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Metering Devices, Protective Relays,
Software and Connectivity
9.1

Power Xpert Architecture
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

9.2

9
V3-T9-21
V3-T9-30
V3-T9-49
V3-T9-60
V3-T9-66
V3-T9-71
V3-T9-76
V3-T9-79
V3-T9-87
V3-T9-93
V3-T9-100
V3-T9-112
V3-T9-121
V3-T9-122
V3-T9-131
V3-T9-134
V3-T9-136
V3-T9-158
V3-T9-162
V3-T9-172
V3-T9-180
V3-T9-188
V3-T9-198
V3-T9-204
V3-T9-207
V3-T9-217
V3-T9-221
V3-T9-226
V3-T9-237
V3-T9-250
V3-T9-254
V3-T9-258

Connectivity Options
Power Xpert Gateways . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Xpert Ethernet Switches . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Xpert Gateway Series 1000 Card—Power Distribution Unit . . .
Power Xpert Gateway Series 2000 Card—Uninterruptible Power
Supplies . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
mMINT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MINTII RS-232 Converter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
I/O Devices Digital Input Module (DIM) . . . . . . . . . . . . . . . . . . . . . . . .
Addressable Relay II . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Breaker Interface Module II (BIM II) . . . . . . . . . . . . . . . . . . . . . . . . . .
Sub-Network Master Local Display (SMLD) . . . . . . . . . . . . . . . . . . . . .
IMPCABLE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Volume 3—Power Distribution and Control Assemblies

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Protective Relays
Product Selection Guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
FP-6000 Feeder Protection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
FP-5000 Feeder Protection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
FP-4000 Feeder Protection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MP-3000 Motor Protection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MP-4000 Motor Protection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MD-3000 Motor/Generator Differential Relay. . . . . . . . . . . . . . . . . . . .
Digitrip 3000 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
VR-300 Multifunctional Voltage Relay. . . . . . . . . . . . . . . . . . . . . . . . . .
DP-300 Current Differential Protection Relay . . . . . . . . . . . . . . . . . . . .
EDR-3000 Feeder Protection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
ETR-4000 Transformer Protection Relay . . . . . . . . . . . . . . . . . . . . . . . .
Ground Fault Relay . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Universal RTD Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ 125 Volt DC Power Supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

9.5

V3-T9-14

Metering Devices
Product Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Xpert Meter 4000/6000/8000 Series. . . . . . . . . . . . . . . . . . . . .
Power Xpert Meter 2000 Series . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ 250/260 Series Electronic Power Meters . . . . . . . . . . . . . . . . . . . .
IQ 130/140/150 Series Electronic Power Meters . . . . . . . . . . . . . . . . .
IQ 150S/250S Self-Enclosed Electronic Meters . . . . . . . . . . . . . . . . . .
IQ 35M . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ Analyzer 6400/6600 Series . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ DP-4000 Series . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ 230 Meters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Xpert Multi-Point Meter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ Energy Sentinel™ . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
PM3 Monitoring and Metering Module . . . . . . . . . . . . . . . . . . . . . . . .
Current Transformers (CTs). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Clamp-On Current Transformers. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ Flange . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Enclosed Meters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

9.4

9
9

Monitoring Software and Reporting
Power Xpert® Software. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

9.3

V3-T9-2

CA08100004E—November 2013

www.eaton.com

V3-T9-259
V3-T9-272
V3-T9-276
V3-T9-279
V3-T9-282
V3-T9-284
V3-T9-285
V3-T9-286
V3-T9-287
V3-T9-288
V3-T9-290
V3-T9-293
V3-T9-297
V3-T9-299

V3-T9-1

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9.1
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Metering Devices, Protective Relays, Software and Connectivity
Power Xpert Architecture

Contents

Power Xpert Architecture

Description

9

Page

Power Xpert System . . . . . . . . . . . . . . . . . . . . . . .
V3-T9-3
Power Xpert Architecture . . . . . . . . . . . . . . . . . . . .
V3-T9-4
Level 0—Small System with Smart Hardware .
V3-T9-8
Level 1—Using Power Xpert Gateways . . . . . .
V3-T9-9
Level 2—Power Xpert Software . . . . . . . . . . . .
V3-T9-11
Level 3—Eaton’s Electrical Services & Systems (EESS)
Customized Software Solutions . . . . . . . . . . .
V3-T9-13

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An Eaton
Green Solution

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Introduction
Enabling Power
System Management
Eaton’s Power Xpert
Architecture (PXA) provides a
complete hardware/software
solution to manage your
entire power system. Power
Xpert Architecture consists
of Power Xpert Meters,
Gateways, Switches
and Software.
Power Xpert devices are
devices that can provide by
themselves, or facilitate for
others, Ethernet network
protocols to communicate
with your critical infrastructure
components. Power Xpert
devices provide the intelligent
hardware connectivity layer
to allow Web-enabled
communications throughout
the power system.

9

Power Xpert Meters
Power Xpert Meters provide
measurement of the critical
elements found in power
systems, including voltage,
power, current, transients,
harmonics or even time.
Power Xpert Meters
provide Web-enabled
communications for use
through a Web browser or
with the Power Xpert
Software or third-party
monitoring systems.

Power Xpert Gateways
Power Xpert Gateways are
capable of Web-enabling
electrical devices contained in
electrical gear via a standard
Web-browser on the Ethernet
network. Standard on-board
Web pages eliminate the
need for any customer
programming or software.

Power Xpert Software

9

Power Xpert Software is a
comprehensive solution for
system-level management of
your power infrastructure via
a Web-browser. Power Xpert
Software provides a clear
picture of what is happening
at a component, device and
system level.

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Because no two organization’s needs are the same,
Power Xpert Software is
available in two editions:

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V3-T9-2

Volume 3—Power Distribution and Control Assemblies

Power Xpert Software
Professional Edition
Geared toward end users,
with built-in support for Eaton
power distribution products
such as switchgear, UPSs,
breakers, PDUs, RPPs,
meters, relays, VFDs and
MCCs among others.
Eaton products connect with
the software directly via an
Ethernet connection, while
legacy devices use a Power
Xpert Gateway to Webenable their communications.

Support for Existing
PowerNet Systems
Power Xpert is directly
compatible with existing
PowerNet™ systems
v.3.32 and higher. All
communications hardware
devices such as NetLink,
EMINT, MINT II and EPONI
can be connected to Power
Xpert Software through the
PowerNet server for
configuration of the INCOM™
communication devices.

A subset of third-party meters
and devices are supported as
standard via the gateway
connection.
Power Xpert Software
Enterprise Edition
Geared toward advanced
power users, system
integrators and enterprises
with heterogeneous device
spectrum and system
developers who can take
advantage of the included
SNMP and Modbus®
integration development
utilities.
●

●

Extensive support for
third-party devices via
standard SNMP and
Modbus TCP protocols
Large variety of ready
made third-party drop
in drivers

CA08100004E—November 2013

www.eaton.com

Metering Devices, Protective Relays, Software and Connectivity
Power Xpert Architecture

9.1

Power Xpert System

9

See Notes on Page V3-T9-4.

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Power Xpert System Overview

9
a
1 Power Xpert Software

g

Web Browser
e
(WAN)
Data
Export
(csv)

Email
(SMTP)

Internet

BACnet/WS+

2

PXG 400

9
c NTP

Power
Xpert
Meter
2000

Power Xpert
Gateway 600

9

Power Xpert
3 Ethernet Switch

9

m

BACnet/WS+
Power Distribution r

q

s

Advantage
Central
Monitoring
Unit
18 w/WPONI

Gateway 400

6

16

7

PDU
GEN & CTRL

t

CRAC

Critical Power
Distribution & Cooling

22 IT. S811

Soft
Starter

23 Eaton

PDU

u

Advantage
19 Starter
EOLTR
SVX9000
20
MVX9000
Drive

IT. MCC EOLR

24 Eaton
UPS

#

Product Name

1

Power Xpert Software

V3-T9-14

2

Power Xpert Meter 4000/6000/8000

V3-T9-30, V3-T9-49

3

Power Xpert 6-Port Ethernet Switch

V3-T9-272

4

Power Xpert Gateway 600

V3-T9-259

5

Power Xpert Gateway 400

V3-T9-259

6

IQ Analyzer

V3-T9-79

7

IQ DP-4000

V3-T9-87

8

IQ 220/230 Series Meters

V3-T9-93

9

Digitrip DT1150

V3-T9-260

IQ 250/250
Meters

V3-T9-293

11 OPTIM Trip Unit

V3-T9-263

12 MP-3000/MP-4000/MD-3000
DT-3000/FP-4000/FP-5000

V3-T9-188, V3-T9-198, V3-T9-204,
V3-T9-207, V3-T9-180, V3-T9-172

13 Central Energy Display

V3-T9-5

14 Energy/Power Sentinel

V3-T9-112

15 IQ 130/140/150 Meter

V3-T9-66

16 IQ 250/260 Meter

V3-T9-60

17 InsulGard™ Relay

V3-T9-264

18 Advantage Central Monitoring Unit

V3-T9-5

19 Advantage Starter w/WPONI

—

20 SVX9000/MVX9000 Drive

—

21 IT. Cover Control

—

22 IT. S811 Soft Start

—

23 Eaton PDU w/PXGX1000 Card

V3-T9-276

24 Eaton PDU w/PXGX2000 Card

V3-T9-279

Volume 3—Power Distribution and Control Assemblies

9

8 IQ 220/230

Meters
17

9

9 DT-1150

Trip Unit

InsulGard
Relays
10

9

Breaker Interface
Module w/PONI Card

9

11 OPTIM T rip Unit

3rd Party Motor
Relays

9

EOLRT
12 MP-3000/4000
FP-4000/5000
Motor/Protection
Relays

Page Reference

10 Breaker Interface Module

9

IQ DP-4000
Meter w/PONI Card

Advantage
MCC
Freedom
MCC

9

IQ Analyzer
Meter w/PONI Card

21 IT. Cover

Controls

9

IQ 130/140/150
15 Meters

ATS
STS

9

5 Power Xpert
PXG 400

p

4

Single
Port
Device
Server

d Modbus TCP/IP

PXG 400

o

n

9

Network Time Server

Power Xpert
Meter
4000/6000/8000

Power
l
Xpert
Ethernet
Switch
Motor Controls

Power Xpert j
Gateway

9

Waveform
Data Capture and Acquisition
Trending
i 3rd Party HMI
Software

b

Web Browser
(LAN)
HTTP
k

f

h

3rd Party
Protective
Relays

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13 Central Energy Dislay

w/PONI Display

9
Power
Sentinel Meter

3rd Party
PQ Meters

9

14

EOLR

Energy
Sentinel Meter

9

EOLRT

9

EOLR

9
MV Starter

MV Switchgear

LV Switchgear

9

Ethernet Network
QC Port Network
INCOM Network
RS-485 Network
End of line resistor
EOLR
EOLTR End of line termination resistor

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CA08100004E—November 2013

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Metering Devices, Protective Relays, Software and Connectivity
Power Xpert Architecture

Power Xpert Architecture—Notes
a. Simple Mail Transfer
Protocol (SMTP)—
Device events and
periodic data log file
attachments are sent
to users in the form of
an e-mail from the
following Power Xpert
products: Power
Xpert Software,
Power Xpert Meters
2000/4000/6000/
8000, Power Xpert
Gateway 600 and
Power Xpert Gateway
Cards 1000/2000
Series.
b. Hyper Text Transfer
Protocol (HTTP)—
Web browser access
is available on the
following Power Xpert
products: Power
Xpert Software,
Power Xpert Meters
2000/4000/6000/
8000, Power Xpert
Gateway 600 and
Power Xpert Gateway
Cards 1000/2000
Series.
c. Network Time Server
(NTP)—Network Time
Protocol (Client-side)
is available on the
following Power Xpert
products: Power
Xpert Software,
Power Xpert Meters
2000/4000/6000/
8000, Power Xpert
Gateway 600 and
Power Xpert Gateway
Cards 1000/2000
Series.

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d. Modbus TCP/IP—
Modbus TCP/IP over
Ethernet is available
on the following
Power Xpert
products: Power
Xpert Software,
Power Xpert Server
Core Software, Power
Xpert Meters 2000/
4000/6000/8000,
Power Xpert Gateway
600 and Power Xpert
Gateway Cards 1000/
2000 Series. Modbus
register maps are
available online at
www.eaton.com/
powerxpert.
e. Data Export—Data
files consist of
metered data and
event log information
that is exported from
the meter, gateway or
software in the form
of a .csv (comma
separated variable)
file. Supported
products are: Power
Xpert Gateway
PXG600, PXGX1000,
PXGX2000, Power
Xpert Meters 2000/
4000/6000/8000
and Power Xpert
Software.
f. Data Trending—
Viewing trended data
in a standard Web
browser interface in
the form of a graphed
line for one or more
data points is available
for the following
products: Power
Xpert Gateway
PXG600, PXGX1000,
PXGX2000, Power
Xpert Meters 2000/
4000/6000/8000
and Power Xpert
Software.

g. Waveform Capture—
The ability to capture
a waveform and/or
export the waveform
as a standard
comtrade file format
is available on the
following products:
Power Xpert Meters
4000/6000/8000.
h. Waveform Acquisition
and Export—The
ability to acquire a
waveform from
another device that
natively captures a
waveform internally
and then export that
waveform in a
standard comtrade
file format is
supported by the
following devices:
PXG600 (provides
data acquisition and
comtrade conversion
for: IQ Analyzer,
DT1150 and FP5000).
Note: The Power Xpert Meters
4000/6000/8000 also export
natively captured waveforms as
comtrade file format.

i. Third-Party HMI
Software Integration—
Is achieved through
the Modbus TCP/IP
interface on all Power
Xpert devices. If
PowerNet software is
utilized in the system,
then an OPC Server
is available.
j. Proprietary Serial
Device Protocols over
Ethernet—The ability
to communicate with
third-party equipment
is achieved through a
Power Xpert Gateway
via Modbus 485 or
Modbus Serial.

k. BACnet/WS+ —
Is based upon the
protocol specification
developed by the
ASHRAE standards
group as an
Addendum c to
Standard 135-2004.
Reference: [BACnet—
A Data
Communication
Protocol for Building
Automation and
Control Networks.
Public Review Draft,
ASHRAE Standard.
BSR/ASHRAE
Addendum c to ANSI/
ASHRAE Standard
135-2004. First Public
Review. Released:
October 22, 2004.
32 pages. Copyright
(c) American
Society of Heating,
Refrigerating and
Air-Conditioning
Engineers, Inc.
August 30, 2004.]
This draft shows proposed
changes to the current
BACnet standard.
Note: Eaton has extended this
protocol addendum with a (+) to
signify the addition of an “eventdriven” behavior to the existing
“polled” data acquisition model.
This allows optimization in
communications between Power
Xpert devices and Power Xpert
Software.

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V3-T9-4

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

Metering Devices, Protective Relays, Software and Connectivity
Power Xpert Architecture

l. CEC
(Communications
Expansion Card
PXMCE-B)—This card
must be ordered as
an option on the
Power Xpert Meters
4000/6000/8000 to
provide Ethernet
connectivity for use
with a Web browser,
interface to Power
Xpert Software or
third-party HMI
software.
m. Ethernet Switch—
The Eaton Ethernet
Switch provides
connectivity between
Power Xpert devices
on a common
subnetwork. The
6-port version of
the switch shown
provides (6) RJ-45
network ports. As
an option, 1 or 2 of
these ports can be
substituted to be
ST-Type Fiber
connections.
n. Single-port Device
Server—Is a device
that is used to add
network connectivity
to a single serial
device. These device
servers offer a single
RS-232/485 serial port
to connect a variety
of serial devices
including meter
devices, UPS, PDU,
Static Switch,
Automatic Transfer
Switch, generators,
Computer Room Air
Conditioners, and
other commercial,
industrial or business
automation
equipment. The
serial ports use
standard RJ-45 or
DB-9 connectors for
convenient cabling,
and optional adapters
are available as well.

o. PXG600A COM2
Port—Is used to
communicate on a
Modbus RS-232/485
network or on an
Eaton QC-Port (IT)
bus. The user may
choose between a
DB-9 or terminal strip
connector to connect
up to 32, RS-45 serial
devices.
p. PXG600A COM1
Port—Is used
to communicate on a
Modbus RS-232/485
network or on an
Eaton QC-Port (IT)
bus. A terminal strip
connector is provided
for this interface. Up
to 32 devices may
be connected to
this port.
q. PXG600A INCOM
Port—Is used to
communicate on an
Eaton INCOM device
network only. Up to
64 devices may
be connected to
this port.
r. PXG400 Ports—The
ports on the PXG400
operate the same as
on the PXG600;
however, there is
only one RS-232/485
port to be used for
Modbus or QC-Port.
s. PONI (Product
Oriented Network
Interface)—Is used
to connect the
Advantage Central
Monitoring Unit (18),
the Breaker Interface
Module (10), and the
Central Energy
Display (13),an IQ
Analyzer (6),and the
IQ DP-4000 (7) to an
INCOM network.

9.1

t. PXGX1000 Card—
Is used to connect
an Eaton PDU (Power
Distribution Unit) or
RPP (Remote Power
Panel) to an Ethernet
network. Available
interfaces are: HTTP
(Web) SNMP, SMTP
(e-mail), Modbus TCP/
IP and BACnet/WS+.
u. PXGX2000 Card—
Is used to connect
an Eaton UPS to an
Ethernet network.
Available interfaces
are: HTTP (Web)
SNMP, SMTP (e-mail),
Modbus TCP/IP and
BACnet/WS+.

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Important Note: When
connecting multiple Modbus
RTU devices to either a
multiport terminal server or
a Power Xpert Gateway 400/
600 over an RS-485 daisy
chain network, the baud rate,
data frame (stop bits, data
bits and parity), byte order
(standard or reversed) and
physical wiring (two-wire or
four-wire) must be the same
for all devices connected.

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

V3-T9-5

9.1
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Metering Devices, Protective Relays, Software and Connectivity
Power Xpert Architecture

Power Xpert Architecture
Deployment Levels

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1. Web Browser monitoring
for a single device

9

2. Web Browser monitoring
for multiple devices

9

3. Web Browser monitoring
with centralized
management

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4. Customized Web-based
graphics and third-party
device support

Power Xpert Architecture
Hardware/Software
Products
Power Xpert hardware/
software products were
developed to provide a highly
intuitive local user interface
that simplifies complex realtime data into meaningful
information. At a glance, a
user can quickly determine
if a critical parameter in their
power system, (such as
voltage, current or kWH),
falls within or outside of an
acceptable operational range.
Power Xpert devices provide
the intelligent hardware
connectivity layer to
allow Web-enabled
communications over an
Ethernet TCP/IP network.
These devices can act as
standalone Web servers or as
part of a coordinated system
with Power Xpert Software
consolidating and analyzing
the combined system data.
The Power Xpert Meter family
and the Power Xpert Gateway
family are microprocessorbased, Web-enabled,
communicating devices
from Eaton that make up the
Power Xpert Architecture.

Power Xpert Meters

Power Xpert Gateways

Power Xpert Software

Power Xpert Meters 2000/
4000/6000/8000 offer Eaton
customers a new level of
accessibility to the critical
information required to
manage their electrical
distribution system. The
meter’s embedded Web
server includes real-time
circuit information in both
numeric and graphical visual
formats that can be viewed
on its local display or through
a Web browser via the
Internet or a customer’s
intranet.

Power Xpert Gateways are
intelligent communication
devices that Web-enable one
or more electrical devices
so they become visible to
a browser on an Ethernet
network. The Power Xpert
Gateways are capable of
providing communications
conversion from one network
field bus protocol to an
other—for example, INCOM
to Ethernet.

Power Xpert Software, an
integral part of the overall
Power Xpert Architecture, is a
comprehensive solution for
system-level management
of your power infrastructure
via a Web-browser, from
any desktop, on one screen.
Power Xpert Software is
designed to take the
complexity out of managing
your power system and
provides a clear picture of
what is happening at a
component, device and
system level. Power Xpert
Software provides insight into
cost savings and downtime
prevention. For detailed
information on Power
Xpert Software, see
Page V3-T9-14.

The Power Xpert Meters
4000/6000/8000 are the
benchmark for intelligent
Web-enabled power quality
metering instruments. The
meters include high-speed
sampling and measurement
of the critical elements,
(i.e., voltage, power, current,
transients or harmonics),
in a facility’s power system.
See Page V3-T9-21 for
detailed information on the
Power Xpert Meters.
All Power Xpert Meters
provide a standard
communications protocol
for easy integration into
other systems.

Power Xpert Gateway
devices are a key component
in the Power Xpert
Architecture. They allow a
user to optimize their existing
investment in Eaton’s
communicating devices such
as IQ Meters, Digitrip™
Breaker Trip Units, Protective
and Overload Relays and IT.
Motor Starters. They can
also extend state-of-the-art
connectivity to third-party
devices that communicate
using Modbus RTU protocol
over an RS-485 field bus.
See Page V3-T9-259 for
detailed information on the
Power Xpert Gateways.

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Power Xpert Architecture

9.1

Power Xpert Architecture
Configuration Guidelines

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With Power Xpert devices
(sophisticated, Webenabled, high-definition
communications) and a
simple Web browser,
users can interrogate single
devices directly, groups of
devices connected through
gateways, or connect
through software managing
multiple devices and
gateways. Using the Eaton
system, users are free to
combine ways in which
they view their devices.
Applications generally fall
into four primary categories.
Eaton has developed an easy
way to provide the preferred
solution, using the following
configuration deployment
strategies as example
application categories.
See Page V3-T9-8.

Configuration Guidelines
Application
Categories

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Implementation
Details

Level

Description

Small/Smart
Hardware
installation

0

Web browser access directly to an individual Power Easy configuration to enable Web browser monitoring
Xpert device, i.e., Power Xpert Meter or Eaton UPS w/ for a single or small amount of Eaton devices, without
optional Power Xpert Gateway Series 2000 card
coordination between devices.
installed.

Medium
installation

1

Sophisticated
installation

Tailored
solution

2

3

Web browser access to multiple Eaton devices and
third-party Modbus RTU devices through the Power
Xpert Gateway and/or Power Xpert Gateway Cards.

Easy setup to enable Web browser monitoring for
multiple Eaton devices, as well as third-party devices
that support Modbus RTU. Each Power Xpert Gateway/
Gateway Card acts as a standalone Web server.

Web browser access to multiple Eaton and third-party Full suite of tools available to monitor overall system
devices through Power Xpert Software. Devices
health. Power Xpert provides complete control over
connect to Power Xpert Software by means of either centralized alarm notification, reporting and escalation.
direct Web-enabled cards installed inside or via Power
Xpert Gateways. Includes device views for Eaton
equipment as standard.
Custom Web interface design using Eaton Electrical
Services group.

Integration of third-party devices and custom screens.

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Power Xpert Architecture

Power Xpert Architecture
Level 0—Small System with Smart Hardware
Example Applications
Power Xpert Meter in low
voltage switchgear and UPS.

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Description
Configuration Level 0 offers
an easy means to Webenable a single Eaton device
provided that it is supported
by an optional Web
communications card that
can be installed directly into
the device.

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Small Installation with Smart Hardware

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Functions/Devices

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Drawing
Symbol

Function
Description

Eaton
Device

Monitoring Equipment

9

MM6GWP

Power Quality Meter Analyzer

9

MM4&P

Meter Monitor and Protection

IQ DP-4000

MM

Meter Monitor

IQ 100/IQ 200

SMM

Sub-Metering Module

IQ Energy Sentinel

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Power Xpert Meter
4000/6000/8000

Power Xpert
Ethernet Switch

Overcurrent/Short Circuit Protection
MVTU

Medium Voltage Relay (> 600V)

DT-3000, FP-5000

LVTU

Low Voltage Trip Unit (d 600V)

Digitrip RMS-810, 910,
520 MC or 1150
Digitrip OPTIM 750 or 1050

Motor Protection and Control

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MPR

Motor Protective Relay

MP-3000

MMS

Microprocessor Motor Starter

IT. Starter

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VFD

Variable Frequency Drive

SVX9000

Central Monitoring Panels

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BIM II

Breaker Interface Module II

BIM II (used with Digitrip
OPTIM or Digitrip RMS)

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LDISP

Local Display and Sub-network
Master

Used with IQ Multipoint Energy
Submeter II or with
Energy/Power Sentinels

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Standard Features
●
Real-time monitoring of
metered and alarm points
●
Alarm history
●
E-mail notification
●
Communications settings
via the Web

UPS
w/Power Xpert Gateway
Series 2000 Card

Other Devices
ATS

Automatic Transfer Switch

RTD

Resistance Temperature

Universal RTD Module

ADR

Addressable Relay

ADRII

C

Product Communication Device

IPONI

R

Resistor-End of Line

Resistor

■

Terminal Block

IP, IN, IS Terminal Designation

Factory Twisted Pair Wiring

IMPCABLE or
Belden YR29090 or
Belden 9463 Family

Field Twisted Pair Wiring

IMPCABLE or
Belden YR29090 or
Belden 9463 Family

Field Ethernet Backbone

CAT5 or multimode fiber

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IQ Transfer

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Power Xpert Architecture

9.1

Level 1—Using Power Xpert Gateways
Example Applications
Low and medium voltage
switchgear, motor control
centers and third-party
equipment via Modbus RTU.
Recommendation: Use one
Power Xpert Gateway device
per electrical assembly or
switchgear sub-section.

Description
Configuration Level 1 offers
an easy means to Webenable multiple Eaton devices
and third-party devices that
support Modbus RTU.

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Standard Features
●
Real-time monitoring of
metered and alarm points
●
Communications settings
via the Web
●
Alarm history
●
E-mail notification

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Power Xpert Architecture

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Power Xpert Gateway

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Functions/Devices

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Drawing
Symbol

Function
Description

Eaton
Device

Monitoring Equipment

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MM6GWP

Power Quality Meter Analyzer

Power Xpert Meter 4000/6000/8000

MM4&P

Meter Monitor and Protection

IQ DP-4000

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MM

Meter Monitor

IQ 100/IQ 200

SMM

Sub-Metering Module

IQ Energy Sentinel

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Overcurrent/Short Circuit Protection
MVTU

Medium Voltage Relay (> 600V)

DT-3000, FP-5000

LVTU

Low Voltage Trip Unit (d 600V)

Digitrip RMS-810, 910,
520 MC or 1150
Digitrip OPTIM 750 or 1050

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Motor Protection and Control
MPR

Motor Protective Relay

MP-3000

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MMS

Microprocessor Motor Starter

IT. Starter

VFD

Variable Frequency Drive

SVX9000

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Central Monitoring Panels

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BIM II

Breaker Interface Module II

BIM II (used with Digitrip
OPTIM or Digitrip RMS)

LDISP

Local Display and Sub-network
Master

Used with IQ Multipoint Energy
Submeter II or with
Energy/Power Sentinels

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Other Devices
ATS

Automatic Transfer Switch

IQ Transfer

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RTD

Resistance Temperature

Universal RTD Module

ADR

Addressable Relay

ADRII

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C

Product Communication Device

IPONI

R

Resistor-End of Line

Resistor

■

Terminal Block

IP, IN, IS Terminal Designation

Factory Twisted Pair Wiring

IMPCABLE or
Belden YR29090 or
Belden 9463 Family

Field Twisted Pair Wiring

IMPCABLE or
Belden YR29090 or
Belden 9463 Family

Field Ethernet Backbone

CAT5 or multimode fiber

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Power Xpert
Ethernet Switch

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II

F5

F6

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Power Xpert
Ethernet Switch

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F7

F8

LV Secondary Unit Substation

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INCOM

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MM
4&P

MM
4&P

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IT.

MV VacClad-W Metal-Clad Switchgear

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Metering Devices, Protective Relays, Software and Connectivity
Power Xpert Architecture

9.1

Level 2—Power Xpert Software
Example Applications
All Eaton devices and thirdparty devices that support
Modbus TCP and SNMP in
addition to third-party Modbus
RTU devices via the Power
Xpert Gateway.

Description
Configuration Level 2 offers
an easy means to Webenable and centrally manage
all Eaton devices that can
be connected directly to an
Ethernet network or via
a Power Xpert Gateway
device. Power Xpert
Software provides a rich
set of standard features,
as well as premier value
add-on option modules.

Standard Features
●
Real-time monitoring of
metered and alarm points
●
Full color Web-based
graphics package with
standard views for all
Eaton devices
●
E-mail notification
●
Data trending and graphing

Optional Add-on Features
●
Web-based graphics editor
to design floor plan and
third-party device views
●
Energy consumption
analysis and tenant billing
●
Power quality analysis and
waveform viewing
●
Modbus TCP tool to import
register maps from various
third-party devices
●
SNMP tool to compile
SNMP MIB (Management
Information Base) files
from various third-party
devices

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Power Xpert Architecture

Power Xpert Software

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Power Xpert Ethernet Switches

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Power Xpert
Ethernet Switch

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Functions/Devices
Drawing Symbol

9

Function Description

Eaton Device

Monitoring Equipment
MM6GWP

Power Quality Meter Analyzer

Power Xpert Meter 4000/6000/8000

MM4&P

Meter Monitor and Protection

IQ DP-4000

9

MM

Meter Monitor

IQ 100/IQ 200

SMM

Sub-Metering Module

IQ Energy Sentinel

9

Overcurrent/Short Circuit Protection
MVTU

Medium Voltage Relay (> 600V)

DT-3000, FP-5000

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LVTU

Low Voltage Trip Unit (d 600V)

Digitrip RMS-810, 910, 520 MC or 1150/Digitrip OPTIM 750 or 1050

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Motor Protection and Control
MPR

Motor Protective Relay

MP-3000

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MMS

Microprocessor Motor Starter

IT. Starter

VFD

Variable Frequency Drive

SVX9000

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Central Monitoring Panels
BIM II

Breaker Interface Module II

BIM II (used with Digitrip OPTIM or Digitrip RMS)

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LDISP

Local Display and Sub-network Master

Used with IQ Multipoint Energy Submeter II or with Energy/Power Sentinels

ATS

Automatic Transfer Switch

IQ Transfer

RTD

Resistance Temperature

Universal RTD Module

ADR

Addressable Relay

ADRII

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C

Product Communication Device

IPONI

R

Resistor-End of Line

Resistor

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■

Terminal Block

IP, IN, IS Terminal Designation

Factory Twisted Pair Wiring

IMPCABLE or Belden YR29090 or Belden 9463 Family

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Field Twisted Pair Wiring

IMPCABLE or Belden YR29090 or Belden 9463 Family

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Field Ethernet Backbone

CAT5 or multimode fiber

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Metering Devices, Protective Relays, Software and Connectivity
Power Xpert Architecture

9.1

Level 3—Eaton’s Electrical Services & Systems (EESS)
Customized Software Solutions

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Available Applications
Any manufacturer’s equipment that is supported by the
EESS extensive device driver support list or request a custom
quotation to obtain support.

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Description
Configuration Level 3 offers an extensive service offering for
the delivery of customized graphics and support for third-party
proprietary device driver support.

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Enhanced Features
●
Customized one-line diagrams to portray realistic operation
of the complete power distribution system

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Power Distribution System One-Line Diagram
●

Customized navigation systems to allow the operator to
navigate the software in a similar paradigm that is consistent
with the way they would describe their organization from a
functional or departmental standpoint

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Customized Navigation System

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Metering Devices, Protective Relays, Software and Connectivity
Monitoring Software and Reporting

Contents

Power Xpert Software

Description

9

Page

Power Xpert Software
Product Selection Guide . . . . . . . . . . . . . . . . . .
Features and Benefits . . . . . . . . . . . . . . . . . . . .
Product Selection . . . . . . . . . . . . . . . . . . . . . . .

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An Eaton
Green Solution

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Power Xpert Software

9

Product Description

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Power Xpert Software is the
fusion of key components of
PowerNet and PowerVision
Software into a single
power monitoring package,
which includes ease of
interconnectivity to a wide
range of Eaton and third-party
communicating devices.

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Power Xpert Software
provides an easy upgrade
path to allow existing
PowerNet users to enjoy the
benefits of power monitoring
through a simple Web
browser interface. It provides
a complete software solution
to manage your power
system. Critical components
such as metering devices,
protective relays, circuit
breaker trip units, motor
starters and uninterruptible
power supplies communicate
vital information about the
health and status of critical
infrastructure devices.

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Metering Devices, Protective Relays, Software and Connectivity
Monitoring Software and Reporting

9.2

Product Selection Guide

9

Power Xpert Software Professional Edition
●
Geared toward end users, with built-in support for Eaton
power distribution products such as switchgear, UPSs,
breakers, PDUs, RPPs, meters, relays, VFDs and MCCs,
among others
●
Eaton products connect with the software directly via an
Ethernet connection, while legacy devices use a Power Xpert
Gateway to Web-enable their communications
●
A subset of third-party meters and devices are supported as
standard via the gateway connection

Power Xpert Software Enterprise Edition
●
Geared toward advanced power users, system integrators and
enterprises with heterogeneous device spectrum and system
developers who can take advantage of the included SNMP
and Modbus integration development utilities
●
Extensive support for third-party devices via standard SNMP
and Modbus TCP protocols
●
Large variety of ready made, optional third-party drop in
drivers available

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Power Xpert Software Features
Feature Sets

Power Xpert Software
Professional Edition

Power Xpert Software
Enterprise Edition

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Server module

■

■

Trend viewer module

■

■

Layout manager module

■

■

Quality manager module

■

■

Eaton device support (switchgear, UPSs, breakers, ePDUs, meters,
relays, VDFs, MCCs, etc.)

■

■

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Power Xpert Gateway third-party device support

■

■

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SNMP connector

■

Modbus connector

■

Optional third-party driver support

■

Custom third-party device driver support

■

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Metering Devices, Protective Relays, Software and Connectivity
Monitoring Software and Reporting

Features and Benefits

Power Xpert Software

9

Feature

9

Web browser user interface

9

Web-based monitoring capabilities

Monitor all power system equipment through the Internet.

Downloadable software version updates

Receive the latest enhancements and versions via downloads available from Eaton’s Web site.

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Benefit

General
There is no need to install a separate client piece of software on your computer. Simple and easy access via Web browser from any location in
the world.

Event Notification
Event notification via e-mail notification

Receive automatic e-mails when events are triggered.

Event notification via pagers, text message or thirdparty interfaces

Receive alarms on event changes via pagers, text message or third-party interfaces.

Alarm state management

Acknowledge, clear and close alarms through Power Xpert Software.

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Event indicator displayed without Web page active

The Web page you are on does not need to be active to display the event indicator.

Alarm/event searching and filtering

Conveniently search and filter alarms and events to quickly find what you are looking for.

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Waveform attached to applicable power event

Waveforms captured by meters are attached to actual power events, making them easy to understand and interpret.

Web browser based waveform viewing

There is no need to install a separate waveform viewer on your computer. Waveforms can be easily reviewed right in your Web browser.

Alarm capabilities based on device driven events

Alarms and triggered events come to the software directly from the associated devices, eliminating false alarms.

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Analysis and Trending
Graphic Trend Viewer

Displays power system device measurements in an easy-to-understand graphical chart format.

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Chart or data option selection

Conveniently view the data in either spreadsheet type data format or a graphic line chart plot.

Multiple trends display

Displaying multiple trends at a time helps analyze event ramifications and impact in more detail.

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Multiple axis support

Multiple trends can be plotted on multiple x and y axis, displaying pertinent time and scale information.

View multiple variables (i.e., Ia, Ib, Ic, Vab, Vbc, etc.)
for a single waveform

Multiple waveform variables can be viewed at a time, eliminating the need of changing views frequently.

Standard COMTRADE file format support

View, import and open any waveform captures in standard IEEE® (C37.111-1999) COMTRADE file format.

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Customizable Trend Viewer look and feel

The formatting of the data, and the look and feel of it can be easily customized according to user preferences.

Fixed or custom time frames

Information displayed in the Trend Viewer can have either system-defined fixed or user-selected custom time frames.

Trend analysis capabilities

Trends can be easily spotted and analyzed on screen or exported to third-party software for further analysis if necessary.

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Data export

Trend data can be easily exported to Excel for further analysis.

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Custom graphics development via Web browser

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Four user view example templates included as standard Easily use ‘as is’ or modify as necessary: data center, plant, hospital and geographical layout templates.

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Custom Graphics and Layouts

iFrame capability

iFrames enable embedding browser portals into custom Web page layouts.

Browser Portal Widget support

Browser Portal Widgets can be embedded in iFrames to accommodate streaming media feeds.

Streaming media support

Multiple streaming media feeds can be embedded into a single Web page, utilizing iFrames technology.

Graphic object library included as standard

A large object library including most common power devices is embedded within the system, enabling the user to develop mimic
screens from the start.

ISO® standard electrical picture objects available

Add ISO standard compliant graphics to one-line diagrams or other layouts for ISO compatibility.

Graphic files import capability

Import floor plans, street maps or photographs to be used as background images or mimic objects in Web pages.

Graphic object animation capability

Graphics can be animated based on event and threshold changes. An object could change color, for example, when a threshold is reached.

Gauge object library support

A multitude of gauges are provided in the standard object library to enable easy Web page custom measurement gauges design.

External Web links support

Add Web links to Power Xpert Software pages, which link to any device, Web page on the Internet and network around the globe with a
Web user interface.

Alarm bubble-up support through several page layers

Alarms can be easily bubbled-up through multiple Web pages with the folder link feature. Event can be seen on the topmost page and the
user can drill down for more information.

Trend object support

Trend objects can be embedded into the layout, enabling viewing the data directly in the Trend Viewer.

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Customized Web pages can be easily developed using a plain Web browser, eliminating the need to install a separate application
to be installed, learned and utilized.

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Metering Devices, Protective Relays, Software and Connectivity
Monitoring Software and Reporting

9.2

Power Xpert Software, continued
Feature

9

Benefit

9

UPS Shutdown
File saving during shutdown

During an emergency shutdown due to an extended power failure outlasting the UPS battery, open files on the computer systems
are closed and saved in an orderly fashion.

Automatic, orderly and sequential shutdown

All operating systems running Power Xpert Software Shutdown Agent will be shut down in an orderly and sequential fashion to
prevent data loss.

Parallel redundant UPS shutdown capability

Built-in software logic will initiate shutdown only after UPS redundancy has been lost and the last UPS is out of runtime.

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Security and Administration
Windows Authentication Security

Control access to Power Xpert Software via Windows® Authentication Service.

Two-tier secure system access support

Access the Power Xpert Software with read or write privileges to prevent unauthorized tampering.

SSL

Supported via OpenSSL.

Secure Web browser access (support for HTTPS)

Supported via OpenSSL.

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Time Synchronization
Time synchronization support for connected devices
with 1 millisecond time resolution

Millisecond-based timestamp support (when supported by connected device) enables understanding the sequence of rapidly occurring events.

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Export and Integration

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Extended Excel® spreadsheet support

Open report files directly in Excel.

SQL database query support

Power Xpert uses standard SQL database format that can be queried by third-party applications for system integration and data exchange.

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Logs
System Log

The System Log gathers information on system-level events for error and security purposes.

Error Log

The Error Log gathers information on errors occurred for diagnostic purposes.

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Service
Eaton help desk services (1-877-ETN-CARE)

Call Eaton to speak directly to a product specialist providing support for the software.

Turnkey startup service

Purchase a 1, 2 or 5-day startup service package from Eaton for turnkey system installation and configuration.

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Easily back up Power Xpert software including configurations, user views and device setups.

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System Backup
Power Xpert Software system backup
Documentation and Training Videos

9

System Administrator’s Guide

Guides users on how to administer Power Xpert Software.

Power Xpert Software User’s Guide

Detailed information of Power Xpert Software features and functionality along with screenshots and references.

Layout Manager Guide

Detailed information on how to use Layout Manager’s features and functionality to create custom graphic system pages.

Quick Start Guide

Takes the guesswork out of initial software installation and configuration with clear step-by-step instructions on how to get started.

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Power Xpert Software Introduction and Training Video Learn the main features and functionality of Power Xpert Software by watching a hands-on video showing you how to install, configure
and use the software.
Power Xpert Reporting Introduction and Training Video Learn the main features and functionality of Power Xpert Reporting by watching a hands-on video showing you how to install and configure
reporting. Included are step-by-step instructions on how create reporting hierarchies and pull data out of different databases.

Note: These specifications are subject to change without notice and represent the maximum capabilities of the product with all options installed. This is not a complete feature list. Features and
functionality may vary depending on selected options and product model. Please refer to the technical data sheet and user manual for detailed specifications.

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Communication Protocol Support

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Communication Protocol

Description

Dry-contact/contact closure/relay

Contact closure support is enabled via various Eaton Gateway devices. Please refer to Power Xpert Software Hardware Compatibility List for details.

BACnet WS+

BACnet WS+

Modbus RTU

Modbus RTU

Modbus TCP

Modbus Protocol over TCP

TCP/IP

Transmission Control Protocol

SNMP

Simple Network Management Protocol

SMTP

Simple Mail Transfer Protocol

INCOM

Eaton Legacy Protocol

HTTP

Hypertext Transfer Protocol

HTTPS

Hypertext Transfer Protocol with SSL

SSL

Secure Sockets Layer

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Monitoring Software and Reporting

Power Xpert Reporting—the perfect complement
Power Xpert Reporting helps bring information from the
software together. Power Xpert Software brings together your
power system information from around the floor to around the
world—data and information that is invaluable. Power Xpert
Reporting brings all the power system information together to
compare, contrast and generally give you the big picture. Power
Xpert Reporting provides a standard set of reports, including:

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●

Data Center Efficiency Report: A summary of data center
infrastructure efficiency and power usage effectiveness,
including such information as temperature and humidity, and
energy consumption
Greenhouse Gas Report: Captures the six offensive
greenhouse gasses: Carbon Dioxide, Sulfur Dioxide, Nitrogen
Oxide, Mercury, Methane and Nitrous Oxide broken down by
selected locations within a facility
Utilities Report: Captures consumption of water, air, gas,
electricity and steam (WAGES)
Capacity Summary Report: The summary of top- and
bottom-loaded circuits, as well as loading details for each
circuit according to user-defined date/time range and facility
hierarchy location
Branch Circuit Monitoring Report: Determine branch circuit
loading levels at a glance with color-coded graphics indicating
loading status against capacity. Redundant sources can be
reviewed, as well as single source loads
Energy Summary Report: The summary of consumption
(kWh) and demand (kW) for a user-defined date/time range
and facility hierarchy location
Energy Cost Allocation Report: The total energy bill dollar
value or a cost per kWh across a facility hierarchy for a userdefined date/time range
Power Quality Report: The distribution and trend for amps,
volts and THD according to user-defined date/time ranges and
facility hierarchy location
Event Summary Report: Provides a Pareto chart of events
according to user-defined date/time ranges and facility
hierarchy location
Joint Commission Report: Standard Joint Commission
compliant report supports hospital power test requirements.
It checks events, key metrics of generators and automatic
transfer switches (ATS) during generator testing at userdefined date/time ranges and facility hierarchy location

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Metering Devices, Protective Relays, Software and Connectivity
Monitoring Software and Reporting

9.2

Product Selection

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Power Xpert Software
Catalog
Number

Description

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Power Xpert Software Professional Edition
Power Xpert Software Professional Edition

PXS-PRO

Power Xpert Software Professional Edition w/ 1-day startup

PXS-PROn1S

Power Xpert Software Professional Edition w/ 2-day startup

PXS-PROn2S

Power Xpert Software Professional Edition w/ 5-day startup

PXS-PROn5S

Power Xpert Software Professional Edition and Power Xpert Reporting

PXS-PROnPXR

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Power Xpert Software Enterprise Edition
Power Xpert Software Enterprise Edition

PXS-ENT

Power Xpert Software Enterprise Edition w/ 1-day startup

PXS-ENTn1S

Power Xpert Software Enterprise Edition w/ 2-day startup

PXS-ENTn2S

Power Xpert Software Enterprise Edition w/ 5-day startup

PXS-ENTn5S

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Power Xpert Reporting
Power Xpert Reporting—single source DB connection

PXR

Power Xpert Reporting—up to 2 source DB connections

PXR-2DB

Power Xpert Reporting—up to 5 source DB connections

PXR-5DB

Power Xpert Reporting—up to 10 source DB connections

PXR-10DB

Power Xpert Reporting—up to 25 source DB connections

PXR-25DB

Power Xpert Reporting—up to 50 source DB connections

PXR-50DB

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Service Packs
Power Xpert 1-day startup Service Pack

PX-1S

Power Xpert 2-day startup Service Pack

PX-2S

Power Xpert 5-day startup Service Pack

PX-5S

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Metering Devices, Protective Relays, Software and Connectivity
Monitoring Software and Reporting

Technical Data and Specifications
Hardware Requirements
Power Xpert Software (PXS) requires a server-class machine
with the following minimum hardware specifications:
Hardware

Specification

Processor

2.8 GHz, dual-core processor

Memory

2 GB allocated for PXS (allocate 3 GB
of memory to a virtual machine session
running PXS)

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Disk space required for application

The PXS application itself requires 190 MB of
disk storage

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Disk space required for database

A typical database will grow to 2 GB within a
year. If you have a large number of devices,
reserve additional storage space

Video resolution

1280 by 1024 pixels or higher

9

Removable media

DVD RO driv

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You may wish to add the following hardware as well:

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Local printer
Sound card (if sounds are assigned to specific
alarm conditions)
Modem (for remote alarm notification to machines
not available via your network)

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Software Requirements
Supported operating systems
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Software components
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IIS 5.0 or higher (must be installed prior to installing PXS; for
Windows 7 and Windows Server 2008, this is installed
automatically)
Microsoft Internet Explorer® 7.0 or 8.0

Third-Party Software Installed
The following Microsoft software is also installed during the
PXS installation.
●

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Microsoft® Windows Server 2003 R2 (Standard or Enterprise)
32-bit edition
Microsoft Windows XP Professional (32-bit) with
Service Pack 3, 32-bit
Windows Server 2008 (Standard or Enterprise),
32-bit or 64-bit
Windows Server 2008 R2 (Server or Enterprise),
32-bit or 64-bit
Windows 7 Professional, Ultimate or Enterprise editions,
either 32-bit or 64-bit

●

.NET Framework 3.5 SP1
Windows Installer 4.5
C++ Runtime Library 2008
Microsoft Data Access 2.8
SQL Server 2008 Express SP2
SQL Server 2005 Express Management Studio SP2

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Volume 3—Power Distribution and Control Assemblies

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Contents

Metering Products Family

Description
Metering Products Family
Power Xpert Meter 4000/6000/8000 Series . . . . . .
Power Xpert Meter 2000 Series . . . . . . . . . . . . . . .
IQ 250/260 Series Electronic Power Meters. . . . . .
IQ 130/140/150 Series Electronic Power Meters . .
IQ 150S/250S Self-Enclosed Electronic Meters . . .
IQ 35M . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ Analyzer 6400/6600 Series . . . . . . . . . . . . . . . .
IQ DP-4000 Series . . . . . . . . . . . . . . . . . . . . . . . . .
IQ 230 Meters . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Xpert Multi-Point Meter . . . . . . . . . . . . . . . .
IQ Energy Sentinel™ . . . . . . . . . . . . . . . . . . . . . . .
PM3 Monitoring and Metering Module . . . . . . . . .
Current Transformers (CTs). . . . . . . . . . . . . . . . . . .
Clamp-On Current Transformers . . . . . . . . . . . . . . .
IQ Flange . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Panel Mounting Adapter Kit . . . . . . . . . . . . . . . . . .
Enclosed Meters. . . . . . . . . . . . . . . . . . . . . . . . . . .

Product Overview

Features and Benefits

Eaton’s metering products
provide solutions needed
to monitor and manage all
aspects of an electrical
distribution system.

Greater Reliability

When greater reliability,
increased productivity and
significant cost savings
are called for to remain
competitive in today’s
market, Eaton’s metering
products fit the bill. These
innovative meters and
communications systems,
along with Power
Management software, make
it possible to successfully
take control of the electrical
distribution system.

Power Xpert Meters
Power Xpert Meters are
the benchmark for intelligent
Web-enabled top-quality
metering devices for the
power system. Power Xpert
Meters provide measurement
of the critical elements found
in the power system, whether
that be voltage, power,
current, transients, harmonics
or even time. Power Xpert
Meters provide Web-enabled
communications for use with
the Power Xpert Software.
All Power Xpert Meters
provide a standard
communications protocol
for easy integration into
other systems.

Eaton’s metering products
give the ability to receive an
early warning of potential
problems, eliminate
unnecessary trips, isolate
faults to ensure minimum
downtime and shed or
equalize loads while a
problem is being corrected.

Increased Productivity
Equipment downtime
resulting from voltage or
frequency variations can be
very costly to an operation.
Monitoring power quality
with Eaton’s metering
products throughout the
electrical distribution system
provides data to identify,
isolate and correct problems
quickly and efficiently.

Page

V3-T9-30
V3-T9-49
V3-T9-60
V3-T9-66
V3-T9-71
V3-T9-76
V3-T9-79
V3-T9-87
V3-T9-93
V3-T9-100
V3-T9-112
V3-T9-121
V3-T9-122
V3-T9-131
V3-T9-134
V3-T9-135
V3-T9-136

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Reduced Energy and
Operating Costs
When we think about meters
and power quality, the
common thread throughout
the basket of solutions is
information. Collecting,
monitoring and managing data
from the electrical distribution
system can help reduce costs
for those facilities prepared to
define and analyze present
electrical energy usage levels
and patterns. Data provided by
Eaton’s metering products
comprise the data for verifying
utility bills for energy
management and lowering
operating costs. Deregulation
in some geographical
locations permits energy
users to select a utility
provider and negotiate rate
structures. For large users
with heavy utility bills, this
may be an incentive to verify
the utility bill, identify an
opportunity for savings,
negotiate a better utility rate
and apply the savings directly
to the bottom line. Users are
also empowered to decrease
energy consumption, thereby
lowering peak demand
charges and decreasing
operating costs.

When an Eaton meter is used
with Eaton trip units and
relays incorporating built-in
metering capabilities, the
entire electrical distribution
system can be costeffectively managed.
Eaton is an industry
leader offering a complete
integrated solution to oversee
your entire electrical
distribution system. As a
global manufacturer of
low and medium voltage
electrical distribution system
equipment and components,
Eaton is an experienced
innovator of metering
products that incorporate
cutting-edge technology.
These innovations result
from our scientific and
engineering expertise,
physical resources and the
ongoing R&D programs at
our technology centers.

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CA08100004E—November 2013

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9.3

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

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Product Selection Guide

9

Metering Selection Chart
Power Xpert Meter 4000/6000/8000 Series

Power Xpert Meter 2000 Series

IQ 250/260 Series

V3-T9-30

V3-T9-49

V3-T9-60

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Device Name
Accessories
See Page V3-T9-131
Section Page Number
Electrical Parameters

9

Volts

0.1% of RV + 0.02% FS

0.1% of RV

0.1% of RV

Amperes

0.05% of RV + 0.01% FS

0.1% of RV

0.1% of RV

9

Current range (% of nominal)

0.005–20A (400%)

0.1–200%

0.1–200%

Watts

0.1% of RV + 0.0025% FS

0.2% of RV

0.2% of RV

VARs

0.1% of RV + 0.0025% FS

0.2% of RV

0.2% of RV

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VA

0.1% of RV + 0.0025% FS

0.2% of RV

0.2% of RV

PF-apparent

0.1%

0.2% of RV

0.2% of RV

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PF-displacement

0.1%

—

—

Frequency

±0.01 Hz

±0.03 Hz

±0.03 Hz

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THD-voltage

127th

40th 2345

40th 6

THD-current

127th

40th 2345

40th 6

Watthours

±0.2% per ANSI C12.20 0.2 Class 1

±0.2% per ANSI C12.20 0.2 Class 1

±0.2% per ANSI C12.20 0.2 Class 1

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VAR-hours

±0.2% per ANSI C12.20 0.2 Class 1

±0.2% per ANSI C12.20 0.2 Class 1

±0.2% per ANSI C12.20 0.2 Class 1

Class 1

1

±0.2% per ANSI C12.20 0.2 Class 1

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Ampere-demand

0.05% of RV + 0.01% FS

±0.1% per ANSI C12.20 0.2 Class

Watt-demand

±0.2% per ANSI C12.20 0.2 Class 1

±0.2% per ANSI C12.20 0.2 Class 1

±0.2% per ANSI C12.20 0.2 Class 1

VAR-demand

±0.2% per ANSI C12.20 0.2

Class 1

1

±0.2% per ANSI C12.20 0.2 Class 1

VA-demand

±0.2% per ANSI C12.20 0.2 Class 1

±0.2% per ANSI C12.20 0.2 Class 1

±0.2% per ANSI C12.20 0.2 Class 1

Revenue accuracy

±0.2% per ANSI C12.20 0.2 Class 1

ANSI C12.20 (0.2%)

ANSI C12.20 (0.2%)

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VA-hours

±0.2% per ANSI C12.20 0.2

±0.2% per ANSI C12.20 0.2 Class

±0.2% per ANSI C12.20 0.2 Class

±0.1% per ANSI C12.20 0.2 Class

9

Individual ampere harmonics

85th 7

40th 345

—

Individual voltage harmonics

85th 7

40th 345

—

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Interharmonics

Yes

—

—

Minimum and/or Maximum Values

9

Volts

L-L, L-N, N-G, VAUX L-L

L-L, L-N

L-L, L-N

9

Current

A, B, C, N, G

A, B, C, N

A, B, C

Power

Watt, VAR, VA

Watt, VAR, VA

Watt, VAR, VA

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Power Factor

Apparent/displacement

Apparent

Apparent

Frequency

Hertz

Hertz

Hertz

9

THD

Amperes/volts (L-L, L-N, AUX L-L)

Amperes/volts 2345

Amperes/volts 6

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Demand values

kW, kVAR, kVA, amperes

kW, kVAR, kVA, amperes

kW, kVAR, kVA, amperes

Trend analysis

2 / 4 8 / 8 9 GB

256 / 512 2 / 768 345 MB

128 KB j

Event logging

2 / 4 8 / 8 9 GB

100,000 alarms/events with timestamp

k

Disturbance recording

48

9 GB

2/
/8
60 cycles per event

Notes
1 Under typical operating conditions.
2 PXM 2260 only.
3 PXM 2270 only.
4 PXM 2280 only.
5 PXM 2290 only.
6 IQ 260 only.

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k

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V3-T9-22

45

768 MB
up to 64 cycles per event 45

Individual values reported to 85th
harmonic; anti-alias filtering prevents
higher frequencies from distorting
readings (see IEC 61000-4-7).
PMX 6000 only.
PXM 8000 only.
Optional.
At computer only.

Volume 3—Power Distribution and Control Assemblies

—

Legend: PG = Programmable
FS
= Full scale
RV
= Read value
Auxiliary voltage
(optional)
= Provides three additional voltage inputs to the
meter: Va2, Vb2, Vc2.
Interharmonics = Power Xpert Meter 6000/8000 supported.

CA08100004E—November 2013

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Metering Selection Chart, continued
Power Xpert Meter 4000/6000/8000 Series

Power Xpert Meter 2000 Series

9

IQ 250/260 Series

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Device Name
Accessories
See Page V3-T9-131
Section Page Number

9
V3-T9-30

V3-T9-49

V3-T9-60

Storage

2 / 4 1 / 8 2 GB

256 / 512 3 / 768 4 MB Standard

128 KB for logging, up to 8 parameters every 15
minutes for 30 days

PG output relays

5 maximum

Optional (2) Form C, 5A or (4) Form A, 120 mA

Optional (2) Form C, 5A or (4) Form A, 120 mA

PG analog outputs

—

Optional (4) 4–20 mA or (4) 0–1 mA

Optional (4) 4–20 mA or (4) 0–1 mA

Discrete contact inputs

8

Optional (2) or (4)

Optional (2) or (4)

Analog inputs

—

—

—

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Other Features

Synch-input kW utility

Via status input

Via end of interval pulse with optional digital inputs Via end of interval pulse with optional digital inputs

Yes

—

—

Yes

Yes

Yes

Waveform display

Local/computer

6

—

Waveform capture, samples/cycle

Yes, 512 (4096 oversampling)

Yes, up to 64 7, up to 512 8

—

Frequency distribution display

—

—

—

Display type

LCD 9

Red LED

Red LED

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Display lines/character

Graphic (320 x 240 pixels)

3 lines, 4 characters

3 lines, 4 characters

Display character height

5.5 mm H x 4 mm W

0.56 (14.2) H

0.56 (14.2) H

Communications

Serial: Modbus RTU, Modbus ASCII
9 Network: Modbus TCP, Ethernet TCP/IP,
HTTP, SNMP, SMTP, FTP, DNP 3.0

Serial: Modbus RTU, Modbus ASCII, DNP 3.0
Network: Modbus TCP, BACnet/IP, Ethernet TCP/IP,
HTTP, HTTPS, SNMP, SMTP, 78 Waveform FTP

Serial: Modbus RTU, Modbus ASCII, DNP 3.0
Network: Modbus TCP via Power Xpert Gateway

Setup configuration

Via Web browser/display

Via Web browser/display

Via configuration software/display

Dimensions

Refer to TD02601007E

Refer to TD02601017E

Refer to TD02601016E

Operating temperature range

–20° to 60°C display unit
–20° to 70°C meter base unit

–20° to 70°C

–20° to 70°C

Reference literature

TD02601007E

TD02601017E

TD02601016E

Notes
1 PXM 6000 only.
2 PXM 8000 only.
3 PXM 2260 only.
4 PXM 2270 only.
5 The auxiliary voltage option adds three additional voltage
input channels to Power Xpert Meters.
6 At computer only.
7 PXM 2280 only.
8 PXM 2290 only.
9 Optional

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Auxiliary voltage 5
kWh pulse initiator

9

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9

Legend: PG = Programmable
FS
= Full scale
RV
= Read value
Auxiliary voltage
(optional)
= Provides three additional voltage inputs to the
meter: Va2, Vb2, Vc2.
Interharmonics = Power Xpert Meter 6000/8000 supported.

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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V3-T9-23

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Metering Selection Chart, continued
IQ 130/140/150 Series

IQ 150S/250S Series

IQ 35M Series

V3-T9-66

V3-T9-71

V3-T9-76

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Device Name
Accessories
See Page V3-T9-131
Section Page Number

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Electrical Parameters
Volts

±0.25% of RV

0.1% of RV

0.4% +0.015% per °C deviation from 25°C

Amperes

±0.25% of RV

0.1% of RV

0.4% (5–100%), 0.8% (1–5%) +0.015% per °C from 25°C

9

Current range (% of nominal)

0.1–200%

0.1–200%

1–120%

Watts

0.5% of RV 1

0.2% of RV

0.5% per ANSI C12.20 and IEC 62053-22 Class 0.5S

9

VARs

0.5% of RV 1

0.2% of RV

2.0% per IEC 62053-23 Class 2

VA

0.5% of RV 1

0.2% of RV

Calculated: vector sum of watts and VARs

PF-apparent

0.5% of RV 1

0.2% of RV

Calculated: Watts / VAs

PF-displacement

—

—

—

±0.03 Hz

±0.02 Hz

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9

1

Frequency

±0.03% Hz

9

THD-voltage

—

—

—

THD-current

—

—

—

9

Watthours

±0.5% per ANSI C12.20 0.5 Class 2

±0.2% per ANSI C12.20 0.2 Class

0.5% per ANSI C12.20 and IEC 62053-22 Class 0.5S

Varhours

±0.5% per ANSI C12.20 0.5 Class 2

±0.2% per ANSI C12.20 0.2 Class

±2.0% per IEC 62053-23 Class 2

VA-hours

±0.5% per ANSI C12.20 0.5 Class 2

±0.2% per ANSI C12.20 0.2 Class

—

Ampere-demand

±0.5% per ANSI C12.20 0.5 Class 2

±0.1% per ANSI C12.20 0.2 Class

—

Watt-demand

±0.5% per ANSI C12.20 0.5 Class 2

±0.2% per ANSI C12.20 0.2 Class

0.5% per ANSI C12.20 and IEC 62053-22
Class 0.5S

VAR-demand

±0.5% per ANSI C12.20 0.5 Class 2

±0.2% per ANSI C12.20 0.2 Class

2.0% per IEC 62053-23 Class 2

9

VA-demand

±0.5% per ANSI C12.20 0.5 Class 2

±0.2% per ANSI C12.20 0.2 Class

Calculated: vector sum of watts and VARs

Revenue accuracy

ANSI C12.20 (0.5%)

ANSI C12.20 (0.2%)

0.5% per ANSI C12.20 and IEC 62053-22 Class 0.5S

9

Individual ampere harmonics

—

—

—

Individual voltage harmonics

—

—

—

Interharmonics

—

—

—

L-L, L-N

—

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Minimum and/or Maximum Values
Volts

L-L, L-N

Current

A, B, C

A, B, C

—

Power

Watt, VAR, VA

Watt, VAR, VA

—

Power factor

Apparent 1

Apparent

Apparent (low alert)

Frequency

Hertz 1

Hertz

Hertz (out of range alert)

THD

Ampere/Volts

—

—

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Demand values

kW, kVAR, kVA, amperes 1

kW, kVAR, kVA, amperes

kW, kVAR, kVA; Maximum kW, kVAR, kVA

Trend analysis

3

2 MB 5

—

9

Event logging

3

2 MB 5

Logging on demand interval or Modbus command 4

Disturbance recording

—

—

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9

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9
9

—

Legend: PG
FS
RV

Notes
1 IQ 140 and IQ 150.
2 IQ 150 only.
3 At computer only.
4 Optional.
5 IQ 250S only.

= Programmable
= Full scale
= Read value

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Metering Selection Chart, continued
IQ 130/140/150 Series

IQ 150S/250S Series

9

IQ 35M Series

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9

Device Name
Accessories
See Page V3-T9-131
Section Page Number

9
V3-T9-66

V3-T9-71

V3-T9-76

Storage

—

2 MB 2

10 registers (16 bit) by 5760 entries each (115 KB) 1

PG output relays

—

—

—

9

Other Features

PG analog outputs

—

—

—

Discrete contact inputs

—

—

2 pulse inputs with BACnet

Analog inputs

—

—

—

Synch-input kW Utility

—

—

Optional demand synchronization via Modbus

Auxiliary voltage 3

—

—

—

kWh pulse initiator

1

Yes

Yes

Waveform display

—

—

—

Waveform capture

—

—

—

Frequency distribution display

—

—

—

Display type

Red LED

Red LED

Backlit LCD

Display lines/character

3 lines, 4 characters

3 lines, 4 characters

2 lines by 5 characters ea (full alphanumeric top row)

9
9
9
9
9
9
9

Display character height

0.56 (14.2) H

0.56 (14.2) H

7.5 mm

9

Communications

Serial: Modbus RTU, Modbus ASCII 1
Network: Modbus TCP 1

Serial: Modbus RTU, Modbus ASCII, DNP 3.0
Network: Modbus TCP, wired or wireless

Serial: Modbus RTU 1, BACnet MS/TP 1
Network: Modbus TCP via Power Xpert Gateway

9
9

Setup configuration

Via configuration software/display

Via configuration software/display

Via display/configuration software

Dimensions

4.85 (123.2) H x 4.85 (123.2) W x 4.97 (126.2) D

7.90 (200.7) H x 7.50 (190.5) W x 3.10 (78.7) D

3.60 (91.4) H x 4.20 (106.7) W x 2.30 (58.4) D

Operating temperature range

–20 to 70°C

–20 to 70°C

–20 to 70°C

Reference literature

TD02601015E

TD02601019E

TD02601015E

Notes
1 Optional.
2 IQ 250S only.
3 The auxiliary voltage option adds three additional voltage input channels to
Power Xpert Meters.

Legend: PG
FS
RV

9
9

= Programmable
= Full scale
= Read value

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V3-T9-25

9.3
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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Metering Selection Chart, continued
IQ Analyzer 6000 Series

IQ DP-4000 Series

IQ 230 Series

V3-T9-79

V3-T9-87

V3-T9-93

Volts

±0.2% FS 1

±0.3% FS

±0.5% FS

Amperes

±0.2% FS 1

±0.3% FS

±0.5% FS

Current range (% of nominal)

3–800%

10–250%

1–200%

Watts

0.4% FS, 6 RV 2

±0.6% FS

±1.0% FS

9
9
9

Device Name
Accessories
See Page V3-T9-131
Section Page Number

9
9
9
9
9
9

Electrical Parameters

VARs

0.4% FS, 6 RV 3

±0.6% FS

±1.0% FS

VA

0.4% FS, 6 RV 2

±0.6% FS

±1.0% FS

PF-apparent

0.8% FS 1

±1.0% FS

±2.0% FS

PF-displacement

0.8% FS 1

±1.0% FS

±2.0% FS

±0.17% FS

±0.1% Hz

1

Frequency

0.04%

9

THD-voltage

50th

31st

—

THD-current

50th

31st

—

9

Watthours

0.5% RV 2

±0.6% FS

±1.0% per ANSI C12

Varhours

1% RV 3

±0.6% FS

±1.0% per ANSI C12

VA-hours

0.5% RV 2

±0.6% FS

±1.0% per ANSI C12

Ampere-demand

±0.2% FS 1

±0.3%

±0.5% per ANSI C12

Watt-demand

±0.4% FS 1

±0.6%

±1.0% per ANSI C12

VAR-demand

±0.4% FS

1

±0.6%

±1.0% per ANSI C12

VA-demand

±0.4% FS 1

±0.6%

±1.0% per ANSI C12

Revenue accuracy

ANSI C12.20 (0.5%)

—

ANSI C12.1 (1%)

Individual ampere harmonics

50th

—

—

Individual voltage harmonics

50th

—

—

Interharmonics

—

—

—

L-L, L-N

L-L, L-N

9
9
9
9
9
9

or 0.01 Hz

Minimum and/or Maximum Values

9

Volts
Current

A, B, C, N, G

A, B, C

A, B, C

9

Power

Watt, VAR, VA

Watt, VAR, VA

Watt, VAR, VA

9

Power factor

Apparent/displacement

Apparent/displacement

Apparent/displacement

Frequency

Hertz

Hertz

Hertz

9
9
9
9
9

L-L, L-N

THD

Amperes/volts

Amperes/volts

—

Demand values

All

All

All

Trend analysis

Time/date

2 alarms

4

Event logging

504 events w/timestamp

4

4

Disturbance recording

10 waveform events

—

Notes
1 From 3–300% of FS.
2 At unity power factory and 5–300% of FS.
3 At a power factor <±0.5 and 5–300% of FS.
4 At computer only.

—

Legend: PG
FS
RV

= Programmable
= Full scale
= Read value

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Volume 3—Power Distribution and Control Assemblies

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Metering Selection Chart, continued
IQ Analyzer 6000 Series

9

IQ 230 Series

IQ DP-4000 Series

9
9

Device Name
Accessories
See Page V3-T9-131
Section Page Number

9
V3-T9-79

V3-T9-87

V3-T9-93

Storage

90 KB

15 parameters

—

PG output relays

(4) 10A Form C 1

(3) 10A Form C 2

(2) 100 mA Form A

9

Other Features

PG analog outputs

(4) 0–10/4–20 mA

—

—

Discrete contact inputs

(3) + 30 Vdc differential

(1) kW Demand 2

(2) +30 Vdc differential

Analog inputs

(1) 0–20/4–20 mA

—

(1) 4–20 mA

Synch-input kW Utility

At device or via communications

At device or via communications 2

Via communications only

Auxiliary voltage

—

—

—

kWh pulse initiator

Yes

Yes 2

Yes

Waveform display

Local 2/computer

—

—

Waveform capture, samples/cycle Yes, 128

9
9
9
9
9
9

—

—

Frequency distribution display

Local 2/computer

—

—

Display type

Graphic LCD with LED backlight

7 Segment LED

Backlit LCD

Display lines/character

7 lines, 147 characters

1 line, 7 characters

4 lines, 20 characters

9

Display character height

Up to 7 lines

1 line

1.60 (40.6) H x.09 (2.3) W

9

Communications

Serial: INCOM 3
Network: via Power Xpert Gateway 3

Serial: INCOM 3
Network: via Power Xpert Gateway 3

Serial: INCOM, Modbus RTU 4
Network: via Power Xpert Gateway

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9

Setup configuration

Via configuration software/display

Via configuration software/display

Via configuration software/display

Dimensions

Refer to TD1702BTE

Refer to TD1703ATE

Refer to TD1706ATE

Operating temperature range

–20° to 70°C

–20° to 70°C

0° to 50°C

Reference literature

—

—

—

Notes
1 Relays programmable to operate on any measured function.
2 Optional.
3 An IPONI is required.
4 IQ 230M only.

Legend: PG
FS
RV

9
9

= Programmable
= Full scale
= Read value

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9

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Metering Selection Chart, continued

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IQ Energy
Sentinel

V3-T9-100

V3-T9-112

Device Name
Accessories
See Page V3-T9-131
Section Page Number

9

Power Xpert
Multi-Point Meter

Electrical Parameters
Volts

±0.2% RV

—

Amperes

±0.2% RV

—

9

Current range (% of nominal)

—

—

Watts

±0.5% RV

±1.0% FS

9

VARs

±0.5% RV

—

VA

±0.5% RV

—

PF-apparent

±0.5% RV

—

9

PF-displacement

—

—

Frequency

±0.1 Hz

—

9

THD-voltage

—

—

THD-current

—

—

9

9

Watthours

±0.5% per ANSI C12.20 0.5 class

±1.0% FS

VAR-hours

±0.5% per ANSI C12.20 0.5 class

—

VA-hours

±0.5% per ANSI C12.20 0.5 class

—

9

Ampere-demand

—

—

Watt-demand

±0.5% per ANSI C12.20 0.5 class

±1.0% FS

9

VAR-demand

±0.5% per ANSI C12.20 0.5 class

—

VA-demand

±0.5% per ANSI C12.20 0.5 class

—

Revenue accuracy

ANSI C12.20 (0.5%)

—

Individual ampere harmonics

—

—

Individual voltage harmonics

—

—

9

Interharmonics

—

—

9

Volts

L-L, L-N

—

Current

A, B, C

—

9

9
9

9

Minimum and/or Maximum Values

Power

Watts, VAR, VA

—

9

Power factor

Apparent

—

Frequency

Hertz

—

9

THD

—

—

Demand values

Watts (Delivered & Received), Watts (Q1–Q4), VA (Q1, —
Q4), VA (Q2, Q3)

Trend analysis

Interval data

1

Event logging

20 latest events and historical

1

Disturbance recording

—

—

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9

Note
1 At computer only.

Legend: PG
FS
RV

= Programmable
= Full scale
= Read value

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Metering Selection Chart, continued
Power Xpert
Multi-Point Meter

9

IQ Energy
Sentinel

9
9

Device Name
Accessories
See Page V3-T9-131
Section Page Number

9
V3-T9-100

V3-T9-112

Storage

256 MB standard, 2 GB optional

—

PG output relays

1 standard, 8 each module 1

—

Discrete contact inputs

3 standard, 8 each module 1

—

Analog inputs

—

—

9

Other Features

9
9
9

Synch-input kW utility

Via communications and digital input

Via communications only

Auxiliary voltage

—

—

kWh pulse initiator

Aggregate or main-digital output, LED output on meter —
modules (accuracy check)

Waveform display

—

—

Waveform capture

—

—

Frequency distribution display

—

—

Display type

LCD color touchscreen 1

—

Display lines/character

6-inch diagonal

—

Display character height

Graphics

—

Communications

Serial: Modbus RTU
Serial: INCOM
1 Network: Modbus TCP, BACnet/IP, Ethernet TCP/IP, Network: via Power Xpert Gateway
HTTP, HTTPS, SNMP, SMTP, SFTP

9

Setup configuration

Via PXMP configuration software

Via configuration software

9

Dimensions

Refer to TD150006EN (see Page V3-T9-110)

Refer to TD1707TE

Operating temperature range

–20° to 70°C

–25° to 70°C

Reference literature

TD150006EN

—

Note
1 Optional.

Legend: PG
FS
RV

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9
9
9
9

9
9

= Programmable
= Full scale
= Read value

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Volume 3—Power Distribution and Control Assemblies

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Power Xpert 4000/6000/8000 Series Display and Meter

Contents
Description
Metering Products Family. . . . . . . . . . . . . . . . . . . . .
Power Xpert Meter 4000/6000/8000 Series
Power Xpert Meter 2000 Series . . . . . . . . . . . . . . . .
IQ 250/260 Series Electronic Power Meters . . . . . .
IQ 130/140/150 Series Electronic Power Meters . . .
IQ 150S/250S Self-Enclosed Electronic Meters . . . .
IQ 35M . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ Analyzer 6400/6600 Series . . . . . . . . . . . . . . . . .
IQ DP-4000 Series . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ 230 Meters . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Xpert Multi-Point Meter . . . . . . . . . . . . . . . . .
IQ Energy Sentinel™ . . . . . . . . . . . . . . . . . . . . . . . .
PM3 Monitoring and Metering Module . . . . . . . . . .
Current Transformers (CTs). . . . . . . . . . . . . . . . . . . .
Clamp-On Current Transformers. . . . . . . . . . . . . . . .
IQ Flange . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Panel Mounting Adapter Kit . . . . . . . . . . . . . . . . . . .
Enclosed Meters . . . . . . . . . . . . . . . . . . . . . . . . . . .

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Page
V3-T9-21

V3-T9-49
V3-T9-60
V3-T9-66
V3-T9-71
V3-T9-76
V3-T9-79
V3-T9-87
V3-T9-93
V3-T9-100
V3-T9-112
V3-T9-121
V3-T9-122
V3-T9-131
V3-T9-134
V3-T9-135
V3-T9-136

An Eaton
Green Solution

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Power Xpert Meter 4000/6000/8000 Series

9

Product Description

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Standards and Certifications

The Power Xpert Meter 4000/
6000/8000 Series monitors
the critical aspects of an
electrical distribution system.
This premier power quality
metering instrument is
simple to use, powerful,
scalable and highly flexible.

Both the local graphic display
and the embedded Web
server present real time,
historical and event
information in a browser-style
graphical format to help the
user interpret key circuit
information, such as:

The Power Xpert Meter 4000/
6000/8000 offers a new level
of intuitive user interface
design, presenting critical
electrical distribution system
information in simple-tonavigate and easy-tounderstand information
architecture. The Power
Xpert Meter 4000/6000/8000
graphic display visualizes
the information from up
to 16 meter modules. The
embedded Web server
displays complex power
quality data using standard
Internet browsers and allows
for device configuration from
the browser.

●

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●
●
●
●
●

●
●

●

Current loading
Voltage and power levels
Power factor
Energy usage
I/O status
Power quality
measurements
Harmonic plots
Disturbance and transient
waveforms
ITIC disturbance summary
screen

The Web server provides the
energy and demand readings
required to help manage
the cost of energy. It also
provides critical information
regarding power quality,
such as harmonic distortion,
flicker, crest factor, K-factor
and more.
Note: Features and functionality
may vary depending on the meter
model and options being used.
Review the Features and Benefits
chart on Page V3-T9-35 for
details.

●

●

●

●

●
●

Safety: EN61010-1,
UL/cUL 61010-1
Accuracy: IEC/EN60687
0.2 Class, ANSI C12.20
0.2 Class
EMC: FCC Part 15
Subpart B Class A EN55011
Class A
Measurement Canada
Approval No. AE-1898
(4000/6000 meters)
Immunity IEC 61326
CE Mark

The Power Xpert Meter 4000/
6000/8000 graphic display
uses a simple “twist and
click” navigation control dial
to easily navigate the menus
and drill down into increasing
levels of important detail.
A “back” key enhances the
browser-like navigation of the
graphic display.

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V3-T9-30

Volume 3—Power Distribution and Control Assemblies

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Application Description
Identify Power Quality
Problems to Help:
●

●

●

●

●

●

●

●

Identify harmonics, sags,
swells and transients
damaging or disrupting
sensitive, mission-critical
IT equipment
Boost IT equipment’s
service life to the
maximum
Analyze sequence of
events up to 1 millisecond
time resolution
Protect motors from
damage
Preserve the integrity of
processes and batches
Prevent blown capacitor
bank fuses
Protect transformers and
conductors from
overheating

Detect and Record HighSpeed Transients to Help:
●

●

Avoid equipment damage
and disruption
Identify equipment
malfunction

Monitor Circuit Loading
to Help:
●

●

●

Avoid overloads and
nuisance overload trips
Maximize equipment
utilization
Manage emergency
overloads

●

Metered/Monitored Parameters
●

●

●

●
●

●
●
●

Volts: L-L, L-N, Avg. L-L,
Avg. L-N, N-G
Phase neutral and
ground currents
Power: real, reactive
and apparent
Frequency
Power factor: apparent
and displacement
Energy
Demand
% THD

●
●
●
●

●
●
●
●

●
●
●
●
●
●

Accuracy
●
Currents: 0.05% RV
+ 0.025%FS
●
Voltage: 0.1% RV
+ 0.025% FS
●
Energy and demand
power: 0.2% in accordance
with ANSI C12.20
●
Frequency: ±0.01 Hertz
●
Power factor:
●
0.10% at Unity PF
●
0.30% at 0.5 PF
Multiple communications
ports including:

Reduce peak demand
charges and power
factor penalties
Identify excessive energy
consumption

Note: See Page V3-T9-35.

●

Communications

Manage Energy Utilization
to Help:
●

●

Minimum and maximum
values
Harmonics
Flicker
Individual harmonics
Interharmonics
% TDD
ITIC events plot, duration,
magnitude
Energy comparisons
Demand comparisons
Event calendar
Event timeline and
sequence
Number of 9s of availability
Phasors
Sequence components
Crest factor
K-factor
PQ Index

Standard
●
RS-485 remote display port
●
RS-485 Modbus RTU
slave port
●
RJ-45 10/100Base-T local
configuration port (local
Web server connection)
●
HTTP (local), FTP,
COMTRADE

For Optional Graphic Display
Note: Display ports provide access
to up to 16 Power Xpert 4000/6000/
8000 Meter modules located on
the display RS-485 network.
●

●

RS-485 meter display
network port
RJ-45 10/100Base-T for
access to Local Display
Power Xpert network

Communication Protocols
Supported
●
Modbus RTU
●
Modbus TCP
●
Ethernet TCP/IP
●
HTML
●
NTP (Network Time
Protocol)
●
FTP (File Transfer Protocol)
●
SMTP (Simple Mail
Transfer Protocol)
●
SNMP (Simple Network
Management Protocol)
●
COMTRADE (IEEE
C37.111-1999)
●
DNP 3.0 over Ethernet
(Distributed Network
Protocol)
Physical Characteristics
Two-Piece Design
●

●

Power Xpert 4000/6000/
8000 Meter modules
Power Xpert Meter 4000/
6000/8000 Graphic Display
320 x 240 pixel backlight
LCD remote graphics
display (supports up to 16
Power Xpert 4000/6000/
8000 Meter modules)

Optional
●
Communications
Expansion Card (CEC
●
Selectable 100FX or
10/100Base-T Ethernet
network port
●
RS-485 Modbus RTU
selectable master/
slave port
●
RS-232 Modbus RTU
slave port

9

Display/Meter
Mounting Options
●

●

Display remotely mounted
up to 2000 ft (1219m) away
from up to 16 Power Xpert
Meter modules
Display and Power Xpert
Meter modules mounted
together on opposite sides
of a panel (15 additional
meter modules can still
be remotely mounted).

