and Electronic Equipment. WEEE Directive 2002/96/EC mandates

the treatment, recovery and recycling of electric and electronic equipment (90% ends up in landfills). All

applicable products in the EU market must pass WEEE compliance and carry the Wheelie Bin sticker.

See product label for RoHS/WEEE compliance marks.

1 Overview 3

Vertiv™ | Intelligent Rack PDU Installer/User Guide

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2 INSTALLATION

Install your Rack PDU according to the images in the mounting section.

NOTE: Before beginning installation, visit

https://www.vertiv.com/en-us/support/technical-

documents/it-management/it-management-compliance-regulatory-information

, for important safety

information.

To install your unit:

1. Attach the unit to the rack using appropriate hardware.

2. Plug the rPDU into an appropriately rated and protected branch-circuit receptacle.

3. Plug in the devices to be powered by the rPDU.

4. Turn On each device connected to the rPDU.

NOTE: Vertiv™ recommends powering-up connected devices sequentially to avoid high inrush current.

2.1 Mounting

Optional brackets are sold separately.

Figure 2.1 Full-Length Brackets

Figure 2.2 Mini L-Brackets

Figure 2.3 Vertical Extension Brackets

Vertiv™ | Intelligent Rack PDU Installer/User Guide

Figure 2.4 Toolless Mounting Hardware

2 Installation 7

Figure 2.5 Toolless Full-Length Brackets

Vertiv™ | Intelligent Rack PDU Installer/User Guide

Figure 2.6 Single Side-Mount, Two-Unit Brackets

2 Installation 9

Figure 2.7 Offset/Side-Mount Brackets

Vertiv™ | Intelligent Rack PDU Installer/User Guide

Figure 2.8 7" Extension Brackets

2 Installation 11

Figure 2.9 Flush-Mount Bracket

Vertiv™ | Intelligent Rack PDU Installer/User Guide

Figure 2.10 Adjustable-Mount Bracket

2 Installation 13

Figure 2.11 Panel-Mount Bracket

Vertiv™ | Intelligent Rack PDU Installer/User Guide

Figure 2.12 23" Conversion Mounting Brackets

2 Installation 15

Figure 2.13 19" Horizontal/Panel-Mount Brackets

Vertiv™ | Intelligent Rack PDU Installer/User Guide

Figure 2.14 Mount Brackets for UPDU with Pivoting End

2 Installation 17

2.1.1 Power Connection

Plug the rPDU into an appropriately rated and protected branch circuit receptacle.

2.1.2 U-Lock Operation

Plug in the devices to be powered by the rPDU.

Vertiv™ patented U-Lock power cord retention.

•Uses standard power cords.

•Cord insertion-activated locking system.

•Easy push-and-hold Bezel unlocking feature.

Figure 2.15 U-Lock Cord Retention Operation

2.1.3 P-Lock Operation

Plug in the devices to be powered by the rPDU.

•Vertiv Combination C13/C19 Outlet with P-Lock power cord retention.

•Compatible with P-Lock power cords.

•Use press-and-hold tabs on the P-Lock cord to release from outlet.

Vertiv™ | Intelligent Rack PDU Installer/User Guide

Figure 2.16 P-Lock Cord Retention Operation

2 Installation 19

Vertiv™ | Intelligent Rack PDU Installer/User Guide

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3 SETUP

3.1 Interchangeable Monitoring Device (IMD-03X)

The IMD-03x adds additional functionality over the IMD-02x modules, which includes expanded sensor

support and enhanced firmware features. The IMD can be replaced and upgraded to allow data centers to

future-proof their locations. There are three versions of the IMD-03x.

3.1.1 Monitored

The IMD-03x adds additional functionality over the IMD-02x modules, including expanded sensor support

and enhanced firmware features.

Figure 3.1 IMD-03x Module

NUMBER NAME DESCRIPTION

1Dual Ethernet

Ports

The dual ethernet ports act as a two-port ethernet switch, allowing for multiple devices to be daisy-

chained.

2Hard-Reboot

Button

Pressing the hard-reboot button reboots the IMD. This acts as a power-cycle for the IMD; it does not

change or remove any user information.

3Network Reset

Button

Holding the network-reset button for 15 seconds during normal operation willrestore the default IP

address and reset the user accounts.

4 Local Display The localdisplayshows the phase, line and circuit current values (in amperes).

5 Display Buttons There are three buttons near the IMD display; a back button, a forward button and a center button.

The functions of these buttons are described in .

Table 3.1 IMD-03x Module Descriptions

BUTTON SYMBOL DESCRIPTION

Back Button Decrement to the previous channel.

Forward Button Increment to the next channel.

Center Button

Toggle between scrolling and static display modes. Holding this button for

3 seconds initiates a parameter reset sequence. This sequence consists of

rset

message, followed by a

dflt

message and then a 3-second

countdown. Once the countdown expires, an

8888

message is displayed

and the network,

http

user accounts and

LDAP/RADIUS

information is

reset to default values. If the button is released at any time during this

sequence, the reset will be aborted.

Center Button x3

Pressing this button 3 times within 2 seconds enables VLC mode. Pressing

the button while VLC mode is active returns the unit to the standard

current display.

Back and Forward Buttons and Pressing both buttons at the same time flips the display 180 degrees.

Back and Center Buttons and

Pressing both buttons at the same time displays the primary IPv4 address

for the unit.

Table 3.2 Display Button Functions

NOTE: Display Button functionality may vary based on unit configuration.

3.1.2 Enhanced Monitored (IMD-03E)

The Enhanced IMD-03E is a more advanced option for data centers that need full remote monitoring,

alarms and remote sensors. It is built with the IMD-03X module, which provides dual ethernet ports and a

local display. The IMD-03E uses the Enhance Communication Card (ECC) that adds a Remote Sensor Port

for the connection of optional environmental sensors or accessories.

NOTE: The IMD-03E has been discontinued and replaced with the IMD-03E-S.

Figure 3.2 IMD-03E Module

Vertiv™ | Intelligent Rack PDU Installer/User Guide

NUMBER NAME DESCRIPTION

Dual

Ethernet

Ports

The dual ethernet ports act as a two-port ethernet switch, allowing for multiple devices to be daisy-

chained.

Hard-

Reboot

Button

Pressing the hard-reboot button reboots the IMD. This acts as a power-cycle for the IMD; it does not

change or remove any user information.

Network

Reset

Button

Holding the network-reset button for 5 seconds during normal operation willrestore the default IP

address and reset the user accounts.

4Local

Display The localdisplay shows the phase, line and circuit current values (in amperes).

5Display

Buttons

There are 3 buttons near the IMD display; a back button, a forward button and a center button. The

functions of these buttons are described in Display Button Functions on page 22.

6Remote

Sensor Port

RJ-12 port for connecting Vertiv™ plug-and-play remote digital sensors (sold separately). Each digital

sensor has a unique serial number and is automatically discovered. GU2 PDUs support up to 16 sensors.

The optional Vertiv™ A2D Converter can be added to support analog sensing. The optional SN-Adapter

can be added to support Liebert®Integrated and Modular Sensors. For more information, see Available

Sensors on page 72

7Proprietary

Connectivity RJ-45 port for future expansion.

Table 3.3 IMD-03E Module Descriptions

3.1.3 Enhanced Monitored with RS-232 (IMD-03E-S)

All Vertiv™ Geist™ Unit Level Monitoring rPDUs ship with the IMD-03E-S module. This module provides all

of the same features as the IMD-03E, with the addition of a RS232 serial port using RJ-45.

Figure 3.3 IMD-03E-S Module Descriptions

3 Setup 23

NUMBER NAME DESCRIPTION

Dual

Ethernet

Ports

The dual ethernet ports act as a two-port ethernet switch, allowing for multiple devices to be daisy- chained.

Hard-

Reboot

Button

Pressing the hard-reboot button reboots the IMD. This acts as a power-cycle for the IMD; it does not

change or remove any user information.

Network

Reset

Button

Holding the network-reset button for 5 seconds during normal operation willrestore the default IP address

and reset the user accounts.

4Local

Display The localdisplay shows the phase, line and circuit current values (in amperes).

5Display

Buttons

There are three buttons near the IMD display: a back button, a forward button and a center button. The

functions of these buttons are described in the Display Button Functions on page 22.

Remote

Sensor

Port

RJ-12 port for connecting a Vertiv™ plug-and-play remote digital sensors (sold separately). Each digital

sensor has a unique serial number and is automatically discovered. GU2 PDUs support up to 16 sensors. The

optional Vertiv™ A2D Converter can be added to support analog sensing.The optional SN-ADAPTER can be

added to support Liebert®Integrated and Modular Sensors. For more information, see Available Sensors on

page 72..

7Serial

Port RS-232 via RJ-45 port.

8USB

Port

USB port used to upload firmware, backup/restore device configuration or expand logging capacity via USB

storage device. Provides up to 500mA power capacity for USB- connected devices.

Table 3.4 IMD-03E-S Module Descriptions

3.1.4 Rapid Spanning Tree Protocol (RSTP)

Upgradable monitored devices, built with the IMD-03E, include two ethernet ports that work together as

an internal ethernet bridge. One of these ports can be used to connect the IMD to an existing network or

both ports can be used at the same time to connect one IMD to another in a daisy-chain configuration.

When both network interfaces are connected, the IMD implements a network bridging protocol called the

Rapid Spanning Tree Protocol (RSTP). RSTP is an IEEE standard that is implemented by all managed

bridges. Using RSTP, bridges in the network exchange information to find redundant paths or loops.

When a loop is detected, the bridges in the network work together to temporarily disable the redundant

paths. This allows the network to avoid broadcast storms caused by the loops. In addition, RSTP regularly

checks for changes in the network topology. When a connection is lost, RSTP allows the bridges to quickly

switch to a redundant path.

NOTE: RSTP imposes a limit of 40 links between bridges, including IMDs.