Meter Base Unit Characteristics
●
NEMA rating: NEMA 1,
IP30
Display Unit Characteristics
●
NEMA rating: NEMA 12,
IP42 front of panel rating
Ease of Use—Power Xpert
Meter 4000/6000/8000 Graphic
Display (Option)
The Power Xpert Meter 4000/
6000/8000 display features
a large easy-to-read white
backlit graphic LCD. The
information presented by
the display is organized into
an information architecture
that is easy-to-navigate and
organized for simplicity.
Screen navigation is
accomplished using a
navigation control dial and
a “back” button. The user
simply twists the knob on
the navigation control dial
to move between menu
selections and drill down
links on the screen. When
the selection is highlighted,
pressing the dial makes the
selection. Information is
displayed from a single meter
or an RS-485 daisychain of
up to 16 meters. The display
features a rich set of screens
including real-time data, trend
plots, waveform views and an
ITIC Plot. The graphic display
allows basic device setup and
password protected resets.
An audible alarm is available
to annunciate alarm
conditions.

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V3-T9-31

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Power Xpert Meter 4000/6000/
8000 Embedded Web Server
The Power Xpert Meter 4000/
6000/8000 embedded Web
server offers Eaton
customers a new level of
accessibility to the critical
information required to
manage their electrical
distribution system. The Web
server includes real-time
circuit information in both
numeric and graphical visual
formats to help monitor
circuit parameters such as
current loading, voltage and
power levels, power factor,
THD, Flicker and more. The
Web server also provides
energy and demand readings
with graphic usage plots to
help analyze energy usage
patterns. Energy readings
include kWh, kVARh,
delivered and received and
kVAh with time of use and
RTP displays. The interval
energy usage plot includes
the ability to do week-toweek and month-to-month
energy consumption
graphical comparisons for
benchmarking purposes. The
embedded Web server will
also display in simplified
Chinese if connected to a
computer configured for
Chinese language.
Both the Power Xpert Meter
4000/6000/8000 embedded
Web server and the local
graphic display support
graphical trend charts of key
circuit measurements such
as current, voltage, power
and energy. The trend chart
supports a zoom feature that
allows the user to view data
over a short period of 16
hours up to 4 years. The trend
chart includes zoom in/out
buttons and a horizontal slider
bar control to manage
scrolling forward and backward
through the data. Trend charts
of basic readings include
minimum, maximum and
average readings. Trend
charts of interval by interval
energy data also display
peak demand.

Sag/Swell/Transient Capture
and Recording
60 cycles of waveform are
oversampled at 4096 samples
per cycle (Power Xpert Meter
4000/6000), filtered through
anti-aliasing and recorded at
512 samples per cycle and
post event data. The Power
Xpert Meter 8000 samples at
a rate of 100,000 samples per
cycle. Embedded Web server
supports viewing of triggered
waveforms one channel at a
time and includes the ability to
zoom and to scroll horizontally
using a slider bar.
The Power Xpert Meter
6000/8000 Series have
preconfigured (600 volts and
below) trigger settings for
sags, swells and transients,
and do not require additional
setup by the user. Waveforms
are stored in non-volatile flash
memory using an industry
standard COMTRADE
format. Waveforms can be
automatically sent out as
COMTRADE attachments to
an e-mail following an event,
or can be retrieved from an
FTP (File Transfer Protocol)
directory structure in
the Power Xpert meter
module’s memory.
Historical Trend Logging
The Power Xpert Meter 4000/
6000/8000 records historical
data for graphical viewing
from the Local display or
the embedded Web server.
Graphical views of historical
data support pan and zoom.
145 standard metering
parameters are logged as
part of the standard meter
functionality including min./
max. and average for each
parameter. The averages are
calculated over the interval
period. The minimum and
maximum readings are based
on 200 ms calculations.

Storage capacity for standard
trend plots includes all of the
following intervals:
●

●

●

●

●

Every 5 minutes for
48 hours (2 days)
Every 15 minutes for
192 hours (4 days)
Every hour for 28 days
(4 weeks)
Every 8 hours for
56 weeks
Every week for 44 months

Note: Trend plot data can be
easily exported to third-party
applications, such as Microsoft
Excel in csv-file format.

In addition, metered
parameters are automatically
stored on the built-in FTP
Servers, where they can be
easily copied and imported
into third-party applications
for benchmarking and
analysis. Logs on the FTP
Server include the min./max.
and average for 145 standard
metering parameters at
5-minute intervals.
Storage capacity for
trend data:
●

●

6 days of 5-minute
interval trend data
Capacity=18,144 intervals

Energy Profile Data
The Power Xpert Meter 4000/
6000/8000 records Real and
Reactive energy forward,
reverse, net and absolute
sum, as well as Apparent
energy (kVAH). Up to 8 status
inputs can be configured as
energy accumulators for
counting KYZ pulse inputs
(option). These readings are
stored over a configurable
interval from 1 to 60 minutes,
as well as in daily and
weekly totals.

With the optional LAN/WAN
Ethernet Communication
Expansion Card (CEC), users
can easily configure the
meters to send periodic
e-mails at user-defined
intervals of energy
consumption and power
demand. E-mails contain
a summary of readings per
rate structures and also have
the actual measurements
attached to the E-mail’s
body as a CSV file in a
ZIP container.
In addition, metered
parameters are automatically
stored on the built-in FTP
Server, where they can be
easily copied and imported
into third-party applications
for benchmarking and
analysis. Logs on the FTP
Server include energy
consumption logs, one
for every month in CSV
file format, trended
measurement logs also
in CSV file format and
waveform captures in
COMTRADE file format.
Storage capacity for energy
profile data:
●

●

●

●

62 days of 15 minute
interval energy and pulse
interval data.
Fixed interval capacity
= 5952 intervals.
Configurable intervals
from 1 to 60 min
372 days of 1 day
accumulated energy and
pulse interval data
208 weeks of 1 week
accumulated energy
and pulse interval data

Energy and Demand
Comparisons
Energy and demand usage
patterns can be analyzed with
the month-to-month, weekto-week comparison chart
built into the meter. Raw
data can be exported with
the “Save Table” option to
other applications, such as
Excel, for further analysis
and graphing.

Note: For remote access and
networking capabilities such as
connecting to a LAN/WAN, use
the optional Communications
Expansion Card (CEC).

V3-T9-32

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Power Xpert Meter Profiler—Free Download
The Power Xpert Meter
areas of concern. It is also a
Profiler software allows you
predictor. It can predict what
to compare “expected”
energy consumption would
energy consumption patterns
be expected later in a day.
to present usage and flag

Event Triggers
The Power Xpert Meter
4000/6000/8000 supports
five types of configurable
event triggers:
●

●

●

●
●

Out of limits (4000/6000/
8000)
Demand overload (4000/
6000/8000)
Sub-cycle disturbance
(4000/6000/8000)
ITIC (6000/8000)
Fast transient (8000)

These triggers permit pickup,
reset and pickup delay to
be configured by the user.
When a trigger occurs,
actions include Performance
Monitoring (#9’s analysis),
Capturing Waveform, Capture
Parameters, Send Email and
Operate a Relay Output. The
Graphic Display flashes an
LED to annunciate the alarm
condition. An audible alarm is
also available.

Event Logging
The optional Power Xpert
Meter 4000/6000/8000
Local graphic display or the
embedded Web server both
allow the user to view a list of
triggered events along with
any captured parameters,
event details and triggered
waveforms. In addition, a
separate event log includes a
variety of activities including
acknowledged triggers, new
min. and max. events, and
system operations such as
resets. The size of the event
log is virtually unlimited based
only on the memory option
selected.

9.3

E-mail Notification
With the optional LAN/WAN
Ethernet Communication
Expansion Card (CEC)
attached to the Power Xpert
Meter 4000/6000/8000’s, the
users can easily configure
the meters to send periodic
emails at user-defined
intervals for energy
consumption and power
demand. Emails contain a
summary of readings per
rate structures and also have
the actual measurements
attached to the email’s
body as a CSV file in a ZIP
container. Prompt alarm
emails can also be sent for
any event condition either
standard in the meter or ones
set up by the user based on
thresholds, dV/dt triggers or
IO status changes with the
optional IO Card. Alarm
emails can be configured
to have the COMTRADE
waveform capture attached
to the e-mail’s body.

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9

Periodic Email Message

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9

Trigger options include:
●

●

●
●

●

Out of limits: over
100 triggers
Demand overload:
10 triggers
ITIC: 8 triggers
Fast transient: dV/dT and
absolute per phase
Sub-cycle disturbance—
dV/dt and absolute

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

V3-T9-33

9.3
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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

ITIC Analysis Plot
The Power Xpert Meter
graphic display (option) and
Web server include a graphic
representation of the ITIC plot
(Power Xpert Meter 6000/
8000) with counts of
disturbances and transients
that have occurred. The ITIC
plot organizes events into
8 distinct disturbance zones
corresponding to severity and
a 9th zone for transients. A
pass/fail count is displayed
to indicate how many events
are outside the ITIC limits.
Clicking on any counter in the
ITIC Web page will link the
user to the event view and
display all triggered events
in the selected zone.

This makes it simple to view
disturbance waveforms
associated with the ITIC plot.

9

Eight digital inputs—
self sourced 24 Vdc

displayed graphically. Outputs
can be used for KYZ, or alarm
annunciation.
Ratings
●
Application to 500 kV,
no PTs to 600V
●
CT ratios selectable from
standard 120/600 Vac line
●
CT inputs accept 5A
secondary
●
Power supply:
●
Standard 120/240 Vac
or 110/250 Vdc

Power Xpert Meter 4000/6000/8000 Estimated Memory and Storage Capacity with 2/4/8 GB Memory Capacity
Occurrence Per Month 1

Memory Usage (MB)

Months of Capacity 2

Model

Memory

Event

File Size (KB)

Typical

Severe

Typical

Severe

Typical

Severe

PXM 4000

2 GB

Subcycle Disturbance

1260

10

60

12.3

73.8

166

28

PXM 6000

4 GB

ITIC Event

1260

5

20

6.2

24.6

666

166

Subcycle Disturbance

1260

10

60

12.3

73.8

333

55

ITIC + Subcycle Disturbance

Total--->

15

80

18.5

98.4

222

42

ITIC Event

1260

5

20

6.2

24.6

1332

333

Subcycle Disturbance

1260

10

60

12.3

73.8

666

111

Transients

2048

3

30

6.0

60.0

1365

137

ITIC + Subcycle Disturbance + Transients

Total--->

18

110

24.5

158.4

335

52

PXM 8000

9
9
9

Each of the 8 inputs are
interrupt driven, allowing
for 1 ms accuracy of digital
events time stamps (1 ms
accuracy requires local NTP
TimeServer). Inputs can also
be configured for demand
synch and pulse counting.
Inputs selected for pulse
counting can be scaled.
Interval by interval pulse
recordings are maintained in
profile memory and can be

Inputs and Outputs
Power Xpert Meter 4000/
6000/8000 is available with
an optional digital I/O card,
which includes:
●

Three relay outputs—
5A max. continuous,
240 Vac max., 30 Vdc max.
Two solid-state outputs—
80 mA max. continuous,
30 Vdc max.

Storage Capacity

9

9

●

A separate ITIC graph is
available to review individual
ITIC events. This graph will
show the user the event
hit position on the graph
and the event duration
and magnitude.

9
9

●

8 GB

Notes
1 The typical and server power quality event occurrences are estimates and may vary depending on the electrical environment.
2 Memory is not allocated by event category; memory is used first come, first served.

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Features and Benefits

9

Power Xpert Meter 4000
●
Harmonics, including
individual harmonics
●
Disturbance capture
●
Low frequency transient
detection and capture
●
Standard power
quality index

Power Xpert Meter 6000
●
Interharmonics
●
Flicker calculations
●
ITIC performance curve
●
Event calendar view
●
Events timeline view
●
Sequence of events
waveform plot
●
Enhanced power
quality index

Power Xpert Meter 8000
●
Impulsive transient
capture at 6 MHz
●
100,000 samples
per cycle
●
Premium power
quality index

9
9
9
9
9
9

Power Xpert Meter 4000/6000/8000

9

Power Xpert Meter
Feature

4000

6000

8000

Benefit

9

General
Embedded Web server

■

■

■

Use a standard Web browser to monitor and manage the meter over the network, Internet

TOU metering support

■

■

■

Time of usage can be set up to support 4 different schedules

Firmware flash update support

■

■

■

Enables you to flash the meter with the latest firmware updates

Self-learning capability (characterizes “normal” per circuit)

■

■

■

The meter can automatically adjust to the environment and alarm only when
“real” events occur

Voltage, current: per phase minimum, maximum, average, trend graph analysis, ■
export, print

■

■

Review voltage and current trends, export, print and analyze parameters right on the meter
or external software

Energy and demand plot comparisons month-to-month, week-to-week

■

■

■

Plot two months or two weeks for vivid energy or demand comparison

Power: power factor, apparent, real, reactive, frequency

■

■

■

Review power usage and power factor and avoid potential PF penalties

Energy, demand: forward, reverse, net, sum, tou, profile, previous month
comparison, graph analysis, export, print

■

■

■

Keep track of your energy usage, compare time of usage and usage against previous month,
identify peaks to conserve energy usage

Statistical analysis (min., max., average)

■

■

■

Review statistical trends, identify past and future problem areas

Sag and swell monitoring, management and recording

■

■

■

Capture electrical sags and swells and analyze the waveforms

Symmetrical Components: Zero, Negative, Positive

■

■

■

Analyze possibly unbalanced three-phase power systems

Low frequency transient detection and capture

■

■

■

Capture lower frequency transient waveforms for retrospective analysis or e-mailing

Sampling rate, maximum samples/cycle

4096 1

4096 1

100,000

Extremely high sampling rate will effectively capture impulsive transients

“Number of Nines” uptime data (e.g., 6 nines = 99.9999%)

■

■

■

Review uptime availability per cent

K-factor

■

■

■

Review the ratio of eddy current losses, e.g., when driving nonlinear and linear loads

Crest factor

■

■

■

Review the peak-to-average ratio of the waveform

■

■

■

Define appropriate security access level per user

9

Modbus TCP

■

■

■

Easy integration with standard protocol to power management and other software

9

Modbus RTU

■

■

■

Integrate meters to existing Modbus networks, daisy chain several (1–16) meters together

HTML

■

■

■

Communicate to the meter over the Internet via standard Web browser

SNMP (simple network management protocol)

■

■

■

Communicate with the meter via Simple Network Protocol; hook to existing NMS system

SMTP (simple mail transfer protocol)

■

■

■

Send e-mail messages via standard Simple Mail Transfer Protocol

FTP (file transfer protocol)

■

■

■

Access, copy, paste, cut waveform capture files on the meter with an FTP Client

NTP (network time protocol)

■

■

■

Network Time Protocol support enables the meter to synchronize time over the network up
to the 1 millisecond resolution

COMTRADE, open IEEE Standard file format for
Waveform capture export

■

■

■

Import waveform captures in standard IEEE (C37.111-1999) COMTRADE file format to thirdparty software

DNP 3.0 over Ethernet (Distributed Network Protocol)

■

■

■

Communicate with the meter via DNP 3.0 over Ethernet; hook to existing utility systems

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9
9

Power, Energy and Demand

9
9
9
9

Power Quality Analysis

9
9

Communications and I/O

CA08100004E—November 2013

www.eaton.com

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Notes
These specifications are subject to change without notice and represent the maximum capabilities of the product with all options installed. This is not a complete feature list. Features and functionality
may vary depending on selected options, firmware version and product model. Please refer to the technical data sheet and User Manual for detailed specifications.
1 Delta-Sigma A/D oversampling rate.

Volume 3—Power Distribution and Control Assemblies

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Security
Secure 5 level user access privileges

9

V3-T9-35

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9.3
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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Power Xpert Meter 4000/6000/8000, continued
Power Xpert Meter
Feature

4000

6000

8000

Benefit

Communications and I/O, continued)

9

Trend measurements CSV file export

■

■

■

Easily export trend measurements to third-party applications, e.g., Microsoft Excel in
standard CSV file format

9

I/O (8 digital inputs, 3 relay outputs, 2 solid-state KYZ outputs)

■

■

■

The Power Xpert I/O Card is extremely flexible and can be used in a large variety of
different applications. Digital inputs and relay outputs can be programmed to interact
during various conditions defined by the user. Various third-party devices, such as
alarm, pulse meters, trip units, sensors can be easily integrated to the Power Xpert
Meter. Triggers and events can be tied to the meters standard functions such as e-mail,
logs and trends

9
9

Time Synchronization

9

NTP time synchronization up to 1 millisecond accuracy

■

■

■

Network Time Protocol support enables the meter to synchronize time over the network up
to the 1 millisecond resolution

9

GPS time synchronization up to 1 millisecond accuracy

■1

■1

■1

The GPS option allows the meter to synchronize time over the GPS satellite positioning
system up to the 1 millisecond resolution

9

Logs
Trend logging

■

■

■

Log trend information for easy statistical analysis

9

Load profile

■

■

■

Review the load profile graph to get a better understanding of your electrical load
versus time

9

Event logging

■

■

■

Log events for retrospective event analysis

9

Standard memory, GB

2

4

8

Store large amounts of waveform captures and events for historical analysis

9

Memory and Storage

Harmonics
Harmonic levels

127

127

127

Provides extremely fast, high resolution D/A conversion

9

Total harmonic distortion (THD)

■

■

■

Review the total harmonic distortion level directly on the meter

Delta-Sigma D/A conversion technology

■

■

■

Provides extremely fast, high resolution D/A conversion

9

Harmonics over-sampling (4096 samples per cycle)

■

■

■

Over-sampling enables the usage of Anti-Aliasing technology, increasing accuracy

Anti-alias filtering

■

■

■

Technology to remove out-of-band signal components resulting in more accurate data

Individual harmonics

■

■

■

Review individual harmonic levels directly on the meter

Total demand distortion (TDD)

■

■

■

Identify harmful harmonics in e.g. lightly loaded variable-speed drive environments where
THD may be high but not relative

■

■

Interharmonics allow you to see what is going on between the integer multiples of the
fundamental. Zoom in on the harmonics trend graph and review frequency content every
5 Hz instead of every 60 Hz

9
9
9

Interharmonics

9

Highlights
Sub-cycle disturbance capturing

■

■

■

Capture fast voltage changes/low frequency transient (e.g. capacitor switching transient)

9

dV/dt triggers for sub-cycle oscillatory transients

■

■

■

Detect and record a large magnitude oscillation transient resulting in equipment damage

Absolute threshold and dV/dt triggering

■

■

■

Detect and record if a surge suppressor is necessary

Power quality index—standard (includes dv/dt count, %TDDi and %THDv)

■

■

■

Complex power quality data put into simple graphic format

Power quality index—enhanced (includes Standard Index plus Sag level,
Swell level and Flicker)

■

■

Complex power quality data put into simple graphic format (includes ITIC events
and flicker calculations)

Flicker calculations

■

■

Detect and quantify low frequency rms voltage variations causing incandescent
lighting flicker

Automatic trigger setting

■

■

Trigger thresholds are automatically set according to ITIC (CBEMA) standard, no need to
figure this out by yourself

Automatic event severity analysis

■

■

Automatically analyze the severity of the event with the ITIC (CBEMA) performance curve
plot, see where the event actually hit

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9
9
9
9

Notes
These specifications are subject to change without notice and represent the maximum capabilities of the product with all options installed. This is not a complete feature list. Features and functionality
may vary depending on selected options, firmware version and product model. Please refer to the technical data sheet and User Manual for detailed specifications.
1 When used with third-party device and I/O option.

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V3-T9-36

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Power Xpert Meter 4000/6000/8000, continued

9

Power Xpert Meter
Feature

4000

9

6000

8000

Benefit

Event severity counters

■

■

An ITIC (CBEMA) event counter keeps track of the number of all sags, swells and
transients

ITIC (Information Technology Industry Council), previously CBEMA
performance curve

■

■

ITIC (Information Technology Industry Council), previously CBEMA performance curve for
easy power problem evaluation

9

Custom ITIC (CBEMA) plot with individual event magnitude and duration

■

■

Review custom ITIC (CBEMA) plots of individual events showing you the actual
magnitude, duration and hit are in a simple graphical representation

9

Event calendar view

■

■

The Events Timeline calendar view provides instant insight to the frequency of power
events and helps detect reoccurring problems

9

Events timeline view

■

■

View and understand the sequence of events that have occurred during a period of time

Sequence of events and events plot on waveform

■

■

Plot color-coded events on a captured waveform to gain insight into the sequence of
events cycle per cycle

9

■

Complex power quality data put into simple graphic format (includes ITIC events and
flicker calculations)

Highlights, continued

Power quality index—premium (at-a-glance “thermometer” view of
power quality)
High-Speed Transient Capture and Detection
6 MHz capture of impulsive transients

■

Capture impulsive transients by taking 6 samples every millionth of a second

Transient Capture Duration: ~20 ms/6 MHz ~120 ms/1 MHz

■

Record and analyze transients during a longer timeframe

Waveform recorded at 100,000 samples per cycle

■

High-speed ensures impulsive transients are correctly captured (fast rise time)

Three-phase voltage and neutral-to-ground fast transient capture

■

Capture impulsive transients on all 4 channels

9

9
9
9
9

Notes
These specifications are subject to change without notice and represent the maximum capabilities of the product with all options installed. This is not a complete feature list. Features and functionality
may vary depending on selected options, firmware version and product model. Please refer to the technical data sheet and User Manual for detailed specifications.

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

V3-T9-37

9.3
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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Power Xpert 4000/6000/8000 Graphic Display (Option) Features
Highlighting an individual
A menu-driven graphical
reading on the detail
display with information
summary level screen and
organized into a user-friendly
selecting it drills down to a
information architecture.
level including links to min./
The homepage (see below)
max., historical trend plots,
offers:
triggers, harmonic spectral
data and waveform viewing.
●
Graphical level indicator
Selecting the trend plot for
based on a statistical
a given parameter displays
analysis for three-phase
a historical graph of the
line-to-line and line-toselected parameter over
neutral voltage and per
the last 16 hours. The zoom
phase currents to quickly
buttons change the time
indicate out of normal
scale to one of several data
readings
views based on historical
●
Large easy-to-read average
averages with min./max. The
L-L voltage average phase
Pan button allows scrolling
currents and system
within the selected view.
frequency can be
highlighted and selected
using the navigation
control dial to drill down
for additional detail
●
Menu selections for meter,
power, quality, events and
setup are shown for ease
of navigation into display
for more detail, or basic
device setup
Trend Plot

9

Waveforms can be displayed
for currents and voltages.
The waveforms can be
viewed on demand for
steady-state conditions.
Triggered waveforms can
also be displayed to view
sag/swell or transient data.

9
9
9
9
9
9
9

Harmonic Spectrum

The harmonic spectral plot
displays both harmonics and
interharmonics up to the
85th order. A detailed table
also includes individual
magnitudes and angles
of current and voltage
harmonics, as well as a
harmonic power calculation
at each frequency.

Ethernet Settings

Ethernet and other settings
can be input or verified via
the Power Xpert Meter
LCD display.
Note: Some of the other settings
are specific only to the Web
Browser GUI.

Homepage

Highlighting a field such as
the avg. current value and
pressing the navigation control
dial brings up a detail screen
like the one below.

9
Waveform Viewer

9

ITIC Plot (Power Xpert 6000/8000)

9
9
9

Current Summary

9
9

The Power Xpert Meter
classifies disturbances and
summarizes the results
graphically using the ITIC plot.
The number of ITIC sags and
swells are indicated for each
of nine severity levels.
A pass/fail summary is
shown to indicate how many
events are outside the ITIC
pass zone.

9
V3-T9-38

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

9.3

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Power Xpert Graphic Display
(Option) Screens
Meter Top Level Screen

Power Xpert 4000/6000/8000 Web Browser Views

9
9

V-LL avg, V-LN avg, IA, IB, IC,
Iavg, freq.

9

Meter Detail Screens

9

Per phase detail L-L, L-N,
Symmetrical Comp, Aux.
Channels, Min./Max. with
date/time of occurrence,
Trend Plots, Triggers,
Phasors.

9
Power Xpert 4000/6000/8000 Web
Browser Homepage (Note: 4000 does
not include flicker, ITIC)

Power Top Level Screen
Three-Phase Power Factor,
kWHr, kWd, Real-Time kW,
kVAR, kVA, Load Profile Link.
Power Detail Screens
Per phase detail, kVA, kVAR,
kW, Min./Max. with date/
time of occurrence, Trend
Plots, Triggers.
Quality Top Level Screen
10 min. and 24 hr. PQIndex,
THDI, THDV, K-factor, Crest
Factor, Flicker Pst,%9’s of
Reliability.
Quality Detail Screens
Per phase detail L-L,
L-N,V aux, Odd, Even,
Interharmonics, Present,
Min/Max, Trend Plots,
Harmonic spectrum plots,
waveform plots.
Events Top Level Screen
Active/Acknowledged Event
list, Trigger List, System Log,
ITIC Curve Link.

Power Xpert Meter 4000/
6000/8000’s embedded
Web server offers Eaton
customers a new level of
accessibility to the critical
information required to
manage the electrical
distribution system. The
embedded Web server
includes real-time circuit
information in both numeric
and graphical formats to help
monitor circuit parameters
such as current loading,
voltage and power levels,
power factor.
The Web server also provides
the energy and demand
readings required to help
manage the cost of energy.
Readings include kWh,
kVARh, delivered and
received and kVAh with
time-of-use and separate
status input controlled energy
accumulation to account for
energy during special times
such as rate alert periods
or stand-by generator times
of operation.

Harmonic Spectral Plot
Steady-State Waveform

The Web server allows the
user to view waveforms of
the voltage and current to
spot power quality problems
such as notching.

Events Timeline
(Power Xpert 6000/8000)

View and understand the
sequence of events that have
occurred during a period
of time. Plot color-coded
events on captured
waveforms to gain insight
into the sequence of events
from one single cycle to the
next one. This provides the
user an excellent vantage
point to review and compare
multiple events at an
unprecedented resolution.

Event List, Condition,
Acknowledge Button,
Trigger Date/Time, Trigger
description.
Setup Top Level Screen
View setup, Edit setup,
Login, Logout.
Setup Detail Screens
Quick Setup, Trigger setup,
Detail setting.

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Historical Trend Plot

Graphical Trending of Data
The Power Xpert Meter 4000/
6000/8000 embedded Web
server supports graphical
trend charts of key circuit
measurements such as
current, voltage, power and
energy. The trend chart
supports a zoom feature
that allows the user to view
data over a short period of
16 hours or a longer period of
48 months. The trend chart
has a horizontal slider bar
control to manage scrolling
forward and backward
through the data. Trend
charts of basic readings
include minimum, maximum
and average readings. Trend
charts of energy data also
display demand values.

The Web server also includes
critical information regarding
Power Quality such as
harmonic distortion, flicker
(Power Xpert Meter 6000/
8000), crest factor, K-Factor
and more.

Event Detail Screens

The harmonic spectral plot
displays both harmonics and
interharmonics up to the
85th order. A detailed table
also includes individual
magnitudes and angles of
current and voltage
harmonics, as well as a
harmonic power calculation
at each frequency. Even, odd
and total THD are displayed
for diagnostic purposes. In
addition, the Power Xpert
6000/8000 provides
interharmonics, which allow
users to see what is going
on between the integer
multiples of the fundamental.

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9.3

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Relay Outputs
The optional PXIO-B card
includes three 5A form C
relay outputs rated for
240 Vac or 30 Vdc. These
outputs can be used for
applications such as:

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●
●

Energy Comparison

Energy usage patterns can be
effortlessly analyzed with the
month-to-month, week-toweek comparison chart. Raw
data can be easily exported
with the “Save Table” option
to other applications such as
Excel for further analysis or
graphing (firmware version
12.x.x and higher only).
Note: All data logging for
trend plotting is automatically
preconfigured in all of the Power
Xpert Meter 4000/6000/8000
meters. In addition, the 6000
and 8000 Series meters have
sag, swell and transient triggers
built-in according to the ITIC
(CBEMA) standard.

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Disturbance Recording

Events Calendar
(Power Xpert 6000/8000)

Sag/Swell Recording
60 cycles of waveform are
recorded at 256 samples per
cycle including 30 cycles of
pre- and post-trigger data.
The Power Xpert Meter 4000/
6000/8000 embedded Web
server supports viewing of
triggered waveforms one
channel at a time including
the ability to zoom and to
scroll horizontally using a
slider bar. Waveforms are
stored in Power Xpert
Meter’s 4000/6000/8000
non-volatile flash memory
using an industry standard
Comtrade format.
Waveforms can be
automatically sent out by
e-mail following an event,
or can be retrieved from an
FTP directory structure in the
meter module’s memory.

The Events Timeline calendar
view provides instant insight
to the frequency of power
events and helps detect
reoccurring problems. Colorcoded events can be filtered
to detect specific issues.

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Alarm outputs can be driven
from triggers based on
metering values. Output
modes include:
●

●

●

Configuration Page

Web Server Device
Configuration
Special software is not
required to configure a Power
Xpert Meter 4000/6000/8000.
The embedded Web server
includes comprehensive
device set-up capability.

Demand Comparison

Demand comparison
compares power
consumption day-to-day,
month-to-month or week-toweek. Power Xpert Meters
can set to measure demand
at 1 to 60 minute intervals.
Both sliding and fixed interval
windows are supported for
maximum flexibility.

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ITIC Analysis Plot
(Power Xpert Meter 6000/8000)

The ITIC Web page includes
counters to track the
occurrence of disturbances
and a pass/fail summary.
In addition, selecting any
disturbance counter links to
a detailed event view of the
disturbances in that ITIC
category. Disturbance
waveforms can be viewed
from the browser.

●

●

●

●

Status indication with time
stamping of transitions
(1 ms precision).
Pulse counting of KYZ or
other utility pulses such
as air, water or gas.
High-speed triggering of
waveforms based on
events such as breaker
trips or static transfers
Demand interval timing
taken from a master utility
meter end of interval pulse

Status inputs are self sourced
providing a nominal 24 Vdc
(20–30 Vdc) across the circuit.

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Normal—relay energized
during alarm condition
Latched—relay energized
by event trigger,
de-energized by
acknowledgement
Timed—relay energized by
event trigger, maintained
for a programmed interval.

Communications Expansion
Card (CEC)
The optional CEC Card offers
two Ethernet connection
options, 10/100Base-T and
a fiber-optic port that can
be used for the following
applications:
●

●

Discrete Contact Inputs
The optional PXIO-B
expansion card offers 8 digital
inputs that are useful for a
variety of applications such as:

Alarm annunciation
KYZ pulse output

●

●

●

●

●

●

●

Monitoring, managing and
configuring the meter
remotely using a standard
Web browser interface like
Microsoft Internet Explorer
Alarm notifications via
e-mail, SMTP
Enabling access to the
meter’s FTP server
(energy, trend and
waveform logs)
Providing Modbus TCP/IP
or RTU communications
to BMS systems
Providing DNP 3.0 over
Ethernet to utility systems
Providing SNMP
communications to
NMS systems
Synchronizing with an
NTP server for 1ms
timestamping resolution
Asset management
via SNMP to Network
Management Systems
Updating firmware on
the meter

Names can be configured for
each input for ease of use.

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Flicker (EN61000-4-15; Power Xpert Meter 6000/8000)
Flicker values for
perceptibility, PST and PLT
are calculated based on
EN61000-4-15 guidelines.

Power at a Glance

9.3

Easily Upgrade Your Power
Xpert Meter 4000 to a 6000
Eaton understands that our
customers’ needs change
over time. That’s why we’ve
developed meters that can
grow with you. Once a Power
Xpert Meter is purchased,
you have the ability to
upgrade to a Power Xpert
Meter 6000, with no
intervention from Eaton,
when needed. All the
features of the Power Xpert
Meter 4000 that you have
been using and depend on
remain, however, once
updated, all the additional
features of the Power Xpert
Meter 6000 are available. The
self-upgrade is available on
Eaton’s website. You’ll need
a credit card, your Power
Xpert Meter 4000 serial
number and data code (you
will be presented with this
information if you are using
the upgrade link directly from
your Power Xpert Meter)
and your e-mail address.
Once you have completed
the purchase, we will send
you your new license key
information via e-mail that
will allow you to complete
the upgrade.

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9.3
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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Power Xpert Meter 4000/6000/8000 Module Layout
g

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hj

k

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a

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e

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b

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d

n

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m

c

f

q

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r

i p

o

I/O Card
a Digital inputs 1–8 (option)
b Solid-state outputs 1–2 (option)
c Relay outputs 1–3 (option)
CT and Voltage Connections
d CT input connections
e Standard three-phase voltage phase inputs
f Aux. channel voltage inputs (option)
Communication Expansion Card (LAN/WAN Ethernet Networking)
g 100FX ST-type Ethernet (multi-mode) (option)
h 10/100Base-T Ethernet (option)
i RS-485 (two-wire w/shield)—24V accessory power (com 2)
Standard Features
j Local RJ-45 config. port (non-networkable Ethernet)
k RS-485 (two-wire w/shield) Modbus RTU (com 1)
l Meter mounting brackets
m Sealable mode switch cover
n Control power (100–240 Vac and 110–250 Vdc) (±20%)
o Display RS-485 Network port (up to 15 meters)—24V accessory power (com 0)
p RS-232 (Tx Rx) Modbus RTU (com (3) (option)
q Meter base address
r Com Reset Button

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Catalog Number Selection
To order a Power Xpert
Meter 4000/6000/8000, the
catalog number should be
determined using the chart
shown below. The chart
illustrates how to include the
desired factory options as
part of a catalog number.
Option cards that are
selected at time of order
entry will be installed at the

factory. Option cards are
also field installable for
field upgrades.
If a display is required, it
should be ordered separately.
The multi-meter graphic
display is capable of
displaying data from an
RS-485 daisychain of up to
16 Power Xpert Meter 4000/

6000/8000 modules over a
distance of up to 1000 ft.
Power Xpert Meter modules
include panel mounting
brackets. The multi-meter
graphic display is designed to
mount separately. If back-toback meter to display panel
mounting is desired, a
mounting bracket kit is
available (PX-PMBA).

Example 1: PXM8251A1BB
(PXM 8000 Meter, w/ VAUX,
Std. Pwr, Com. Exp. &
I/O Cards)
Example 2: PXM6251A1BA
(PXM 6000 Meter, w/ VAUX,
Std. Pwr, Com. Exp. Card)

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Power Xpert Meter 4000/6000/8000

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PXM 8 0 5 1 A 1 B B

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Model Series
4 = 4000 (Standard
power quality, 2 GB)
6 = 6000 (Enhanced
power quality, 4 GB)
8 = 8000 (Premium PQ
w/ transient capture, 8 GB)
Voltage Input Configuration
0 = Standard (V1, V2, V3, V4)
2 = Standard plus auxiliary
(V6, V7, V8)

Power Supply Configuration
1 = Standard 100–240 Vac or
110–250 Vdc power supply

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Card Slot 3 Configuration
A = No card option
B = I/O option card
(8 digital inputs, 2 solid-state
outputs, 3 relay outputs)

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Card Slot 2 Configuration
A = No card option
B = Communication expansion card
for LAN/WAN Ethernet
networking w/10/100Base-T,
100F, RS-485, RS-232 ports

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Card Slot 1 Configuration
1 = Standard Communications Module with RS-485

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Example 1: PXM8251A5BB (PXM 8000 meter, w/ VAUX, std. pwr., com. exp. and I/O cards)
Example 2: PXM6251A6BA (PXM 6000 meter, w/ VAUX, std. pwr., com. exp.card)

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Accessories

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Power Xpert Meter 4000/6000/8000

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Description

Catalog
Number

Graphic display module

PXD-MMG

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1

Communication expansion card for LAN/WAN Ethernet networking: 100FX fiber-optic, 10/100T, RS-485, RS-232

PXMCE-B

Digital I/O card: eight digital input, two solid-state output, three relay output

PXMIO-B 1

Panel mounting bracket assembly for back-to-back meter to graphic display mounting

PX-PMBA

Panel mounting bracket assembly for retrofitting a graphic display to an IQ Analyzer cutout

PX-PMBB

Panel mounting bracket assembly for reduced graphic display rear clearance

PX-PMBC

Power Xpert Meter 4000 to 6000 license upgrade key

PXM-4KUPG

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Notes
1 These items can be ordered separately or preinstalled in the meter by selecting option B in the model number.

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Communication cable (standard Modbus RTU) is not included in the package for meter module connection.

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Technical Data and Specifications
Environmental Conditions
●
Operating temperature:
●
Meter: –20 to +70°C
●
Display: –20 to +60°C
operating
●
Storage temperature:
–40 to +85°C
●
Operating humidity:
5% to 95% condensing
●
Device weight: 7.1 lbs—
meter 2.1 lbs—display
●
Meter and back of
display are pollution
degree 2
●
Elevation to 6562 ft
(2000m)
Current Inputs (Each Channel)
●
Conversion: 4096 samples
per cycle delta-sigma
converter digitally filtered
down to 512 samples
per cycle
●
CT Input: 4096 rms
samples per cycle deltasigma converter digitally
filtered down to 512
samples per cycle for
anti-aliasing
●
Burden: less than
10 milliohms
●
Overload withstand:
500A for 1 second,
non-repeating
●
Range: 0.005–20A
continuous
●
Accuracy: 0.05% or
reading plus 0.01%
of full scale (from
50 milliamps to 20A)

Voltage Inputs (Each Channel)
Conversion: 4096 rms
samples per cycle deltasigma converter digitally
filtered down to 512
samples per cycle for
anti-aliasing
●
PT input: 120V–500,000V
primary
●
Input range: 600V L-L,
347 L-N direct connect
●
Nominal full scale:
1000V rms
●
Input impedance:
2 megohms
●

Solid-State Outputs
Maximum load:
100 milliamps
●
Maximum voltage: 30V
(externally sourced)
●

Control Power Input
●
Input range AC:
100–240 Vac (±20%)
●
Frequency range:
47–63 Hz
●
Input range DC:
110–250 Vdc ±20%
●
Burden 50 VA
●
Ride-through: 1–5s

Frequency Range
●
47–63 Hz
Harmonic Response
(Voltage, Current)
●
127th harmonic
Accuracy
●
ANSI C12.20 0.2 Class
●
IEC 687 0.2 Class
Discrete Inputs
●
Self sourced: 24 Vdc
Relay Output Contacts
●
5A maximum, 240 Vac
maximum, 30 Vdc
maximum
●
Lifetime: 1,000,000 no
load operations
●
100,000 under rated
voltage and load

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Volume 3—Power Distribution and Control Assemblies

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Wiring Diagrams

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Three-Phase, Three-Wire Delta (Up to 600 Volts)
Control
Power
3

V3

V4

5

VR

3

2

1

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1

(+) L

4

52 51 42 41 32 31 22 21 12 11

PSI2

(–) N

V2

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Current Inputs

Voltage Inputs
V1

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Protective
Earth /
Chassis
Ground

Disconnect
Switch
Breaker

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Shorting
Block

Disconnect
Switch

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L3

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Line

Load

L2

L1

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Three-Phase, Three-Wire Delta (Above 600 Volts)
Control
Power
V1

3

Current Inputs

Voltage Inputs
V2

V3

V4

5

VR

3

2

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1

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52 51 42 41 32 31 22 21 12 11

PSI2

(+) L

4

1

(–) N

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Protective
Earth /
Chassis
Ground

Disconnect
Switch
Breaker
Disconnect
Switch

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Shorting
Block

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L3

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Line

Load

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L2

L1

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Note
Based upon the voltage rating, you may need a control power transformer for the control power.

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9.3
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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Power Xpert Meters Configuration and Wiring Examples
Display Link

Accessories—I/O Card (Option)

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Up to 16 Meters can be Daisy-Chained to a Single
Power Xpert Meter LCD Display

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Flow Meter
(Pulse Count)

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…Up to 16

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Rack Monitoring—
Open Door/Tamper Switch

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Display Link (RS-485)

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Modbus RTU (RS-485)—Non-Web Enabled

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Modbus RTU (RS-485)
Master

Trip and Sequence
of Events

Alarm
• Eight Programmable Digital Inputs
• Two Solid-State Programmable Outputs
• Three Relay Programmable Outputs

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IT Configuration Examples—Accessories—I/O Card (Option

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Modbus RTU (RS-485)

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…Up to 16
Water Leak and
Vibration Sensors

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Display Link (RS-485)

Rack Monitoring
— Open Door/
Tamper Switch

Web Enabled—Browser and Modbus TCP
Web
Browser

Modbus RTU (RS-485)
Master

Modbus TCP
Master

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Alarm

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Modbus RTU (RS-485)

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…Up to 16

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Smoke Alarm
• 8 Programmable Digital Inputs
• 2 Solid-State Programmable Outputs
• 3 Relay Programmable Outputs

Display Link (RS-485)

Web Enabled—Advanced System Functionality
Modbus RTU (RS-485)
Master

Power Xpert
Software

Web
Browser

Modbus TCP
Master

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Volume 3—Power Distribution and Control Assemblies

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Dimensions

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Approximate Dimensions in Inches (mm)

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Power Xpert Meter 4000/6000/8000 Multimeter Graphic Display (PXD-MMG)—Sold Separately,
Supports up to 16 Power Xpert Meter 4000/6000/8000 Modules

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7.22
(183.5)
1.50
(38.1)

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1.45
(36.8)

CW
Factory Sealed

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5X #8 – 32 Thread
Thread Depth 0.31
7.80
(198.0)

3.00 Ref.
(76.2)

0.57
(14.5)

Health

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3.00 Ref.
(76.2)

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Events

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9.02
(229.0)

7.22
(183.5)

Model#: PX8000
Catalog#: PX8054A1CB
Style#: 65D8054G010
Serial#: 000042
G.O.#: XXXXXXXXXX
Power Supply: 24 VDC (+/ -20%)
SELV, 8W MAX.
Oper Temp: -20 TO 60°C

7.76 Ref.
(197.1)

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Rev: 1
Date Code: C050131

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MADE IN CANADA

Push to Select • Hold for Help
Turn to Highlight
Customer Satisfaction for Techni cal Support

BACK

9

www.EatonElectrical or
htt //
1 -800 -809E t 2772
El t or
i 1l 414E18555
9

24VDC Input
Power

DG3 -

CW

Display Link
Com 0

DG2-

10/100 T
Li
TXR
nk
DX

4

3 2 1
C 24
O + SH

DG13

2

SH D
B

1
D
A

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1.04
(26.3)

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4.00 Ref.
(101.6)

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0.46
(11.6)

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9.3

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

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Approximate Dimensions in Inches (mm)

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Power Xpert Meter 4000/6000/8000 Module
9.56 (242.8)

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4x Ø 0.20
(Ø 5.2)

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4x R0.11
(R2.8)

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6.72 (208.3)
8.88 (255.6)

6.33 (160.8)

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8.32
(211.3)

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5.00
(127.0)

7.36
(186.9)

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1.60
(40.6)

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8.20 (208.3)

0.42 (10.7)

0.34
(8.6)

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Meter Base Unit
Width

Height

Depth

9.56 (242.8)

8.88 (225.6)

6.72 (170.8) 1

Width

Depth

Display Unit
Height

Projection In Front of Panel Surface

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9.02 (229.0)

7.80 (198.1)

1.04 (26.3)

7.80 (198.1)

1.45 (36.8)

Behind Panel Surface
9.02 (229.0)

Note
1 Including optional wall mounting brackets.

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Volume 3—Power Distribution and Control Assemblies

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Contents

Power Xpert Meter 2000 Series

Description
Metering Products Family. . . . . . . . . . . . . . . . . . . .
Power Xpert Meter 4000/6000/8000 Series . . . . . .
Power Xpert Meter 2000 Series
IQ 250/260 Series Electronic Power Meters. . . . . .
IQ 130/140/150 Series Electronic Power Meters . .
IQ 150S/250S Self-Enclosed Electronic Meters . . .
IQ 35M . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ Analyzer 6400/6600 Series . . . . . . . . . . . . . . . .
IQ DP-4000 Series . . . . . . . . . . . . . . . . . . . . . . . . .
IQ 230 Meters . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Xpert Multi-Point Meter . . . . . . . . . . . . . . . .
IQ Energy Sentinel™ . . . . . . . . . . . . . . . . . . . . . . .
PM3 Monitoring and Metering Module . . . . . . . . .
Current Transformers (CTs). . . . . . . . . . . . . . . . . . .
Clamp-On Current Transformers . . . . . . . . . . . . . . .
IQ Flange . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Panel Mounting Adapter Kit . . . . . . . . . . . . . . . . . .
Enclosed Meters. . . . . . . . . . . . . . . . . . . . . . . . . . .

Page
V3-T9-21
V3-T9-30

V3-T9-60
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V3-T9-135
V3-T9-136

An Eaton
Green Solution

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Power Xpert Meter 2000 Series
Product Description

Application Description

The Power Xpert Meter 2000
Series power quality
instrument monitors the
most critical aspects of an
electrical distribution system.
This premier power quality
metering instrument uses the
latest in advanced technology
to make it simple to use,
powerful, scalable and highly
flexible. The Power Xpert
Meter 2000 offers the
same level of intuitive user
interface design as the Power
Xpert Meter 4000/6000/8000,
presenting critical electrical
distribution system
information in a simple
to navigate and easy-tounderstand information
architecture.

The embedded Web server
displays comprehensive
power quality data using
standard Internet browsers
and allows for device
configuration from the
browser. The embedded
Web server presents real
time, historical and event
information in a browser-style
graphical format to help the
user interpret information
such as current loading,
voltage and power levels,
power factor, energy usage,
I/O status, power quality
measurements, as well
as harmonic plots. The
embedded Web server also
allows for waveform capture
and for visualizing steadystate harmonic content that is
critical for power quality
analysis.
The Web server provides the
energy and demand readings
required to help manage the
cost of energy.

9

Identify Power Quality Problems
to Help:
●
Protect motors from
damage
●
Preserve the integrity of
processes and batches
●
Prevent blown capacitor
bank fuses
●
Protect transformers and
conductors from
overheating

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Monitor Circuit Loading
to Help:
●
Avoid overloads and
nuisance overload trips
●
Maximize equipment
utilization
●
Manage emergency
overloads

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Manage Energy Utilization
to Help:
●
Reduce peak demand
charges and power
factor penalties
●
Identify excessive energy
consumption

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

V3-T9-49

9.3

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9

Features, Benefits and
Functions

9

Metered/Monitored Parameters

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Note: See Table on
Page V3-T9-53.
●

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Volts: L-L, L-N, Avg. L-L,
Avg. L-N
Phase and neutral currents
Power: real, reactive
and apparent
Frequency
Power factor: apparent
Energy: real, forward,
reverse, sum
Demand: peak with date
and time
% THD
Minimum and maximum
values
Harmonics
Individual harmonics
Demand comparisons
Phasors

Note: Under typical operating
conditions.
●

Currents: 0.1% RV
Voltage: 0.1% RV
Energy and demand
power: 0.2% in accordance
with ANSI C12.20
Frequency: ±0.03 Hz
Power factor: 0.2% RV

9

Communications
Multiple communications
ports including:

9

Standard

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■

●

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RS-485 Modbus RTU
slave port
10/100Base-T Ethernet
network port

Communication Protocols
Supported
●
Modbus RTU
●
Modbus TCP
●
BACnet/IP
●
Ethernet TCP/IP
●
HTTP, HTTPS
●
NTP (Network Time
Protocol)
●
SMTP (Simple Mail
Transfer Protocol)
●
SNMP (Simple Network
Management Protocol)
v1, v3
●
DNP 3.0

V3-T9-50

●

●

Accuracy

●

Physical Characteristics
Format

●

Power Xpert Meter 2000
with integral display
Power Xpert Meter 2000
transducer only (no display)
meter module
NEMA rating: NEMA 12,
IP42 front of panel rating

Power Xpert 2000 Embedded
Web Server
The Power Xpert Meter 2000
embedded Web server offers
Eaton customers a new level
of accessibility to the critical
information required to
manage their electrical
distribution system. The
Web server includes real-time
information in both numeric
and graphical visual formats
to help monitor parameters
such as current loading,
voltage and power levels,
power factor, THD and more.
The Web server also provides
energy and demand readings
with graphic usage plots to
help analyze energy usage
patterns. Energy readings
include kWh, kVARh, delivered
and received and kVAh
with time.
The Power Xpert Meter 2000
embedded Web server
supports graphical trend charts
of key measurements such as
current, voltage, power and
energy. The trend chart
supports a zoom feature that
allows the user to view data
over predefined ranges from
as little as 16 hours to as much
as 4 years. The trend chart
includes zoom in/out buttons
and a horizontal slider bar
control to manage scrolling
forward and backward through
the data. Trend charts of basic
readings include minimum,
maximum and average
readings. Trend charts of
interval by interval energy data
also display peak demand.
Waveform Display
The Power Xpert Meter 2000
can record waveforms at up to
512 samples per cycle.
Waveform captures are
automatically stored on the
FTP server in the IEEE
standard COMTRADE file
format. This allows users to
view and analyze the

Volume 3—Power Distribution and Control Assemblies

waveforms in any standard
free-of-charge or commercial
COMTRADE file viewer.
Historical Trend Logging
The Power Xpert Meter 2000
records historical data for
graphical viewing from the
embedded Web server.
Graphical views of historical
data support pan and zoom.
Over 100 standard metering
parameters are logged as
part of the standard meter
functionality including min./
max. and average for each
parameter. The averages
are calculated over the
interval period.
Energy Profile Data
The Power Xpert Meter 2000
records Real and Reactive
energy forward, reverse, net
and absolute sum, as well
as apparent energy (kVAH).
These readings are stored
on a fixed 5 minute interval.
Up to 4 status inputs can
be configured as energy
accumulators for counting
KYZ pulse inputs.
Demand Comparisons
Demand usage patterns can
be analyzed with the monthto-month, week-to-week
comparison chart built into
the meter. Raw data can be
exported as a.csv file with the
“Save Table” option to other
applications for further
analysis and graphing.

The on-board gateway limits
can trigger an alarm off of any
measured parameter on any
of the PXM 2000 model
series. These triggers permit
pickup, reset and pickup
delay to be configured by
the user.
Event Logging
The Power Xpert Meter
2000 embedded Web server
allows the user to view a
list of triggered events. In
addition, a separate system
log records system operations
such as resets.
E-mail
The Power Xpert Meter 2000
contains the ability to send
e-mails based on an event
that has been triggered or
cleared along with the option
to send an event or data log
file. The Power Xpert Meter
2000 also has the ability to
send a configurable periodic
e-mail with meter
information.
Inputs and Outputs
Power Xpert Meter 2000 is
available with a standard KYZ
output and optional digital I/O
cards that includes:
●

●

●

●

Event Triggers
The Power Xpert Meter 2000
has two levels of configurable
event triggers:
●

●

On-board meter limits
(PXM 2260/2270/2280/
2290)
On-board gateway
card limits

The on-board meter limits
can be set for any measured
parameter, for up to 16 limits.
If either of the 16 limits are
exceeded, an alarm condition
will be present and illuminate
one of the LEDs on the meter
faceplate. The on-board
meter out of limits can also
be used to energize a relay
output, if so equipped.

CA08100004E—November 2013

Two relay outputs/two
status inputs
Four KYZ pulses/four
status inputs
Four analog outputs
0–1 mA
Four analog outputs
4–20 mA

Inputs can also be configured
for demand synch and pulse
counting. Inputs selected for
pulse counting can be scaled.
Accumulated pulse recordings
are maintained in profile
memory. Outputs can be
used for alarm annunciation.
Ratings
●
Application to any PT ratio,
no PTs required to 600 Vac
●
CT ratios to any CT ratio
●
CT inputs available as 5 or
1A secondary
●
Separate source control
power input:
●
90–265 Vac or
100–370 Vdc
●
Low voltage 18–60 Vdc

www.eaton.com

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Displayed Information
●
Monitored information is
available locally through the
display, the Web browser
or system power
management software

●

●

9.3
9

True rms values through
40th harmonic
ANSI C12.20 Class.2%
revenue metering
specification

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Power Xpert 2000 Web Browser Views

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Power Xpert Meter 2000 Web Browser

Power Xpert Meter 2000’s
embedded Web server offers
Eaton customers a new level
of accessibility to the critical
information required to
manage the electrical
distribution system. The
embedded Web server
includes real time circuit
information in both numeric
and graphical formats to help
monitor parameters such as
current loading, voltage and
power levels and power
factor. The Web server also
provides the energy and
demand readings required to
help manage the cost of
energy. Readings include
kWh, kVARh, delivered and
received and kVAh. The Web
server also includes critical
information regarding power
quality such as harmonic
distortion.

Real-Time Visualization of Harmonic
Content

The Web server offers a
waveform view to visualize
steady-state harmonic
content of the voltage
and current to spot power
quality problems.

Harmonic Spectral Plot

The harmonic spectral plot
displays harmonics up to the
40th order. A detailed table
also includes individual
magnitudes and angles of
current and voltage
harmonics, at each
frequency. Individual and
total THD are displayed for
diagnostic purposes.

Energy Demand Profile

Historical Trend Plot

Graphical Trending of Data
The Power Xpert Meter 2000
embedded Web server
supports graphical trend
charts of key circuit
measurements such as
current, voltage, power and
energy. The trend chart
supports a zoom feature
that allows the user to view
data over a short period of
16 hours or a longer period of
48 months. The trend chart
has a horizontal slider bar
control to manage scrolling
forward and backward
through the data. Trend
charts of basic readings
include minimum, maximum
and average readings. Trend
charts of energy data also
display demand values.

Energy managers can view
load profile data compared
against the peak demand.
The plot allows comparison
of present and past months’
usage.
Web Server Device
Configuration
Special software is not
required to configure a
Power Xpert Meter 2000.
The embedded Web server
includes a comprehensive
device configuration engine.
Discrete Contact Inputs
The optional I/O expansion
cards offers two or four
digital inputs that are useful
for a variety of applications
such as:
●

●

Pulse counting of KYZ or
other utility pulses such as
air, water or gas
Demand interval timing
taken from a master utility
meter end of interval pulse

Names can be configured for
each input for ease of use.

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Input to BMS or PLC
systems for tracking a
measured meter
parameter

Standard Communications Card
The standard communications
card provides one Ethernet
connection and 10/100BaseT port (copper only) that can
be used for the following
applications:

9

9

Alarm annunciation
KYZ pulse output

Analog Outputs
The optional IO card includes
either four 4–20 mA outputs
or 0–1 mA outputs. These
outputs can be used for
applications such as:

9

9

PXM 2000 Rear View

c

Alarm outputs can be driven
from triggers based on
metering values.

●

9

Metering Devices

Relay Outputs
The optional I/O card
includes two 5A Form C relay
outputs rated for 240 Vac or
30 Vdc or four Form A solidstate outputs. These outputs
can be used for applications
such as:
●

9

Metering Devices, Protective Relays, Software and Connectivity

●

Monitoring, managing and
configuring the meter
remotely using a standard
Web browser interface
Alarm notifications via
email, SMTP
Providing Modbus TCP/IP,
RTU and BACnet/IP
communications to
BMS systems
Providing SNMP
communications to
NMS systems
Synchronizing with an
NTP server
Asset management
Updating firmware on
the meter

a
d

e
b

f
g
a
b
c
d
e
f
g

Power supply inputs
System voltage inputs
NEMA 12 gasket
RS-485
KYZ out
Meter gateway card
I/O slot

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V3-T9-52

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Power Xpert Meter 2250
●
Measures basic meter
parameters
●
256 MB for data logging
●
Ethernet
●
On-board gateway card
limits/alarms
Power Xpert Meter 2260
Features of PXM 2250 plus:
●
Harmonics
●
On-board meter hardware
limits to activate optional
relay outputs
●
Visual indication of limits
exceeded at meter face
●
512 MB for data logging

Power Xpert Meter 2270
Features of PXM 2260 plus:
●
Harmonics, including
individual
●
Waveform view to visualize
steady-state harmonic
content
●
768 MB for data logging

9.3

Power Xpert Meter 2290
Features of PXM 2280 plus:
●
Records waveforms at up
to 512 samples per cycles

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The Power Xpert Meter 2280
Features of PXM 2270 plus:
●
Records waveforms at up
to 64 samples per cycles
●
Configures the total, preand post-event cycles

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Power Xpert Meters 2250/2260/2270/2280/2290
Power Xpert Meter
Feature

9

2250

2260

2270

2280

2290

Benefit

Embedded Web server

■

■

■

■

■

Use a standard Web browser to monitor and manage the meter over the network

Firmware flash upgrade support

■

■

■

■

■

Enables you to flash the meter with the latest firmware upgrades

■

■

■

■

■

Review voltage and current trends, export, print and analyze parameters right on the
meter or external software

Demand: forward, reverse, net sum, profile, export, print, plot comparisons ■
month-to-month, week-to-week

■

■

■

■

Plot two months or two weeks for vivid demand comparison, receive e-mails with
trend logs

9

Power, apparent, real, reactive, power factor

■

■

■

■

■

Review power usage and power factor and avoid potential PF penalties

■

■

■

■

■

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Energy: forward, reverse, net, sum

Keep track of your energy usage, identify peaks to conserve energy usage, receive e-mails
with trend logs

General

9
9

Power, Energy and Demand
Voltage, current: per phase minimum, maximum, average, trend graph
analysis, export, print

Power Quality Analysis

9

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9

Statistical analysis (min., max., average)

■

■

■

■

■

Review statistical trends, identify past and future problem areas

Sampling rate, maximum samples/cycle

400

400

400

400

400

High sampling rate resulting in high accuracy

■

■

■

■

■

Define appropriate security access level per user

9

Modbus TCP

■

■

■

■

■

Easy integration with standard protocol to power management and other software

■

■

■

■

■

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Modbus RTU

Integrate meters to existing Modbus networks, daisy chain several (1–32)
meters together

BACnet/IP

■

■

■

■

■

Easily integrate into existing building management systems without the need for external
protocol adapters

HTTP, HTTPS

■

■

■

■

■

Communicate to the meter over the Internet via standard Web browser

SNMP (Simple Network Management Protocol)

■

■

■

■

■

Communicate with the meter via Simple Network Protocol; hook to existing NMS system

SMTP (Simple Mail Transfer Protocol)

■

■

■

■

■

Send e-mail messages via standard Simple Mail Transfer Protocol

NTP (Network Time Protocol)

■

■

■

■

■

Network Time Protocol support enables the meter to synchronize time over the network

DNP 3.0

■

■

■

■

■

Easy integration with DNP networks (serial)

Trend measurements CSV file export

■

■

■

■

■

Easily export trend measurements to third-party applications, in standard CSV file format

9

Security
Secure two level user access privileges
Communications

Note
These specifications are subject to change without notice and represent the maximum capabilities of the product with all options installed. This is not a complete feature list. Features and functionality
may vary depending on selected options, firmware version and product model. Please refer to the technical data sheet and User Manual for detailed specifications.

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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V3-T9-53

9.3
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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Power Xpert Meters 2250/2260/2270, continued
Power Xpert Meter
Feature

2250

2260

2270

2280

2290

Benefit

Logs

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Trend logging

■

■

■

■

■

Log trend information for easy statistical analysis

Load profile

■

■

■

■

■

Review the load profile graph to get a better understanding of your electrical load
versus time

Event logging

■

■

■

■

■

Log events for retrospective event analysis

256

512

768

768

768

Store trend data and events for historical analysis

Memory and Storage

9

Memory, MB

9

Harmonic levels

40th

40th

40th

40th

Allows you to identify potential harmful harmonics

Total harmonic distortion (THD)

■

■

■

■

Review the total harmonic distortion level directly on the meter

■

■

■

Provides simple metric for power quality viewable from the embedded Web server

■

■

■

A single-cycle waveform view on a PC, through embedded Web server, to visualize steadystate harmonic content to identify power quality issues

64

512

Ability to record waveforms up to specified samples/cycle

Opt

Opt

The Power Xpert meter 2000 I/O Cards are extremely flexible and can be used in a large
variety of different applications. Digital inputs and relay outputs can be programmed to
interact during various conditions defined by the user. Various third-party devices, such as
alarms, pulse meters, trip units and sensors, can be easily integrated to the Power Xpert
Meter 2000. Triggers and events can be tied to the meter’s standard functions such as
e-mail, logs and trends. Analog outputs can be programmed to output meter parameters
to BMS or PLC systems

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Harmonics

Individual harmonics
Waveform
Waveform display
Waveform recording
I/O
I/O (two relay outputs/two status inputs,
four KYZ pulses/four status inputs,
four analog outputs 0–1 mA,
four analog outputs 4–20 mA)

Opt

Opt

Opt

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Note
These specifications are subject to change without notice and represent the maximum capabilities of the product with all options installed. This is not a complete feature list. Features and functionality
may vary depending on selected options, firmware version and product model. Please refer to the technical data sheet and User Manual for detailed specifications.

Standards and Certifications
●

●

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UL/cUL Electrical and
Electronic Measuring and
Test Equipment 22CZ
Accuracy: IEC/EN60687
0.2 Class, ANSI C12.20
0.2 Class
ANSI C62.41 Burst
CE Mark

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Catalog Number Selection

9

Power Xpert Meter 2000

9
PXM 2250 M A 6 5 1 0 5

Model Series 1
2250 = Energy meter
2260 = Power quality meter
2270 = Power quality plus meter
2280 = Power quality plus with up to 64
samples/cycle waveform recording
meter
2290 = Power quality plus with up to 512
samples/cycle recording meter

9

I/O Slot 2
5 = Gateway card

Frequency
5 = 50 Hz system
6 = 60 Hz system

Meter Type
M = Meter (with integral
display)
T = Transducer only
(no display)

9

Power Supply
1 = 90–265 Vac/Vdc
4 = 24–60 Vdc
Current Input
1 = 1 amp secondary
5 = 5 amp secondary

9
9

I/O Slot 1
0 = None
1 = 2 Relay outputs/2 status inputs
2 = 4 KYZ pulses/4 status inputs
3 = 4 Analog outputs: 0–1 mA
4 = 4 Analog outputs: 4–20 mA

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Example 1:PXM2270MA65145 (PXM 2270 Meter/Display 60 Hz, 5A, 90–265 Vac/Vdc W/4AO)
Example 2:PXM2250MA65105 (PXM 2250 Meter/Display 60 Hz, 5A, 90–265 Vac/Vdc)

9

Note
1 Refer to Page V3-T9-54 for model-specific features.

To order a Power Xpert Meter
2000, the catalog number
should be determined using
the chart shown above.
The chart illustrates how to
include the desired factory
options as part of a catalog
number. Option cards that are
selected at time of order
entry will be installed at the
factory. Option cards are
also field installable for
future upgrades.

9
9

Power Xpert meter modules
include panel mounting
brackets.

9

Example 1:
PXM2270MA65145 (PXM
2270 Meter/Display 60 Hz, 5A,
90–265 Vac/Vdc W/4AO).

9

Example 2:
PXM2250MA65105 (PXM
2250 Meter/Display 60 Hz, 5A,
90–265 Vac/Vdc).

9

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9

Accessories

9

Power Xpert Meter 2000
Description

Catalog Number

Panel mounting bracket assembly for retrofitting a PXM 2000 to an IQ analyzer/IQ DP4000/IQ data cutout

IQ250-PMAK

PXM 2000 Gateway card kit to upgrade an IQ 250/260 to a PXM 2000

PXM2000-GCK

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Power Xpert Meter 2000 I/O Cards
Description

Catalog Number

PXM 2000 I/O card—2 relay outputs/2 status inputs

IQ250/260-IO1

PXM 2000 I/O card—4 KYZ Pulses/4 status inputs

IQ250/260-IO2

PXM 2000 I/O card—4 analog outputs—0–1 mA

IQ250/260-IO3

PXM 2000 I/O card—4 analog outputs—4–20 mA

IQ250/260-IO4

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Technical Data and Specifications
PXM 2250/2260/2270 Electronic Power Meter Technical Information
Current Inputs
●
Class 10: 5 amp nominal,
10 amp maximum
●
Class 2: 1 amp nominal,
2 amp maximum
●
Fault current withstand:
●
100 amps for
10 seconds
●
300 amps for 3 seconds
●
500 amps for 1 second
●
Continuous current
withstand: 20 amps for
screw terminated or passthrough connections
●
Programmable current:
full scale to any CT ratio
●
Burden: 0.005 VA per
phase maximum at
11 amps
●
Pickup current: 0.1% of
nominal
●
Class 10: 5 mA
●
Class 2: 1 mA
●
Connections:
●
Pass-through wire gauge
dimension: 0.177 inches
(4.5 mm)
●
Quick connect: 0.25-inch
(6.35 mm) male tab
Voltage Inputs
●
Range:
●
Line-to-neutral
20–576 Vac
●
Line-to-Line 0–721 Vac
●
Programmable voltage
range: full scale to any
PT ratio
●
Supported systems:
●
Three element wye,
2.5 element wye
●
Two element delta, fourwire delta systems
●
Input impedance:
1 megohm/phase.
●
Burden: 0.36 VA/phase
maximum at 600V;
0.014 VA at 120V
●
Connection: 7-pin
0.400-inch pluggable
terminal block, AWG
#12–26 (0.129–3.31 mm2)

Isolation
All inputs and outputs are
galvanically isolated to
2500 volts

●

Environmental Ratings
●
Operating temperature:
–20ºC to +70°C
●
Storage temperature:
–20ºC to +70°C
●
Operating humidity: to
95% RH noncondensing
●
Faceplate rating:
●
NEMA 12
●
Mounting gasket
included
Sensing Method
●
Voltage, current: true rms
●
Power: sampling at over
400 samples per cycle on
all channels
●
Harmonics resolution:
40th order
Update Rate
●
Watts, VAR and VA:
100 msec at 60 Hz
●
All other parameters:
1 second at 60 Hz
Power Supply
●
AC/DC voltage option:
90–265 Vac at 50/60 Hz or
100–370 Vdc, universal AC/
DC supply
●
DC voltage option:
18–60 Vdc
●
Burden: 10 VA maximum

Serial Communications Format
Connection type: RS-485
(through back plate)
●
Com port baud rate:
9600–57,600 bauds
●
Com port address: 01–247
●
Data format: 8-bit, no parity
●
Protocols: Modbus ASCII,
RTU or DNP 3.0
●

Network Communications
Format
●
Connection type: RJ-45
10/100Base-T Ethernet
network port
●
Protocols: Ethernet TCP/IP,
Modbus TCP, BACnet/IP,
HTTP, HTTPS, NTP, SMTP,
SNMP
KYZ Pulse
●
Contacts: one Form A
●
On resistance, maximum:
35 ohms
●
Peak switching voltage:
350 Vdc
●
Continuous load current:
120 mA
●
Peak load current: 350 mA
(10 ms)
●
Off-state leakage current at
350 Vdc: 1 uA
●
Opto-isolation: 3750 Vac

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Wiring Diagrams

9

Service: Wye or Delta, Four-Wire with No PTs, Two or Three CTs
N

A

B

C

N

A

B

9

C

9
9
9
HI

HI

GND
L (+)
N (–)
VRef
A
B
C

HI

Ic

Ib

Ia

LO

LO

LO

Power
Supply

HI

HI

HI

Ic

Ib

Ia

LO

LO

LO

GND
L (+)
N (–)
VRef
A
B
x

Power
Supply

9
9
9
9
9
9

C
N

A

B

9

C

9

C
A
N
B

A

A

B

C

9

B

9
Service: Delta, Three-Wire with No PTs, 2 CTs
A

B

9

C

9
9
9
9
HI

HI

HI

Ic

Ib

Ia

LO

LO

LO

GND
L (+)
N (–)
VRef
A
B
C

Power
Supply

9
9
C

9

C

9

or

B

A

B

9

A

9
Not Connected to Meter
A

B

9

C

9

Note: Based upon the voltage rating, you may need a control power transformer for the control power.

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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V3-T9-57

9.3

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9

Power Xpert Meters Configuration and Wiring Examples

9

PXM 2000 Display Front View

9

Modbus RTU
(RS-485) Master

Power Xpert
Software

Web
Browser

IT Configuration Examples—Accessories—I/O Cards
(Option)
Building
Automation
System

Modbus TCP
Master

9

Water Leak and
Vibration Sensors

9

Rack Monitoring
— Open Door/
Tamper Switch

9
9

Modbus RTU
(RS-485)

9
Smoke Alarm

9

Alarm

9
9

• Two relay programmable outputs/two programmable inputs
• Four KYZ pulses/four programmable inputs
• Four programmable analog outputs

Accessories—I/O Cards (Option)

9
9
9

Flow Meter
(Pulse Count)

9

Rack Monitoring
— Open Door/
Tamper Switch

9
9
9
9
9

Alarm

Trip and Sequence
of Events

• Two relay programmable outputs/two programmable inputs
• Four KYZ pulses/four programmable inputs
• Four programmable analog outputs

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V3-T9-58

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Dimensions

9

Approximate Dimensions in Inches (mm)
PXM 2000 Display Front View

9

PXM 2000 Transducer Only Side View

4.85
(123.2)

9
9
9

4.85
(123.2)

9

4.85
(123.2)

9
9

0.77
(19.6)
0.91
(23.1)

PXM 2000 Rear View

9

3.25
(82.6)

9

ANSI Mounting Panel Cutout

9

3.38
(85.9)

9

4 x .02
(0.5)

9

4.00
(101.6)
3.54
(89.9)

9
9
9
9

1.69
(42.9)

3.54
(89.9)

PXM 2000 Meter/Display Side View

9

DIN Mounting Cutout

9

3.62
(92.0)

0.08
(2.0)

9
9
3.62
(92.0)

9

5.02
(127.5)

9
9
9

0.95
(24.0)

3.25
(82.6)

0.77
(19.6)

Description

Specifications

Weight

2 lbs (0.9 kg)

Basic unit

5.00 (127.0) H x 4.90 (124.5) W x 5.00 (127.0) L

PXM 2250/2260/2270

Mounts in 3.62-inch (92.0) mm DIN and ANSI C39.1
round cut-outs

Shipping container dimensions

6-inch cube

9

Tolerance

±0.1 inches (2.54 mm)

Projection in front of panel surface

4.85 (123.2) H x 4.85 (123.2) W x 1.01 (25.6) L

Projection behind panel surface

4.85 (123.2) H x 4.85 (123.2) W x 1.01 (25.6) L

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

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V3-T9-59

9.3
9

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Contents

IQ 250 and 260 Electronic Power Meters

Description
Metering Products Family. . . . . . . . . . . . . . . . . . . . .
Power Xpert Meter 4000/6000/8000 Series. . . . . . .
Power Xpert Meter 2000 Series . . . . . . . . . . . . . . . .
IQ 250/260 Series Electronic Power Meters
Standards and Certifications . . . . . . . . . . . . . . . .
Catalog Number Selection. . . . . . . . . . . . . . . . . .
Accessories . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Technical Data and Specifications . . . . . . . . . . . .
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ 130/140/150 Series Electronic Power Meters . . .
IQ 150S/250S Self-Enclosed Electronic Meters . . . .
IQ 35M . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ Analyzer 6400/6600 Series . . . . . . . . . . . . . . . . .
IQ DP-4000 Series . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ 230 Meters . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Xpert Multi-Point Meter . . . . . . . . . . . . . . . . .
IQ Energy Sentinel™ . . . . . . . . . . . . . . . . . . . . . . . .
PM3 Monitoring and Metering Module . . . . . . . . . .
Current Transformers (CTs). . . . . . . . . . . . . . . . . . . .
Clamp-On Current Transformers. . . . . . . . . . . . . . . .
IQ Flange . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Panel Mounting Adapter Kit . . . . . . . . . . . . . . . . . . .
Enclosed Meters . . . . . . . . . . . . . . . . . . . . . . . . . . .

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Page
V3-T9-21
V3-T9-30
V3-T9-49

V3-T9-61
V3-T9-62
V3-T9-62
V3-T9-63
V3-T9-65
V3-T9-66
V3-T9-71
V3-T9-76
V3-T9-79
V3-T9-87
V3-T9-93
V3-T9-100
V3-T9-112
V3-T9-121
V3-T9-122
V3-T9-131
V3-T9-134
V3-T9-135
V3-T9-136

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IQ 250/260 Series Electronic Power Meters

9

Product Description

9
9
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9
9
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9

The IQ 250 and IQ 260
Meters provide capabilities
you would not normally
expect in affordable, ultracompact meters, such as fast
sampling rate and accurate
metering for a full range of
power attributes. Providing
the first line of defense
against costly power
problems, Eaton’s IQ 250
and IQ 260 electronic power
meters can perform the work
of an entire wall of legacy
metering equipment using
today’s technology.

9
9

Application Description
When space is at a premium,
yet you need ANSI C12.20
accuracy, the IQ 250/ 260
series fit the bill. These
meters are ideal for electrical
equipment assemblies,
machine control panels,
such as panelboard and
switchboard mains and
feeders, low voltage metalenclosed switchgear feeders
and motor control centers.
Requiring far less space than
other meters with similar
functionality, IQ 250/260
series fit into a standard ANSI
or IEC cutout on a panelboard
or other electrical equipment,
and therefore fit easily into
retrofit applications.

●

●

●
●

●

Features and Benefits

Utility and commercial
metering
Substations, industrial
facilities, power generation
sites and campuses
Sub-metering
Load studies and voltage
recording
Analog meter replacement

●

●

●

●

●

●

●

9

●

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9

Measure and display realtime information about
critical power parameters
with a sampling rate of 400
samples per cycle
Monitor power utilization
and quality with ANSI
C12.20 accuracy
(0.2 percent)
Optional 128 KB for data
logging, which guards
against loss of historical
data
Verify meter accuracy
with KYZ test pulse selfcertification capabilities
Standard Modbus RTU
communications
Available as transducer
only or with display
Designed to accommodate
upgrades
Integrate into Eaton’s
Power Xpert architecture
for a holistic systemlevel view

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9
V3-T9-60

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Additional Features

9

Features of IQ 250 and IQ 260 Electronic Power Meters
Features

9

IQ 250

IQ 260

Current, per phase

■

■

Current demand

■

■

Calculated neutral current

■

■

Voltage, per phase (L-L, L-N)

■

■

Frequency

■

■

Real, reactive and apparent power, total and per phase (kW, kVAR, kVA)

■

■

Real, reactive and apparent energy, total and per phase (kWh, kVARh, kVAh)

■

■

Real, reactive and apparent power demand

■

■

Power factor, total and per phase

■

■

Min./max. readings, I, V, PF, F, THD (IQ 260), kW, kVAR, kVA

■

■

■

■

RS-485

■

■

KYZ output

■

■

Modbus RTU

■

■

Modbus ASCII

■

■

DNP 3.0

■

■

Opt.

Opt.

9

Two digital in /two digital out 1

Opt.

Opt.

9

Four digital in/four KYZ out

Opt.

Opt.

Four analog output (4–20 mA) 2

Opt.

Opt.

Four analog output (0–1 mA)

Opt.

Opt.

9

■

9

■

9

9

Instrumentation

9
9
9

Power, Energy and Demand

9
9
9

Demand Methods
Block interval (sliding, fixed)

9
9

Communications

9
9
9

Data Logging
128 KB for data logging
I/O

9

Power Quality Analysis
Total harmonic distortion (THD) voltage and current per phase
Alarming
Set point driven alarm

9

Notes
1 Digital out with IQ 250 requires external command.
2 Requires external power supply.

9

Standards and Certifications
●
●
●
●

9

IEC 687: 0.2% accuracy
ANSI C12.20: 0.2% accuracy
ANSI C62.41: Burst
UL/cUL: Electrical and
electronic measuring and
test equipment 22CZ

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

V3-T9-61

9.3

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9

Catalog Number Selection

9

IQ 250/260 Meter

IQ 250 M A 6 5 1 1 0

9
9
9

Model Series
250 = Energy
260 = Power quality

9

Meter Type
M = Meter (with
integral display)
T = Transducer only
(no display)

9
9
9
9
9

Data Logging
A = None
L = Data logging
Frequency
5 = 50 Hz system
6 = 60 Hz system

Current Input
1 = 1 amp secondary
5 = 5 amp secondary
Power Supply
1 = 90–265 Vac/Vdc
4 = 24–48 Vdc

I/O Slot 1
0 = None
1 = Two relay outputs/
two status inputs
2 = Four KYZ pulses/
four status inputs
3 = Four analog outputs:
0–1 mA
4 = Four analog outputs:
4–20 mA

Accessories
IQ 250/260 Meter
Description

Catalog Number

Panel mounting adapter for retrofitting an IQ 250/260 to an IQ Analyzer/IQ DP-4000/IQ data cutout

IQ250-PMAK

9

PXM 2000 Gateway card kit to upgrade an IQ 250/260 to a PXM 2000

PXM2000-GCK

9

IQ 250/260 Meter I/O Cards

9

Description

Catalog Number

IQ 250/260 I/O card—2 relay outputs/2 status inputs

IQ250/260-IO1

9

IQ 250/260 I/O card—4 KYZ pulses/4 status inputs

IQ250/260-IO2

IQ 250/260 I/O card—4 analog outputs—0–1 mA

IQ250/260-IO3

IQ 250/260 I/O card—4 analog outputs—4–20 mA

IQ250/260-IO4

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V3-T9-62

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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I/O Slot 2
0 = None
1 = Two relay outputs/
two status inputs
2 = Four KYZ pulses/
four status inputs
3 = Four analog outputs:
0–1 mA
4 = Four analog outputs:
4–20 mA

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Technical Data and Specifications

9

IQ 250/260 Electronic Power Meter
Description

Specifications

Current Inputs

Description

9

Specifications

9

Sensing Method

Class 10

5 amp nominal, 10 amp max.

Voltage, current

True rms

Class 2

1 amp nominal, 2 amp max.

Power

Fault current withstand
100 amps for:
300 amps for:
500 amps for:

Sampling at over 400 samples per cycle on
all channels

10 seconds
3 seconds
1 second

Harmonics resolution

40th order

9

Watts, VAR and VA

100 msec at 60 Hz

9

All other parameters

1 second at 60 Hz

9

90–265 Vac at 50/60 Hz or 100–370 Vdc,
universal AC/DC supply

9
9

Update Rate

Continuous current withstand

20 amps for screw terminated or passthrough connections

Programmable current

Full scale to any CT ratio

Power Supply

Burden

0.005 VA per phase max. at 11 amps

AC/DC voltage option

Pickup current
Class 10
Class 2

0.1% of nominal
5 mA
1 mA

DC voltage option

18–60 Vdc

Burden

10 VA max.

Connections
Pass-through wire gauge dimension
Quick connect

0.177 inches (4.5 mm)
0.25-inch male tab

Voltage Inputs
Range
Line-to-neutral
Line-to-line

20–576 Vac
0–721 Vac

Programmable voltage range

9

9

Standard Communications Format
Connection type

RS-485 (through back plate)

Com port baud rate

9600–57,600 bauds

9

Com port address

01–247

Data format

8-bit, no parity

Full scale to any PT ratio

Protocols

Modbus ASCII, RTU or DNP 3.0

9

Supported systems

3 element wye, 2.5 element wye,
2 element delta, four-wire delta systems

KYZ Pulse
Contacts

1 Form A

9

Input impedance

1 meg ohm/phase

On resistance, max.

35 ohms

Burden

0.36 VA/phase max. at 600V;
0.014 VA at 120V

Peak switching voltage

350 Vdc

Connection

7-pin 0.400-inch pluggable terminal block,
AWG #12–26 (0.129–3.31 mm2)

Continuous load current

120 mA

Peak load current

350 mA (10 ms)

Isolation

Off-state leakage current at 350 Vdc

1 uA

All inputs and outputs are galvanically isolated to 2500 volts.

Opto-isolation

3750 Vac

9

9
9
9
9

Environmental Ratings
Operating temperature

–20ºC to +70°C

Storage temperature

–20ºC to +70°C

Operating humidity

To 95% RH noncondensing

9

Faceplate rating

NEMA 12
Water-resistant
Mounting gasket included

9

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

V3-T9-63

9.3
9
9

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Wiring Diagrams
Service: Wye or Delta, Four-Wire with No PTs, Two or Three CTs
N

A

B

C

N

A

B

C

9
9
9
9

HI

9

Ic

Ib

Ia

LO

LO

LO

HI

GND
L (+)
N (–)
VRef
A
B
C

HI

9

Power
Supply

HI

HI

HI

Ic

Ib

Ia

LO

LO

LO

9
9
9
9
9

C
N

A

B

C

C
A
N

9

B

A

A

B

C

B

9
9
9

Service: Delta, Three-Wire with No PTs, 2 CTs
A

B

C

9
9
9
9

HI

HI

9

Ic

Ib

Ia

LO

LO

LO

9

HI

GND
L (+)
N (–)
VRef
A
B
C

Power
Supply

C

9

C
or

9

B

A

B

A

9
Not Connected to Meter

9
9
9

A

B

C

Note: Based upon the voltage rating, you may need a control power transformer for the control power.

9
V3-T9-64

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

GND
L (+)
N (–)
VRef
A
B
x

Power
Supply

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Dimensions
Approximate Dimensions in Inches (mm)

9

IQ 250/260 Meter—Face and Side Views

9

4.85 (123.2)

4.97 (126.2)

9

4.93 (125.2)

4.20 (106.7)

4.16 (105.7)

9
9

5.02
(127.5)

4.85
(123.2)

3.54
(89.9)

9
9

IQ 250/260 Face

3.25 (82.6)

3.25 (82.6)

IQ 250/260M Side

IQ 250/260T Side

9
9

Expandable I\Q Componentry

ANSI Mounting Panel Cutout

9

3.38
(85.9)

9

4 x .02
(0.5)

9

4.00
(101.6)

9
9
9
9

1.69
(42.9)

9

DIN Mounting Cutout

9

3.62
(92.0)

9
9
9

3.62
(92.0)

9
9
9
9

Description

Specifications

Weight

2 lbs (0.9 kg)

Basic unit

5.00 (127.0) H x 4.90 (124.5) W x 5.00 (127.0) L

IQ 250/260

Mounts in 92 mm DIN and ANSI C39.1 round cut-outs

Shipping container dimensions

6-inch cube

Tolerance

±0.1 inches (2.54 mm)

9

PXM 2250/2260/2270

Mounts in 3.62-inch (92.0) mm DIN and ANSI C39.1
round cut-outs

9

Projection in front of panel surface

4.85 (123.2) H x 4.85 (123.2) W x 1.01 (25.6) L

Projection behind panel surface

4.85 (123.2) H x 4.85 (123.2) W x 1.01 (25.6) L

Volume 3—Power Distribution and Control Assemblies

9
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CA08100004E—November 2013

www.eaton.com

V3-T9-65

9.3
9

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Contents

IQ 100

Description
Metering Products Family. . . . . . . . . . . . . . . . . . . . .
Power Xpert Meter 4000/6000/8000 Series. . . . . . .
Power Xpert Meter 2000 Series . . . . . . . . . . . . . . . .
IQ 250/260 Series Electronic Power Meters . . . . . .
IQ 130/140/150 Series Electronic Power Meters
Standards and Certifications . . . . . . . . . . . . . . . .
Catalog Number Selection. . . . . . . . . . . . . . . . . .
Accessories . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Technical Data and Specifications . . . . . . . . . . . .
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ 150S/250S Self-Enclosed Electronic Meters . . . .
IQ 35M . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ Analyzer 6400/6600 Series . . . . . . . . . . . . . . . . .
IQ DP-4000 Series . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ 230 Meters . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Xpert Multi-Point Meter . . . . . . . . . . . . . . . . .
IQ Energy Sentinel™ . . . . . . . . . . . . . . . . . . . . . . . .
PM3 Monitoring and Metering Module . . . . . . . . . .
Current Transformers (CTs). . . . . . . . . . . . . . . . . . . .
Clamp-On Current Transformers. . . . . . . . . . . . . . . .
IQ Flange . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Panel Mounting Adapter Kit . . . . . . . . . . . . . . . . . . .
Enclosed Meters . . . . . . . . . . . . . . . . . . . . . . . . . . .

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IQ 130/140/150 Series Electronic Power Meters
Product Description
The IQ 100 Meter family
provides capabilities you
would not normally expect in
affordable, compact meters,
such as fast sampling rate
and accurate metering for a
full range of power attributes.
Providing the first line of
defense against costly power
problems, Eaton’s IQ 100
series electronic power
meters can perform the work
of an entire wall of legacy
metering equipment utilizing
today’s technology.

Application Description
●

●

●
●

●

Utility and commercial
metering
Substations, industrial
facilities, power generation
sites and campuses
Sub-metering
Load studies and voltage
recording
Analog meter replacement

When space is at a premium,
yet you need ANSI C12.20
accuracy, the IQ 100 series fit
the bill. These meters are
ideal for electrical equipment
assemblies, machine control
panels, such as panelboard
and switchboard mains and
feeders, low voltage metalenclosed switchgear feeders
and motor control centers.
Requiring far less space than
other meters with similar
functionality, IQ 100 series fit
into a standard ANSI or IEC
cutout on a panelboard or
other electrical equipment,
and therefore fit easily into
retrofit applications.

V3-T9-66

Volume 3—Power Distribution and Control Assemblies

Features and Benefits
●

●

●

●

●

●

●

Measure and display realtime information about
critical power parameters
with a sampling rate of 400
samples per cycle
Monitor power utilization
and quality with ANSI
C12.20 accuracy (0.5%)
Verify meter accuracy with
KYZ test pulse selfcertification capabilities
Optional Modbus RTU or
TCP communications
Available as transducer
only or with display
Designed to accommodate
upgrades
Integrate into Eaton’s
Power Xpert Architecture
for a holistic systemlevel view

CA08100004E—November 2013

www.eaton.com

Page
V3-T9-21
V3-T9-30
V3-T9-49
V3-T9-60

V3-T9-67
V3-T9-67
V3-T9-67
V3-T9-68
V3-T9-70
V3-T9-71
V3-T9-76
V3-T9-79
V3-T9-87
V3-T9-93
V3-T9-100
V3-T9-112
V3-T9-121
V3-T9-122
V3-T9-131
V3-T9-134
V3-T9-135
V3-T9-136

9.3

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

IQ 100 Electronic Power Meters
Features

9

IQ 130

IQ 140

IQ 150

Current, per phase

■

■

■

Current demand

■

■

■

Calculated neutral current

■

■

■

Voltage, per phase (L-L, L-N)

■

■

■

Min/max. readings, I, V

■

■

■

Min./max. readings, I, V, PF, F, W, VAR, VA

■

■

Frequency

■

■

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Real, reactive and apparent power, total (W, VAR, VA)

■

■

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Power factor, total

■

■

Real, reactive and apparent power demand

■

■

■

■

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Instrumentation

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Power

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Demand Methods
Block interval (sliding, fixed)

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Energy
■

Real, reactive and apparent energy, total (Wh, VAR, VAh)

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Communications
RS-485, Modbus RTU, Modbus ASCII, KYZ output

Opt.

Opt.

Opt.

RJ45, Modbus TCP, KYZ output

Opt.

Opt.

Opt.

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Standards and Certifications
●
●

●
●

IEC 687: 0.5% accuracy
ANSI C12.20:
0.5% accuracy
ANSI C62.41: Burst
CE

●

UL/cUL: Electrical and
Electronic Measuring and
Test Equipment 22CZ

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Catalog Number Selection

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IQ 100 Meter

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IQ 150 M A 6 5 1 1

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Model Series
130 = Volts/amps
140 = Power
150 = Energy

9
Frequency
5 = 50 Hz system
6 = 60 Hz system

Meter Type
M = Meter (with integral
display)
T = Transducer only
(no display)

Power Supply
1 = 90–265 Vac/dc
4 = 24–48 Vdc

9
Communications

9

0 = None
1 = Modbus RTU and KYZ pulse
2 = Modbus TCP and KYZ output (RJ45)

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Current Input
1 = 1A secondary
5 = 5A secondary

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Accessories

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IQ 100 Meter
Description

Catalog Number

Panel Mounting Adapter for retrofitting an IQ 100 to an IQ Analyzer/IQ DP-4000/IQ Data Cutout

IQ250-PMAK

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Technical Data and Specifications

IQ 100 Electronic Power Meters

IQ 100 Electronic Power Meters, continued

Description

Description

Specifications

Current Inputs

Sensing Method

Class 10

5A nominal, 10A max.

Voltage, current

True RMS

Class 2

1A nominal, 2A max.

Power

Fault current withstand
100A for:
300A for:
500A for:

Sampling at over 400 samples per cycle on all
channels

10 seconds
3 seconds
1 second

Update Rate
Watts, VAR and VA

100 msec at 60 Hz

20A for screw terminated or pass-through
connections

All other parameters

1 second at 60 Hz

AC/DC voltage option

90–265 Vac at 50/60 Hz or
100–370 Vdc, Universal AC/DC supply

DC voltage option

18–60 Vdc

Burden

10 VA max.

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Continuous current withstand

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Programmable current

Full scale to any CT ratio

Burden

0.005 VA per phase max. at 11A

Pickup current
Class 10
Class 2

0.1% of nominal
5 mA
1 mA

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Connections
Pass-through wire gauge dimension
Quick connect

Power Supply

Optional Communications Format
0.177-inch (4.5 mm)
0.25-inch male tab

Voltage Inputs

Connection type

RS-485 or RJ45 (through back plate)

Com port baud rate

9600–57,600 bauds

Com port address

01–247

Data format

8-bit, no parity

Protocols

Modbus ASCII, RTU, TCP

Range
Line-to-neutral
Line-to-line

20–416 Vac
20–721 Vac

Programmable voltage range

Full scale to any PT ratio

Optional KYZ Pulse

Supported systems

3 element wye, 2.5 element wye,
2 element delta, four-wire delta systems

Contacts

1 Form A

On resistance, max.

35 ohms

Input impedance

1 megohm/phase

Burden

0.36 VA/phase max. at 600V;
0.014 VA at 120 volts

Connection

7-pin 0.400-inch pluggable terminal block,
AWG #12–26 (0.129–3.31 mm2)

Isolation
All inputs and outputs are galvanically isolated to 2500 volts.

9

Environmental Ratings
Operating temperature

–20ºC to +70ºC

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Storage temperature

–40ºC to +85ºC

Operating humidity

To 95% RH noncondensing

Faceplate rating

NEMA 12 water-resistant mounting gasket
included

9

Specifications

Peak switching voltage

350 Vdc

Continuous load current

350 mA (10 ms)

Off-state leakage current at 350 Vdc

1 uA

Opto-isolation

3750 Vac

Note
These specifications are subject to change without notice and represent the maximum
capabilities of the product with all options installed. This is not a complete feature list. Features
and functionality may vary depending on selected options, firmware version and product model.
Please refer to the technical data sheet and User Manual for detailed specifications.

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Wiring Diagrams

9

Service: Wye or Delta, Four-Wire with No PTs, Two or Three CTs
N

A

B

C

N

A

B

9

C

9
9
9
HI

HI

GND
L (+)
N (–)
VRef
A
B
C

HI

Ic

Ib

Ia

LO

LO

LO

Power
Supply

HI

HI

HI

Ic

Ib

Ia

LO

LO

LO

GND
L (+)
N (–)
VRef
A
B
x

Power
Supply

9
9
9
9
9
9

C
N

A

B

9

C

9

C
A
N
B

A

A

B

C

9

B

9
Service: Delta, Three-Wire with No PTs, 2 CTs
A

B

9

C

9
9
9
9
HI

HI

HI

Ic

Ib

Ia

LO

LO

LO

GND
L (+)
N (–)
VRef
A
B
C

Power
Supply

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9
C

9

C

9

or

B

A

B

9

A

9
Not Connected to Meter
A

B

9

C

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Note: Based upon the voltage rating, you may need a control power transformer for the control power.

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

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Dimensions

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IQ 100 Meter—Face and Side Views

Approximate Dimensions in Inches (mm)

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4.85 (123.2)

4.97 (126.2)

4.93 (125.2)

4.20 (106.7)

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4.16 (105.7)

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9

5.02
(127.5)

4.85
(123.2)

3.54
(89.9)

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9
IQ 100 Face

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3.25 (82.6)

3.25 (82.6)

IQ 100 Side

IQ 100 Side

ANSI Mounting Panel Cutout

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3.38
(85.9)

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4 x .02
(0.5)

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4.00
(101.6)

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1.69
(42.9)

DIN Mounting Cutout

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3.62
(92.0)

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3.62
(92.0)

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Description

Specifications

Weight

2 lbs (0.9 kg)

Basic unit

5.00 (127.0) H x 4.90 (124.5) W x 5.00 (127.0) L

IQ 100

Mounts in 92 mm DIN and ANSI C39.1 round cut-outs

Shipping container dimensions

6-inch cube

Tolerance

±0.1 inches (2.54 mm)

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Contents

IQ 150S/250S Self-Enclosed Electronic Meters

Description
Metering Products Family. . . . . . . . . . . . . . . . . . . .
Power Xpert Meter 4000/6000/8000 Series . . . . . .
Power Xpert Meter 2000 Series . . . . . . . . . . . . . . .
IQ 250/260 Series Electronic Power Meters. . . . . .
IQ 130/140/150 Series Electronic Power Meters . .
IQ 150S/250S Self-Enclosed Electronic Meters
Catalog Number Selection. . . . . . . . . . . . . . . . .
Technical Data and Specifications . . . . . . . . . . .
Wiring Diagrams . . . . . . . . . . . . . . . . . . . . . . . .
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ 35M . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ Analyzer 6400/6600 Series . . . . . . . . . . . . . . . .
IQ DP-4000 Series . . . . . . . . . . . . . . . . . . . . . . . . .
IQ 230 Meters . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Xpert Multi-Point Meter . . . . . . . . . . . . . . . .
IQ Energy Sentinel™ . . . . . . . . . . . . . . . . . . . . . . .
PM3 Monitoring and Metering Module . . . . . . . . .
Current Transformers (CTs). . . . . . . . . . . . . . . . . . .
Clamp-On Current Transformers . . . . . . . . . . . . . . .
IQ Flange . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Panel Mounting Adapter Kit . . . . . . . . . . . . . . . . . .
Enclosed Meters. . . . . . . . . . . . . . . . . . . . . . . . . . .

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V3-T9-21
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V3-T9-49
V3-T9-60
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V3-T9-93
V3-T9-100
V3-T9-112
V3-T9-121
V3-T9-122
V3-T9-131
V3-T9-134
V3-T9-135
V3-T9-136

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IQ 150S/250S Self-Enclosed Electronic Meters
Product Description

Application Description

With energy costs
skyrocketing, you need the
ability to verify the accuracy
of utility billing and allocation
of energy costs among
business units, different
manufacturing areas or
facilities, and tenants.
Production equipment and IT
systems are vulnerable to
power anomalies; therefore,
you must ensure that power
is always up to specifications.
If your infrastructure is an
established facility, you may
not currently have metering
or may have addressed these
concerns by deploying a
variety of analog gauges and
meters—one for volts, one
for amperes and so on, with
separate meters for each
measurement.

●

If you’re planning an upgrade
or a new power infrastructure,
no doubt you would like to
capitalize on the latest
technology to improve upon
that cumbersome
architecture and its
patchwork view.

●

●
●

Industrial and commercial
buildings, metering and
submetering
Government facilities and
military
Universities and airports
Load studies and voltage
recording

Features and Benefits
●

●

●

●

Self-enclosed, these
meters are an ideal
solution for surface
mounting next to a
selected piece of
equipment for energy
monitoring
NEMA 12 enclosure with a
large, easy-to-read faceplate,
consistent with other
Eaton meter models,
designed with “knockouts”
for easy installation
Ethernet communications
option for either wired or
wireless setup, allowing for
additional ease of
installation and integration
into existing networks
Available data and alarm
recording for historical
records/trending

●

Integrate into Eaton’s
Power Xpert® Architecture
for a holistic system-level
view

Wireless and High-End
Capabilities you would not
Expect from a Self-Enclosed,
Compact Meter
Providing the first line of
defense against costly power
problems, Eaton’s IQ 150S/
250S electronic self-enclosed
meters can perform the work
of an entire wall of legacy
metering equipment using
today’s secure wireless
technology. Eaton’s IQ 150S/
250S meters use 24-bit AD
converters that sample at
more than 400 samples per
cycle and meet IEC 687
(0.2% accuracy) and ANSI
C12.20 (0.2% accuracy)
standards. With such highperformance measurement
capability, these meters can
be confidently used for
primary revenue metering
and submetering applications.
Either model will help you
monitor energy demand,
while the IQ 250S provides
the extra benefit of also

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

monitoring and recording the
changes in the characteristics
of your power.
Eaton’s IQ 150S/250S
meters provide direct-reading
metered values for the most
critical power aspects, such
as watts, watt demand,
watthours, voltage amperes
(VA), VA-hours, VARs, VARhours and power factor. They
have high sampling speed
and accuracy.
These meters are selfenclosed in a NEMA 12
enclosure with “knockouts”
on the bottom for
communication and power,
providing for an easy
installation.
Perhaps you don’t have
network drops in all the
right places. The IQ 150S/
250S offers a wireless
communications option.
The transmissions are
encrypted using 128-bit
Wired Equivalent Privacy
(WEP) for security.

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Metering Devices

Industry-Standard
Communication Protocols
Standard Modbus RS-485
Communication
Standard communication
includes an RS-485 output
speaking Modbus protocol.
This allows the unit to be
connected to any serial RS485 bus using the Modbus
interface. The unit
communicates easily with
most building automation,
Power Xpert Software or
other software systems.
Baud rates are up to
57.6K baud to provide
fast update times.
Wi-Fi or Land-Based
Ethernet
The unit offers an Ethernet
option—configured either as
an RJ45 or Wi-Fi connection.
The Wi-Fi configuration
allows the 150S/250S to be
used on standard Wi-Fi base
stations. The unit is assigned
an IP address; it
communicates Modbus
protocol over Ethernet TCP/
IP. Wireless Ethernet is
reliable and easy to integrate,
making it the superior
solution for mass meter
deployment.

KYZ Pulse
For applications in which a
pulse is needed, the unit also
provides a KYZ output that
pulses proportional to the
amount of energy consumed.
This feature is used for pulse
counting applications into
building management
systems where serial or
Ethernet protocol is not
available.
Verify Energy Bills
The IQ 150S/250S models
provide a traceable watthour
test pulse (used with a
watthour pulse recorder or
totalizer), so you can verify
the accuracy of your meter
and in turn, the accuracy of
billing from your utility
company and to internal
customers.
Integrated with Eaton’s
Power Xpert Architecture
IQ 150S/250S meters
integrate into Eaton’s Power
Xpert Architecture, where
meters, gateways and
monitoring devices
collaborate to create a
unified, centralized view of
the end-to-end power and
facility infrastructure.

When used in this
architecture, either with a
Power Xpert Gateway or
directly via Ethernet, the
meters with the Modbus RTU
option can provide Webbased graphics of current
power conditions. Simply
connect your meter to a
Power Xpert Gateway to
translate Modbus-based
information from the meter
into HTML-based Web pages
that are accessible from any
standard Web browser. If you
select a model with the
Ethernet option, the meter
can easily be monitored
remotely via Power Xpert
Software or another thirdparty monitoring system.
With access to accurate, realtime information from IQ
150S/250S meters, Power
Xpert Architecture can
transform your power system
into an integrated, agile
system, and an easily
managed entity that performs
better and costs less.

9

Installation Diagram

9

IQ 150S/250S Installation

Designed for the User
When space is at a premium,
yet you need ANSI C12.20
accuracy, Eaton IQ 150S/
250S meters fit the bill.
These ultra-compact meters
are ideal for surface mounting
next to a selected piece of
equipment for energy
monitoring. Requiring far less
space than other meters with
similar functionality, and
offering a NEMA 12
enclosure and a large, easyto-read faceplate, consistent
with other Eaton meter
models, these meters are
designed with “knockouts”
for easy retrofit installation.
Most meters in this class
have small or dark displays
that can be hard to see,
especially from a distance.
Eaton’s IQ 150S/250S meters
have a large, bright red, threeline LED display, each line
more than a half-inch tall. This
display is very easy to read,
even if the meter is installed at
a height or distance. Using the
keypad and menus on the
local display, users can
display a variety of electrical
system values or program
the meter.

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O

Closed

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Lockable
Revenue Seal

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Features of IQ 150S/250S Electronic Power Meters
Features

9

IQ 150S

IQ 250S

Current, per phase

■

■

Calculated neutral current

■

■

Voltage, per phase (L-L, L-N)

■

■

Frequency

■

■

Minimum/maximum readings, I 1, V 1, PF, F, W, VAR, VA

Total

Total and per phase

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Instrumentation

9
9

Power
Real, reactive and apparent power (W, VAR, VA)

Total

Total and per phase

Power factor

Average

Average and per phase

9

Demand Methods
Block interval (fixed, sliding)

■

■

Current demand

■

■

Real, reactive and apparent power demand

Total

Total and per phase

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9

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Energy
Real, reactive and apparent energy (Wh, VARh, VAh)

Total

Total and per phase

Real and reactive, net and positive and negative (Wh, VARh)

Total

Total and per phase

■

■

RS-485, Modbus RTU, DNP 3.0

■

■

RJ45 or 802.11b, Modbus TCP 2

Optional

Optional

9

I/O
Pulse output

9

Communications

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Data Logging
■

2 MB for data logging

9

Alarming
■

Set point driven alarm

9

Notes
1 Per phase only.
2 If configured for Ethernet, RS-485 not available.

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Catalog Number Selection

9

IQ 150S/250S Meter

9
IQ 150 S A 6 5 1 1

9

Model Series
150 = Energy
250 = Energy plus

9

Communication
Meter Type
S = Self-enclosed meter

Power Supply
Frequency

1 = 90–400 Vac/Vdc

5 = 50 Hz system
6 = 60 Hz system

Current Input

9

1 = Modbus RTU (RS-485)
2 = Modbus RTU (RS-485)
or TCP—(RJ45)
or 802.11b (Wi-Fi)

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1 = 1A secondary
5 = 5A secondary

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Metering Devices

Technical Data and Specifications
IQ 150S/250S Electronic Meter Technical Information
Description

Specifications

Description

Specifications

9

Current Inputs
Class 10

5A nominal, 10A maximum

Watts, VAR and VA

100 msec at 60 Hz

9

Class 2

1A nominal, 2A maximum

All other parameters

1 second at 60 Hz

9

Fault Current Withstand
20A for:
60A for:
100A for:

10 seconds
3 seconds
1 second

Programmable current

Full scale to any CT ratio

9

Update Rate

Power Supply

Burden

0.005 VA per phase maximum at 11A

9

Pickup Current
Class 10
Class 2

0.1% of nominal
5 mA
1 mA

9

Connections
Screw terminal

9

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AC/DC voltage option

90–400 Vac at 50/60 Hz or
100–370 Vdc, universal AC/DC supply

Burden

16 VA maximum

Standard Serial Communications Format
Connection type

RS-485

Communications port baud rate

9600–57,600 Bauds

Communications port address

01–247

Data format

8-bit, no parity

Voltage Inputs

Protocols

Modbus ASCII, RTU, DNP 3.0

Range
Line-to-neutral

Optional Ethernet Communications Format

#6–32 screws

20–416 Vac (IQ150S), 20–576 Vac (IQ250S)

Connection type

RJ45 or 802.11b (wireless)

20–721 Vac

Protocols

Modbus TCP

Programmable voltage range

Full scale to any PT ratio

KYZ Pulse

Supported systems

3 element wye, 2.5 element wye, 2 element delta,
four-wire delta systems

Contacts

1 Form A

On resistance, maximum

35 Ohms

Peak switching voltage

350 Vdc

Line-to-line

Input impedance

1 megohm/phase

Burden

0.36 VA/phase maximum at 600V; 0.014 VA at 120V

Connection

7-pin, 0.400-inch screw
terminal block, AWG #12–26 (0.129–3.31 mm2)

Continuous load current

120 mA

Peak load current

350 mA (10 ms)

Isolation

Off-state leakage current at 350 Vdc

1 uA

All inputs and outputs are galvanically isolated to 2500V

Opto-isolation

3750 Vac

Environmental Ratings

Dimensions and Shipping
–20º to +70°C

Weight

4 lbs

–20º to +70°C

Basic unit

H 7.90 x W 7.50 x D 3.10 inches

Operating humidity

To 95% RH noncondensing

Compliance

9

Faceplate rating

NEMA 12

IEC 687

9

Voltage, current
Power

9

9

Operating temperature
Storage temperature

0.2% accuracy

ANSI C12.20

0.2% accuracy

rms

ANSI C62.41

Burst

Sampling at over 400 samples per cycle on all
channels

ANSI (IEEE) C37.90.1

Surge withstand

UL/cUL

Electrical and electronic
measuring and test equipment 22CZ

Sensing Method

9

Note: Specifications are subject to change without notice and represent
the maximum capabilities of the product with all options installed. This is not
a complete feature list. Features and functionality may vary depending on
selected options, firmware version and product model. Please refer to
User Manual for detailed specifications.

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Wiring Diagrams

9

IQ 150S/250S Electronic Meter

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Three-Phase Four-Wire WYE Direct

Three-Phase Four-Wire WYE with PTS

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Three-Phase Three-Wire DELTA Direct

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Three-Phase Three-Wire DELTA Direct

9
Dimensions
Approximate Dimensions in Inches (mm)

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IQ 150S/250S Electronic Meter

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7.53
(191.3)

9

3.70
(94.0)

5.60
(142.2)

0.50
(12.7)

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Mounting
Plate

5.95
(151.1)

7.90
(200.7)

7.90
(200.7)

Antenna Length:
4.40 (111.8)

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3.11
(79.0)

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Contents

IQ 35M

Description
Metering Products Family. . . . . . . . . . . . . . . . . . . . .
Power Xpert Meter 4000/6000/8000 Series. . . . . . .
Power Xpert Meter 2000 Series . . . . . . . . . . . . . . . .
IQ 250/260 Series Electronic Power Meters . . . . . .
IQ 130/140/150 Series Electronic Power Meters . . .
IQ 150S/250S Self-Enclosed Electronic Meters . . . .
IQ 35M
Product Selection . . . . . . . . . . . . . . . . . . . . . . . .
Accessories . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Technical Data and Specifications . . . . . . . . . . . .
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ Analyzer 6400/6600 Series . . . . . . . . . . . . . . . . .
IQ DP-4000 Series . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ 230 Meters . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Xpert Multi-Point Meter . . . . . . . . . . . . . . . . .
IQ Energy Sentinel™ . . . . . . . . . . . . . . . . . . . . . . . .
PM3 Monitoring and Metering Module . . . . . . . . . .
Current Transformers (CTs). . . . . . . . . . . . . . . . . . . .
Clamp-On Current Transformers. . . . . . . . . . . . . . . .
IQ Flange . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Panel Mounting Adapter Kit . . . . . . . . . . . . . . . . . . .
Enclosed Meters . . . . . . . . . . . . . . . . . . . . . . . . . . .

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IQ 35M

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Product Description

Application Description

The Eaton IQ 35M Meter is a
DIN rail meter that combines
exceptional performance and
easy installation to deliver a
cost-effective solution for
energy and power monitoring
applications, as well as submetering applications. Most
models include pulse output,
alarm contact and phase alarms
for true versatility. The BACnet
version offers two digital inputs
for accumulating other meter
pulses in place of the digital
output and alarm contact.
The Modbus output options
offer added flexibility for
configuration and data analysis.
The IQ 35M allows you to:

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Verify energy bills
Make informed load
shifting and shedding
decisions
Fairly and accurately
allocate energy costs to
users
Identify wasteful practices
Decrease unnecessary
usage
Produce an energy profile
Secure the optimum utility
rate structure

V3-T9-76

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Commercial submetering
Energy management
Industrial monitoring
Cost allocation

Catalog Number Selection
IQ 35M Meter

IQ35M A 1 1

Features
●

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Economical and compact
watthour meter with
demand
Backlit LCD display for local
reading
Compatible with the Power
Xpert Gateway for remote
monitoring
Monitors
●
Voltage, current, power
factor, frequency
●
Power and energy: real,
reactive and apparent
Optional data logging
capability
Optional serial
communications (ModbusRTU or BACnet)
Revenue grade, ANSI
C12.20 0.5% accuracy, IEC
62053-22 Class 0.5S
Compatible with economical
solid-core and split-core CTs
User-enabled password
protection
On-board diagnostics

Volume 3—Power Distribution and Control Assemblies

Meter Series
Energy Type
1 = Standard energy
2 = Four quadrant energy

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2
3
5

Output Option
= Pulse output only
= Pulse output + Modbus
= Pulse output + Modbus + data logging
= Pulse inputs + BACnet + data logging

CA08100004E—November 2013

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V3-T9-21
V3-T9-30
V3-T9-49
V3-T9-60
V3-T9-66
V3-T9-71
V3-T9-77
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V3-T9-135
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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Product Selection

9.3

Technical Data and Specifications
●

IQ 35M Current Transformers
Catalog
Number

Description

●

Solid Core
IQ35M CT, solid core, 5A:0.33 Vac, 0.30 inch

IQ35M-SO-030-5

IQ35M CT, solid core, 20A:0.33 Vac, 0.30 inch

IQ35M-SO-030-20

IQ35M CT, solid core, 50A:0.33 Vac, 0.50 inch

IQ35M-SO-050-50

IQ35M CT, solid core, 50A:0.33 Vac, 0.75 inch

IQ35M-SO-075-50

IQ35M CT, solid core, 100A:0.33 Vac, 1.25 inch

IQ35M-SO-125-100

IQ35M CT, solid core, 200A:0.33 Vac, 1.25 inch

IQ35M-SO-125-200

IQ35M CT, solid core, 250A:0.33 Vac, 1.25 inch

IQ35M-SO-125-250

IQ35M CT, solid core, 300A:0.33 Vac, 1.25 inch

IQ35M-SO-125-300

IQ35M CT, solid core, 400A:0.33 Vac, 1.25 inch

IQ35M-SO-125-400

Split Core
IQ35M CT, split core, 5A:0.33 Vac, 0.75 inch

IQ35M-SP-075-5

IQ35M CT, split core, 30A:0.33 Vac, 0.75 inch

IQ35M-SP-075-30

IQ35M CT, split core, 50A:0.33 Vac, 0.75 inch

IQ35M-SP-075-50

IQ35M CT, split core, 100A:0.33 Vac, 0.75 inch

IQ35M-SP-075-100

IQ35M CT, split core, 200A:0.33 Vac, 0.75 inch

IQ35M-SP-075-200

IQ35M CT, split core, 250A:0.33 Vac, 1.25 inch

IQ35M-SP-125-250

IQ35M CT, split core, 300A:0.33 Vac, 1.25 inch

IQ35M-SP-125-300

IQ35M CT, split core, 400A:0.33 Vac, 1.25 inch

IQ35M-SP-125-400

IQ35M CT, split core, 600A:0.33 Vac, 1.25 inch

IQ35M-SP-125-600

IQ35M CT, split core, 800A:0.33 Vac, 2.50 inch

IQ35M-SP-253-800

IQ35M CT, split core, 1000A:0.33 Vac, 2.50 inch

IQ35M-SP-255-1000

IQ35M CT, split core, 1200A:0.33 Vac, 2.50 inch

IQ35M-SP-255-1200

IQ35M CT, split core, 1600A:0.33 Vac, 2.50 inch

IQ35M-SP-255-1600

IQ35M CT, split core, 2000A:0.33 Vac, 2.50 inch

IQ35M-SP-255-2000

IQ35M CT, split core, 2400A:0.33 Vac, 2.50 inch

IQ35M-SP-255-2400

Accessories

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Voltage input
UL: 90V (L-N) to 600V (L-L)
CE: 90V (L-N) to 300V (L-L)
Current input
Scaling: 5–32,767A
Input range: 0–0.333V or
0–1V (selectable)
Control power
UL: 90V (L-N) to 600V (L-L)
CE: 90V (L-N) to 300V (L-L)

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Accuracy
●
Real power and energy
0.5% (ANSI C12.20, IEC 62053-22 Class 0.5S)

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Outputs
●
IQ35MAx1 thru 3:
Real energy pulse: NO static; alarm contacts: NC static
●
IQ35MA11
Reactive energy pulse 30 Vac/Vdc
●
IQ35MAx2, IQ35MAx3
RS-485 two-wire Modbus RTU
●
IQ35MA15 RS-485 two-wire BACnet MS/TP
Inputs
●
IQ35MA15
Two pulse accumulators

Catalog
Number

IQ35M enclosure, NEMA 4X

IQ35M-ENC

IQ35M fuse pack, single, 1/2A slow-blow

IQ35M-FP1

IQ35M fuse pack, double, 1/2A slow-blow

IQ35M-FP2

IQ35M fuse pack, triple, 1/2A slow-blow

IQ35M-FP3

IQ35M replacement mounting clips

IQ35M-RMC

IQ35M DIN rail

IQ35M-DR

IQ35M DIN rail stop clips (10 pack)

IQ35M-DRSC

Note: Specifications are subject to change without notice and represent
the maximum capabilities of the product with all options installed. This is
not a complete feature list. Features and functionality may vary
depending on selected options, firmware version and product model.
Please refer to User Manual for detailed specifications.

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Mechanical
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Mounting
DIN rail or 3-point screwmount

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Environmental
●
Operating temperature range
Meter: –30° to 70°C (–22° to 158°F)
Display: –10° to 50°C (14° to 122°F)
●
Storage temperature range
Meter: –40° to 85°C (–40° to 185°F)
Display: –10° to 60°C (14° to 140°F)
●
Humidity range
<95% RH noncondensing

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Data Outputs
●
kW, kWh: Total
●
Current: Three-phase average and per phase
●
Voltage: Three-phase average, per phase, and line-line and
line-neutral
●
Power: Real, reactive and apparent;
Three-phase total and per phase
●
Power factor: Three-phase average and per phase
●
Frequency
●
Power demand: most recent and peak
●
Demand configuration: fixed, rolling block and external sync
●
Data logging (IQ35MAx3)
10 configurable data buffers;
configurable demand subinterval (when set at a 15-minute
interval, buffers store data for 60 days)
●
Data logging (IQ35MA15)
6 configurable data buffers;
configurable demand subinterval (when set at a 15-minute
interval, buffers store data for 60 days)
●
Trending requires communication network to retrieve data

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IQ 35M Accessories
Description

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

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Dimensions

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IQ 35M Dimensional Drawing

Approximate Dimensions in Inches (mm)

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IQ 35M Wall Mount Configuration
2.40
(60.1)

1.80 (45.7)

1.20
(30.5)

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1.90
(48.3)

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2.30
(58.4)

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1.50
(38.1)

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4.20
(106.7)

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3.90
(99.1)
4.30
(109.2)

3.60
(91.4)
0.40
(10.2)

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IQ 35M DIN Mount Configuration
4.20
(106.7)

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3.60
(91.4)

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0.30
(7.61)

0.20
(5.1)

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CA08100004E—November 2013

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Contents

IQ Analyzer 6400/6600 Series

Description
Metering Products Family. . . . . . . . . . . . . . . . . . . .
Power Xpert Meter 4000/6000/8000 Series . . . . . .
Power Xpert Meter 2000 Series . . . . . . . . . . . . . . .
IQ 250/260 Series Electronic Power Meters. . . . . .
IQ 130/140/150 Series Electronic Power Meters . .
IQ 150S/250S Self-Enclosed Electronic Meters . . .
IQ 35M . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ Analyzer 6400/6600 Series
Standards and Certifications . . . . . . . . . . . . . . .
Product Selection. . . . . . . . . . . . . . . . . . . . . . . .
Accessories . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Technical Data and Specifications . . . . . . . . . . .
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ DP-4000 Series . . . . . . . . . . . . . . . . . . . . . . . . .
IQ 230 Meters . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Xpert Multi-Point Meter . . . . . . . . . . . . . . . .
IQ Energy Sentinel™ . . . . . . . . . . . . . . . . . . . . . . .
PM3 Monitoring and Metering Module . . . . . . . . .
Current Transformers (CTs). . . . . . . . . . . . . . . . . . .
Clamp-On Current Transformers . . . . . . . . . . . . . . .
IQ Flange . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Panel Mounting Adapter Kit . . . . . . . . . . . . . . . . . .
Enclosed Meters. . . . . . . . . . . . . . . . . . . . . . . . . . .

IQ Analyzer—
Comprehensive Electrical
Distribution Monitoring

Page
V3-T9-21
V3-T9-30
V3-T9-49
V3-T9-60
V3-T9-66
V3-T9-71
V3-T9-76

V3-T9-82
V3-T9-83
V3-T9-83
V3-T9-84
V3-T9-85
V3-T9-87
V3-T9-93
V3-T9-100
V3-T9-112
V3-T9-121
V3-T9-122
V3-T9-131
V3-T9-134
V3-T9-135
V3-T9-136

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IQ Analyzer 6400/6600 Series
Product Description

Features, Benefits and Functions

Eaton’s IQ Analyzer is a
complete solution for users
who want to monitor and
manage all aspects of their
electrical distribution system.
Based on input from
customers and consultants,
it provides extensive
metering, power quality
analysis, remote input
monitoring, control relaying,
analog input/outputs and
communications capability.
Its high performance
metering exceeds ANSI
C12.16 (1%) specification for
revenue meters and meets
ANSI C12.20 Class 0.5%,
provides quality true rms
readings through the 50th
harmonic, accurately
measures nonsinusoidal
waveforms up to a 3.0 crest
factor, and displays even
and odd multiples of the
fundamental current and
voltage through the 50th
harmonic. Both magnitude
and phase angle of the
harmonics are displayed.

The unique operator
interface, which includes a
reverse mode LCD display,
easy to use Meter Menu
screens and detailed Analysis
screens, is designed to allow
a wealth of real-time and
recorded information to be
accessed easily by an
operator. All programming
can be accomplished through
the faceplate or the
communications port. The
comprehensive on-line Help
feature provides useful
information on device
operation, programming and
troubleshooting.

Application Description
●

●
●

Monitoring of over 150
electrical parameters
Power quality management
Energy management

Metered and Monitored
Parameters
●
rms sensing
●
Phase neutral, and
ground currents
●
Volts: L-L, L-N, Avg. L-L,
Avg. L-N, N-G
●
Power: real, reactive,
apparent (system and
per phase)
●
Frequency
●
Power factor: apparent and
displacement (system and
per phase)
●
Energy and demand
(forward, reverse, net) real,
reactive apparent at four
different utility rates
●
Individual current and
voltage harmonics:
magnitude, phase angle
●
% THD: current and
voltage
●
Waveform capture

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●

●

●

Minimum and maximum
values
Event logging/disturbance
recording
ANSI C12.20 Class 0.5%
revenue metering accuracy,
IEC687 Class 0.5%
Industry Canada 0.5%
revenue accuracy

Communications
●
Optional interface
capability to computer
network for data collection,
storage and/or printout
via Eaton’s Power
Management Software
Physical Characteristics
●
Graphical reverse mode
LCD display with LED
backlight
●
Up to seven lines of
information
●
Membrane faceplate
NEMA 3R and 12 rated

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Disturbance Information
With the communications
option and Eaton’s Power
Management Software and
Waveform Display software,
a Waveform Analysis will
construct waveforms of up to
56 cycles of all currents and
voltages (including neutral
and ground) to help
troubleshoot undervoltage/
sag and overvoltage/swell
conditions. (See CBEMA
Trend Logging section.)
By programming a reset
threshold, the duration of the
voltage disturbance can also
be indicated.
The IQ Analyzer 6600 series
with Graphic Waveform
Display offers the ability to
view the captured waveform
right at the device. The 6600
series also offers the ability to
detect and capture sub-cycle
voltage disturbances.
Extensive Harmonic
Distortion Analysis
Current and voltage distortion
data are displayed at the
device and accessible
through the communications
port. This includes % THD,
K-Factor, Crest Factor,
CBEMA factor, and both
magnitudes and phase angles
of all harmonics through the
50th. A snapshot sample
of this information may
be activated by user
commands, discrete inputs
or programmable thresholds
to capture distortion data
during conditions of real
interest. To help eliminate
nuisance alarms, harmonic
distortion information can be
captured and relay outputs
activated when THD exceeds
a programmable percentage
of fundamental or a
programmable magnitude
(e.g., amperes) threshold.
Time-of-Use Metering
The IQ Analyzer offers
the ability to store energy
usage data for time of use
revenue metering. It can
be programmed for any
combination of weekday,
Saturday, Sunday,
22 holidays, 8 seasons,

system watts, VARs and
VA, minimum and
maximum apparent and
displacement PF). Using
this feature, minimum
and maximums reached
during each trend interval
are recorded.

32 schedules and 10 time
periods per schedule. The IQ
Analyzer will keep track of the
following parameters for four
different utility rates:
●
●
●
●
●
●
●

Watthours
VAR hours
VA hours
Current demand
Watt demand
VA demand
VAR demand

Historical Trend Logging
The IQ Analyzer is equipped
with onboard logging
capability, which includes
the ability to log a total of
24 parameters with intervals
ranging from 0.13 seconds
(every eight cycles) to twice
a week (5040 minutes). The
trending function can begin
immediately or can be
triggered upon receipt of a
discrete input into the IQ
Analyzer. Onboard logging
provides a cost-effective
means of distributed data
storage where real-time
communications may not be
feasible or for applications
where data storage
redundancy is desired. Four
trend data logs are stored in
non-volatile memory aboard
the IQ Analyzer and can be
retrieved at the display or
via communications for
viewing using Eaton’s Power
Management Software.
●

●

●

●

●

Up to 24 parameters with
storage capacity for up to
90,000 data points
Up to 234 days of data
can be stored when
recording a parameter
every 15 minutes
Trends 1, 2 and 3 can
save data on a discrete
contact input
Trend 4 can save data
on a power quality or
meter event
Minimum and maximum
recording (minimum and
maximum three-phase
average current, maximum
IG, minimum and
maximum three-phase
average VLL and VLN,
maximum VNG, maximum

CBEMA Trend Logging
The IQ Analyzer can be
configured to store the
necessary data so that the
software can display a sag or
swell voltage event on the
industry standard CBEMA
(now ITIC) curve for
predictive maintenance
and troubleshooting. This
application utilizes the IQ
Analyzer waveform capture
for high-0speed events along
with historical trend logging
for longer term voltage
disturbances. Once this data
is uploaded to a PC running
the Power Management
Software’s Event Viewer
the information is analyzed,
displayed and stored.
Automatic uploading of
CBEMA events can be
selected in the software.
A three-phase event will be
correctly displayed as a single
point on the CBEMA curve.
Event Logging
The IQ Analyzer will store
in non-volatile memory the
time and reason for last 504
events. These events can be
viewed from the graphical
display or accessed via
communications. In addition
to all of the meter events
listed in the Event Conditions
section (Page V3-T9-81), the
following events are entered
into the event log:
Time and date of:
●
●
●
●
●

Alarms
Meter power up
All resets
All setting changes
Communications
established or lost

Event logging is another
powerful troubleshooting tool
within the IQ Analyzer.

Extensive I/O and
Communications Capability
One analog and three digital
inputs are provided to
interface with sensors and
transducers. Three analog
outputs and four relay
contacts are furnished to
share data with PLCs and
control systems and to
actuate alarms and control
relays. Terminals are captive
clamp type and finger safe.
With the communications
option, the device can be
remotely monitored,
controlled and programmed.
Ratings
●
Application to 500 kV,
no PTs to 600 volts
●
CT ratios selectable from
5:5A to 10,000:5A
●
Standard 120/600 Vac line
●
Three-phase power supply
module, 100–600 Vac.
Separate source power
supply module available,
100–240 Vac or
100–250 Vdc
●
DC only separate source
power module also
available, 24–48 Vdc
Displayed Information Features
●
All information accessible
at device or through
communications port
via Eaton’s Power
Management Software
●
Quality true rms readings
through 50th harmonic
●
Complies with the
accuracy portion of
ANSI C12.20 Class 0.5%
revenue metering
specification
●
Accurate readings for
nonsinusoidal waveforms
with up to 3.0 crest factor
●
Screens display auto
ranging units, kilo units,
mega units as needed
●
10-digit energy readings
●
Displays multiple
parameters at the
same time
●
Programmable custom
screens

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Meter Menu Screens

●

●
●

Meter Menu

Examples of Meter Menu

●

●

%THD voltage
●
Phases A-B, B-C, C-A
●
Phases A-N, B-N, C-N

●

●
●

Custom Screen
●

●

●

Voltage
●
Phases A-B, B-C, C-A,
average
●
Phases A-N, B-N, C-N,
average
●
Neutral-ground
Power
●
Real (watts)
●
Reactive (VARs)
●
Apparent (VA)
●
Phases A, B, C and
system

Power factor (Phases A, B,
C and system)
●
Displacement
●
Apparent
%THD current
●
Phases A, B, C, N

●

Meter Menu Displayed
Information
●
Current
●
Phases A, B, C, average
●
Neutral
●
Ground (separate CT)

Frequency, time and date
Demand
●
System current
(amperes)
●
Systems real power
(kW)
●
System reactive power
(kVAR)
●
System apparent power
(kVA)

●

Custom Screen

The IQ Analyzer allows a user
to view commonly used
parameters by scrolling
through its LED indicator
Meter Menu.

Energy (forward, reverse
and net)
●
Real (kWh)
●
Reactive (kVARh)
●
Apparent (kVAh)—no
reverse or net

●

K-factor
CBEMA (ITIC) derating
factor (displayed as “Z”)
Crest Factor
Discrete input and
output status
Analog input reading
Custom—user may
program four screens to
show any combination of
seven Meter Menu
parameters per screen

Harmonic Analysis Screens

●

●

●
●

Power
●
Real (Watts)
●
Reactive (VARs)
●
Apparent (VA)
●
Phases A, B, C and
System
Power factor
●
Apparent and
Displacement (threephase and system)
Frequency
THD (amperes, volts
and %):
●
Current (Phases A, B, C, N)
●
Voltage (Phases A-B, BC, C-A, A-N, B-N, C-N)

All minimum/maximum
values may be reset via reset
pushbutton on faceplate,
discrete input or
communications command.
Values are updated at least
once every 16 line cycles.
The F3 function key accesses
the Harmonic Analysis
screens. Two cycles of data
sampled at 128 samples/
cycle are simultaneously
recorded for:
●

●

9.3

Current
●
Phases A, B, C, N, G
Voltage
●
Phases A-B, B-C, C-A
●
Phases A-N, B-N, C-N
●
Neutral to Ground

Magnitudes (or % of
fundamental) of odd and
even multiples of the
fundamental from 2nd–50th
are displayed. The phase
angle associated with each
multiple of the fundamental
is also displayed.

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Waveform Screen Available with
Model 6600

Pressing the F2 function key
accesses the Event Analysis
screens. These display the
following data for up to ten
event/alarm conditions:
●

●

●

Event data is stored in nonvolatile memory. If a reset
threshold is programmed,
the duration of the event
(e.g., undervoltage) is also
displayed. With Eaton’s
communications option and
software, waveforms and
harmonic profiles may be
displayed on a PC.
Event Conditions
Events may be triggered by
up to seven of any of the
following conditions:
Voltage Disturbances
●
Undervoltage/sag—
any VL-L, VL-N (40–100%)
Note: 60% minimum for selfpowered unit.
●

Event/Alarm Analysis Screens

Description, date and
time of event/alarm with 10
millisecond resolution
Current, voltages, power
readings, demand
readings, frequency and %
THD at time of event/alarm
Current and voltage
distortion information
available on Harmonic
Analysis screens

Overvoltage/swell—
any VL-L, VL-N (100–750%)

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Harmonic Spectrum Available with
Model 6600

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Minimum and Maximum Values
●
Current
●
Phases A, B, C, N, G

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Example of Event Analysis Screens
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Voltage
●
Phases A-B, B-C, C-A
●
Phases A-N, B-N,
C-N, N-G

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V3-T9-81

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

If zero time delay is
programmed, any disturbance
lasting two cycles (less if
magnitude is sufficient to
effect rms readings) will
trigger a voltage disturbance
event/alarm.
●

Sub-cycle transient
capture/excess dv/dt on
VA-N, VB-N, VC-N

Note: 6600 series only.
●

Sub-cycle voltage
interruption on VA-N,
VB-N, VC-N

Note: 6600 series only.

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Maximum Threshold Exceeded
●
Currents —þphases A, B,
C, Neutral and Ground
●
Voltage—Neutral to
Ground
●
System Power—Watts,
VA, VARs
●
System Power Factor—
Displacement and
Apparent
●
Demand
●
Currents—Phase A, B, C
and AVG
●
System Power—Watts,
VARs, VA
●
Frequency
●
Percent Total Harmonic
Distortion or Magnitude
Total Harmonic Distortion:
●
Currents—Phases A, B,
C, Neutral
●
Voltage—VA-N, VB-N,
VC-N, VA-B, VB-C, VC-A
Minimum Threshold Exceeded
●
Currents—Phases A, B, C
●
System Power—Watts,
Vars, VA
●
System Power Factor—
Displacement and
Apparent
●
Frequency
Voltage Phase Unbalance
●
Voltage L-L, L-N
Current Phase Unbalance
●
Current—Phases A, B, C
Discrete Input Energized
●
Input 1, 2, 3
●
Remote command through
communications port or
front panel

All trigger conditions have
programmable time delays
from 0.1–60 seconds in
0.1 second increments
(except Voltage Disturbances
—programmable from
2–3600 cycles in two-cycle
increments, and Eaton’s
Power Management
Software commands—no
programmable delay).

External 120-volt secondary
PTs are required above
600 Vac, optional from
120–600 Vac.
Discrete Contact Inputs
Three dry contact discrete
inputs may be programmed
by the user to:
●

Demand Recording
Peak Demands are date and
time stamped for:
●

●

Current Phases A, B, C
and Average
System Power:
●
Real (watts)
●
Reactive (VARs)
●
Apparent (VA)

Input/Output
Extensive input/output
capability is standard on the
IQ Analyzer. In addition to
monitoring three-phase
currents and voltages,
separate inputs are provided
for both ground and neutral
currents. Voltage of neutralto-ground is also monitored to
indicate the presence of
harmonics and potential
downstream grounding
problems. Analog and digital
I/O provide interfaces for
transducers, relays, PLCs
and control systems.
Current Inputs
Five ampere secondary CT
connections for:
●
●
●
●

●

Phases A, B, C
Ground
Neutral
Separate ground and
neutral CT inputs
CT range 5:5–10,000: 5
(any integer)

Voltage Inputs
●
Phases A, B, C (from
120 Vac–500 kV AC)
●
120/240 Vac control power
input standard—not
required with optional line
power module
●
Separate ground-to-neutral
voltage reference
●
PT range 120:120–
500,000:120 (any integer)

●

●
●

●

●

Trigger Event Analysis—
the information described
in “Event Analysis
Screens,” including
Harmonic Analysis
information, can be
recorded when external
devices trip or change state
by wiring their auxiliary
contacts into these inputs
Act as a synch.-pulse
input to synchronize
power demand windows
with utility provided
synch. pulse
Actuate a relay output
Reset relay output, peak
demands, Trend Analysis
records and Event
Analysis records
With communications
option, provide remote
status indication on Eaton’s
communication network
Status of input contacts is
displayed in the Meter
Menu Custom screen

Analog Input and Outputs
One analog input and four
analog outputs may be
configured as 0–20 or
4–20 mA. The analog input is
displayed at the device as a
percentage and is accessible
through the communications
port. The analog input
provides an interface with gas
flow meters, temperature
transducers or other analog
devices.
The analog outputs may be
programmed to reflect any of
the following:
●

●
●

Current—Phases A, B, C,
Average, N, G
Voltage—L-L, L-N, N-G
Power:
●
Real (watts)
●
Reactive (VARs)
●
Apparent (VA)
●
Phases A, B, C and
System

●

% THD:
●
Current (Phases A, B, C, N)
●
Voltage (L-L, L-N)

●

Frequency–System
Power Factor:
●
System Displacement PF
●
System Apparent PF

●

Standards and Certifications
Relay Output Contacts
Four Form-C (NO/NC)
relay contacts may
be independently
programmed to:
●

●

●

●

●
●

Act as a kWh, kVARh or
kVAh pulse initiator output
Actuate on one or more
event conditions—including
discrete input software
commands (through
communications port)
Reverse sequence alarm

●

●

UL listed, File E62791,
NKCR File E185559
(CE versions)
cUL listed #1010.1 C22.2
CE mark EN61010-1 (1993)
EN50082-2 (1994)
Measurement Canada
Electricity Meter AE-0782
CSA approved

Each relay may be set for
Auto or Manual Reset with
0–30 minute release delay
(one second increments).
Relays are Form-C NO/NC.
Relay(s) programmed to
actuate on undervoltage
also have a programmable
0–30 minute delay on powerup for transfer applications.

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Product Selection

IQ Analyzer

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IQ Analyzer
Description

Catalog
Number

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IQ Analyzer, separate source power module

IQA6410

IQ Analyzer, 24–48 Vdc power module

IQA6420

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IQ Analyzer, three-phase power module

IQA6430

IQ Analyzer, separate source power module with waveform display and sub-cycle voltage disturbance capture

IQA6610

IQ Analyzer, 24–48 Vdc power module with waveform display and sub-cycle voltage disturbance capture

IQA6620

IQ Analyzer, three-phase power module with waveform display and sub-cycle voltage disturbance capture

IQA6630

IQ Flange, to provide extra clearance when mounting

IQFLANGE

45-inch (1143.0 mm) extension cable for remote mounting of power module

IQA45CABLE

24–48 Vdc separate source power module

IQMDCPM

100–240 Vac and 100–250 Vdc separate source power module

IQMSSPM

Three-phase, self-powered power module

IQM3PPM

INCOM communication module

IPONI

RS-485 communication module with Modbus protocol

MPONI

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Accessories

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IQ Analyzer Auxiliary
Power Supply
The optional IQ Analyzer
Auxiliary Power Supply allows
set point programming of the
IQ meter while the monitored
line power is turned off and
locked out, thus eliminating
the presence of dangerous
line voltages. The Auxiliary
Power Supply is easy to
install and has been
specifically designed to
connect to the power supply
connector on the IQ meter
and then plug into a standard
electrical wall outlet.

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IQ Analyzer 6400/6600 Series
Fuses
●

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Self-powered units
with IQMSSPM have
3/4 ampere, 600 volts
Bus Type KTK-R-3/4 fuses
(three required).
Separate source dualvoltage units with
IQMSSPM have a single
5 x 20 mm 1/4 ampere fuse
Separate source DC units
with IQMDCPM do not
have user replaceable
fuses

Environmental Conditions
●

●

●

Operating temperature:
–20°–70°C
Storage temperature:
–30°–85°C
Operating humidity:
5–95% relative humidity

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Current Inputs
(Each Channel)

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Metering Devices

Technical Data and Specifications

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Metering Devices, Protective Relays, Software and Connectivity

●

Conversion: true rms, 32
sample/cycle (all samples
used in all rms calculations)
CT input: 5 ampere
secondary (any integer
5:5 to10,000:5)
Burden: 0.05 VA
Overload withstand:
40 amperes AC continuous,
300 amperes AC 1 second
Range: 8 x CT continuous
Accuracy: 0.1% of CT
primary rating, 0.2% of
reading above 150% of
rating, sinusoidal (see
accuracy below for nonsinusoidal specifications)
Input impedance:
0.002 ohm

Voltage Inputs
(Each Channel)
●

●

●

●

●

●

●

Conversion: True rms, 32
sample/cycle (all samples
used in all rms calculations)
PT input: direct or any
integer 120:120–
500,000:120
Range: 30–660 Vac
(separate source and
DC source)
Nominal full scale:
100–600 Vac
Burden: 21 VA (selfpowered only)
Overload withstand:
635 Vac, continuous
700 Vac, 1 second
Input impedance:
1 megohm

Specific Current Accuracies
●

●

●

●

●

20–66 Hz fundamental
(up to 50th harmonic)

Harmonic Response
(Voltages, Currents)
●

●

●

●

Accuracy (in Percent
Full Scale)

●

●

●
●
●

Current and voltage:
±0.20%
Power, energy and
demand: 0.40%
Frequency: 0.04%
Power factor: 0.80%
THD: 1.00%

(Excluding programmed
time delays):
●

●

●

+30 Vdc differential across
each discrete input pair of
terminals. Minimum pulse
width: 1.6 msec
Optically isolated inputs
to protect IQ Analyzer
circuitry

0–20 mA/4–20 mA into
maximum 750 ohm load.
Accuracy: 1%

0–20 mA/4–20 mA into
200 ohm load.
Accuracy: 1%

Relay Output Contacts (4)
●

●

Two line cycles for Discrete
Input, Eaton’s software
commands
(communications port)
Four to five line cycles for
Voltage Disturbance,
Voltage Unbalance
Nine to 10 line cycles for
all others

IQ Analyzer Auxiliary
Power Supply
●
Input voltage: 100–250 Vac
●
Input frequency: 50/60 Hz
●
Output voltage/current:
+24 Vdc at 0–0.45A
●
Output ripple: 100 mV
maximum (peak to peak)
●
Rated output power:
10.8 watts
●
Turn on/turn off overshoot
5% maximum
●
Turn on delay: 0.5 second
maximum
●
Operating temperature:
0°–40°C
●
Storage temperature:
–40°–80°C

Analog Input (1)
●

Withstand rating: 1000 Vac,
1 minute across contacts
5000 Vac (contacts to coil,
1 minute) 10,000 Vac
(contacts to coil, surge
voltage)

Relay Response Time

Analog Outputs (4)

50th harmonic

Accuracy from 3–300% of Full
Scale and from –0.5. to 1.00
to 0.5 power factor

±0.20% of full scale to
200% of full scale and
150% crest factor
±0.20% of full scale to
150% of full scale and
200% crest factor
±0.20% of full scale to
100% of full scale and
300% crest factor
±0.40% of reading for
currents to 800% of full
scale
Power and energy: Start
recording with an average
of 3 mA secondary current

Discrete Inputs
(Dry Contact)

Frequency Range
●

●

Form C Dry Contact:
10 amperes at 120/240 Vac
(Resistive) 10A at 30 Vdc
(Resistive) 30A make
(50 mS) at 240 Vac/240 Vdc
Minimum pulse width:
4 cycles (68 mS)

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Control Power Input
Description

Separate Source

Self Powered 1

DC Source

Input range, AC
Frequency range

110–240 Vac ±10%
45–66 Hz

110–600 Vac ±10%
45–66 Hz

N/A
N/A

Input range, DC
Burden

110–250 Vdc ±10%
21 VA

N/A
21 VA

24–48 Vdc ±20%
21 VA

Note
1 When directly wired to 480 Vac, IQ Analyzer can ride through a continuous sag that is 20% of rated voltage.

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Wiring Diagram

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Field Wiring Connections—Separate Source Power Supply Shown Here
(For Three-Phase Power Supply, No Separate Control Power is Required)

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Three-Phase Three-Wire (Above 600 Volts)
External Potential Transformers and Current Transformers

C

L3
L2
A
L1

Line

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3CT
2CT
Load
1CT

B

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Fuse
Open Delta
PT Connection
Note: External PTs
Optional Under 600 V

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Control Power
IQ Analyzer
1

2

3

4

Fuse
A

B

(See Label for
Vac/dc Connections)

C

Relay No. 1 Relay No. 2 Relay No. 3 Relay No. 4

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H1G H1N H1C H1B H1A
H2G H2N H2C H2B H2A

Neutral
Term.

2

3 4

5

6 7

8

9 10

11

12

Separate Source Power Supply Module
Discrete Contact Inputs
1

2

3

1

(+)

(-)

(+)

(-)

(+)

(-)

13

14

15

16

17

18

19

Analog I/O
Outputs
2
3
4
20

21

22

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Analog
Earth
GND Input Ground
23

24

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25

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Dimensions
Approximate Dimensions in Inches (mm)

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IQ Analyzer 6000 Series

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6.72
(170.7)

0.50
(12.7)
Faceplate

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With Communication Module
5.83
(148.1)
4.70
(119.4)
Without Communication
Module

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Normal

RES

Event
Relay

IQ Analyzer

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Reset

Program

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J2
POWER
MODULE

Previous
Level

F1

F2

F3

F4

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Home

2

Power (Watts)

Frequency

Power (Vars)

% THD

Power (VA)

Distortion Factor

3

Energy

Custom

1

3

Up

1
2

Down

2
3

Help

2
3

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RELAY NO. 4

1

Progra

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PONI

Power Factor

Power Supply

Voltage

RELAY NO. 3

Demand

RELAY NO. 2

Current

RELAY NO. 1

10.25
(260.4

1

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9.3

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

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Approximate Dimensions in Inches (mm)

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IQ Analyzer Auxiliary Power Supply

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Width
2.40 (61.0)

Height

Drilling Pattern
Shipping Weight
Lbs (kg)

Depth

4.00 (101.6)

1.11 (28.2)

2.69
(68.3)

5.8 (3.6)

5.38
(136.7)

IQ Analyzer 6000 Series
Height

Width

Depth

6.72 (170.7)

4.70 (119.4)

6.72 (170.7)

5.83 (148.1)

8.90
(226.1)
9.38
(238.3)

Without PONI

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10.25 (260.4)
With PONI
10.25 (260.4)

6.68
(169.7)

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4.69
(119.1)

4.45
(113.0)
.06
(1.5) RAD
4 Places

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2.23
(56.7)

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2.53
(64.3)

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.218
DIA 10 Places
(5.5)

5.06
(128.5)

Drilling Pattern for Flange Mounting

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8.11
(206.0)

4.06
(103.1)

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.213
(5.4)
Typ. for 8

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10.41
(264.4)

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11.03
(280.2)

CL
10.09
(256.3)

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CL

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5.52
(140.2)

.94
(23.9)

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7.41
(188.2)

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Contents

IQ DP-4000

Description
Metering Products Family. . . . . . . . . . . . . . . . . . . .
Power Xpert Meter 4000/6000/8000 Series . . . . . .
Power Xpert Meter 2000 Series . . . . . . . . . . . . . . .
IQ 250/260 Series Electronic Power Meters. . . . . .
IQ 130/140/150 Series Electronic Power Meters . .
IQ 150S/250S Self-Enclosed Electronic Meters . . .
IQ 35M . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ Analyzer 6400/6600 Series . . . . . . . . . . . . . . . .
IQ DP-4000 Series
Features, Benefits and Functions . . . . . . . . . . .
Standards and Certifications . . . . . . . . . . . . . . .
Product Selection. . . . . . . . . . . . . . . . . . . . . . . .
Accessories . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Technical Data and Specifications . . . . . . . . . . .
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ 230 Meters . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Xpert Multi-Point Meter . . . . . . . . . . . . . . . .
IQ Energy Sentinel™ . . . . . . . . . . . . . . . . . . . . . . .
PM3 Monitoring and Metering Module . . . . . . . . .
Current Transformers (CTs). . . . . . . . . . . . . . . . . . .
Clamp-On Current Transformers . . . . . . . . . . . . . . .
IQ Flange . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Panel Mounting Adapter Kit . . . . . . . . . . . . . . . . . .
Enclosed Meters. . . . . . . . . . . . . . . . . . . . . . . . . . .

Page
V3-T9-21
V3-T9-30
V3-T9-49
V3-T9-60
V3-T9-66
V3-T9-71
V3-T9-76
V3-T9-79

V3-T9-88
V3-T9-88
V3-T9-89
V3-T9-89
V3-T9-90
V3-T9-92
V3-T9-93
V3-T9-100
V3-T9-112
V3-T9-121
V3-T9-122
V3-T9-131
V3-T9-134
V3-T9-135
V3-T9-136

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IQ DP-4000 Series
Product Description

Application Description

Eaton’s IQ DP-4000 is a
microprocessor-based
monitoring and protective
device that provides
complete electrical metering
and system voltage
protection. In one compact,
standard package, the IQ
DP-4000 will provide an
alternative to individually
mounted and wired
conventional meters and
switches. The DP-4000 also
monitors Apparent Power
(VA), Reactive Energy
(VAR-hours), Apparent
Energy (VA-hours) and
percent THD to provide the
user with basic power quality
information. The IQ DP-4000
meets and surpasses
UL/CSA/CE standards.

●

●

9

Monitoring of all common
electrical parameters
Optional protective
alarm functions

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Retrofit Opportunities
●
Retrofit of existing
electrical distribution
systems with the IQ
DP-4000 for power, quality,
load and energy monitoring
●
Mounting flange option
for application where
additional door mounting
space is required; see
Page V3-T9-134

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The IQ DP-4000’s rugged
construction is designed to
withstand harsh conditions
such as temperature
variations, outdoor
applications and industrial
environments. The membrane
faceplate pushbuttons are
easy to use and both the
parameter LED and window
displays are easily visible.

Volume 3—Power Distribution and Control Assemblies

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V3-T9-87

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Features, Benefits and Functions
Historical Values
●
Present demand current
(per phase) 5, 10, 15, 20,
25, 30, 45 or 60 minute
windows
●
Present demand watts,
VARs and VA 5, 10, 15, 20,
25, 30, 45 or 60 minute
windows:
●
Sliding or fixed window
for power Sync pulse
input (Model 4100)
Eaton’s PowerNet
broadcast demand sync
●
Minimum and maximum
values current (per phase):
●
Voltage (per phase,
L-L, L-N)
●
Watts, VARs and VA
●
Power factor
(displacement and
apparent)
●
Frequency

Standards and Certifications
Communications
Optional interface
capability to computer
network for data collection,
storage and/or printout
via Eaton’s Power
Management Software

●

Physical Characteristics
●
Large visible LED display
●
Membrane Faceplate
NEMA 3R and 12 rated
Alarm and Protective Functions
●
Alarm/Protective functions
(all models) include:
●
Overvoltage
●
Undervoltage
●
Current phase loss
●
Voltage phase loss
●
Phase unbalance
●
Phase reversal
●

●

Peak values:
●
Percent THD parameters
●
Demand parameters

Protective and Event Alarming
●
Undervoltage
●
Overvoltage
●
Current phase loss
●
Voltage phase loss
●
Phase reversal
●
Phase unbalance
●
Optional current and
powerdemand threshold
Metered and Monitored
Parameters
●
rms sensing
●
Phase currents
●
Volts: L-L, L-N
●
Power: real, reactive,
apparent
●
Energy: real, reactive,
apparent
●
Frequency
●
Power factor
●
% THD: current and
voltage
●
Minimum and maximum
values
●
Fixed or sliding demand
windows

●

Delay
Allows a delay before an alarm
occurs. (Range 1–20 seconds
in 1 second increments.)

Listings and Certifications
●
UL/cUL/CSA listed
●
CE mark EN61010-1,
EN50082-2

Note: Unit must be powered for
this to occur.

Inputs and Outputs
(4100 Model)
●

●

Three Form C relay outputs
selectable: Trip, Alarm,
kWh pulse initiator
One synch input for kW
utility demand sync

User-programmable alarm
and reset threshold levels
and delay intervals
Optional current and power
demand threshold

Description of Protection
Functions
Overvoltage
Range 105–140%
(5% increments).
Undervoltage
Range 60–95%
(5% increments).
Phase Unbalance
Deviation between any
two phases percentage of
nominal line voltage preset by
DIP switches. Range 5–40%
(5% increments).
Phase Reversal
Any two phases become
reversed for the selected
delay.
Voltage Phase Loss
Less than 50% of the
nominal line voltage
detected.
Current Phase Loss
Smallest phase current is
less than1/16 of the largest
phase current.

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Product Selection
IQ DP-4000

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IQ DP-4000

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Catalog
Number

Description

9

4 indicates an IQ DP-4000 model
x = 0 indicates no I/O; x = 1 indicates I/O
y = 1 indicates separate source supply, 110–240 Vac and 110–250 Vdc
y = 2 indicates 24–48 Vdc power supply,
y = 3 indicates three-phase power supply, 110–600 Vac

IQDP4XY0

Separate source control power without I/O

IQDP4010

Separate source control power without I/O, DC supply

IQDP4020

Three-phase power supply without I/O

IQDP4030

Separate source control power with three Form C relay output contacts and one sync pulse input

IQDP4110

Separate source control power with three Form C relay output contacts and one sync pulse input, DC supply

IQDP4120

Three-phase power supply with three Form C relay output contacts and one sync pulse input

IQDP4130

2 Form C relay outputs for protective alarming functions, 1 Form C relay output selectable for KYZ pulse output or load shedding,
1 demand sync pulse input

DP4IOMOD

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IQ flange, to provide extra clearance when mounting

IQFLANGE

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45-inch (1143.0 mm) extension cable for remote mounting of power module

IQA45CABLE

24–48 Vdc separate source power module

IQMDCPM

100–240 Vac and 100–250 Vdc separate source power module

IQMSSPM

Three-phase, self-powered power module

IQM3PPM

INCOM communication module

IPONI

RS-485 communication module with Modbus protocol

MPONI

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Accessories

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IQ DP-4000 I/O Module
For applications where field
modification to add or change
Input/Output (I/O) capability
to the IQ DP-4000 is required,
Eaton offers I/O cards. These
field-installable modules can
be easily inserted into an
existing IQ DP-4000 where
input/output application
needs change.

●

●
●

●

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Power requirements:
10 VA
Frequency: 50/60 Hz
Operating temperature:
25°–70°C
Operating humidity:
0–95% noncondensing
Dry contact input: 24 Vdc
differential across input pair
of terminals; minimum
pulse width, 50 mS

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Metering Devices

Technical Data and Specifications
Accuracy
●
Maintained from 10–250%
of CT primary rating
Current Inputs (Each Channel)
●
Nominal full scale current:
5 amperes AC
●
Current range for rated
accuracy: 0–15 amperes AC
●
Overload withstand:
15 amperes ac continuous
300 amperes AC 1 second
●
Burden: 0.003 VA

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Voltage Inputs (Each Channel)
Voltage range (nominal):
90–600 Vac
●
Nominal full scale voltage:
120–600 Vac
●
Overload withstand:
660 Vac continuous 4 kV
1.2/50 μs
●
Burden: three-phase power
module 10 VA
●

Fuses
Supplied with three-phase
power module only. 3/4
ampere, 600 volt bus type
KTK-R-3/4 (three required).
Contact Rating (Model 4100)
●
10 amperes at 120/240 Vac
(resistive)
●
10 amperes at 30 Vdc
(resistive)

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Compatible with the
Following Systems
●
Three-phase, three-wire
●
Three-phase, four-wire
Ratings
●
Application to 500 kV,
no PTs to 600 volts
●
CT ratios selectable from
5:5 A to 12800: 5A
●
Standard 120/600 Vac line
three-phase power supply
module. Two separate
source power supply
modules available. One
module from 110– 240 Vac
and 110–250 Vdc; the other
module 24–48 Vdc only

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Model 4100 Input and Output
Model

Input

Output

4000

0

0

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4100

1 digital (dry contact)

3 relays

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Control Power Input
Description

Separate Source

Self Powered

DC Source

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Input range, AC
Frequency range

110–240 Vac ±10%
45–66 Hz

110–600 Vac ±10%
45–66 Hz

N/A
N/A

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Input range, DC
Burden

110–250 Vac ±10%
10 VA

N/A
10 VA

24–48 Vdc ±20%
10 VA

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Displayed Values
Description

Displayed Through Eaton’s
PowerNet System

Local Display

AC amperes, phases A, B, C

±0.3%

±0.3% ±1 digit

AC voltage, phase A-B, B-C, C-A

±0.3%

±0.3% ±1 digit

Phase A-N, B-N, C-N

±0.3%

±0.3% ±1 digit

Watts

±0.6%

±0.6% ±1 digit

Vars

±0.6%

±0.6% ±1 digit

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VA

±0.6%

±0.6% ±1 digit

Watt-hours

±0.6%

±0.6% ±1 digit

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VAR-hours

±0.6%

±0.6% ±1 digit

VA-hours

±0.6%

±0.6% ±1 digit

Power factor

±1%

±1%

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Frequency

±0.1 Hz

±0.1 Hz

% THD

Through 31st harmonic

Through 31st harmonic

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Note
All accuracy is measured as a percentage of full scale.

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Metering Devices

Wiring Diagrams

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Field Wiring Connections
Three-Phase Three-Wire (Up to 600 Volts)
Direct Voltage Connection and External Current Transformers

C

L3
Line L2
A
L1

Three-Phase Four-Wire (Up to 600 Volts)
Direct Voltage Connection and External Current Transformers

3CT
2CT
1CT

B

Load

(99 – 275 Vdc)
(99 – 264 Vac)
(24 – 48 Vdc)
Control Power

Line

N
L3
L2
A
L1

C

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3CT
2CT
1CT

B

Load

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(99 – 275 Vdc)
(99 – 264 Vac)
(24 – 48 Vdc)
Control Power

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IQ DP-4000
Fuse

1 2 3 4

A

B

C

Neutral
Term.

HIC HIB HIA
H2C H2B H2A

IQ DP-4000
Fuse

1 2 3 4

Separate Source Power Supply Module

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A

B

C

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HIC HIB HIA
H2C H2B H2A

Neutral
Term.

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Separate Source Power Supply Module

9
Three-Phase Three-Wire (Above 600 Volts)
External Voltage Transformers and Current Transformers

Line

C

L3
L2
A
L1

Three-Phase Four-Wire (Above 600 Volts)
External Voltage Transformers and Current Transformers

3CT
2CT
1CT

B

Load

N
L3
Line
L2
A
L1

Fuse

C

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3CT
2CT
1CT

B

Load

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Fuse

Open Delta
VT Connection

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WYE
Connection
IQ DP-4000

Fuse

A

B

C

Neutral
Term.

HIC HIB HIA
H2C H2B H2A

Self-Powered Power Supply Module

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IQ DP-4000
Fuse

A

B

C

Neutral
Term.

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HIC HIB HIA
H2C H2B H2A

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Self-Powered Power Supply Module

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Metering Devices

Dimensions
Approximate Dimensions in Inches (mm)
Drilling Pattern

IQ DP-4000 Side View

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2.69
(68.3)

5.38
(136.7)

0.50
(12.7)
Faceplate

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8.90
(226.1)
9.38
(238.3)
6.68
(169.7)

Power
Module
P3

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With Communication Module
5.40
(137.1)
4.42
(112.3)
Without Communication
Module

4.69
(119.1)

4.45
(113.0)

2

4

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5

5.06
(128.5)

.218
DIA 10 Places
(5.5)

6
7
8

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11

MWH Pulse

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PONI

2.53
(64.3)

1/2 Hp @ 240 Vac 1/3 Hp @ 120 Vac
Alarm 1
Alarm 2

3

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Power Module

1

Sync.
Pulse

2.23
(56.7)

GND

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.06
(1.5) RAD
4 Places

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LED Display

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Height

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Width

Depth

Shipping Weight
Lbs (kg)

6.72 (170.7)

5.40 (137.2)

6.50 (3.0)

7.80 (198.1)

4.42 (112.3)

12.5 (5.7)

PONI
10.25 (260.4)

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Without PONI
9.02 (229.0)

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IQ DP-4000 Auxiliary Power Supply

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Width

Height

Depth

2.40 (61.0)

4.00 (101.6)

1.11 (28.2)

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Contents

IQ 230 Digital Meter

Description
Metering Products Family. . . . . . . . . . . . . . . . . . . .
Power Xpert Meter 4000/6000/8000 Series . . . . . .
Power Xpert Meter 2000 Series . . . . . . . . . . . . . . .
IQ 250/260 Series Electronic Power Meters. . . . . .
IQ 130/140/150 Series Electronic Power Meters . .
IQ 150S/250S Self-Enclosed Electronic Meters . . .
IQ 35M . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ Analyzer 6400/6600 Series . . . . . . . . . . . . . . . .
IQ DP-4000 Series . . . . . . . . . . . . . . . . . . . . . . . . .
IQ 230 Meters
Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Standards and Certifications . . . . . . . . . . . . . . .
Product Selection. . . . . . . . . . . . . . . . . . . . . . . .
Technical Data and Specifications . . . . . . . . . . .
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Xpert Multi-Point Meter . . . . . . . . . . . . . . . .
IQ Energy Sentinel™ . . . . . . . . . . . . . . . . . . . . . . .
PM3 Monitoring and Metering Module . . . . . . . . .
Current Transformers (CTs). . . . . . . . . . . . . . . . . . .
Clamp-On Current Transformers . . . . . . . . . . . . . . .
IQ Flange . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Panel Mounting Adapter Kit . . . . . . . . . . . . . . . . . .
Enclosed Meters. . . . . . . . . . . . . . . . . . . . . . . . . . .

Page
V3-T9-21
V3-T9-30
V3-T9-49
V3-T9-60
V3-T9-66
V3-T9-71
V3-T9-76
V3-T9-79
V3-T9-87

V3-T9-94
V3-T9-94
V3-T9-95
V3-T9-96
V3-T9-99
V3-T9-100
V3-T9-112
V3-T9-121
V3-T9-122
V3-T9-131
V3-T9-134
V3-T9-135
V3-T9-136

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IQ 230 Meters
Product Description

Application Description

The IQ 230 is a
microprocessor-based
metering and monitoring
device. Its compact size and
flexible mounting capabilities
make it suitable for machine
control panels such as
panelboard and switchboard
mains and feeders, low
voltage metal-enclosed
switchgear feeders and
motor control centers. The IQ
230 series meter includes a
base module and a display
module. The IQ 230 base
module has the flexibility to
be directly mounted to the
display or separately panel
mounted. The display is
integrally designed to fit a
standard 1/4 DIN or a
100 mm ANSI cutout for
new retrofit applications.

The IQ 230 is ideal for
individual load monitoring
or provides an alternative
to multiple ammeters,
voltmeters, ammeter and
voltmeter switches,
wattmeters, varmeters,
power factor meters,
frequency meters, watthour
and demand meters. ANSI
C12 Class 10 revenue
metering accuracy makes the
IQ 230 ideal for sub-metering
and sub-billing applications.