Vertiv™ | Intelligent Rack PDU Installer/User Guide

3.2 Network Setup

The Upgradeable IMD has a default IP address for initial setup and access. Once you have assigned an IP

address, the default IP address is no longer active.

To restore the default IP address and reset all user-account information:

If the user-assigned address or passwords are lost or forgotten, press and hold the network reset button

located below the Ethernet Port for 15 seconds. Holding the center button of the LED display for 10

seconds also resets the network and user account information.

The Network Page, located under the

System Tab

, allows you to assign the network properties manually

or to use DHCP to connect to your network. Access to the unit requires the IP address to be known. Use of

a static IP or a reserved DHCP is recommended. The default address is displayed on the front of the unit.

• IPAddress:

192.168.123.123

• Subnet Mask:

255.255.255.0

• Gateway:

192.168.123.1

To access the unit for the first time, you must temporarily change your computer's network settings to

match the

192.168.123. xxx

subnet. To setup the unit, connect it to your computer's Ethernet Port, then

follow the appropriate instructions for your computer's operating system.

To set up the network for a Windows operating system:

1. Access the network settings for your operating system.

•Using Microsoft Windows 2000, XP or Server 2003, click

Start >Settings >Network Connections.

•Using Microsoft Windows 7 or Server 2008, click

Start>Control Panel >Adjust your Computer's

Settings >View Network Status and Tasks>Change Adapter Settings or

click

Start>Settings>Control Panel>Network and Sharing Center>Change Adapter Settings.

•Using Microsoft Windows 8 or Server 2012, move the mouse to the bottom or top right corner,

click

Settings - Control Panel - Large or Small Icons - Network and Sharing Center>Change

Adapter Settings.

•Using Microsoft Windows 10, click

Start >Network and InternetC>hange Adapter Settings

2. Locate the entry under LAN, High-Speed Internet or Local Area Connection that corresponds to

the Network Card (NIC). Double-click on the network adapter's entry in the Network Connections

list.

NOTE: Most computers will have a single Ethernet NIC installed, but a WiFi or 3G adapter also shows as

a NIC in this list. Be sure to choose the correct entry.

3 Setup 25

3. Click

Properties

to open the Local Properties window.

Figure 3.4 Local Area Connection Properties

4. Select

Internet Protocol Version 4 (TCP/IPv4)

from the list, then click

Properties.

NOTE: If you see more than one TCP/IP entry, as in the example above, the computer may be

configured for IPv6 support as well as IPv4; make sure to select the entry for the IPv4 protocol. Write

down the current NIC card settings so you can restore them to normal after you have completed the

setup procedure.

Vertiv™ | Intelligent Rack PDU Installer/User Guide

Figure 3.5 Internet Protocol Version 4

5. Choose

Use the following IP address

, set IP address to

192.168.123.1

and Subnet Mask to

255.255.255.0

. For initial setup, Default Gateway and the DNS Server entries can be left blank. Select

OK - OK

to close both the Internet Protocol Properties and Local Properties windows.

6. In a web browser, enter

http://192.168.123.123

to access the unit. If you are setting up the unit for the

first time, the unit requires you to create an Admin account and password before you can proceed.

7. After the Admin account is created, log in to the unit.

8. By default, the default sensors page is displayed. Navigate to the

System Tab

, then the

Network

Page

to configure the device's network properties. The unit's IP address, Subnet Mask, Gateway

and DNS settings can either be assigned manually or acquired via DHCP.

9. Click

Save.

NOTE: After the changes are saved, the browser will no longer be able to reload the web page from the

192.168.123.123

address and displays a

Page not Found

Host Unavailable

message; this is normal.

After you are finished configuring the unit's IP address, repeat the steps above changing the

computer's Ethernet NIC card settings to the ones you wrote down prior to changing them.

3 Setup 27

To set up the network for a MAC:

1. Click the

System Preferences

icon on the Dock and choose

Network

Figure 3.6 MAC System Preferences

2. Ensure ETHERNET is highlighted on the left side of the NIC window. In most cases, there will be one

ETHERNET entry on a Mac. Write down the current settings so you can restore them to normal

after you have completed the setup procedure.

3. Select

Manually

from the Configure IPv4 drop-down list, then set IP Address to

192.168.123.1

and

Subnet Mask to

255.255.255.0

and click

Apply

NOTE: The Router and DNS Server settings can be left blank for this initial setup. In a web browser,

enter

http://192.168.123.123

to access the unit. If you are setting up the unit for the first time, the unit

requires you to create an Admin account and password before you can proceed.

4. After the Admin account is created, log in to the unit.

Vertiv™ | Intelligent Rack PDU Installer/User Guide

5. By default, the default sensors page is displayed. Navigate to the

System Tab

, then the

Network

page to configure the device's network properties. The unit's IP address, Subnet Mask, Gateway

and DNS settings can either be assigned manually or acquired via DHCP.

6. Click

Save.

NOTE: After the changes are saved, the browser will no longer be able to reload the web page from the

192.168.123.123

address and displays

Page not Found

Host Unavailable

message; this is normal. After

you are finished configuring the unit's IP address, repeat the steps above changing the computer's

Ethernet NIC card settings to the ones you wrote down prior to changing them.

3.3 Web Interface

The Upgradeable Monitored units come with an embedded web interface. The unit is accessible via a

standard, unencrypted HTTP connection or via an encrypted HTTPS (TLS) connection.

NOTE: An administrator account (username and password) must be created when logging in the

device the first time.

3.3.1 Home Page

The Home Page gives both current and historical views of the unit’s data. Real-time readings are provided

for all rPDU data and individual circuits' data.

Figure 3.7 Home Page

3 Setup 29

NUMBER NAME DESCRIPTION

1Sensors, System

and Help Tab Mouseover to show submenus: Sensors, System and Help.

2 Log In/Log Out

Click to

Log Out

of the unit.

NOTE: Both username and password are case sensitive and no spaces are allowed.

Prohibited characters for username are: $&`:<>[ ] { }"+%@/ ; =?\^|~',

3Alarms and

Warnings Indicates the number of alarms and warnings currently occurring, if any.

4 Device ID Unique product identification and cannot be changed. May be required for technicalsupport.

5Total and Individual

Phase Monitor

Displays AC current, voltage and power statistics for each individual phase and for the totalof all

phases combined.

6 Current Monitor Displays AC current draw statistics for each individual circuit on the rPDU.

7 Operation Icon Modify settings.

8 Configuration Icon Modify label name.

9 Device Label Displays the user-assigned label of this unit.

10 Vertiv™ Logo Clicking on this logo from any page will reload the home page.

Table 3.5 Home Page Descriptions

3.3.2 Sensors Tab

Click the

Sensors Tab

to access the

Overview

Alarms

and

Warnings

and

Logging

page from the drop-

down menu.

Overview

You must log in before making any changes. Only users with Control level or higher authorization have

access to these settings.

To change a device label:

1. Click the

Configuration

icon for the rPDU and change the label. The Name is the rPDU's factory

name or model and cannot be changed.

2. Click

Save.

To change device operation:

1. Click the

Operation

icon.

2. Select the operation to perform:

• Cancel - cancels the current operation if it has not been completed.

• Reset Energy - resets the total energy measured in kWh.

• Restore Defaults - restores device settings to their factory default. This includes Labels, Delays

and Power-on Actions for the device.

NOTE: These actions affect the entire device.

3. Select

Submit

to issue the action.

Vertiv™ | Intelligent Rack PDU Installer/User Guide

To change a Phase or circuit label:

1. Click the

Configuration

icon for the phase or circuit and change the label. The Name is the physical

phase or circuit name and cannot be changed.

2. Click

Save.

To change phase operation:

1. Click the

Operation

icon.

2. Select

Reset Energy

- to reset the total Energy measured in kWh for the selected phase.

3. Select

Submit

to issue the action.

3 Setup 31

Alarms and Warnings

The Alarms and Warnings page allows you to establish alarm or warning conditions (events) for each

power and circuit reading. Events are triggered when a measurement exceeds a user-defined threshold,

either going above the threshold (high-trip) or below it (low-trip). Events are displayed in different

sections, based on the device or measurement the event is associated with. Each event can have one or

more actions to be taken when the event occurs.

Figure 3.8 Alarms and Warnings Page

NUMBER DESCRIPTION SYMBOL DESCRIPTION

1Status of each

event.

Warning symbol. Event is displayed in orange.

Alarm symbol. Alarm is displayed in red.

Acknowledged event symbol. Symbol remains until the condition measured

returns to normal.

Add/Delete/Modify

alarms and

warnings.

Add new alarms and warnings.

Modify existing alarms and warnings.

Delete existing alarms and warnings.

Notify user of

tripped Events and

request

acknowledgment.

N/A Empty, if there is no alert condition.

When a warning or alarm event occurs, you can click on this symbol to

acknowledge the event and stop the unit from sending anymore notifications

about it.

NOTE: Clicking this symbol does not clear the warning or alarm event - it just

stops the notifications from repeating.

4 Displays the conditions for the alarms and warnings settings.

Table 3.6 Alarms and Warnings Descriptions

Vertiv™ | Intelligent Rack PDU Installer/User Guide

To add a new Alarm or Warning Event:

1. Click the

Add/Modify

alarms and warnings button.

2. Set the desired conditions for this event as follows:

a. From the drop-down lists, select the name of the phase or circuit, the trigger measurement, the

severity and the type.