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Features

Standards and Certifications

The IQ 230 can be easily
programmed from the display
keypad, which features a
4 line x 20 character LED
backlit LCD display. This
menu driven device displays a
variety of selectable electrical
system values and may be
programmed for password
protection.
The IQ 230 series includes
two variations all containing
the same display module.
The IQ 230 has built-in
INCOM communications,
KYZ pulse output, digital
inputs, digital outputs and an
analog input. The IQ 230M
includes all the benefits of
the IQ 230 but replaces
INCOM communication with
Modbus®

●

●

●

●

●

●
●

●

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Five different mounting
options
1/4 DIN standard
3.60 inches (91.4 mm) x
3.60 inches (91.4 mm)
cutout that meets global
standards
One meter style with
multiple mounting
choices—mount on panel,
DIN rail or back of meter
Autoranging power supply;
one style for any voltage
up to 600 Vac
Direct connection up to
600 Vac. PTs are not
required
AC or DC powered
Polarity sensing for errors
such as improper wiring
or forward and reverse
power flow
Membrane faceplate
designed and tested to
meet NEMA® 12 and IP52
Nonvolatile storage of all
set points and recorded
peaks and minimums
Built-in INCOM or Modbus
communications capability
Digital and analog I/O
Utility seal provision

Monitored Values
●
Phase currents
●
Voltage, L-L, L-N
●
System and per-phase
power including watthours,
varhours and VA-hours
●
System demand including
watt demand, VA demand
and VAR demand
●
Apparent and
displacement power factor
●
Frequency
●
KYZ pulse output is
available for use with a
watthour pulse recorder
or totalizer
●
Recorded minimums and
maximums of most values

●
●
●

●

●

●
●
●

UL and cUL listed
UL file number E185559
CSA certified (not ANSI
revenue certified as a
single-phase meter)
CE mark for applications
where European
compliance is required
IEC 1010-1 (1990) incl.
amend. 1 and 2 (1995)
EN61010-1 (1993)
CSA C22.2 #1010.1 (1992)
UL 3111

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Product Selection

IQ 230 Meters

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IQ 230 Meters
Catalog
Number

9

IQ 230 complete meter
Includes base, display and 14-inch cable with INCOM Communications, KYZ output, digital inputs,
digital outputs, analog input and utility seal provision

IQ230

9

IQ 230M complete meter
Includes base, display and 14-inch cable with Modbus communications, KYZ output, digital inputs,
digital outputs, analog input and utility seal provision

IQ230M

IQ 230 base module

IQ230TRAN

IQ 230M base module

IQ230MTRAN

IQ 200D IQ 210/220 display module

IQ200D

Description

9

3-foot (0.9 m) category 5 cable

IQ23CABLE

6-foot (1.8 m) category 5 cable

IQ26CABLE

10-foot (3.0 m) category 5 cable

IQ210CABLE

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Metering Devices

Technical Data and Specifications
Compatible with the Following Systems:
●
Three-phase, three-wire
●
Three-phase, four-wire
●
Single-phase, two-wire
●
Single-phase, three-wire
Current Input (Each Channel)
●
Current range: 2 times
●
Nominal full scale current: 5 amperes AC
●
Overload withstand:10 amperes AC continuous
150 amperes AC, 1 second
●
Input impedance: 0.01 ohms
●
Burden: 0.025 VA
Voltage Input (Each Channel)
●
Voltage range (nominal): 90–600/347 Vac
●
Nominal full scale voltage: 120–600/347 Vac
●
Overload withstand: 660 Vac continuous,
800 Vac 1 second
●
Input impedance: 2 megohm
CT (Primary) Settings
Select from 256 values ranging from 5–8000 amperes
●

PT Primary 256 values with ratios up to 200 kV

EMC
●
Emissions
FCC Part 15 Class A
CISPR 11 (1990)/EN55011 (1991) Group 1 Class A
●
Immunity
Electrostatic discharge
EN61000-4-2 (1995)/EN50082-2 (1995)
4 kV contact discharge
8 kV air discharge
Electrical fast transient
EN61000-4-4 (1995)/EN50082-2 (1995)
2 kV power lines
2 kV signal lines
Radiated immunity
EN61000-4-3 (1997)/EN50082-2 (1995)
10V/m
Conducted immunity
EN61000-4-6 (1996)/EN50082-2 (1995)
10V rms
Power frequency magnetic field
EN61000-4-8 (1995)
30 A/m
Metered Values and Accuracies at Full Scale
Accuracy
AC ampere

Environmental Conditions

Phase A
Phase B
Phase C

±0.5%

Phase A
Phase B
Phase C

±0.5%

AC voltage

Base

Display

Operating temperature

–20°C to 50°C

0°C to 50°C

Storage temperature

–30°C to 85°C

–20°C to 60°C

Operating humidity

0.0% to 95% noncondensing

—

Watts

—

VARs

±1.0%

VA

±1.0%

Watthours

±1.0%

Maximum relative humidity

80% up to 31°C

Frequency Range
50/60 Hz
Control Power Input
Vac

Vdc

Phase A-B
Phase B-C
Phase C-A

±1.0%

VAR-hours

±1.0%

VA-hours

±1.0%

Power factor

±2.0%
±0.1%

IQ 230

100–600 ±10%

48–250 ±10%

Frequency

Frequency range

50–60 Hz ±10%

—

Burden

180 mA

700W

Communications
INCOM compatible 1200/9600 baud
●

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(IQ 230 only—does not require IPONI)

Modbus compatible 9600/19200 baud

9

●

9

(IQ 230M only—does not require PONI)

Input/Output
KYZ solid-state relay output

9

●
●

9

●
●

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96 mA at 240 Vac/300 Vdc
Digital input 96 mA at 12–48 Vdc
Digital output 96 mA at 125 Vac/176 Vdc
Analog input 4–20 mA

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Mounting the IQ 230 Base Module
to the IQ 230 Display Module

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IQ 230 Display
Module—
Mounted in
a Panel

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IQ 230
Base Module

IN 1
R I

IN2
R I

H
2
A

H
1
B

H
2
B

H
1
C

9

H
2
C

A 1 A 2 PU LSE INC OM MO D
1 2 1 2 K Y Z 1 2 3 1 2

TX

VA

H
1
A

A N1
R I

DISPL AY

VB

VC

N EU PS1

9

PS2

9

Lock Washer
#10 Screw

9
Display Mounting Options

9

IQ 230 Display Module

9

Gasket

9
Panel

9
9

Locking Washer

9

Hex Nut

9

Mounting Bracket
3.9 Inches (100 mm)
ANSI Cutout

9

.25 Inches (6.4 mm)
Diameter Cutout

or

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IQ 230 Base Connections

IN1
R I

Connect to
IQ 230 Display
Module

IN2
R I

AN1
R I

DISPLAY
TX

9

H H H H H H
1 2 1 2 1 2
A A B B C C

A1 A2 PULSE INCOM MOD
1 2 1 2 K Y Z 1 2 3 1 2

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System Current
Transformer Input

9

INCOM™ Port

INCOM™
Transmit LED

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K-Y-Z Pulse
Output

VA

VB

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VC NEU PS1 PS2

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Ground Lug

9

System
Neutral IQ 230
Power Supply
Voltage Input

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

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Wiring Diagrams

9

Typical Field Wiring Connections
Three-Phase Three-Wire (up to 600 Volts)
Proper CT polarity is critical to the proper operation of the meter

9
Line
L3

9

L1
H2A
H1A

9

H2B
H1B

H2C

H2B
H1B

H2C
H1C

VA VB VC NEU

PS1 PS2

Fuse

Control Power

Control Power
IQ 230
90–600 Vac
48–250 Vdc

IQ 230
90–600 Vac
48–250 Vdc

9

Case
Ground
must be
connected
for proper
operation

IQ 230

Fuse

9

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H1A

Case
Ground
must be
connected
for proper
operation

VA VB VC NEU PS1 PS2

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H2A

H1C

IQ 230

9

9

Load

L2

L1

9

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Line
N
L3

Load

L2

9

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Three-Phase Four-Wire (up to 600 Volts)
(Line Powered) Proper CT polarity is critical to the proper operation of the meter

Three-Phase Four-Wire (above 600 Volts)
Proper CT polarity is critical to the proper operation of the meter

Three-Phase Three-Wire (above 600 Volts)
Proper CT polarity is critical to the proper operation of the meter
Load

Line
L3
L2

Line
N
L3

Load

L2

L1

L1
Fuse
H2A

Open
Delta
PT
Connection

H1A

H2B
H1B

IQ 230
VA VB VC NEU

9

H2C

H2A

H1C

PS1 PS2

Case
Ground
must be
connected
for proper
operation

WYE
Connection

H1A

H2B
H1B

H2C
H1C

IQ 230
VA VB VC NEU PS1 PS2

Fuse

9

Fuse

Control Power

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Control Power

IQ 230
90–600 Vac
48–250 Vdc

IQ 230
90–600 Vac
48–250 Vdc

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Case
Ground
must be
connected
for proper
operation

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Dimensions

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Approximate Dimensions in Inches (mm)

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IQ 230

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IQ 200

Menu

Enter

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3.62
(92.0)

3.62
(92.0)

4.33
(110.0)

Scroll

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4.33
(110.0)

0.50
(12.7)

0.97
(24.6)
1.84
(46.7)

0.06
(1.5)

6.06
(154)

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6.74
(171.2)

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Mounting Hole Pattern for the IQ 230 Base Module

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3.55
(90.2)
.78
(19.8)

2.00
(50.8)

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.25
(6.35)

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Slot Size
.125 (3.2) Radius
(4 places)

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5.05
(128.3)

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4.55
(115.6)

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Contents

Power Xpert Multi-Point Meter

Description
Metering Products Family. . . . . . . . . . . . . . . . . . . . .
Power Xpert Meter 4000/6000/8000 Series. . . . . . .
Power Xpert Meter 2000 Series . . . . . . . . . . . . . . . .
IQ 250/260 Series Electronic Power Meters . . . . . .
IQ 130/140/150 Series Electronic Power Meters . . .
IQ 150S/250S Self-Enclosed Electronic Meters . . . .
IQ 35M . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ Analyzer 6400/6600 Series . . . . . . . . . . . . . . . . .
IQ DP-4000 Series . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ 230 Meters . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Xpert Multi-Point Meter
IQ Energy Sentinel™ . . . . . . . . . . . . . . . . . . . . . . . .
PM3 Monitoring and Metering Module . . . . . . . . . .
Current Transformers (CTs). . . . . . . . . . . . . . . . . . . .
Clamp-On Current Transformers. . . . . . . . . . . . . . . .
IQ Flange . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Panel Mounting Adapter Kit . . . . . . . . . . . . . . . . . . .
Enclosed Meters . . . . . . . . . . . . . . . . . . . . . . . . . . .

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Page
V3-T9-21
V3-T9-30
V3-T9-49
V3-T9-60
V3-T9-66
V3-T9-71
V3-T9-76
V3-T9-79
V3-T9-87
V3-T9-93

V3-T9-112
V3-T9-121
V3-T9-122
V3-T9-131
V3-T9-134
V3-T9-135
V3-T9-136

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Power Xpert Multi-Point Meter

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Product Overview

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Eaton’s Power Xpert™ MultiPoint Meter is an ANSI
C12.20 revenue class Webenabled electronic
submetering device that can
be mounted in panelboards
switchboards or enclosures.
When mounted in a
panelboard or a switchboard,
the Power Xpert Multi-Point
Meter provides customers
with an integrated power
distribution and energy
metering solution that saves
space, reduces installation
labor and lowers total cost.

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Product Description
The Eaton Power Xpert MultiPoint Meter (PXMP Meter)
offers a highly modular
approach to high-density
metering applications in
electrical power distribution
systems. The PXMP Meter is
compatible with most threephase industrial, commercial
and single-phase residential
low voltage electrical power
systems. The PXMP is
equipped with two Modbus®
RTU communication ports for
local display and remote serial
communications. The PXMP
also has optional pulse input
and digital output modules
along with one standard
digital output and three digital
inputs. The PXMP Energy
Portal Module is Web
enabled, making it suitable for
use with Ethernet networks
and modems.

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The Power Xpert Multi-Point
Meter can measure up to any
of the following number of
circuits:
●

●

●

Sixty single-phase,
two-wire (single-pole)
Thirty single-phase,
three-wire (two-pole)
Twenty three-phase,
four-wire (three-pole)

The circuits listed above can
be mixed provided that the
total number of current
sensors does not exceed 60.
The meter provides current;
voltage; power factor;
demand and active, reactive,
and real power (VA, VAR, kW);
and active, reactive, and real
energy (VA, VAR, kWh)
measurements for each load.
The unit also provides up to
two years at 15-minute
intervals or eight years at onehour intervals of demand data
logging storage in non-volatile
memory for up to 60
submeters.

The Power Xpert Multi-Point
Meter can be used with three
different ratings of current
sensors: 100 mA, 10 mA or
333 mV. Switchboard/
panelboard applications will
use the 100 mA current
sensors, which are highly
accurate, self-protecting in the
event of an open circuit
condition under load and are
supplied with an integral plugin connector. The PXMP
automatically detects the
rating of the current sensor
that is connected.
The PXMP can also use 10 mA
current sensors that were
previously installed for
IQMESII retrofit applications.
Additionally, the PXMP can
use 333 mV split core current
sensors for retrofit
applications where metering
has not previously existed.
The 10 mA and 333 mV
current sensors are also selfprotecting in the event of an
open circuit condition under
load.

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Application Description

Features

The Power Xpert Multi-Point
Meter is ideally suited to
handle submetering in low
voltage power distribution
equipment applications such
as distribution boards in
multi-tenant buildings,
comprehensive main and
feeder metering in
commercial/industrial
switchboards or medium
voltage distribution
equipment with the use of
voltage and current
transformers.

●

●

●

●

●

The Power Xpert Multi-Point
Meter provides a costeffective solution for
residential or commercial
metering installations. Typical
installations include:
●
●
●

●
●
●

●
●
●
●

High-rise buildings
Government institutions
K–12, universities and
campuses
Office buildings
Medical facilities
Apartment and
condominium complexes
Airports
Shopping malls
Industrial sites
Mixed-use facilities

●

●

●

●

●

Monitors power and
energy for up to 60 current
sensors; space-saving
modular design allows
measurement from 1 to 60
circuits
Built-in communication
interfaces
Monitors single-phase and
three-phase loads from 120
to 600 Vac
Monitors current, voltage,
power factor, frequency,
power and energy
Stores extensive energy
profile data for each
metering point; can be
used to identify
coincidental peak
demand contribution
LEDs provide status of unit
communication activity and
verify sensor connections
Meets rigid ANSI C12.20
accuracy specifications for
revenue meters
Three standard digital
inputs and eight pulse
inputs per optional module
to monitor WAGES (water,
air, gas, electric, or steam)
One standard digital output
and eight digital outputs
per optional module for
alarm indication
Three types of meter
modules to support 10 mA,
100 mA or 333 mV sensors

●

●

Can be directly mounted in
a UL Listed panelboard,
switchboard or enclosure
256 MB of memory in
meter base for up to two
years of 15-minute interval
data (eight years of onehour interval data) for eight
demand values up to
60 submeters

Communication Capabilities
With the Power Xpert MultiPoint Meter’s built-in
communication capabilities,
remote meter reading and
monitoring functions can be
integrated into both new and
retrofit applications.
●
●

Standard Modbus RTU
Optional Modbus TCP /
BACnet/IP / SNMP / HTTP /
SMTP / NTP /SFTP
communications

Software Compatibility
The Power Xpert Multi-Point
Meter:
●

●

●

Can be used as part of
an electrical energy
monitoring and cost
allocation system
Can be remotely monitored
via onboard Web pages
with Eaton’s optional
Energy Portal Module
Is compatible with thirdparty software platforms
and interface devices

Configuration
●
The Power Xpert MultiPoint Meter is fully
configurable using Power
Xpert Multi-Point
configuration software that
can be down-loaded free
from the Eaton website at
www.eaton.com/meters
●
Each Power Xpert MultiPoint Meter module can be
configured for up to six
metering points in any
combination of singlephase and three-phase
metering points
corresponding to the
voltage wiring of the meter
base
●
Power Xpert Multi-Point
configuration software
simplifies system
commissioning and
startup; PXMP
configuration software
supports both online and
offline configurations
Easy to Install
●
UL Listed for mounting
inside panelboards (e.g.,
PRL4), switchboards, and
NEMA 12 enclosures
●
Quick connect terminals
for current sensors,
Modbus communications,
and bus voltages make
wiring the unit quick
and easy

Instrumentation
Current, per phase
Voltage, per phase (L-L, L-N)
Frequency
Minimum/maximum readings, V
Minimum/maximum readings, W, VAR, VA
Minimum/maximum readings, PF, F
Power
Real, reactive, and apparent power (W, VAR, VA)
Power factor
Demand
Block interval (fixed, sliding)
Real, reactive and apparent power demand
Minimum/maximum readings, PF, W, VAR, VA
Energy
Real, reactive and apparent energy (Wh, VARh, VAh)
Real, forward and reverse, and total (Wh)

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Main/Aggregate

Channel Data

Tenant

■

■

1

9

■

■

—
—

—
Per phase
Total and per phase
Total

■

■

—
—
—

—
—
—

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Total and per phase
—

Total and per phase
Average

Total
Average

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■

—
—
Total

—
—
—

—
—

■

Total and per phase
Total and per phase
Total
■

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Total

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Note
1 Main only.

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Features
Description

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Metering Devices

Standards and Certifications

Product Selection

Environmental
The PXMP Meter and current sensors must be housed in a
NEMA or UL enclosure that keeps the internal environment
within the PXMP’s environmental specification ranges and
provides suitable fire and mechanical protection in the end
product installation.
●

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Metering Devices, Protective Relays, Software and Connectivity

●
●
●
●

●
●
●

The Power Xpert Multi-Point Meter, current sensors, and other
accessories can be ordered from Eaton distributors. Refer to the
following catalog numbers when ordering.
Power Xpert Multi-Point Meter Products
Product Description

Catalog Number

Meter Bases and Meter Modules with ABCN Voltage Inputs

Temperature range: –20 to +70°C (–4 to +158°F)
Storage temperature range: –40 to 85°C
Humidity: 5–95% noncondensing environment
Pollution degree: II
Elevation: 0 to 9843 ft
(0 to 3000m)
Housing: IP20
CE Mark
EMC EN61326

PXMP meter base—three-phase with ABCN voltage inputs

PXMP-MB

PXMP meter module with six 100 mA inputs
for use with PXMP current sensors

PXMP-MM100MA

PXMP meter module with six 10 mA inputs
for use with IQMESII current sensors

PXMP-MM10MA

PXMP meter module with six 333 mV inputs
for use with 333 mV current sensors

PXMP-MM333MV

Meter Bases and Meter Modules with ABN Voltage Inputs

Emissions Conducted and Radiated
●
FCC part 15 Class B
●
CISPR 11 Class B
Electromagnetic Immunity

PXMP meter base—single-phase, three-wire
with ABN voltage inputs

PXMP-MB-AB

PXMP meter module with six 100 mA inputs
for use with PXMP current sensors

PXMP-MM100MA-AB

PXMP meter module with six 10 mA inputs for use with IQMESII
current sensors

PXMP-MM10MA-AB
PXMP-MM333MV-AB

Standard

Description

Level

PXMP meter module with six 333 mV inputs for use with
333 mV current sensors

EN61000-4-2

ESD

3

IO Modules

EN61000-4-3

RF radiated

3

EN61000-4-4

Electrical fast transient

3

EN61000-4-5

Surge

31

EN61000-4-6

RF conducted

3

EN61000-4-11

Volt sag/swell/variation

—

PXMP meter pulse input module with eight inputs

PXMP-PIM

PXMP meter digital output module with eight outputs

PXMP-DOM

Communication Module
PXMP meter energy portal module

PXMP-EPM

Current Sensor Kits
KIT, PXMP CS125 sensor, quantity of 3

PXMP-CS125-3

Product Safety
●
IEC/EN61010-1
●
UL 61010-1 File E185559
●
CNL evaluation to CAN/C22.2 No 1010.1.92

KIT, PXMP CS250 sensor, quantity of 3

PXMP-CS250-3

KIT, PXMP CS400 sensor, quantity of 3

PXMP-CS400-3

KIT, PXMP sensor cable, 4 ft (1.2m), quantity of 3

PXMP-SC4-3

Accuracy
●
ANSI C12.20—Accuracy Class 0.5% with either CSXXX or
PXMP-CSXXX sensors
●
Measurement Canada Approval Pending

KIT, PXMP sensor cable, 6 ft (1.8m), quantity of 3

PXMP-SC6-3

KIT, PXMP sensor cable, 8 ft (2.4m), quantity of 3

PXMP-SC8-3

KIT, PXMP sensor cable, 12 ft (3.7m), quantity of 3

PXMP-SC12-3

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Current Sensor Cable Kits

Current Sensor Extension Cable Kits
KIT, PXMP sensor extension cable, 8 ft (2.4m), quantity of 3

PXMP-SCE-8-3

KIT, PXMP sensor extension cable, 16 ft (4.9m), quantity of 3

PXMP-SCE-16-3

Interface Modules

9

PXMP current sensor interface module for 333 mV, kit X 3

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Note
Total sensor lead length must not exceed 28 ft (8.5m).

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9.3

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

The Pulse Input Module (PXMP-PIM) can be used to totalize
pulse outputs from water meters, gas meters, steam meters or
even old electrical meters with KZ pulse outputs. The PXMP-PIM
can also be used for status monitoring in applications where
status indication updates of 6 seconds over Modbus satisfies
the application requirement.

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Support products for the Power Xpert Multi-Point Meter include
the HMI display, IMPCABLE and power supplies as described in
the table below.

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Power Xpert Multi-Point Meter Support Products
Product Description

Catalog Number

Communication cable, 1000 ft (305m), 600V insulation

IMPCABLE

PXMP meter display—6-inch color touchscreen (with cable)

PXMP-DISP-6

Power supply—single-phase 90–264 Vac, 24 Vdc at 2.5A

PSG60E

Power supply—three-phase 360–575 Vac, 24 Vdc at 2.5A

PSG60F

Power supply—three-phase 600 Vac, 24 Vdc

PSS55D

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Meter Selection
Meter Base

Typical Applications

Meter Module

Three-Phase
Application or
Single-Phase
with ABCN

Single-Phase
Application
with ABN

New Switchboards
PXMP Current
Sensors,
Solid Core,
PXMP-CSXXX, Ampere
Ratings

Retrofit Existing
IQMESII
Sensors,
Solid Core,
CS-XXX,
Ampere Ratings

Enclosed PXMP
333MV
Sensors,
Split Core,
CS-SP-X-XXXX-333MV,
Ampere Ratings

Enclosed PXMP
Interface
Modules

PXMP-MM100MA

PXMP-MB

—

125, 250, 400

—

—

—

PXMP-MM333MV

PXMP-MB

—

—

—

100, 200, 300, 400, 600, 800, 1000, 1200, PXMP-IM333MV
1600, 2000 1

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PXMP-MM10MA

PXMP-MB

—

—

5, 50, 70, 125, 200, 400

—

—

PXMP-MM100MA-AB

—

PXMP-MB-AB

125, 250, 400

—

—

—

PXMP-MM333MV-AB

—

PXMP-MB-AB

—

—

100, 200, 300, 400, 600, 800, 1000, 1200, PXMP-IM333MV
1600, 2000 1

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PXMP-MM10MA-AB

—

PXMP-MB-AB

—

5, 50, 70, 125, 200, 400

—

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—

Note
1 For applications requiring more than 2000A current sensors, use a CS005 with 5A CT in conjunction with PXMP-MM10MA.

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External Circuit Group Specifications
PXMP-MB (-AB) Meter base
Discrete Output
●
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T1 (polarity not important)

●

T2 (polarity not important)

Quantity 3, common circuits inputs 1–3
Group isolation 2 kV
●
No input-to-input circuit isolation
All inputs per module share a common external
24V (±10%) supply
●
24V externally sourced between common and inputs
●
Design to interface with external dry contact
●
Input impedance ~2.2K ohms
●
Input current draw ~10 mA per input
Minimum pulse width 10 milliseconds
Maximum pulse rate 20 Hz
Wiring to four-position removable terminal plug
●
12–18 AWG (3.31–0.82 mm2), wire ferrules recommended
●
T3—Common (connect ext. 24 common here)
●
T4—Input 1 (dry contact to 24V hot)
●
T5—Input 2 (dry contact to 24V hot)
●
T6—Input 3 (dry contact to 24V hot)

COM1 and COM2 RS-485 Serial Ports

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Quantity 1—solid-state relay Form A NO Bidirectional FET
Polarity of external source is not important
Isolation circuit to ground 2 kV/1 min.
Maximum external source voltage 28 Vdc
Line-to-line TVS clamp across switching element at 32 Vdc
Solid-state relay on resistance 35 ohms maximum
Maximum load current 80 mA
Minimum pulse width 20 milliseconds
Fixed 25 milliseconds for pulse initiator function
Maximum pulse rate 25 Hz
Wiring to two-position removable terminal plug
●
12–18 AWG (3.31–0.82 mm2), wire ferrules recommended

Discrete Inputs

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Technical data and Specifications

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Metering Devices, Protective Relays, Software and Connectivity

●
●
●
●

No D+/D– biasing reliance on fail-safe driver and biasing at
Master
Baud rate configurable between 9600–115K baud (default)
Use cable designed for RS-485 communications
●
Low L:L capacitance
●
Impedance of ~100–120 ohms
●
Shield—Mylar for high frequency; Braid for low frequency
●
Separate common and shield for best noise immunity
●
Maximum cable length is 4000 ft (1219.2m) with 32 nodes
at 19.2K baud increased data rates will reduce maximum
cable distance
●
2000 ft (609.6m) with 32 total nodes at 115.2K baud
Isolation 300V to ground due to TVS diode clamps
Modbus RTU slave protocol, address defined by rotary switch
Green Rx and Red Tx LEDs per channel
Data + > Data—during idle marked, logic 1 state

V3-T9-104

Volume 3—Power Distribution and Control Assemblies

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●

End of Line Termination resistance should match cable
impedance (typ. 100–120 ohms)
Four-position removable terminal plug 18–22 AWG (0.82–0.33
mm2) typical, wire ferrules recommended
●
COM1
– T7—Shield
– T8—RS-485 common
– T9—Data –
– T10—Data +
●
COM2
– T11—Shield
– T12—RS-485 common
– T13—Data –
– T14—Data +

PXMP-MB Power Supply Input
●
24 Vdc ±20%
●
15W maximum load
●
1 kV isolation barrier internal to PXMP-MB
●
Externally fuse circuit to protect wire
●
Green power OK LED
●
Three-position terminal block 16–12 AWG (1.31–3.31 mm2),
wire ferrules recommended
●
T15—24 Vdc – (common)
●
T16—24 Vdc + (Hot)
●
T17—Shield (optional) capacitively referenced to chassis
ground for enhanced EMC performance
Meter Voltage Inputs
●
Overvoltage CAT III
●
Maximum voltage rating
●
480VL:G (corner grounded delta)
●
347VL:N
●
600VL:L
●
Frequency rating 47–63 Hz
●
Metering range (temporary transitions)
●
30–700VL:N
●
30–700VL:L
●
Abuse withstand rating 1000V sustained
●
High pot withstand rating 2500V/1min
●
Input impedance 4M ohms
●
Fuse inputs rated to protect wiring to mains. External fuses
●
must be installed between the meter voltage terminal and the
mains disconnect switch to the main lines to protect the lines.
600V 1 A BUSS type KTK-R-1 Fast Acting or equivalent fuses
●
are recommended.
●
Wiring to removable terminal plug 10–18 AWG (5.26–0.82
mm2), wire ferrules recommended
●
T18—N (VR)
●
T19—C (V3)
●
T20—B (V2)
●
T21—A (V1)

CA08100004E—November 2013

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

PXMP meter modules (PXMP-MMs)
Compatible with all PXMP Meter Base slots 1–10 LED
indicators:
Health and status green, blink to show activity
●
Pulse energy output one red per group of three loads
●
Load energy direction red/green pair per load
All variations support six load inputs.
●

Current sensor connection is one 2 x 2 connector per load.
Compatible with PXMP-SCXX sensor cables, total cable length
to the sensor should not exceed 28 ft (8.5m).
Note that -AB suffix only affects what voltage channels the loads
are paired with for metering purposes.
PXMP-MM10MA supports the CSXXX series of 10 mA
maximum secondary output current transformers.
PXMP-MM100MA supports the PXMP-CSXXX series of 100 mA
maximum secondary output current transformers.
PXMP-MM333MV supports 333 mV maximum secondary
output current transformers with the use of the PXMPIM333MV interface module.
PXMP digital output module (PXMP-DOM)
●
Compatible with all PXMP-MB slots 1–10
●
LED indicators
●
Health and status green, blink to show activity
●
Output On/Off status one green per output
●
Eight individual solid-state relay outputs
●
Each circuit rated for 24 Vdc (±20%) with an 80 mA load
maximum
●
24 Vdc is externally sourced
●
Group isolation to ground 2 kV
●
Each circuit has its own separate common, circuit-to-circuit
isolation 120V
●
16-position removable terminal plug
●
12–18 AWG (3.31–0.82 mm2), wire ferrules recommended

9.3

PXMP pulse input modules (PXMP-PIMs)
●
Compatible with all PXMP-MB slots 1–10
●
LED indicators
●
Health and status green, blink to show activity
●
Input On/Off status one green per pulse input
●
Eight pulse inputs to external dry contacts
●
Maximum pulse rate is 20 Hz
●
Minimum pulse width is 20 milliseconds
●
External circuit groups rated for 24 Vdc (±20%)
●
All circuits share the same electrical common
●
External supply connects to the module with a two-position
removable terminal plug
●
The supply is internally fanned out to all circuits
●
Group isolation limited to 300V to ground due to TVS diode
clamp
●
Input impedance ~2.2K causing a 10 mA load per input when
energized
●
External circuit groups connect with a 16-position removable
terminal plug
●
Terminals support 12–18 AWG (3.31–0.82 mm2), wire
ferrules recommended
PXMP energy portal module (PXMP-EPM)
●
Only functionally compatible with PXMP-MB slot 10
●
LED indicators
●
Top health and status green, blink to show activity
●
Com. reset button—reset to defaults
●
Local IP 192/10
●
RJ45 front-facing Ethernet configuration port LEDs
– Link (Tx/Rx blink)
– 10/100 speed
●
LED four-stack for bottom LAN/WAN Ethernet port
●
Link (Tx/Rx blink)
●
10/100 speed
●
DHCP/Fixed
●
TX active
●
Config. Ethernet RJ45 Cat5 STP/UTP
●
10Base-T/100Base-Tx
●
Auto crossover capability supported
●
Java Web browser interface
●
Bottom facing LAN/WAN Ethernet port
●
RJ45 Cat5 STP/UTP 10Base-T/100Base-Tx
●
STP required for full electromagnetic immunity
●
Auto crossover capability supported
●
Supports Modbus TCP and Java Web browser interface
●
Bottom-facing telephone modem interface
●
Modem type V92/56K baud
●
RJ11 field interface

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Components
PXMP-MB
PXMP-MB-AB

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Rated
Voltage

Rated
Current

Circuit
Impedance

Digital output

External

24 ±20% 1

0.080A
maximum

35 ohms
maximum

Digital input

External

24 ±20% 1

0.01A

2.22K

2.0 kV

Opto drops supply by 2V

Group are electrically common

COM1 RS-485

Internal

5V 1

—

50–60 ohms

300V

TVS diode clamped to PE

—

Isolation

Note 1

Note 2

2.0 kV

—

—

Internal

5V 1

—

50–60 ohms

300V

TVS diode clamped to PE

—

External

24 ±20% 1

0.7A
maximum

N/A

1.0 kV

Installation Class II input

15W maximum

Voltage inputs
A (V1)/ B (V2)/
C (V3)/ N (VR)

External
mains

480V L:G 2

0.12 mA

4M ohms

N/A

Installation Class III

High pot 2500V/1 minimum

347V L:N 2

0.09 mA

4M ohms

N/A

Installation Class III

High pot 2500V/1 minimum

600V L:L 2

0.09 mA

4M ohms

N/A

Installation Class III

High pot 2500V/1 minimum

PXMP-MM100MA

CT secondary

External

N/A

100 mA

14.6 ohms

N/A

20% over-range

See sensor for primary isolation

PXMP-MM10MA

CT secondary

External

N/A

10 mA

67 ohms

N/A

20% over-range

See sensor for primary isolation

PXMP-MM333MV

CT secondary

External

0.333V 2

N/A

50,000 ohms

N/A

20% over-range

See sensor for primary isolation

PXMP-DOM

Digital output

External

24 ±20% 1

0.080A
maximum

10 ohms
maximum

2 kV group

120V isolation
circuit-to-circuit

Isolation dependent on
external source

PXMP-PIM

Pulse input

External

24 ±20% 1

0.01A

2.22K ohms

300V to ground

TVS diode clamped to PE;
Note: Opto creates 2.2V drop
group isolated, all circuits common sourced by 2.2K ohms; isolation
to 24V external source
dependent on external source

PXMP-EPM

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Power
Source

Power supply
input

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Field
Circuit

COM2 RS-485

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Metering Devices

Power Xpert Multi-Point Meter System—Hardware Specifications

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Metering Devices, Protective Relays, Software and Connectivity

Ethernet 100 Bt

Internal

—

N/A

N/A

1 kV

—

—

POT modem

Internal

—

N/A

N/A

—

—

—

Notes
1 DC.
2 AC RMS.

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Wiring Diagrams

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Wiring for PXMB-MB
Note: For all voltage connections—fuses should be sized in accordance with best practices to protect the instrumentation wire.

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Four-Wire Wye Voltage Connection Inputs

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Three-Phase, Four-Wire Service Current Sensor Connections

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Metering Devices

Three-Phase, Four-Wire Service (Ten Single-Phase, Single-Pole) Current Sensor Connections

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Network 120/208 Three-Wire Apartment Service Current Sensor Connections

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Wiring for PXMB-MB-AB

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Note: For all voltage connections—fuses should be sized in accordance with best practices to protect the instrumentation wire.

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Single-Phase, Three-Wire 120/240 Voltage Connection Inputs

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120/240 Single-Phase, Three-Wire Service Current Sensor Connections

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Metering Devices

Dimensions
Approximate Dimensions in Inches (mm)
Single Unit—Front View

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10.67
(271.0)

0.20
(5.1)
1

2

3

4

5

6

7

8

9

10

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Mode

24Vdc 80mA Output

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Meter
Module

Meter
Module

Meter
Module

Meter
Module

Meter
Module

Meter
Module

Meter
Module

Com

Com

Com

Com

Com

Com

Com

Com

Com

Health

Health

Health

PI1
PI2
PI3
PI4
PI5
PI6
PI7
PI8

O1
O2
O3
O4
O5
O6
O7
O8

Health

Health

Pulse
2

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+
+
+

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-

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XX

+
+
+

+
+

CT
Inputs

XX
XX

+
+
+

Pulse
1

XX
B1
A1

100mA
Sensor

+
+
+

XX
B1
A1

100mA
Sensor

Health

Pulse
2
-

XX
XX

+
+
+

Pulse
1
+
+
+

Health

Pulse
2

XX

XX
XX
XX

+
+
+

Pulse
1

XX
B1
A1

100mA
Sensor

+
+
+

XX
B1
A1

100mA
Sensor

Health

Pulse
2
-

XX
XX
XX

Pulse
2
+
+
+

Pulse
1
+
+
+

XX
B1
A1

100mA
Sensor

XX
XX
XX

Pulse
2
+
+
+

Pulse
1
+
+
+

XX
B1
A1

100mA
Sensor

XX
XX
XX

+
+
+

24Vdc Inputs
Health

Config. Port

Common
Input 1
Input 2
Input 3

Slave Address

Status
Com
Reset

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0

9

1

0

1

8

2

8

2

7

3 7

3

6

5

4

6

5

3
4
5
6

4

Health
TX

RS-485
(Com 1)

RX

Shield 7
Common 8
9
D
10
D

Power
Status
TX

RS-485
(Com 2)

RX

B1

24Vdc

Shield 11
Common 12
13
D
D
14

12.00
(304.8)

Cat. No. PXMP-MB-XX
Style No. 66D2261GXX
Rev. X
SN: XXXXXX
FW Version X.X
Date Code: WYYMMDD
Made in USA

A1

100mA
Sensor

24Vdc
80mA Max
Local IP

O1
Link

O3

6

Local

WARNING
REMOVE POWER BEFORE SERVICING

8

8

O4

7

7

PS Input
Rating
-Vdc 15
24Vdc +Vdc 16
15W Max Shld 17

MORE THAN ONE LIVE CIRCUIT. SEE DIAGRAM.
AVERTISSEMENT: CET EQUIPEMENT RENFERME PLUSIEURS
CIRCUITS SOUS TENSION. VOIR LE SCHEMA.

DO NOT HIPOT / DIELECTRIC TEST

O5

9 10 11 12 13 14 15 16

N (VR) 18

O7

Link
10/100
DHCP
TX ST

O6

10/100

LAN

24V

LAN

Meter
Voltage Inputs

C
Delta
Wye
/1PH

O8

9 10 11 12 13 14 15 16

-

192/10

O2

5

6

+

A1

4

5

B1

3

4

XX

2

3

XX

1

2

XX

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1
2

Meter
Base

XX

XX

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Portal
Module

Output
Module

Pulse
1

PI1 PI2 PI3 PI4 PI5 PI6 PI7 PI8

11.67
(296.4)

XX

1

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XX

-

Pulse
1

+

Health

Pulse
2

XX

Pulse In
Module

480V~ L:G Max.
347V~ L:N Max.
600V~ L:L Max.
CAT III
Freq. 47-63 Hz

B
A

See manual for complete ratings

Modem
b

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nc
C (V3) 19
nc
B (V2) 20
nc
A (V1) 21

Power Xpert
Multipoint Meter

1

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2

3

4

5

6

7

8

9

10

8.74
(222.0)

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Single Unit—Side View

Current Sensor Dimensions

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Rev. X
FW X.XX

Technical Support 1-800-809-2772
http://www.Eaton.com Made in USA

Cat. No. PXMP-EPM-X
Style No. 66D2250G0X
Serial No. XXXXXX
WYYMMDD

Power Xpert
Multipoint Meter

ID
H

12.50
(317.5)

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3.27
(83.1)

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W

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Single Unit—Top View

Current Sensor Dimensions
15.63
(397.0)

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Sensor

H

W

D

PXMP-CS125

2.66 (67.6)

1.66 (42.1)

0.53 (13.5)

PXMP-CS250

2.96 (75.2)

2.42 (61.5)

1.12 (28.4)

PXMP-CS400

3.64 (92.5)

3.03 (73.2)

1.74 (44.2)

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Open Interface Module (PXMP-IM333MV)
Blue Locator LED

PXMP Color Touchscreen Display
0.06~0.12
(1.6~3.0)

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Terminal Block

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1.54
(39.0)
6.10
(0.24)

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0.12 (3.0) R Typ.
6.79
(172.4)

7.25
(184.1)

Outer

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5.21
(132.4)

5.67
(144.1)

PXMP-SCX Cable
Connection
Cut-Out Dimensions

Strain Relief
Strap Holes

333 mV
Sensor
Secondary
Leads

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Contents

IQ Energy Sentinel

Description
Metering Products Family. . . . . . . . . . . . . . . . . . . . .
Power Xpert Meter 4000/6000/8000 Series. . . . . . .
Power Xpert Meter 2000 Series . . . . . . . . . . . . . . . .
IQ 250/260 Series Electronic Power Meters . . . . . .
IQ 130/140/150 Series Electronic Power Meters . . .
IQ 150S/250S Self-Enclosed Electronic Meters . . . .
IQ 35M . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ Analyzer 6400/6600 Series . . . . . . . . . . . . . . . . .
IQ DP-4000 Series . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ 230 Meters . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Xpert Multi-Point Meter . . . . . . . . . . . . . . . . .
IQ Energy Sentinel™
Application Description . . . . . . . . . . . . . . . . . . . .
Features. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Standards and Certifications . . . . . . . . . . . . . . . .
Product Selection . . . . . . . . . . . . . . . . . . . . . . . .
Technical Data and Specifications . . . . . . . . . . . .
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
PM3 Monitoring and Metering Module . . . . . . . . . .
Current Transformers (CTs). . . . . . . . . . . . . . . . . . . .
Clamp-On Current Transformers. . . . . . . . . . . . . . . .
IQ Flange . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Panel Mounting Adapter Kit . . . . . . . . . . . . . . . . . . .
Enclosed Meters . . . . . . . . . . . . . . . . . . . . . . . . . . .

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Page
V3-T9-21
V3-T9-30
V3-T9-49
V3-T9-60
V3-T9-66
V3-T9-71
V3-T9-76
V3-T9-79
V3-T9-87
V3-T9-93
V3-T9-100

V3-T9-113
V3-T9-114
V3-T9-115
V3-T9-116
V3-T9-116
V3-T9-119
V3-T9-121
V3-T9-122
V3-T9-131
V3-T9-134
V3-T9-135
V3-T9-136

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IQ Energy Sentinel™

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Product Description

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IQ Sentinels
IQ Sentinels are
microprocessor-based
submeters, designed to
monitor power and energy.
They represent an alternative
to installing separate
wattmeters, watthour meters
and watt demand meters.
The Energy Sentinel monitors
watts, watthour and watt
demand.

9

Key advantages include
unmatched savings in
space, lower installation
costs and the capability to
communicate data readings
in a variety of ways.
IQ Sentinels with built-in CTs
and communications have
the added benefit of greater
overall system accuracy.
Conventional metering often
is less accurate since external
CTs and separate transducers
may each have inaccuracies
of 1% or more.
Eaton’s IQ Sentinels provide a
unique cost-effective method
to implement energy
submetering at lower levels
in the distribution system.

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The ability to monitor power
distribution systems down to
the machine or process level at
an industrial facility has
become essential to provide
key benefits such as to verify
the accuracy of the utility bill,
identify and track energy usage
to the loads that consume it,
develop a facility energy profile
to establish a baseline, allocate
energy costs to create
accountability, etc.
An optional door-mounted
interface, the Subnetwork
Master Local Display, is
available to display the energy
parameters monitored by the
IQ Sentinels.
Submetering application
examples for the IQ Sentinels
include energy demand
monitoring, product cost
analysis, process machine
tool efficiency and
productivity improvement,
and energy cost allocation or
tenant billing for commercial,
industrial, recreational and
residential facilities.

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V3-T9-112

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

Note: For customer billing
applications, consult local utility
for metering requirements.

Commercial applications
include energy cost allocation
within convention halls, office
buildings, shopping malls,
hospitals, warehouses and
storage facilities.
Industrial applications include
departmental billing and
process/assembly line energy
cost analysis. IQ Energy
Sentinels may be substituted
for watt transducers when
monitoring machine tool and
equipment performance
within plants.
Recreational facilities include
sports arenas, camping
grounds, trailer parks and
marinas.
The IQ Sentinel may be
applied on three-phase
(three- or four-wire), as well
as single-phase (three-wire)
systems.
IQ Sentinels may be
applied on either 50 or
60 Hz systems.

www.eaton.com

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Application Description
The IQ Energy Sentinel is
available in three different
package versions: breaker
mounted, universal breaker
with internal CTs, and
universal breaker with
external CTs.

Breaker Mount Applications
New Equipment

●

●

●
●
●

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Designed for mounting on
Eaton’s Series C® Circuit
Breakers utilized in Eaton
assemblies such as:
●

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Universal Mount Applications

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Universal Mount with Internal CTs

Pow-R-Line four
panelboards—feeder
circuits
Pow-R-Line C™
switchboards—feeder
circuits
Motor control centers and
enclosed control with
circuit breaker
disconnects—starter or
feeder circuits
Enclosed Motor Control
Enclosed circuit breakers
Pow-R-Way III® bus plugs
with circuit breaker
disconnects

F-Frame Breaker with IQ Sentinel

Retrofitting
The space-saving design
characteristics of the breaker
mount IQ Energy Sentinels
allow them to be added to
existing Eaton circuit breakers
at any time, often with no
additional space or
modifications required.
Or they may be installed
when upgrading from older
circuit breakers, often with
no additional space or
modifications required.

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The universal mount IQ Energy
Sentinel with internal CTs
includes integral 400A CTs and
may be applied on loads up to
400A. The universal mount IQ
Energy Sentinels with internal
CTs may be utilized wherever
breaker mounting is not
feasible or possible.

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The universal mount IQ Energy
Sentinel with provisions for
external CTs may be applied on
loads up to 4000A. They are
usually utilized for monitoring
loads larger than 400 amperes,
on power cable sizes larger
than 500 kcmil or on circuits
containing more than one
conductor per phase.

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Metering Devices

Features
IQ Energy Sentinel Features
Features

Benefits

■ Monitors (accuracy stated full scale)

■
■
■
■
■
■
■

■
■
■
■

■

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Metering Devices, Protective Relays, Software and Connectivity

One device replaces multiple meters and/or transducers
Improved system accuracy
Savings in product cost
Savings in space
Savings in installation cost
No external power source is needed
Permits remote monitoring and interconnection with programmable logic controllers
and building management systems. For further information see section on Power
Management Software Systems
■ Designed to interface directly with Power Management Software Energy Billing software
■ Flexibility—displays what is needed where it is needed
■ Power Management Software

Kilowatts
±1.0%
Kilowatts demand
±1.0%
Kilowatt Hour
±1.0%
Built-in CTs version up to 400A or external CTs version up to 4000A
Breaker, panel or DIN rail mounted
Powered directly off the line
Built-in communication capability
Address set by DIP switches
Communication at 9600 baud
Noise immune INCOM protocol
Choice of operator interfaces
Subnetwork Master Local Display
Breaker Interface Module (BIM)
Power Management Energy Billing software
Power Management Software

.

Eaton’s Breaker Mount
Eaton’s breaker mount
IQ Energy Sentinel installs
in less than 10 minutes on
the load side of an Eaton
F-Frame (150A),
J-Frame (250A), or
K-Frame (400A) circuit
breaker.
Voltage
Tangs

9

Transmit
LED

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Ground/Neutral
Connection

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Communications
Connections

DIP Switch
Address

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Energy Sentinel Features

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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9.3

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Universal Mount with
Internal CTs—(UI)
The Universal Mount IQ
Energy Sentinel with internal
CTs may be panel-mounted
or DIN rail mounted on
disconnects or other circuits
up to 400 amperes. A pullapart terminal block is
provided on the device for
connection of the system
voltage reference wiring.

The location of the ground/
neutral connection differs on
Breaker Mount IQ Energy
Sentinels from the location of
the ground/neutral
connection on Universal
Mount IQ Sentinels. Incorrect
wiring to the ground/neutral
and communications
connections may result in
accuracy and communication
errors.

well as another terminal block
for connection to the user’s
existing 5-ampere secondary
CTs that may range in
standard ratios from 25:5 up
to 4000:5.
Note: If the device will be
disconnected without interruption
of the monitored load, the use of
a CT shorting block is advised.

A pull-apart terminal block is
provided on the device for
connection of the system
voltage reference wiring as

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Communications
Shield
Connection

Communications
Connections

Universal Mount for
External CTs—(UE)
The Universal Mount IQ
Energy Sentinel for external
CTs may be panel-mounted
or DIN rail mounted on
circuits up to 4000 amperes.

Communications
Connections

Communications
Shield
Connection

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CT
Terminal
Block

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Ground/Neutral
Connection
Voltage Terminal Block

Ground/Neutral
Connection
Voltage Terminal Block

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Energy Sentinel Features

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Standards and Certifications
●
●

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UL listed, File E64983
CSA approved, File
LR106359-1

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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V3-T9-115

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Product Selection
IQ Energy Sentinels

IQ Energy Sentinels

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Description

Voltage Rating—Vac

Current Rating
Maximum Amperes

Catalog
Number

For F-Frame breakers

120/240, 240, 208Y/120

150

IQESF208

For F-Frame breakers

220/380, 230/400, 240/415

150

IQESF400

For F-Frame breakers

480, 480Y/277

150

IQESF480

For F-Frame breakers

600, 600Y/347

150

IQESF600

For J-Frame breakers

120/240, 240, 208Y/120

250

IQESJ208

For J-Frame breakers

220/380, 230/400, 240/415

250

IQESJ400

For J-Frame breakers

480, 480Y/277

250

IQESJ480

For J-Frame breakers

600, 600Y/347

250

IQESJ600

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For K-Frame breakers

120/240, 240, 208Y/120

400

IQESK208

For K-Frame breakers

220/380, 230/400, 240/415

400

IQESK400

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For K-Frame breakers

480, 480Y/277

400

IQESK480

For K-Frame breakers

600, 600Y/347

400

IQESK600

Universal with internal CTs

120/240, 240, 208Y/120

400

IQESUI208

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Universal with internal CTs

220/380, 230/400, 240/415

400

IQESUI400

Universal with internal CTs

480, 480Y/277

400

IQESUI480

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Universal with internal CTs

600, 600Y/347

400

IQESUI600

Universal for external CTs

120/240, 240, 208Y/120

4000

IQESUE208

Universal for external CTs

220/380, 230/400, 240/415

4000

IQESUE400

Universal for external CTs

480, 480Y/277

4000

IQESUE480

Universal for external CTs

600, 600Y/347

4000

IQESUE600

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Technical Data and Specifications
Terminal, Cable and Wiring Guidelines
Sentinel

Eaton’s
Series C Terminal

Wire Size
(Single Conductor)

Wire
Types

F-Frame

624B100G02, G17, G18, G19

#14–1/0, #4–4/0, #4–4/01, #14–1/0 AWG

THW, THHN, XHHW

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J-Frame

T250KB, TA250KB

#4–350 kcmil

THW, THHN, XHHW

K-Frame

T350K, TA350KB

#250–500 kcmil

THW, THHN, XHHW

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Universal Energy Sentinel with internal CTs

T350K, TA350KB

#250–500 kcmil

THW, THHN, XHHW

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System Voltage Reference Wiring
Energy Sentinel with internal or external CTs

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Current Transformer Wiring

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Ground Reference Wiring

Universal with external CTs

Energy Sentinel with internal or external CTs

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#24–#10 AWG

#12 AWG (maximum)

#22–#12 AWG (minimum 600 volt rated)

Communications Wiring
Energy Sentinel with internal or external CTs

Eaton’s IMPCABLE or Belden 9463 family

F-Frame

Eaton’s IMPCABLE or Belden 9463 family

J-Frame

Eaton’s IMPCABLE or Belden 9463 family

K-Frame

Eaton’s IMPCABLE or Belden 9463 family

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Energy Sentinel
Current Input
Current range: 1% to 125% of current rating
Burden: 1 VA

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Voltage Input
Voltage Range: ±20% of voltage rating

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Frequency
50 or 60 Hz

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Power Factor Range
All (–1 to +1)

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Communications
Protocol: INCOM
Speed: 9600 baud
Compatibility: Power Management Software compatible

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Environmental Conditions
Operating temperature: –25°C to 70°C 1
(–13°F to 158°F)
Storage temperature: –40°C to 85°C 1
(–40°F to 185°F)
Operating humidity: 5% to 95% relative humidity noncondensing

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System Voltage Considerations (Application Note)

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The Ground (GND) terminal of the IQ Energy Sentinel should
be connected to the ground bus or other non-current carrying
ground with 600V rated wire to ensure accuracy.

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Note
1 40ºC (standard) maximum for Series C circuit breakers.

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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V3-T9-117

9.3

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

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Wiring Diagrams

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Field Wiring—IQ Universal Energy Sentinel with Internal CTs
Single-Phase Three-Wire

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Two-Phase Three-Wire
N

N
Line

L2

Line

L2

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L1

L1

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Fuses

Fuses

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VA VB VC

Reference
Ground

IA

IB

VA VB VC

IC

Reference
Ground

IA

IB

IC

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Load

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IQ Universal Energy Sentinel
with Internal CTs

IQ Universal Energy Sentinel
with Internal CTs

Load

Three-Phase Three-Wire

Three-Phase Four-Wire
N

Line

L3
Line

L2

L3
L2

L1

L1

Fuses

Fuses

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VA VB VC

Reference
Ground

IA

IB

IC

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IQ Universal Energy Sentinel
with Internal CTs

IA

Load

Acceptable System Configurations
Phase A
Phase A

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Neutral
Phase C

Phase C

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Three-Phase Star, FourWire, Earthed Neutral.

Three-Phase Star, FourWire, Non-Earthed
Neutral.

Single-Phase, ThreeWire, Earthed Mid-Point
(Connect to A and C
Phases).

Two-Phase Star, ThreeWire, Earthed Neutral
(Connect to A and C
Phases).

Three-Phase Delta,
Three-Wire

Three-Phase Open
Delta, Four-Wire,
Earthed Junction.

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Three-Phase Star,
Three-Wire, Earthed
Neutral Point.

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Three-Phase Star,
Three-Wire

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Note: Acceptable for Universal IQ Energy Sentinels only.

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V3-T9-118

IB

IQ Universal Energy Sentinel
with Internal CTs

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Reference
Ground

Load

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VA VB VC

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

IC

9.3

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Dimensions

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Approximate Dimensions in Inches (mm)

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Energy Sentinel
Frame Type

D

W

H

CT Window Size 1

Hole Clearance

Weight
Lbs (kg)

F

3.20 (81.3)

4.12 (104.6)

1.30 (33.0)

0.59 (15.0)

—

0.65 (0.3)

J

4.04 (102.6)

4.12 (104.6)

1.28 (32.5)

0.77 (19.6)

—

0.69 (0.3)

K

4.04 (102.6)

5.31 (134.9)

1.25 (31.8)

0.96 (24.4)

—

0.87 (0.4)

UI

4.36 (110.7)

5.31 (134.9)

3.00 (76.2)

—

1.17 (29.7)

1.10 (0.5)

UE

4.36 (110.7)

5.31 (134.9)

3.00 (76.2)

—

—

1.10 (0.5)

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Note
1 Acceptable for Universal IQ Energy Sentinels only.

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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V3-T9-119

9.3
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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

IQ Sentinel
F-Frame Energy Sentinels

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J-Frame Energy Sentinels

0.25
Typical
(6.4)

K-Frame Energy Sentinels

0.25
Typical
(6.4)

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0.25
Typical
(6.4)

0.75
(19.1)

1.25
(31.8)

1.10
(27.9)

1.30
(33.0)

1.28
(32.5)

1.25
(31.8)

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4.04
(102.6)

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1.17
Typical
(29.7)

3.20
(81.3)

0.96
(24.4)

0.77
(19.6)
1.38
(34.9)

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1.38
(34.9)

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1.38
(34.9)
2.06
(52.3)

1.38
(34.9)

4.12
(104.6)

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1.38
(34.9)
2.06
(52.3)

1.72
(43.7)

4.12
(104.6)

0.14
(3.6)
Radius

1.80
(45.7)

1.71
(43.4)

Universal with External CTs
Energy Sentinels

1.80
(45.7)

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1.72
(43.7)
2.66
(67.5)
5.31
(134.9)

Universal with Internal CTs
Energy Sentinels

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4.04
(102.6)

0.59
(15.0)

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1.17
Typical
(29.7)

0.90
Typical
(22.9)

0.14
(3.6)
Radius

2.50
(63.5)

1.80
(45.7)

1.71
(43.4)

1.80
(45.7)

3.00
(76.2)

2.50
(63.5)

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1.36
(34.5)

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2.60
(66.0)

1.36
(34.5)

1.36
(34.5)

5.31
(134.9)

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2.60
(66.0)

1.36
(34.5)

5.31
(134.9)

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1.17
(29.7)
Diameter

4.36
(110.7)

4.36
(110.7)

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1.72
(43.7)

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1.72
(43.7)
2.66
(67.5)

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V3-T9-120

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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3.00
(76.2)

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Contents

PM3 Modules

Power Monitoring and Metering with Modbus RTU

Description
Metering Products Family. . . . . . . . . . . . . . . . . . . .
Power Xpert Meter 4000/6000/8000 Series . . . . . .
Power Xpert Meter 2000 Series . . . . . . . . . . . . . . .
IQ 250/260 Series Electronic Power Meters. . . . . .
IQ 130/140/150 Series Electronic Power Meters . .
IQ 150S/250S Self-Enclosed Electronic Meters . . .
IQ 35M . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ Analyzer 6400/6600 Series . . . . . . . . . . . . . . . .
IQ DP-4000 Series . . . . . . . . . . . . . . . . . . . . . . . . .
IQ 230 Meters . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Xpert Multi-Point Meter . . . . . . . . . . . . . . . .
IQ Energy Sentinel™ . . . . . . . . . . . . . . . . . . . . . . .
PM3 Monitoring and Metering Module
Current Transformers (CTs). . . . . . . . . . . . . . . . . . .
Clamp-On Current Transformers . . . . . . . . . . . . . . .
IQ Flange . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Panel Mounting Adapter Kit . . . . . . . . . . . . . . . . . .
Enclosed Meters. . . . . . . . . . . . . . . . . . . . . . . . . . .

Page
V3-T9-21
V3-T9-30
V3-T9-49
V3-T9-60
V3-T9-66
V3-T9-71
V3-T9-76
V3-T9-79
V3-T9-87
V3-T9-93
V3-T9-100
V3-T9-112

V3-T9-122
V3-T9-131
V3-T9-134
V3-T9-135
V3-T9-136

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PM3 Monitoring and Metering Module
Product Description

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For information on our PM3
product, please refer to
Volume 4, Tab 2.

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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V3-T9-121

9.3
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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Contents

Current Transformers (CTs)

Description
Metering Products Family. . . . . . . . . . . . . . . . . . . . .
Power Xpert Meter 4000/6000/8000 Series. . . . . . .
Power Xpert Meter 2000 Series . . . . . . . . . . . . . . . .
IQ 250/260 Series Electronic Power Meters . . . . . .
IQ 130/140/150 Series Electronic Power Meters . . .
IQ 150S/250S Self-Enclosed Electronic Meters . . . .
IQ 35M . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ Analyzer 6400/6600 Series . . . . . . . . . . . . . . . . .
IQ DP-4000 Series . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ 230 Meters . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Xpert Multi-Point Meter . . . . . . . . . . . . . . . . .
IQ Energy Sentinel™ . . . . . . . . . . . . . . . . . . . . . . . .
PM3 Monitoring and Metering Module . . . . . . . . . .
Current Transformers (CTs)
Product Selection . . . . . . . . . . . . . . . . . . . . . . . .
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Clamp-On Current Transformers. . . . . . . . . . . . . . . .
IQ Flange . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Panel Mounting Adapter Kit . . . . . . . . . . . . . . . . . . .
Enclosed Meters . . . . . . . . . . . . . . . . . . . . . . . . . . .

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Current Transformers (CTs)

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Product Description

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Eaton’s low voltage current
transformers are available in
both solid core and split core
designs. Engineered for
electronic metering
applications, all solid core
designs and selected split
core designs offer ANSI
metering quality accuracy.
The solid core designs also
meet ANSI C57.13 relay
accuracy requirements
including over-ranging
capabilities. The current
transformer offering has a
5 ampere secondary at the
rated primary current.

Application Description
Split core CTs are specifically
designed to be installed
around primary conductors
without disconnecting wires
or breaking the circuit to be
monitored. These current
transformers are perfect
solutions for energy
management applications
and are manufactured for
installation ease.

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For new construction and
retrofit applications where
no current transformer exists,
Eaton offers a complete
selection of low voltage
(up to 600V) current
transformers. These current
transformers can be used
in commercial-grade
applications, such as control
panels and panelboards.
Additionally, they can be used
for most industrial metering
and relaying applications in
switchboards, switchgear and
motor control centers. These
CTs are intended for use with
the Power Xpert Meter 2000/
4000/6000/8000, IQ 250/260,
IQ 130/140/150, IQ Analyzer
6400/6600, IQ DP-4000 and
IQ 230 series.

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V3-T9-122

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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Page
V3-T9-21
V3-T9-30
V3-T9-49
V3-T9-60
V3-T9-66
V3-T9-71
V3-T9-76
V3-T9-79
V3-T9-87
V3-T9-93
V3-T9-100
V3-T9-112
V3-T9-121

V3-T9-123
V3-T9-126
V3-T9-131
V3-T9-134
V3-T9-135
V3-T9-136

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Product Selection

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Solid Core ANSI Metering Accuracy
Primary
Current
Rating

ANSI B0.1
Metering Class at 60 Hz
(Accuracy in %)

Window Size
in Inches (mm)
Diameter

Catalog
Number

Mounting Bracket
Catalog
Number

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1.25 (31.8) Window

S060
X1

H1

50

1.2

1.25 (31.8)

S060-500

1

100

0.6

1.25 (31.8)

S060-101

1

150

0.3

1.25 (31.8)

S060-151

1

200

0.3

1.25 (31.8)

S060-201

1

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1.56 (39.6) Window

S050

X1
L

BE

LA

H1

300

0.3

1.56 (39.6)

S050-301

S050BRAC

400

0.3

1.56 (39.6)

S050-401

S050BRAC

500

0.3

1.56 (39.6)

S050-501

S050BRAC

600

0.3

1.56 (39.6)

S050-601

S050BRAC

750

0.3

1.56 (39.6)

S050-751

S050BRAC

800

0.3

1.56 (39.6)

S050-801

S050BRAC

1000

0.3

1.56 (39.6)

S050-102

S050BRAC

1200

0.3

1.56 (39.6)

S050-122

S050BRAC

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3.25 (82.6) Window

S080

X1
L

E
AB

L

H1

400

0.3

3.25 (82.6)

S080-401

S080BRAC

500

0.3

3.25 (82.6)

S080-501

S080BRAC

600

0.3

3.25 (82.6)

S080-601

S080BRAC

750

0.3

3.25 (82.6)

S080-751

S080BRAC

800

0.3

3.25 (82.6)

S080-801

S080BRAC

1000

0.3

3.25 (82.6)

S080-102

S080BRAC

1200

0.3

3.25 (82.6)

S080-122

S080BRAC

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4.25 (108.0) Window

S090

0

500

0.3

4.25 (108.0)

S090-501

S090BRAC

600

0.3

4.25 (108.0)

S090-601

S090BRAC

750

0.3

4.25 (108.0)

S090-751

S090BRAC

800

0.3

4.25 (108.0)

S090-801

S090BRAC

1000

0.3

4.25 (108.0)

S090-102

S090BRAC

1200

0.3

4.25 (108.0)

S090-122

S090BRAC

1500

0.3

4.25 (108.0)

S090-152

S090BRAC

1600

0.3

4.25 (108.0)

S090-162

S090BRAC

2000

0.3

4.25 (108.0)

S090-202

S090BRAC

2500

0.3

4.25 (108.0)

S090-252

S090BRAC

3000

0.3

4.25 (108.0)

S090-302

S090BRAC

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X1
EL

B
LA

H1

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6.31 (160.3) Window

S025

0

X1
L

BE

LA

H1

600

0.3

6.31 (160.3)

S025-601

S025BRAC

750

0.3

6.31 (160.3)

S025-751

S025BRAC

800

0.3

6.31 (160.3)

S025-801

S025BRAC

1000

0.3

6.31 (160.3)

S025-102

S025BRAC

1200

0.3

6.31 (160.3)

S025-122

S025BRAC

1500

0.3

6.31 (160.3)

S025-152

S025BRAC

1600

0.3

6.31 (160.3)

S025-162

S025BRAC

2000

0.3

6.31 (160.3)

S025-202

S025BRAC

2500

0.3

6.31 (160.3)

S025-252

S025BRAC

3000

0.3

6.31 (160.3)

S025-302

S025BRAC

3500

0.3

6.31 (160.3)

S025-352

S025BRAC

4000

0.3

6.31 (160.3)

S025-402

S025BRAC

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Note
1 Contact Eaton for further information.

Volume 3—Power Distribution and Control Assemblies

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V3-T9-123

9.3

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Split Core ANSI Metering Accuracy

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Primary
Current Rating

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ANSI B0.1
Metering Class at 60 Hz
(Accuracy in %)

Window Size
in Inches (mm)

Catalog
Number

Wound and Primary CTs

W190

9

X2

X1

25

0.3

Wound

W190-025

50

0.3

Primary

W190-050

H1
L

BE

LA

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9
9
2.00 x 5.50 (50.8 x 139.7)

M000

9

400

2.4

2.00 x 5.50 (50.8 x 139.7)

M000-401

500

2.4

2.00 x 5.50 (50.8 x 139.7)

M000-501

600

2.4

2.00 x 5.50 (50.8 x 139.7)

M000-601

9

800

1.2

2.00 x 5.50 (50.8 x 139.7)

M000-801

1000

1.2

2.00 x 5.50 (50.8 x 139.7)

M000-102

9

1200

0.6

2.00 x 5.50 (50.8 x 139.7)

M000-122

1500

0.6

2.00 x 5.50 (50.8 x 139.7)

M000-152

1600

0.6

2.00 x 5.50 (50.8 x 139.7)

M000-162

2000

0.6

2.00 x 5.50 (50.8 x 139.7)

M000-202

X1

X2

9

H1

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9

d
En
is ble
Th ova
m
Re

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9

M050

H1

4.10 x 7.10 (104.1 x 180.3)

LA

BE

9
9
Th

is

En

dR

em

9

4.8

4.10 x 7.10 (104.1 x 180.3)

M050-601

4.8

4.10 x 7.10 (104.1 x 180.3)

M050-751

800

2.4

4.10 x 7.10 (104.1 x 180.3)

M050-801

1000

2.4

4.10 x 7.10 (104.1 x 180.3)

M050-102

1200

1.2

4.10 x 7.10 (104.1 x 180.3)

M050-122

1500

1.2

4.10 x 7.10 (104.1 x 180.3)

M050-152

2000

0.6

4.10 x 7.10 (104.1 x 180.3)

M050-202

2500

0.6

4.10 x 7.10 (104.1 x 180.3)

M050-252

3000

0.6

4.10 x 7.10 (104.1 x 180.3)

M050-302

3500

0.6

4.10 x 7.10 (104.1 x 180.3)

M050-352

4000

0.3

4.10 x 7.10 (104.1 x 180.3)

M050-402

L

9

9

600
750

ov

ab

le

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9
9
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9.3

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Split Core Current Transformers
Primary
Current Rating

Accuracy
at 60 Hz (in %)

Window Size
in Inches (mm)

Catalog
Number

100

5.0

0.80 x 1.95 (20.3 x 49.5)

M030-101

150

5.0

0.80 x 1.95 (20.3 x 49.5)

M030-151

200

4.0

0.80 x 1.95 (20.3 x 49.5)

M030-201

300

2.0

0.80 x 1.95 (20.3 x 49.5)

M030-301

400

2.0

0.80 x 1.95 (20.3 x 49.5)

M030-401

9
9

0.80 x 1.95 (20.3 x 49.5)

M030

9
9
9
9

M040

9

1.42 x 1.53 (36.1 x 38.9)

H1

100

5.0

1.42 x 1.53 (36.1 x 38.9)

M040-101

150

4.0

1.42 x 1.53 (36.1 x 38.9)

M040-151

200

1.5

1.42 x 1.53 (36.1 x 38.9)

M040-201

300

1.5

1.42 x 1.53 (36.1 x 38.9)

M040-301

400

1.5

1.42 x 1.53 (36.1 x 38.9)

M040-401

9
9

X2

LABEL

9
9

M060

2.60 x 2.75 (66.0 x 69.9)

L
BE

LA

9

200

1.0

2.60 x 2.75 (66.0 x 69.9)

M060-201

300

1.0

2.60 x 2.75 (66.0 x 69.9)

M060-301

400

1.0

2.60 x 2.75 (66.0 x 69.9)

M060-401

500

1.0

2.60 x 2.75 (66.0 x 69.9)

M060-501

600

1.0

2.60 x 2.75 (66.0 x 69.9)

M060-601

750

1.0

2.60 x 2.75 (66.0 x 69.9)

M060-751

800

1.0

2.60 x 2.75 (66.0 x 69.9)

M060-801

1000

1.0

2.60 x 2.75 (66.0 x 69.9)

M060-102

1200

1.0

2.60 x 2.75 (66.0 x 69.9)

M060-122

9

500

1.0

2.60 x 6.25 (66.0 x 158.8)

M080-501

9

600

1.0

2.60 x 6.25 (66.0 x 158.8)

M080-601

9

H1

H1

M080

9
9
9

2.60 x 6.25 (66.0 x 158.8)

800

1.0

2.60 x 6.25 (66.0 x 158.8)

M080-801

1000

1.0

2.60 x 6.25 (66.0 x 158.8)

M080-102

1200

1.0

2.60 x 6.25 (66.0 x 158.8)

M080-122

1500

1.0

2.60 x 6.25 (66.0 x 158.8)

M080-152

1600

1.0

2.60 x 6.25 (66.0 x 158.8)

M080-162

2000

1.0

2.60 x 6.25 (66.0 x 158.8)

M080-202

2500

1.0

2.60 x 6.25 (66.0 x 158.8)

M080-252

3000

1.0

2.60 x 6.25 (66.0 x 158.8)

M080-302

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9.3
9

Dimensions

9

S050

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Approximate dimensions in inches (mm)

2.75
(69.9)

(4) Open Slots 0.22 x 0.34
(5.6 x 8.6)

9
9

S050BRAC

9

2.23
(56.6)
1.67
(42.4)

9
9

1.10
(27.9)

X1
L

BE

9

LA

3.53
(90.0)
3.00
(76.2)

0.44
(11.2)

9
H1

9

X1

9
3.70
(94.0)

9
9

1.56 Dia.
(39.6)

H1

9

1.88
(47.8)

0.31
(7.9)

9
9

2.25
(57.2)

(2) Holes 0.20 (5.1) Diameter

9
9

S060
5.25
(133.4)
4.00
(101.6)

9
9

3.10
(78.7)

9

2.88
(73.2)

X1

9

(2) Slots
0.28 x 0.50
(7.1 x 12.7)

(2) 0.28 x 0.50 Slots
(7.1 x 12.7)

9

3.62
(91.9)

9

0.88
(22.4)

H1

9

0.44 (11.2)
X1

9
9

4.00
(101.6)
H1

See Tables

9

1.95
(49.5)

9
9
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Volume 3—Power Distribution and Control Assemblies

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Approximate dimensions in inches (mm)

9

S080

9

(8) Open Slots
0.47 x 0.22 (11.9 x 5.6)
5.73 (145.5)
4.85 (123.2)
3.81 (96.8)

9
9

S080BRAC

2.19
(55.6)

9

2.91
(73.9)

1.15
(29.2)

9

X1
EL

9

B

LA

(4) Holes
0.42 (10.7) Dia.

0.44
(11.2)

1.09
(27.7)

0.55
(14.0)

H1

9
9

X1

9

5.73
(145.5)
H1

9

3.25 (82.6) Dia.

9

2.84
(72.1)

0.51
(13.0)

9
9

4.70
(119.4)

9
S090

9

5.92 (150.4)
4.85 (123.2)
3.81 (96.8)

0

X1
L

9

S090BRAC

9

2.91
2.19 (73.9)
(55.6)

1.15
(29.2)

BE

9

LA

9

(8) Open Slots 0.47 x 0.22 (11.9 x 5.6)

9

3.50
(88.9)

9

X1

H1

9

6.17
(156.7)
H1

9

4.25 (108.0) Dia.

9

2.97
(75.4)

0.42
(10.7)

9
9

4.86 (123.4)

9

(4) 0.28 x 0.63 (7.1 x 16.0) Slots

9
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9.3
9

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Approximate dimensions in inches (mm)
S025

9

S025BRAC

9
4.10
1.28
(32.5) (104.1)

2.98
(75.7)

9
9

0

X1

9

6.37
(161.8)

0.56
(14.2)

EL

B
LA

(4) Slots 0.44 x 1.00
(11.2 x 25.4)

8.50
(215.9)

9

0.75
(19.1)

9
9

0.44
(11.2)

H1

9
9

6.75
(171.5)

8.50
(215.9)

6.31
(160.3)

H1

9

4.25
(108.0)

9
9
9
9

(4) 0.56 (14.2)
Diameter Holes

6.75 (171.5)

0.88 (22.4)

W190

9

(4) Closed Slots
0.21 x 0.50 (5.3 x 12.7)

2.75 (69.9)

9
9
9

X2

X1

4.12
(104.6)

4.69
(119.1)

2.19
(55.6)
H2 H1

X2 X1

3.25
(82.6)

H1

9

H2

L

BE

LA

9

3.50
(88.9)

9

4.50
(114.3)

9

0.75
(19.1)

9

LABEL

(4) Open Slots
0.44 x 0.50 (11.2 x 12.7)
0.38
(9.7)

0.44
(11.2)

9

4.88
(124.0)

9
0.50
(12.7)

9
9

3.48 (88.4)
(2) Mounting Holes
0.38 (9.7) Diameter

9
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Volume 3—Power Distribution and Control Assemblies

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9.3

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Approximate dimensions in inches (mm)
M000

9

M050

9

Re
mo

va
ble

X1
L

9

Th

is
E

nd

LA
BE

X2

d
En
is ble
Th ova
m
Re

X1

H1

9

H1

9

4.25 (108.0)
2.00
(50.8)
This End
Removable

9

0.44
(11.2)

0.75
(19.1)

9

X1
H1

LABEL

9

LABEL

7.75
(196.9)
5.50
(139.7)

4.10
(104.1)

7.10
(180.3)
10.00
(254.0)

9
10.90
(276.9)

9
9

H1
X1 X2

9

This End Removable

0.38
(9.7)

3.50 (88.9)
(2) 0.19 (4.8) Diameter Holes

6.40
(162.6)

1.13
(28.7)

7.30
(185.4)

1.63
(41.4)
(4) 0.31 (7.9) Dia. Holes

9
9
9

M030

9
9
9
9
9
9
9
9
9
9
9
9
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9.3
9

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Approximate dimensions in inches (mm)
M040

9
9
2.50
(63.5)

9
9
Terminal Arrangement for
Ratios 250:5 through 400:5

H1

9
9

3.38 (85.9)
1.20
(30.5)

X2

9

X2

9

3.52
(89.4)

X1

9

1.53
(38.9)

LABEL

LABEL

4.78
(121.4)

H1

X1

9
9
Terminal Arrangement for
Ratios 100:5 through 200:5

9
9

M060

1.42
(36.1)

M080

9
L

BE

9

LA

H1

9
9
9
9
H1

9
9
9
9

H1

H1

9
9

6.25 (158.8)

2.70 (68.6)

9

5.80 (147.3)
X1 - WHITE
X2 - BLACK

H1

9

6.05 (153.7)

9
V3-T9-130

X1 - WHITE
X2 - BLACK

2.60 (66.0)

2.75 (69.9)

9

9.25 (235.0)
H1

1.75
(44.5)

Volume 3—Power Distribution and Control Assemblies

1.75
(44.5)

6.05 (153.7)

CA08100004E—November 2013

www.eaton.com

4.12
(104.6)

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Contents

IQ Accessories—Clamp-On CTs

Description
Metering Products Family. . . . . . . . . . . . . . . . . . . .
Power Xpert Meter 4000/6000/8000 Series . . . . . .
Power Xpert Meter 2000 Series . . . . . . . . . . . . . . .
IQ 250/260 Series Electronic Power Meters. . . . . .
IQ 130/140/150 Series Electronic Power Meters . .
IQ 150S/250S Self-Enclosed Electronic Meters . . .
IQ 35M . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ Analyzer 6400/6600 Series . . . . . . . . . . . . . . . .
IQ DP-4000 Series . . . . . . . . . . . . . . . . . . . . . . . . .
IQ 230 Meters . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Xpert Multi-Point Meter . . . . . . . . . . . . . . . .
IQ Energy Sentinel™ . . . . . . . . . . . . . . . . . . . . . . .
PM3 Monitoring and Metering Module . . . . . . . . .
Current Transformers (CTs). . . . . . . . . . . . . . . . . . .
Clamp-On Current Transformers
Product Selection. . . . . . . . . . . . . . . . . . . . . . . .
Technical Data and Specifications . . . . . . . . . . .
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ Flange . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Panel Mounting Adapter Kit . . . . . . . . . . . . . . . . . .
Enclosed Meters. . . . . . . . . . . . . . . . . . . . . . . . . . .

Page
V3-T9-21
V3-T9-30
V3-T9-49
V3-T9-60
V3-T9-66
V3-T9-71
V3-T9-76
V3-T9-79
V3-T9-87
V3-T9-93
V3-T9-100
V3-T9-112
V3-T9-121
V3-T9-122

V3-T9-132
V3-T9-132
V3-T9-133
V3-T9-134
V3-T9-135
V3-T9-136

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9
9
9
9
9
9
9

Clamp-On Current Transformers
Product Description

Application Description

Eaton’s optional Clamp-on
Current Transformers (CTs)
are designed to be used in
cases where there are no
existing CTs or the existing
CTs cannot be accessed,
these clamp-on CTs can
be used.

●

●

There are two models that
cover current ranges from
150 to 1500 amperes
These clamp-on CTs are
designed to fit around
600 volt insulated cable
and bus bar

Features, Benefits
and Functions
●

●

Each clamp-on CT comes
with a 12-foot (3.7m) cable
and twist lock connector
All models have a
5 ampere output at
three different primary
current ratings

Standards and Certifications
●

●

Meets IEC 1010-1
Category III
CE mark for applications
where European
compliance is required

9
9
9
9
9

These clamp-on CTs are
packaged individually. Most
applications will require at
least three clamp-on CTs,
one for each phase.

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V3-T9-131

9.3
9

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Product Selection

Technical Data and Specifications
●
●

9

Ordering Information

9

Current
Ranges

Catalog
Number

150–300–600A

IQAPORT0600CT

9

150–300–600A

●
●
●
●
●

9

●

9
9

500–1000–1500A

500–1000–1500A

IQAPORT1500CT

9

Operating temperature: 14ºF to 122ºF (–10ºC to 50ºC)
Operating humidity: 5 to 90% maximum noncondensing
Altitude: 10,000 ft (3048m)
Environment: indoor use only
Operating voltage: 600 Vac maximum
Isolation test: 5.55 kV for 1 minute
Current over range: 200% for 3 minutes
Connector: twist-lock

Current Ranges
Each of the two models of clamp-on CTs has three primary
current ranges. The primary current range is selected at the
clamp-on by connecting to the indicated terminals.
150A/300A/600A Clamp-On CT Specifications
●
Current ratings:
●
150 to 5 amperes
●
300 to 5 amperes
●
600 to 5 amperes

9
9
9
9

500A/1000A/1500A Clamp-On CT Specifications
●
Current ratings:
●
500 to 5 amperes
●
1000 to 5 amperes
●
1500 to 5 amperes

9

Electrical Characteristics

9

Current
Ranges

9

150–600A

0.10–1.0

0.5–1.0

40–5000

30–10,000

500–1500A

0.01–4.0

0.5–1.0

40–2000

30–5000

9

Load
(Ohms)

Phase Shift
(Degree)

9
9
9
9
9
9
9
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V3-T9-132

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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Frequency
Range (3%)

Frequency
Range (–3 db)

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Dimensions

9

Approximate Dimensions in Inches (mm)
150A/300A/600A Clamp-On CT
1.58
(40.1)
0.79
(20.1)

4.01
(101.9)

150A/300A/600A Clamp-On CT
●
Maximum cable size:
●
2.00 inches (50.8 mm)
●
Maximum bus bar size:
●
2.00 x 0.47 inches (50.8 x 12.0 mm)
●
1.60 x 1.40 inches (40.6 x 35.6 mm)
●
Dimensions (without cable):
●
4.00 x 8.50 x 1.60 inches (101.6 x 215.9 x 40.6 mm)
●
Weight (with cable):
●
2.0 lbs (0.9 kg)

9
9
9
9
9
9
9

8.50
(215.9)

9
9
9
9
9

1.26
(32.0)

9

500A/1000A/1500A Clamp-On CT
2.04
(51.8)
5.24
(133.1)

1.40
(35.6)

1.10
(27.9)

500A/1000A/1500A Clamp-On CT
●
Maximum cable size:
●
2.68 inches (68.1 mm)
●
Maximum bus bar size:
●
4.84 x 1.40 (122.9 x 35.6 mm)
●
4.00 x 1.70 inches (101.6 x 43.2 mm)
●
Dimensions (without cable):
●
5.20 x 13.20 x 2.00 inches (132.1 x 335.3 x 50.8 mm)
●
Weight (with cable):
●
6.0 lbs (2.7 kg)

9
9
9
9
9
9
9

8.50
(215.9)

9
9
9
9
9

1.30
(33.0)

9
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V3-T9-133

9.3
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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Contents

IQ Accessories—IQ Flange

Description
Metering Products Family. . . . . . . . . . . . . . . . . . . . .
Power Xpert Meter 4000/6000/8000 Series. . . . . . .
Power Xpert Meter 2000 Series . . . . . . . . . . . . . . . .
IQ 250/260 Series Electronic Power Meters . . . . . .
IQ 130/140/150 Series Electronic Power Meters . . .
IQ 150S/250S Self-Enclosed Electronic Meters . . . .
IQ 35M . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ Analyzer 6400/6600 Series . . . . . . . . . . . . . . . . .
IQ DP-4000 Series . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ 230 Meters . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Xpert Multi-Point Meter . . . . . . . . . . . . . . . . .
IQ Energy Sentinel™ . . . . . . . . . . . . . . . . . . . . . . . .
PM3 Monitoring and Metering Module . . . . . . . . . .
Current Transformers (CTs). . . . . . . . . . . . . . . . . . . .
Clamp-On Current Transformers. . . . . . . . . . . . . . . .
IQ Flange
Panel Mounting Adapter Kit . . . . . . . . . . . . . . . . . . .
Enclosed Meters . . . . . . . . . . . . . . . . . . . . . . . . . . .

9
9
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9
9

IQ Flange

9

Product Description

9
9
9
9
9

Eaton’s IQ Flange is intended
for use with the IQ Data,
IQ Generator, IQ Data Plus II,
IQ Analyzer and any other
such device sharing the same
mounting dimensions.
The door mounting flange
provides extra depth behind a
panel if there is not enough
clearance to accommodate
the device.

9

Application Description
Retrofit Applications
For applications where extra
door mounting space is
required, a flange-mounting
unit is available. The IQ
Flange provides an extra
2.5 inches (63.5 mm) of
clearance for the device.
The IQ Flange can be used
with any IQ device with
a 5.38-inch (136.7 mm) x
9.38-inch (238.0 mm) cutout.

IQ Flange

IQ Flange
Description

Catalog Number

IQ Flange

IQFLANGE

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V3-T9-135
V3-T9-136

Product Selection

9

V3-T9-134

V3-T9-21
V3-T9-30
V3-T9-49
V3-T9-60
V3-T9-66
V3-T9-71
V3-T9-76
V3-T9-79
V3-T9-87
V3-T9-93
V3-T9-100
V3-T9-112
V3-T9-121
V3-T9-122
V3-T9-131

CA08100004E—November 2013

www.eaton.com

9.3

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Panel Mounting Adapter Kit for IQ 100/200 Series and PXM 2000 Meters

Contents
Description
Metering Products Family. . . . . . . . . . . . . . . . . . . .
Power Xpert Meter 4000/6000/8000 Series . . . . . .
Power Xpert Meter 2000 Series . . . . . . . . . . . . . . .
IQ 250/260 Series Electronic Power Meters. . . . . .
IQ 130/140/150 Series Electronic Power Meters . .
IQ 150S/250S Self-Enclosed Electronic Meters . . .
IQ 35M . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ Analyzer 6400/6600 Series . . . . . . . . . . . . . . . .
IQ DP-4000 Series . . . . . . . . . . . . . . . . . . . . . . . . .
IQ 230 Meters . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Xpert Multi-Point Meter . . . . . . . . . . . . . . . .
IQ Energy Sentinel™ . . . . . . . . . . . . . . . . . . . . . . .
PM3 Monitoring and Metering Module . . . . . . . . .
Current Transformers (CTs). . . . . . . . . . . . . . . . . . .
Clamp-On Current Transformers . . . . . . . . . . . . . . .
IQ Flange . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Panel Mounting Adapter Kit
Enclosed Meters. . . . . . . . . . . . . . . . . . . . . . . . . . .

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V3-T9-21
V3-T9-30
V3-T9-49
V3-T9-60
V3-T9-66
V3-T9-71
V3-T9-76
V3-T9-79
V3-T9-87
V3-T9-93
V3-T9-100
V3-T9-112
V3-T9-121
V3-T9-122
V3-T9-131
V3-T9-134
V3-T9-136

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Panel Mounting Adapter Kit for IQ 100/200 Series
and PXM 2000 Meters
Product Description

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Product Selection

The flange adapter plate can
be installed as follows:
1. Remove the old meter
from the panel or door.
Many IQ metering
products use the typical
IQ drilling pattern shown
at right for mounting
2. Install the flange adapter
plate. Mount it from the
rear using the six screws
provided in the kit. The
flange adapter plate
screw hole pattern
shown at right should
match the typical IQ
drilling pattern. If not,
perform the next step

3. Drill six holes in the panel
or the door to mount the
flange adapter plate.
Follow the typical IQ
drilling pattern. You need
only the top, center and
bottom sets of holes
4. Install the new IQ 100/
200 Series or PXM 2000
meter in the flange
adapter plate. Secure it
from behind with four flat
washers, lock washers
and nuts provided with
the meter

Panel Mounting
Adapter Kit

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Panel Mounting Adapter Kit
Description

Catalog Number

Panel mounting adapter kit
IQ 100/200 and PXM 2000 Series
adapter kit to IQ Analyzer/
IQ DP-4000/IQ Data

IQ250-PMAK

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Dimensions

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Flange Adapter Plate Screw Hole Pattern

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6.72
(170.7)
5.38
(136.7)

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4.45
(113.0)

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10.25
(260.4)

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4.45
(113.0)

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

NEMA 12 Single- and Multi-Unit Enclosed Meters

Contents
Description
Metering Products Family. . . . . . . . . . . . . . . . . . . . .
Power Xpert Meter 4000/6000/8000 Series. . . . . . .
Power Xpert Meter 2000 Series . . . . . . . . . . . . . . . .
IQ 250/260 Series Electronic Power Meters . . . . . .
IQ 130/140/150 Series Electronic Power Meters . . .
IQ 150S/250S Self-Enclosed Electronic Meters . . . .
IQ 35M . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ Analyzer 6400/6600 Series . . . . . . . . . . . . . . . . .
IQ DP-4000 Series . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ 230 Meters . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Xpert Multi-Point Meter . . . . . . . . . . . . . . . . .
IQ Energy Sentinel™ . . . . . . . . . . . . . . . . . . . . . . . .
PM3 Monitoring and Metering Module . . . . . . . . . .
Current Transformers (CTs). . . . . . . . . . . . . . . . . . . .
Clamp-On Current Transformers. . . . . . . . . . . . . . . .
IQ Flange . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Panel Mounting Adapter Kit . . . . . . . . . . . . . . . . . . .
Enclosed Meters
Features and Benefits . . . . . . . . . . . . . . . . . . . . .
Catalog Number Selection. . . . . . . . . . . . . . . . . .
Product Selection . . . . . . . . . . . . . . . . . . . . . . . .
Technical Data and Specifications . . . . . . . . . . . .
Wiring Diagrams . . . . . . . . . . . . . . . . . . . . . . . . .
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

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V3-T9-21
V3-T9-30
V3-T9-49
V3-T9-60
V3-T9-66
V3-T9-71
V3-T9-76
V3-T9-79
V3-T9-87
V3-T9-93
V3-T9-100
V3-T9-112
V3-T9-121
V3-T9-122
V3-T9-131
V3-T9-134
V3-T9-135
V3-T9-137
V3-T9-139
V3-T9-139
V3-T9-140
V3-T9-141
V3-T9-151

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Enclosed Meters

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Product Description

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The Eaton enclosed meter
line provides a complete
energy metering and data
acquisition solution in a single
enclosure. Designed for
Eaton’s IQ 35M, IQ 150, IQ
250/260, and Power Xpert®
2000/4000/6000/8000 and
Multi-Point Meters, Eaton’s
enclosed meter line offers
mounting and installation
flexibility, especially in retrofit
applications where no
metering compartment or
mounting space is available in
the existing electrical
distribution equipment or
where installation time is a
premium. Factory designed
and wired, Eaton’s enclosed
meter line offers savings in
labor and installation costs
because input current and
voltage wiring as well as I/O
wiring is prewired to terminal
blocks inside the enclosure.

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Application Description
The enclosed meter line has
two standard offerings:
single-, prewired unit (specific
IQ 150, IQ 250/260, PXM
2000, PXM 4000/6000/8000
or PXMP) and a multi-unit
(specific IQ 150, IQ 250/260
or IQ 35M models). Because
the multi-unit automatically
includes Eaton’s Power Xpert
Gateway 200E, it facilitates
measurement and verification
of the energy usage on
processes and in buildings.
This provides a convenient
way to monitor energy usage
from multiple points, collect
and log specific energy use
parameters, and display and
generate logs for historical
energy usage reports. Simply
put, Eaton’s multi-unit
enclosed meter solution
helps meet any
measurement and verification
requirement to show energy
efficiency improvements and
results. In addition to the
standard offering, Eaton can
also provide an enclosed
metering solution tailored
around your project needs.

Factory designed and wired
to fit various Eaton power and
energy meters at varying
price points, Eaton’s
enclosed meter line offers
savings in labor and
installation costs because
input current and voltage
wiring, as well as I/O wiring,
is prewired to terminal blocks
inside the enclosure.
Standalone, enclosed meters
are ideal for new metering
applications where no
metering existed previously,
for retrofit installations where
energy monitoring is a must
or where ease of installation
is required.
●
●

●
●
●

Health care facilities
Educational facilities and
campuses
Industrial facilities
Commercial facilities
Government facilities

The multi-unit offering
consolidates energy-related
data available from the
meters in the enclosure, but
also allows for external
meters to be added to the
embedded Power Xpert
Gateway 200E. Through the
Power Xpert Gateway 200E’s
embedded Web server,
information can be presented
in a variety of ways; a
standard Web browser being
the most widely used
method.
The enclosed product is a
standalone solution that is
ideal for many infrastructure
designs. Further, as needs
change and grow, the
enclosed product can be
integrated through Power
Xpert Software into a broader
solution that encompasses
other intelligent hardware and
can integrate with third-party
network management
systems (NMS) or building
management systems (BMS)
for system-wide monitoring
and reporting of energy
and power.

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Features and Benefits
●

●

●

Saves installation time
and cost
One part number to order;
no need to worry that any
part has been left out
Pick the meter or meters
you need as it is designed
to fit various Eaton power
and energy meters, at
varying price points

Factory Wired
Most electrical contractors
are very familiar with wiring
meters. However, it does
take time to place the
disconnect, the CT shorting
blocks, the terminal blocks,
the control power
transformer and so on, and
the associated wiring. It is not
uncommon for errors to be
introduced during the
installation of multiple
meters; it’s just inherent in
wiring. With Eaton’s enclosed
meter line, everything is
wired at the factory—the
shorting block, the terminal
blocks and so on—assuring
that it’s done right. Further, to
ensure safety, Eaton’s
enclosed meter line includes
a primary fusible disconnect
for line voltage, which can be
turned off during meter
maintenance.
For applications with line
voltages above the rated
power supply of the meter,
an optional control power
transformer is supplied in the
enclosure. Control voltage
can also be supplied via a
separate source that is wired
to the field installation
terminal block. CT inputs for
the meter are wired directly
to the shorting terminal
blocks for easy field
installation.

Factory-wired products also
save on installation time and
costs. The meters are flush
mounted on the enclosure
door with all inputs/outputs
factory wired to the terminal
blocks.
A meter subpanel assembly
is also available, which
includes all the internal
components of the single-unit
enclosed meter for the IQ
150/250/260 and PXM 2000
Meters wired and mounted
on a subpanel to be installed
into an existing electrical
structure. It comes with a 48inch lead for flexibility in
mounting the meters at
various distances.

NEMA 12 Front View, Door Open, Prewired and Tested

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Fused
Disconnect
Neutral, Ground
and Input/Output
(not shown)
Terminal Blocks

Control
Power,
Voltage
and CT
Inputs

CT Shorting
Terminal
Block
Prewired Control
Power Transformer

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Meter Fusing

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NEMA Rated
NEMA 12 enclosure prevents
dust and other materials from
entering the equipment.
Internal gaskets also prevent
air irritants from harming the
vital equipment inside. This
quality enclosure meets most
indoor application needs.

NEMA 12 Multi-Unit View, Door Open, Prewired and Tested

NEMA 3R enclosure is
constructed for either indoor
or outdoor use. It helps to
protect personnel from
access to hazardous parts
and provides a degree of
protection for equipment
inside the enclosure against
ingress of solid foreign
objects (falling dirt), harmful
effects of water (rain, sleet,
snow) and external formation
of ice on the enclosure.

Fused Control
Power Transformer

Gateway Power
Supply
Fused Disconnect
Meter Fusing
Control power,
voltage, CT and
Communications
Inputs

PX Gateway

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Ground
CT Shorting Blocks

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NEMA 12 Single-Unit Enclosed Meter Inside View,
PXM 4000/6000/8000 Series

NEMA 4X enclosure provides
the same degree of
protection as the NEMA 3R
with the additional protection
against windblown dust,
splashing and hose-directed
water, and corrosion.

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Meter
Fusing

Fused
Disconnect

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Prewired
Control
Power
Transformer

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Display

Meter
Control
Power,
Voltage
and CT
Inputs

CT Shorting Terminal Blocks

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

NEMA 3R Single-Unit Closed and Open, IQ 150/250/260
and PXM 2000 Series

Multi-Unit Enclosed Meter, Inside View of IQ 35M
Meter
Fusing

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Fused
Disconnect

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Gateway
Power
Supply

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PX Gateway

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Control Power,
Voltage Current
Sensor and
Communications
Inputs

NEMA 4X Single-Unit Closed and Open, IQ 150/250/260
and PXM 2000 Series

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Current Sensor
Terminal Strip

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Prewired Meter Backpan, Single Unit

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48-Inch Meter
Harness

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Meter
Fusing

Fused
Disconnect

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Fused
Disconnect

Enclosed Power Xpert Multi-Point Meter
Fuses

PXMP
Power
Supply
PXMP
Meter
Base
Connections

6-Inch
Color
Touchscreen

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PXMP Meter Base

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Optional
CPT

PXMP Meter Modules
(not shown—sold separately)
NEMA 12
Enclosure
(30H x 24W x 12D Inches)

V3-T9-138

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CT Shorting
Block

Prewired panel to save installation time and cost for retrofits
into existing equipment
Designed for Eaton’s:
●
IQ 100 Meter Series
●
IQ 250/260
●
Power Xpert Meter 2000 Series
With or without CPT, depending on voltage
Order meters separately

CA08100004E—November 2013

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9.3

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Catalog Number Selection
Single Unit Enclosed Meter

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Enclosed PXMP Meter

PXM2250MA65105 - 2 B

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PXMP - 2 B D

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Meter Type
PXM4051A1BA
PXM4051A1BB
PXM6051A1BA
PXM6051A1BB
PXM8051A1BA
PXM8051A1BB
PXM2250MA65105
PXM2250MA65115
PXM2250MA65145
PXM2260MA65105
PXM2260MA65115
PXM2260MA65145
PXM2270MA65105
PXM2270MA65115
PXM2270MA65145
PXM2280MA65105
PXM2280MA65115
PXM2280MA65145
PXM2290MA65105
PXM2290MA65115
PXM2290MA65145
IQ250MA65100
IQ250MA65110
IQ250MA65114
IQ260MA65100
IQ260MA65110
IQ260MA65114
IQ150MA6511
IQ150MA6512

NEMA Rating
2 = NEMA 12
3 = NEMA 3R
4 = NEMA 4X

CPT Option
A = 120/240 Vac (no CPT)
B = 480 Vac (CPT)

Meter Type
PXMP-MB
PXMP-MB-AB

NEMA Rating

A
B
C
D

CPT Option
= None
= 120/240 Vac
= 480 Vac
= 600 Vac

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Display
A = None
D = 6-inch color
touchscreen

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2 = NEMA 12
3 = NEMA 3R
4 = NEMA 4X

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Multi Unit Enclosed Meter

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IQ150MA6511 - 2 B 4 C
Meter Type
IQ35MA12
IQ150MA6511
IQ250MA65100
IQ260MA65100
NEMA Rating
2 = NEMA 12 1
3 = NEMA 3R
4 = NEMA 4X

CPT Option
A = 120/240 Vac
No CPT
B = 480 Vac
CPT 1

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Communications
C = Includes
PXG-200E

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Number of
Meters
4 = 4 meters

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Product Selection

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Meter Subpanel Assembly
Description

Catalog Number

Meter subpanel assembly for PXM 2000
and IQ 150/250/260 Meters

PXM2K-MSPA-A

Meter subpanel assembly with CPT for PXM 2000
and IQ 150/250/260 Meters

PXM2K-MSPA-B

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Notes
1 Not available with IQ 35M.

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Other meter models available upon request in single- and multi-unit enclosed versions.

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Technical Data and Specifications

Enclosed Meters
Description

Specification

Enclosure rating

NEMA 12, 3R, 4X

Enclosure operating temperature

–20°C to +40°C
Note: Temperature range of meter is
–20°C to +70°C. If applied outside, proper
precautions should be taken to avoid exceeding
the maximum and minimum temperature ratings
of the meter.

Dimensions

Single unit (IQ 150/250/260 and PXM 2000):
NEMA 12 (8.00W x 16.30H x 10.40D inches),
NEMA 3R/4X (8.00W x 16.30H x 9.60D inches)
Single unit (PXMP):
NEMA 12/3R/4X (24.00W x 30.00H x 12.00D inches)
Single unit (PXM 4000/6000/8000):
NEMA 12 (20.00W x 24.00H x 14.10D inches)
NEMA 3R/4X (20.20W x 24.00H x 13.90D inches)
Multi unit:
NEMA 12 (13.00W x 30.00H x 15.20D inches)
NEMA 3R (13.20W x 30.10H x 14.60D inches)
NEMA 4X (13.00W x 30.00H x 14.00D inches)

Meters

Single unit: IQ 150, IQ 250/260, PXM 2000/4000/6000/8000
and PXMP models
Multi unit: IQ 35M, IQ 150 and IQ 250/260

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Communications (multi unit only)

Power Xpert Gateway 200E

Control voltage

120V–600V (PXMP)—power supply required
Up to 240V (IQ 35M/150/250/260 and PXM 2000/4000/
6000/8000)—no CPT required
Greater than 240V (IQ 150/250/260 and
PXM 2000)—CPT required
Separate source control—no CPT required

Basic model

Fusible disconnect—primary voltage
Shorting block(s)—not required for IQ 35M or PXMP
Ground terminal block
Neutral terminal block
Eight-point terminal block(s) for input/output
modules for IQ 250/260 and PXM 2000

Wiring

Wired for three-phase, four-wire applications. Three-phase,
three-wire applications—
will need to change the wiring for both the voltage and the
current per the wiring diagram in the meter instruction
manual.

Certifications

UL® 508A and cUL®

Source control

No separate source control voltage required for applications
below 240 Vac (except PXMP)

Prewired

Prewired current transformer, shorting terminal block(s),
neutral, ground, voltage, control
power, fusible disconnect and input/output
terminal block(s)

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Latch

Padlocking latch provision

Optional features

Control power transformer—single unit: 50 VA (IQ 150/250/
260) and 150 VA (PXM 4000/6000/8000); multi unit: 250 VA
control power supply for meter where monitored voltage is
480 Vac (IQ 150/250/260 and PXM 2000/4000/6000/8000)

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Note: Specifications are subject to change without notice and represent
the maximum capabilities of the product with all options installed. This is
not a complete feature list. Features and functionality may vary depending
on selected options, firmware version and product model. Please refer to
the technical data sheet and the user manual for detailed specifications.

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

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Wiring Diagrams

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Single Unit Enclosure—200/240 Vac 50/60 Hz, Three-Phase, Four-Wire System with IQ 150/250/260 or PXM 2000 Meter

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Single Unit Enclosure—480 Vac 50/60 Hz, Three-Phase, Four-Wire System with IQ 150/250/260 or PXM 2000 Meter

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Metering Devices

9.3

Multi Unit Enclosure—200–240 Vac 50/60 Hz, Three-Phase, Four-Wire System with IQ 35M Meters

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Multi Unit Enclosure—200–240 Vac 50/60 Hz, Three-Phase, Four-Wire System with IQ 150/250/260 Meters

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Metering Devices

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Multi Unit Enclosure—480 Vac 50/60 Hz, Three-Phase, Four-Wire System with IQ 150/250/260 Meters

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Single Unit Enclosure—120–240 Vac 50/60 Hz, Three-Wire System with PXMP Meter

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Single Unit Enclosure—120–240 Vac 50/60 Hz, Three-Phase, Four-Wire Wye System with PXMP Meter

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Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Single Unit Enclosure—480–600 Vac 50/60 Hz, Three-Phase, Four-Wire Wye System with PXMP Meter

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Single Unit Enclosure—200–240 Vac 50/60 Hz, Three-Phase, Four-Wire System with PXM 4000/6000/8000 Meter

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9

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

V3-T9-149

9.3
9

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

Single Unit Enclosure—480 Vac 50/60 Hz, Three-Phase, Four-Wire System with PXM 4000/6000/8000 Meter

9
9
9
9
9
9
9
9
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V3-T9-150

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Dimensions

9

Approximate Dimensions in Inches (mm)

9

NEMA 12 Single Unit Enclosure

9
9
9
9

Top
View
10.39
(263.9)

9

8.00
(203.2)

5.00
(127.0)

9.60
(243.8)

9
9
9
14.99
(380.7)

16.30
(414.0)

9
9
9

Right Side View

Front View

Left Side View

9

Rear View

9

NEMA 12 Multi Unit Enclosure

9

13.00
(330.2)

9
15.19
(385.8)

9

15.19
(385.8)

Top
View

14.07
(357.4)

ø0

9
.4

4

9

11.50
(292.1)

9

6.97
(177.0)
Typ.

9
9

30.00
(762.0)

28.50
(723.9)

9
9
9
9

Right Side View

Front View

Rear View

9
9
9

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

V3-T9-151

9.3

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9

Approximate Dimensions in Inches (mm)

9

NEMA 12 PXM 4000/6000/8000 Enclosure
20.00
(508.0)

9
9

12.00
(304.8)

9
9

Top View

1/4-Turn
Padlocking Latch

4xø0.44

16.94 (430.3)
Subpanel Width

9

18.50 (469.9)
Mounting Width

0.75
(19.1)

9

21.00
(533.4)
Subpanel
Height

24.00
(609.6)

9

22.50
(571.5)
Mounting
Height

0.75
(19.1)

9
9

Left Side View

Front View

Right Side View

Front View (Door Removed)

9
9
9
Bottom View

9
9

NEMA 12 PXMP Enclosure
24.00
(609.6)

9
9

12.00
(304.8)

9
Top View

9
9
29.50
(749.3)
Door

9
9

5.25
HMI
(133.4) Cutout
30.00
(762.0)

6.79
(172.4)

9
9

Left Side View

Front View
23.63 (600.2)
Door

9

Right Side
View

Front View
(Door Removed)

9
9
Bottom View

9
9
V3-T9-152

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

External Rear View

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Approximate Dimensions in Inches (mm)

9

NEMA 3R/4X Single Unit Enclosure

9
9
9

Top

9

View

9
9
This Drip Cap is
on NEMA 3R Only

5.00
(127.0)

9.58
(243.3)

9
9
9

16.30
(414.0)

14.99
(380.7)

9
9
9

Right Side View

Front View

Front View

Rear View

9
9

NEMA 3R/4X Multi Unit Enclosure
13.20
(335.3)
(NEMA 3R)

9
9

13.00
(330.2)
(NEMA 4X)

14.64
(371.9)
(NEMA 3R)

9
ø0
ø0 .34
.4 (N
1
(N EM
EM A
A 3R
4X )
)

Top
View

14.03
(356.4)
(NEMA 4X)

9

10.50
(266.7)
(NEMA 3R)

9

11.50
(292.1)
(NEMA 4X)

9

This Drip Cap is
on NEMA 3R Only

9
9
30.07
(763.8)
(NEMA 3R)

27.00
(685.8)
(NEMA 3R)

30.00
(762.0)
(NEMA 4X)

28.50
(723.9)
(NEMA 4X)

9
9
9
9

Right Side View

Front View

Front View
(no door)

9

Rear View

9
9

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

V3-T9-153

9.3

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9

Approximate Dimensions in Inches (mm)

9

NEMA 3R PXM 4000/6000/8000 Unit Enclosure
20.20 (513.1)
Top Width
20.00 (508.0)
Enclosure Width

9
9

13.70
(348.0)
Top
Depth

9
9
9

12.00 (304.8)
Enclosure
Depth

Top View

4xø0.34

17.50 (444.5)
Mounting Width

1.25
(31.8)

9
9
9

21.00
(533.4)
Mounting
Height

1/4-Turn
Padlocking
Latch

24.00
(609.6)

Front View (Door Removed)

9
9

Left Side View

9

Front View

Right Side View

External Rear View

1.50
(38.1)

19.63 (498.6)
Door

9
9

Front View (Subpanel Only)

9
Bottom View

9
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V3-T9-154

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Approximate Dimensions in Inches (mm)

9

NEMA 4X PXM 4000/6000/8000 Unit Enclosure

9

20.00
(508.0)

9
9

12.00
(304.8)

9

0.75
(19.1)

9
0.75
(19.1)

Front View (Door Removed)

22.50
(571.5)
Mounting
Height

1/4-Turn
Padlocking
Latch

24.00
(609.6)

9

18.50 (469.9)
Mounting Width

Top View

9
9

4xø0.44

Left Side View

Front View

Right Side View

9

9

External Rear View

9
Front View (Subpanel Only)

9
9

Bottom View

9
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9
9
9
9
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9

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

V3-T9-155

9.3

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9

Approximate Dimensions in Inches (mm)

9

NEMA 3R PXMP Multi Unit Enclosure

9
9

24.00
(609.6)

9
12.00
(304.8)

9
9

6.79
(172.5)

Top View

9
9
9
9

5.25
(133.4)

30.80
(782.3)
Overall

30.00
(762.0)
Enclosure

HMI
Cutout

9
9
9

Left Side View

Front View

Right Side View

23.63 (600.2)
Door

9

Front View
(Door Removed)

9
9
Bottom View

9
9
9
9
9
9
9
9
9
9
9
9
9
V3-T9-156

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

Metering Devices, Protective Relays, Software and Connectivity
Metering Devices

9.3

Approximate Dimensions in Inches (mm)

9

NEMA 4X PXMP Multi Unit Enclosure

9

24.00
(609.6)

9
9

12.00
(304.8)

9
9

6.79
(172.5)

Top View

9
30.00
(762.0)
Enclosure

5.25
(133.4)

30.00
(762.0)
Overall

9

HMI
Cutout

9
9
9

Left Side View

Front View

Right Side View

23.63 (600.2)
Door

9

Front View
(Door Removed)

9
9

13.07
(332.0)
Overall

9
9

Bottom View

9
9
9
9
9
9
9
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9
9
9
9
9
9
Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

V3-T9-157

9.4

Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

9

Contents

9

Product Selection Guide
FP-6000 Feeder Protection . . . . . . . . . . . . . . . . . .
FP-5000 Feeder Protection . . . . . . . . . . . . . . . . . .
FP-4000 Feeder Protection . . . . . . . . . . . . . . . . . .
MP-3000 Motor Protection . . . . . . . . . . . . . . . . . .
MP-4000 Motor Protection . . . . . . . . . . . . . . . . . .
MD-3000 Motor/Generator Differential Relay . . . .
Digitrip 3000 . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
VR-300 Multifunctional Voltage Relay . . . . . . . . . .
DP-300 Current Differential Protection Relay . . . . .
EDR-3000 Feeder Protection . . . . . . . . . . . . . . . . .
ETR-4000 Transformer Protection Relay . . . . . . . .
Ground Fault Relay. . . . . . . . . . . . . . . . . . . . . . . . .
Universal RTD Module . . . . . . . . . . . . . . . . . . . . . .
IQ 125 Volt DC Power Supply. . . . . . . . . . . . . . . . .

Description

9
9
9
9
9
9
9

Page
V3-T9-162
V3-T9-172
V3-T9-180
V3-T9-188
V3-T9-198
V3-T9-204
V3-T9-207
V3-T9-217
V3-T9-221
V3-T9-226
V3-T9-237
V3-T9-250
V3-T9-254
V3-T9-258

9
9

Product Selection Guide

9

Protective Relay Selection Chart

9

Protection Functions

9
9

Section Page Number

IEEE
Device
Number

Phase inst. OC

9

Description

Feeder
Protection
DT-3000

Motor
Protection
EDR-3000

FP-4000

FP-5000

FP-6000

MP-3000

Voltage
Protection
MP-4000

MD-3000

VR-300

Transformer
Protection
DP-300

ETR-4000

V3-T9-207 V3-T9-226

V3-T9-180 V3-T9-172 V3-T9-162 V3-T9-188

V3-T9-198 V3-T9-204 V3-T9-217

50

■

■

■

■

■

■

■

■

Phase TOC

51

■

■

■

■

■

■

■

■

Ground inst. OC (measured)

50G

■

■

■

■

■

Ground TOC (measured)

51G

■

■

■

■

■

■

■

■

9

Phase directional control 1

67

■

■

Ground directional control 2

67N

■

■

9

Phase voltage restrained OC

51VR

■

■

No. of curves (ANSI/IEC/thermal)

11

11

10

10

10

11

9

Zone interlocking

■

■

■

■

■

■

9

9

■

Thermal overload

49

■

■

■

Locked rotor

49S/51

■

■

■

■

■

51R
27

■

■

■

9

Current unbalance

46

■

■

■

Negative sequence voltage

47

9

■

■

■

■

Power factor

55

■

■

■

■

Overvoltage

59

■

■

■

■

Frequency (over/under)

81

■

■

■

■

Forward/reverse VARs

32V

9
9
9

■

■

Jam/stall
Undervoltage

9

■
■

■

■
■
■
■

■

■

Notes
1 The 50 and 51 protective functions can be controlled for reverse, forward or both directional protection.
2 The 50N, 51N, 50G and 51G protective functions can be controlled for reverse, forward or both directional protection.

9
9
9
V3-T9-158

Volume 3—Power Distribution and Control Assemblies

V3-T9-221 V3-T9-237

CA08100004E—November 2013

www.eaton.com

9.4

Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Protection Functions, continued

Section Page Number

IEEE
Device
Number

Differential

87

Forward/reverse power
Sync check

Description

Feeder
Protection
DT-3000

Motor
Protection
EDR-3000

FP-4000

FP-6000

■1

■1

■1

32

■

■

25

■

■

Reclosing

79
LOP

MP-3000

V3-T9-180 V3-T9-172 V3-T9-162 V3-T9-188
■1

Loss of potential block

MP-4000

MD-3000

VR-300

V3-T9-198 V3-T9-204 V3-T9-217
■2

Transformer
Protection
DP-300

ETR-4000

V3-T9-221 V3-T9-237
■3

■4

■

■

50BF

■

9
9
9
9

■

9

■
■

Cold load pickup
Breaker failure

FP-5000

V3-T9-207 V3-T9-226

Voltage
Protection

■

■

■

■

■

■

■

2nd harmonic restrain

■

5th harmonic restrain

■

■
■

4th harmonic restrain

■

87 GD ground differential

■

9
9
9
9
9

Control Functions

Description
Section Page Number

IEEE
Device
Number

Feeder
Protection
DT-3000

Motor
Protection
EDR-3000

FP-4000

FP-5000

FP-6000

MP-3000

Voltage
Protection
MP-4000

MD-3000

VR-300

DP-300

ETR-4000

V3-T9-207 V3-T9-226

V3-T9-180 V3-T9-172 V3-T9-162 V3-T9-188

Remote open/close

■

■

■

■

■

(Trip only)

■

■

■

Programmable I/O

■

■

■

■

■

■

■

■

■

■

■

■

4

4

4

Number of starts limit

■

■

Starts per hour

■

■

Time between starts

■

■

Emergency override

■

■

Programmable logic control
Multiple settings groups

4

Reduced voltage starting
Trip lock out

■

■

■

■

■

V3-T9-198 V3-T9-204 V3-T9-217

Transformer
Protection

■

■
■

9

V3-T9-221 V3-T9-237

4

■

9
9
9
9
9
9

■

9
9

Notes
1 87B using zone selective interlocking.
2 87M or 87G (motor or generator differential).
3 87M, 87T or 87G (motor, transformer or generator differential).
4 87T (transformer differential).

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9
9

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

V3-T9-159

9.4
9
9
9
9
9
9
9
9
9
9
9
9

Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Metering Functions
IEEE
Device
Number

Description
Section Page Number

Feeder
Protection
DT-3000

Motor
Protection
EDR-3000

FP-4000

FP-5000

FP-6000

MP-3000

Voltage
Protection
MP-4000

MD-3000

VR-300

Transformer
Protection
DP-300

ETR-4000

V3-T9-207 V3-T9-226

V3-T9-180 V3-T9-172 V3-T9-162 V3-T9-188

V3-T9-198 V3-T9-204 V3-T9-217

V3-T9-221 V3-T9-237

Amperes

■

■

■

■

■

■

■1

Ampere demand

■

■

■

■

■

■

■

■

■

■

Volts
Phase angle (current and voltage)
■

Positive, negative and zero sequence
Watts

■

■
■

■

■

■

■

Current only

■

■

■

■

■

■

■

■

■

■

■

■

Watthour

■

■

■

■

VARs

■

■

■

■

VAR demand

■

■

■

■

VAR-hour

■

■

■

■

VA

■

■

■

■

VA Demand

■

■

■

■

VA-hour

■

■

■

■
■

Frequency

■

■

■

Trending (load profile)

■

■

■

■

■

■

■

■

■

Watt Demand

Minimum/maximum recording

■

Max. only

■

■

■

9
9

Monitoring Functions

9

IEEE
Device
Number

Description

Feeder
Protection
DT-3000

Motor
Protection
EDR-3000

FP-4000

FP-5000

FP-6000

MP-3000

Voltage
Protection
MP-4000

MD-3000

VR-300

Transformer
Protection
DP-300

ETR-4000

9

Section Page Number

9

Trip circuit monitor

■

■

■

■

■

Breaker wear

■

■

■

■

■

9

Failure to close

■

■

■

■

■

Oscillography

■

■

■

■

■

9
9
9
9

V3-T9-180 V3-T9-172 V3-T9-162 V3-T9-188

V3-T9-198 V3-T9-204 V3-T9-217

V3-T9-221 V3-T9-237

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

Number of starts

■

■

■

Acceleration time

■

■

■

RTD temperature

■

■

■

■

Hottest RTD

■

■

■

■

Sequence of events
■

Trip target data

9

V3-T9-207 V3-T9-226

Clock

■
■

Note
1 Differential and restrain current only.

9
9
9
9
9
9
9
V3-T9-160

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

■
■

www.eaton.com

9.4

Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Communications

Description
Section Page Number

IEEE
Device
Number

Local human machine
interface

Feeder
Protection

Motor
Protection

Voltage
Protection

Transformer
Protection

9

DT-3000

EDR-3000

FP-4000

FP-5000

FP-6000

MP-3000

MP-4000

MD-3000

VR-300

DP-300

V3-T9-207

V3-T9-226

V3-T9-180

V3-T9-172

V3-T9-162

V3-T9-204

V3-T9-198

V3-T9-204

V3-T9-217

V3-T9-221 V3-T9-237

ETR-4000

■

■

■

■

■

■

■

■

■

9
9
9

Remote
communication port
RS-232

■

■

■

■

■

■

■

■

■

■

■

■

■

■

Optional

■

■

■

■

■

■

9

INCOM

■

■

■

■

■

■

9

Modbus-RTU

■

■

■

■

■

■

RS-485

■

Ethernet copper
Frequency shift key
Addressable
Protocols

■

■

■

■

Modbus-TCP

■

9
9

9
9

Construction

Description
Section Page Number

IEEE
Device
Number

Feeder
Protection
DT-3000

Motor
Protection
EDR-3000

FP-4000

FP-5000

FP-6000

MP-3000

MP-4000

Voltage
Protection

Transformer
Protection

MD-3000

VR-300

DP-300

9

ETR-4000

V3-T9-207

V3-T9-226

V3-T9-180

V3-T9-172

V3-T9-162

V3-T9-188

V3-T9-198

V3-T9-204

V3-T9-217

V3-T9-221 V3-T9-237

Panel mount case

■

■

■

■

■

■

■

■

■

■

Drawout

Optional

Removable
terminals

■

Optional

Optional

Optional

Optional

Optional

Operating
temperature range

–30°–55°C

–40°– 60°C

–40°– 60°C

–40°– 60°C

–40°–60°C

–20°–60°C

–20°–60°C –30°–55°C

Power supply options

120–
240 Vac

19–
300 Vdc

48–
48–
48–
120–
125 Vac/Vdc 125 Vac/Vdc 125 Vac/Vdc 240 Vac

120–
240 Vac

24–250
Vdc

40–250
Vac

100–240
Vac/Vdc

100–240
Vac/Vdc

100–240
Vac/Vdc

■

■

■

■

9

–20°–70°C

20°–70°C –40°– 60°C

9

120–
240 Vac

40–
250 Vac

40–
250 Vac

19–
300 Vdc

9

24–
250 Vdc

90–
250 Vdc

90–
250 Vdc

40–
250 Vac

9

■

■

■

■

■

■

■

■

Wye PTs

■

■

■

■

■

Delta/open delta PTs

■

■

■

■

■

■

■

■

9
9

Binary inputs

■

■

■

■

■

■

■

■

■

■

■

Alarm outputs

2 Form C

1 Form C

2 Form C

2 Form C

2 Form C

3

■

2 Form C

1 Form C

1 NO

1 Form C

Trip outputs

2

3

5

5

5

■

■

■

■

■

■

■

■

Local display

■

■

■

■

■

■

■

■

■

■

■

LEDs (local targets)

■

■

■

■

■

■

■

■

■

■

■

Analog outputs

9

Removable
terminals

AC voltage inputs

AC current inputs

9

■

9
9
9
9
9

Standards

Description

IEEE
Device
Number

Feeder
Protection

Motor
Protection

Voltage
Protection

Transformer
Protection

9

DT-3000

EDR-3000

FP-4000

FP-5000

FP-6000

MP-3000

MP-4000

MD-3000

VR-300

DP-300

V3-T9-207

V3-T9-226

V3-T9-180

V3-T9-172

V3-T9-162

V3-T9-188

V3-T9-198

V3-T9-204

V3-T9-217

V3-T9-221 V3-T9-237

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ETR-4000

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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V3-T9-161

9.4
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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Contents

Feeder Protection FP-6000

Description

9

Page

Product Selection Guide . . . . . . . . . . . . . . . . . . . .
FP-6000 Feeder Protection
Features, Benefits and Functions . . . . . . . . . . .
Standards and Certifications . . . . . . . . . . . . . . .
Catalog Number Selection . . . . . . . . . . . . . . . .
Product Selection . . . . . . . . . . . . . . . . . . . . . . .
Technical Data and Specifications . . . . . . . . . . .
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . .
FP-5000 Feeder Protection . . . . . . . . . . . . . . . . . .
FP-4000 Feeder Protection . . . . . . . . . . . . . . . . . .
MP-3000 Motor Protection . . . . . . . . . . . . . . . . . .
MP-4000 Motor Protection . . . . . . . . . . . . . . . . . .
MD-3000 Motor/Generator Differential Relay . . . .
Digitrip 3000 . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
VR-300 Multifunctional Voltage Relay . . . . . . . . . .
DP-300 Current Differential Protection Relay . . . . .
EDR-3000 Feeder Protection . . . . . . . . . . . . . . . . .
ETR-4000 Transformer Protection Relay . . . . . . . .
Ground Fault Relay. . . . . . . . . . . . . . . . . . . . . . . . .
Universal RTD Module . . . . . . . . . . . . . . . . . . . . . .
IQ 125 Volt DC Power Supply. . . . . . . . . . . . . . . . .

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V3-T9-158
V3-T9-163
V3-T9-164
V3-T9-165
V3-T9-165
V3-T9-166
V3-T9-171
V3-T9-172
V3-T9-180
V3-T9-188
V3-T9-198
V3-T9-204
V3-T9-207
V3-T9-217
V3-T9-221
V3-T9-226
V3-T9-237
V3-T9-250
V3-T9-254
V3-T9-258

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FP-6000 Feeder Protection

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Product Description
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Microprocessor-based
protection with monitoring
and control for medium
voltage main and feeder
applications
Current, voltage, frequency
and power protection for
electric power distribution
systems
Complete metering of
voltage, currents, power,
energy, minimum/
maximum and demand
functions
Programmable logic control
functions for main-tie-main
and main-main transfer
schemes
Trip logs, event logs and
waveform capture for
better fault analysis and
system restoration
Data Logger to provide
energy usage profiles for
better planning, utilization
and energy usage
Compact, drawout case
design or fixed case design
Meets ANSI and UL

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V3-T9-162

Application Description
Eaton’s FP-6000 Protection
Relay provides complete threephase and ground overcurrent,
voltage, frequency and power
protection plus metering in
a single, compact drawout
case. It may be used as a
reclosing relay; primary
protection on feeders; mains
and tie circuit breaker
applications; or as backup
protection for transformers,
high voltage lines and
differential protection.
The FP-6000 takes full
advantage of its
microprocessor technology,
providing the user new
freedom and a wealth of datagathering features. The relay
performs self-checking of all
major hardware and firmware
protection elements to ensure
their operation in the event of a
system or component electrical
failure or fault. Protection
functions are well suited for
main and distribution feeder
circuit applications.
Programmable logic control
functions make the FP-6000
relay ideally suited for main-tiemain and main 1/main two
transfer schemes.

Volume 3—Power Distribution and Control Assemblies

The FP-6000 is the only relay in
its class that offers a flexible,
yet simple reclosing control. Its
compact design makes it ideal
for polemounted recloser
controls. The zone interlocking
feature can be utilized for bus
protection instead of an
expensive and complicated bus
differential (87B) scheme. The
FP-6000 works directly with
the FP-5000, FP-4000, Digitrip®
3000 and Digitrip MV relays.
The breaker failure protection
provides faster remote backup
clearing times for stuck breaker
operation. In addition to the
breaker failure protection, the
FP-6000 can be programmed to
detect residual current when
the breaker is open to detect
flashover conditions. The
FP-6000 provides trip circuit
monitoring and alarming
features. It continually monitors
the trip circuit for continuity
and readiness to trip. Open
and close pushbuttons are
conveniently located on the
front of the relay for local
breaker operation.

CA08100004E—November 2013

When an electrical fault
or disturbance occurs, the
FP-6000 begins to store the
following in non-volatile
memory:
●

●
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Voltage and current
sampled data
Calculated values
Status of internal protection
functions, logic, contact
inputs and outputs

Retrieval and viewing of the
data is easy, aiding in the quick
analysis and restoration of your
electric power system.
When the FP-6000 isn’t
responding to disturbances in
the power system, it’s
providing valuable metering
information at the relay and
remotely. It provides energy
usage and demand reading,
and can alarm when usage
reaches a set value. Power
factor measurements can be
used for cap bank switching
to control kVAR demand.
Onboard data trending can
provide load profiles for up
to 40 days.

www.eaton.com

Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

9.4

Features, Benefits and Functions
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Complete protection,
metering and control in
a single compact case to
reduce panel space,
wiring and costs
Flexible current, voltage
and frequency protection
and programmability to
cover a broad range of
applications while
simplifying relay ordering
and reducing inventory
Integral test function
reduces maintenance
time and expense
Relay self-diagnostics and
reporting improves uptime
and troubleshooting
Breaker trip circuit
monitoring improves the
reliability of the breaker
operation
Programmable LEDs and
logic control features that
can replace and eliminate
external auxiliary relays,
timers, light and wiring
Zone selective interlocking
improves coordination and
tripping times and saves
money compared to a
traditional bus differential
scheme
Trip and event recording
in non-volatile memory
provides detailed
information for analysis
and system restoration
256 cycles of waveform
capture aids in post fault
analysis (viewable using
PowerNet and
NPWAVEFORM
component
Front RS-232 port and
PowerPort software
provides local computer
access and a user-friendly,
Windows-based interface
for relay settings, and
configuration and data
retrieval
Drawout case design
for quick and easy relay
removal and replacement
Breaker open/close
control from relay
faceplate or remotely
via communications
Remote communications
to Eaton PowerNet
monitoring system or PC

Free PowerPort utility
software for local PC
interface to the FP-6000 for
relay settings, monitoring
and control
The protection functions are
listed below and shown on
Page V3-T9-168.
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The FP-6000 also provides
the following protective
features:
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The FP-6000 provides phase
overcurrent (forward, reverse
or both):
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Two-stage instantaneous
with timers (50P-1 and
50P-2)
Inverse time overcurrent
(51P)
Directional control (67P)
10 standard curves
Instantaneous or time
delay reset
Voltage restrained inverse
time overcurrent (51P2)

The FP-6000 provides two
ground overcurrent elements,
one measured (IX) and one
calculated (IR):

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Independent measured
ground or neutral
directional overcurrent
elements:
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Two-stage
instantaneous with
timers (50X-1 and 50X-2)
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Inverse time overcurrent
(51X)
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Ground directional
polarizing (67N) -3vo and
negative sequence
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10 standard curves
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Instantaneous or time
delay reset

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Breaker failure (50BF)
Phase unbalance negative
sequence overcurrent
(46-1, 46-2)
Phase voltage unbalance
and sequence protection
(47-1, 47-2)
Main 3-phase under/
overvoltage (27M-1,
27M-2, 59M-1, 59M-2)
Under/overfrequency
(81U-1, 81U-2, 81O-1,
81O-2)
Auxiliary single-phase
under/overvoltage (27A-1,
27A-2, 59A-1, 59A-2)
Neutral voltage (59N-1,
59N-2)
Apparent and
displacement power factor
(55A, 55D)
Forward/reverse power
protection (32-1, 32-2,
32-3)
Forward/reverse VAR
protection (32V-1, 32V-2,
32V-3)
Thermal Protection (49DT,
49MT, 49DA, 49MA)
Sync check (25)
Zone interlocking for bus
protection (87B). The
FP-6000 feeder relay
includes a zone selective
interlocking feature that can
be used with other Eaton
devices like the Digitrip
3000 overcurrent relay

The FP-6000 provides the
following metering functions:

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Independent calculated
ground or neutral
directional overcurrent
elements:
●
Two-stage
instantaneous with
timers (50R-1 and
50R-2)
●
Inverse time overcurrent
(51R)
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Ground directional
polarizing (67N) –3vo,
I pol and negative
sequence
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10 standard curves
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Instantaneous or time
delay reset

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Amperes (rms, phasor
and sequence)
Amperes demand and
peak demand.
Volts (rms, phasor and
sequence).
VA and VA demand
Watts and kW demand and
peak demand.
Forward/reverse/net kWh
Vars and kVAR demand
and peak demand
Lead/lag/net kVARh
Power factor
Frequency
Voltage and current %THD
and magnitude THD
RTD

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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The FP-6000 provides the
following monitoring and data
recording functions that
enhance the security of the
protection system and
provides useful information
for scheduling maintenance:

9

Trip circuit monitoring
Breaker wear (accumulated
interrupted current)
Waveform capture
(256 cycles total, up to
16 events)
Fault data logs (up to
16 events).
Sequence of events report
(up to 100 events)
Clock (1ms stamping)

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The FP-6000 provides
standard control functions
plus userconfigurable custom
control capabilities. This logic
can be used for applications
such as main-tie-main
transfer schemes.
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Minimum/maximum
recording with date/
time stamp
Trending (load profile
over time)

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Remote open/close.
Optional local open/close
Programmable I/O
Programmable logic gates
and timers
Multiple setting groups
(up to four)
Bus transfer logic
Cold load pickup
Loss of potential
(PT blown fuses)
Autoreclose Function (79)
Auto Zone Coordination

The FP-6000 supports the
following communication
options:
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Local HMI
Password protected
Addressable
Front RS-232 port
Rear RS-485 port
Rear FSK port
Protocols:
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INCOM
●
Modbus RTU

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www.eaton.com

V3-T9-163

9.4

Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Standards and Certifications

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Communication Software
Eaton provides two types
of communication software.
The first is PowerPort. It runs
on a PC or laptop for easy
access to a single relay
to change set points or
configuration and to view
metered values and stored
data. PowerPort is free and
can be downloaded from
the Eaton Web site at
the following URL:
www.eaton.com; search
for “PowerPort.”

The second package is
PowerNet. PowerNet is a
power management software
package that is designed
for continuous, remote
monitoring of many devices.
It provides all the functionality
of PowerPort plus additional
functions such as billing,
trending and graphics.
Contact your local Eaton
representative for more
information on PowerNet
software.

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PowerPort and PowerNet Protection Overview Screen

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Compliance
●
UL recognized, File #
E154862 (FP6200-00 5A
CT model only)
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UL 1053 (1994) recognized
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ANSI C37.90 (1989)
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EN 55011 (1991)
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EN 61000-6-2 (1999)

Emission Tests
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EN 55011 (1991): Group 1
Class A (CISPR-11,
Class A)
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FCC 47 CFR Chapter 1:
Part 15 Subpart b Class A
Immunity Tests
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ANSI C37.90.1 (1989):
surge withstand capability
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ANSI C37.90.2 (1995):
EMI immunity to 35 V/m
●
EN 61000-4-2 (1995):
ESD Rating of 8 kV
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EN 61000-4-3 (1997):
radiated EM field at 10 V/m
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EN 61000-4-4 (1995): fast
transient burst at 2 kV
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EN 61000-4-5 (1995):
surge immunity test
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EN 61000-4-6 (1996):
conducted RF at 10 V/m
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EN 61000-4-8: power
frequency magnetic
field immunity
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EN 61000-4-11 (1994):
voltage dips and variations

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

9.4

Reference Information
Description

Style Number

Pub Number

Instruction booklet

66A2347H01

IB02602004E

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Catalog Number Selection

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FP-6000 Feeder Protection

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FP6 2 00 - 0 1

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Current Range
2 = 5 Amperes
3 = 1 Ampere

Packaging
0 = Drawout

Control Voltage
0 = 48–125 Vac/Vdc
1 = 100–240 Vac/Vdc

Communications Protocol
0 = INCOM
1 = Modbus RTU

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Product Selection
FP-6000

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FP-6000 Catalog Numbers
Option
Description

Style
Number

Catalog
Number

5A CT
48–125 Vdc,
100–120 Vac power supply
Standard communication board

66D2167G01

FP6200-00

1A CT
48–125 Vdc,
100–120 Vac power supply
Standard communication board

66D2167G02

5A CT
100–250 Vdc,
100–240 Vac power supply
Standard communication board

66D2167G04

FP6200-10

1A CT
100–250 Vdc,
100–240 Vac power supply
Standard communication board

66D2167G05

FP6300-10

5A CT
100–250 Vdc,
100–240 Vac power supply
Modbus communication board

66D2167G06

FP6200-11

1A CT
100–250 Vdc,
100–240 Vac power supply
Modbus communication board

66D2167G07

FP6300-11

5A CT
48–125 Vdc,
100–120 Vac power supply
Modbus communication board

66D2167G08

FP6200-01

1A CT
48–125 Vdc,
100–120 Vac power supply
Modbus communication board

66D2167G09

FP6300-01

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FP6300-00

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

V3-T9-165

9.4
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Protective Functions
Phase and Ground
Overcurrent Protection
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Inverse characteristics:
Mod, Very, Extremely,
IECA, IECB, IECC, It, I2t,
I4t, Flat
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TOC (51) pickup range:
0.02 to 4.0 per unit in
0.01 steps

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Time multipliers: 0.05 to
10.0 in 0.01 steps

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IOC (50) pickup range:
0.1 to 20.0 per unit in
0.01 steps

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Protective Relays

Technical Data and Specifications

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Metering Devices, Protective Relays, Software and Connectivity

●

Pickup accuracy: ±1%
(at 0.1 to 2 per unit)

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Time delay: 0 to 9999
cycles in 1 cycle steps

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Time accuracy: ±3% or
±30 ms

●

Directional (67, 67N, 67G):
forward, reverse or both

Voltage Unbalance (47)
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Threshold (minimum
voltage) 1 to 100 volts in
1 volt steps
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% V2/V1: 2 to 40% in
1% steps
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Time delay: 0 to 9999
cycles in 1 cycle steps
Current Unbalance (46)
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Threshold (minimum
current) 0.1 to 20.0 per
unit in 0.01 steps
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% I2/I1: 2 to 40% in
1% steps
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Time delay: 0 to 9999
cycles in 1 cycle steps
Under/Overvoltage
Protection (27/59)
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Pickup range: 10 to
150 volts in 1 volt steps
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Time delay: 0 to 9999
cycles in 1 cycle steps

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Neutral Voltage Protection (59N)
Source: calculated,
measure
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Criterion: phasor, rms
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Pickup range: 5 to
250 volts in 1 volt steps
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Time delay: 0 to 9999
cycles in 1 cycle steps
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Under/Over Frequency
Protection (81U/O)
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Pickup range: 45 to 65 Hz
in 0.01 Hz steps
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Time delay: 0 to 9999
cycles in 1 cycle steps
Breaker Failure
Protection (50BF)
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Pickup range: 0.02 to
5.0 per unit in 0.01 steps
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Time delay: 0 to 9999
cycles in 1 cycle steps
Power Factor (55)
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Trigger/reset threshold:
–0.5 to 1 lag; 0.5 to 0.99
lead in 0.01 steps
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Time delay: 0 to 1000
seconds in 1 second steps
Power Protection (32)
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Direction: forward/reverse
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Criterion: over/under
●
Pickup range: 0.02 to 4 pu
Note: 1pu = 3 x CT secondary
rating x VT secondary rating for
wye; the square root of 3 x VT
secondary rating x CT secondary
rating for open delta.
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VAR Protection (32V)
●
Direction: forward/reverse
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Criterion: over/under
●
Pickup range: 0.02 to 4 pu
Note: 1pu = 3 x CT secondary
rating x VT secondary rating for
wye; the square root of 3 x VT
secondary rating x CT secondary
rating for open delta.
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Pickup accuracy: ±1.0%
Trip time accuracy:
0 to 2 cycles or 0.1%,
whichever is greater

Thermal Protection (49)
Pickup range: 0ºF to 390°F
or 0ºC to 199°C
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Time delay: 0.1 to
3600 seg
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Sync Check (25)
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Phase angle: 1 to 60°
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Slip frequency: 0.1 to 2 Hz
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Voltage differential: 1 to
100 volts
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Breaker close time: 0 to
9999 cycles
Discrete Inputs
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Number of contact
inputs: 8
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Rating: 48 Vdc wetting
voltage provided with
internal ground only
Output Contacts
●
Number of output
contacts: Five Form A
and two Form C

RS-232 Communications,
Front Panel
●
Baud rate: 38.4K, 19.2K,
9.6K
●
Connector standard 9-pin
subminiature, three-wire
●
Protocol: INCOM
RS-485 Communications,
Rear Panel
●
Baud rate: 19.2K, 9.6K
●
Protocol: Modbus RTU
Environmental Ratings
●
Operating temperature:
–40ºF to +140ºF (
–40ºC to +60ºC)
●
Storage temperature:
–40ºF to +185ºF
(–40ºC to +85ºC)
●
Humidity: 5% to 95%
relative humidity
(noncondensing)
●
Altitude: 0 to 6,350 feet
(0 to 1,935 m) above Mean
Sea Level

Rating of Output Contacts
●
Momentary:
●
Make 30A AC/DC for
0.25 seconds
●
Break 0.25A at 250 Vdc
(resistive)
●
Break 5A at 120/
240 Vac
●
Continuous:
●
5A at 120/240 Vac
●
5A at 30 Vdc
Logic and Control Functions
●
Six programmable logic
gates for AND, OR, NAND,
NOR operation
●
Two latching (flip/flop)
gates
●
Six timer gates provide
on/off delays
INCOM Communications
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Baud rate: 9600 fixed
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Maximum distance:
10,000 feet (3,048 m)
●
Protocol: INCOM

Pickup accuracy: ±1.0%
Trip time accuracy:
0 to 2 cycles or 0.1%,
whichever is greater

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Control Power
●
Control voltage:
●
48–125 Vdc/100–
120 Vac
●
100–250 Vdc/100–
240 Vac
●

●

●

Operating voltage:
●
38–150 Vdc/55–132 Vac
●
80–308 Vdc/55–264 Vac
Interruption ride-through
time:
●
83 ms at 120V, 60 Hz AC
●
250 ms at 110 Vdc/
300 ms at Vac
Power consumption:
●
20 VA maximum
●
22 VA maximum

Current Inputs
●
CT rating:
●
2 x ln at 5 amperes
continuous
●
3 x ln at 1 ampere
continuous
●
80 x ln at 5 amperes
for 1 second
●
100 x ln at 1 ampere
for 1 second
●

9.4

Voltage Transformer Inputs
●
Nominal: 0–120 Vac line
to common
●
Operating range:
0–144 Vac (+20%) line
to common
●
Burden: 1 mega ohm input
impedance

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Metering Accuracy
●
Input signal frequency
necessary for accurate
operation:
●
60 Hz Nominal,
57–63 Hz (5%)
●
50 Hz Nominal,
47–53 Hz (5%)
●

Frequency measurement
accuracy:
●
±0.02 Hz

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Clock accuracy:
●
Free running ±1 minute/
month at 77°F (25°C)
●
Automatically updated
by PowerNet host
when present

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CT burdens:
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< 0.25 VA at 5A
(nominal)
●
< 0.05 VA at 1A
(nominal)

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

V3-T9-167

9.4
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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

FP-6000 Specifications
Principal Parameters

Range

Accuracy

Current (amperes) Ia, Ib, Ic, Ir, Ix

0.02 to 20 per unit

at < 2 + CT rating: ±0.5% of CT rating
at > 2 + CT rating: ±0.5% of reading

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Sequence currents

0.02 to 20 per unit

±1% of nominal

Main voltage

0 to 160V

±0.5% of nominal ±0.2V

Sequence voltages

0 to 160V

±1% of nominal

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Auxiliary voltage

0 to 250V

±1% of nominal

Phase angle for I and V

0 to 360°

±1° at nominal voltage

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System frequency

45 to 65 Hz

±0.02 Hz

Ampere demand

0.02 to 20 per Unit

±0.5%

Watt demand

0 to 4000 MW

±1.0% FS for PF = unity 1

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±1.5% FS for PF = –0.5 to 0.5 1
Watts

0 to 4000 MW

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Watthours

0 to 999.999 MWh

—

VAR demand

0 to 4000 MVAR

±1.5% FS for PF = –0.5 to 0.5 1

9

VARs

0 to 4000 MVAR

—

VAR-hours

0 to 999.999 Mvarh

—

VA demand

0 to 4000 MVA

±1% FS 1

9

—

9

VA

0 to 4000 MVA

—

VA-hours

0 to 999,999 MVAh

—

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Apparent power factor

–1 to +1

±0.02 for load currents above 20% rated

Displacement power factor

–1 to +1

±0.02 for load currents above 20% rated

Total harmonic distortion

0 to 9999

±1%

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Other metering accuracy

±1%

Note
1 FS (Full Scale) = 3 x CT Rating x Nominal L-N Voltage.

Wiring Diagrams
FP-6000 One-Line Drawing

9
55A

9

42M

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9
79

9

49D

55O

32V
-1

32V
-2

32V
-3

Metering
V, I, F, PF,
W, VARS, VA
Energy
Demand
Min./Max.
% THD
Phasors
Data Logger
Waveform
SER
Fault Records
RTDs

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FP-6000
Load

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Protective Relays

9.4

FP-6000 Rear View and Terminal Designations

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1

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1

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FP-6000 Front View and Drawout Case Side View

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Note
1 Available with Modbus-RTU communications.

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9.4
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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

FP-6000 Typical Connection Drawing Using Wye PTs

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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

9.4

Dimensions
Approximate Dimensions in Inches (mm)

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FP-6000 Feeder Protection Relay

9

Height

Width

Depth

Shipping Weight
Lbs (kg)

7.72 (196.1)

0.80 (20.3)

12.5 (5.7)

5.30 (134.6)

6.90 (175.3)

12.5 (5.7)

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In Front of Panel
11.34 (288.0)

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9

Behind Panel
6.70 (170.2)

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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Contents

Feeder Protection FP-5000

Description

9

Page

Product Selection Guide . . . . . . . . . . . . . . . . . . . .
FP-6000 Feeder Protection . . . . . . . . . . . . . . . . . .
FP-5000 Feeder Protection
Features, Benefits and Functions . . . . . . . . . . .
Standards and Certifications . . . . . . . . . . . . . . .
Catalog Number Selection . . . . . . . . . . . . . . . .
Technical Data and Specifications . . . . . . . . . . .
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . .
FP-4000 Feeder Protection . . . . . . . . . . . . . . . . . .
MP-3000 Motor Protection . . . . . . . . . . . . . . . . . .
MP-4000 Motor Protection . . . . . . . . . . . . . . . . . .
MD-3000 Motor/Generator Differential Relay . . . .
Digitrip 3000 . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
VR-300 Multifunctional Voltage Relay . . . . . . . . . .
DP-300 Current Differential Protection Relay . . . . .
EDR-3000 Feeder Protection . . . . . . . . . . . . . . . . .
ETR-4000 Transformer Protection Relay . . . . . . . .
Ground Fault Relay. . . . . . . . . . . . . . . . . . . . . . . . .
Universal RTD Module . . . . . . . . . . . . . . . . . . . . . .
IQ 125 Volt DC Power Supply. . . . . . . . . . . . . . . . .

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V3-T9-158
V3-T9-162
V3-T9-173
V3-T9-175
V3-T9-175
V3-T9-176
V3-T9-179
V3-T9-180
V3-T9-188
V3-T9-198
V3-T9-204
V3-T9-207
V3-T9-217
V3-T9-221
V3-T9-226
V3-T9-237
V3-T9-250
V3-T9-254
V3-T9-258

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FP-5000 Feeder Protection

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Product Description
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●

Microprocessor-based
protection with monitoring
and control for medium
voltage main and feeder
applications
Current, voltage, frequency
and power protection for
electric power distribution
systems
Complete metering of
voltage, currents, power,
energy, minimum/
maximum and
demand functions
Programmable logic control
functions for main-tie-main
transfer schemes
Trip logs, event logs and
waveform capture for
better fault analysis and
system restoration
Data Logger to provide
energy usage profiles for
better planning, utilization
and energy usage
Compact, drawout
case design
Meets ANSI, CE and
CSA standards
Multiple settings groups
ANSI, IEC and thermal
protection curves for
greater flexibility

V3-T9-172

Application Description
Eaton’s FP-5000 Feeder
Protection relay provides
complete three-phase and
ground overcurrent and
voltage protection plus
metering in a single, compact
drawout case. It may be
used as primary protection
on feeders, mains and tie
circuit breaker applications,
and as backup protection
for transformers, high
voltage lines and differential
protection. The relay is most
commonly used on medium
voltage switchgear
applications.

the FP-5000 relay ideally
suited for main-tie-main
and main 1/main 2 transfer
schemes.

The FP-5000 takes
full advantage of its
microprocessor technology
providing the user new
freedoms and a wealth of
data-gathering features. The
relay performs self-checking
of all major hardware and
firmware protection elements
to ensure their operation in
the event of a system or
component electrical failure
or fault. Protection functions
are well suited for main and
distribution feeder circuit
applications. Programmable
logic control functions make

The multiple settings
groups can be utilized for
arc flash mitigation when
an alternative setting group,
set to have instantaneous
elements only is activated
using a selector switch and
the programmable I/O in the
FP-5000.

Volume 3—Power Distribution and Control Assemblies

The Zone Interlocking feature
can be utilized for bus
protection instead of an
expensive and complicated
bus differential (87B)
scheme. The FP-5000 works
directly with Eaton’s Digitrip
3000 and Digitrip MV relays.
New breaker failure logic
provides faster remote
backup clearing times for
stuck breaker operation.

conveniently located on the
front of the relay for local
breaker operation.
Loss-of-vacuum monitoring
is activated when the breaker
is open. Residual current
is monitored and alarmed
if detected.
When an electrical fault
or disturbance occurs, the
FP-5000 begins to store the
following in non-volatile
memory:
●

●
●

Voltage and current
sampled data
Calculated values
Status of internal protection
functions, logic, contact
inputs and outputs

Retrieval and viewing of the
data is easy, aiding in the quick
analysis and restoration of your
electric power system.

The FP-5000 provides trip
and close circuit monitoring
and alarming features. It
continually monitors the
complete trip and close
circuits for continuity and
readiness to trip. Open
and close pushbuttons are
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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

9.4

Features, Benefits and Functions
When the FP-5000 isn’t
responding to disturbances
in the power system, it’s
providing valuable metering
information at the relay and
remotely. It provides energy
usage and demand reading,
and can alarm when usage
reaches a set value. Power
factor measurements can be
used for cap bank switching
to control kVAR demand.
Onboard data trending can
provide load profiles for up
to 40 days.
The protection functions are
listed below and shown on
Page V3-T9-177.
●

●

●

●

●

Complete protection,
metering and control in a
single compact case to
reduce panel space, wiring
and costs
Flexible current, voltage
and frequency protection
and programmability to
cover a broad range of
applications while
simplifying relay ordering
and reducing inventory
Integral test function
reduces maintenance time
and expense
Relay self-diagnostics and
reporting improves uptime
and troubleshooting
Breaker trip circuit
monitoring improves the
reliability of the breaker
operation

9
●

●

●

●

●

●

●

●

●

Programmable logic control
features that can replace
and eliminate external
auxiliary relays, timers
and wiring
Zone-selective interlocking
improves coordination and
tripping times and saves
money compared to a
traditional bus differential
scheme
Trip and event recording
in non-volatile memory
provides detailed
information for analysis and
system restoration
256 cycles of waveform
capture aids in post fault
analysis
Front RS-232 port and
PowerPort software
provides local computer
access and a user-friendly,
Windows®-based interface
for relay settings, and
configuration and data
retrieval
Drawout case design for
quick and easy relay
removal and replacement
Breaker open/close control
from relay faceplate or
remotely via
communications
Remote communications
to Eaton’s PowerNet
monitoring system or PC
Free PowerPort utility
software for local PC
interface to the FP-5000 for
relay settings, monitoring
and control

Phase Overcurrent (Forward,
Reverse or Both)
●
Two-stage instantaneous
with timers (50P-1 and
50P-2)
●
Two inverse time
overcurrent (51P-1 and
51P-2)
●
Directional control
●
10 standard curves
●
Instantaneous or time
delay reset
●
Voltage restrained time
overcurrent (51VR)
●
Two independent ground
directional overcurrent
elements, one measured
(IX) and one calculated (IR)
●
Two-Stage
instantaneous with
timers (50X-1 and 50X-2)
(50R-1 and 50R-2)
●
Inverse time overcurrent
(51X and 51R)
●
Ground directional
polarizing (67N) –3vo, Ipol,
negative sequence
●
10 standard curves
●
Instantaneous or time
delay reset
●
Voltage restrained time
overcurrent (51VR)
●
●

●

●

●

●

●

●
●
●

Auxiliary single-phase
under/over-voltage (27A-1,
27A-2, 59A-1, 59A-2)
Under/over frequency
(81U-1, 81U-2, 81O-1,
81O-2)
Reverse/forward power
(32-1, 32-2)
Sync check (25)
Power factor (55)
Zone interlocking for bus
protection (87B). The
FP-5000 feeder relay
includes a zone selective
interlocking feature that
can be used with other
Eaton devices like the
Digitrip 3000 overcurrent
relay

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Breaker failure (50BF)
Phase unbalance negative
sequence overcurrent
(46-1, 46-2)
Phase voltage unbalance
and sequence protection
(47-1, 47-2)
Main three-phase under/
overvoltage (27M-1,
27M-2, 59M-1, 59M-2)

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Protective Relays

The FP-5000 provides the
following metering functions:

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Metering Devices, Protective Relays, Software and Connectivity

●

Amperes (rms, phasor and
sequence)
Amperes demand and
peak demand
Volts (rms, phasor and
sequence)
VA and VA demand
Watts and kW demand and
peak demand
Forward/reverse/net kWh
VARs and kVAR demand
and peak demand
Lead/lag/net kVARh
Power factor
Frequency
Voltage and current
%THD and magnitude THD
Minimum/maximum
recording with date/
time stamp
Trending (load profile
over time)

The FP-5000 provides the
following monitoring and data
recording functions that
enhance the security of the
protection system and
provides useful information
for scheduling maintenance:

●

●

●

●

The FP-5000 provides
standard control functions
plus user-configurable
custom control capabilities.
This logic can be used for
applications such as main-tiemain transfer schemes.
●
●
●

●

●
●
●

●
●
●

Trip circuit monitoring
Close circuit monitoring
Loss-of-vacuum monitoring
Breaker wear (accumulated
interrupted current)

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●
●

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Communication Software
Eaton provides two types of
communication software. The
first is PowerPort. It runs on a
PC or laptop for easy access to
a single relay to change set
points or configuration and to
view metered values and
stored data. PowerPort is free
and can be downloaded from
www.eaton.com; search for
‘PowerPort,’ then click the
download search result.

The second package is
PowerNet. PowerNet is a
power management software
package that is designed for
continuous, remote monitoring
of many devices. It provides all
the functionality of PowerPort
plus additional functions such
as billing, trending and
graphics. Contact your local
Eaton representative for more
information on PowerNet
software.

Remote open/close
Programmable I/O
Programmable logic gates
and timers
Multiple setting groups
(up to four)
Bus transfer logic
Cold load pickup
Loss of potential
(PT blown fuses)

The FP-5000 supports the
following communication
options:

●
●

Waveform capture
(256 cycles total, up to
16 events)
Fault data logs (up to
16 events)
Sequence of events report
(up to 100 events)
Clock

●

Local HMI
Password protected
Addressable
Local communication port
Remote communication
port:
●
FSK
●
RS-232
●
RS-485
Protocols:
●
INCOM
●
Modbus
Configuration software

PowerPort and PowerNet Protection Overview Screen

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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

9.4

Standards and Certifications
Compliance
●
UL Recognized,
File # E154862
●
UL 1053 (1994) recognized
●
ANSI C37.90 (1989)
●
EN 55011 (1991)
●
EN 61000-6-2 (1999)
Emission Tests
●
EN 55011 (1991)—Group 1
Class A (CISPR-11,
Class A)
●
FCC 47 CFR Chapter 1—
Part 15 Subpart b Class A

9
Immunity Tests
●
ANSI C37.90.1 (1989)—
Surge Withstand Capability
●
ANSI C37.90.2 (1995)—
EMI Immunity to 35V/m
●
EN 61000-4-2 (1995)—
ESD Rating of 8 kV
●
EN 61000-4-3 (1997)—
Radiated EM Field at
10V/m
●
EN 61000-4-4 (1995)—Fast
Transient Burst at 2 kV
●
EN 61000-4-5 (1995)—
Surge Immunity Test

●

●

●

EN 61000-4-6 (1996)—
Conducted RF at 10V/m
EN 61000-4-11 (1994)—
Voltage Dips and Variations
EN 61000-4-8—Power
Frequency Magnetic
Field Immunity

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Catalog Number Selection

9

FP-5000 Feeder Protection

9

FP5 2 00 - 0 1

9
Current Range
2 = 5 Amperes
3 = 1 Ampere

Packaging
0 = Drawout
1 = Fixed case

Control Voltage
0 = 48–125 Vac/Vdc
1 = 100–240 Vac/Vdc

9

Communications Protocol
0 = INCOM
1 = Modbus

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9.4
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Control Power
●
Control voltage:
●
48–125 Vac/Vdc
●
100–240 Vac/Vdc
●
Operating voltage:
●
55–264 Vac
●
38–300 Vdc
●
Interruption ride-through
time: 20 cycle interruption
of nominal ac supply
●
Power consumption: 20 VA
maximum
Current Inputs
●
Nominal (In): 1A or 5A
●
CT rating:
●
2 x In continuous
●
80 x In for 1 second
●

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9

Metering Accuracy
●
Phase current:
●
±0.5% or ±0.025A from
0.02–20 per unit fully
offset current waveform
●

9
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9

CT burdens:
●
< 0.25 VA at 5A
(nominal)
●
< 0.05 VA at 1A
(nominal)

Voltage Transformer Inputs
●
Nominal: 120 Vac
●
Operating range: 69–
150 Vac
●
Burden:
●
<0.015 at 120 Vac
●
1 megaohm

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9

Protective Relays

Technical Data and Specifications

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9

Metering Devices, Protective Relays, Software and Connectivity

●

Ground current:
●
±0.5% of full scale (In)
from 0.02–2.0 per unit
fully offset current
waveform
Phase voltage: ±0.5% or
±0.2V from 0–160 Vac
Frequency measurement
accuracy: ±0.02 Hz
Phase angle: ±1ºC
Power metering accuracy:
±1.5%
Metering accuracy
temperature range: 32ºF to
122ºF (0ºC to 50ºC)
Temperature range: ±5%
for operation below 32ºF
(0ºC) and above 122ºF
(50ºC)
Relay outputs:
●
2 Form C, NO and NC
●
5 Form A, NO only

V3-T9-176

●

Input signal frequency
necessary for accurate
operation:
●
60 Hz nominal, 57–63 Hz
(±5%)
●
50 Hz nominal, 47–53 Hz
(±5%)

●

Clock accuracy:
●
Free running ±1 minute/
month at 25ºC
●
Clock automatically
updated by PowerNet
host when present

Protective Functions
Phase and Ground
Overcurrent Protection
●
Inverse characteristics:
Mod, Very, Extremely,
IECA, IECB, IECC, It, I2t,
I4t, Flat
●
TOC (51) pickup range:
0.1–4.0 per unit in 0.01
steps
●
Time multipliers: 0.05–10.0
in 0.01 steps
●
IOC (50) pickup range: 0.1–
20.0 per unit in 0.01 steps
●
Pickup accuracy: ±1%
(at 0.1–2 per unit)
●
Time delay: 0–9999 cycles
in 1 cycle steps
●
Time accuracy: ±3% or
±30 ms
●
Directional (67, 67N, 67G):
forward, reverse or both
Voltage Unbalance (47)
●
Threshold (minimum
voltage) 1–100 volts in
1 volt steps
●
% V2/V1: 4–40% in
1% steps
●
Time delay: 0–9999 cycles
in 1 cycle steps
Current Unbalance
●
Threshold (minimum
current) 0.1–20.0 per unit
in 0.01 steps
●
% I2/I1: 4–40% in
1% steps
●
Time delay: 0–9999 cycles
in 1 cycle steps
Under/Overvoltage Protection
●
Pickup range: 10–150 volts
in 1 volt steps
●
Time delay: 0–9999 cycles
in 1 cycle steps

Volume 3—Power Distribution and Control Assemblies

Under/Over Frequency
Protection
●
Pickup range: 45–65 Hz in
0.01 Hz steps
●
Time delay: 0–9999 cycles
in 1 cycle steps
Breaker Failure Protection
●
Pickup range: 0.1–5.0 per
unit in 0.01 steps
●
Time delay: 0–9999 cycles
in 1 cycle steps
Power Protection (32)
●
Forward/reverse:
over/under
●
Pickup accuracy: ±1.0%
●
Trip time accuracy:
0 to 12 cycles or 0.1%,
whichever is greater
Sync Check (25)
●
Phase angle: 1 to 60°C
●
Slip frequency: 0.1 to 2 Hz
●
Voltage differential: 1 to
100 volts
●
Breaker close time: 0 to
9999 cycles
Power Factor
●
Trigger/reset threshold: 0.5
lag to 0.5 lead in 0.01 steps
●
Time delay: 0–1000
seconds in 1 second steps
Discrete Inputs
●
Number of contact
inputs: 8
●
Rating: 48 Vdc wetting
voltage provided with
internal ground only

Logic and Control Functions
●
Six programmable logic
gates for AND, OR, NAND,
NOR operation
●
Two latching (flip/flop)
gates
●
Six timer gates provide
on/off delays
INCOM Communications
●
Baud rate: 9600 fixed
●
Maximum distance:
10,000 feet (3,048m)
●
Protocol: INCOM
RS-485 Communications,
Rear Panel
●
Baud rate: 19.2K, 9.6K
●
Protocol: Modbus RTU
RS-232 Communications,
Front Panel
●
Baud rate: 38.4K, 19.2K,
9.6K
●
Connector standard 9-pin
subminiature, three-wire
●
Protocol: INCOM
Environmental Ratings
●
Operating temperature:
–0ºF to +140ºF (–40ºC to
+60ºC) Product tested to
+185ºF (+85ºC)
●
Storage temperature:
–40ºF to +185ºF (–40ºC to
+85ºC)
●
Humidity: 5–95% relative
humidity (noncondensing)
●
Altitude: 0–6350 feet
(0–1935m) above Mean Sea
Level

Output Contacts
●
Number of output
contacts: Five Form A and
two Form C
Rating of Output Contacts
●
Momentary:
●
Make 30A AC/DC for
0.25 seconds
●
Break 0.25A at 250 Vdc
(resistive)
●
Break 5A at 120/240 Vac
●
Continuous:
●
5A at 120/240 Vac
●
5A at 30 Vdc

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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

9.4

Wiring Diagrams

9

FP-5000 One-Line Drawing

9
9
9
Metering
V, I, F, PF,
W, VARS, VA
Energy
Demand
Min./Max.
% THD
Phasors
Data Logger
Waveform
SER
Fault Records

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FP-5000

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Load

9

FP-5000 Rear View and Terminal Designations

9
TB1

TB2

Supply
101 Power
Input
(+)
Power Supply
102 Input
(–)
RLY Healthy
103
Com.
RLY Healthy
104
N.O.
RLY Healthy
105
N.C.
106
Alarm Com.

201 C In 1

107

Alarm N.O.

207 C In 6

108

Alarm N.C.

208 C In 7

109

RLY 5 Com.

209 C In 8

110

RLY 5 N.O.

210 C In Source 2

111

RLY 4 Com.

211 Not Used

112

RLY 4 N.O.

212 Not Used

113

RLY 3 Com.

213 VA(+) Main

114

RLY 3 N.O.

214 VB(+) Main

115

Trip 2 Com.

215 VC(+) Main

116

Trip 2 N.O.

216 Vx1 Aux

117

Trip 1 Com.

217 Vx2 Aux

118

Trip 1 N.O.

202 C In 2
203 C In 3
204 C In 4
205 C In Source 1
206 C In 5

Factory Connection Only TB3
TB2

TB1

201
202
203
204
205
206
207
208
209
210
Red 211
White 212
213
214
215
216
217
218

101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118

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TB3

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J1-1 PowerNet
J1-2 PowerNet

9

J1-3 PowerNet Shield
J2-1 Accessory Bus

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J2-2 Accessory Bus
Bus
J2-3 Accessory
Shield

9

J3-1 Zone Out

9

J3-2 Zone Com.
J3-3 Zone Shield

9

J3-4 Zone In
J3-5 Zone Com.

9

J4-1

9

J4-2
J4-3

9

J5-1 RS485(+)

9

J5-2 RS485(-)
TB4

218 Vg Main

J5-3 RS485com

9

J5-4 RS485shield

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A1

B1

C1

X1

N.C. 1

A2

B2

C2

X2

N.C. 2

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FP-5000 Typical Connection Drawing Using Wye PTs
ac/dc
Power Supply
(+)

C

B

A

C

B

A

48 – 125 Vac/dc or
100 – 240 Vac/dc

(–)

9

FP-5000

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9

2

Relay
Failure
Alarm

9

TB1

TB2

Supply
101 Power
Input
(+)
Power Supply
102 Input
(–)
RLY Healthy
103
Com.
RLY Healthy
104
N.O.
RLY Healthy
105
N.C.

C In 1

201

C In 2

202

C In 3

203

C In 4

204

C In Source 1

205

Alarm Com.

C In 5

206

107

Alarm N.O.

C In 6

207

108

Alarm N.C.

C In 7

208

109

RLY 5 Com.

C In 8

209

110

RLY 5 N.O.

C In Source 2

210

111

RLY 4 Com.

Not Used

211

112

RLY 4 N.O.

Not Used

212

113

RLY 3 Com.

VA(+) Main

213

114

RLY 3 N.O.

VB(+) Main

214

115

Trip 2 Com.

VC(+) Main

215

116

Trip 2 N.O.

VX1 Aux

216

117

Trip 1 Com.

VX2 Aux

217

118

Trip 1 N.O.

Vg Main

218

106
Breaker
Alarm

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Breaker
Close

3

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9
52A

9

52
TC

52A

1

52A

52B
52B TOC

5

9
Ground

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X2

9

X1

A2

A1

B2

B1

C2

C1

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4

9
Load

52

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1

For maximum breaker diagnostics use both 52A and 52B contacts.
Some diagnostics are not available if only one of the two is used.