NOTE: High trips if the measurement goes above the threshold and low trips if the measurement goes

below the threshold.

b. Enter the desired

Threshold Value

(any number between

-999.0

through

999.0

c. Enter the desired

Clear Delay

time in seconds. Any value other than

means once this event is

tripped, the measurement must return to normal for this many seconds before the event will

clear and reset. Clear Delay can be up to 14,400 seconds (4 hours).

d. Enter the desired

Trip Delay

time in seconds. Any value other than

means that the

measurement must exceed the threshold for this many seconds before the Event will be

tripped. Trip Delay can be up to 14,400 seconds (4 hours).

e. Latching Mode, if enabled, this event and its associated actions remain active until the event is

acknowledged, even if the measurement subsequently returns to normal.

f. To specify where the alert notifications are sent when this alarm or warning event occurs, click

the

Add

icon to create a new action.

g. Select the desired options from the drop-down menu:

•Target is the email address or SNMP manager, where the notifications are sent when the

event is tripped. For more information on configuring a target email address see Email on

page 48.

NOTE: Target Delays and Repeats are shared across all alarms. If multiple delay or repeat values are

needed for specific targets, each one must be added to the target list and then the appropriate Enabled

box checked on each alarm.

•Delay determines how long this Event must remain tripped for before this Action's first

notification is sent. This is different from the Trip Delay above. Trip Delay determines how

long the threshold value has to be exceeded before the Event itself is tripped. This delay

determines how long the Event must remain tripped before this Action occurs. Delay can

be up to 14,400 seconds (4 hours). A Delay of

will send the notification immediately.

•Repeat determines whether multiple notifications will be sent for this Event Action. Repeat

notifications are sent at the specified intervals until the Event is acknowledged or until the

Event is cleared and reset. The Repeat interval can be up to 14,400 seconds (4 hours). A

Repeat of

disables this feature and only one notification will be sent.

3. Click

Save

to save this notification action.

NOTE: More than one action can be set for an alarm or warning; to add multiple actions, just click the

Add

icon again and set each one as desired. Each alert can have up to 32 Actions associated with it.

3 Setup 33

To change an existing alarm or warning event:

1. Click the

Modify

icon next to the alarm or warning event you wish to change.

2. Modify the settings as needed and click

Save

3. After an action is added, it has a checkbox in the enabled column at the far left. By default when an

action is added it is is unchecked (disabled). Click the checkbox to enable it. This allows you to

selectively turn different actions

and

Off

for testing.

To delete an existing alarm or warning event:

1. Click the

Delete

icon next to the alarm or warning event you wish to remove.

2. Click

Delete

and

Save

to confirm.

Logging

The Logging page allows you to access the historical data recorded by the rPDU by selecting the desired

sensors and time range to be logged. The Logging page permits selecting all or selecting none. To do so,

click on the drop-down, choose

Select All

Select None

and click on the appropriate check mark.

Figure 3.9 Logging Page

Vertiv™ | Intelligent Rack PDU Installer/User Guide

NUMBER NAME DESCRIPTION

1 Data log download

Clicking the

JSON

link downloads the data log in

JSON

format.

Clicking the

CSV

downloads the data log in

CSV

format for use in

spreadsheet software.

2 Log interval The frequency at which data is written to the log file. The logging interval

can be 1-600 minutes with the default setting being 15 minutes.

3 Clear log data Delete the log file.

4 Select All/Select None Click on drop-down menu, select

Select All

Select None

and click on

the check mark.

5 Logging

Click measurement value to select or deselect desired logging

parameters. By default, all measurements are selected. Press

Save

to save

changes.

Table 3.7 Logging Page Descriptions

NOTE: The maximum loggable time frame is determined by number of measurements being logged and

the interval at which data is written to the log file.

3.3.3 System Tab

NOTE: You must be logged in as Admin to modify settings in the

System Tab

Users Account Page

The Users Account Page in the System menu allows you to manage or restrict access to the unit's

features by creating accounts for different users.

Figure 3.10 User Account Page

NUMBER DESCRIPTIONS

1 Add new user account.

2 Modify user account.

3 Delete user account.

Table 3.8 User Account Page Descriptions

NOTE: Only an Administrator-level account can add, modify or delete users. Control-level and View-

only accounts can change their own passwords using the Modify User icon, but cannot add or delete

accounts or modify other accounts. The Guest account cannot add, delete or modify any account, not

even itself.

3 Setup 35

To add or modify a user account:

1. Click the

Add

Modify User

icon.

2. Create or modify the account information as needed.

a. Username: The name of the account. User names may be up to 24 characters long, are case-

sensitive and may not contain spaces or any of these prohibited characters: $&`:<>[ ] { }"+%@/ ;

=?\^|~',

NOTE: A username cannot be changed after the account is created.

b. Administrator: If set to

True

, this account has Administrator-level access to the unit and can

change any setting.

c. Control: If set to True, this account has Control-level access. Setting Administrator to

True

will

automatically set Control to

True

as well. Setting this to

False

makes the account a View-only

account.

d. New Password: Account password may be up to 24 characters long, are case-sensitive and may

not contain spaces.

e. Account Status: Set the account to

Enabled

Disabled

. Disabling an account prevents it from

being used to log in, but does not delete it from the account list.

3. Click

Save

User Account Types

• Administrator: Administrator accounts (accounts with both administrator and control authority set

True

, as above) have full control over all available functions and settings on the device, including

the ability to modify system settings and add, modify or delete other users' accounts.

• Control: Control accounts (accounts with only control set to

True

) have control over all settings

pertaining to the device's sensors. They can add, modify or delete alarms and warning events and

notification actions and can change the names or labels of the device and its sensors. Control

accounts cannot modify system settings or make changes to other users' accounts.

• Enabled: If both administrator and control are set to

False

, the account is an Enabled account, which

is View-only. The only changes, an Enabled account is permitted to make are changing their own

account's password and changing the preferred language for their own account. Enabled accounts

cannot change any device or system settings.

• Guest: Any user that views the unit's web page without logging in is automatically viewing the unit as

Guest. By default, the Guest account is a View-only account and cannot make changes to any

settings, although the administrator can elevate the Guest account to control-level access if desired,

allowing anyone to make changes to names, labels, alarm events and notifications without logging in.

The Guest account cannot be deleted but can be disabled to require log in for viewing system

status.

To change a user password:

1. Log in to your account.

2. Click your

Username

in the top right corner of the page.

3. Enter a new password and click

Save

Vertiv™ | Intelligent Rack PDU Installer/User Guide

Figure 3.11 Change User Password Page

Network

The unit’s network configuration is set on the

Network

tab of the System menu. Settings pertaining to the

unit’s network connection are:

• Hostname: The hostname may be used as a method for device identification on the network.

• Protocol: Click on the IPv6 drop-down menu, select

Enabled

Disabled

and click on

Save

• Interfaces: Used to configure the IP address of the rPDU, enable/disable DHCP and to view Link State

and Uptime. The device supports up to eight user-configured IP address entries.

• Ports: Used to view and/or modify Ethernet port settings and RSTP status of each port on the rPDU.

• Routes: Displays configured routes and is where you will set your Gateway address for the rPDU.

Default routes are distinguished by a

destination

0.0.0.0

"::"

, with a Prefix of

and Interface of

all

Only one default route can exist for IPv4 and one for IPv6.

• DNS: Allows the unit to resolve host names for email,

NTP

and

SNMP

servers.

• Bridge Priority: Click on the Bridge Priority drop-down menu, select

Value

and click on

Save

3 Setup 37

Figure 3.12 Network Configuration Page

Vertiv™ | Intelligent Rack PDU Installer/User Guide

To edit the interfaces parameters:

1. Click the

Modify

icon

2. Modify desired fields.

a. Label -

Change

the desired name of the selected interface.

b. Enable -

Enable/Disable

the selected interface. If only one interface is available, disabling the

interface restricts access to the device requiring a network reset.

c. DHCP -

Enable/Disable

DHCP on the selected interface.

3. Click

Save

NOTE: Any changes made to the network interface settings take effect once the

Save

button is

clicked. If you have changed the IP address, it will appear as if the unit is no longer responding because

the browser will not be able to reload the web page. Close the browser window, type the new IP address

into the browser's address bar and the unit will be accessible.

To add a new IP Address:

1. Click the

Add

icon.

2. Enter the

IPv4

IPv6

Address and Prefix/Subnet Mask into appropriate fields. Up to 8 IP

addresses can be statically assigned.

3. Click

Save

To modify an existing IP Address:

1. Click the

Modify

icon.

2. Edit the IP address and Prefix/Subnet Mask fields as needed.

3. Click

Save

To modify port settings:

1. Click the

Modify

icon.

2. Enter the appropriate information.

a. Change port label if desired.

b. Enable/Disable port.

c. Assign STP cost. This designates this interface's contribution to the root path cost, when it

serves as the root port.

3. Click

Save

To add a new route:

1. Click the

Add

icon.

2. Enter the appropriate information.

a. Destination IP address for desired route.

b. Enter Prefix for desired route

c. Enter Gateway IP address.

d. Select Interface that route applies.

3. Click

Save

3 Setup 39

To modify an existing route:

1. Click the

Modify

icon.

2. Edit the desired fields.

3. Click

Save

To add a new DNS Server Address:

1. Click the

Add

icon.

2. Enter the IP of the desired DNS server. Up to two DNS servers can be added.

3. Click

Save

To modify an existing DNS Server Address:

1. Click the

Modify

icon.

2. Edit the DNS Server Address field as required.

3. Click

Save

To change RSTP settings:

1. Change the settings, as desired.

a. Enable: Enable or Disable RSTP protocol

b. Mode: RSTP mode supports falling back to STP when necessary.

c. Click on the

Bridge Priority drop-down

menu, select the appropriate Value and click on

Save

d. Max Hops: Used when mode enabled to RSTP.

e. Hello Time: The interval, in seconds, between periodic transmissions of configuration messages

by designated ports.

f. Max Age: The maximum age, in seconds, of the information transmitted by this interface, when

it serves as the root bridge. Set at 2 seconds.

g. Forward Delay: The delay, in seconds, used by bridges to transition the root bridge and

designated ports into forwarding mode. Set at 21 seconds

2. Click

Save

Web Server

The unit’s Web Server configuration can be updated on the

Web Server

tab of the System menu.