9

2

A relay failure alarm should provide immediate attention as circuit
is no longer protected. Relay failure output is normally energized.

9

3

FP-5000 can initiate a breaker close via the front panel interface
and/or remote activation through communication or discrete input.

4

Residual connection may be used in place of zero sequence CT.

5

Delta or open delta PT connection may be used in place of wye-ground connection.

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

9.4

FP-5000 Front View and Drawout Case Side View

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9

Operational
Breaker Closed
Breaker Open

Feeder Protection
FP-5000

9
Reset

9
9

Monitor

View Setting

Log

Previous

9

Enter

Phase Trip
Alarm

Set

9

Status/Control

Ground Trip
Pickup

Other Trip
Auxiliary

9
9

Test

Close

9

Open

Breaker

9
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9

Dimensions
Approximate Dimensions in Inches (mm)

9

FP-5000 Feeder Protection Relay
Height

9

Width

Depth

Shipping Weight
Lbs (kg)

7.72 (196.1)

0.80 (20.3)

12.5 (5.7)

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5.30 (134.6)

6.90 (175.3)

12.5 (5.7)

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9

In Front of Panel
11.34 (288.0)
Behind Panel
6.70 (170.2)

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Protective Relays

Contents

Feeder Protection FP-4000

Description

9

Page

Product Selection Guide . . . . . . . . . . . . . . . . . . . .
FP-6000 Feeder Protection . . . . . . . . . . . . . . . . . .
FP-5000 Feeder Protection . . . . . . . . . . . . . . . . . .
FP-4000 Feeder Protection
Features, Benefits and Functions . . . . . . . . . . .
Standards and Certifications . . . . . . . . . . . . . . .
Catalog Number Selection . . . . . . . . . . . . . . . .
Technical Data and Specifications . . . . . . . . . . .
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MP-3000 Motor Protection . . . . . . . . . . . . . . . . . .
MP-4000 Motor Protection . . . . . . . . . . . . . . . . . .
MD-3000 Motor/Generator Differential Relay . . . .
Digitrip 3000 . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
VR-300 Multifunctional Voltage Relay . . . . . . . . . .
DP-300 Current Differential Protection Relay . . . . .
EDR-3000 Feeder Protection . . . . . . . . . . . . . . . . .
ETR-4000 Transformer Protection Relay . . . . . . . .
Ground Fault Relay. . . . . . . . . . . . . . . . . . . . . . . . .
Universal RTD Module . . . . . . . . . . . . . . . . . . . . . .
IQ 125 Volt DC Power Supply. . . . . . . . . . . . . . . . .

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V3-T9-158
V3-T9-162
V3-T9-172
V3-T9-181
V3-T9-183
V3-T9-183
V3-T9-184
V3-T9-187
V3-T9-188
V3-T9-198
V3-T9-204
V3-T9-207
V3-T9-217
V3-T9-221
V3-T9-226
V3-T9-237
V3-T9-250
V3-T9-254
V3-T9-258

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FP-4000 Feeder Protection

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Product Description
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●

Microprocessor-based
protection with monitoring
and control for medium
voltage main and feeder
applications
Current, voltage, frequency
and power protection for
electric power distribution
systems
Complete metering of
voltage, currents, power,
energy, minimum/
maximum and demand
functions
Programmable logic control
functions for main-tie-main
transfer schemes
Trip logs, event logs and
waveform capture for
better fault analysis and
system restoration
Data logger to provide
energy usage profiles for
better planning, utilization
and energy usage
Compact, drawout case
design
Meets ANSI, CE and CSA
standards
Multiple settings groups
ANSI, IEC and thermal
protection curves for
greater flexibility

V3-T9-180

Application Description
Eaton’s FP-4000 Feeder
Protection relay provides
complete three-phase and
ground overcurrent and
voltage protection plus
metering in a single, compact
drawout case. It may be used
as primary protection on
feeders, mains and tie circuit
breaker applications, and
as backup protection for
transformers, high voltage
lines and differential
protection. The relay is
most commonly used on
medium voltage switchgear
applications.
The FP-4000 takes full
advantage of its microprocessor technology
providing the user new
freedoms and a wealth of
ata-gathering features. The
relay performs self-checking
f all major hardware and
firmware protection elements
to ensure their operation in the
event of a system or
component electrical failure
or fault. Protection functions
are well suited for main and
distribution feeder circuit
applications. Programmable
logic control functions make
the FP-4000 relay ideally suited
for main-tie-main and main
1/main 2 transfer schemes.

Volume 3—Power Distribution and Control Assemblies

The Zone-Interlocking feature
can be utilized for bus
protection instead of an
expensive and complicated
bus differential (87B)
scheme. The FP-4000 works
directly with Eaton’s Digitrip
3000 and Digitrip MV relays.
New breaker failure logic
provides faster remote
backup clearing times for
stuck breaker operation.
The multiple settings groups
can be utilized for arc
flash mitigation when an
alternative setting group,
set to have instantaneous
elements only is activated
using a selector switch and
the programmable I/O in
the FP-4000.
The FP-4000 provides trip
and close circuit monitoring
and alarming features. It
continually monitors the
complete trip and close
circuits for continuity and
readiness to trip. Open and
close pushbuttons are
conveniently located on the
front of the relay for local
breaker operation.

CA08100004E—November 2013

Loss-of-vacuum monitoring
is activated when the breaker
is open. Residual current is
monitored and alarmed if
detected.
When an electrical fault
or disturbance occurs, the
FP-4000 begins to store the
following in non-volatile
memory:
●

●
●

Voltage and current
sampled data
Calculated values
Status of internal
protection functions, logic,
contact inputs and outputs

Retrieval and viewing of the
data is easy, aiding in the
quick analysis and restoration
of your electric power
system.

www.eaton.com

Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

9.4

Features, Benefits and Functions
When the FP-4000 isn’t
responding to disturbances
in the power system, it’s
providing valuable metering
information at the relay and
remotely. It provides energy
usage and demand reading,
and can alarm when usage
reaches a set value. Power
factor measurements can be
used for cap bank switching
to control kVAR demand.
Onboard data trending can
provide load profiles for up
to 40 days.
●

●

●

●

●

Complete protection,
metering and control in a
single compact case to
reduce panel space, wiring
and costs
Flexible current, voltage
and frequency protection
and programmability to
cover a broad range of
applications while
simplifying relay ordering
and reducing inventory
Integral test function
reduces maintenance time
and expense
Relay self-diagnostics and
reporting improves uptime
and troubleshooting
Breaker trip circuit
monitoring improves the
reliability of the breaker
operation

●

●

●

●

●

●

●

●

Programmable logic control
features that can replace
and eliminate external
auxiliary relays, timers
and wiring
Zone selective interlocking
improves coordination and
tripping times and saves
money compared to a
traditional bus differential
scheme
Trip and event recording
in non-volatile memory
provides detailed
information for analysis
and system restoration
256 cycles of waveform
capture aids in post fault
analysis
Front RS-232 port and
PowerPort software
provides local computer
access and a user-friendly,
WindowsT-based interface
for relay settings, and
configuration and data
retrieval
Breaker open/close control
from relay faceplate or
remotely via
communications
Remote communications
to Eaton PowerNet
monitoring system or PC
Free PowerPort utility
software for local PC
interface to the FP-4000 for
relay settings, monitoring
and control

The protection functions are
listed below and shown on
Page V3-T9-185.
Phase Overcurrent
Two-stage instantaneous
with timers (50P-1 and
50P-2)
●
Inverse time overcurrent
(51P-1)
●
10 standard curves
●
Instantaneous or time
delay reset
●
Two independent
directional overcurrent
elements, one measured
(IX) and one calculated (IR)
●
Two-stage
instantaneous with
timers (50X-1 and 50X-2)
(50R-1 and 50R-2)
●
Inverse time overcurrent
(51X and 51R)
●
10 standard curves
●
Instantaneous or time
delay reset
●
Breaker failure (50BF)
●
Phase unbalance negative
sequence overcurrent
(46-1, 46-2)
●
Phase voltage unbalance
and sequence protection
(47-1, 47-2)
●
Main three-phase under/
overvoltage (27M-1,
27M-2, 59M-1, 59M-2)

●

●

●

●
●

Auxiliary single-phase
under/overvoltage (27A-1,
27A-2, 59A-1, 59A-2)
Under/overfrequency
(81U-1, 81U-2, 81O-1,
81O-2)
Power factor (55)
Zone interlocking for bus
protection (87B). The
FP-4000 feeder relay
includes a zone selective
interlocking feature that
can be used with other
Eaton devices like the
Digitrip 3000 overcurrent
relay

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Protective Relays

The FP-4000 provides the
following metering functions:

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Metering Devices, Protective Relays, Software and Connectivity

●

Amperes (rms, phasor and
sequence)
Amperes demand and peak
demand
Volts (rms, phasor and
sequence)
VA and VA demand
Watts and kW demand
and peak demand
Forward/reverse/net kWh
VARs and kVAR demand
and peak demand
Lead/lag/net kVARh
Power factor
Frequency
Voltage and current
%THD and magnitude THD
Minimum/maximum
recording with date/time
stamp
Trending (load profile
over time)

The FP-4000 provides the
following monitoring and
data recording functions that
enhance the security of
the protection system and
provides useful information
for scheduling maintenance:
●
●
●
●

Trip circuit monitoring
Close circuit monitoring
Loss-of-vacuum monitoring
Breaker wear (accumulated
interrupted current)

●

●

●

●

The FP-4000 provides
standard control functions
plus user-configurable
custom control capabilities.
This logic can be used for
applications such as maintie-main transfer schemes.
●
●
●

●

●

Communication Software
Eaton provides two types
of communication software.
The first is PowerPort. It runs
on a PC or laptop for easy
access to a single relay to
change set points or
configuration and to view
metered values and stored
data. PowerPort is free and
can be downloaded from
www.eaton.com; search for
‘PowerPort,’ then click the
download search result.

The second package is
PowerNet. PowerNet is a
power management software
package that is designed for
continuous, remote monitoring
of many devices. It provides
all the functionality of
PowerPort plus additional
functions such as billing,
trending and graphics.
Contact your local Eaton
representative for more
information on PowerNet
software.

Remote open/close
Programmable I/O
Programmable logic gates
and timers
Multiple setting groups
(up to four)
Bus transfer logic

The FP-4000 supports the
following communication
options:
●
●
●
●
●

●

9
●

9

Waveform capture
(256 cycles total, up to
16 events)
Fault data logs (up to
16 events)
Sequence of events report
(up to 100 events)
Clock

Local HMI
Password protected
Addressable
Local communication port
Remote communication
port:
●
FSK
●
RS-232
●
RS-485
Protocols:
●
INCOM
●
Modbus
Configuration software

PowerPort and PowerNet Protection Overview Screen

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V3-T9-182

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

9.4

Standards and Certifications
Compliance
●
UL Recognized,
File # E154862
●
UL 1053 (1994) recognized
●
ANSI C37.90 (1989)
●
EN 55011 (1991)
●
EN 61000-6-2 (1999)
Emission Tests
●
EN 55011 (1991)—Group 1
Class A (CISPR-11,
Class A)
●
FCC 47 CFR Chapter 1—
Part 15 Subpart b Class A

9
Immunity Tests
●
ANSI C37.90.1 (1989)—
Surge Withstand Capability
●
ANSI C37.90.2 (1995)—EMI
Immunity to 35V/m.
●
EN 61000-4-2 (1995)—ESD
Rating of 8 kV
●
EN 61000-4-3 (1997)—
Radiated EM Field at 10V/m
●
EN 61000-4-4 (1995)—Fast
Transient Burst at 2 kV
●
EN 61000-4-5 (1995)—
Surge Immunity Test
●
EN 61000-4-6 (1996)—
Conducted RF at 10V/m

●

●

EN 61000-4-11 (1994)—
Voltage Dips and Variations
EN 61000-4-8—Power
Frequency Magnetic Field
Immunity

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Catalog Number Selection

9

FP-4000 Feeder Protection

9
9

FP4 2 01 - 0 1

9
Current Range
2 = 5 Amperes
3 = 1 Ampere

Packaging
1 = Fixed case

Control Voltage
0 = 48–125 Vac/Vdc
1 = 100–240 Vac/Vdc

9

Communications Protocol
0 = INCOM
1 = Modbus RTU

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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V3-T9-183

9.4
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Control Power
●

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Protective Relays

Technical Data and Specifications

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9

Metering Devices, Protective Relays, Software and Connectivity

●

●

Control voltage:
●
48–125 Vac/dc
●
100–240 Vac/dc
Operating voltage:
●
55–264 Vac
●
38–300 Vdc
Interruption ride-through
time: 20 cycle interruption
of nominal ac supply
Power consumption: 20 VA
maximum

Current Inputs
●
Nominal (In): 1A or 5A
●
CT rating:
●
2 x In continuous
●
80 x In for 1 second
●
CT burdens:
●
< 0.25 VA at 5A
(nominal)
●
< 0.05 VA at 1A
(nominal)
Voltage Transformer Inputs
●
Nominal: 120 Vac
●
Operating range:
69–150 Vac
●
Burden:
●
<0.015 at 120 Vac
●
1 megaohm
Metering Accuracy
●
Phase current:
●
±0.5% or ±0.025A from
0.02–20 per unit fully
offset current waveform
●
Ground current:
●
±0.5% of full scale (In)
from 0.02– 2.0 per unit
fully offset current
waveform
●
Phase voltage: ±0.5% or
±0.2V from 0–160 Vac
●
Frequency measurement
accuracy: ±0.02 Hz
●
Phase angle: ±1ºC
●
Power metering accuracy:
±1.5%
●
Metering accuracy
temperature range: 32ºF to
122ºF (0ºC to 50ºC)
●
Temperature range: ±5%
for operation below 32ºF
(0ºC) and above 122ºF
(50ºC)
●
Relay outputs:
●
2 Form C, NO and NC
●
5 Form A, NO Only

V3-T9-184

●

Input signal frequency
necessary for accurate
operation:
●
60 Hz nominal, 57–63 Hz
(±5%)
●
50 Hz nominal, 47–53 Hz
(±5%)
Clock accuracy:
●
Free running ±1 minute/
month at 77ºF (25ºC)
●
Clock automatically
updated by PowerNet
host when present

Protective Functions
Phase and Ground
Overcurrent Protection
●
Inverse characteristics:
Mod, Very, Extremely,
IECA, IECB, IECC, It, I2t,
I4t, Flat
●
TOC (51) pickup range: 0.1–
4.0 per unit in 0.01 steps
●
Time multipliers: 0.05–10.0
in 0.01 steps
●
IOC (50) pickup range: 0.1–
20.0 per unit in 0.01 steps
●
Pickup accuracy: ±1%
(at 0.1–2 per unit)
●
Time delay: 0–9999 cycles
in 1 cycle steps
●
Time accuracy: ±3% or
±30 ms
Voltage Unbalance (47)
●
Threshold (minimum
voltage) 1–100 volts in
1 volt steps
●
% V2/V1: 4–40% in 1%
steps
●
Time delay: 0–9999 cycles
in 1 cycle steps

Under/Overfrequency Protection
Pickup range: 45–65 Hz in
0.01 Hz steps
●
Time delay: 0–9999 cycles
in 1 cycle steps
●

Breaker Failure Protection
●
Pickup range: 0.1–5.0 per
unit in 0.01 steps
●
Time delay: 0–9999 cycles
in 1 cycle steps
Power Factor
●
Trigger/reset threshold: 0.5
lag to 0.5 lead in 0.01 steps
●
Time delay: 0–1000
seconds in 1 second steps
Discrete Inputs
●
Number of contact
inputs: 8
●
Rating: 48 Vdc wetting
voltage provided with
internal ground only
Output Contacts
●
Number of output
contacts: Five Form A
and two Form C

Under/Overvoltage Protection
●
Pickup range: 10–150 volts
in 1 volt steps
●
Time delay: 0–9999 cycles
in 1 cycle steps

Volume 3—Power Distribution and Control Assemblies

RS-232 Communications,
Front Panel
●
Baud rate: 38.4K, 19.2K,
9.6K
●
Connector standard 9-pin
subminiature, three-wire
●
Protocol: INCOM
Environmental Ratings
●
Operating temperature:
–40ºF to +140ºF (–40ºC to
+60ºC) Product tested
to +185ºF (+85ºC)
●
Storage temperature:
–40ºF to +185ºF (–40ºC to
+85ºC)
●
Humidity: 5–95% relative
humidity (noncondensing)
●
Altitude: 0–6350 feet
(0–1935m) above Mean
Sea Level

Rating of Output Contacts
●
Momentary:
●
Make 30A AC/DC for
0.25 seconds
●
Break 0.25A at 250 Vdc
(resistive)
●
Break 5A at 120/240 Vac
●

●

Current Unbalance
●
Threshold (minimum
current) 0.1–20.0 per unit
in 0.01 steps
●
% I2/I1: 4–40% in 1%
steps
●
Time delay: 0–9999 cycles
in 1 cycle steps

RS-485 Communications,
Rear Panel:
●
Baud rate: 19.2K, 9.6K
●
Protocol: Modbus RTU

●

●

Continuous:
●
5A at 120/240 Vac
●
5A at 30 Vdc
– Logic and Control
Functions
Six programmable logic
gates for AND, OR, NAND,
NOR operation
Two latching (flip/flop)
gates
Six timer gates provide
on/off delays

INCOM Communications
●
Baud rate: 9600 fixed
●
Maximum distance:
10,000 feet (3048 m)
●
Protocol: INCOM

CA08100004E—November 2013

www.eaton.com

Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

9.4

Wiring Diagrams

9

FP-4000 One-Line Drawing

9
Main VTs
(2) or (3)

Phase
CTs (3)

51P

50
P–1

50
P–2

50
P–3

46–1 46–2

55A

55D

50
BF

METERING
V, I, F, PF,
W, VARS, VA
Energy
Demand
Min./Max.
%THD
Phasors
Data Logger
Waveform
SER
Fault Records

CALC
31o = IR
51R
50
R–1

Trip
Coil
Monitor

CB

50
R–2

51X

50
X–1

50
X–2

9

59
M–2

9

27
M–1

9

27
M–2

9

47–1

50
R–3

Optional
Zero
Sequence
CT

9

59
M–1

47–2

9

81
U–1

50
X–3

9

81
U–2

Optional
VT (1)

9

81
O–1
59
A–1

59
A–2

27
A–1

27
A–2

81
O–2

FP-5000

9
9

Load

9

FP-4000 Rear View and Terminal Designations

9
TB1

TB2
201 C In 1

106

Power Supply
Input
(+)
Power Supply
Input
(–)
RLY Healthy
Com.
RLY Healthy
N.O.
RLY Healthy
N.C.
Alarm Com.

107

Alarm N.O.

207 C In 6

108

Alarm N.C.

208 C In 7

109

RLY 5 Com.

209 C In 8

110

RLY 5 N.O.

210 C In Source 2

101
102
103
104
105

202 C In 2
203 C In 3
204 C In 4
205 C In Source 1
206 C In 5

111

RLY 4 Com.

211 Not Used

112

RLY 4 N.O.

212 Not Used

113

RLY 3 Com.

213 VA(+) Main

114

RLY 3 N.O.

214 VB(+) Main

115

Trip 2 Com.

215 VC(+) Main

116

Trip 2 N.O.

216 Vx1 Aux

117

Trip 1 Com.

217 Vx2 Aux

118

Trip 1 N.O.

Factory Connection Only TB3
TB2

TB1

201
202
203
204
205
206
207
208
209
210
Red 211
White 212
213
214
215
216
217
218

101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118

9

TB3
J1-1 PowerNet

9

J1-2 PowerNet

9

J1-3 PowerNet Shield
J2-1 Accessory Bus

9

J2-2 Accessory Bus
Bus
J2-3 Accessory
Shield

9

J3-1 Zone Out

9

J3-2 Zone Com.
J3-3 Zone Shield

9

J3-4 Zone In
J3-5 Zone Com.

9

J4-1

9

J4-2
J4-3

9

J5-1 RS485(+)

9

J5-2 RS485(-)
TB4

218 Vg Main

J5-3 RS485com

9

J5-4 RS485shield

9
A1

B1

C1

X1

N.C. 1

A2

B2

C2

X2

N.C. 2

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9

Protective Relays

FP-4000 Typical Connection Drawing Using Wye PTs

9
9

Metering Devices, Protective Relays, Software and Connectivity

ac/dc
Power Supply
(+)

C

B

A

C

B

A

48 – 125 Vac/dc or
100 – 240 Vac/dc

(–)

9

FP-4000

9
9
9
9

2

9

Relay
Failure
Alarm

Breaker
Alarm

9
9
9

Breaker
Close

3

9
9
9
9

52A

9

52
TC

52A

9

TB1

TB2

Supply
101 Power
Input
(+)
Power Supply
102 Input
(–)
RLY Healthy
103
Com.
RLY Healthy
104
N.O.
RLY
Healthy
105
N.C.

C In 1

201

C In 2

202

C In 3

203

C In 4

204

1

C In Source 1

205

106

Alarm Com.

C In 5

206

107

Alarm N.O.

C In 6

207

108

Alarm N.C.

C In 7

208

109

RLY 5 Com.

C In 8

209

110

RLY 5 N.O.

C In Source 2

210

111

RLY 4 Com.

Not Used

211

112

RLY 4 N.O.

Not Used

212

113

RLY 3 Com.

VA(+) Main

213

114

RLY 3 N.O.

VB(+) Main

214

115

Trip 2 Com.

VC(+) Main

215

116

Trip 2 N.O.

VX1 Aux

216

117

Trip 1 Com.

VX2 Aux

217

118

Trip 1 N.O.

Vg Main

218

52A

52B
52B TOC

5

Ground

9
X2

X1

A2

A1

B2

B1

C2

C1

9
9

4

9

Load

52

9
9

1

For maximum breaker diagnostics use both 52A and 52B contacts.
Some diagnostics are not available if only one of the two is used.

9

2

A relay failure alarm should provide immediate attention as circuit
is no longer protected. Relay failure output is normally energized.

9

3

FP-4000 can initiate a breaker close via the front panel interface
and/or remote activation through communication or discrete input.

4

Residual connection may be used in place of zero sequence CT.

5

Delta or open delta PT connection may be used in place of wye-ground connection.

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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

9.4

Dimensions
Approximate Dimensions in Inches (mm)

9

FP-4000 Feeder Protection Relay

9

Height

Width

Depth

Shipping Weight
Lbs (kg)

7.62 (193.5)

0.62 (15.7)

9.0 (4.1)

7.62 (193.5)

7.48 (190.0)

9.0 (4.1)

9

In Front of Panel
10.15 (257.9)

9
9

Behind Panel
10.15 (257.9)

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9.4
9

Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Contents

MP-3000

Description

9

Page

Product Selection Guide . . . . . . . . . . . . . . . . . . . .
FP-6000 Feeder Protection . . . . . . . . . . . . . . . . . .
FP-5000 Feeder Protection . . . . . . . . . . . . . . . . . .
FP-4000 Feeder Protection . . . . . . . . . . . . . . . . . .
MP-3000 Motor Protection
Features, Benefits and Functions . . . . . . . . . . .
Standards and Certifications . . . . . . . . . . . . . . .
Product Selection . . . . . . . . . . . . . . . . . . . . . . .
Options and Accessories . . . . . . . . . . . . . . . . .
Technical Data and Specifications . . . . . . . . . . .
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MP-4000 Motor Protection . . . . . . . . . . . . . . . . . .
MD-3000 Motor/Generator Differential Relay . . . .
Digitrip 3000 . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
VR-300 Multifunctional Voltage Relay . . . . . . . . . .
DP-300 Current Differential Protection Relay . . . . .
EDR-3000 Feeder Protection . . . . . . . . . . . . . . . . .
ETR-4000 Transformer Protection Relay . . . . . . . .
Ground Fault Relay. . . . . . . . . . . . . . . . . . . . . . . . .
Universal RTD Module . . . . . . . . . . . . . . . . . . . . . .
IQ 125 Volt DC Power Supply. . . . . . . . . . . . . . . . .

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9

V3-T9-158
V3-T9-162
V3-T9-172
V3-T9-180
V3-T9-189
V3-T9-189
V3-T9-190
V3-T9-190
V3-T9-191
V3-T9-195
V3-T9-198
V3-T9-204
V3-T9-207
V3-T9-217
V3-T9-221
V3-T9-226
V3-T9-237
V3-T9-250
V3-T9-254
V3-T9-258

9
9

MP-3000 Motor Protection

9

Product Description
●

9
9
9

●

●

9

●

9

●
●

9
●

9
9

●

Microprocessor-based,
multi-function motor
protection
Current only device—
no need to add PTs
Intel-I-Trip™ overload
protection based on
motor data
Event recording and
operational logging
Motor Start Profile™
Optional Quick Release
Drawout Case
Used on AMPGARD®
and medium voltage
assemblies
“Help” menu provides
user operational assistance

9
9
9

Application Description
Eaton’s MP-3000 motor
protection relay is a
multifunctional
microprocessor-based
protective relay for the
protection of three-phase AC
motors. The MP-3000 motor
relay may be applied to any
size motor at any voltage
level. It is most commonly
used on large, medium
voltage three-phase induction
motors. It has also been
widely used on important
low voltage (480 volt)
motor applications and
synchronous motors.
The MP-3000 motor relay is
a current only device that
monitors three-phase and
ground currents. It provides
motor overload, stall, short
circuit, phase unbalance,
single phasing and ground
fault motor protection.

It can also be used to provide
protection for a load jam or
loss of load condition. Please
refer to Page V3-T9-192.
The MP-3000 motor relay
provides start control logic
to protect the motor against
excessive starts or starting
the motor before it has had
sufficient time to cool down.
The MP-3000 motor relay
may be applied to either
across the line starters or
reduced voltage starters. On
reduced voltage starters, the
MP-3000 relay can control the
switch from reduced voltage
to full voltage based on time
and/or motor transition. The
MP-3000 can protect the
starter against failure to
transition to full voltage
through contact feedback and
an incomplete sequence
function.

The MP-3000 motor relay is
generally used on a motor
starter or a breaker used for
a motor load. The MP-3000
motor relay provides the
intelligence to protect and
control the motor against
abnormal operating
conditions. It monitors the
currents from either a 5A
or 1A secondary of a CT
circuit. Ground current may
be obtained from either a
ground CT or from the
residual connection of the
phase CTs. It provides a
Form C contact output for
controlling the starter contacts
or breaker operation.

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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Features, Benefits and Functions
●

●

●

●

●

●

●

●

Complete motor protection
and control in a single
compact case reduces
panel space requirements
and wiring costs
Microprocessor design
with self diagnostics
eliminates calibration
and reduces installation,
commissioning and
maintenance
Programmable stop
2–20% of PCT
Intel-I-Trip overload
protection develops
customized curve from
manufacturer’s supplied
motor data
Intel-I-Trip overload
protection provides
adaptive trip characteristics
based on motor
temperature when motor
RTDs are connected
through an optional
URTD module
Meets UL 1053 ground
fault protection standards
that eliminates the need
for a separate ground relay
saving cost, space, wiring
and time
Voltage dip/loss ride
through capability reduces
unnecessary trips caused
by poor power quality
Motor currents,
temperatures and
conditions are monitored
and displayed either locally
or remotely

9.4

Standards and Certifications
●

●

●

●

●

●

●

Event log provides motor
operating records for the
most recent 20 Trip or
Alarm events with date
and time stamping. This
information can improve
troubleshooting and
reduce downtime
Log book records the most
recent 100 events such as
motor START/STOP and
set point changes to
provide a log of motor
operation with date and
time stamping
RTD diagnostics reduces
unnecessary tripping
caused by faulty RTD, RTD
wiring or communications
Arm/Disarm feature
improves security for
critical motor applications
Motor Start profile verifies
protection and motor
starting coordination. This
feature can be used to
develop protection settings
on old motors where data
is not available
Optional communication
module and Eaton’s
software simplifies setting,
configuration, monitoring,
commissioning and data
retrieval either locally or
remotely
Optional Quick Release
Drawout Case construction
simplifies relay removal
and replacement

The protection functions are
listed below.
●

●
●
●

●

●

●

●
●
●
●
●

I2t overload protection
(49/51)
Locked rotor (49S/51)
Ultimate trip current (51)
Negative sequence phase
unbalance (46)
Instantaneous
overcurrent (50)
Ground fault
protection (50G)
RTD trip and alarm with
URTD module (49/38)
Underload trip (37)
Starts per time (66)
Jam or stall (51R)
Auto or manual reset (86)
Fail-safe or non-fail-safe
trip modes

The MP-3000 motor
protection was designed to
meet the industry standards
for protective relays. It is
recognized under UL 1053
Ground Fault Protection
Standard.
●

●
●
●
●
●

UL recognized
(File No. E154862)
UL 1053 recognized
UL 508 recognized
ANSI C37.90, C37.90.1
cUL
CSA

●

●

9
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9
9
9
9
9

The metering functions are:
●

9

9

Motor currents:
●
Average current (Iave)
●
Individual phase and
ground current in
primary amperes
●
Percent of full load
●
Percent of phase
unbalance
RTD temperatures:
●
Individual winding
●
Motor bearing
●
Load
●
Auxiliary temperatures

9
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9

Motor conditions:
●
Percent of I2t thermal
bucket
●
Time before start
●
Remaining starts
allowed
●
Oldest start time

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9.4
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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Product Selection
MP-3000

MP-3000

9

Description

Catalog
Number

MP-3000 Drawout, 5A with RS-232

MP3011

9

MP-3000 Drawout, INCOM, 5A with RS-232

MP3012

MP-3000 Drawout, Modbus, 5A with RS-232

MP3013

MP-3000 Drawout, DeviceNet, 5A with RS-232

MP3014

MP-3000 Drawout, 1A with RS-232

MP3111

MP-3000 Drawout, INCOM, 1A with RS-232

MP3112

9

MP-3000 Drawout, Modbus, 1A with RS-232

MP3113

MP-3000 Drawout, DeviceNet, 1A with RS-232

MP3114

9

MP-3000 Fixed Case, 5A with RS-232

MP3010

MP-3000 Fixed Case, INCOM, 5A with RS-232

MP3010-INCOM

MP-3000 Fixed Case, Modbus, 5A with RS-232

MP3010MODBUS

9

MP-3000 Fixed Case, DeviceNet, 5A with RS-232

MP3010DEVICEN

MP-3000 Fixed Case, 1A with RS-232

MP3110

9

MP-3000 Fixed Case, INCOM, 1A with RS-232

MP3110-INCOM

MP-3000 Fixed Case, Modbus, 1A with RS-232

MP3110MODBUS

9

MP-3000 Fixed Case, DeviceNet, 1A with RS-232

MP3110DEVICEN

MP-3000 Fixed Case, INCOM, 5A with RS-232, URTD

MP3010VPI

MP-3000 Fixed Case, Modbus, 5A with RS-232, URTD

MP3010VPM

9

MP-3000 Fixed Case, DeviceNet, 5A with RS-232, URTD

MP3010VPD

MP-3000 Fixed Case, INCOM, 1A with RS-232, URTD

MP3110VPI

9

MP-3000 Fixed Case, Modbus, 1A with RS-232, URTD

MP3110VPM

MP-3000 Fixed Case, DeviceNet, 1A with RS-232, URTD

MP3110VPD

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9

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9

Options and Accessories

9

Additional Related Products
by Eaton’s Cutler-Hammer®
Series
The MP-3000 is available in
either a fixed mount or Quick
Release Drawout Case. Both
mountings use the same
panel cutout. Page V3-T9-195
shows cutout dimensions.
Page V3-T9-192 shows a
typical fixed mountwiring
diagram for a medium voltage
motor starter application.
Page V3-T9-193 shows the
fixed mount terminal
designation. Page V3-T9-195
shows the drawout case
panel mounting, and shows
the drawout case terminal
designation.

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9

The Universal RTD module
(URTD) is required when the
motor is equipped with RTDs
that you wish to monitor and
use for protection. The URTD
can be mounted near the
motor to reduce RTD wiring
and costs. Page V3-T9-194
shows MP-3000 and URTD
inter-connection wiring.
Please refer to the URTD
information described
elsewhere in
this catalog.

The MP-3000 motor
protection is designed to
operate from 120 Vac or
240 Vac auxiliary control
power. The MP-3000 motor
relay can be used with DC
control power with the
addition of the IQDCPS.
The IQDCPS is an inverter
from DC to AC.

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Volume 3—Power Distribution and Control Assemblies

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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

9.4

Technical Data and Specifications
Control Power
●
Nominal rating:
●
120 Vac or 240 Vac
●
+10%, –25%
●
Operating range:
●
120 Vac: 90 132 Vac
●
240 Vac:180 264 Vac
●
Frequency: 50 or 60 Hz
●
Power use:
●
20 VA maximum
●
URTD: 6 VA maximum
●
IPONI: 1 VA maximum
●
Ride-through time:
30 cycles from nominal Vac
Current Inputs
●
Nominal (In): 1A or 5A
●
CT rating:
●
2 x In continuous
●
50 x In for 1 second
●
Burdens:
●
< 0.25 VA at 5A
●
< 0.05 VA at 1A

9

Analog Output
●
Rating: ± 4–20 mA
programmable
●
Maximum load: 1K ohm
●
Accuracy: 1%
Motor Overload Protection (I2t)
●
Full load amperes:
10–3000A
●
Locked rotor current:
300–1200% FLA
●
Locked rotor time:
1–120 seconds
●
Ultimate trip current:
85–150% FLA
●
Phase CT ratio:
10–4000 (In)
●
Ground CT ratio:
10–4000 (In)
●
Timing accuracy: ± 2.5% or
±30 mS for I > 1.1x U.T.C
Trip Setting Range
Ground fault (GF): Off,
2–55% CT ratio
●
GF start time delay:
2–60 cycles
●
GF run time delay:
0–60 cycles
●
Timer accuracy: ± 20 mS
●
Instantaneous O.C.: Off,
300–1600% FLA
●
IOC start time delay:
2–60 cycles
●
Timer accuracy: ±20 mS
●
JAM trip: Off,
100–1200% FLA
●
Underload trip: Off,
1–90% FLA
●
Phase unbalance trip: Off,
4–40% Ineg/Ipos
●

Metering Accuracy
●
Phase current: ±1% of In
(5–100%)
●
Ground current: ±1.5% of In
(0–55%)
Discrete Inputs
●
Number of inputs: two
programmable
●
Ratings:
●
1.2 VA at 120 Vac
●
Maximum off = 36 Vac
●
Minimum on = 86 Vac
Output Contacts
●
Number of outputs: four
Form C, programmable
●
Momentary:
●
Make 30A AC/DC for
0.25 seconds
●
Break 0.25A at 250 Vdc
(resistive)
●
Break 5A at 120 240 Vac
●
Continuous:
●
5A at 120/240 Vac
●
5A at 30 Vdc

●

●

●

Start delay timers:
●
0–120 seconds
(underload and phase
unbalance)
●
0–1200 seconds (jam)
Run delay timers: 0–240
seconds
Timer accuracy: ±0.5%
+100 mS

Alarm Setting Range
●
Ground fault: Off, 2–55%
CT ratio
●
Overload I2t: Off,
60–99% I2t
●
JAM: Off, 100–1200% FLA
●
Underload: Off,
1–90% FLA
●
Phase unbalance: Off,
4–40% Ineg/Ipos
●

Run delay timers:
0–240 seconds

Start Control Functions
●
Starts per time: 1–10 starts
●
Time for starts per time:
Off, 1–240 minutes
●
Time between starts: Off,
1–240 minutes
●
Number of cold starts:
1–5 starts
●
Motor transition current:
10–300% FLA
●
Time for transition:
0–1200 seconds
●
Inc. sequence timer: Off,
1–240 seconds
●
Long acceleration timer:
Off, 1–1200 seconds
●
Anti-Backspin timer: Off,
1–3600 minutes
RTD Inputs (Requires
URTD module)
●
Sensor types:
●
10 ohm copper
●
100 ohm nickel
●
120 ohm nickel
●
100 ohm platinum
URTD Module Communications
●
Interface:
●
Electrical (three-wire)
●
Fiber optic (preferred)
●

Fiber optic cable: Type
HBFR-ERS or EUS

Clock
●
Accuracy: ±1 minute/
month at 77ºF (25°C)

IPONI Communications
●
Type: two-wire, FSK
●
Baud rate: 1200 or
9600 baud
●
Protocol: INCOM
●
Functions:
●
Read/write set points
●
Read metered values
●
Read trip/alarms
●
Read events/history
●
View starting profile
MPONI Communications
●
Type: 5-wire, 485
●
Baud rate: 1200 or
9600 baud
●
Protocol: Modbus RTU
●
Functions:
●
Read/write set points
●
Read metered values
●
Read trip/alarms
●
Read events/history
●
View starting profile
DPONI Communications
●
Type: J-wire
●
Baud rate: 500k, 250k,
125k
●
Protocol: DeviceNet
●
Functions:
●
Read metered values
●
Read trip/alarms
Logging
●
Log book: 100 events
●
Log event: 20 trips and
alarms
●
Log start: last four starts
●
Start profile: last four starts
(communication only)
●
History records: motor,
trips, alarms and total
records
Environmental Conditions
●
Operating temperature:
–4ºF to 140ºF (–20ºC to
+60ºC)
●
Storage temperature:
–49ºF to +185ºF
(–45°C to +85°C)
●
Humidity: 0–95%
noncondensing

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Volume 3—Power Distribution and Control Assemblies

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V3-T9-191

9.4
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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Wiring Diagrams
MP-3000 Motor Relay Protection Functions

9

MP-3000

9

Protection Functions
49/51 Overload I2T
49S/51 Locked Rotor
51R Jam/Stall
37 Loss of Load/
Underload
46 Phase Loss/
Unbalance
50 Phase Inst. OC
50G Ground Inst. OC
66 Starts per time
period

9
9
9

URT

9

Motor

11 RTDs

9
9

MP-3000 Fixed Mount Typical

9
9

L3

L3

9

L2

L2

9

L1

L1

9

CTs

Main
Fuse

GFCT

M

C
B
A

T3

M

T2

M

T1
Gnd.

Ground

To Motor or
Load Device
Under Control

X1 X2

Primary
Fuses

9

Non-Current
Carrying Ground

CPT

9

Secondary
Fuses

9

5
Ground

9
9

START

9

M

STOP

ac Supply
to MP-3000
Additional
Control

Alarm Contacts

9

18

9

19

Auxiliary Trip Contacts
15

9

H
2
A

7
Trip Contacts
12
11

G
1

H
1
C

H
1
B

H
1
A

4

H
2
B

H
2
C

G
2

MP-3000
Back View
with Jumper
Connection

M

Alarm

Auxiliary
Trip

16

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9.4

MP-3000 Terminal Identification

9

CT Connections

9
9
H
1
A

H
1
B
H
2
A

H
1
C
H
2
B

9

G
1

H
2
C

G
2

9

URTD Optical Fiber
Communications
(Preferred Method)
or
URTD Wired
Communication

9
9

MP-3000

+4/20 mA Output

25

-4/20 mA Output

24

Aux. 2 N/C

1

Aux. 2 Com.

2

Aux. 2 N/O

3

120 V or 240 V

4

Earth Ground

5

iscrete Source

7

Discrete In 1

8

Discrete In 2

Shield

9

22

Common

9

21

Data

20

Strobe

19

Alarm N/O

18

Alarm Com.

17

Alarm N/C

16

Aux. 1 N/O

15

Aux. 1 Com.

14

Aux. 1 N/C

13

Trip N/O

12

Trip Com.

11

Trip N/C

9
9
9
9
9
9
9

6

Neutral

Discrete Com.

23

9
9

9

9

10

9
9
Note
1 Caution: Do not connect terminals 6 and 9 together.

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9.4
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Protective Relays

MP-3000 Control and URTD Wiring

9

Universal
RTD Module

9
9

Metering Devices, Protective Relays, Software and Connectivity

AC
120 Vac J3
ACN

Control Power
Transformer
Common
Data
Strobe

H
1
A

120 Vac

9

H
2
A

H
1
B

H
2
B

H
1
C

G
1
H
2
C

MP-3000

9
9
9

Non-current
Carrying Gnd.

9
9
Optical Fiber for URTD
Communications
to MP-3000
(Preferred Method)

9
9

25
24
1
2
3
4
5
6
7
8
9
10

G
2

23
22
21
20
19
18
17
16
15
14
13
12
11

Shield
Common
Data
Strobe

Customer Remote
Input Contacts
or Pushbuttons

9
9
9
9
9
9
9
9
9
9

Trip Curve Chart

Motor Starting Profile Time/Current Chart

The MP-3000 motor relay
records information on the
most recent four starts. It
records currents, percent of
I2t used, percent unbalance,
RTD temperatures and time
to transition and run. In
addition, a motor start profile
can be downloaded and
displayed using Eaton’s
PowerPort or PowerNet
Software. The starting profile
shows the motor starting
current plotted against the
relay protection curve. This
provides a quick view of the
coordination between the
protection and actual motor
start current.

9

When communications
are desired, an optional
communication module or
PONI (Product Operated
Network Interface) is
required. The MP-3000 is
compatible with an INCOM
(IPONI), Modbus RTU
(MPONI) or Ethernet (EPONI).
Future communication
modules are planned to
interface with other systems
using other protocols. Please
consult factory for availability
of other communication
options. Page V3-T9-197
shows typical mounting of
MP-3000 with optional PONI
and with URTD module and
PONI.
When the MP-3000 is
supplied in the optional
drawout case, then the
INCOM (IPONI) is the only
communication option
available. The communication
option must be selected at
the time of order.

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Protective Relays

Dimensions
Approximate Dimensions in Inches (mm)

9

Panel Cutout Diagram

9

2.69
(68.3)

9

5.38
(136.7)

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9

8.90
(226.1)

9

9.38
(238.3)
6.68
(169.7)

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9

4.69
(119.1)

4.45
(113.0)

2.23
(56.7)

9

.06
(1.5) RAD
4 Places

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9

2.53
(64.3)

5.06
(128.5)

.218
DIA 10 Places
(5.5)

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9

MP-3000 Drawout Panel Mounting

9

6.89
(175.0)
5.33
(135.4)
S/N000000
A980000
66D2029G01
REV. 1

S/N123321
A980810
66D2031G01
REV. 1

BUILT BY
F.C.

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9
9

BUILT BY
F.C.
TESTED BY
G.K.

TESTED BY
G.K.

9
9
+4/20 Output
-4/20 Output
Unused

11

12

13

14

15

16

17

18

VAC 120V or
Auto 240V
19
Select Neut

11

20

9

Unused
Discrete Source
Discrete In 1

Discrete Com

9.51
(241.6)

13
H1A

49

H1B

47

H1C
G1

45

Unused

21

22

23

24

25

26

27

28

29

30

9

Discrete In 2

H2A

9

H2B
H2C
G2
Unused

66C2020H01

9

17
60
14

9

19
16

9

20
18

9
Outer Chassis

Outer Flange

9

Inner Chassis

9

Mounting Panel

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Approximate Dimensions in Inches (mm)
Rear View of MP-3000 Drawout Outer Case

9

5.23
(132.8)

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9
9
9
9
9

+4/20 Output

11

12

-4/20 Output

13

14

Unused

15

16

17
VAC 120Vor
Auto 240V
Select Neut 19

18

9
H1A

9
9

H1B
H1C
G1

9

Unused

URTD Strobe 41

42

URTD Data

Discrete Source

URTD Common 43

44

URTD Shield

Discrete In 1

45

46

47

48

49

50

51

52

53

54

55

56

57

58

Shield

59

60

Earth Gnd

Discrete In 2

20 Discrete Com

21

22

23

24

25

26

27

28

11 12

41 42

13 14

43 44

15 16

45 46

17 18

47 48

19 20

49 50

21 22

51 52

23 24

53 54

25 26

55 56

27 28

57 58

29 30

59 60

Aux 2

H2A
H2B
H2C
G2

Alarm

PONI In
Unused

29

30

Unused

66C2020H01

Aux 1

Trip

66C2020H02

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Approximate Dimensions in Inches (mm)

9

MP-3000 PONI and URTD Mounting
4.25
(108.0)
with PONI

9

6.26
(159.0)
with PONI and RTD Module

3.01
(76.5)
without PONI

9

5.07
(128.8)

9
9
9
9
9
®
®

9

-4/20
OUTPUT

AUX 2

2

AUX 2

2

3

3

NEUT

8

DISCRETE
IN 1

9

9

10

10

DISCRETE
COMMON
DISCRETE
IN 2

VAC AUTO SELECT

DISCRETE
SOURCE

7

8

DISCRETE
COMMON
DISCRETE
IN 2

EARTH
GROUND

6

7

DISCRETE
IN 1

120 V or
240 V

5

6

NEUT

4

5

DISCRETE
SOURCE

VAC AUTO SELECT

4

EARTH
GROUND

PONI
Mounting
Bracket

9
9

1A49102H19

1

1
120 V or
240 V

UNIVERSAL RTD MODULE

STYLE NUMBER 2D78559

+4/20
OUTPUT

24

24

-4/20
OUTPUT

25

25

+4/20
OUTPUT

9

ac
120
J3
Vac
ACN
35
34
AUX1
33
32
GND
31
30
LB2
29
28
27
LB1
26
25
24
MB2
23
22
21
MB1
20

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9
9
9
9
9
RTD Module
Mounting
Bracket

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9

FP-3000 Feeder Protection Relay
Height

Width

Depth

Shipping Weight
Lbs (kg)

10.25 (260.4)

6.72 (170.7)

3.70 (94.0)

7.0 (3.2)

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Contents

MP-4000

Description

9

Page

Product Selection Guide . . . . . . . . . . . . . . . . . . . .
FP-6000 Feeder Protection . . . . . . . . . . . . . . . . . .
FP-5000 Feeder Protection . . . . . . . . . . . . . . . . . .
FP-4000 Feeder Protection . . . . . . . . . . . . . . . . . .
MP-3000 Motor Protection . . . . . . . . . . . . . . . . . .
MP-4000 Motor Protection
Features, Benefits and Functions . . . . . . . . . . .
Standards and Certifications . . . . . . . . . . . . . . .
Product Selection . . . . . . . . . . . . . . . . . . . . . . .
Options and Accessories . . . . . . . . . . . . . . . . .
Technical Data and Specifications . . . . . . . . . . .
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MD-3000 Motor/Generator Differential Relay . . . .
Digitrip 3000 . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
VR-300 Multifunctional Voltage Relay . . . . . . . . . .
DP-300 Current Differential Protection Relay . . . . .
EDR-3000 Feeder Protection . . . . . . . . . . . . . . . . .
ETR-4000 Transformer Protection Relay . . . . . . . .
Ground Fault Relay. . . . . . . . . . . . . . . . . . . . . . . . .
Universal RTD Module . . . . . . . . . . . . . . . . . . . . . .
IQ 125 Volt DC Power Supply. . . . . . . . . . . . . . . . .

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MP-4000 Motor Protection

9

Product Description
●

9
9

●

9

●

9

●

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9

●

●

●

Microprocessor-based,
multi-function motor
protection
Intel-I-Trip overload
protection based on
motor data
Event recording and
operational logging
Motor Start Profile
Optional Quick Release
Drawout Case
Used on AMPGARD
and medium voltage
assemblies
“Help” menu provides
user operational assistance

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Application Description
Eaton’s MP-4000 motor
protection relay is a
multifunctional
microprocessor-based
protective relay for the
protection of three-phase ac
motors. The MP-4000 motor
relay may be applied to any
size motor at any voltage level.
It is most commonly used on
large, medium voltage threephase induction motors. It has
also been widely used on
important low voltage (480
volt) motor applications and
synchronous motors.
The MP-4000 motor relay
monitors three-phase and
ground currents, and threephase voltages. It provides
motor overload, stall, short
circuit, phase unbalance, single
phasing over/undervoltage,
underpower, power factor and
ground fault motor protection.
It can also be used to provide
protection for a load jam or loss
of load condition.

9

The MP-4000 motor relay
provides start control logic
to protect the motor against
excessive starts or starting
the motor before it has had

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sufficient time to cool down.
The MP-4000 motor relay may
be applied to either across the
line starters or reduced voltage
starters. On reduced voltage
starters, the MP-4000 relay can
control the switch from
reduced voltage to full voltage
based on time and/or motor
transition. The MP-4000 can
protect the starter against
failure to transition to full
voltage through contact
feedback and an incomplete
sequence function.
The MP-4000 motor relay is
generally used on a motor
starter or a breaker used for
a motor load. The MP-4000
motor relay provides the
intelligence to protect and
control the motor against
abnormal operating conditions.
It monitors the currents from
either a 5A or 1A secondary of
a CT circuit. Ground current
may be obtained from either a
ground CT or from the residual
connection of the phase CTs.
It provides a form C contact
output for controlling the
starter contacts or breaker
operation.

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V3-T9-158
V3-T9-162
V3-T9-172
V3-T9-180
V3-T9-188
V3-T9-199
V3-T9-199
V3-T9-201
V3-T9-201
V3-T9-202
V3-T9-203
V3-T9-204
V3-T9-207
V3-T9-217
V3-T9-221
V3-T9-226
V3-T9-237
V3-T9-250
V3-T9-254
V3-T9-258

Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Features, Benefits and Functions
●

●

●

●

●

●

●

●

●

●

Complete motor protection
and control in a single
compact case reduces
panel space requirements
and wiring costs
Microprocessor design
with self diagnostics
eliminates calibration
and reduces installation,
commissioning and
maintenance
Programmable stop
2–20% of PCT
Intel-I-Trip overload
protection develops
customized curve from
manufacturer’s supplied
motor data
Intel-I-Trip overload
protection provides
adaptive trip characteristics
based on motor
temperature when motor
RTDs are connected
through an optional
URTD module
Meets UL 1053 ground
fault protection standards
that eliminates the need
for a separate ground relay
saving cost, space, wiring
and time
Voltage dip/loss ride
through capability reduces
unnecessary trips caused
by poor power quality
Motor currents,
temperatures and
conditions are monitored
and displayed either locally
or remotely
Event log provides motor
operating records for the
most recent 20 Trip or
Alarm events with date
and time stamping. This
information can improve
troubleshooting and
reduce downtime
Log book records the most
recent 100 events such as
motor START/STOP and
set point changes to
provide a log of motor
operation with date and
time stamping

9.4

Standards and Certifications
●

●

●

●

●

RTD diagnostics reduces
unnecessary tripping
caused by faulty RTD, RTD
wiring or communications
Arm/Disarm feature
improves security for
critical motor applications
Motor Start profile verifies
protection and motor
starting coordination. This
feature can be used to
develop protection settings
on old motors where data
is not available
Optional communication
module and Eaton’s
software simplifies setting,
configuration, monitoring,
commissioning and data
retrieval either locally or
remotely
Optional Quick Release
Drawout Case construction
simplifies relay removal
and replacement

The protection functions are
listed below:
●

●
●
●

●

●

●
●
●
●

●
●

●
●
●
●
●

I2t overload
protection (49/51)
Locked rotor (49S/51)
Ultimate trip current (51)
Negative sequence phase
unbalance (46)
Instantaneous
overcurrent (50)
Ground fault
protection (50G)
Undervoltage (27)
Overvoltage (59)
Under power (32)
Negative sequence voltage
unbalance (47)
Power factor (55)
RTD trip and alarm with
URTD module (49/38)
Underload trip (37)
Starts per time (66)
Jam or stall (51R)
Auto or manual reset (86)
Fail-safe or non-fail-safe
trip modes

The metering functions are:
●

●

●

Metering:
●
Average current
●
Amperes: magnitude
and angle in primary
values
●
Amperes: positive,
negative and zero
sequence
●
Average voltage (V ave)
●
Voltage: magnitude and
angle
●
Voltage: positive,
negative and zero
sequence
●
% of full load
●
% current unbalance
●
% voltage unbalance
●
Power, vars and VA
●
Power factor
●
Frequency
●
Energy metering with
time and date stamps

The MP-4000 motor
protection was designed to
meet the industry standards
for protective relays. It is
recognized under UL 1053
Ground Fault Protection
Standard.
●

●
●
●
●
●

UL recognized (File No.
E154862)
UL 1053 recognized
UL 508 recognized
ANSI C37.90, C37.90.1
cUL
CSA

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RTD temperatures:
●
Individual winding
●
Motor bearing
●
Load
●
Auxiliary temperatures

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9

Motor conditions:
●
Percent of I2t thermal
bucket
●
Time before start
●
Remaining starts
allowed
●
Oldest start time

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Protective Relays

Reference Information
Cross-Reference
Westinghouse®/Cutler-Hammer
Eaton’s Cutler-Hammer MP3000 motor relay supersedes
the Cutler-Hammer (formerly
Westinghouse) IQ 1000 II
motor relay and can replace
the earlier IQ 1000 motor
relay version sold under the
Westinghouse name. The
MP-3000 motor relay fits in
the same cut out and
provides the protection
functions of these older
models. The MP-3000
relay provides numerous
enhancements and new
features over the superseded

models. The most notable
enhancements are UL 1053
ground fault protection
certified, voltage loss ride
through capability, data
logging, communications
features and the addition of
a clock for date and time
stamping of events.
GE Multilin™
GE Multilin has several
product offerings for motor
protection. The 269 PLUS is
the equivalent model to the
MP-3000 with optional URTD
module. Eaton offers MP-

3000 value packs that include
an MP-3000, PONI, URTD
module and fiber optic cable
at competitive prices.
GE Multilin has both lower
and higher end products.
The MP-3000 can be used in
place of their 239 motor relay.
The MP-3000 offers more
capabilities than the 239 for
a slightly higher price.
GE Multilin 369 and 469
are upgraded end products.
The MP-3000 relay offers
equivalent overload and
current protection functions.

It also provides equivalent
start control functions. Both
the 369 and 469 offer voltage
protection and metering
functions. An Eaton meter
and/or other manufacturers’
protective relays may be
needed to satisfy the
customer’s motor protection
requirements. The 469 adds
differential protection. This
function must be supplied
by others in addition to the
MP-3000 motor relay.

Cross-Reference
New Eaton’s Series

Old Cutler-Hammer (Westinghouse)

GE Multilin

IQ 1000 II, IQ 1000

269, 269+, 239, base 369

MP-4000 (URTD module) 1

—

369 with voltage option

MP-4000 + MP-3000

—

469

MP-3000 (URTD module)

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Metering Devices, Protective Relays, Software and Connectivity

1

Note
1 If RTD monitoring required.

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9.4

Product Selection
MP-4000

9
MP-4000 Ordering Information
Description

Catalog Number

MP-4000 drawout, 5A with RS-232

MP4011

MP-4000 drawout, INCOM, 5A with RS-232

MP4012

MP-4000 drawout, Modbus, 5A with RS-232

MP4013

MP-4000 drawout, DeviceNet, 5A with RS-232

MP4014

MP-4000 drawout, 1A with RS-232

MP4111

MP-4000 drawout, INCOM, 1A with RS-232

MP4112

MP-4000 drawout, Modbus, 1A with RS-232

MP4113

MP-4000 drawout, DeviceNet, 1A with RS-232

MP4114

MP-4000 fixed case, 5A with RS-232

MP4010

MP-4000 fixed case, INCOM, 5A with RS-232

MP4010INCOM

MP-4000 fixed case, Modbus, 5A with RS-232

MP4010MODBUS

MP-4000 fixed case, DeviceNet, 5A with RS-232

MP4010DEVICEN

MP-4000 fixed case, 1A with RS-232

MP4110

MP-4000 fixed case, INCOM, 1A with RS-232

MP4110INCOM

MP-4000 fixed case, Modbus, 1A with RS-232

MP4110MODBUS

MP-4000 fixed case, DeviceNet, 1A with RS-232

MP4110DEVICEN

MP-4000 fixed case, INCOM, 5A with RS-232, URTD

MP4010VPI

MP-4000 fixed case, Modbus, 5A with RS-232, URTD

MP4010VPM

MP-4000 fixed case, DeviceNet, 5A with RS-232, URTD

MP4010VPD

MP-4000 fixed case, INCOM, 1A with RS-232, URTD

MP4110VPI

MP-4000 fixed case, Modbus, 1A with RS-232, URTD

MP4110VPM

MP-4000 fixed case, DeviceNet, 1A with RS-232, URTD

MP4110VPD

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Options and Accessories
Additional Related Products
by Eaton’s Cutler-Hammer Series
The MP-4000 is available in
either a fixed mount or Quick
Release Drawout Case. Both
mountings use the same
panel cutout.

The Universal RTD module
(URTD) is required when the
motor is equipped with RTDs
that you wish to monitor and
use for protection. The URTD
can be mounted near the
motor to reduce RTD wiring
and costs.

9

The MP-4000 motor protection
is design-ed to operate from
120 Vac or 240 Vac auxiliary
control power. The MP-4000
motor relay can be used with
dc control power with the
addition of the IQDCPS. The
IQDCPS is an inverter from
DC to AC.

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Technical Data and Specifications
Control Power
●
Nominal rating:
●
120 Vac or 240 Vac
●
+10%, –25%
●
Operating range:
●
120 Vac: 90 132 Vac
●
240 Vac:180 264 Vac
●
Frequency: 50 or 60 Hz
●
Power use:
●
20 VA maximum
●
URTD: 6 VA maximum
●
IPONI: 1 VA maximum
●
Ride-through time:
30 cycles from nominal Vac
Current Inputs
●
Nominal (In): 1A or 5A
●
CT rating:
●
2 x In continuous
●
50 x In for 1 second
●

Burdens:
●
< 0.25 VA at 5A
●
< 0.05 VA at 1A

Voltage Inputs
●
Nominal: 120 Vac
●
Operating range: 69 to
150 Vac
●
Burden: 2 VA
Metering Accuracy
●
Phase current: ±1% of In
(5–100%)
●
Ground current: ±1.5% of In
(0–55%)
Discrete Inputs
●
Number of inputs: two
programmable
●
Ratings:
●
1.2 VA at 120 Vac
●
Maximum off = 36 Vac
●
Minimum on = 86 Vac
Output Contacts
●
Number of outputs: four
Form C, programmable.
●
Momentary:
●
Make 30A AC/DC for
0.25 seconds
●
Break 0.25A at 250 Vdc
(Resistive)
●
Break 5A at 120 240 Vac
●
Continuous:
●
5A at 120/240 Vac
●
5A at 30 Vdc

9
V3-T9-202

Analog Output
●
Rating: ± 4–20 mA
programmable
●
Maximum load: 1K ohm
●
Accuracy: 1%
Motor Overload Protection (I2t)
●
Full load amperes:
10–3000
●
Locked rotor current:
300–1200% FLA
●
Locked rotor time:
1–120 seconds
●
Ultimate trip current:
85–150% FLA
●
Phase CT ratio:
10–4000 (In)
●
Ground CT ratio:
10–4000 (In)
●
Timing accuracy: ± 2.5% or
±30 mS for I > 1.1x U.T.C.
Trip Setting Range
Ground fault (GF): Off,
2–55% CT ratio
●
GF start time delay:
2–60 cycles
●
GF run time delay:
0–60 cycles
●
Timer accuracy: ± 20 mS
●
Instantaneous O.C.: Off,
300–1600% FLA
●
IOC start time delay:
2–60 cycles
●
Timer accuracy: ±20 mS
●
JAM trip: Off, 100–
1200% FLA
●
Underload trip: Off,
1–90% FLA
●
Current unbalance trip:
Off, 4–40% Ineg/Ipos
●

●

●

●

●

●
●

●

●

Start delay timers:
●
0–120 seconds
(underload and phase
unbalance)
●
0–1200 seconds (jam)
Run delay timers:
0–240 seconds
Timer accuracy: ±0.5%
+100 mS
Voltage unbalance: Off,
1 to 100V
% V2/V1: 4% + 40%
Voltage unbalance time
delay: 0 to 1200 sec.
Under/overvoltage time
delay: Off, 10 to 150V
Under/overvoltage time
delay: 0 to 1200 sec

Volume 3—Power Distribution and Control Assemblies

●

●

●

●

●

●

Under/overfrequency:
Off, 15 to 60 Hz
Under/overfrequency time
delay: 0 to 60 sec
Power protection: Off,
0.06 to .90 + FLA VT
Power time delay: 0 to
1200 sec
Power factor: Off, 0.05 lag
to 0.99 lead
Power factor time delay:
0 to 60 sec

Alarm Setting Range
●
Ground fault: Off,
2–55% CT ratio
●
Overload I2t: Off,
60–99% I2t
●
JAM: Off, 100–1200% FLA
●
Underload: Off,
1–90% FLA
●
Phase unbalance: Off,
4–40% Ineg/Ipos
●

Run delay timers:
0–240 seconds

Start Control Functions
●
Starts per time: 1–10 starts
●
Time for starts per time:
Off, 1–240 minutes
●
Time between starts:
Off, 1–240 minutes
●
Number of cold starts:
1–5 starts
●
Motor transition current:
10–300% FLA
●
Time for transition:
0–1200 seconds
●
Inc. sequence timer:
Off, 1–240 seconds
●
Long acceleration timer:
Off, 1–1200 seconds
●
Anti-Backspin timer:
Off, 1–3600 minutes
RTD Inputs (Requires
URTD module)
●
Sensor types:
●
10 ohm copper
●
100 ohm nickel
●
120 ohm nickel
●
100 ohm platinum
URTD Module Communications
●
Interface:
●
Electrical (three-wire)
●
Fiber optic (preferred)
●
Fiber optic cable: Type
HBFR-ERS or EUS

CA08100004E—November 2013

Clock
Accuracy: ±1 minute/
month at 77ºF (25°C)

●

PONI Communications
●
Type: two-wire, FSK
●
Baud rate: 1200 or
9600 baud
●
Protocol: INCOM
●
Functions:
●
Read/write set points
●
Read metered values
●
Read trip/alarms
●
Read events/history
●
View starting profile
MPONI Communications
●
Type: five-wire, 485
●
Baud rate: 1200 or
9600 baud
●
Protocol: Modbus RTU
●
Functions:
●
Read metered values
●
Read trip/alarms
DPONI Communications
●
Type: J-wire
●
Baud rate: 500k,
250k, 125k
●
Protocol: DeviceNet
●
Functions:
●
Read metered values
●
Read trip/alarms
Logging
●
Log book: 100 events
●
Log event: 20 trips
and alarms
●
Log start: last four starts
●
Start profile: last four starts
(communication only)
●
History records: motor,
trips, alarms and total
records
Environmental Conditions
●
Operating temperature:
–4ºF to +140ºF (
–20°C to +60°C)
●
Storage temperature:
–49ºF to +185ºF
(–45°C to +85°C)
●
Humidity: 0–95%
noncondensing

www.eaton.com

Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

9.4

Dimensions
Approximate Dimensions in Inches (mm)

9

MP-4000 Feeder Protection Relay

9

Height

Width

Depth

Shipping Weight
Lbs (kg)

9

10.25 (260.4)

6.72 (170.7)

3.70 (94.0)

7.0 (3.2)

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9
9
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9
9
9
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9
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9
9
9
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9
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9
9
9
9
9

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

V3-T9-203

9.4
9

Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Contents

MD-3000

Description

9

Page

Product Selection Guide . . . . . . . . . . . . . . . . . . . .
FP-6000 Feeder Protection . . . . . . . . . . . . . . . . . .
FP-5000 Feeder Protection . . . . . . . . . . . . . . . . . .
FP-4000 Feeder Protection . . . . . . . . . . . . . . . . . .
MP-3000 Motor Protection . . . . . . . . . . . . . . . . . .
MP-4000 Motor Protection . . . . . . . . . . . . . . . . . .
MD-3000 Motor/Generator Differential Relay
Technical Data and Specifications . . . . . . . . . . .
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Digitrip 3000 . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
VR-300 Multifunctional Voltage Relay . . . . . . . . . .
DP-300 Current Differential Protection Relay . . . . .
EDR-3000 Feeder Protection . . . . . . . . . . . . . . . . .
ETR-4000 Transformer Protection Relay . . . . . . . .
Ground Fault Relay. . . . . . . . . . . . . . . . . . . . . . . . .
Universal RTD Module . . . . . . . . . . . . . . . . . . . . . .
IQ 125 Volt DC Power Supply. . . . . . . . . . . . . . . . .

9
9
9
9
9
9
9
9
9

V3-T9-158
V3-T9-162
V3-T9-172
V3-T9-180
V3-T9-188
V3-T9-198
V3-T9-205
V3-T9-206
V3-T9-207
V3-T9-217
V3-T9-221
V3-T9-226
V3-T9-237
V3-T9-250
V3-T9-254
V3-T9-258

9
9
9

MD-3000 Motor/Generator Differential Relay

9

Product Description

9
9
9
9

Eaton's MD-3000 Protective
Relay is a microprocessorbased sensitive three-phase
instantaneous OC-trip relay
designed for both ANSI
and IEC applications. The
MD-3000 is suitable for
use as a motor/generator
differential relay.

9
9

Application Description

9
9
9
9

9
9
9

●
●
●

●
●
●

The MD-3000 Relay operates
from the 5 ampere secondary
output of standard current
transformers. Current
transformer ratio information
is quickly programmed into
the unit via settings. The
MD-3000 features a userfriendly operator panel to
monitor, program and test the
relay. Operating parameters
and troubleshooting
information are displayed in
the two display windows.

9

Features, Benefits
and Functions

The MD-3000 microprocessorbased relay provides reliable
instantaneous trip protection
for all voltage levels. It is
most commonly used as
motor differential protection
relay.

9
V3-T9-204

●
●
●
●

●

●

●

ANSI or IEC applications
Phase differential currents
Monitoring and reporting of
magnitude and phase of
current causing trip
Relay failure alarm contact
Trip alarm contact
User-friendly front panel
Non-volatile memory
View settings any time
Set CT ratios
Integral test mode (phase
and ground)
Program and test mode
security access cover with
meter seal provision
Continuous internal
circuitry self-testing
Programmable lockout/self
reset after trip

Standards and Certifications
●

●
●

ANSI C37.90 (1989),
C37.90.1 (1989),
C37.90.2 (1995)
IEC 255
UL 1053

Product Selection
MD-3000

Catalog Numbers
Description

Catalog
Number

Fixed Case

MD3000

Drawout Case

MD3001

System Protection
●
Instantaneous sensitive
phase overcurrent trip
●
Configurable trip outputs
Information and Data Delivery
●
Displays current
transformer ratio
●
Data/information
transmission

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

9.4

Technical Data and Specifications
Product Specifications

9

Input Voltage
●
Nominal:
●
48–250 Vdc
●
120–240 Vac 50/60 Hz
●
Operating range:
●
28–280 Vdc
●
90–254 Vac 50/60 Hz
Power Consumption

Current Inputs
●
CTs: 5A secondary
●
CT burden:
●
<0.004 ohm at rated
current (5A)
●
<0.1 VA at rated
current (5A)
●
In: 5A (Secondary) or
CT (Primary)
●
Saturation: 30 x In
●
CT thermal ratings:
●
10A continuous
●
500A for 1 second

24

48

125

250

120

240

Vdc Vdc Vdc Vdc Vac
Vac
10W 10W 10W 10W 10 VA 18 VA

CT (Primary) Settings Available
●
Phase:
5/10/25/50/75/100/150/200/
250/300/400/500/600/630/
800/1000/1200/1250/1500/
1600/2000/2400 2500/
3000/3200/4000/5000

Output Trip Contacts
●
Momentary:
●
Make 30A AC/DC for
0.25 seconds
●
Break 0.25A at 250 Vdc
●
Break 5A at 120/240 Vac
●
Continuous:
●
5A at 120/240 Vac
●
5A at 30 Vdc
●
Meets ANSI C37.90,
Paragraph 6.7

Environmental Conditions
●
Operating temperature:
–22ºF to +131ºF
(–30ºC to +55°C)
●
Operating humidity:
0–95% relative humidity
(noncondensing)
●
Storage temperature:
–40ºF to +158ºF
(–40°C to +70°C)
Auxiliary Alarm Contacts
●
5A continuous at 120/
240 Vac, 30 Vdc
●
5A break at 120/240 Vac,
30 Vdc
Tests
●
Dielectric strength,
current inputs:
●
3000 Vac for 1 minute
●
Phase-to-phase
●
Seismic test: Meets
requirements for UBC® and
California Building Code
Zone 4. ZPA = 3.5

Communications
●
Eaton’s PowerNet
compatible
●
Built-in INCOM
●
Data rate is 1200 or
9600 baud
Drawout Case
●
Refer to Page V3-T9-215
for drawout case
dimensions
Terminal Block
●
Make/break rating:
●
10A at 240 Vac nominal
●
0.25A at 280 Vdc
maximum
●
Terminal wire gauge:
No. 14 to No. 10 AWG
●
Screw torque
requirements:
18-inch-pounds

9
9
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9
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9
9
9
9
9
9
9
9

Wiring Diagrams
Self-Balancing Differential
Protection

Conventional Phase
Differential Protection

9
9
9

87

87

9
9
9

X

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9
9
9
9
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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

V3-T9-205

9.4

Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

9

Dimensions

9

Drilling Pattern

Approximate Dimensions in Inches (mm)

9

2.69
(68.3)

9
9

5.38
(136.7)

8.90
(226.1)
9.38
(238.3)

9
9

6.68
(169.7)

9

4.69
(119.1)

4.45
(113.0)

9

.06
(1.5) RAD
4 Places

2.23
(56.7)

9
9

2.53
(64.3)

9
9

5.06
(128.5)

.218
DIA 10 Places
(5.5)

MD-3000

9

5.33
(135.4)

7.72
(196.1)

9

5.23
(132.8)

0.80
(20.3)

3.86
(98.0)

2.61
(66.3)

9
9
9

5.67
(144.0)

MD 3000
Motor/Generator
Differential

S/N000000
W000000
66D0000G00
REV. 0

Operational
Reset

MD 3001 Motor Differential
Drawout Case
Power Supply Input:
Term. 17/19
AC 120-240 Vac, 50/60 Hz
DC 48-250 Vdc
Caution - Refer to
Instruction Leaflet

Built by FEC
Tested by GLK

RMS Amperes

4.75
(120.7)

Differential
Pickup In

9

A DIF

Time

B DIF
C DIF

9
9

11.34
(288.0)

Select

12 Unused

Unused 13

14 Unused

Unused 15

16 Unused

17
(+)
Power Supply 19
Input
(-)

18 Unused
20

11 12

41 42

13 14

43 44

15 16

45 46

17 18

47 48

19 20

49 50

21 22

51 52

23 24

53 54

25 26

55 56

27 28

57 58

Current Input

In=5A (Secondary)
Settings/Test Time/Trip Cause

21

22
A1

A2
23

24

25

26

27

28

Unused

30

Unused

B2

B1

C2

View
Settings

Program
Test

Unused 11

Unused
Unused

C1

29

Program
Program

9

Select
Settings

Save
Settings

Raise
Lower
Test

Select
Tests

Test

29 30

Test

9
9

1.51
(38.4)

9

6.89
(175.0)

9
9
9

MD-3000 Feeder Protection Relay (Fixed Case)
Height

Width

Depth

Shipping Weight
Lbs (kg)

10.25 (260.4)

6.72 (170.7)

3.70 (94.0)

7.0 (3.2)

9
9
V3-T9-206

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

9.51
(241.6)

9.4

Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Contents

DT-3000

Description

Page

Product Selection Guide . . . . . . . . . . . . . . . . . . . . .
FP-6000 Feeder Protection. . . . . . . . . . . . . . . . . . .
FP-5000 Feeder Protection. . . . . . . . . . . . . . . . . . .
FP-4000 Feeder Protection. . . . . . . . . . . . . . . . . . .
MP-3000 Motor Protection. . . . . . . . . . . . . . . . . . .
MP-4000 Motor Protection. . . . . . . . . . . . . . . . . . .
MD-3000 Motor/Generator Differential Relay. . . . .
Digitrip 3000
Features, Benefits and Functions . . . . . . . . . . .
Standards and Certifications . . . . . . . . . . . . . . .
Product Selection . . . . . . . . . . . . . . . . . . . . . . .
Options and Accessories. . . . . . . . . . . . . . . . . .
Technical Data and Specifications . . . . . . . . . . .
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . .
VR-300 Multifunctional Voltage Relay . . . . . . . . . .
DP-300 Current Differential Protection Relay . . . . .
EDR-3000 Feeder Protection . . . . . . . . . . . . . . . . .
ETR-4000 Transformer Protection Relay. . . . . . . . .
Ground Fault Relay . . . . . . . . . . . . . . . . . . . . . . . . .
Universal RTD Module . . . . . . . . . . . . . . . . . . . . . .
IQ 125 Volt DC Power Supply . . . . . . . . . . . . . . . . .

9

V3-T9-158
V3-T9-162
V3-T9-172
V3-T9-180
V3-T9-188
V3-T9-198
V3-T9-204

9

V3-T9-209
V3-T9-209
V3-T9-210
V3-T9-210
V3-T9-211
V3-T9-214
V3-T9-217
V3-T9-221
V3-T9-226
V3-T9-237
V3-T9-250
V3-T9-254
V3-T9-258

9

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9
9

Digitrip 3000
Product Description
●

●

●

●

●

●

●

●

Microprocessor-based,
three-phase and ground
overcurrent relay
Independent phase and
ground measuring circuits
and operation
Inverse time (51), short
delay (50, 2) and
instantaneous (50)
protection
Eleven time overcurrent
characters including ANSI,
IEC and thermal protection
curves
Phase and ground
ampmeter and peak
demand functions
INCOM communication
port
Fixed mount or optional
quick release drawout
case design
Dual-source power supply
option for AC control
power applications

Application Description
Eaton’s Digitrip 3000
microprocessor-based relay
provides reliable three-phase
and ground overcurrent
protection for all voltage
levels. It can be used for

any application where
instantaneous and/or time
overcurrent protection
is required. It is most
commonly used as primary
feeder circuit protection,
see figure below.
Primary Feeder
Circuit Protection
50

51

50G

51G

CB
52

Digitrip
3000

Load

The Digitrip 3000 may be
connected to the secondary
side of a delta-wye grounded
transformer with the ground
element connected to a
separate CT in the neutral
connection of the
transformer. With this
connection, a lower CT ratio
and a pickup setting can
be used to provide more
sensitive ground fault
protection especially for
resistance grounded
systems, see figure below.

50

51

50G

51G

CB
Digitrip
3000

9

a

A1

A2

b
c

B1
C1

B2
C2

50N/51N
GND G1 G2
Digitrip
3000

CB-52

Separate Zero Sequence
Ground CT Connection

Transformer Secondary
Protection with Neutral
CT Connection

a A1

A2

b B1

B2

c C1

C2

50/51

CB-52

The Digitrip 3000 may be
applied as the transformer
primary protection or as
backup to the differential
protection, see figure below.
Transformer Overcurrent
Protection

9

Residual Ground
Connection

Resistor

50G

51G

50

51

50G/51G
GND G1 G2

Digitrip
3000

Digitrip
3000

9
9
9
9
9
9
9
9
9
9

CB

9
The Digitrip 3000 ground
overcurrent element can be
connected in the residual
circuit of the phase CTs as
shown in the top figure or
to a separate ground CT as
shown in last figure.

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

9
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www.eaton.com

V3-T9-207

9.4
9
9

Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Zone Selective Interlocking (Phase and Ground)
Note: For the phase time
zone selective interlocking
overcurrent element, the current
to initiate an immediate trip
sensed by the Digitrip 3000 must
signal when the fault is in the
exceed 300% (3 x In) for the zone
breaker’s zone of protection.

9

selective interlocking to initiate an
immediate trip signal.

9

Zone Selective interlocking
is a protection function to
minimize equipment damage
resulting from a phase or a
ground fault in an area where
long-time and/or short-time
delay is in use.

9
9
9

Upstream Digitrip 3000
protected breakers are
restrained from tripping
immediately by an
interlocking signal from the
downstream Digitrip 3000
relay. This interlocking signal
requires only a pair of wires
from the downstream breaker
to the upstream breaker.
The Upstream Digitrip 3000
provides time delayed
standard coordinated
tripping when the fault is
located outside the zone
of protection.

9

When the “Ground Zone
Interlocking” feature is
utilized, an immediate trip
is initiated when the fault
is in the breaker’s zone of
protection, regardless of its
preset time delay. When the
“Phase Zone Interlocking”
feature is utilized, the time
overcurrent and short delay
phase elements work as
follows. The short delay
phase element will initiate an
immediate trip when the fault
is in the breaker’s zone of
protection, regardless of its
preset time delay. For the
time overcurrent phase
element, the current sensed
by the Digitrip 3000 must
exceed 300% (3 x In) for the

9

Sample Zone Selective Interlocking System

9
9
9
9
9
9
9
9

In the sample zone
interlocking system shown
below, circuit breakers A, B
and C are equipped with
Digitrip 3000 overcurrent
relays.

If a fault occurs at a point in
Zone 3, the Digitrip 3000 of
Downstream Breaker C
senses the fault and sends
a restraining signal to the
upstream Digitrip 3000 of
Feeder Breaker B.
Having received this signal,
the Digitrip 3000 of Feeder
Breaker B begins timing for
normal final delay tripping. As
a result, only Downstream
Breaker C is tripped.
Fault Location Zone 2
Note: For the phase time
overcurrent element, the current
sensed by the Digitrip 3000 must
exceed 300% (3 x In) for the zone
selective interlocking to initiate an
immediate trip signal.

Fault Location Zone 3

If a fault occurs at a point in
Zone 2, the Digitrip 3000 of
Feeder Breaker B senses the
fault and sends a restraining
signal to the upstream
Digitrip 3000 of Main
Breaker A.

Note: For the phase time
overcurrent element, the current
sensed by the Digitrip 3000 must
exceed 300% (3 x In) for the zone
selective interlocking to initiate an
immediate trip signal.

The Digitrip 3000 of the
Downstream Breaker C does
not see this fault since it is
situated on the downstream
side of the fault. As a result,

the Digitrip 3000 of
Downstream Breaker C does
not send a restraining signal
to the Digitrip 3000 of Feeder
Breaker B.
Since there is no restraining
signal from the Digitrip 3000
of Downstream Breaker C,
the Digitrip 3000 of Feeder
Breaker B identifies that
the fault is in Zone 2 and
immediately trips Feeder
Breaker B, regardless of its
time setting.
Fault Location Zone 1
Note: For the phase time
overcurrent element, the current
sensed by the Digitrip 3000 must
exceed 300% (3 x In) for the zone
selective interlocking to initiate an
immediate trip signal.

If a fault occurs in Zone 1, no
restraining signal is received
by the Digitrip of Main
Breaker A. As a result, Main
Breaker A is immediately
tripped by its Digitrip
overcurrent relay, regardless
of its time setting.

9
9
Main
Breaker
“A”

9
9
9

Zone 1

Feeder
Breaker
“B”

9

Interlocking
Wire

9
9

Zone 2

Downstream
Breaker
“C”

9
9
9

Zone 3

LOAD

9
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V3-T9-208

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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Features, Benefits and Functions
●

●

●

●

Complete current
protection and metering
in a single compact case
reduces panel space, wiring
and cost
Selectable trip
characteristics simplify
ordering and reduces
inventory
Optional drawout case
provides easy and quick
removal and replacement
of the relay
Optional dual-source
power supply provides
reliable protection when
applied with ac control
power, eliminating the
need for batteries or UPS

9.4

Standards and Certifications
●

●

●

Integral ampmeter and
display replaces separate
meter and switch, saving
panel space, wiring and
money
Zone selective interlocking
improves coordination and
tripping times and can save
money by using in place of
traditional bus differential
Integral test function and
microprocessor design can
reduce maintenance time
and expense

●
●
●
●
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UL recognized
UL 1053 recognized
ANSI C37.90
ANSI C37.90.1 (1989)
ANSI C37.90.2 (1995)

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Note: Fixed case versions meet
35V/m. Drawout case versions
meet 28V/m.
●
●

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IEC 255
CE (DT3030/3031
version only)

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V3-T9-209

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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Product Selection
DT-3000

DT-3000
Description

Catalog
Number

DT-3000 protective relay

DT3000

DT-3000 protective relay Chicago version

DT3100

DT-3030 protective relay (24–48 Vdc CE Mark version)

DT3030

DT-3000 drawout case protective relay

DT3001

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DT-3000 Chicago version drawout case protective relay

DT3101

DT-3030 drawout case protective relay (24–48 Vdc CE Mark version)

DT3031

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DT-3000 protective relay with 120 Vac dual-source power supply

DT3010

DT-3000 protective relay with 240 Vac dual-source power supply

DT3020

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Options and Accessories
Additional Products by Eaton’s Cutler-Hammer Series
Dual-Source Power
Supply Option
The Digitrip 3000 with DualSource Power Supply (DSPS)
is available in two versions,
DT-3010 and DT-3020. They
include an integral power
supply module that:
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Powers the relay from
nominal 120 Vac, 50/60 Hz
(DT-3010 model) or 240
Vac, 50/60 Hz (DT-3020
model) auxiliary power,
which is normally
connected and available.
Operates solely from the
main current transformers
(CTs) during a fault if
the normally connected
auxiliary ac voltage is
not available, like an
electromechanical relay
or an electronic “selfpowered” relay.

Functional Description
The integral Dual-Source
Power Supply (DSPS)
contains one AC voltage
transformer and three AC
current transformers. The AC
voltage transformer is used to
supply nominal ac control
power to the unit. The current
transformers are used to
power the unit from the line
current. Normally, the unit
will operate from the AC
auxiliary voltage.

Because this voltage is
usually obtained from the
system containing the circuit
that the relay is protecting, a
fault on the protected line
could cause the AC voltage
to drop below an acceptable
operating level. Below
approximately 70 volts for
DT-3010 or 140 volts for
DT-3020, the DSPS switches
over to current powering.
All three current transformer
secondaries are connected in
series to supply this power.
The DSPS will supply enough
power to operate the Digitrip
3000 overcurrent relay in the
tripped state with currents
greater than 1.8 per unit rated
secondary current, or 9A, in a
single-phase. The DSPS will
operate with three-phase
currents in a tripped state
with currents greater than
1.2 per unit or 6A rated
secondary current.
Note: There will be no effect
to the DT-3000 relay trip time
accuracy when the Dual-Source
Power Supply switches from
normal ac voltage to faultcurrent power.

Burden Data
In normal operating
conditions, the burden is
<0.08 ohms with three-phase
1A CT current, or 0.2 per unit,
and drops to less than 0.04
ohms at high current levels.
Present CT burden data in
ohms and volt-amperes, see
Page V3-T9-212.
In these cases, the burden
shown is the total CT terminal
value, which is the DSPS plus
the relay measuring circuits,
for the indicated operating
condition.
The trip curve on Page V3T9-212, right, shows burden
impedance magnitude in
ohms. The two lower curves
are the values with AC power
applied; the upper two are
with CT powering only. For
each of these pairs, one
curve shows the burden
for a single-phase current
(representing a single-phaseto-ground fault) and the other
for three balanced phases
with normally arrayed
120-degree phase angle
increments. There is no
phase sequence sensitivity.

Digitrip 3000 Optional
Drawout Case
The Digitrip 3000 overcurrent
protective relay is available
in a new drawout case for
quick release, removal and
replacement of the unit
without disruption of the
wiring. The CT circuits are
self-shortening to prevent
damaging voltages from
existing across-the-current
transformer windings. All
voltage inputs, discrete
inputs and contact inputs
are disconnected while
maintaining security against
false tripping.
The terminal blocks feature
a two-stage disconnect
operation. Removal of the
DT-3000 Inner Chassis will
disconnect the trip circuits
and short the CT secondaries
before the unit control power
is disconnected. Upon
insertion of the Inner
Chassis, the control power
connections are made before
the trip circuits are activated.
This feature provides
added security against
false tripping.

Page V3-T9-212, trip curve,
upper left, shows the burden
in volt-amperes for the same
four cases.

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Volume 3—Power Distribution and Control Assemblies

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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

9.4

Technical Data and Specifications

9

Current Inputs
●
CTs: 5A secondary
●
CT Burden:
●
<0.004 ohm at rated
current (5A)
●
<0.1 VA at rated
current (5A)
●
In: 5A (Secondary) or
CT (Primary)
●
Saturation: 30 x In
●
CT thermal ratings:
●
10A continuous
●
500A for 1 second

Output Trip Contacts
(Trip OC/Comm., Trip Inst.
and Comm. Close)
●
Momentary:
●
Make 30A AC/DC for
0.25 seconds
●
Break 0.25A at 250 Vdc
●
Break 5A at 120/240 Vac
●
Continuous:
●
5A at 120/240 Vac
●
5A at 30 Vdc
●
Meets ANSI C37.90,
Paragraph 6.7

CT (Primary) Settings Available
●
Phase and ground:
5/10/25/50/75/100/150/200/
250/300/400/500/600/630/
800/1000/1200/1250/1500/
1600/2000/2400 2500/
3000/3200/4000/5000

Environmental Conditions
●
Operating temperature:
–22ºF to +131ºF
(–30ºC to +55°C)
●
Operating humidity:
0–95% relative humidity
(noncondensing)
●
Storage temperature:
–40ºF to +185ºF
(–40°C to +70°C)

Input Voltage DT-300X
●
Nominal:
●
48–250 Vdc
●
120–240 Vac 50/60 Hz
●

Operating range:
●
28–280 Vdc
●
90–254 Vac 50/60 Hz

Power Consumption
24

48

125

250

120

240

Vdc Vdc Vdc Vdc Vac Vac
10W 10W 10W 10W 10 VA 18 VA

Input Voltage Digitrip 3030/
3031
Description

DT-3010

DT-3020

Nominal

120 Vac

240 Vac

Operating
Range

70–132 Vac 140–264 Vac

Power
Consumption

15 VA

15 VA

●

Overcurrent Functions
and Pickup Ranges
Note: Consult factory for
sensitive ground fault.
●

●

●

Auxiliary Alarm Contacts
●
5A continuous at
120/240 Vac, 30 Vdc
●
5A break at 120/240 Vac,
30 Vdc
Tests
●
Dielectric strength,
current inputs:
●
3000 Vac for 1 minute
●
Phase-to-phase
●
Seismic test: Meets
requirements for UBC® and
California Building Code
Zone 4. ZPA = 3.5
Phase and Ground
Time-Current Curves
●
Thermal:
●
It (Moderately Inverse)
●
I2t (Very Inverse)
●
I4t (Extremely lnverse)
●
FLAT (Definite Time)
●

ANSI (Per ANSI C37.112,
1996):
●
Moderately Inverse
●
Very Inverse
●
Extremely Inverse

IEC (Per IEC 255-3, 1989):
●
IEC-A (Moderately
Inverse)
●
IEC-B (Very Inverse)
●
IEC-C (Extremely
Inverse)
●
IEC-D (Definite Time)

Long Delay or Inverse
Time Overcurrent:
●
Phase: (0.2–2.2) x In
(29 settings)
●
Ground: (0.1–2.0) x In,
None (26 settings)
Short Delay:
●
Phase: (1–11) x In,
None (25 settings)
●
Ground: (0.1–11) x In,
None (45 settings)
Instantaneous:
●
Phase: (1–25) x In,
None (30 settings)
●
Ground: (0.5–11) x In,
None (33 settings)

Time Delay Settings
●
Inverse Time Overcurrent
Time Multiplier:
●
Thermal: 0.2–40
(47 settings)
●
FLAT: 0.2–2 (21 settings)
●
ANSI (all): 0.1–5.0
(50 settings)
●
IEC (all): 0.05–1.00
(20 settings)
●
Short Delay Time: 0.05–
1.5 seconds (22 settings)
Current Monitoring

Timing Accuracy
●
Inverse Time Overcurrent:
±10% at >1.5 x Pickup
●
Short Delay Time: ±50 mS
Communications
●
Eaton’s PowerNet
Compatible
●
Built-in INCOM
●
Data rate is 1200 or
9600 baud
Drawout Case
●
Refer to Page V3-T9-215
for Drawout Case
Dimensions
Terminal Block
●
Make/Break rating:
●
10A at 240 Vac nominal
●
0.25A at 280 Vdc
maximum
●
Terminal wire gauge:
No. 14 to No. 10 AWG
●
Screw torque
requirements: 18-inchpounds

Reference Information
Cross-Reference
There are several products
that are equivalent to the
Digitrip 3000. The following
lists the competitor’s name and
equivalent product to the
Digitrip 3000. In general, the
Digitrip 3000 can be used in
place of the competitive
product.
●
●
●
●

ABB® MMCO, 51
Basler Electric® BEI-51
GE Multilin MDP, 735, 737
Siemens® 7SJ 511, 7SJ 60

Note: Consult factory for
sensitive ground fault.
●

●

●

●

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True rms sensing: threephase and ground
Display accuracy:
●
±1% of Full Scale [ln]
from 0.04 x ln to 1 x In
●
±2% of Full Scale [ln]
from 1 x ln to 2 x In
Ampere demand: Average
demand over 5 minute
sampling window
High load (with selectable
output): 85% of Inverse
Time Overcurrent setting

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V3-T9-211

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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Trip Curve Charts
Digitrip 3000 With Dual-Source Power Supply
Burden Curves

Digitrip 3000 With Dual-Source Power Supply CT Power
Volt-Ampere Curves

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80
0.18

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70

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0.14
CT Burden — Z, Ohms

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CT Power in Volt-Amperes

0.16

0.12
0.1
0.08
0.06
0.04

50
40
30
20
10

0.02
0
0

0

5

10

15

20

25

30

35

40

45

CT Current — Amperes

9

60

Total Burden, With Vac, 3-Phase I

Total Burden, With Vac, 1-Phase I

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Wiring Diagrams

9

Digitrip 3001
Typical wiring diagram for the fixed mount version.

0

5

10

15

20

25

30

45

50

CT Power in VA, With Vac, 1-Phase I

CT Power in VA, No Vac, 3-Phase I

CT Power in VA, No Vac, 1-Phase I

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Volume 3—Power Distribution and Control Assemblies

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CT Power in VA, With Vac, 3-Phase I

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V3-T9-212

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CT Current — Amperes

CA08100004E—November 2013

www.eaton.com

Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

9.4

Digitrip 3000 Typical Wiring System

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V3-T9-213

9.4
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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Digitrip 3000 Typical Wiring Diagram
A

ØA

H

ØB
ØC
AC/DC
Supply

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C1

B1

A1

H
C2

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B2

A2

G1

52a

Close CKT

TB1

3-Phase 3-Wire Residual Ground Connection

TB2
1
2
3

4

View ”A“

A
C

5
6
9
10

B
52b

52

4
5

11
12
13
14
15

Ground

Out
In
Out
In
Zone Common

E G Zone
E G Phase
Zone

See View ”A“
For Residual
CT Connection

A

9

C1

CT

B1

G1

9

A

B

C

A1

Other
Devices

Zero
Sequence
CT

9

52a

F

Digitrip 3000

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TB2
12
Trip
Inst.
TB2
13

G2

B

9

TB2
14
Trip OC
/Comm.
TB2
15

TC

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9

TB2
4
Comm.
Close
TB2
5

CS
C

CS
T

G2

C2 B2 A2

INCOM
Network
INCOM Shield Tie Point C
Communication
Close or High Load Alarm D

6
7
8

Trip Alarm

9
10
11

Protection
OFF
Alarm

12
13

Trip Inst.
or Ground D

14
15

Trip OC or Phase/
Communications D

A = CTs can be located on either
side of the circuit breaker.
CT polarities can be toward or
away from the circuit breaker.
B = The 52b contact is required for
proper operation of the Digitrip
3000 Protective Relay.
C = TB2 terminal 3 is not connected
to ground or any electrical
circuit in the Digitrip 3000.
D = Configurable contact, refer to DIP
switch settings.
E = Remove jumpers if Zone Interlocking
is required.
F = Use Eaton Cable CAT # IMPCABLE,
Style # 2A95705G01; Belden 9463 cable
family; or equivalent Commscope or
Quabbin cables.
G = Wire spec: 600 V 90ºC,
UL 1039 rated wire.
H = For the DT3030 to be ”CE Compliant,“
the power supply input fuse must be
rated at a maximum of 0.25 amperes.

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Dimensions

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Drilling Pattern

Approximate Dimensions in Inches (mm)

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2.69
(68.3)

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5.38
(136.7)

8.90
(226.1)
9.38
(238.3)
6.68
(169.7)

4.69
(119.1)

4.45
(113.0)

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2.23
(56.7)

.06
(1.5) RAD
4 Places

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2.53
(64.3)

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5.06
(128.5)

.218
DIA 10 Places
(5.5)

Note
Panel cutout dimensions for all versions of the Digitrip 3000 relay.

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Volume 3—Power Distribution and Control Assemblies

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9.4

Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Approximate Dimensions in Inches (mm)

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Digitrip 3010/3020

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6.03
(153.2)
6.72
(170.7)

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3.74
(95.0)

5.45
(138.4)

.51
(13.0)

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S/N000217
P971210
4D13125G01

Digitrip 3000

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Terminal
Block

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AC Input
100-120 Vac, 50/60Hz

10.25
260.3)

9.31
(236.5)

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Digitrip 8010 Protective Relay
with Dual-Source Power Supply

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.50
(12.7)

1.05
(26.7)

.62
(15.7)

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5.74
(145.8)

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Digitrip 3000

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6.72
(170.7)
3.36
(85.3)

3.74
(95.0)

2.67
(67.8)

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1.87
(47.5)

0.39
(9.9)

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5.12
(130.0)

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4.65
(118.1)

0.37
(9.4)

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1.48
(37.6)

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9.31
(236.5)

10.25
(260.4)

5.25
(133.4)

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0.50
(12.7)

1.05
(26.7)

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0.29
(7.4)

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0.62
(15.7)

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V3-T9-215

9.4
9

Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Approximate Dimensions in Inches (mm)
Rear View of Digitrip 3001 Drawout Outer Case Terminal Layout

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9

11

12

13

14

15

16

(+)

17

18 Zone Common

(–)

19

20

Breaker “b” Input

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9

Gnd Zone Out
Ph Zone Out

ac/dc Input

B2

9

23

24

25

26

Unused

11 12

A1

Unused

27

28

29

30

45

46

47

48

49

50

Communication
Close

51

52 Communication

Trip Inst
or Ground

53

54

Trip Inst
or Ground

Trip OC or
Phase /Comm

55

56

Trip OC or
Phase /Comm

G2

Unused

57

58

Unused

Unused

59

60

Equip Gnd

47 48

19 20

49 50

51 52

23 24

53 54

25 26

55 56

27 28

57 58

29 30

Unused

Close

66C2025H01

66C2025H02

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Digitrip-3000 Feeder Protection Relay (Fixed Case)

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Height

Width

Depth

Shipping Weight
Lbs (kg)

10.25 (260.4)

6.72 (170.7)

2.96 (75.2)

0.0 (0.0)

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V3-T9-216

Protection
Off
Alarm

9.51
(241.6)

B1
C1

INCOM
Network

41 42

17 18

21 22

C2

44 Shield Tie Point

Trip
Alarn

45 46

22

43

Ph Zone In

Current Input
A2

42

Unused

Gnd Zone In

43 44

21

41

INCOM
Network

Breaker “b” Input

120 – 240 Vac
50/60 HZ
48 – 250 Vdc

G1

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Hole for Viewing INCOM
Communications Activity LED.

5.23
(132.8)

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

9.4

Contents

VR-300

Description

Page

Product Selection Guide . . . . . . . . . . . . . . . . . . . . .
FP-6000 Feeder Protection. . . . . . . . . . . . . . . . . . .
FP-5000 Feeder Protection. . . . . . . . . . . . . . . . . . .
FP-4000 Feeder Protection. . . . . . . . . . . . . . . . . . .
MP-3000 Motor Protection. . . . . . . . . . . . . . . . . . .
MP-4000 Motor Protection. . . . . . . . . . . . . . . . . . .
MD-3000 Motor/Generator Differential Relay. . . . .
Digitrip 3000. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
VR-300 Multifunctional Voltage Relay
Technical Data and Specifications . . . . . . . . . . .
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DP-300 Current Differential Protection Relay . . . . .
EDR-3000 Feeder Protection . . . . . . . . . . . . . . . . .
ETR-4000 Transformer Protection Relay. . . . . . . . .
Ground Fault Relay . . . . . . . . . . . . . . . . . . . . . . . . .
Universal RTD Module . . . . . . . . . . . . . . . . . . . . . .
IQ 125 Volt DC Power Supply . . . . . . . . . . . . . . . . .

9

V3-T9-158
V3-T9-162
V3-T9-172
V3-T9-180
V3-T9-188
V3-T9-198
V3-T9-204
V3-T9-207

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V3-T9-218
V3-T9-220
V3-T9-221
V3-T9-226
V3-T9-237
V3-T9-250
V3-T9-254
V3-T9-258

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VR-300 Multifunctional Voltage Relay
Product Description
The VR-300 is an industrial
grade protective relay that
offers multiple protective
features in a single package,
ideal for standalone protection
or for the implementation of
transfer schemes.
Using a digital processor to
measure true rms values
enables a high degree of
measuring accuracy

regardless of harmonics,
transients or disturbing
pulses.
The compact size and
multiple functions of the
VR-300 help to simplify
switchgear design. The digital
display offers a user-friendly
interface to set up the unit as
well as monitor the operation
and display any alarms.

Features, Benefits and
Functions
●

●

●

●

●

●
●

Over-/undervoltage
monitoring (59/27)
Over-/underfrequency
monitoring (81O/U)
Voltage asymmetry
monitoring (47)
Sync-check (25) fixed
to relay 3
Zero voltage monitoring:
dead bus start functionality
(close CB to dead bus)
Two configurable relays
Discrete input for blocking
of protective functions or
remote acknowledgment

Standards and Certifications
●

●

●

EMC-Test (CE): Tested
according to applicable
EN guidelines
Listings: CE Marking;
UL listing for ordinary
locations, UL/cUL listed,
ordinary locations,
File No.: E231544
Additional approvals: IEEE
C37.90.1 and C37.90.2

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CA08100004E—November 2013

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V3-T9-217

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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Technical Data and Specifications
Measuring Voltage
●
Standard (Vrated) delta:
66/115 Vac
●
Maximum value Vph-ph
max., (UL/cUL):
Max. 150 Vac
●
Rated voltage Vph-ground:
50 Vac/2.5 kV
●
Rated surge voltage: 2.5 kV
●
Measuring frequency:
40.0 to 80.0 Hz
●
Accuracy: Class 1
●
Linear measuring range:
1.3 x Vrated.
●
Input resistance:
0.21 M ohms
●
Maximum power
consumption per path:
< 0.15W
Ambient Variables
●
Wide range power supply:
90 to 250 Vac/Vdc
●
Intrinsic consumption:
Max. 12 VA
●
Ambient temperature:
●
Storage: –22ºF to 176ºF
(–30ºC to 80°C)
●
Operational: –4ºF to
158°F (–20ºC to 70°C)
●
Ambient humidity: 95%,
noncondensing
●
Maximum altitude:
6562 ft (2000m)
●
Degree of pollution: 2
Discrete Inputs—Isolated
●
Input range (VCont, Discrete
Input): Rated voltage
18 to 250 Vac/Vdc
●
Input resistance:
Approximately 68 K ohms

Relay Outputs—Potential Free
Contact material: AgCdO
●
General purpose (GP)
(VCont, Relay Output):
●
AC: 2.00 Aac at 250 Vac
●
DC: 2.00 Adc at 24 Vdc,
0.22 Adc at 125 Vdc,
0.10 Adc at 250 Vdc
●
Pilot duty (PD) (VCont, Relay
Output):
●
AC: B300
●
DC: 1.00 Adc at 24 Vdc,
0.22 Adc at 125 Vdc,
0.10 Adc at 250 Vdc

Typical Nameplate

●

Typical VR-300 Nameplate

Housing
●
Type: APRANORM
DIN 43 700
●
Wiring: Screw-type,
terminals 2.5 mm2
(0.0039 in.2)
●
Recommended tightening
torque: 0.5 Nm (0.369 ft/
lbs). Use 140/167°F (60/
75°C) Copper Wire Only.
Use Class 1 Wire Only
(or Equivalent)
Protection
●
Protection system: IP42
from front with correct
mounting
●
IP54 from front
with gasket
●
(Gasket: P/N 8923-1036)
IP20 from back
●
Front foil: Insulating
surface

Reference Information
Reference Conditions
Measuring Value

fL1, fL2, fL3

Accuracy

40.0 to.80.0 Hz

0.05 Hz

0 to 520, 0 to 65 kV

1% 1

Voltage
VL1, VL2, VL3, VL12, VL23, VL31

The data apply to the following
reference conditions:
●

●

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●

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●

9

●

9

●

9

Display Range

Frequency

Input voltage = Sinusoidal
rated voltage
Frequency = Rated
frequency ±2%
Power supply = Rated
voltage ±2%
Power factor cos f = 1
Ambient temperature =
73ºF (23°C) ±2K
Warm-up period =
20 minutes

Note
1 Accuracy depending on the configured
transformer ratio.

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Volume 3—Power Distribution and Control Assemblies

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9.4

Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Wiring Diagrams
Three-Line Wye

9

Three-Line Delta

9

3

L3

4

N

Measuring
Voltage

1

2

L2

L1

2

1

L1

L2

3

VT

VT

L3

4

A B C

A B C

N

9
Measuring
Voltage

9
9
9
9

52
72 71 70

VT

VT

L1
Synchronizing
Voltage

L2
L3

a)

9
72 71 70

52

L1
Synchronizing
Voltage

L2
L3

a)

9

a) Not Measured
Not Required

a) Not Measured
Not Required

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9

Load

Load

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9

VR-300

9

Measuring Voltage L3
Measuring Voltage L2
Measuring Voltage L1

70 71 72

Synchronizing Voltage L3
Synchronizing Voltage L2
Synchronizing Voltage L1

The synchronizing voltage must be connected
3-phase if the measuring voltage is connected
3-phase (N not connected). If the measuring
voltage is connected 4-phase (L1, L2, L3, N),
the synchronizing voltage may be connected
2-phase (L1-L2). L3 is connected only for
compensation and is not measured.

5 6 7 8

2/3
Synchronizing System (Fixed)

Not Measured.

90 to 250 Vac/dc
0 Vdc
Blocking of protective functions
or remote acknowledgement.

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9

9 10 11 12 13 14 15 16

(Measuring Voltage N)
Measuring Voltage
3-Wire or
4-Wire System

VR-300 (Multi-Function Voltage Relay)

1 2 3 4

3/4

9

CB

Supervised System
(Variable)

3/4

9

Relay 3
(Fixed to synch-check
zero voltage configurable)

Relay 2

Relay 1
(Ready for Operation)

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9

Measuring Voltage: 100 Vac

9

The socket for the PC parameterization
is situated on the side of the unit. This is
where the DPC must be plugged in.

9

Subject to Technical Modifications.

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V3-T9-219

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Dimensions

9

VR-300

Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Approximate Dimensions in Inches (mm)

Front View

Side View

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9
2.84
(72.1)

9

2.60
(66.0)

Configuration Port

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9
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9

Bottom View
Back View with
Connecting Terminals

52.00
(1320.8)

.32
(8.1)

Configuration Port

9

1

9

3.45
(87.6)

3.78
(96.0)

15

70 75

9

32

17

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9
9
9
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9

Configuration Port

Front Panel Cutout
Width

Height

3.62 [+0.03] (92.0 [+0.8])

2.68 [+0.03] (68.0 [+0.7])

VR-300 Dimensions
Width

Height

Depth

Shipping Weight
Lbs (kg)

3.78 (96.0)

2.84 (72.1)

5.20 (132.1)

2.14 (0.97)

Dimensions
in Inches (mm)

Tolerance
in Inches (mm)

9

VR-300 Panel Cutout

9

Measure

Description

B
b

9

Height
H

Total

2.83 (71.9)

—

9

h

Panel cutout

2.68 (68.1)

0.03 (+0.7)

h’

Housing dimension

2.60 (66.0)

—

9

B

Total

3.78 (96.0)

—

b

Panel cutout

3.62 (91.9)

0.03 (+0.8)

9

b’

Housing dimension

3.54 (89.9)

—

6.30 (160.0)

—

9

b‘

Width

h‘ h

Depth (Including Terminals)

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9

Total

The maximum permissible corner radius for cutout is
0.08 inches (2.0 mm).

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V3-T9-220

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

9.4

Contents

DP-300

Description

Page

Product Selection Guide . . . . . . . . . . . . . . . . . . . . .
FP-6000 Feeder Protection. . . . . . . . . . . . . . . . . . .
FP-5000 Feeder Protection. . . . . . . . . . . . . . . . . . .
FP-4000 Feeder Protection. . . . . . . . . . . . . . . . . . .
MP-3000 Motor Protection. . . . . . . . . . . . . . . . . . .
MP-4000 Motor Protection. . . . . . . . . . . . . . . . . . .
MD-3000 Motor/Generator Differential Relay. . . . .
Digitrip 3000. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
VR-300 Multifunctional Voltage Relay . . . . . . . . . .
DP-300 Current Differential Protection Relay
Standards and Certifications . . . . . . . . . . . . . . .
Technical Data and Specifications . . . . . . . . . . .
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . .
EDR-3000 Feeder Protection . . . . . . . . . . . . . . . . .
ETR-4000 Transformer Protection Relay. . . . . . . . .
Ground Fault Relay . . . . . . . . . . . . . . . . . . . . . . . . .
Universal RTD Module . . . . . . . . . . . . . . . . . . . . . .
IQ 125 Volt DC Power Supply . . . . . . . . . . . . . . . . .

V3-T9-158
V3-T9-162
V3-T9-172
V3-T9-180
V3-T9-188
V3-T9-198
V3-T9-204
V3-T9-207
V3-T9-217
V3-T9-222
V3-T9-222
V3-T9-224
V3-T9-226
V3-T9-237
V3-T9-250
V3-T9-254
V3-T9-258

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DP-300 Current Differential Protection Relay
Product Description

Application Description

The current flowing in the
individual conductors is
measured by means of
current transformers
installed on both sides of
the protection zone. These
transformers form the limits
of the protection zone. By
means of freely configurable
relays, the unit will indicate
if any of the adjusted fault
current limits have been
exceeded. The unit counts
with a slope characteristic
to prevent operation due
to CT ratio mismatches,
CT ratio errors, CT saturation
and errors because of tap
changes.
For transformer applications,
the unit has 2nd and 5th
harmonic restraints to
prevent misoperation in case
of inrush currents caused
for energization or over
excitation of the transformer.

When used in transformer
applications, the DP-300
allows you to change the
phase shift of the
transformer, without having
to worry about changing the
connection of the external
CTs, via selecting the vector
group in the display. The
different nominal currents of
the high and low voltage side
of the transformer, as well as
the transformer ratio, may be
configured. Every measuring
point may be set separately.
These features permit the
DP-300 to be universal in its
applications.

The DP-300 offers a threephase current differential
protection for generators,
motors and two winding
transformers, see Page V3T9-223.

Features, Benefits
and Functions
●

●

●

●
●
●

The DP-300 permits design
simplification of the
switchgear cabinet, facilitates
the commissioning, ensures
the operation of the system,
is user friendly and increases
the availability of the system.

●
●

●
●

●

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

9

True rms 6 x current
measurement, three-phase
system on both sides of
the protected zone
Secondary current
transformer output
available as: /1A or /5A
Configurable trip set
points for:
●
Differential current (Id)
●
Restrain current (Is)
Configurable delays
Four alarm relays
Three discrete inputs (for
blocking, acknowledgment
and configuration)
Two-line LC display
Configurable transformer
ratio
Configurable vector group
Transformer inrush
detection/suppression
Individual configuration of
the nominal current for the
high- and low-voltage side
of the transformer
Configurable transformer
ratio separated for currents
of high- and low-voltage
side of the transformer

www.eaton.com

V3-T9-221

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Protective Relays

Standards and Certifications

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Metering Devices, Protective Relays, Software and Connectivity

Listings: CE marking;
UL listing for ordinary
locations, UL/cUL listed,
ordinary locations,
File No.: E231544
Additional Approvals: IEEE
C37.90.1 and C37.90.2

Transformer Vector Groups
●

EMC-Test (CE): Tested
according to applicable
EN guidelines

Technical Data and Specifications
Measurements, Currents—
Isolated
●
Measured currents
(Nominal value IN): /5A
●
Measuring frequency:
40.0 to 70.0 Hz
●
Accuracy: Class 1
●
Linear measuring range:
5.0 x IN
●
Maximum power
consumption per path:
< 0.15 VA
●
Rated short time current
(1s): 30.0 x IN
Ambient Conditions
●
Voltage supply: 90 to
250 Vac/Vdc
●
Intrinsic consumption:
Max. 10 VA
●
Ambient temperature
storage: –22ºF to 176°F
(–30ºC to 80°C)
●
Operational: –4ºF to 158°F
(20ºC to 70°C).
●
Ambient humidity:
95%, noncondensing
●
Maximum altitude:
6562 ft (2000m)
●
Degree of pollution: 2
Digital Inputs—Isolated
●
Input range
(VCont, Digital Input):
●
Nominal voltage
●
18 to 250 Vac/Vdc
●
Input resistance:
Approximately 68 K ohms

9

Relay Outputs—Isolated
Contact material: AgCdO
●
Resistive load (GP)
(VCont, Relay Output):
●
AC: 2.00 Aac @ 250 Vac
●
DC: 2.00 Adc @24 Vdc,
0.36 Adc @ 125 Vdc,
0.18 Adc @ 250 Vdc
●
Inductive load (PD)
(VCont, Relay Output):
●
AC: B300
●
DC: 1.00 Adc @ 24 Vdc,
0.22 Adc @ 125 Vdc,
0.10 Adc @ 250 Vdc
●

Transformer Vector Groups
Vector Group

Description

Yd5

HV: l-Circuit Arrangement, LV: n-Circuit Arrangement, 5 x 30° = 150°

Yy0

HV: l-Circuit Arrangement, LV: l-Circuit Arrangement, 0°

Dy5

HV: n-Circuit Arrangement, LV: l-Circuit Arrangement, 5 x 30° = 150°

Dd0

HV: n-Circuit Arrangement, LV: n-Circuit Arrangement, 0°

Yz5

HV: l-Circuit Arrangement, LV: Z-Circuit Arrangement, 5 x 30° = 150°

Dz0

HV: n-Circuit Arrangement, LV: Z-Circuit Arrangement, 0°

Yd11

HV: l-Circuit Arrangement, LV: n-Circuit Arrangement, 11 x 30° = 330°

Yy6

HV: l-Circuit Arrangement, LV: l-Circuit Arrangement, 6 x 30° = 180°

Dy11

HV: n-Circuit Arrangement, LV: l-Circuit Arrangement, 11 x 30° = 330°

Dd6

HV: n-Circuit Arrangement, LV: n-Circuit Arrangement, 6 x 30° = 180°

Yz11

HV: l-Circuit Arrangement, LV: Z-Circuit Arrangement, 11 x 30° = 330°

Dz6

HV: n-Circuit Arrangement, LV: Z-Circuit Arrangement, 6 x 30° = 180°

Typical Nameplate
Typical DP-300 Nameplate

Protective Functions
●
Operating Time:
Minimum 100m
●
Differential current:
Minimum 10%
Housing
●
Type: APRANORM
DIN 43 700
●
Terminals: Screw-type,
terminals depending on
connector, 0.00388 in.2
(2.5 mm2) or 0.00620 in.2
(4.0 mm2)
●
Recommended
tightening torque:
●
4.43 in./lbs / [0.00620
in.2] 5.3 in./lbs)
●
[2.5 mm2] 0.5 Nm /
[4.0 mm2] 0.6 Nm
([0.00388 in.2]
●
Use 140ºF/167°F (60ºC/
75°C) copper wire only
●
Use Class 1 wire only
(or equivalent)
Housing Protection
●
Protection system:
●
IP42 from front with
correct mounting
●
IP54 from front
with gasket
●
Gasket: P/N 8923-1038)
●
IP20 from back
●
Front foil: Insulating surface

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

9.4

Wiring Diagrams

9

Protected Area Principle—Fault “A” Outside = No Alarm, Fault “B” Inside = Alarm
IL

9

IL
or

Ia

or

or

Ib

or

Schematic Circuit Diagrams (Single-Phase Version):
A) Fault Outside the Protection Area
B) Fault Inside the Protection Area

Ib

Ia

B)

A)

9
9
9

DP-300

9
9

DP-300
Block Differential Protection
Possible Protected Objects:

M

9

G

9
9
9
79

9
9
9

Current IL2 Transducer Set 1

Current IL1 Transducer Set 1

18 19

N/C
Common

9
9
9

15 16

Configuration Off

Blocking

9

12

9
11
10
9

9
9

6

Relay 3
Ready for Operation

9

8

N/C

9

7

Relay 4

5

9
9

4

Relay 2

3

Current IL3 Transducer Set 1

Acknowledgement

Relay 1

9
9

1

Current IL3 Transducer Set 2

17

Current IL2 Transducer Set 2

DP-300 — Current Differential Protection Relay

31 32
34
33
35 36
30
29
28
27

The Transducer Ratio is
Adjustable in the Display.

25 26
L2

L3

Transducer Set 1 (High Voltage Side)
L1

9

Current IL1 Transducer Set 2

Protected Object

The Transducer Ratio is
Adjustable in the Display.

L (90 to 250 Vac/dc)

83 81

PE

9

2

Transducer Set 2 (Low Voltage Side)

N

Subject to Technical Modifications.

Volume 3—Power Distribution and Control Assemblies

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V3-T9-223

9.4
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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Tripping Characteristics
DP-300

9
Y=

9

Id

[%]

Ia

IN

Monitoring step 2, fixed limit (100%)

100

9

Id = Ia - Ib
Monitoring step 2
fixed limit (85%)

1

X12, Y2 and Y1: adjustable
P (X12/Y2)
P (X12/Y1)

9

2
1= 2
Monitoring
step 1 fixed limit
(85%-Y2+Y1)

35

X=

10

9
9

Ia + Ib
2

Characteristic gradient (fixed) = 10%

9

9

IS =

Monitoring step 2
(X12 = 100% / Y2 = 35%
Monitoring step 1
(X12 = 100% / Y1 = 10%

9

9

Ib

Protected
object

100

400

300

200

IS

[%]

IN

500

Dimensions

9

Approximate Dimensions in Inches (mm)

9

DP-300

9

Width

Height

Depth

Shipping Weight
Lbs (kg)

5.67 (144.0)

3.78 (96.0)

5.20 (132.1)

2.2 (0.99)

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9

DP-300
Side View

Front View

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9

3.54
(89.9)

3.78
(96.0)

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9

0.32
(8.0)

Bottom View
5.20
(132.1)

Back View with
Connecting Terminals

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9

80
5.67
(144.0)

9

5.35
(135.9)

83
36

1

25
24

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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9.4

Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Approximate Dimensions in Inches (mm)

9

Front panel cutout

9

Width

Height

5.43 [+0.039] (138.0 [+1.0])

3.63 [=0.031] (92.0 [+0.8])

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DP-300 Panel Cutout
Measure

Description

Dimensions

Tolerance

H

Total

3.78 (96.0)

—

B

h

Panel cutout

3.62 (91.9)

0.03 (+0.8)

b

h’

Housing dimension

3.54 (89.9)

—

b‘

B

Total

5.67 (144.0)

—

b

Panel cutout

5.43 (137.9)

0.04 (+1.0)

b’

Housing dimension

5.35 (135.9)

—

6.30 (160.0)

—

9

Height

9
9

Width

9
h‘ h

9

H

Depth (Including Terminals)
Total

9
9

The maximum permissible corner radius for cutout is
0.08 inches (2.0 mm).

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V3-T9-225

9.4
9

Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Contents

EDR-3000

Description

9

Page

Product Selection Guide . . . . . . . . . . . . . . . . . . . .
FP-6000 Feeder Protection . . . . . . . . . . . . . . . . . .
FP-5000 Feeder Protection . . . . . . . . . . . . . . . . . .
FP-4000 Feeder Protection . . . . . . . . . . . . . . . . . .
MP-3000 Motor Protection . . . . . . . . . . . . . . . . . .
MP-4000 Motor Protection . . . . . . . . . . . . . . . . . .
MD-3000 Motor/Generator Differential Relay . . . .
Digitrip 3000 . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
VR-300 Multifunctional Voltage Relay . . . . . . . . . .
DP-300 Current Differential Protection Relay . . . . .
EDR-3000 Feeder Protection
Features, Benefits and Functions . . . . . . . . . . .
Standards and Certifications . . . . . . . . . . . . . . .
Catalog Number Selection . . . . . . . . . . . . . . . .
Technical Data and Specifications . . . . . . . . . . .
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . .
ETR-4000 Transformer Protection Relay . . . . . . . .
Ground Fault Relay. . . . . . . . . . . . . . . . . . . . . . . . .
Universal RTD Module . . . . . . . . . . . . . . . . . . . . . .
IQ 125 Volt DC Power Supply. . . . . . . . . . . . . . . . .

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V3-T9-158
V3-T9-162
V3-T9-172
V3-T9-180
V3-T9-188
V3-T9-198
V3-T9-204
V3-T9-207
V3-T9-217
V3-T9-221
V3-T9-228
V3-T9-228
V3-T9-229
V3-T9-230
V3-T9-235
V3-T9-237
V3-T9-250
V3-T9-254
V3-T9-258

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EDR-3000 Feeder Protection
Product Description
The EDR-3000 Protective
Relay is a multifunction,
microprocessor-based
overcurrent relay designed
for both ANSI and IEC
applications. It is a panelmounted, self-contained unit
that operates from either AC
or DC control power. The
EDR-3000 design provides
true rms and fundamental
sensing of each phase and
ground current. Only one unit
is required for each threephase circuit.
Current monitoring and
operator selectable protective
functions are integral to each
relay. The EDR-3000 relay
operates from the 5A or 1A
secondary output of standard
current transformers. Current
transformer ratio information
is quickly programmed into
the unit via settings. This
enables the relay to display
metered current in primary
amperes, secondary amperes
or per unit values. The EDR3000 features a user-friendly
operations panel to monitor
and program the relay.
Operating parameters and
troubleshooting information
are displayed in the 128 x 64
LCD. In addition, all data and
information can be

V3-T9-226

communicated to a host
computer equipped
with PowerPort-E™.
A “Communication Trip” and
“Communication Close”
control command can also be
initiated by a host computer
with an authorized access
code for remote breaker
operation.

The EDR-3000 may be
applied as the transformer
primary protection or as
backup to the differential
protection, see below.

50

Primary Feeder Circuit
Protection

CB
52

50

51

50G

51G

EDR-3000

Resistor

Transformer Overcurrent
Protection
51

51G

50

51

CB

50G

51G

CB
EDR-3000

The EDR-3000 may be
connected to the secondary
side of a delta-wye grounded
transformer with the ground
element connected to a
separate CT in the neutral
connection of the
transformer. With this
connection, a lower CT
ratio and a pickup setting
can be used to provide
more sensitive ground fault
protection especially for
resistance grounded
systems, shown below.

The EDR-3000 relay has
special provisions for
connection in a Zone
Interlocking scheme that can
be used for bus protection
or to improve protection
coordination in a tight or close
system. Zone Interlocking
is described in following
sections. In addition the
EDR-3000 has multiple
setting groups that can be
used to reduce arc flash
hazard with instantaneous
elements.
Residual Ground Connection

CB-52

CA08100004E—November 2013

www.eaton.com

a

2

b
c

5
8

3

6
9
50/51
50N/51N
GND 12
11

Load

Volume 3—Power Distribution and Control Assemblies

50G

EDR-3000

Application Description
The EDR-3000
microprocessor-based relay
provides reliable three-phase
and ground overcurrent
protection for all voltage
levels. It can be used for
any application where
instantaneous and/or time
overcurrent protection is
required. It is most commonly
used as primary feeder circuit
protection, shown below.

Transformer Secondary
Protection with Neutral CT
Connection

EDR-3000

Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Overcurrent Protection
The EDR-3000 provides
complete three-phase and
ground protection with
separate elements and
settings. The relay can be
used with CTs from 1 to
50,000A of primary current
and 1 or 5A of secondary
current. The CT ratio can be
set independently for phase
and ground, allowing the
ground element to be
connected in either the
residual or the separate
ground CT configuration,
shown on below.
Separate Zero Sequence
Ground CT Connection
a

2

b

5

3
6

c

8

9
50/51

CB-52
50G/51G
12
GND 11

EDR-3000

Zone Selective Interlocking
(Phase and Ground)
Note: Refer to the Ordering
Information and (Catalog Ordering
Information) for optional features,
see Page V3-T9-229.

Zone Selective interlocking
is a protection function to
minimize equipment damage
resulting from a phase or a
ground fault in an area where
long time and/or short time
delay is in use.
When the “Ground Zone
Interlocking” feature is
utilized, an immediate trip is
initiated when the fault is in
the breaker’s zone of
protection, regardless of its
preset time delay. When the
“Phase Zone Interlocking”
feature is utilized, the time
overcurrent elements work
as follows. The instantaneous
phase element will initiate an
immediate trip when the fault
is in the breaker's zone of
protection, regardless of its
preset time delay. For the
time overcurrent phase
element, the current sensed
by the EDR-3000 must
exceed 1.5 times the pickup
setting for the zone selective
interlocking to initiate an
immediate trip signal when
the fault is in the breaker’s
zone of protection.
Upstream EDR-3000
protected breakers are
restrained from tripping
immediately by an
interlocking signal from the
downstream EDR-3000 relay.
This interlocking signal
requires only a pair of
wires from the downstream
breaker to the upstream
breaker. It provides standard

coordinated tripping when
the fault is located outside
the zone of protection.
In the sample zone
interlocking system shown
below, circuit breakers A,
B and C are equipped with
EDR-3000 overcurrent relays.
Fault Location Zone 3
Note: For the time overcurrent
phase element, the current
sensed by the EDR-3000 must
exceed 1.5 times the pickup
setting for the zone selective
interlocking to initiate an
immediate trip signal when
the fault is in the breaker's zone
of protection.

If a fault occurs at a point
in Zone 3, the EDR-3000
of downstream breaker C
senses the fault and sends
a restraining signal to the
upstream EDR-3000 of
feeder breaker B. Having
received this signal, the
EDR-3000 of feeder breaker
B withholds its trip command.
As a result, only downstream
breaker C is tripped.
Fault Location Zone 2
Note: For the time overcurrent
phase element, the current
sensed by the EDR-3000 must
exceed 1.5 times the pickup
setting for the zone selective
interlocking to initiate an
immediate trip signal when the
fault is in the breaker’s zone
of protection.

9.4

If a fault occurs at a point in
Zone 2, the EDR-3000 of
feeder breaker B senses the
fault and sends a restraining
signal to the upstream EDR3000 of main breaker A. The
EDR-3000 of the downstream
breaker C does not see this
fault since it is situated on the
downstream side of the fault.
As a result, the EDR-3000 of
downstream breaker C does
not send a restraining signal
to the EDR-3000 of feeder
breaker B. Since it did not
receive a restraining signal
from the EDR-3000 of
downstream breaker C, the
EDR-3000 of feeder breaker
B identifies that the fault is in
Zone 2 and immediately trips
feeder breaker B, regardless
of its time setting.
Fault Location Zone 1
Note: For the time overcurrent
phase element, the current
sensed by the EDR-3000 must
exceed 1.5 times the pickup
setting for the zone selective
interlocking to initiate an
immediate trip signal when the
fault is in the breaker's zone of
protection.

If a fault occurs in Zone 1,
no restraining signal is
received by the Digitrip
of main breaker A. As a
result, main breaker A is
immediately tripped by its
EDR-3000 overcurrent relay,
regardless of its time setting.

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Sample Zone Selective Interlocking System

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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Features, Benefits and Functions

Standards and Certifications
●

Applications
●
Provides reliable threephase and ground
overcurrent protection
for all voltage levels
●
Primary feeder circuit
protection
●
Primary transformer
protection
●
Backup to differential
protection
●
May be used where
instantaneous and/or time
overcurrent protection is
required
●
Ground element capable
of residual, zero sequence
or external source
connections
Protection Functions
●
Breaker failure (50BF)
●
Phase overcurrent
protection per time-current
curve (51-1, 51-2, 51-3)
●
Calculated ground fault
protection per time-current
curve (51R-1, 51R-2)
●
Independent measured
ground or neutral fault
protection per time-current
curve (51X-1, 51X-2)
●
Phase instantaneous
overcurrent (50-1, 50-2,
50-3)

●

●

●

●

●

●

Calculated ground or
neutral instantaneous
overcurrent (50R-1, 50R-2)
Independent measured
ground or neutral
instantaneous overcurrent
(50X-1, 50X-2)
Curve shapes: ANSI,
IEC, or thermal curves
(11 thermal curves)
Instantaneous or time
delay reset
True rms or fundamental
sensing of each phase
and ground current
Zone selective interlocking
(phase and ground) or
reverse blocking for
bus protection

Note: Refer to the Ordering
Information and Page V3-T9-229
(Catalog Ordering Information)
for optional features.

Metered Values
●
rms and fundamental
phase currents
●
rms and fundamental
ground currents
●
Maximum, minimum
and average rms and
fundamental phase
currents
●
Maximum, minimum
and average rms and
fundamental ground
currents

Monitored and Data
Recording Values
●
Trip circuit monitoring
●

Note: Refer to the Ordering
Information and Page V3-T9-229
(Catalog Ordering Information)
for optional features.
●

●

●

●

●

Breaker wear (accumulated
interrupted current)
Fault data logs (up to
20 events)
Sequence of event
recorders (up to
300 events)
Waveform capture
(3600 cycles total)
CT supervision

●

●

●
●

Generic standard:
●
EN 61000-6-2
●
EN 61000-6-3
Product standard:
●
EC 60255-6
●
EN 50178
UL 508 (Industrial Control
Equipment)
CSA C22.2 No. 14-95
(Industrial Control
Equipment)
ANSI C37.90
UL, CSA, CE

Control Functions
●
Remote open/close
●
Programmable I/O
●
Programmable LEDs
●
Multiple setting groups
(up to four)
Communication
●
Local HMI
●
Front RS-232 port
●
Rear RS-485 port
●
IRIG-B11
●
Protocols
●
Modbus RTU

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Volume 3—Power Distribution and Control Assemblies

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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

9.4

Catalog Number Selection
The catalog number
identification chart defines
the electrical characteristics
and operation features
included in the EDR-3000. For
example, if the catalog number
were EDR3000-A0BA1,
the device would have
the following:

9

EDR-3000
(A)–Four digital inputs,
four output relays
(0)–Phase current 5A/1A,
Ground Current 5A/1A,
Power supply: 19–300 Vdc,
40–250 Vac

(B)–Modbus-RTU (RS-485)

9

(A)–Without conformal
coating

9

(1)–Projection panel mount

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Relay Removable Terminals

EDR3000 A 0 B A 1

9
9

Hardware Option 1
A = 4 digital inputs, 4 outputs,
removable terminals
B = 8 digital inputs, 6 outputs, removable
terminals, trip coil monitor 1
C = 4 digital inputs, 4 outputs, removable
terminals, zone interlocking 1
and IRIG-B 1

Hardware Option 2
0 = Phase current 5A/1A, ground
current 5A/1A, power supply
range: 19–300 Vdc,
40–250 Vac

Communication Options
B = Modbus-RTU
(RS-485)
C = Modbus-TCP 1
(RJ-45)

Conformal Coating
Options
A = None
B = Conformal coated
circuit boards

Mounting Options
0 = Standard mount
1 = Projection panel mount

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Relay Fixed Terminals 2

EDR3000 E 0 B A 1

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9

Hardware Option 1 2
E = 4 digital inputs,
4 outputs, fixed terminals
F = 4 digital inputs,
4 outputs, fixed terminals,
zone interlocking
and IRIG-B

Hardware Option 2 2
0 = Phase current 1A, ground current 1A, power supply
range: 19–72 Vdc
1 = Phase current 5A, ground current 5A, power supply
range: 19–72 Vdc
2 = Phase current 1A, sensitive ground
current 0.1A, power supply range:
19–72 Vdc
3 = Phase current 5A, sensitive ground
current 0.5 A, power supply range:
19–72 Vdc
4 = Phase current 1A, ground current 1A, power supply
range: 85–300 Vdc,
85–250 Vac
5 = Phase current 5 A, ground current 5A, power supply
range: 85–300 Vdc,
85–250 Vac
6 = Phase current 1A, sensitive ground
current 0.1 A, power supply range:
85–300 Vdc, 85–250 Vac
7 = Phase current 5A, sensitive ground
current 0.5A, power supply range:
85–300 Vdc, 85–250 Vac

Communication
Options
B = Modbus-RTU
(RS-485)
C = Modbus-TCP 2
(RJ-45)

Conformal Coating
Options
A = None
B = Conformal coated
circuit boards

Mounting Options
0 = Standard mount
1 = Projection panel mount

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Notes
1 Consult factory for the availability of eight digital inputs, six outputs, trip coil monitor, zone interlocking, IRIG-B and Modbus-TCP.
2 Consult factory for the availability of fixed terminals.

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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Technical Data and Specifications
Climatic Environmental
Conditions
●
Storage temperature:
–13°F to 158°F (–25°C up
to +70°C)
●
Operating temperature:
–4°F to 140°F (–20°C up
to +60°C)
●
Permissible humidity at
ann. average: <75% rel.
(on 56d up to 95% rel.)
●
Permissible Installation
altitude:
●
<2000m (6561.67 ft)
above sea level
●
If 4000m (13,123.35 ft)
altitude apply, a changed
classification of the
operating and test
voltages may be
necessary
Degree of Protection EN 60529
●
HMI front panel with
seal: IP54
●
Rear side terminals: IP30
Routine Test
●
Insulation test according to
IEC 60255-5: All tests to be
carried out against ground
and other input and output
circuits
●
Aux. voltage supply, digital
inputs, current measuring
inputs, signal relay outputs:
2.5 kV (eff)/50 Hz
●
Voltage measuring inputs:
3.0 kV (eff)/50 Hz
●
All wire-bound
communication interfaces:
1.5 kV DC

Housing
Material, housing:
aluminum extruded section
●
Material, front panel:
aluminum/foil front
●
Mounting position:
horizontal (±45° around the
X-axis must be permitted)
●

Plug-in Connector with
Integrated Short-Circuiter
(Conventional Current Inputs)
●
Nominal current:
1A and 5A
●
Continuous loading
capacity: 4 x In/
continuously
●
Overcurrent withstand:
30 x In/10s
●
100 x In/1s
●
250 x In/10 ms
(1 half-wave)
●
Screws: M4, captive type
according to VDEW
●
Connection cross-sections:
●
2 x 2.5 mm2 (2 x AWG
14) with wire end ferrule
●
1 x or 2 x 4.0 mm2
(2 x AWG 12) with
ring cable sleeve or
cable sleeve
●
1 x or 2 x 6 mm2
(2 x AWG 10) with
ring cable sleeve or
cable sleeve

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Voltage Supply
Aux. voltage: 19–300 Vdc/
40–250 Vac
●
Buffer time in case of
supply failure: >= 50 ms
at minimal aux. voltage
communication is
permitted to be interrupted
●
Max. permissible making
current:
●
18A peak value for
<0.25 ms
●
12A peak value for
<1 ms
●
The voltage supply must
be protected by a fuse of:
●
2.5A time-lag miniature
fuse 5 x 20 mm (approx.
1/5 in. x 0.8 in.) according
to IEC 60127
●
3.5A time-lag miniature
fuse 6. 3 x 32 mm
(approx. 1/4 in. x
1 1/4 in.) according
to UL 248-14
●

Digital Inputs
Max. input voltage:
300 Vdc/270 Vac
●
Input current: <4 mA
●
Reaction time: <20 ms
●
Fallback time: <30 ms (safe
state of the digital inputs)
●
Four switching thresholds:
Un = 24 Vdc, 48 Vdc,
60 Vdc, 110 Vac/dc,
230 Vac/Vdc Un = 24 Vdc
●
Switching threshold
1 ON
– Switching threshold 1
OFF
– Min. 19.2 Vdc
– Max. 9.6 Vdc
– Un = 48 V/60 Vdc
●

Power Consumption
●
Power supply range: Power
consumption in idle mode
●
Max. power consumption
●
19–300 Vdc: 6W 8.5W
●
40–250 Vac
●
For frequencies of
40–70 Hz: 6W 8.5W
Real-Time Clock
●
Running reserve of the
real-time clock: 1 year min
Display
●
Display type: LCD with
LED background
illumination
●
Resolution graphics
display: 128 x 64 pixel
●
LED-type: two colored,
red/green
●
Number of LEDs, housing
B1: 8

●

●

Switching threshold
2 ON
– Switching threshold 2
OFF
– Min. 42.6 Vdc
– Max. 21.3 Vdc
– Un = 110/120 Vac/dc

●

Switching threshold
3 ON
– Switching threshold 3
OFF
– Min. 88.0 Vdc/
88.0 Vac
– Max. 44.0 Vdc/
44.0 Vac
– Un = 230/240 Vac/Vdc

●

Switching threshold
4 ON
– Switching threshold 4
OFF
– Min. 184 Vdc/
184 Vac
– Max. 92 Vdc/92 Vac

Terminals: screw-type
terminal

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Volume 3—Power Distribution and Control Assemblies

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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

9.4
9

Current and Ground
Current Measurement.
●
Nominal currents: 1A/5A
●
Max. measuring range:
●
up to 40 x In (phase
currents)
●
up to 25 x In (ground
current standard)
●
up to 2.5 x In (ground
current sensitive)
●
Continuous loading
capacity: 4 x In/
continuously
●
Overcurrent proof:
●
30 x In/10s
●
100 x In/1s
●
250 x In/10 ms
(1 half-wave)
●
Power consumption:
Phase current inputs
●
at In = 1A S = 0.15 mVA
●
at In = 5A S = 0.15 mVA
●
Ground current input
●
at In = 1A S = 0.35 mVA
●
at In = 5A S = 0.35 mVA
●
Frequency range: 50 Hz/
60 Hz ±10%
●
Terminals: Screw-type
terminals with integrated
short-circuiters (contacts)

Binary Output Relays
●
Continuous current:
5A AC/DC
●
Switch-on current:
25A AC/DC for 4s
●
Max. breaking current:
5A AC up to 125 Vac
●
5A DC up to 50V (resistive)
●
0.2A DC at 300V
●
Max. switching voltage:
250 Vac/300 Vdc
●
Switching capacity:
2000 VA
●
Contact type:
1 changeover contact
●
Terminals: Screw-type
terminals
Front Interface RS-232
●
Baud rates: 115,200 baud
●
Handshake: RTS and CT
●
Connection: 9-pole
D-Sub plug
RS-485
●
Master/Slave: Slave
●
Connection: 6 screwclamping terminals RM
3.5 mm (138 MIL)
(terminating resistors
internal)

Measuring Accuracy
●
Max. measuring range: up
to 40 x In (phase currents)
up to 25 x In (ground
current standard)
●
Frequency range: 50 Hz/
60 Hz ± 10%
●
Accuracy: Class 0.5
●
Amplitude error if I < In:
±0.5% of the rated value
●
Amplitude error if I > In:
±0.5% of the measured
value
●
Amplitude error if I > 2 In:
±1.0% of the measured
value
●
Resolution: 0.01A
●
Harmonics up to 20% 3rd
harmonic ±2% up to 20%
5th harmonic ±2%
●
Frequency influence
< ±2%/Hz in the range of
±5 Hz of the parameterized
nominal frequency
●
Temperature influence
<±1% within the range
of 0°C up to +60°C

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Tolerances of the
Real-Time Clock
●
Resolution: 1 ms
●
Tolerance: <1 minute/
month (+20°C)

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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Protection Stages Tolerances
Overcurrent Protection Stages 50P(X), 51P(X)
Description
Pickup

If the pick-up value is exceeded, the module/stage is started.

Resetting ratio

Range

Step

Tolerance

0.01–40.00 x In

0.01 xIn

±1.5% of the setting value resp. 1% In

97% or 0.5% x In

—

—

t

Tripping delay

0.00–300.00 x s

0.01 x s

DEFT ±% resp. ±10 ms

Operating time

Starting from l higher than 1.1 x l>

—

—

<+35 ms
<+45 ms

Disengaging time
t-multiplier

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—

—

Time multiplier/tripping characteristic factor

0.05–2.00

0.01

±5%

IEC NINV

0.05–2.00

0.01

±5%

IEC VINV

0.05–2.00

0.01

±5%

IEC EINV

0.05–2.00

0.01

±5%
±5%

IEC LINV

0.05–2.00

0.01

ANSI MINV

0.05–2.00

0.01

±5%

ANSI VINV

0.05–2.00

0.01

±5%
±5%

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ANSI EINV

0.05–2.00

0.01

Flat

0.05–2.00

0.01

±5%

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It

0.05–2.00

0.01

±5%

I2t

0.05–2.00

0.01

±5%

I4t

0.05–2.00

0.01

±5%

Only available if IEC characteristics

0.00–60.00

0.01 x s

±1% resp. ±10 ms

IEC NINV

0.00–60.00

0.01 x s

±1% resp. ±10 ms

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9

Reset mode

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IEC VINV

0.00–60.00

0.01 x s

±1% resp. ±10 ms

IEC EINV

0.00–60.00

0.01 x s

±1% resp. ±10 ms

IEC LINV

0.00–60.00

0.01 x s

±1% resp. ±10 ms

Reset curves if ANSI characteristics

—

—

5%

ANSI MINV

—

—

5%

ANSI VINV

—

—

5%

ANSI EINV

—

—

5%

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Flat

—

—

5%

It

—

—

5%

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ANSI MINV

—

—

5%

I2t

—

—

5%

I4t

—

—

5%

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Note
The tripping delay relates to the time between pickup and trip. The tolerance of the operating time relates to the time between the measured value has exceeded the threshold until
the protection stage is alarmed.

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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

9.4

Ground Current Stages 50G(X), 50N(X), 51G(X), 51N(X)
Description
Pickup

If the pick-up value is exceeded, the module/stage is started.

Resetting ratio

Step

Tolerance

0.01–40.00 x In

0.01 x In

±1.5% of the setting value resp. 1% In

97% or 0.5% x In

—

—

t

Tripping delay

0.00–300.00 x s

0.01 x s

DEFT ±% resp. ±10 ms

Operating time

Starting from lG higher than 1.1 x l>

—

—

<+35 ms

—

—

<+45 ms

Disengaging time
t-multiplier

Reset mode

9

Range

Tripping characteristic factor

0.05–2.00

0.0

±5%

IEC NINV

0.05–2.00

0.0

±5%

IEC VINV

0.05–2.00

0.0

±5%

IEC EINV

0.05–2.00

0.0

±5%

IEC LINV

0.05–2.00

0.0

±5%

ANSI MINV

0.05–2.00

0.0

±5%

ANSI EINV

0.05–2.00

0.0

±5%

Flat

0.05–2.00

0.0

±5%

It

0.05–2.00

0.0

±5%

I2 t

0.05–2.00

0.0

±5%

I4 t

0.05–2.00

0.0

±5%

Only available if IEC characteristics

0.00–60.00

0.01 x s

±1% resp. ±10 ms

IEC NINV

0.00–60.00

0.01 x s

±1% resp. ±10 ms

IEC VINV

0.00–60.00

0.01 x s

±1% resp. ±10 ms

IEC EINV

0.00–60.00

0.01 x s

±1% resp. ±10 ms

IEC LINV

0.00–60.00

0.01 x s

±1% resp. ±10 ms

Reset curves if ANSI characteristics

—

—

5%

ANSI MINV

—

—

5%

ANSI VINV

—

—

5%

ANSI EINV

—

—

5%

Flat

—

—

5%

It

—

—

5%

I2 t

—

—

5%

I4 t

—

—

5%

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Circuit Breaker Failure Protection 50BF
Description
I-CBF>

If the pick-up value is exceeded, the module/stage will be started.

Resetting ratio

Step

Tolerance

0.0–0.1 x 1

0.01 x In

±1.5% of the setting value resp. 1% In

0.5% x In

—

—

t-CBF

If the delay time is expired, an CBF alarm is given out.

—

—

<+40 ms

Operating time

Starting from I higher than 1.3 x I-CBF>

—

—

<+40 ms

—

—

<+40 ms

Disengaging time

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Range

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Note
The tripping delay relates to the time between pickup and trip. The tolerance of the operating time relates to the time between the measured value has exceeded the threshold until
the protection stage is alarmed.

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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

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Wiring Diagrams

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EDR-3000
Connection Example Clockwise Rotating Field
EDR3000 => Terminal Markings X3.

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A

B

C

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X3.

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1

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3

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2

IA

4

IA’

5

IB’

6

IA

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IB’

8

IC’

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IC’

IB

11

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12

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1A
5A

1A
5A
1B
N
1A
5A

1A
5A
N

IC

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Three-Phase Current Measurement; Inom Secondary = 5A
Ground Current Measuring via Residual Connection; IGnom Secondary = 5A

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1C

N

IX’

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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

9.4

Dimensions
Approximate Dimensions in Inches (mm)

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Drilling Pattern

9
5.38
(136.7)
4.94
(125.5)
3.94
(100.0)
CL

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“A” Holes for
Standard
Panel Mount

B

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B
A

3.62
(91.8)

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“B” Holes for
Projection
Panel Mount

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A
4.88
(124.0)

Cutout

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CL

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6.30
(160.0)

3.05
(77.6)
A
B
4x ø0.19
(ø4.8)

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A

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B

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4x ø0.19
(ø4.8)

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Projection Mounting

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3.82
(97.0)

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5.56
(141.1)

6.82
(173.2)

5.38
(136.7)

4.80
(121.9)

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8.62
(218.9)

6.14
(156.0)

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6.67
(169.4)

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2.50
(63.5)

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9.4
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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Approximate Dimensions in Inches (mm)
Standard Mounting

9

3.82
(97.0)

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7.49
(190.4)

6.82
(173.2)

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4.94
(125.5)

6.74
(171.2)

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8.62
(218.9)

6.14
(156.0)

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4.88
(124.0)

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0.56
(14.2)

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EDR-3000
Width

Height

Depth

6.82 (173.2)

8.62 (218.9)

7.49 (190.2) 1

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EDR-3000 Housing B1
Width

Height

Depth

Shipping Weight
Lbs (kg)

5.57 (141.5)

7.21 (183.0)

8.19 (208.0) 2

5.3 (2.4)

Notes
1 Depth behind panel with projection mounted enclosure.
2 Includes terminals.

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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

9.4

Contents

ETR-4000

Description

Page

Product Selection Guide . . . . . . . . . . . . . . . . . . . . .
FP-6000 Feeder Protection. . . . . . . . . . . . . . . . . . .
FP-5000 Feeder Protection. . . . . . . . . . . . . . . . . . .
FP-4000 Feeder Protection. . . . . . . . . . . . . . . . . . .
MP-3000 Motor Protection. . . . . . . . . . . . . . . . . . .
MP-4000 Motor Protection. . . . . . . . . . . . . . . . . . .
MD-3000 Motor/Generator Differential Relay. . . . .
Digitrip 3000. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
VR-300 Multifunctional Voltage Relay . . . . . . . . . .
DP-300 Current Differential Protection Relay . . . . .
EDR-3000 Feeder Protection . . . . . . . . . . . . . . . . .
ETR-4000 Transformer Protection Relay
Features, Benefits and Functions . . . . . . . . . . .
Catalog Number Selection . . . . . . . . . . . . . . . .
Technical Data and Specifications . . . . . . . . . . .
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Ground Fault Relay . . . . . . . . . . . . . . . . . . . . . . . . .
Universal RTD Module . . . . . . . . . . . . . . . . . . . . . .
IQ 125 Volt DC Power Supply . . . . . . . . . . . . . . . . .

V3-T9-158
V3-T9-162
V3-T9-172
V3-T9-180
V3-T9-188
V3-T9-198
V3-T9-204
V3-T9-207
V3-T9-217
V3-T9-221
V3-T9-226
V3-T9-238
V3-T9-241
V3-T9-241
V3-T9-248
V3-T9-250
V3-T9-254
V3-T9-258

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ETR-4000 Transformer Protection Relay
Product Description
Eaton’s ETR-4000
transformer protection
relay is a multi-functional,
microprocessor-based relay
for two winding transformers
of all voltage levels. The
ETR-4000 provides phase and
ground percentage restrained
differential protection using
a variable dual slope
characteristic with phase,
negative, residual and neutral
overcurrent elements for
backup protection. It can also
be used to provide restrained
differential protection to large
motors and generators.
The ETR-4000 has eight
current inputs rated for either
5 amperes or 1 ampere to
monitor both sides of the
transformers. The CTs can
be connected in wye in both
sides of the transformer;
the relay automatically
compensates for the
connection of the transformer
and CT mismatch errors.

The maintenance mode
password protected soft key,
can be used for arc flash
mitigation to change to an
alternate settings group,
set to have instantaneous
elements only.
An integral keypad and
display is provided for direct
user programming and
retrieval of data without
the need of a computer.
14 programmable LEDs
provide quick indication of
relay status.
A front port is provided for
direct computer connection.
An RS-485 communication
port on the back is standard
for local area networking
using Modbus-RTU. An
optional Ethernet port and
protocols are available.

9

The ETR-4000 transformer
protection relay has mass
memory for data storage and
a real-time clock with 1 ms
time resolution. The relay will
log 300 sequence of event
records, 20 detailed trip logs,
minimum/maximum values,
load profiles, breaker wear
information and oscillography
data.

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The ETR-4000 has eight
programmable binary inputs,
4 normally opened and
4 Form C heavy duty outputs
and one Form C signal alarm
relay. It can be powered from
19 Vdc to 300 Vdc or 40 Vac
to 250 Vac auxiliary power.

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Flash memory is used for the
programming and all settings
are stored in nonvolatile
memory. The relay allows for
four preprogrammed setting
groups which can be
activated through software,
the display or a contact input.

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9.4
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Protective Relays

Features, Benefits and Functions

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Metering Devices, Protective Relays, Software and Connectivity

●

Flexible phase and ground
differential protection for
two winding transformers,
large motors and
generators
Complete protection and
control in a single compact
case to reduce panel
space, wiring and costs
Integral test function
reduces maintenance
time and expense
Zone selective interlocking
improves coordination and
tripping time, and saves
money compared to a
traditional bus differential
scheme
Reduce troubleshooting
time and maintenance
costs. Trip and event
recording in non-volatile
memory provides detailed
information for analysis
and system restoration.
6000 cycles of waveform
capture aids in post fault
analysis (viewable using
PowerPort-E software)
Minimum replacement
time. Removable terminal
blocks ideal for industrial
environments
Front RS-232 port and
PowerPort-E software
provides local computer
access and user-friendly
Windows-based interface
for relay settings,
configuration and
data retrieval
Breaker open/close from
relay faceplate or remotely
via communications
Fast an easy
troubleshooting, improved
maintenance procedures
and increased device
security. Provides detailed
traceability for system
configuration changes
Relays self-diagnostics and
reporting improves uptime
and troubleshooting
Breaker trip circuit
monitoring improves the
reliability of the breaker
operation

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V3-T9-238

Features
Protection Features
Dual-slope percentage
restrained current
differential with
magnetizing inrush and
overexcitation blocking
(87R)
●
Unrestrained current
differential (87H)
●
Restricted ground fault/
Ground Differential (87GD)
●
Phase overcurrent
(elements can be assigned
to either side of the
transformer):
●
Four instantaneous
elements with timers
(50P[1], 50P[2], 50P[3]
and 50P[4])
●
Four inverse time
overcurrent elements
(51P[1], 51P[2], 51P[3]
and 51P[4])
●
11 standard curves
●
Inrush Blocking
●
Instantaneous or time
delay reset
●
Negative sequence phase
overcurrent (elements can
be assigned to either side
of the transformer):
●
Two inverse time
overcurrent elements
(51Q[1] and 51Q[2])
●
11 standard curves
●
Instantaneous or time
delay reset
●
Ground overcurrent
(elements can be assigned
to either side of the
transformer):
●
Two instantaneous
measured elements
with timers (50X[1]
and 50X[2])
●
Two instantaneous
calculated elements
with timers (50R[1]
and 50R[2])
●
Two inverse time
overcurrent measured
elements (51X[1]
and 51X[2])
●
Two inverse time
overcurrent calculated
elements (51R[1]
and 51R[2])
●
11 standard curves
●
Instantaneous or time
delay reset
●

Volume 3—Power Distribution and Control Assemblies

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●

●

●
●

Two breaker failure
elements (50BF[1]
and 50BF[2])
Phase transformer
overload protection (49)
Switch onto fault
protection
Cold load pickup
Zone interlocking for bus
protection (87B)

Metering Features
●
Amperes: positive,
negative and zero
sequence
●
Ampere demand
●
Current phase angles
●
% THD I
●
Magnitude THD I
●
Minimum/maximum
recording
●
Trending
●
RTD Temperatures with
remote URTD
Monitoring Features
●
Trip coil monitor for both
primary and secondary
breakers
●
Breaker wear primary and
secondary (accumulated
interrupted current)
●
Oscillography
(6000 cycles total)
●
Fault data logs
(up to 20 events)
●
Sequence of events report
(up to 300 events)
●
Clock (1 ms time stamping)
Control Functions
●
Breaker open/close both
breakers
●
Remote open/close
●
Programmable I/O
●
Programmable LEDs
●
Multiple setting groups
●
Cold load pickup
●
CT supervision
Communication Features
●
Local HMI
●
Password protected
●
Addressable
●
IRIG-B
●
Local communication port
●
Remote communication
port:
●
RS-232
●
RS-485

CA08100004E—November 2013

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●

Protocols:
●
Modbus-RTU
●
Modbus-TCP (Optional)
Configuration software

Protection and
Control Functions
Eaton’s ETR-4000
transformer protection
relay has been designed for
maximum user flexibility and
simplicity. The ETR-4000 is
suitable for application on
small, medium and large two
winding power transformers.
Multiple current inputs are
used to provide primary
protection, control and
back-up protection of
transformers, including
current differential, restricted
ground differential and
overcurrent protection.
Dual-Slope Percent Differential
Protection
The primary protective
element for transformer
protection is the percent
differential element, which
compares the current
entering the primary and
leaving the secondary of the
transformer. The ETR-4000
has built in compensation
for the turns-ratio and the
phase shift of the
transformer, so it's not
necessary to compensate for
the transformer connection
by the connection of the CTs.
The current differential
element looks at the vector
difference between the
current entering and leaving
the zone of protection. If the
difference exceeds a predetermined amount, the
element will operate.
The operating characteristic
of the percent differential
element is a dual-slope
characteristic to
accommodate for CT
saturation and CT errors.

Dual-Slope Operating Characteristic

www.eaton.com

Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Harmonic Restraints
There are certain conditions
like energizing one side of the
transformer with the other
side de-energized (inrush
currents) or the paralleling
of two transformers
(sympathetic currents) that
can create false differential
currents. These differential
currents if not recognized can
cause a false trip; in the case
of inrush conditions or
sympathetic currents the
differential current is
characterized by a heavy
content of 2nd and 4th
harmonic currents. The
percentage differential
element is desensitize either
permanently (stationary
conditions) or temporarily
(transient conditions),
whenever the 2nd or 4th
harmonic exceed the value
programmed into the relay.
Another condition that can
create a false differential
current is a sudden change of
voltage or frequency, that can
put the transformer in an
overexcitation state. In this
case there is high content of
5th harmonic currents. The
percentage differential
element is also desensitized
when the 5th harmonic
content exceeds a predefined
value.

Dynamic Rise of the Operating
Characteristic

Unrestrained Differential
An unrestrained differential
element is provided for fast
tripping on heavy internal
faults to limit catastrophic
damage to the transformer
and minimize risks to the
remainder of the power
system.
Restricted Ground Fault
Ground differential protection
is applied to transformers
having impedance grounded
wye windings. It is intended
to provide sensitive ground
fault detection for low
magnitude fault currents,
which would not be detected
by the main percent
differential element.

Restricted Ground Fault

Overcurrent Elements
The ETR-4000 can be used
to provide backup for
transformer and adjacent
power system equipment.
Instantaneous overcurrent
elements can be used for fast
clearing of severe internal or
external (through) faults.
Time overcurrent protection
elements per winding allow
coordinating with the
adjacent protection zones and
acting as a backup protection.
There are 11 user-selectable
inverse-time overcurrent
curve characteristics. The
user can select from the
ANSI, IEC or thermal curve
families and can select
instantaneous or time delay
reset characteristics.

Negative Sequence Overcurrent
Since this element does
not respond to balanced
load or three-phase faults,
the negative-sequence
overcurrent element may
provide the desired
overcurrent protection. This
is particularly applicable to
delta-wye grounded
transformers where only
58% of the secondary p.u.
phase-to-ground fault current
appears in any one primary
phase conductor. Backup
protection can be particularly
difficult when the wye is
impedance grounded. A
negative-sequence element
can be used in the primary
supply to the transformer and
set as sensitively as required
to protect for secondary
phase-to-ground or phase-tophase faults. This element
should be set to coordinate
with the low-side phase and
ground relays for phase-toground and phase-to-phase
faults. The negative
sequence element must
also be set higher than the
negative-sequence current
due to unbalanced loads.
Breaker Failure
The ETR-4000 transformer
protection relay includes two
breaker failure (50BF, 62BF)
elements that can be initiated
from either an internal or
external trip signal. These are
independent elements that
can be used to operate a
lockout relay or trip an
upstream breaker. The timer
must be longer than the
breaker operating time and
the protective function
reset times.

9.4

Maintenance Mode
The Maintenance Mode can
improve safety by providing a
simple and reliable method to
reduce fault clearing time and
lower incident energy levels
at energized panels. The
Maintenance Mode allows
the user to switch to more
sensitive settings via a
password protected soft
key, communications or
via a digital input while
maintenance work is being
performed at an energized
panel or device. The more
sensitive settings provide
greater security for
maintenance personnel and
helps reduce the possibility
of injury.
Monitoring and Metering
Sequence of Events Records
The ETR-4000 protection
relay records a maximum
of 300 events associated with
the relay. An event is
classified as a change of state
as detected by the relay.
These include relay pickups,
dropouts, trips, contact
closure, alarms, setting
changes and self-diagnostic
failures. Each event is date
and time stamped to a 1 ms
resolution. The events are
stored in a FIFO in
chronological order.
Trip Log
The ETR-4000 protection
relay will store a maximum of
20 trip records in a FIFO trip
log. Each trip record will be
date and time stamped to a
1 ms resolution. The trip
log record will include
information on the type of
fault, protection elements
that operated, fault location
and currents at the time of
the fault.

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Protective Relays

Waveform Capture
The ETR-4000 transformer
protection relay provides
oscillography-recording
capabilities. The relay will
record all measured signals
along with the binary signals
of pickup, trip, logic and
contact closures. The ETR4000 relay can record up to
6000 cycles of data. The
number of records is
proportional to the size of
each record; the maximum
size per record is 600 cycles.
The waveform capture is
initiated by up to 8 different
triggers; it can also be
generated manually through
the display or via
communications.
Integral User Interface
The front panel user interface
has a 128 x 64 pixel LCD
display with background
illumination for wide angle
viewing in all light conditions.
14 programmable LEDs
provide quick and easy visual
display of power on, mode
of operation, alarm and trip
indication. Soft keys are
provided for operation mode
selection, scrolling through
data and settings. In addition,
the relay settings and test
functions are password
protected.

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Programmable I/O
The ETR-4000 transformer
protection relay provides
heavy-duty, trip-rated, 4
normally open and 4 Form C
contacts. Two isolated inputs
can be used for monitoring
the trip circuits. One Form C
contact is dedicated to the
relay failure alarm function
and is operated in a normally
energized (fail-safe) mode.
There are eight userconfigurable discrete inputs
that accept a wet contact
and can operate through a
wide range of power. Each
input and output is userprogrammable for maximum
application flexibility.
Communication Software
Eaton provides two types of
communication software. The
first is PowerPort-E. It runs
on a PC or laptop for easy
access to a single relay
to change set points or
configuration and to view
metered values and stored
data. PowerPort-E is free
and can be downloaded from
the Eaton Web site at the
following URL:
http://www.eaton.com/pr
The second package is
Power Xpert Software.
Power Xpert Software is a
power management software
package that is designed
for continuous, remote
monitoring of many devices.
It provides additional
functions such as billing,
trending and graphics.
Contact your local Eaton
representative for more
information on Power
Xpert Software.

PowerPort-E- ETR-4000 Device Planning

Standards and Certifications
Design Standards
●
Generic Standard:
●
EN 61000-6-2
●
EN 61000-6-3
●
Product Standard:
●
IEC 60255-6
●
EN 50178
●
UL 508 (Industrial
Control Equipment)
●
CSA C22.2 No. 14-95
(Industrial Control
Equipment)
●
ANSI C37.90
●
UL listed file: E217753

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9.4

Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Catalog Number Selection
The catalog number
identification chart defines
the electrical characteristics
and operation features
included in the ETR-4000.
For example, if the catalog
number were ETR-3000A0BA1,
the device would have the
following:

9

ETR-4000
(A)–8 Digital Inputs,
9 Output Relays
(0)–5A/1A phase and ground
CTs, Power Supply Range:
19-300 Vdc, 40–250 Vac

(B)–Modbus-RTU (RS-485)

9

(A)–Without Conformal
Coating

9

(1)–Projection Panel Mount

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ETR-4000 Eaton Transformer Protection Relay

ETR4000 A 0 B A 1

9
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Hardware Option 1
A = 8 DI, 9 outputs, removable terminals,
2 zone interlocking, URTD interface, IRIG-B,
small display
B = 4 DI, 5 outputs, removable terminals,
IRIG-B, small display 1
C = 8 DI, 5 outputs, removable terminals,
1 zone interlocking, IRIG-B, small display 1

Hardware Option 2
0 = Phase current 5A/1A, ground
current 5A/1A, power supply
range: 19–300 Vdc,
40–250 Vac
1 = Phase current 5A/1A sensitive
ground current, 0.5A/0.1A,
power supply range:
19–300 Vdc, 40–250 Vac

Communication Options
B = Modbus-RTU (RS-485)
1 = Modbus-RTU (RS-485) +
Modbus-TCP (RJ-45)

Conformal Coating
Options
A = None
B = Conformal coated
circuit boards

Mounting Options
0 = Standard mount
1 = Projection panel mount

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Technical Data and Specifications
Climatic Environmental
Conditions
●
Storage temperature:
–22°F to 158°F (–30°C
to +70°C)
●
Operating temperature:
–40°F to 140°F (–40°C 2
to +60°C)
●
Permissible humidity at
ann. average: <75% rel.
(on 56d up to 95% rel.)
●
Permissible installation
altitude:
●
6,561.67 ft (<2,000m)
above sea level
●
If 13,123.35 ft (4,000m)
altitude applies, a
changed classification
of the operating and test
voltages may be
necessary
Degree of Protection EN 60529
●
HMI front panel with
seal: IP54
●
Rear side terminals: IP30

Routine Test
Insulation test according to
IEC 60255-5: All tests to be
carried out against ground
and other input and output
circuits
●
Aux. voltage supply, digital
inputs: 2.5 kV (eff.)/50 Hz
●
Current measuring inputs,
signal relay outputs: 2.5 kV
(eff.)/50 Hz
●
Voltage measuring inputs:
3.0 kV (eff.)/50 Hz
●
All wire-bound
communication interfaces:
1.5 kV DC
●

Housing
●
Material, housing:
Aluminum extruded
section
●
Material, front panel:
Aluminum/foil front
●
Mounting position:
Horizontal (±45° around
the X-axis must be
permitted)

9
Plug-in Connector with
Integrated Short-Circuiter
(Conventional Current Inputs)
●
Nominal current: 1A and
5A
●
Continuous loading
capacity: 4 x In/
continuously
●
Overcurrent withstand:
●
30 x In/10s
●
100 x In/1s
●
250 x In/10 ms
(1 half-wave)
●
Screws: M4, captive type
acc. to VDEW
●
Connection cross sections:
●
2 x AWG 14 (1 x or 2 x
2.5 mm2) with wire
end ferrule
●
2 x AWG 12 (1 x or 2 x
4.0 mm2) with ring cable
sleeve or cable sleeve
●
2 x AWG 10 (1 x or 2 x
6 mm2) with ring cable
sleeve or cable sleeve

Control Power Supply
●
Aux. voltage: 24–270 Vdc/
48–230 Vac (–20/+10%)
●
Buffer time in case of
supply failure: >= 50 ms
at minimal aux. voltage
interrupted communication
is permitted
●
Maximum permissible
making current:
●
18A peak value for
<0.25 ms
●
12A peak value for
<1 ms
●
The voltage supply must
be protected by a fuse of:
●
2.5A time-lag miniature
fuse approx. 0.2 x 0.8 in.
(5 x 20 mm) according to
IEC 60127
●
3.5A time-lag miniature
fuse approx. 0.25 x
1.25 in. (6.3 x 32 mm)
according to UL 248-14
Notes
1 Consult factory for the availability of
4 Inputs/5 Outputs, 8 Inputs/5 Outputs
and sensitive ground.
2 Display will stop working at –20°C.