• HTTP Interface: Enables/disables access via HTTP. HTTPS interface is always enabled. Available

options are, enabled or disabled. It is not possible to disable the web interface completely.

• HTTP/HTTPS Server Port: Allows you to change the TCP ports which the HTTP and HTTPS

services listen to for incoming connections. The defaults are port 80 for HTTP and 443 for HTTPS.

Vertiv™ | Intelligent Rack PDU Installer/User Guide

Figure 3.13 HTTP Configuration Page

• SSL Certificate: Allows uploading your own signed SSL Certificate file to replace the default one. The

certificate can be either self-signed or signed from a Certification Authority. Certificate must be in

either

PEM

PFX

(PKCS12) format.

Figure 3.14 Secure Sockets Layer Certificate (SSLC)

• PEM Format

•The public certificate and private key must reside in the same file.

•The certificate must follow standard x.509.

•The private key must be generated with the

RSA

algorithm and in

PEM

format.

•The

PEM RSA

private key may be password secured.

•

PFX

Format - Support is also available for the PKCS12 standard (.pfx) which is a binary encrypted

combination of a

PEM

public certificate and its

PEM

private key. When generating a

PFX

certificate

you are prompted for an optional password.

Reports

The Reports page allows you to schedule the device to send recurring status reports.

NOTE: SMTP email must be set-up on the device via the email page.

To Add or Modify a scheduled report:

1. Click the

Add

Modify

icon.

2. Select the Days the report is to be sent.

3. Select the time of the day to Start sending reports.

4. Set the interval (in hours).

5. Select the Target email address for the reports to be sent.

6. Click

to save changes.

3 Setup 41

To Delete a scheduled Report:

1. Click on the

Delete

icon next to the report to delete.

2. Click

on the pop-up window to confirm.

Remote Authentication

The Remote Authentication page allows you to designate one of three authentication protocols for

remote access to the device. By default, the device uses the local database to authenticate users. Remote

authentication allows the device to authenticate a user with a remote server. If remote authentication fails,

it will revert to local authentication.

To change Remote Authentication settings:

Select the mode from the drop-down menu.

• Disabled - Local Authentication

• LDAP - Lightweight Directory Access Protocol

• TACACS+ - Terminal Access Controller Access Control System Plus

• RADIUS - Remote Authentication Dial-In User Service

LDAP

The Lightweight Directory Access Protocol (LDAP) can be set up through this menu.

NOTE: Knowledge of your LDAP server settings is required to set up the Geist™ rPDU device for this

remote authentication protocol. If you are not familiar with these settings, consult your LDAP server

administrator.

Configuration for remote authentication using LDAP.

• LDAP Server Address: Specify the host address for LDAP. The

HOST

can be an IPv4 address, an IPv6

address in brackets (e.g.,

[2001:0DB8:AC10:FE01::]

) or a host name.

• LDAP Server Port: Used to set the LDAP port number. The default port for LDAP is 389 - use for

Security Type

None

StartTLS

. Use 636 for Security Type

SSL

• LDAP Mode: From drop-down menu, select

Active Directory

OpenLDAP.

• Security Type: From drop-down menu, select

None

SSL

StartTLS

• Bind DN: Distinguished Name used to bind to the directory server. Blank string for Bind DN and

Password implies anonymous bind.

• Bind Password: Password used to bind to the directory server.

• Base DN: DN to use for the search base.

Vertiv™ | Intelligent Rack PDU Installer/User Guide

The remaining fields come from the NIS schema, defined in RFC2307. They are used to authenticate users

in LDAP. Leaving them blank will use the default value.

• User Filter: LDAP filter for selecting users.

• "uid" Mapping: Name of the server attribute that corresponds to the

uid

attribute in the schema.

• "uidNumber" Mapping: Name of the server attribute that corresponds to the

uidNumber

attribute in

the schema.

• Group Filter: LDAP filter for selecting groups.

• "gid" Mapping: Name of the server attribute that corresponds to the

gid

attribute in the schema.

• "memberUid" Mapping: Name of the server attribute that corresponds to the

memberUid

attribute in

the schema.

• Enabled Group: Users in this group have view-only privileges as described in the Users section of this

manual.

• Control Group: Users in this group have control privileges as described in the Users section of this

manual.

• Admin Group: Users in this group have admin privileges as described in the Users section of this

manual. LDAP users do not count toward minimum number of required Admin users.

Click

Save

The Enabled Group,Control Group and Admin Group fields tell how to map groups to user permissions. A

user must belong to one of these groups to access the device. If a user belongs to more than one group,

then the group with the highest permission is used.

Figure 3.15 LDAP Menu

3 Setup 43

TACACS+

The Terminal Access Controller Access-Control Plus Protocol (TACACS+) can be set up through this

menu.

NOTE: Knowledge of your TACACS+ server settings is required to set up the Geist™ rPDU device for

this remote authentication protocol. If you are not familiar with these settings, consult your TACACS+

server administrator.

Configuration for remote authentication using TACACS+.

Figure 3.16 TACACS+ Menu

• Primary Authentication Server: The primary authentication/authorization server, which can be an

IPv4 address, an IPv6 address in square brackets (e.g.,

[2001:0DB8:AC10:FE01::]

) or a host name. The

Primary Authentication Server is used for both authentication and authorization. This AA server

address/host name is required..

• Alternate Authentication Server: The alternate authentication/authorization server, which can be an

IPv4 address, an IPv6 address in square brackets or a host name. The Secondary Authentication

Server is used for both authentication and authorization.

• Primary Accounting Server: The primary accounting server, which can be an IPv4 address, an IPv6

address in square brackets or a host name. The Primary Accounting Server is optional. If configured,

the server is notified when a user is authorized.

• Alternate Accounting Server: The alternate accounting server, which can be an IPv4 address, an

IPv6 address in square brackets or a host name. The Secondary Accounting Server is optional. If

configured, the server is notified when a user is authorized.

• Shared Secret: The secret shared by client and server. The Shared Secret is required.

• Service: The value to use for the service field in TACACS+ requests. Valid options are

PPP

and

raccess

• Admin Attribute: A user with this attribute will have

admin

privileges as described in the Users

section of this manual. TACACS+ users do not count toward minimum number of required admin

users.

• Control Attribute: Users with this attribute will have control privileges as described in the Users

section of this manual.

Vertiv™ | Intelligent Rack PDU Installer/User Guide

• Enabled Attribute: Users with this attribute will have view-only privileges as described in the Users

section of this manual.

•Click

Save.

NOTE: The Attribute-Value Pairs (AVPs) returned by the server during authentication/authorization

determine the user permissions. The Group Attribute field tells the system which AVP contains the

user’s access group. If the AVP value matches the Admin Group field, then the user has Admin (full)

access. If the AVP value matches the Control Group field, the user has control access. If the AVP

matches the Enabled Group field, the user has view-only access. If no matches are found, then the user

will not have access to the unit. A blank Group field will not match any AVPs.

RADIUS

The Remote Authentication Dial-In User Service Protocol (RADIUS) can be set up through this menu.

NOTE: Knowledge of your RADIUS server settings is required to set up the Geist™ rPDU device for this

remote authentication protocol. If you are not familiar with these settings, consult your RADIUS server

administrator.

Configuration for remote authentication using RADIUS.

Figure 3.17 RADIUS Menu

• Primary Authentication Server: Enter the IP address of the primary

authentication/authorization/accounting server. The Primary Authentication Server can be an IPv4

address, an IPv6 address in square brackets

(e.g.,

[2001:0DB8:AC10:FE01::]

) or a host name. The Primary Authentication Server is used for

authentication, authorization and accounting. This AA server is required.

• Alternate Authentication Server: If applicable, enter the IP address of the alternate

authentication/authorization/accounting server. The Alternate Authentication Server can be an

IPv4 address, an IPv6 address in square brackets (e.g.

[2001:0DB8:AC10:FE01::]

) or a host name. The

Secondary Authentication Server is used for authentication, authorization and accounting.

• Shared Secret: Enter a secret word or passphrase in the Shared Secret field (applies to both primary

and secondary authentication and accounting servers). The Shared Secret is required.

• Group Attribute: Identifies the Attribute-Value Pair (AVP) that tells which access group the user

belongs to. Valid values are

filter-id

and

management-privilege-level.

• Admin Group: A user belonging to this group has Admin privileges as described in the Users section

of the manual.

3 Setup 45

• Control Group: A user belonging to this group has Control privileges as described in the Users

section of the manual.

• Enabled Group: A user belonging to this group has Enabled (view-only) privileges as described in the

Users section of the manual.

•Click

Save.

NOTE: The Attribute-Value Pairs (AVPs) returned by the server during authentication/authorization

determine the user permissions. The Group Attribute field tells the system which AVP contains the

user’s access group. If the AVP value matches the Admin Group field, then the user has Admin (full)

Access. If the AVP value matches the Control Group field, the user has Control access. If the AVP

matches the Enabled Group field, the user has view-only access. If no matches are found, then the user

will not have access to the unit. A blank Group field will not match any AVPs.

Display

The unit's display configuration can be changed via the Display tab of the System menu. Settings

pertaining to the unit’s display are:

• Display Mode: Sets the unit to display current or total power (displayed as kW) on the local LED

display.

• VLC: Allows user to enable or disable VLC mode from GUI (default is disabled).

Figure 3.18 Display Mode/VLC Configuration Page

Time

The unit's time and date are set on this page.

Figure 3.19 Time Configuration Page

Vertiv™ | Intelligent Rack PDU Installer/User Guide

There are two mode available: Network Time Protocol (NTP) and Manual.

•NTP synchronizes the unit's time and date to the specified time zone using listed NTP Servers. NTP

servers can be reconfigured.

•In Manual mode, the date and time must be typed as indicated on the left of the field.

SSH

The SSH menu allows you to configure settings for SSH access to the device.

Figure 3.20 SSH Configuration Page

• SSH Access: Enables/disables access via SSH.

• SSH Port: Allows you to change the port which the SSH service listen to for incoming connections.

The default is Port 22.

USB

The USB menu allows you to configure settings for the USB port on the unit.

• USB : Enables/disables port.

Serial Port

The Serial Port menu allows configuring settings for the serial port, enabling or disabling the port and

setting the baud rate.

1. Click on the Serial Port drop-down menu, select

Enabled

Disabled

2. Click on the Baud Rate drop-down menu, select the

Baud Rate

value.

3. Click on

Save

Figure 3.21 System drop down, menu – Serial Port

3 Setup 47

The unit is capable of sending email notifications to up to 10 email addresses when an alarm or warning

event occurs.

Figure 3.22 Email Configuration Page

NUMBER DESCRIPTION

1 Add new target email address

2 Modify existing target email address

3 Delete existing target email address

4 Send test email

Table 3.9 Email Configuration Page Descriptions

To send emails, the unit must be configured to access the mail server, as follows:

• SMTP Server: The name or IP address of a suitable SMTP or ESMTP server.

• Port: The TCP port which the SMTP Server uses to provide mail services. Typical values would be

Port 25 for an unencrypted connection or 465 and 587 for a TLS/SSL-encrypted connection, but

these may vary depending on the mail server's configuration.

• From Email Address: The address which the unit's emails appear to come from. Many hosted email

services, such as Gmail, require this to be the email account of a valid user.

• Username and Password: The login credentials for the email server. If your server does not require

authentication (open relay), these can be left blank.

Microsoft Exchange servers must be set to allow SMTP relay from the IP address of the unit. In addition,

the Exchange server must be set to allow Basic Authentication, so the unit is able to log in with the AUTH

not supported.

Vertiv™ | Intelligent Rack PDU Installer/User Guide

To add or modify a target email address:

1. Click the

Add

Modify

icon.

2. Enter the email address and then click

Save

To delete a target email address:

1. Click the

Delete

icon next to the address you wish to delete.

2. Click

Delete

on the pop-up window to confirm.

To send a test email:

1. Click the

Test email

icon next to the address you wish to test.

2. A pop-up window indicates the test email is being sent, click

to dismiss the pop-up.

SNMP

Simple Network Management Protocol (SNMP) can be used to monitor the unit's measurements and

status, if desired. SNMP V1, V2c and V3 are supported. In addition, alarm traps can be sent to up to two IP

addresses.

Click on

ZIP

to download the

mib.zip

file containing both the MIB file and the CSV-formatted spreadsheet.

Figure 3.23 SNMP Configuration Page

The SNMP-V1/V2c and SNMP-V3 Service can be enabled or disabled independently . The service listens

for data-read requests on Port 161, which is the usual default for SNMP services; this can also be changed.

The Management Information Base (MIB) can be downloaded from the unit, if needed, via the MIB link at

the top of the web page. Clicking this link downloads a

.zip

archive containing both the MIB file itself and a

CSV-formatted spreadsheet describing the available OIDs in a human-readable form to assist you in

setting up your SNMP manager to read data from the unit.

3 Setup 49

Figure 3.24 SNMP Users Configuration Page

The Users section allow configuring the various Read, Write and Trap communities for SNMP services.

You can also configure the authentication types and encryption methods used for the SNMP V3 if

desired. Click the

Modify

icon to change settings.

Traps allow defining the SNMP types that you wish to be sent and the IPaddress of the recipients.

To configure a trap destination:

1. Locate the

Traps

section of the SNMP page and click the

Add

icon.

2. Enter the IP address where the trap should be sent to in the Host field.

3. Change the Port number if required.

4. Select the trap version to be used (V1, V2c or V3) and click

Save

A test trap may be sent by clicking on the

Test

icon next to the Host IP address. You can also

update/change the Trap settings. Click the

Modify

icon next to the Host IP address.

SYSLOG

Syslog data can be captured remotely but must first be set up and enabled using the Syslog page.

NOTE: This function is primarily useful for diagnostic purposes and should be left disabled unless

advised to enable it by Vertiv™technical support for troubleshooting a specific issue.

Admin

The Admin page allows the administrator of the device to save their contact information along with the

device description and location. Once the information is saved by an administrator, other (non-

administrator) users can view the information. Also, the System Label can be modified on this page. This

label is typically shown in the title bar of the web browser's window and/or on the browser tab(s) currently

viewing the device.

Locale

The Locale page sets the default language and temperature units for the device. These settings will

become the default viewing options for the device, although individual users can change these options for

their own accounts. The guest account will only be able to view the device with the options set here.

Vertiv™ | Intelligent Rack PDU Installer/User Guide

Utilities

The Utilities page in the System menu provides the ability to restore defaults, reboot the communication

system and perform firmware updates.

The Restore Defaults section permits restoring the unit's settings to the factory defaults. There are two

options:

• All Settings: Erases all of the unit's settings, including all network and user accounts settings,

effectively reverting the entire unit back to its original out-of-the-box state.

• All Non-Network Settings: Erases all settings except the Network and User Accounts.

The Reboot section allows the user to perform a system reboot. This function will not affect power delivery

to connected equipment. Use the Firmware Update section to load firmware updates into the unit.

Firmware updates, when available, can be found on the Vertiv™ website:

Vertiv.com/Firmware-Support

You can also subscribe to a mailing list, to be notified of when firmware updates become available.

Firmware updates typically come in a

.zip

archive file containing several files including the firmware

package itself, a copy of the SNMP MIB, a

readme

text file explaining how to install the firmware and

various other support files as needed. Be sure to unzip the archive and follow the included instructions.

NOTE: Firmware updates can be performed via HTTP interface only. Updates over the HTTPS interface

are not currently supported.

To update firmware via a USB flash drive:

1. Download latest firmware from

https://www.vertiv.com/en-us/support/software-download/power-

distribution/geist-upgradeable-series-v5-firmware/

and unzip the folder.

2. Get a USB flash drive and format it as FAT32.

3. Create a directory on the USB flash drive called

FIRMWARE

(must be uppercase).

4. Open the unzipped firmware folder and copy the

.firmware

file.

5. Paste this file into the

FIRMWARE

folder on the flash drive.

6. Plug the USB flash drive into PDU.

During the update, the IMD will stop scrolling data. After the update is complete, a boot message will

appear on the display. After reboot is complete, the IMD will resume scrolling data on the display.

3 Setup 51

3.3.4 Help Tab

Info Page

The Info Page displays the unit's current configuration information, including the device name and ID, the

type of IMD installed, the unit's current firmware versions and network information. Manufacturer support

information is also here.

Figure 3.25 Info Page

Vertiv™ | Intelligent Rack PDU Installer/User Guide

4 VERTIV™ INTELLIGENCE DIRECTOR

Vertiv™Intelligence Director brings a single unified viewing layer for small deployments of Vertiv Geist™

rPDUs, Vertiv UPSs and environmental sensors. When deployed, Vertiv Intelligence Director offers

enhanced functionality, using the rack PDU not as a stand-alone device but as a gateway to understand

the broader device ecosystem in which it’s installed.

4.1 Aggregation

The initial element of Veritiv Intelligence Director, available with Vertiv™ Geist™ rPDUs running firmware

5.3.0 or later, is called Aggregation. This single element allows you to:

•Use a single IP address assigned to the Master rPDU to monitor up to 50 devices, the master and 49

downstream devices.

•Allow rPDUs downstream from the master to self-configure network settings.

•Create aggregated measurements like total rack power and total row power, including averages,

minimums and maximums.

4.2 Master rPDU

Aggregation requires the designation of a Master rPDU, deployed with IMD-3E and IMD-03E. The IMD of

the master device facilitates and configures the device network, the interconnected array of Vertiv™

Geist™ rPDUs, Vertiv™ UPS and environmental sensors, while aggregating select data points from these

devices. It also interacts with the management network for monitoring and management of itself and its

downstream devices.

Figure 4.1 Sample Configuration

The IMD-3E is the default intelligence card for Vertiv™Geist™ GU2 rPDUs, which include switched (model

numbers beginning with MNS), outlet monitored (model numbers beginning with MNR) and switched

plus outlet monitored (model numbers beginning with MNU) products. To serve as the Master rPDU,

rPDUs with a legacy intelligence card must first be upgraded to the IMD-3E.

4.3 Network Configuration

Aggregation is enabled on the Master rPDUs only. As each master can support up to 49 downstream

devices, the number of masters depends on the overall size of the installation and the preferred network

architecture.

The Master rPDU must be commissioned before it is connected to the primary management network or to

the downstream device network. This commissioning is typically accomplished using a laptop or local

machine connected directly to Port 1 on the IMD.

After local connectivity is established, you can commission the Master rPDU.

To commission the master rPDU:

1. Use the top drop-down menu to navigate to

System>Locale

2. Select the appropriate Default Language and Temperature Units from the drop-down menus.

These settings are pushed to the downstream devices in its network.

3. Browse to

Network>Protocol

. For IPv6, choose

Enabled

from the drop-down menu.

4. Browse to

System>Utilities.

Change the settings as desired.

a. Aggregation: Choose

Enabled

from the drop-down menu.

b. Managed Device Username: Defines the username configured on all downstream devices.

c. Managed Device Password: Defines the password configured on all downstream devices.

5. Enter the new password; verify the password and click

OK.

6. Click

Submit

. If Aggregation is enabled, the Device Tab appears next to the Sensors Tab on the top

navigation bar.

After Aggregation is enabled on the Master rPDU, configure the remaining Master rPDU settings. Connect

the Master rPDU to management network (Port 1) on the IMD and the device network (Port 2).

NOTE: The Master rPDU has a built-in DHCP network to assign addresses to its downstream devices.

This DHCP network uses

192.168.124.0/24

addresses and they cannot be used for the management

network.

4.3.1 Downstream Devices

In the initial release of aggregation, downstream devices are defined as rPDUs within the Geist™ GU1 and

GU2 product platforms as well as Vertiv™ Liebert® GXT4, GXT5 and PSI5 UPS and USB-connected Vertiv™

VRC cooling. All Geist™ GU1 rPDUs must be running firmware Version 3.3.3 or later; Geist™' GU2 rPDUs

must be running Version 5.3.0 or later. If the rPDUs are newly ordered and have never been configured

with network settings, they are ready for aggregation out-of-the-box. If the rPDUs have been deployed in

a computing environment and commissioned with local LAN settings and user accounts, each rPDU must

be reset to its factory defaults using the Utilities page. The Master rPDU then pushes configuration data

to the downstream devices, including:

•Network settings

•Default Language and Temperature Units

•Username

•Password

Vertiv™ | Intelligent Rack PDU Installer/User Guide

To set up a new installation with one Master rPDU:

1. Install downstream rPDUs in racks and power-on the racks.

2. Daisy-chain the downstream rPDUs to one another where appropriate using ports labeled 1 and 2

on the IMD.

•If daisy-chaining, ensure that no more than 100 rPDUs are chained together.

•If connecting daisy-chains to a network switch, no daisy-chain should be longer than 20 rPDUs.

•A star network or other design is also acceptable in lieu of a daisy-chain.

3. Install the Master rPDU in rack . Using a laptop or a local machine, connect to Port 1 to configure

Aggregation.

4. Connect the Master rPDU to the management network using Port 1.

5. Connect the Master rPDU to the downstream network using Port 2.

To set up an existing installation with one Master rPDU:

NOTE: Use the following instructions if existing Geist™ rPDUs are connected in a daisy-chain.

1. Designate a Master rPDU and disconnect it from the management network.

2. Reset all downstream rPDUs to factory default settings. The physical ethernet connections in the

daisy-chain can remain the same; however, if previously connected in a looped configuration, the

final PDU in the chain should be disconnected from the network switch.

3. Enable Aggregation on the Master rPDU.

4. Connect the Master rPDU to the management network using Port 1.

5. Connect the Master rPDU to the downstream network using Port 2.

Multiple Master rPDUs

For installations with multiple Master rPDUs, keep in mind that each device network must operate as a

stand-alone, isolated network. Consider a 200 rPDU example, represented in the Sample Network

Configuration on page 56. This installation would require a minimum of 4 Master rPDUs, each operating its

own stand-alone device network. Each master is visible on the management network and acts as a DHCP

server for its downstream devices. A user on the management network can navigate through each master

to reach the interface of a downstream device. Other considerations may affect the quantity of Master

rPDUs. If you have a row network architecture, you may prefer 1 Master rPDU at the start of each row, as

opposed to a master that traverses several rows. Depending on how these 200 cabinets are divided into

rows, you may have more than 4 Master rPDUs. When the configuration is decided, follow the appropriate

process for aggregation.

4 Vertiv™ Intelligence Director 55

Figure 4.2 Sample Network Configuration

NOTE: RSTP is disabled by default in Geist™ GU1 rPDUs running 3.4.0 or later and Geist™ GU2 rPDUs

running 5.3.3 or later. In previous firmware, RSTP is enabled on both platforms. Aggregation does not

support RSTP. Leaving RSTP enabled limits an rPDU daisy-chain within aggregation to 40 devices.

Disabling RSTP on downstream devices will remove the 40-device limitation.

4.4 Views

When communication is established between the master and downstream devices, several views are

automatically populated within the user interface. The new views are under the Device Tab in the top

navigation bar are:

•Summary

•Groups

•List

•Group Configuration

Vertiv™ | Intelligent Rack PDU Installer/User Guide

Figure 4.3 Device Tab

4.4.1 Summary

The summary view aggregates data from all downstream devices, presenting a concise outline of relevant

power, environmental and alarm details.

Rack PDUs

The rPDU network is summarized by the following data points:

• Energy: The total rPDU energy within the device network.

• Power Sum: The total rPDU power load within the device network.

• Power Minimum: The lowest group rPDU power load within the device network.

• Power Maximum: The highest group PDU power load within the device network.

• Power Average: The average group PDU power load within the device network.

NOTE: These readings are repeated per phase (shown when only 3-phase rPDUs present).

UPS

The UPS network is summarized by the following data points:

• Power Maximum: The highest group UPS power load within the device network.

• Power Average: The average group UPS power load within the device network.

• Battery Autonomy Minimum: The lowest UPS battery run time within the device network.

• Battery Autonomy Average: The average UPS battery run time within the device network.

• Battery Charge Minimum: The lowest UPS battery charge within the device network.

• Battery Charge Average: The average UPS battery charge within the device network.

4 Vertiv™ Intelligence Director 57

Environmental (Sensors)

The Environmental category is summarized by the following data points:

NOTE: Humidity values are blank when temperature-only sensors are used.

• Temperature Minimum: The lowest temperature within the device network.

• Temperature Maximum: The highest temperature within the device network.

• Temperature Average: The average temperature within the device network.

• Humidity Minimum: The lowest humidity within the device network.

• Humidity Maximum: The highest humidity within the device network.

• Humidity Average: The average humidity within the device network.

Notifications

Notifications shows outstanding alarms from devices in the device network.

4.4.2 Groups

After groups are established within the Group Configuration, the Groups view summarizes power and

environmental data. The available data points are:

Group rPDU

• Energy: The total rPDU energy within the group.

• Power Sum: The total rPDU power load within the group.

• Power Minimum: The lowest rPDU power load within the group.

• Power Maximum: The highest rPDU power load within the group.

• Power Average: The average rPDU power load within the group.

NOTE: These readings are repeated per phase (shown when only 3-phase rPDUs present).

Group UPS

• Power Maximum: The highest UPS power load within the group.

• Power Average: The average UPS power load within the group.

• Battery Autonomy Minimum: The lowest UPS battery run time within the group.

• Battery Autonomy Average: The average UPS battery run time within the group.

• Battery Charge Minimum: The lowest UPS battery charge within the group.

• Battery Charge Average: The average UPS battery charge for the group.

Vertiv™ | Intelligent Rack PDU Installer/User Guide

Group Environmental

• Temperature Minimum: The lowest temperature within the group.

• Temperature Maximum: The highest temperature within the group.

• Temperature Average: The average temperature within the group.

• Humidity Minimum: The lowest humidity within the group.

• Humidity Maximum: The highest humidity within the group.

• Humidity Average: The average humidity within the group.

4.4.3 List

The list view presents an inventory of all devices within the master’s Device network.

The inventory is subdivided into in the following categories:

Rack PDUs

All rPDUs in the device network roll into this category and present the following data points:

• State: The status of the rPDU. Status is either normal or unavailable (loss of connectivity).

• Name: rPDU label. Clicking on the name opens a browser tab for device access.

• Group: The group name. If there is no user-created group, the group name is Unassigned.

• Energy: rPDU energy.

• Power: Total rPDU power load.

UPS

All UPS devices in the device network roll into this category and present the following data points:

• State: The status of the UPS. Status is either normal or unavailable (loss of connectivity).

• Name: UPSlabel. Clicking on the name opens a browser tab for device access.

• Group: The group name. If there is no user-created group, the group name is Unassigned.

• Input Voltage: UPS input voltage.

• Output Source: The UPS operating mode which can be: Normal, Bypass, Battery, Booster, Reducer,

Off or Other.

• Status: The battery status, which can be: Normal , Low, Depleted or Unknown

• Battery Autonomy: UPS battery run time.

• Charge: UPS battery charge.

4 Vertiv™ Intelligence Director 59

ENV (Environmental Sensors)

All Environmental Sensors in the device network roll into this category and present the following data

points:

• State: The status of the Sensor. Status is either normal or unavailable (loss of connectivity).

• Name: Sensor label. Clicking on the name opens a browser tab for device access.

• Group: The group name. If there is no user-created group, the group name is Unassigned.

• Device: Displays the sensor parent rPDU label and MAC address.

• Temperature: Temperature reading (main temperature only with GT3HD sensors).

• Humidity: Humidity reading. This field is blank if only SRT temperature sensors are deployed.

Environmental sensors, report their values through the MIB of the rPDUs to which they are connected.

They are not standalone sensors with their own IP addresses. In this release, the only valid sensors are

rPDU-connected Geist™ SRT, Geist™ GTHD or GTHD3 sensors.

NOTE: The name of any device can be customized by logging into the device and editing through the

Configuration icon.

NOTE: To delete a device which has been removed from the network, select the

Trash

icon next to the

device. Selecting

Delete

deletes the device and any Environmental Sensors connected to it.

4.4.4 Group Configuration

On the Group Configuration page, you can define groups of devices for data aggregation and analytic

purposes. A group often refers to a unit of measure within a computing environment that includes

multiple downstream devices, such as a rack with two rPDUs, UPS devices and environmental sensors or a

row within a facility that includes multiple racks.

Figure 4.4 Group Configuration

Vertiv™ | Intelligent Rack PDU Installer/User Guide

The Group Configuration page lists the automatically discovered devices under the

Unassigned

column

showing:

•One or more icons defining the type of device such as, rPDU, Environmental Sensor or UPS.

•Device label

•Serial number

•MAC address

•ID

Configured groups of devices (typically representing racks) are shown on the left.

To create a new group:

1. Click the

plus sign (+)

to the left of Groups, to add a new group under Groups.

2. Click the

Configuration

icon to change the name of the group label.

3. Edit the label, if desired, and click

Save

4. To assign devices to the group, highlight the desired group (within Groups category) and highlight

the desired devices within the Unassigned category.

5. Click the

Right Arrow

to assign the devices to the group.

6. Repeat the process for other groups, as needed.

NOTE: Groups can be reordered by clicking the up or down arrows.

To remove devices from a group:

Highlight the devices and click the

Right Arrow

To delete a group:

Click the

Trash

icon next to the group name.

NOTE: Deleting a group returns all of its devices to the Unassigned group.

4.5 Interfaces

Downstream Devices are combined to form groups, each device retains its own stand-alone user interface

and SNMP data.

To access the Downstream Device User Interface:

1. From the List view, use your mouse to hover over the entries in the table. A yellow highlight and

text box appear as you pause on the devices. The text box reveals the IP address of the device.

2. Navigating to IP address to access the web server interface of the device.

-or-

3. Click the name of the device to access the hyperlink to the web server.

To access Downstream Device SNMP Data:

SNMP Data is available using port-mapped access through the master device IP address using the

Geist™_v5 MIB. The MIB file is downloadable from the master device SNMP page.

4 Vertiv™ Intelligence Director 61

1. From the List view, use your mouse to hover over the entries in the table. A yellow highlight and

text box appear as you pause on the devices. The text box reveals the SNMP port of the device.

2. In the MIB browser, enter the SNMP port listed.

NOTE: Software to monitor individual downstream devices must be capable of accepting a unique

SNMP port number per monitored device.

Figure 4.5 MIBBrowser

4.5.1 Group SNMP Data

Aggregated data, both summary (such as total kWh and maximum kW) and group data is available

through the master rPDU IP address and default SNMP Port 161. Within the MIB structure, the folders

differentiate the data points available from the Master rPDU:

• v5: Contains data points for the individual Master rPDU.

• Oneview: Contains data points for aggregated data across all downstream devices.

4.5.2 Tips and Troubleshooting

•Summary and Group aggregated data cannot be used to generate SNMP traps.

•SNMP community names are configured on each device. Follow the device links displayed on the List

page under the Devices menu and logging into each device to configure SNMP.

•Do not change the default SNMP port number when logged into a downstream device.

•SNMP traps and alarms are routed from a device to the management network through the master

device.

Vertiv™ | Intelligent Rack PDU Installer/User Guide

5 APPENDICES

Appendix A: Technical Support

A.1 Resetting an rPDU

If the rPDU loses communication, the processor may be manually rebooted without affecting power to the

outlets. Pressing the reboot button on the face of the IMD will cause the processor to reboot. The web

interface will remain off-line during boot-up. For more information, see Interchangeable Monitoring Device

(IMD-03X) on page 21

A.2 Service and Maintenance

No service or maintenance is required. Do not attempt to open the rPDU or you may void the warranty.

There are no user-serviceable parts inside the rPDU other than the field-replaceable Interchangeable

Monitoring Device (IMD). Geist™recommends removing power from the unit before installing or removing

any equipment.

The IMD is designed to be field-replaceable by properly trained and qualified service personnel only. The

IMD is designed to be replaced while the rPDU is still connected to AC mains power. Please refer the

Geist™ rPDU IMD Modules Replacement Guide for more information.

A.3 More Technical Support

Technical support can be found at

www.Vertiv.com/support

Americas

• Website:

www.Vertiv.com/geist

• Email: geistsupport@vertiv.com

• Telephone: 1-888-630-4445

Europe and Middle East

• Technical Support:

www.Vertiv.com/en-emea/support

• Email: eoc@Vertiv.com

• Telephone: 44 1823 275100

Asia

• Telephone (English): 1-888-630-4445 (US number)

• Telephone (Chinese): +86 755 2354 6462

A.4 Using Microsoft Exchange as an SMTP server

If your facility uses a Microsoft Exchange email server, it can be used by the IMD rPDU to send alarm and

warning notification emails. However, the Exchange server may need to be configured to allow SMTP

connections from the unit first, as later version of Exchange server often have SMTP services or basic

authentication disabled by default. If you encounter difficulties in getting your IMD rPDU to send emails

through your Exchange server, the following notes may be helpful in resolving the problem.

NOTE: These suggestions apply only if you are using your own, physical Exchange server. Microsoft’s

hosted Office 365 service is not compatible with the IMD rPDU using firmware versions prior to v3.0.0,

as Office 365 requires a StartTLS connection. Firmware versions 3.0.0 and beyond have support for

StartTLS and are compatible with Office 365.

1. First, since the IMD rPDU cannot use IMAP or Microsoft’s proprietary MAPI/RPC Exchange/Outlook

protocols to send messages, you will need to enable SMTP by setting up an SMTP Send Connector

in the Exchange server. More information on setting up an SMTP Send Connector in Exchange can

be found at this Microsoft TechNet article:

http://technet.microsoft.com/en-

us/library/aa997285.aspx

2. Second, you may need to configure your Exchange server to allow messages to be relayed from the

monitoring unit. Typically, this will involve turning on the

Reroute incoming SMTP mail

option in

the Exchange server’s Routing properties, then adding the IMD rPDU’s IP address as a domain

which is permitted to relay mail through the Exchange server. More information about enabling

and configuring SMTP relaying in Exchange can be found at this Microsoft TechNet article:

http://technet.microsoft.com/en- us/library/dd277329.aspx

The SMTP AUTH PLAIN and AUTH LOGIN authentication methods for logging in to the server are often

no longer enabled by default in Exchange Server; only Microsoft’s proprietary NTLM authentication

method is enabled.

To re-enable the AUTH LOGIN method:

1. In the Exchange console select

Server Configuration - Hub Transport

2. Right-click the

Client Server

and select

Properties

3. Select the

Authentication

Tab and click the

Basic Authentication

checkbox.

4. Deselect the

Offer Basic only after TLS

checkbox.

Apply

Save

and click

Exit

NOTE: You may need to restart the Exchange service after making these changes.

Finally, once you have enabled SMTP, relaying and the AUTH LOGIN Basic Authentication method, you

may also need to create a user account specifically for the IMD rPDU to log into. If you have already

created an account prior to enabling the SMTP Send Connector or you are trying to use an account

created for another user and the IMD rPDU still cannot seem to connect to the Exchange server, the

account probably did not properly inherit the new permissions when you enabled them as above. This

tends to happen more often on Exchange servers that have been upgraded since the account(s) you are

trying to use were first created, but can sometimes happen with accounts when new connectors and

plugins are added regardless of the Exchange version. Delete the user account, then create a new one for

the monitoring unit to use and the new account should inherit the SMTP authentication and mail-

relaying permissions correctly.

If none of the above suggestions succeed in allowing your IMD rPDU to send mail through your Exchange

server, then you may need to contact Microsoft’s technical support for further assistance in configuring

your Exchange server to allow SMTP emails to be sent from a third-party, non-Windows device through

your network.

Vertiv™ | Intelligent Rack PDU Installer/User Guide

Appendix B: Visible Light Communication (VLC)

The VLC feature on Upgradeable PDUs allows the user to unobtrusively upload product information into a

database management system via the embedded LED display. This product feature provides new

opportunities to monitor and enable larger amounts of rPDU power data to be obtained via the unit’s

display and all without physically connecting to the rPDU.

Using a smart device, such as a smart phone or tablet with the Vertiv™ Mobile application installed, it is

possible to capture data from the LED display when running in VLC mode, which can be enabled/disabled

easily by using the display buttons on the device or using the GUI on monitored units.

By default, the Upgradeable LED display will provide the current (Amps) per input and circuit breaker. By

enabling the VLC feature, the LED Display will scroll through a set of alpha-numeric characters. Utilizing

the Vertiv Mobile app the user can scan the LED display and retrieve additional power metrics including

volts, amps, watts, volt-amps and kilowatt hours. Before VLC, the power data was only available on

network-connected PDUs by viewing the GUI or using external software to collect and display the data.

The VLC feature provides this data on local metered only devices, as well as on monitored units without

the need to connect them to the network.

WARNING! This feature, when enabled, causes the unit to emit flashing lights, text or number

sets at frequencies that can induce adverse reactions. Persons susceptible to adverse

reactions as a result of such emissions or persons who have been diagnosed with epilepsy

should not utilize or enable this feature.

To enable VLC:

Press the center button 3 times in under 2 seconds.

NOTE: With the release of firmware Version 3.3.0, Vertiv™has added support for the VLC feature to all

standard Metered and Monitored Upgradeable products, as well as a significant majority of its

engineered-to-order range. Certain custom models of Upgradeable PDUs may not have VLC support

within the Vertiv™ Mobile app. If your custom product is not supported by the Vertiv™ Mobile app it will

be noted in the product specification sheet. Please contact your sales representative if you would like

assistance with this. The latest firmware updates can be found at

Vertiv.com/Firmware-Support

Vertiv™ Mobile app is available in the App Store for iOS devices.

Appendix C: Vertiv™ Mobile App

The Home screen allows the user to initiate a device scan or export data to a CSV file.

• Scan: Turns on scan mode to allow the app to capture VLC data from the Upgradeable rPDU.

• Export: Pressing the

Export

button will launch the smart device's email app and attach the

Database

.csv

file to be emailed to desired recipients.

5 Appendices 65

Figure A.1 Vertiv Mobile App Home Screen

To scan an rPDU

1. Press

Scan

on the Home screen to load the Vertiv Mobile app scanning engine.

Figure A.2 Vertiv Mobile App Scanning Screen

Vertiv™ | Intelligent Rack PDU Installer/User Guide

2. Position the smart device so that the characters on the LED display are between the lines on the

screen. The LED characters should be clear and in focus. If the characters appear too bright or too

dark, the exposure setting can be adjusted by using the sliding bar at the bottom of the screen.

The app captures data as soon as it can see the LED characters inside the horizontal lines. Scan

progress is displayed as a percentage. If the scan percentage is increasing slowly or resetting, the

device has trouble in reading the data properly. In this case, try repositioning the device to improve

results. After the scan reaches 100%, the app loads the Readings page.

NOTE: When a device is scanned for the first time, the Vertiv Mobile app recognizes the serial number

as being new and ask if it should be added to the database as shown in the following image. If the

device is added to the database, all future scanned data is added to the device serial number record.

Figure A.3 Vertiv™ Mobile App New Device Screen

C.1 Scanning Tips

The VLC feature relies upon the light for its communication. If the lighting around the display or the

lighting going through the lens of the smart device is not optimal, then the OCR (Optical Character

Recognition) will struggle to capture the data. When looking at the smart device screen during capture,

you can see if the characters of the LED display are in focus and bright, if they are blurred, with a

surrounding glow or are faint, then the VLC capture will fail to work quickly and may be unable to scan at

all.

Proper capture methods

•High Contrast between LED display and background

•No glow around LED display characters

•LED display characters between horizontal guidelines

5 Appendices 67

Improper capture methods

•Blurry image

•Overexposed image

•Glow around LED display characters

•LED display characters not between horizontal guidelines

C.2 Failure modes and Errors

The Vertiv™Mobile App retries a scan 2 times, if the scan cannot be completed. The scan fails, if the smart

device is unable to correctly capture all the VLC data correctly. One of the following messages is

displayed:

• Scan failed: Incorrect set configuration.

• Scan failed: Incorrect data sequence.

• Scan failed: Adjust your position or the exposure and try again.

Press

Cancel

to return to the Home screen or

Retry

to return to the Scan page.

C.3 Readings

The Readings screen displays scan results for each rPDU scanned using VLC.

Figure A.4 Vertiv Mobile App Readings Screen

NOTE: The unit serial number is displayed in the title bar of the Readings screen. This serial number

matches the serial number displayed on the label of the rPDU.

Vertiv™ | Intelligent Rack PDU Installer/User Guide

Pressing the

Settings

icon enables the user to customized the data that is displayed in the scan results.

• Collapse Rows: Allows user to collapse or expand the Readings screen to help properly display data

on smart devices with smaller screens.

• Unit Data to Display: Selects which data is shown on the Readings screen. All data is stored within the

database regardless of settings here. These settings are global and will apply to any scanned unit.

Figure A.5 Vertiv™ Mobile App Settings Screen

5 Appendices 69

C.4 Export

The Export button on the Home screen opens the smart device's default email app to send the database

of scanned devices in

.csv

format to the desired recipients.

Figure A.6 Vertiv™ Mobile App Export Screen

NOTE: An email app must be properly configured on the smart device to utilize the Export function.

The Vertiv™ Mobile App does not directly support email functionality. Vertiv cannot troubleshoot email

errors as this could be an issue with either the device or with the email service being used.

Each rPDU you scan adds a new entry to the database. There is no limit to the number of individual rPDU

that can be added, but the database has a limit of 10 scans per rPDU. Additional scans of the unit will

overwrite the oldest data for that unit.

The

.csv

data output organizes data first by serial number and then by date and time. You can further

organize the data by using the filter option in Microsoft Excel. The data structure is split into two sections:

rPDU configuration and power data.

The rPDU Configuration Data includes:

•Serial Number

•Frame Definition

•Date/Time stamp

•IPv4 address

The Power Data includes:

•Power Readings

•Totals

Vertiv™ | Intelligent Rack PDU Installer/User Guide

SERIAL NUMBER FRAMEDEF YYYY-MM-DD-

HH-MM-SS IP ADD

Product's unique serial number. This is the

same serial number present on the units

label.

Part of the VLC

configuration data and used

for debugging.

Time stamp of

when the scan

occurred.

The IPv4 address of the unit. Locally

Metered units will show Null IP

address.

Table A.1 rPDU Configuration Data

VOLTS AMPS WATTS VA KWH

1 Volt 1 Amp 1 Watt 1 VA 1 kWh

Input Phase for Single-Phase units. Phase A or Phase AB, if 3-

Phase.

Phase

Amperes

Phase Real

Power

Phase

Apparent

Power

Phase

Kilowatt-

Hours

2 Volts 2 Amps 2 Watts 2 VA 2 kWh

Phase B or Phase BC, if 3-Phase. Phase

Amperes

Phase Real

Power

Phase

Apparent

Power

Phase

Kilowatt-

Hours

3 Volts 3 Amps 3 Watts 3 VA 3 kWh

Phase C or Phase AC, if 3-Phase. Phase

Amperes

Phase Real

Power

Phase

Apparent

Power

Phase

Kilowatt-

Hours

4 Volts 4 Amps 4 Watts 4 VA 4 kWh

Secondary Input Phase for Single-Phase units. Phase A or Phase

AB, if 3-Phase

Phase

Amperes

Phase Real

Power

Phase

Apparent

Power

Phase

Kilowatt-

Hours

5 Volts 5 Amps 5 Watts 5 VA 5 kWh

Secondary Phase B or Phase BC, if 3-Phase. Phase

Amperes

Phase Real

Power

Phase

Apparent

Power

Phase

Kilowatt-

Hours

6 Volts 6 Amps 6 Watts 6 VA 6 kWh

Secondary Phase C or Phase AC, if 3-Phase. Phase

Amperes

Phase Real

Power

Phase

Apparent

Power

Phase

Kilowatt-

Hours

Table A.2 Power Data

NOTE: Some Geist™ GU models have dual Inputs with Monitoring or dual Inline Monitoring; these units

can have up to three additional power readings.

BREAKER 1 BREAKER 2 BREAKER 3 BREAKER 4 BREAKER 5 BREAKER 6

Breaker/Circuit 1

Amps

Breaker/Circuit 2

Amps

Breaker/Circuit 3

Amps

Breaker/Circuit 4

Amps

Breaker/Circuit 5

Amps

Breaker/Circuit 6

Amps

Table A.3 Breakers/Circuits

5 Appendices 71

TOTAL WATTS (REAL POWER) TOTAL VA (APPARENT POWER) TOTAL KWH

The total of Watts shown in sections 1-6 The total of VA shown in sections 1-6 The total kWh shown in sections 1-6

Table A.4 Totals

NOTE: The tables above are an outline of data that is present in the

Database .csv

file as is not

representative of the actual format of the CSV file. Data stored will vary based on product

configuration.

Appendix D: Available Sensors

D.1 Remote Sensors

• SRT: Stainless Remote Temperature.

• GTHD: Temperature/Humidity/Dew Point.

• GT3HD: Temperature/Humidity/Dew Point with two SRT sensors.

• RTAFHD3: Temperature/Air Flow/Humidity/Dew Point.

• A2D: Converts analog I/O Sensors to Remote Digital Sensors.

D.2 Analog I/O Sensors

• FS-15: Flood (Water) Sensor.

• PFS-100 US / PFS-100 UN: Power Failure Sensor.

• RPDS: Door Switch Kit.

D.3 Liebert® Integrated and Modular Sensors

NOTE: An adapter is required to use any of the following sensors.

• SN-T: One Temperature Probe.

• SN-TH: One Temperature Probe and one Humidity Probe.

• SN-Z01: Integrated Cable with one Temperature Probe.

• SN-Z02: Integrated Cable with three Temperature Probes.

• SN-Z03: Integrated Cable with four Probes (three Temperature and one Humidity).

• SN-2D: Two-Door Switch Monitor Sensor.

D.4 Connecting Remote Sensors

Up to 16 plug-and-play remote sensors can be attached to the unit at any time via the RJ-12 connectors

on the front of the unit. In some cases, splitters may be required to add additional sensors. Each sensor

has a unique serial number and is automatically discovered and added to the web page. The sensors'

serial number determines their display order on the web. Sensor name can be customized on the Sensors

Overview page.

NOTE: Sensors use CAT 5, CMP wire and RJ-12 connectors. Wiring must be straight-through. Reverse

polarity temporarily disables all of the sensors until corrected. Sensors use a serial communication

protocol and are subject to network signaling constraints dependent on shielding, environmental noise

and length of wire. Typical installations allow runs of up to 600 ft. (180m) of sensor wire.

Vertiv™ | Intelligent Rack PDU Installer/User Guide

Appendix E: IMD Display Codes

DISPLAY IMD

TYPE EXPLANATION

Err1

IMD-01

(Metered

only)

The IMD discovered either none or more than one input boards. This may be caused by internal

cabling issues or an unresponsive input board. This is also displayed if there is ameasurement

error reported by the input board.

8888

IMD-02,

IMD-03,

IMD-3

IMD is booting and has yet to discover the simple displayand shows

boot

on it.If this is displayed

for more than a few seconds there is a problem with the display board or with internal cabling.

“--” (Two dashes on

the right most display

position)

IMD-02,

IMD-03,

IMD-3

The IMD cannot communicate with the input board.This may also be shown intermittently for

individual measurements. There is a problem with the input board or with internal cabling.

boot

IMD-01 IMD is booting and discovering the input board.

boot

IMD-02,

IMD-03,

IMD-3

Firmware is initializing. This willbe displayed while firmware is being updated in slave boards.

updt

IMD-02,

IMD-03,

IMD-3

Firmware update in progress.

rset dflt

IMD-02,

IMD-03,

IMD-3

Following user action,

rset

(Reset) will appear during a parameter reset sequence. During a

parameter reset,

dflt

(Default) will appear briefly.

bcup

IMD-02,

IMD-03,

IMD-3

bcup

(Backup) will appear during a configuration backup.

rest conf

IMD-02,

IMD-03,

IMD-3

rest

(Restore) and

Conf

(Configuration) will appear during a configuration restore.

Table A.5 IMD Display Codes

5 Appendices 73

Vertiv™ | Intelligent Rack PDU Installer/User Guide

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Vertiv™ | Intelligent Rack PDU Installer/User Guide

Vertiv.com | Vertiv Headquarters, 1050 Dearborn Drive, Columbus, OH, 43085, USA

referred to are trade names, trademarks or registered trademarks of their respective owners. While every precaution has been taken to ensure accuracy

and completeness herein, Vertiv Group Corp. assumes no responsibility, and disclaims all liability, for damages resulting from use of this information or for any

errors or omissions. Specifications are subject to change without notice.

VM1225_SL-70565_REV04_05-20

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