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Real-Time Clock
●
Running reserve of
the real-time clock:
1 year minimum
Display
●
Display type: LCD with
LED background
illumination
●
Resolution graphics
display: 128 x 64 pixel
●
LED type: Two colored—
red/green
●
Number of LEDs, housing
B2: 15
Digital Inputs
●
Maximum input voltage:
300 Vdc/270 Vac
●
Input current: <4 mA
●
Reaction time: <20 ms
●
Fallback time: <30 ms
(Safe state of the
digital inputs)
●

●

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●

●

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Protective Relays

Power Consumption
●
Power supply range:
19–300 Vdc
●
Power consumption
in idle mode—7W
●
Maximum power
consumption—13W
●
Power supply range:
40–250 Vac (for
frequencies of 40–70 Hz)
●
Power consumption
in idle mode—7W
●
Maximum power
consumption—13W

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Metering Devices, Protective Relays, Software and Connectivity

●

4 switching thresholds:
Un = 24 Vdc, 48 Vdc,
60 Vdc, 110 Vac/Vdc,
230 Vac/Vdc
Un = 24 Vdc
●
Switching threshold
1 ON: Min. 19.2 Vdc
●
Switching threshold
1 OFF: Max. 9.6 Vdc
Un = 48–60 Vdc
●
Switching threshold
2 ON: Min. 42.6 Vdc
●
Switching threshold
2 OFF: Max. 21.3 Vdc

Un = 110/120 Vac/Vdc
●
Switching threshold
3 ON: Min. 88.0 Vdc/
88.0 Vac
●
Switching threshold
3 OFF: Max. 44.0 Vdc/
44.0 Vac
Un = 230/240 Vac/Vdc
●
Switching threshold
4 ON: Min. 184 Vdc/
184 Vac
●
Switching threshold
4 OFF: Max. 92 Vdc/
92 Vac
Terminals: Screw-type
terminal

Current and Ground
Current Measurement
●
Nominal currents: 1A/5A
●
Max. measuring range:
●
Up to 40 x In (phase
currents)
●
Up to 25 x In (ground
current standard)
●
Up to 2.5 x In (ground
current sensitive)
●
Continuous loading
capacity: 4 x In/
continuously
●
Overcurrent proof:
●
30 x In/10 s
●
100 x In/1 s
●
250 x In/10 ms
(1 half-wave)
●
Power consumption:
●
Phase current inputs
– At In = 1A
S = 0.15 MVA
– At In = 5A
S = 0.15 MVA
●
Ground current input
– At In = 1A
S = 0.35 MVA
– At In = 5A
S = 0.35 MVA
●
Frequency range: 50 Hz/
60 Hz ±10%
●
Terminals: Screw-type
terminals with integrated
short-circuiters (contacts)

Relay Outputs
Continuous current:
5A AC/DC
●
Maximum make current:
●
25A AC/25A DC up to
30V for 4s
●
30A/230 Vac according
to ANSI IEEE Std.
C37.90-2005
●
30A/250 Vdc according
to ANSI IEEE Std.
C37.90-2005
●
Maximum breaking
current:
●
5A AC up to 125 Vac
●
5A DC up to 30V
(resistive)
●
0.3A DC at 300V
●
Maximum switching
voltage: 250 Vac/250 Vdc
●
Switching capacity:
1250 VA
●
Contact type: changeover
contact or normally
open contact
●
Terminals: Screw-type
terminals
●

Supervision Contact (SC)
●
Continuous current: 5A at
120/240 Vac or 30 Vdc
●
Maximum switch-on
current: 15A at 120/240
Vac or 30 Vdc (max. 4s)
●
Maximum breaking
current:
●
5A at 120/240 Vac
or 30 Vdc
●
0.4A at 125 Vdc
●
Contact type:
1 changeover contact
●
Terminals: Screw-type
terminals
Time Synchronization IRIG
●
Nominal input voltage: 5V
●
Connection: Screw-type
terminals (twisted pair)

Front Interface RS-232
Baud rates: 115,200 baud
●
Handshake: RTS and CTS
●
Connection: 9-pole
D-Sub plug
●

RS-485
●
Master/slave: Slave
●
Connection: 6 screwclamping terminals RM 138
MIL (3.5 mm) (terminating
resistors internal)
Zone Interlocking
●
Nominal input level: 5V
●
Nominal output level: 5V
●
Connection: Screw-type
terminals (twisted pair)
Standards
High Voltage Tests (IEC 60255-6)
●
High frequency
interference test:
●
IEC 60255-22-1 Class 3
– Within one circuit—
1 kV/2s
– Circuit to ground—
2.5 kV/2s
– Circuit to circuit—
2.5 kV/2s
●
Insulation voltage test:
●
IEC 60255-5, EN 50178
– All circuits to other
circuits and exposed
conductive parts:
2.5 kV (eff.)/50 Hz,
1 min.
– Except interfaces:
1.5 kV DC, 1 min.
– Voltage measuring
input: 3 kV (eff.)/
50 Hz, 1 min.
●
Impulse voltage test:
●
IEC 60255-5: 5 kV/0.5J,
1.2/50 μs

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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

EMC Immunity Tests
●
Fast transient disturbance
immunity test (burst):
●
IEC 60255-22-4: Power
supply, mains inputs—
±4 kV, 2.5 kHz
●
IEC 61000-4-4 Class 4:
Other in- and outputs—
±2 kV, 5 kHz (coupling
network)
●
ANSI C37.90.1: ± 4 kV,
2.5 kHz (coupling clamp)
●
Surge Immunity Test:
●
IEC 61000-4-5 Class 4
– Within one circuit—
2 kV
– Circuit to ground—
4 kV
●
Electrical discharge
immunity test:
●
IEC 60255-22-2: Air
discharge—8 kV
●
IEC 61000-4-2 Class 3:
Contact discharge—6 kV
●
Radiated radio frequency
electromagnetic field
immunity test
●
IEC 61000-4-3: 26 MHz –
80 MHz—10 V/m
●
Class X: 80 MHz–
1 GHz—35 V/m
●
ANSI C37.90.2: 1 GHz– 3
GHz—10 V/m
●
Immunity to conducted
disturbances induced by
radio frequency fields:
●
IEC 61000-4-6 Class 3:
10 V
●
Power frequency magnetic
field immunity test:
●
IEC 61000-4-8:
Continues—30 A/m
●
Class 4: 3 sec—300 A/m
EMC Emission Tests
●
Radio interference
suppression test:
●
IEC/CISPR11—
Limit value class B
●
Radio interference
radiation test:
●
IEC/CISPR11—
Limit value class B

Environmental Tests
Classification
●

●

●

●

IEC 60068-1: Climatic—
0/055/56
IEC 60721-3-1:
●
Classification of ambient
conditions (storage)—
1K5/1B1/1C1L/1S1/1M2
but min. –13°F (–25°C)
IEC 60721-3-2:
Classification of ambient
conditions (transportation)
—2K3/2B1/2C1/2S1/2M2
IEC 60721-3-3:
Classification of ambient
conditions (Stationary use
at weather protected
locations)—3K6/3B1/3C1/
3S1/3M2 but min. 32°F
(0°C) and 3K8H for 2h

Test ad: Cold
●

IEC 60068-2-1:
●
Temperature—
–4°F (–20°C)
●
Test duration—16h

Test Bd: Dry heat
●

IEC 60068-2-2:
●
Temperature—
131°F (55°C)
●
Relative humidity—
<50%
●
Test duration—72h

Test cab: Damp heat
(steady state)
●

IEC 60068-2-78:
●
Temperature—
104°F (40°C)
●
Relative humidity—93%
●
Test duration—56d

Test Db: Damp heat (cyclic)
●

IEC 60068-2-30:
●
Temperature—
131°F (55°C)
●
Relative humidity—95%
●
Cycles (12 + 12-hour)—2

9.4

Mechanical Tests

Tolerances

Test Fc: Vibration response test
●
IEC 60068-2-6,
IEC 60255-21-1, Class 1:
●
Displacement: (10 Hz–
59 Hz)—0.0014 in.
(0.035 mm)
●
Acceleration: (59 Hz–
150 Hz)—0.5 gn
●
Number of cycles in
each axis: 1

Tolerances of the Real Time Clock
●
Resolution: 1 ms
●
Tolerance:
●
<1 minute/month
(68°F [+20°C])
●
<±1 ms if synchronized
via IRIG-B

Test Fc: Vibration endurance test
●
IEC 60068-2-6,
IEC 60255-21-1, Class:
●
Acceleration: (10 Hz–
150 Hz)—1.0 gn
●
Number of cycles in
each axis: 20
Test Ea: Shock test
●
IEC 60068-2-27,
IEC 60255-21-2, Class 1
●
Shock response test:
5 gn, 11 ms, 3 impulses
in each direction
●
Shock resistance test:
15 gn, 11 ms, 3 impulses
in each direction
Test Eb: Shock endurance test
●
IEC 60068-2-29,
IEC 60255-21-2, Class 1
●
Shock endurance test:
10 gn, 16 ms, 1000
impulses in each
direction
Test Fe: Earthquake test
●
IEC 60068-3-3, KTA 3503,
IEC 60255-21-3, Class 2
●
Single axis earthquake
vibration test:
– 3–7 Hz: Horizontal
0.394 in. (10 mm),
1 cycle each axis
– 7–35 Hz Horizontal:
2 gn, 1 cycle each axis

Tolerances of the Measured
Value Acquisition
Phase and ground current
measuring
●

Maximum measuring
range:
●
Up to 40 x In (phase
currents)
●
Up to 25 x In (ground
current standard)
●
Up to 2.5 x In (earth
current sensitive)

Note: The precision does not
depend on the nominal value but
is referenced to 100 mA (with In
=1 A) respectively.
500 mA (with In = 5 A)
●

●
●

●

●

●

●

●

Frequency range: 50 Hz /
60 Hz ± 10%
Accuracy: Class 0.5
Amplitude Error if I < 1 In:
±0.5% of the rated value
Amplitude Error if I > In:
±0.5% of the measured
value
Amplitude Error if I > 2 In:
±1.0% of the measured
value
Resolution: 0.01A
●
Harmonics: Up to 20%
3rd harmonic ±1%
●
Up to 20% 5th harmonic
±1%
Frequency influence:
< ±2% / Hz in the range of
±5 Hz of the parametrized
nominal frequency
Temperature influence:
< ±1% within the range
of +32°F to +140°F
(0°C to +60°C)

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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Protection Elements Tolerances
Notice: The tripping delay relates to the time between alarm
and trip. The tolerance of the operating time relates to the time
between when the measured value has exceeded the threshold
until the protection element is picked up.
Description

Tolerance

Differential Protection Stages: 87[x]
Id > 0.1 Id[x]

9

Operating time

9

±3% of the setting value resp. 1% In

Pickup

±1.5% of the setting value resp. 1% In

Id > 0.3 x In

< 35 ms

Resetting ratio

97% or 0.5% x In

Id > 0.5 x In

< 25 ms

t

DEFT

Id > 1.5 x In

< 20 ms

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9

Operating time

Id > 0.1 Id[x]

±3% of the setting value resp. 1% In
Ide > 0.3 x In

< 35 ms

Ide > 0.5 x In

< 25 ms

Ide > 1.5 x In

< 20 ms

9

Overcurrent Protection Elements: 50P[x], 51P[x]
Pickup

±1.5% of the setting value resp. 1% In

9

Resetting ratio

97% or 0.5% x In

t

DEFT

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Tolerance

Ground Current Elements: 50G[x], 50N[x], 51G[x], 51N[x]

Ground Differential Protection Stages: 87GD[x]

9

Description

±1% resp.
±10 ms
Operating time

Starting from IE
Higher than 1.1 x IE> <+35 ms

Disengaging time

<+45 ms

t-Multiplier

±5%
IEC NINV
IEC VINV
IEC EINV
IEC LINV
ANSI MINV

±1% resp. ±10 ms
Operating time
Disengaging time

ANSI VINV

Starting from I higher
than 1.1 x I>
<+35 ms

ANSI EINV

<+45 ms

Flat

±5%

It

9

IEC NINV

I2t

IEC VINV

I4t

9

IEC EINV

t-Multiplier

Reset mode

IEC characteristics

IEC LINV

IEC NINV

ANSI MINV

IEC VINV

ANSI VINV

IEC EINV

ANSI EINV

IEC LINV

9

Flat

5%

It

Reset curves if ANSI characteristics

9

I2t

ANSI MINV

I4t

ANSI VINV

±1% resp. ±10 ms

ANSI EINV

IEC NINV

Flat

IEC VINV

It

9

IEC EINV

I2t

IEC LINV

I4t

9

5%

Thermal Replica: ThR

ANSI MINV

Ib

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Reset Mode

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ANSI VINV

±2% of the setting value
Resp. 1% In

9

ANSI EINV

K

Flat

Pickup ThR

9

It

9

I4t

±1.5 % of the setting value

I2t

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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Description

Tolerance

Unbalanced Load: 51Q[x]

Description

9

Tolerance

Breaker Failure Protection 50BF

I2>

±2% of the setting value resp.1% In

I-BF>

Resetting ratio

97% or 0.5% x In

Resetting ratio

t

DEFT
±1% resp.

Tripping delay time (DEFT)
Operating time

9.4

±1.5% of the setting value resp.1% In
±1% resp.

9

±10 ms
Operating time

±10 ms

Starting from I2
higher than 1.3 x I2>

t-BF

Starting from I Higher <+40 ms
than 1.3 x I-BF>

9

<+40 ms

9

Disengaging time
<+60 ms

Release time

<+40 ms

Trip Circuit Monitoring TCM

k

±5% INV

t-TCM

T-cool

±5% INV

Inrush Supervision IH2 1

9

9
±1% resp

9

±10 ms.
Current Transformer Supervision CTS

IH2/In

±1% In

Delta

±2% of the setting value resp. 1.5% In

Resetting ratio

1% x In or 5% x IH2

Resetting ratio

94%

t

±1% resp. ± 10 ms

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Wiring Diagrams

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Typical AC Connections Delta-Wye Transformer with Wye CTs and Neutral CT

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Note
1 Inrush supervision is possible, if the fundamental
Harmonic > 0.1xIn and 2nd Harmonic > 0.01xIn.

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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Typical One-Line Diagram

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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

9.4

Typical Control Diagram

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Dimensions

9

Drilling Plan

Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Approximate Dimensions in Inches (mm)

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Projection Mount Front and Side Views
7.07
(179.5)

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5.56
(141.1)

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9.72
(246.9)

9

4.80
(122.0)

8.16
(207.3)
1.08
(27.4)

6.00
(152.4)

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6.14
(156.0)

8.70
(221.0)

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7.12
(180.8)

3.56
(90.4)

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2.50
(63.5)

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9.4

Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Approximate Dimensions in Inches (mm)

9

Standard Mount Front and Side Views

9

7.07
(179.5)

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9

9.72
(246.9)

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7.75
(197.0)

7.49
(190.3)
0.88
(22.3)

6.74
(171.2)

3.88
(98.6)

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6.14
(156.0)

8.70
(221.0)

4.88
(124.0)

4.94
(125.5)

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0.56
(14.2)

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ETR-4000 Housing B2
Width

Height

Depth 1

Shipping Weight
Lbs (kg)

6.81 (173.0)

8.37 (212.7)

8.19 (208.0)

9.3 (4.2)

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Note
1 Includes terminals.

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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Contents

Ground Fault Relay

Description

9

Page

Product Selection Guide . . . . . . . . . . . . . . . . . . . .
FP-6000 Feeder Protection . . . . . . . . . . . . . . . . . .
FP-5000 Feeder Protection . . . . . . . . . . . . . . . . . .
FP-4000 Feeder Protection . . . . . . . . . . . . . . . . . .
MP-3000 Motor Protection . . . . . . . . . . . . . . . . . .
MP-4000 Motor Protection . . . . . . . . . . . . . . . . . .
MD-3000 Motor/Generator Differential Relay . . . .
Digitrip 3000 . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
VR-300 Multifunctional Voltage Relay . . . . . . . . . .
DP-300 Current Differential Protection Relay . . . . .
EDR-3000 Feeder Protection . . . . . . . . . . . . . . . . .
ETR-4000 Transformer Protection Relay . . . . . . . .
Ground Fault Relay
Options and Accessories . . . . . . . . . . . . . . . . .
Technical Data and Specifications . . . . . . . . . . .
Universal RTD Module . . . . . . . . . . . . . . . . . . . . . .
IQ 125 Volt DC Power Supply. . . . . . . . . . . . . . . . .

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Ground Fault Relay

9

Product Description

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9

A Type GFR ground fault
protection system, when
properly installed on a
grounded electrical system,
will sense phase-to-ground
fault currents. When the level
of fault current is in excess
of the pre-selected current
pickup and time delay
settings, the GFR relay will
initiate a trip action of a
disconnect device, which will
open the faulted circuit and
clear the fault.
The GFR devices are UL
Class 1 devices designed to
protect electrical equipment
against extensive damage
from arcing ground faults.

Standards and Certifications
A basic Type GFR ground
fault protection system
consists of a ground fault
relay, a ground fault current
sensor and a disconnect
device equipped with a shunt
trip device. This disconnect
device can be a molded case
circuit breaker, a power
circuit breaker, a bolted
pressure switch or other
fusible disconnect device,
suitable for application with
UL Class 1 Ground Fault
Sensing and Relaying
equipment.

Eaton’s GFR ground fault
relays, current sensors, test
panels and accessory devices
are UL listed by Underwriters
Laboratories in accordance
with their standard for
Ground Fault Sensing and
Relaying Equipment, UL 1053,
under File No. E48381.
Note: Relays are also listed with
CSA under File No. 43357.

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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

9.4

Product Selection

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Each installation requires:
●

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●

●

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One relay unit (select trip
ampere as required)
One current sensor (select
configuration required)
One circuit breaker or
disconnect device with
shunt trip, or a shunt trip
attachment for mounting
in existing breaker
Test panel (optional)

GFR Relay

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GFR Relay
Ground Fault Pickup Amperes
1–12

5–60

100–1200

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Catalog
Number 1

Catalog
Number 1

Catalog
Number 1

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Electrical reset with zone interlocking

GFR12EI

GFR60EI

GFR1200EI

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Electrical reset without zone interlocking

GFR12E

GFR60E

GFR1200E

Mechanical reset with zone interlocking

GFR12MI

GFR60MI

GFR1200MI

Mechanical reset without zone interlocking

GFR12M

GFR60M

GFR1200M

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—

—

GFR1200MD

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GFR Relay
Types
For 120 Volt 50/60 Hz Control

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For 120 Vdc Control
Mechanical reset without zone interlocking

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Current Sensor
Description—Window Size in Inches (mm)

Catalog
Number

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Used with Relays Rated 1–12 Amperes
5.50 (139.7) inside diameter

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1283C45G01

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Used with Relays Rated 5–60 Amperes
2.50 (63.5) inside diameter

179C768G01

5.50 (139.7) inside diameter

1256C13G01

7.81 x 11.00 (198.4 x 279.4) rectangular 1

1257C88G04

3.31 x 24.94 (84.1 x 760.5) rectangular 1

1257C92G03

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Used with Relays Rated 100–1200 Amperes
2.50 (63.5) inside diameter

179C768G02

5.50 (139.7) inside diameter

1256C13G02

8.25 (209.6) inside diameter

179C767G02

7.81 x 11.00 (198.4 x 279.4) rectangular 1

1257C88G03

1

1257C90G02

9.94 x 23.94 (252.5 x 608.1) rectangular 1

1257C91G02

15.94 x 19.94 (404.9 x 506.4) rectangular 1

1257C89G02

3.31 x 24.94 (84.1 x 633.5) rectangular 1

1257C92G04

6.75 x 29.64 (171.5 x 752.9) rectangular 1

1255C39G03

9.94 x 16.94 (252.5 x 430.3) rectangular

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Note
1 Suitable for either surface or semi-flush mounting.

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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Options and Accessories
Test Panel (120 Vac)
Used to test the ground fault
system, to give an indication
the relay has tripped the
breaker, and to reset the relay
after tripping. These functions
may be separately mounted
pilot devices.
Note: When a mechanically reset
relay is used with a test panel,
both the relay and test panel
must be reset following either a
simulated ground fault test or
actual ground fault. Not UL listed.

Ground Fault Warning Indicator
This is an accessory item for
use with GFR relays with
interlocking circuitry. At
approximately 30–50% of
the relay pickup setting, the
indicator switches separate
120 Vac control power to a

lamp or relay (not included) to
give an indication of a ground
fault. The indicator is rated
110/120 Vac 50/60 Hz for a
maximum indicator load of
0.5 amperes.
Indicating Ammeter
The optional indicating
ammeter connects to the
sensor terminals through
a momentary contact
pushbutton, and will indicate
(in amperes) any ground fault
current flowing through the
sensor. Kit includes the
ammeter and pushbutton.
Not UL listed.

Shunt Trip Attachments
Use 120 Vac shunt trips.

Face Plate
Recommended when
these relays are semi-flush
mounted, to close the door
cutout opening.
Options
Additional optional equipment
can be added to the protection
system to meet the
requirements of the specifying
engineer, including:
●
●

●

Ground fault test panel
Ground fault warning
indicator relay
Ground fault indicating
ammeter

GFR relays are available with
zone selective interlocking
circuitry to interlock several
relays within the same system.

This allows the relay,
which detects a ground
fault, to instantly clear
the fault by tripping the
disconnect device. The relay
simultaneously sends a signal
to relay units “upstream” from
the fault to time delay or
to block their operation
completely. Current sensors
in various designs provide a
range of “window” sizes to
accommodate standard bus
and cable arrangements.
Shunt trip attachments may be
ordered for field mounting in
Eaton’s molded case circuit
breakers, or may be ordered
factory installed in the breaker.

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Optional Test Panel
Control

Test

Catalog
Number

120 volt 50/60 Hz

120 volt 50/60 Hz

GFRTP

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Ground Fault Warning Indicator
Description

Catalog
Number

Manual reset

1234C67G01

Self-resetting

1234C67G02

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Ammeter Kit
GFR System
Used with

Kit Catalog
Number

1–12 amperes

752B820G01

5–60 amperes

752B820G02

100–1200 amperes

752B820G03

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Face Plate
Description

Catalog
Number

Face plate

752B410G01

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Note
1 One end removable for installation.
Instruction Leaflet 15321 available as a PDF at www.eaton.com (Go to Advanced Search and enter 15321).

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

9.4

Technical Data
and Specifications

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GFR Relay
●
Ground fault detection
ranges:
●
1–12 amperes
●
5–60 amperes
●
100–1200 amperes
●
Output contacts:
●
240 Vac, 50/60 Hz:
3 amperes
●
120 Vac, 50/60 Hz:
6 amperes
●
28 Vdc: 3 amperes
●
125 Vdc: 0.5 amperes
●

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Control power
requirements:
●
120V, 50/60 Hz:
0.125 amperes, or
125 Vdc (optional)

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Current Sensor
●
600 volt, 50/60 Hz
maximum system voltage

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9.4
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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Contents

Universal RTD Module

Description

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Page

Product Selection Guide . . . . . . . . . . . . . . . . . . . .
FP-6000 Feeder Protection . . . . . . . . . . . . . . . . . .
FP-5000 Feeder Protection . . . . . . . . . . . . . . . . . .
FP-4000 Feeder Protection . . . . . . . . . . . . . . . . . .
MP-3000 Motor Protection . . . . . . . . . . . . . . . . . .
MP-4000 Motor Protection . . . . . . . . . . . . . . . . . .
MD-3000 Motor/Generator Differential Relay . . . .
Digitrip 3000 . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
VR-300 Multifunctional Voltage Relay . . . . . . . . . .
DP-300 Current Differential Protection Relay . . . . .
EDR-3000 Feeder Protection . . . . . . . . . . . . . . . . .
ETR-4000 Transformer Protection Relay . . . . . . . .
Ground Fault Relay. . . . . . . . . . . . . . . . . . . . . . . . .
Universal RTD Module
Product Selection . . . . . . . . . . . . . . . . . . . . . . .
Options and Accessories . . . . . . . . . . . . . . . . .
Technical Data and Specifications . . . . . . . . . . .
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IQ 125 Volt DC Power Supply. . . . . . . . . . . . . . . . .

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V3-T9-158
V3-T9-162
V3-T9-172
V3-T9-180
V3-T9-188
V3-T9-198
V3-T9-204
V3-T9-207
V3-T9-217
V3-T9-221
V3-T9-226
V3-T9-237
V3-T9-250
V3-T9-255
V3-T9-255
V3-T9-255
V3-T9-257
V3-T9-258

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Universal RTD Module

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Product Description
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Electronic Resistance
Temperature Detector
(RTD) provides motor
temperature interface
for the MP-3000 Motor
Protection Relay
Monitors up to 11 RTDs
consisting of six motor
windings, two motor
bearings, two load
bearings and one auxiliary
Works with 10 ohm copper,
100 ohm platinum, 100 ohm
nickel and 120 ohm nickel
type RTDs
Include fiber optic and
electrical communication
interfaces to the MP-3000
Motor Protection Relay

9

Application Description
Eaton’s URTD Module is
most commonly used to
provide motor temperature
information to the MP-3000
Motor Protection Relay. The
MP-3000 Motor Protection
uses this information for
monitoring, tripping and
alarming. The MP-3000 IntelI-Trip overload algorithm will
adjust its trip characteristics
based on the actual motor
temperature reported by the
URTD Module. This improves
the protection by using an
actual temperature value
instead of the assumed
NEMA Standard Ambient
Temperature.
The URTD Module may be
mounted close to the motor
or at the protective relay.

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9

Both electrical and fiber optic
interface ports are provided
to communicate temperature
information to the MP-3000
relay. The electrical interface
can transmit information
using a three-conductor
shielded cable with a
maximum cable distance of
500 feet (152m). The fiber
optic link has a maximum
distance of 400 feet (122m).
The URTD Module may be
used with the IQ-1000 and
IQ-1000 II motor relays. It
may also be applied as a
standalone temperature
monitoring device
communicating, for example,
transformer temperature
information back to a remote
computer or PLC. An optional
PONI (Product Operated
Network Interface) is required
for standalone applications.

Features, Benefits
and Functions
●

●

●

Universal design works
with any RTD type,
simplifying installation and
operation and reducing
inventory
Standalone design permits
mounting the module close
to the motor, reducing RTD
wiring costs
RTD diagnostics detects
faulty RTDs and wiring,
reducing unnecessary
tripping and alarming

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Product Selection
Universal RTD Module

Options and Accessories
Universal RTD Module
Description

Catalog
Number

Universal RTD Module

URTD

Additional Related Products
from Eaton’s Cutler-Hammer
Series
The URTD Module must be
operated with an MP-3000
Motor Protection Relay,
computer or programmable
controller. Please refer to the
MP-3000 Motor Protection,
PONI and PowerNet sections
for additional related product
information.

9.4

Technical Data
and Specifications
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●

●

●

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Input power requirements:
120 Vac (±15%)
Frequency: 50/60 Hz
Power consumption: 6 VA
Operating temperature:
32°–158°F (0°–70°C)
Storage temperature:
–4°–185°F(–20°–85°C)
Humidity: 0–95% R.H.
noncondensing
Enclosure: Type 1

Eaton provides fiber optic
cables for connecting to the
MP-3000 or IQ-1000 II Motor
Protection Relays.

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9.4

Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

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Wiring Diagram

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RTD Wiring (Three-Lead Type)

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Connect cable’s shield
and drain wire here.

Universal
RTD Module

9

Motor terminals

35

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Do not connect cable’s shield and drain wire
at this end. Use tape to insulate.

34

Auxiliary
33

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32
31

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30

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Load
Bearings

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29
28
27

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26
25

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34

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Motor
Bearings

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23
22
21
20

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19

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18
17

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4.

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16
15

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14
13

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12

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Motor
Windings

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10

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8
7

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6
5

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4

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3

Note: Wiring between motor RTDs
and RTD Module must be
three-wire shielded cable.
Unused channels should
be shorted.

2

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1. Each shielded cable’s conductors must be connected on Universal RTD Module as shown.
2. Use of three-lead RTDs is recommended.
3. RTDs must not be grounded at the motor, and no common connections between RTDs should be made at the
Universal RTD Module or the motor.
Terminal 16 or 32 should be connected to a suitable earth ground.

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Note
Showing a typical three-lead type RTD wiring connection.

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CA08100004E—November 2013

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Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

9.4

Dimensions
Approximate Dimensions in Inches (mm)

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Universal URTD Module

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®

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®

UNIVERSAL RTD MODULE

STYLE NUMBER 2D78559

UNIVERSAL
RTD MODULE

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J2

1A49102H19

120
Vac
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
20

COM
DATA

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STROBE

1
2

ac

J3
ACN

7.67
(194.8)

1-800-542-7883
1-800-809-2772
(+1)412-490-6800

AUX1

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MW1 3

Power Management Products
Customer Satisfaction

www.cutlerhammer.eaton.com/pmpc/

MW2

GND
MW3
LB2
MW4
LB1
MW5
MB2
GND
MB1

MW6

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5
6
7
8
9
10
11
12
13
14
15
16
17
18
19

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3.60
(91.4)

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2.00
(50.8)

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4.32
(109.7)
Fiber
Optic
Link

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SW1
8 7 6 5 4 3 2 1
0N

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INCOM Port

1 2 3 4 5 6 7 8

0N

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Note
Showing the URTD Module dimensions and terminal designations.

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9.4
9

Metering Devices, Protective Relays, Software and Connectivity
Protective Relays

Contents

IQ DC Power Supply

Description

9

Page

Product Selection Guide . . . . . . . . . . . . . . . . . . . .
FP-6000 Feeder Protection . . . . . . . . . . . . . . . . . .
FP-5000 Feeder Protection . . . . . . . . . . . . . . . . . .
FP-4000 Feeder Protection . . . . . . . . . . . . . . . . . .
MP-3000 Motor Protection . . . . . . . . . . . . . . . . . .
MP-4000 Motor Protection . . . . . . . . . . . . . . . . . .
MD-3000 Motor/Generator Differential Relay . . . .
Digitrip 3000 . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
VR-300 Multifunctional Voltage Relay . . . . . . . . . .
DP-300 Current Differential Protection Relay . . . . .
EDR-3000 Feeder Protection . . . . . . . . . . . . . . . . .
ETR-4000 Transformer Protection Relay . . . . . . . .
Ground Fault Relay. . . . . . . . . . . . . . . . . . . . . . . . .
Universal RTD Module . . . . . . . . . . . . . . . . . . . . . .
IQ 125 Volt DC Power Supply

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V3-T9-158
V3-T9-162
V3-T9-172
V3-T9-180
V3-T9-188
V3-T9-198
V3-T9-204
V3-T9-207
V3-T9-217
V3-T9-221
V3-T9-226
V3-T9-237
V3-T9-250
V3-T9-254

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IQ 125 Volt DC Power Supply

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Product Description

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Eaton’s IQ DC Power Supply
is a DC to AC inverter module
intended for use where DC
power is available, but some
AC is required. The unit will
operate Eaton’s MP-3000, or
other AC powered IQ devices
requiring no more than 75 VA
of power at any power factor.
The IQ DC power supply is
available in two styles, one to
be used with the MP-3000
and one for all other products.

Features, Benefits
and Functions
●

●

●

●

●

Single, two-wire input—
no need to set switches
or adjust jumpers
Four connections—two for
DC in, two for AC out
AC output is isolated from
the incoming power
Built-in protection features
protect against short
circuits while providing
ample power to start loads
Sinusoidal wave

Product Selection
IQ DC Power Supply

Description

Catalog
Number

IQ DC power supply module

IQDCPS

Technical Data and
Specifications
●

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IQ DC Power Supply

Input voltage ranges from
105 Vdc to 140 Vdc
Rated power output—
75 VA at any power factor
Operating temperature—
–4ºF to 140ºF
(–20°C to 60°C)

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

9.5

Metering Devices, Protective Relays, Software and Connectivity
Connectivity Options

Contents

Power Xpert Gateways

Description

Page

Power Xpert Gateways
Product Selection Guide . . . . . . . . . . . . . . . . . .
Features. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Standards and Certifications . . . . . . . . . . . . . . .
Product Selection . . . . . . . . . . . . . . . . . . . . . . .
Technical Data and Specifications . . . . . . . . . . .
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Xpert Ethernet Switches . . . . . . . . . . . . . . .
Power Xpert Gateway
Series 1000 Card—Power Distribution Unit . . . . . .
Power Xpert Gateway
Series 2000 Card—Uninterruptible Power Supplies
mMINT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MINTII RS-232 Converter. . . . . . . . . . . . . . . . . . . .
IPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
I/O Devices Digital Input Module (DIM) . . . . . . . . .
Addressable Relay II. . . . . . . . . . . . . . . . . . . . . . . .
Breaker Interface Module II (BIM II) . . . . . . . . . . .
Sub-Network Master Local Display (SMLD) . . . . . .
IMPCABLE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

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V3-T9-260
V3-T9-266
V3-T9-267
V3-T9-267
V3-T9-268
V3-T9-271
V3-T9-272

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V3-T9-284
V3-T9-285
V3-T9-286
V3-T9-287
V3-T9-288
V3-T9-290
V3-T9-293
V3-T9-297
V3-T9-299

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Power Xpert Gateways

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Product Description
The Power Xpert Gateway
400/600 is typically installed
in an electrical assembly—
a motor control center, low/
medium voltage switchgear
or switchboard to consolidate
data available from
components such as trip units,
meters, motor controllers and
protective relays.

Power Xpert Gateways
provide a cost-effective
method to easily Web-enable
Eaton and third-party products.
The Gateway consists of an
embedded Web server that
allows the user to connect
to Eaton products such as
breakers, meters and relays
found in MCCs, LV and MV
Switchgear and switchboards
—to name a few—that
communicate via Eaton
protocols INCOM and
QCPort, in addition to
third-party products that
communicate via Modbus
RTU. The Gateway provides
the central connection point
for the power metering/
monitoring/protective
devices, allowing their
parameters to be
monitored via the Web.

Power Xpert Gateways
provide data communications
to Eaton’s Power Xpert
Software to facilitate
centralizing and gathering data
for long-term data archival,
analysis and trending features.

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●
●
●
●

The PXG is compatible with
and facilitates integration
with many third-party building
and factory automation
systems via Modbus TCP
and Web Services.

●
●

Voltage
Current
Power
Power factor
Energy
Power quality
Temperature
I/O states

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Bus Page

9

Power Xpert Gateway
Screenshots

The PXG600 allows you
to enable pre-selected
parameters to be trended
for each supported device.
Selecting the trend symbol
will generate a real-time graph
for that parameter and can be
viewed for the past 24 hours,
seven days, 30 days or all
past history.

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Device Page

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Home Page

9

The PXG600 also offers direct
e-mail notifications to up to
10 users. Select from event
notifications, data logs, event
logs and heartbeat e-mails.
Information is presented in
organized, user-friendly Web
pages and includes, but is not
limited to, the following:
●
●

Device status
Comm status

Volume 3—Power Distribution and Control Assemblies

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Trending Page (PXG600 Only)
Main Page

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9.5
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Metering Devices, Protective Relays, Software and Connectivity
Connectivity Options

Product Selection Guide
Data Acquisition and Integration Table for Supported Devices
Supported Devices

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PXG 400 and PXG 600

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HTTP
(Web
Browser)

Web
Services
(Power Xpert
Software)

PXG 600 Only
Modbus
TCP
(BMS &
SCADA)

PassThrough
INCOM
(PowerNet)

PassThrough
QCPort
(CHStudio)

SMTP
(E-mail
Client)

File Export
(Data File
Format)

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Device
Type

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INCOM
Drive

Accutrol 400

■

■

■

■

■

■

■

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Drive

AF97

■

■

■

■

■

■

■

I/O

Universal RTD

■

■

■

■

■

■

■

I/O

DIM

■

■

■

■

■

■

■

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Device Name

SNMP
(NMS)

File Export
(Waveform
File Export)

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I/O

DIM KYZ

■

■

■

■

■

■

■

Meter

IQ DP-4000 1

■

■

■

■

■

■

■

9

Meter

IQ Energy Sentinel

■

■

■

■

■

■

■

Meter

IQ 220/IQ 320

■

■

■

■

■

■

■

9

Meter

IQ 230/IQ 330

■

■

■

■

■

■

■

Meter

IQ Analyzer (6000/6200) 1

■

■

■

■

■

■

■

■

Meter

IQ Analyzer (6400/6600) 1

■

■

■

■

■

■

■

■

9

Meter

IQ Data 1

■

■

■

■

■

■

■

Meter

IQ Data Plus 1

■

■

■

■

■

■

■

9

Meter

IQ Data Plus II 1

■

■

■

■

■

■

■

Meter

Power Manager

■

■

■

■

■

■

■

Meter

IQ Power Sentinel

■

■

■

■

■

■

■

Meter Point

IQ MES II

■

■

■

■

■

■

■

Protective

Digitrip 3000

■

■

■

■

■

■

■

9

Protective

Digitrip 3200

■

■

■

■

■

■

■

Protective

FP-5000

■

■

■

■

■

■

■

■

9

Protective

FP-4000

■

■

■

■

■

■

■

■

Protective

FP-6000

■

■

■

■

■

■

■

■

Protective

MP-3000 1

■

■

■

■

■

■

■

9

Protective

MP-4000 1

■

■

■

■

■

■

■

Protective

Digitrip 520MC

■

■

■

■

■

■

■

9

Protective

NRX520

■

■

■

■

■

■

■

Protective

IQ 500

■

■

■

■

■

■

■

9

Protective

MPCV Relay

■

■

■

■

■

■

■

Protective

Digitrip 1150/DT1150V

■

■

■

■

■

■

■

Protective

Digitrip 810

■

■

■

■

■

■

■

9

Protective

Digitrip 910

■

■

■

■

■

■

■

Protective

Digitrip MV

■

■

■

■

■

■

■

9

Protective

Digitrip OPTIM 1050

■

■

■

■

■

■

■

Protective

Digitrip OPTIM 550

■

■

■

■

■

■

■

Protective

Digitrip OPTIM 750

■

■

■

■

■

■

■

Starter

Advantage 2

■

■

■

■

■

■

■

■

■

■

■

■

■

■

9

9
9

9

9

9
9
9
9

Starter

Advantage ACM

2

Notes
1 Required IPONI for connection to the Power Xpert Gateway.
2 Required a WPONI for connection to the Power Xpert Gateway.
Information subject to change without notice. Visit www.eaton.com for latest up-to-date details on connectivity.

V3-T9-260

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

■

■

9.5

Metering Devices, Protective Relays, Software and Connectivity
Connectivity Options

Data Acquisition and Integration Table for Supported Devices, continued

9

Supported Devices

9
9
PXG 400 and PXG 600

Device Type

Device Name

HTTP
(Web
Browser)

Web
Services
(Power Xpert
Software)

PXG 600 Only
Modbus
TCP
(BMS &
SCADA)

PassThrough
INCOM
(PowerNet)

PassThrough
QCPort
(CHStudio)

SNMP
(NMS)

SMTP
(E-mail
Client)

9
File Export
(Data File
Format)

File Export
(Waveform
File Export)

INCOM, continued

9
9

AEM II 1

■

■

■

■

■

■

Sub-network Master

BIM II 1

■

■

■

■

■

■

Sub-network Master

CMU 2

■

■

■

■

■

■

Sub-network Master

IQ CED II 1

■

■

■

■

■

■

Sub-network Master

IQ MES II

■

■

■

■

■

■

■

Transfer Switch

ATC-400 1

■

■

■

■

■

■

■

Transfer Switch

ATC-600 1

■

■

■

■

■

■

■

Transfer Switch

ATC-800 1

■

■

■

■

■

■

■

9

Drive

MVX9000

■

■

■

■

■

■

9

Drive

SVX9000

■

■

■

■

■

■

Insulation Monitor

InsulGard

■

■

■

■

■

■

Meter

IQ 130

■

■

■

■

■

■

Meter

IQ 140

■

■

■

■

■

■

Meter

IQ 150

■

■

■

■

■

■

Meter

IQ 230M/IQ 330M

■

■

■

■

■

■

Meter

IQ 250

■

■

■

■

■

■

Meter

IQ 260

■

■

■

■

■

■

Meter

Nexus 1262

■

■

■

■

■

■

Meter

SQD CM3000 Series

■

■

■

■

■

■

Meter

SQD CM4000 Series

■

■

■

■

■

■

Meter

SQD PM710

■

■

■

■

■

■

Meter

SQD PM850

■

■

■

■

■

■

Meter

PML 7350

■

■

■

■

■

■

Meter

PML 7550

■

■

■

■

■

■

Meter

PML 7650

■

■

■

■

■

■

Protective

GE 369 Motor Relay

■

■

■

■

■

■

Protective

GE 469 Motor Relay

■

■

■

■

■

■

Protective

FP-4000/FP-5000

■

■

■

■

■

■

Protective

FP-6000

■

■

■

■

■

■

Overload Relay

C441

■

■

■

■

■

■

Temp Monitor

Qualitrol 118

■

■

■

■

■

■

Transformer Differential
Relay

ABB TPU 2000
■

■

■

■

■

■

Sub-network Master

9
9
9

Modbus

9
9
9
9
9
9
9
9
9
9
9
9
9

QCPort
I/O

D77A-AI16

■

■

■

■

■

■

■

I/O

D77A-AI8

■

■

■

■

■

■

■

I/O

D77A-DI16

■

■

■

■

■

■

■

I/O

D77A-DI8

■

■

■

■

■

■

■

Starter

IT. S811 (MV811)

■

■

■

■

■

■

■

Starter

IT. Starter 3

■

■

■

■

■

■

■

Starter

IT. Starter QSNAP 3

■

■

■

■

■

■

■

9
9
9
9

Notes
1 Required IPONI for connection to the Power Xpert Gateway.
2 Required a WPONI for connection to the Power Xpert Gateway.
3 Requires a QSNAP for connection to the Power Xpert Gateway.

9
9

Information subject to change without notice. Visit www.eaton.com for latest up-to-date details on connectivity.

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

V3-T9-261

9.5
9
9
9

Metering Devices, Protective Relays, Software and Connectivity
Connectivity Options

The table below represents many of the parameters displayed on the Web page for a given device, however it is not
exhaustive. For the complete list of parameters display, per device, refer to the Device Data Map file at HYPERLINK
http://www.eaton.com/powerxpert www.eaton.com/powerxpert.
Web UI Device Parameters Displayed via Power Xpert Gateway
IQ Meters

9
9

Units

IQ
Analyzer
6000/
IQ
IQ Data IQ Data IQ
MES II Plus II Plus
Data 6200

IQ
Analyzer IQ
DP6400/
4000
6600

IQ
220/
320

IQ
230/
330

IQ
230/
330M

IQ
130

IQ
140

IQ
150

IQ
250

IQ
260

IQ
Power
Sentinel

9

V

Voltage (Line-Line)

V

9

Voltage (Line-Neutral)

V

9

Average

A

Phase

A

9

Ground

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

A

■

■

Neutral

A

■

■

■

■

9

Peak

A

■

■

■

■

■

■

■

■

■

■

Demand

A

■

■

■

■

■

■

■

■

■

■

9

Power
Apparent

VA

9

Reactive

VAR

Real

W

9

Power Factor
Apparent

PF

9

Displacement

PF

9

Real

Wh

Forward

Wh

9

Reverse
Apparent

9

Reactive

■

■

■
■
■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

Wh

■

■

■

■

■

■

■

■

■

■

Vah

■

■

■

■

■

■

■

■

■

VARh

■

■

■

■

■

■

■

■

■

Leading

VARh

■

■

■

■

■

■

■

■

■

■

9

Lagging

VARh

■

■

■

■

■

■

■

■

■

■

9

THD

%

Current THD

%

9

Voltage THD

%

Frequency

Hz

9

Waveform Capture

N/A

9

Ambient

9
9
9

■

■

■

■

■

9

■

Energy
■

9

■

Current

■

9

Power
Manager

Voltage
Average

9

IQ
Energy
Sentinel

■

■

■

■

Power Quality
■
■
■
■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

Temperature
C

Auxiliary

C

Load Bearing

C

Motor Bearing

C

Winding

C

Phase (L, C, R)

C

Terminal Block

C

Input Status
Number of Inputs
Status/cause of trip
Thermal memory
Pole temperature
Winding temperature
Fan status
Alarm/trip relay

9
V3-T9-262

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

■

9.5

Metering Devices, Protective Relays, Software and Connectivity
Connectivity Options

The table below represents many of the parameters displayed on the Web page for a given device, however it is not
exhaustive. For the complete list of parameters display, per device, refer to the Device Data Map file at HYPERLINK
http://www.eaton.com/powerxpert www.eaton.com/powerxpert.

9
9

Web UI Device Parameters Displayed via Power Xpert Gateway, continued
Circuit Breaker
Trip Units

Units

9

Protective
Relays

Digitrip Digitrip Digitrip Digitrip Digitrip
OPTIM OPTIM OPTIM Digitrip Digitrip IQ
RMS
RMS
Digitrip Digitrip
750
MV
3000
500
550
1050
810
1150
520MC NRX520 910

MPVCV FPRelay 4000

MP3000

MP4000

FP6000

■

■

■

■

■

■

■

■

■

■

■

■

9

■

■

■

■

■

■

■

■

■

■

9

■

■

■

Voltage
Average

V

Voltage (Line-Line)

V

Voltage (Line-Neutral)

V

■

■
■

Current
Average

A

Phase

A

■

■

■

■

■

■

■

■

■

■

■

Ground

A

■

■

■

■

■

■

■

■

■

■

■

Neutral

A

■

■

■

■

■

■

■

■

■

■

Peak

A

■

■

■

■

■

■

Demand

A

■

■

■

■

Apparent

VA

■

Reactive

VAR

■

Real

W

■

Apparent

PF

■

Displacement

PF

■

■
■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■
■

Energy
Wh

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

Forward

Wh

■

Reverse

Wh

■

Apparent

Vah

■

■

■

■

Reactive

VARh

■

■

■

Leading

VARh

■

■

■

Lagging

VARh

■

■

■

■

Current THD

%

■

■

■

Voltage THD

%

■

■

■

Frequency

Hz

■

■

■

Waveform Capture

N/A

■

■

■

■

■

C

■

■

Load Bearing

C

■

■

Motor Bearing

C

■

■

Winding

C

■

■

9
9
9
9

Input Status
Number of inputs
Status/cause of trip

9

9

Auxiliary

C

9

9

C

C

9

9

Ambient

Terminal Block

9

9

Temperature

Phase (L, C, R)

9

9

■

%

9

9

Power Quality
THD

9

9

Power Factor

Real

9

9

■

Power

■

9

FP5000

■

■

■

■

■

■

■

■

■

■

■

■

■

■

2

2

2

■

■

■

■

■

■

Thermal memory

9
9

Pole temperature
Winding temperature

9

Fan status
■

Alarm/trip relay

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

9
V3-T9-263

9.5
9

Metering Devices, Protective Relays, Software and Connectivity
Connectivity Options

Web UI Device Parameters Displayed via Power Xpert Gateway, continued
Insulation
Monitor

Motor Starters
& VFDs

Units

InsulGard

Accutrol
400

■

■

9
9

Average

V

Voltage (Line-Line)

V

9

Voltage (Line-Neutral)

V

9

Average

A
A

Ground

A

Neutral

A

Peak

A

9

Demand

A

9

Apparent

VA

Reactive

VAR

Real

W

9
9

PF

9

PF

9

Real

Wh

Forward

Wh

9

Reverse

Wh

Apparent

Vah

Reactive

VARh

Leading

VARh

Lagging

VARh

9

%
%

Voltage THD

%

9

Frequency

Hz

Waveform Capture

N/A

9

Temperature
Ambient

C

9

Auxiliary

C

Load Bearing

C

9

Motor Bearing

C

Winding

C

9

Phase (L, C, R)

C

Terminal Block

C

■

■

■
■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

Input Status
Number of inputs

■

■

■

Status/cause of trip

■

■

■

9

Thermal memory

■

■

■

Pole temperature

■

■

■

9

Winding temperature

9

■

■
■

Power Quality
Current THD

9

ATC-800

Energy

THD

9

ATC-600

Power Factor

Displacement

9

IT. Starters/ SVX & MVX
QSNAP
Drives
ATC-400

Power

Apparent

9

IT. S811

Current

Phase

9

Advantage
Starters

Voltage

9

9

AF97

Transfer
Switches

Fan status

9

Alarm/trip relay

9

Note
Information subject to change without notice. Visit www.eaton.com for latest up-to-date details on connectivity.

V3-T9-264

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

9.5

Metering Devices, Protective Relays, Software and Connectivity
Connectivity Options

Web UI Device Parameters Displayed via Power Xpert Gateway, continued
I/O
DIM
Units KYZ

9

Third-Party Devices
SQD
SQD
SQD
C441
UniDigital
D77A- D77A- D77A- D77A- versal Overload CM 3000 CM 4000 PM
EDR- Input
Relay Series Series 710
RTD
DI16 DI8
3000 Module AI16 AI8

SQD
PM
850

GE 369 GE 469 ABB
PML PML PML Motor Motor TPU
7350 7550 7650 Relay Relay 2000

■

■

■

■

■
■

Qualitrol Nexus
118
1262/1272

Voltage
Average

V

■

■

■

Voltage (Line-Line)

V

■

■

■

■

■

■

■

■

Voltage
(Line-Neutral)

V

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■

Current
■

■

■

■

■

■

■

■

■

■

■

Average

A

Phase

A

Ground

A

Neutral

A

Peak

A

■

■

Demand

A

■

■

■
■

■

■
■

■

■
■

■
■

■

■

9
9
9
9
9
9
9

■

9
9

Power
Apparent

VA

■

■

■

■

■

■

■

■

■

Reactive

VAR

■

■

■

■

■

■

■

■

■

Real

W

■

■

■

■

■

■

■

■

■

9

Apparent

PF

■

■

■

■

■

■

■

■

■

9

Displacement

PF

■

■

■

■

■

■

■

■

■

■

■

■

■

■

■
■

Power Factor

9

Energy
■

Real

Wh

Forward

Wh

■

■

Reverse

Wh

■

■

■

■

■

■

Apparent

Vah

■

■

■

■

■

■

■

Reactive

VARh

■

■

■

■

■

Leading

VARh

■

■

■

■

■

■

■

Lagging

VARh

■

■

■

■

■

■

■

Power Quality
THD

%

Current THD

%

Voltage THD

%

Frequency

Hz

■
■
■
■

■

■

■

■

■

■

■

■

9
9
9
9
9
9
9

Waveform Capture N/A

Temperature

9

Ambient

C

Auxiliary

C

■

Load Bearing

C

■

■

■

Motor Bearing

C

■

■

■

Winding

C

■

■

■

Phase (L, C, R)

C

■

Terminal Block

C

■

9
9
9

Input Status
Number of inputs

4

8

16

8

16

8

8

Status/cause of
trip

■

Thermal memory

■

■

■

9
9

Pole temperature
Winding
temperature

■

■

Fan status

■

■

■

■

Alarm/trip relay

■

9
9

Note
Information subject to change without notice. Visit www.eaton.com for latest up-to-date details on connectivity.

Volume 3—Power Distribution and Control Assemblies

9

9
CA08100004E—November 2013

www.eaton.com

V3-T9-265

9.5
9
9
9
9
9
9
9

Metering Devices, Protective Relays, Software and Connectivity
Connectivity Options

Features
The Eaton Power Xpert Gateway
400/600 Includes:
●
The Power Xpert
Gateway Module
●
Mounting provisions
and required hardware
for panel and DIN rail
mounting
●
CD-ROM: contains the
User Manual, Modbus
Register Maps, USB Driver
and other associated files
Power Xpert Gateway 400 with DIN Rail
Mounting (Brackets Included)

9
9

Features of the Power Xpert Gateway 400 vs. 600
Features

PXG 400

9

Total number of supported devices

64

96

Maximum number of INCOM devices supported

64

64

9

Protocols supported on downstream devices: INCOM, QCPort and Modbus RTU

Yes

Yes

Number of downstream communication ports

2

3

Number of downstream protocols supported simultaneously

2

3

9

USB port for configuration

Yes

Yes

Modbus TCP/IP protocols supported

Yes

Yes

9

SNMP client access

Yes

Yes

INCOM slave action commands supported

Yes

Yes

9

INCOM date and time settings supported

Yes

Yes

Modbus writes supported

Yes

Yes

Device summary screen per communication port

Yes

Yes

9

Device waveform access and storage—COMTRADE file format

No

Yes

Set user-defined events

No

Yes

9

Trend graphs displayed

No

Yes

Data logs—csv file format, downloadable to Excel

No

Yes

Interval logs—csv file format, downloadable to Excel

No

Yes

Event notification via the Web interface

Yes

Yes

Event logs—csv file format, downloadable to Excel

No

Yes

9

E-mail notification on events and threshold alarms

No

Yes

Secure ethernet communications—SSL encryption

Yes

Yes

9

Secure communication ports via access control/trusted host list

Yes

Yes

Save and restore configuration file

Yes

Yes

9

9

9
9

9
9
9
9
9
9
9
9
V3-T9-266

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

PXG 600

Metering Devices, Protective Relays, Software and Connectivity
Connectivity Options

9.5

Power Xpert Gateway 400/600

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24 Vdc
Input Power

COM 1 Port:
RS-485 Connection for
up to Either (32) QCPort
or Modbus RTU Devices

INCOM Port:
RS-485 Connection
for up to 64 INCOM
Devices

RJ-45 Connection
to the LAN

USB Connection
for Local
Configuration
Capability

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Power and Traffic
Indicator Lights

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COM 2 Port: Either RS-485 or
RS-232 Connection for up to
Either (32) QCPort or Modbus
RTU Devices

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Standards and Certifications
●

●

●

UL 508, Standard
for Programmable
Controller Equipment
FCC, Class A, Part 15,
Subpart B, Sections
15.107b & 15.109b
EN55022: 1994 Class A,
Information Technology
Equipment

●

9

EN 61000-6-2:2001
Electromagnetic
Compatibility (EMC)
Party 6-2: Immunity for
Industrial Environments

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Product Selection

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PXG Part Numbers

PXG400

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Description

Style
Number

Catalog
Number

Power Xpert Gateway 400

66D2145G01

PXG400

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PXG600

Power Xpert Gateway 600

66D2146G01

PXG600

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Power supply—24 Vdc

ELC-PS02

ELC-PS02

Low profile mounting bracket kit

66B2146G01

PXGACC01

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V3-T9-267

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Metering Devices, Protective Relays, Software and Connectivity
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Technical Data and Specifications
Memory
●
Flash: 128 MB
●
RAM: 64 MB

Serial Protocols Supported
INCOM
●
QCPort
●
Modbus RTU
●

Communication Ports
●
Network port: one
10/100Base-T
RJ-45 connector
●
Configuration port:
one USB port
●
Serial ports PXG 400
●
One dedicated RS-485
port for connection to
INCOM devices
●
One RS-485 port for
connection to either
QCPort or Modbus RTU
devices
●
Serial ports PXG 600
●
One dedicated RS-485
port for connection to
INCOM devices
●
One RS-485 port for
connection to either
QCPort or Modbus RTU
devices
●
One RS-485 or RS-232
(software selectable)
port for connection
to either QCPort or
Modbus RTU devices
Network Protocols Supported
●
Modbus TCP/IP: Supports
data access from Modbus
TCP clients
●
Web server: Supports
data access from Web
browsers (HTTP and
HTTPS)
●
DHCP: Supports automatic
IP address assignments,
if enabled
●
SNMP: Supports common
network management
tools
●
NTP: Supports time
synchronization via a
network time server for
PXG synchronization
●
SMTP: Supports mail
server for e-mail
notification

Supported Devices
Refer to www.eaton.com/
powerxpert for most current
list. Call for information on
additional devices.
Web Browsers Recommended
●
IE 6.0 or higher
●
Mozilla Firefox 2.0 or
higher
Number of Devices Supported
●
PXG 400
●
64 total with INCOM
port + COM 1 port not
to exceed 64. Port
limitations are as
follows:
– INCOM port: Up to 64
INCOM devices
– COM 1 port: Up to 32
QCPort or Modbus
RTU devices
●

PXG 600
●
96 total with INCOM
port + COM 1 port +
COM 2 port not to
exceed 96. Port
limitations are
as follows:
– INCOM port: Up to 64
INCOM devices
– COM 1 port: Up to 32
QCPort or Modbus
RTU devices
– COM 2 port: Up to 32
QCPort or Modbus
RTU devices

Power Input
●
Input voltage, nominal:
24 Vdc; 0.8 A
●
Input voltage range:
± 20% nominal
Power Consumption
●
8 watts maximum
Operating Temperature
●
32 to 140°F (0 to 60°C)
Ambient Storage Temperature
●
–40 to 185°F (–40 to 85°C)
Relative Humidity
●
5 to 95% noncondensing
at 50°C
Note: Features and specifications
listed in this document are
subject to change without notice
and represent the maximum
capabilities of the product with all
options installed. Although every
attempt has been made to ensure
the accuracy of information
contained within, Eaton makes no
representation about the
completeness, correctness or
accuracy and assumes no
responsibility for any errors or
omissions. Features and
functionality may vary depending
on selected options.

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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9.5

Metering Devices, Protective Relays, Software and Connectivity
Connectivity Options

General Wiring Guidelines—RS-485 Network
When communicating over
Rule 3: System Topology,
RS-485 networks to Eaton
Size and Capacity
products, the following
●
Strict daisy chain must be
General Wiring Guidelines
adhered to. A strict daisy
should be used.
chain configuration is one
where the transmission
Rule 1: Cable Selection—
line connects from one
Twisted Shielded Pair (TSP)
RS-485 receiver to the
Note: Cables specifically
next. The transmission line
designed for RS-485 applications
appears as one continuous
are highly recommended.
line to the RS-485 driver
●
Maximum 32 devices
The RS-485 bus is a length of
●
Twisted Shielded Pair (TSP)
Line termination:
that includes a third
Maximum cable lengths of
conductor (used for the
4000 feet (1219m); longer
common wire), a braided
bus lengths will slow the
shield accompanied by a drain
data rate
wire, and nominal impedance
Rule 4: Cable Splicing
of 120 ohms.
●

The prime goal is to create a
secure electrical connection
while minimizing exposure to
electrical transients. Ferrules
are used to dress cable ends.
Most devices have built-in
terminal blocks that can be
used for splicing. Additionally,
terminal blocks should be
utilized when splicing
elsewhere in the gear or
facility to ensure a secure
electrical connection.

Belden Wire and Cable
Company Part Number
3106A or equivalent

Rule 2: Cable Intermixing
Any cable in the Belden
3106A family can be
intermixed with each other
in the Modbus network.

Rule 5: Cable Shielding
The cable shielding and outer
jacket should not be stripped
back beyond 1-1/2 inches.
Three-pole terminal blocks
are used to ensure a
continuous metallic shield
ground path. To ensure a
secure electrical connection
when daisy chaining devices
that have built-in two-pole
terminal blocks, mechanically
crimp sleeves onto the two
shield path drain wires.
Rule 6: Cable Grounding
Ground the communication
network at only one point in
the network, preferably by
terminating the drain wire
to ground at the EOL node
(same location as the EOLR).
A solid earth ground is
accomplished by connecting
the shield ground path’s drain
wire to a #14 AWG or larger
multi-stranded wire that has
an impedance path of 1 ohm
or less to a known earth
ground.
Note: The building electrical
ground may not be effective since
it may travel through many
connections and considerable
distances before reaching earth
ground. In such cases, a new

ground path will be required since
the effectiveness of this shield
earth ground connection will
affect the integrity of data
transferred over the cable.

Rule 7: Cable Termination
End of Line Resistors (EOLR)
are necessary to maintain
signal strength and minimize
reflections. EOLR must
match the impedance of the
TSP. Two EOLR are needed
and should be located at both
ends of the RS-485 bus. If
there is only one device
connected to the Modbus
master, it is considered the
last device in the network and
should be terminated with a
120 ohm 1/4 watt terminating
resistor.
Rule 8: Device Addressing
●

●

Each device must have a
unique slave address
No two devices on the
same RS-485 network can
have the same slave
address

Ethernet Cable Specifications
For complete specifications,
refer to the IEEE 802.3
Ethernet specification.

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RS-485 Wiring Guide—Three Terminal Devices
Device Name

A
(– Wire)

B
(+ Wire)

Common
Wire

XCVR
Common 1

Data
Bias

IQ 230M

12 (MOD2)

11 (MOD1)

10 (INCOM 3)

I 26V

None

IQ 250

(–)
Older Models are Marked
B (–)

(+)
Older Models are Marked
A (–) or A(+)

SH

I

None

IQ 260

(–)
Older Models are Marked
B (–)

(+)
Older Models are Marked
A (–) or A (+)

SH

I

None

IQ 330M

12 (MOD2)

11 (MOD1)

10 (INCOM 3)

I 26V

None

NETLINK

1 (DATA–)

2 (DATA+)

5 (GND)

E

None

InsulGard 2

B

A

None

Floating

None

Bushing Gard 2
(InsulGard G3 2)

B

A

None

Floating

None

Power Xpert Meter
4000/6000/8000

Data A
750B-S

Data B
750B-S

Shield
(COM)

I 300V

750 Ohm
Switch Sel

Power Xpert Gateway
400//600

A(–)

B(+)

COM

I

—

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Notes
1 Transceiver (XCVR) Common Connected to:
I = Isolated
NI = Non Isolated
E = Earth Ground
2 Center terminal on InsulGard (marked with Ground symbol) is for shield splicing only and is electrically floating.

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CA08100004E—November 2013

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V3-T9-269

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Rule 1: Cable Selection—
Twisted Shielded Pair
Approved cable types:
●

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Connectivity Options

INCOM Network
INCOM was specifically
designed with the intention of
delivering a comprehensive
and powerful energy
management solution for
use in electrical distribution
environments while ensuring
affordability, flexibility,
simplicity and noise immunity.
An INCOM network installed
per the following rules will
allow the user to fully realize
all of the above advantages.
(Refer to Eaton document
TD17513 for specific system
layout recommendations
and details.)

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Metering Devices, Protective Relays, Software and Connectivity

Any of the cables in the
Belden 9463 family
Quabbin 6205
CommScope 9022
Manhattan Electric M4154
IMPCABLE—a 600V rated
cable custom designed for
INCOM—
Style # 2A95705G01

Rule 2: Cable Intermixing

9

Due to impedance
differences between
IMPCABLE and the Belden
9463 family, the main cable
run(s) should be entirely
for the 9463 family OR
IMPCABLE: do not alternate
between these types. The
cable used for taps can be
different from the main run.

9

Rule 3: System Topology,
Size and Capacity

9

Supports daisy chain, star
and multi-level network
segment topologies.

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Note: Star Segment Topology is
not recommended for new
designs.

See Page V3-T9-271. Surge
protection is required for
FSK networks that leave a
building at the egress/ingress
of the building.
●

Supports distances up to
10,000 ft (3048m) per
segment when designed
within the specifications of
this guideline

9
V3-T9-270

●

●

●

●

Supports up to 1000
devices on a single
network segment
Supports sub-network
master devices and
associated sub-networks
Supports 1200 or
9600 baud rate
Attenuation:
●
Total system capacity:
25 dB
●
Attenuation per device:
0.01 dB
●
Attenuation for approved
wire types, see tables
below

Cable Attenuation
Cable
Type

Attenuation/
1000 Feet (305m)

IMPCABLE

1.6 dB

Belden 9463 family

2.0 dB

Attenuation at Star
Number of
Long Lines

Attenuation

3

3.5 dB

4

6 dB

5

8 dB

●

Definitions:
●
Daisy chain: point-topoint wiring between
devices or clusters of
devices
●
Star: single point with a
number of long lines
emanating from it
●
Long line: >200-foot
(61m) wire run
●
Simple tap: <200-foot
(61m) connection to
cluster of devices

Rule 4: Cable Splicing
The goal is to create a secure
electrical connection while
minimizing exposure to
electrical transients. Ferrules
are used to dress cable ends
in order to avoid problems
associated with frayed and
loose wires. Besides
facilitating cable installation,
subsequent data line
troubleshooting and
downtime are minimized.
Most INCOM devices have
built-in three-pole terminal
blocks for data lines and
shield. For older INCOM
devices that have only two
terminals, shield continuity

Volume 3—Power Distribution and Control Assemblies

must be ensured by other
means. Additional terminal
strips should be utilized when
splicing elsewhere in the
electrical enclosure or facility
to ensure secure electrical
connections. All devices, End
of Line Termination Resistors
and Taps should be wired in
parallel across the cable.
Rule 5: Cable Shielding
The cable shielding and outer
jacket should not be stripped
back beyond 1.5 inches (38
mm). Terminal blocks are
used at tap points to ensure a
continuous metallic shield
ground path. To ensure a
secure electrical connection
when daisy-chaining INCOM
devices that have built-in
two-pole terminal blocks, use
crimp sleeves to join the two
shield drain wires. The cable
shield ground path for a main
network and sub-network
must not be joined. Each
should have a separate
connection to earth ground
reference.
Rule 6: Cable Grounding
The shield should be
continuous across a network
segment and connected to
the building’s electrical
system grounding electrode
conductor. The 2005 NEC
provides the following
guidance on grounding
communication cables:
1. When a communication
cable enters a building, a
primary protector is required
and must be grounded as
described in Section 800 IV.
Specifically, Paragraphs
800.93 and 800.100 define
grounding requirements for
the primary protector.
2. Grounding systems are
generally covered by Section
250 III. The grounding
electrode conductor is
specifically covered by
Paragraphs 250.62, 250.64,
250.66, 250.68 and 250.70.

A solid earth ground is
accomplished by connecting
the shield ground path’s drain
wire to a #14 AWG or larger
multi-stranded wire that has
an impedance path of 1 ohm
or less to the building’s
grounding electrode
conductor.
Rule 7: Cable Termination
Each network segment
requires a minimum of two
End of Line Termination
Resistors (EOLTRs). The
EOLTRs maintain signal
strength and minimize
reflections. The EOLTRs
should be 1/2 watt 100 ohm
non-inductive resistors, such
as carbon composition or
metal film. Wire-wound
resistors are not acceptable.
Taps on network segments
should not be terminated.
Some INCOM devices have
the EOLTR permanently
installed and must be located
at the end of a main run.
Other INCOM devices have
an EOLTR that can be
switched to optionally
terminate the network
segment at the device. Care
must be exercised when
installing devices containing
termination resistors
that the switches are set
appropriately. A minimum of
two, up to a maximum of five
EOLTRs must be installed on
each network segment as
dictated by network topology.
Rule 8: Device Address
In order to avoid the
possibility of devices in a
Main Network having the
same addresses as those
in Subnetworks, set Main
Network device addresses
at 100 or higher excluding
addresses 901 to 908.

3. Bonding requirements
between communication
systems and the power
distribution system is
specified by Paragraph
250.94.

CA08100004E—November 2013

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9.5

Metering Devices, Protective Relays, Software and Connectivity
Connectivity Options

Daisy Chain Segment Topology

9

INCOM
Master

Main Run

Device 1

9
Device 10

Device 5

Device 2

9
EOLTR

9

EOLTR

9

Tap

Tap

9
Device 3

Note: Device 1 may be a PC with
internal CONI Card, a SubNetwork Master
(BIM, LDISP), an INCOM MINT (RS-232
MINTII, Ethernet MINT, Modbus RS-485
MINT), an INCOM Gateway (NetLink,
Power Xpert Gateway).

Device 6

Device 8

Device 9

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Device 4

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Device 7

Dimensions

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Approximate Dimensions in Inches (mm)

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Power Xpert Gateway 400/600 with Standard Panel Mounting (Brackets Included)

10.25
(260.4)

IN

C
O

M

1

D

M

V

O
C

M

9
PXG 400

C
O

1.12
(28.4)

24
C

re
s

1

1.99
(50.5)

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10.75
(273.1)

0.18
(6)
(4.6)

et

0.24
(6.1)

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1.60
(40.6)

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IN

9

M

O
C

D2

SHLD

A (-)

D1

B (+)

CMN

GND

+V

0.56
(14.2)

0.56
(14.2)

0.25
(6.4)

8.75
(222.3)

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Power Xpert Gateway 400/600 with Low Profile Mounting (Optional Bracket Kit Available)
11.30
(287.0)

0.25
(6.35)

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10.80
(274.3)

ø0.19
(6)
(4.83)

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0.56
(14.2)

8.75
(222.3)

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0.80
(20.3)

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2.75
(69.9)

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3.23
(82.0)

Top

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4.30
(109.2)

1.38
(35.1)

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0.75
(19.1)

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0.60
(15.2)

1.03
(26.2)

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0.51
(12.9)

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Power Xpert Gateway 400/600
Width

Height

Depth

Shipping Weight Lbs (kg)

8.90 (226.1)

2.10 (53.3)

4.50 (114.3)

1.50 (0.6)

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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V3-T9-271

9.5
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Metering Devices, Protective Relays, Software and Connectivity
Connectivity Options

Contents

Power Xpert Ethernet Switches

Description

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Convenient Network Expansion

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Page

Power Xpert Gateways. . . . . . . . . . . . . . . . . . . . . .
Power Xpert Ethernet Switches
Product Selection . . . . . . . . . . . . . . . . . . . . . . .
Accessories. . . . . . . . . . . . . . . . . . . . . . . . . . . .
Technical Data and Specifications . . . . . . . . . . .
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Xpert Gateway
Series 1000 Card—Power Distribution Unit . . . . . .
Power Xpert Gateway
Series 2000 Card—Uninterruptible Power Supplies
mMINT. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MINTII RS-232 Converter . . . . . . . . . . . . . . . . . . .
IPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
I/O Devices Digital Input Module (DIM) . . . . . . . . .
Addressable Relay II . . . . . . . . . . . . . . . . . . . . . . .
Breaker Interface Module II (BIM II) . . . . . . . . . . .
Sub-Network Master Local Display (SMLD). . . . . .
IMPCABLE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

V3-T9-259
V3-T9-273
V3-T9-273
V3-T9-273
V3-T9-275
V3-T9-276
V3-T9-279
V3-T9-282
V3-T9-284
V3-T9-285
V3-T9-286
V3-T9-287
V3-T9-288
V3-T9-290
V3-T9-293
V3-T9-297
V3-T9-299

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Power Xpert Ethernet Switches
Product Description
Eaton’s Power Xpert
Ethernet Switches are ideal
for extending Ethernet
networks via CAT5 wiring
or fiber in harsh, industrial
environments. Built with
high-grade components and
constructed using special
thermal techniques, PXE
Switches can withstand the
unpredictable conditions of
such environments.

9

Features
●

●

●

●

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Simultaneous, full-duplex,
high-speed communication
on all ports—no network
performance bottlenecks
Hardened for factory
floor—ideal for both
industrial or data center
applications
Unmanaged, plug-and-play
implementation—no
software or additional
hardware required for
configuration
Seamlessly integrates into
Eaton’s Power Xpert
Architecture—quality
and reliability of Eaton
guaranteed
Mounting options include
standalone panelmounting, DIN rail
mounting, or 19-inch
standard rack mounting

Standards and Certifications
PXES 6-Port Switch—10/100 Mb
with Optional 100 Mb Fiber
This compact switch provides
six Ethernet ports, with
flexible configurations. The
base models have one of
three options:
●

●

●

●
●
●
●

UL Listed (UL 60950)
cUL
CE
Emissions meet FCC Part
15, Class A

Two 100 Mb fiber and
four 10/100 copper ports
One fiber and five
copper ports
Six copper ports

PXES 4-Port Switch—10/100 Mb
For smaller applications
requiring fewer connection
points and no fiber, the 4-port
Power Xpert Ethernet Switch
is a versatile option. It
provides edge access
Ethernet ports in a convenient
and compact package.

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Volume 3—Power Distribution and Control Assemblies

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Metering Devices, Protective Relays, Software and Connectivity
Connectivity Options

9.5

Product Selection

Ethernet Switch

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Power Xpert Ethernet Switches
Description

Catalog
Number

9

4-port Ethernet switch—copper only

PXES4P24V

6-port Ethernet switch—copper only

PXES6P24V

9

6-port Ethernet switch—5 copper/1 fiber (ST connector)

PXES6P24V1ST

6-port Ethernet switch—4 copper/2 fiber (ST connector)

PXES6P24V2ST

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Accessories

9
Ethernet Switch

Power Xpert Ethernet Switches

9

Catalog
Number

Description
Power supply (preferred)—100–240 Vac input
DIN rail mount with screw—24 Vdc output terminals

ELC-PS02

Power supply (alternate)—120 Vac input
Wall plug-in type with 6 ft cord—12 Vdc output

PXESPS12V

DIN rail mounting bracket

PXESDINRL

19-inch rack mount tray

PXESTRAY

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Technical Data and Specifications

9

Operating Environment

9

Description

Specifications

Ambient temperature ratings

–25°C to 60°C long-term per independent agency tests (UL), or –40°C to 85°C short-term per IEC type tests

Storage temperature

–40° to 185°F (–40°C to 85°C)

Cold start

to –20°C

Ambient relative humidity

5%–95% (noncondensing)

Altitude

–200 to 50,000 ft (–60 to 15,000m)

MTBF

> 15 years

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Network Standards

9

Description
Ethernet IEEE 802.3, IEEE 802.3u; IEEE 802.1p, 100Base-TX, 10Base-T, 100Base-FX

9

Power Consumption

9

Description

9

7.0 watts typical—9 watts maximum

9

Packaging
Description

Specifications

Enclosure

Robust sheet metal (steel)

Cooling method

Case used as a heat sink

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9

Mounting
Description

Specifications

Metal panel mounting clips

Included

DIN rail mounting

Optional

19-inch rack mount

Optional

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●

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Connectivity Options

Copper Ethernet Cable
Wiring Guidelines
The following information can
be used as a guide when
designing an Ethernet system
using Copper Ethernet Cable.

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Metering Devices, Protective Relays, Software and Connectivity

●

●

Cables should not be
routed near equipment that
generates strong electric
or magnetic fields such as
motors, drive controllers,
arc welders and conduit
Ethernet cable insulation
has a voltage rating of
300 Vac. Use of barriers,
cable trays or high voltage
sheathing with STP
Ethernet cable may be
required in installations
with cables carrying
voltages greater than
300 Vac. This may
also be necessary in
order to comply with
UL requirements. In
installations where the
cable cannot be physically
separated from the power
cables (where a physical
barrier is not practical) fiber
optic cable should be used
When crossing power
conductors with Ethernet
cable, cross at right angles
Shielded Twisted Pair (STP)
Ethernet cable should be
specified for use in high
noise environments.
Shielded shrouded
connectors must be used
and the shield must be
connected at both ends of
the wire. The mating plug
must have a shielded
shroud that is terminated
to ground at both ends.
Where there is a possibility
of a difference in ground
potential (common mode)
voltages between the
two terminated ends,
fiber optic cable is
recommended

●

●

●

●

When using conduit or a
metal cable tray, each
section of the conduit or
tray must be bonded to
each adjacent section and
the conduit or tray needs
to be bonded to earth
ground. Do not allow the
shields to touch the
conduit or metal tray at
any point
Only shielded (STP)
Ethernet cables should be
placed into metal conduit.
Some UTP cables may not
function properly when
installed in conduit, as the
metal conduit can affect the
electrical properties of an
unshielded cable. Consult
the cable manufacturer
when installing UTP cables
in conduit
As a general rule for noise
protection, Ethernet Cable
should maintain a minimum
distance of 3 inches (8 cm)
from electric power
conductors for up to
100 volts and 1 inch (3 cm)
for each additional 100 volts
up to 400 volts. STP cable is
recommended
For Ethernet cable run
within conduit, but near
conductors with potentially
noisy power conductors
carrying currents of greater
than 20A or voltages
greater than 400V, maintain
the following distances.
STP cable is required.
●
Conductors of less than
20A = 3 inches
●
Conductors of 20A or
more and up to 100 kVA
= 6 inches
●
Conductors greater than
100 kVA = 12 inches

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●

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●

●

●

For Ethernet cable run near
conductors with potentially
noisy power conductors
carrying currents of greater
than 20A or voltages
greater than 400V, maintain
the following distances.
STP cable is recommended
●
Conductors of less than
20A = 6 inches
●
Conductors of 20A
or more and up to
100 kVA = 12 inches
●
Conductors greater than
100 kVA = 24 inches
Route Ethernet cable at
least 5 feet (1.5m) from
sources of rf/microwave
radiation. STP cable is
required
Do not cascade more than
four Ethernet repeaters
(router, switch or hub)
within a network segment
Environmentally sealed
connectors should be
specified for cables used
in outdoor installations
Avoid pinching the cable
when using cable ties
Total distance between an
Ethernet Transmitter and
Receiver at the end points
of the network should not
exceed 328 feet (100m)
Total distance from a patch
panel to a wall jack (using
solid cable) shall not
exceed 295 feet (90m).
Splices are not permitted
Patch cords used as crossconnect jumpers in a patch
panel should not exceed
20 feet (6m)
Patch cords from a wall
jack to the work area PC
(or device) shall not exceed
16 feet (5m)
Ethernet cable used in
harsh environments
must be selected to
withstand the following
conditions: vibration,
air born contaminants,
chemicals, temperature,
electromagnetic
interference, combustible
atmospheres and local
regulatory standards such
as UL and NEMA

●

●

●

●

Ethernet connectors used
in harsh environments
must be robust enough
to withstand vibration,
multiple connection cycles,
temperature changes,
and provide a proper
seal to protect against
moisture, dust/dirt and
chemical attack
Different cable media
support different
bandwidth capabilities.
When installing cable in a
network, care should be
taken to install the cable
that will fill current network
loading requirements and
future expansion needs. In
general, fiber optic cable
can support the greatest
bandwidth (upward of
25,000 gigabits) and UTP
has the lowest. CAT5e
cabling is designed to
operate a bit rates up to
1000 Mb and CAT6 cable
up to 2000 Mb
Operating your cable at
maximum speed reduces
the distance between
network segments. Check
with your cable supplier for
specifications regarding
segment distance vs.
speed
Cable with 5% impedance
mismatch or return
loss of 27 to 32 dB is
recommended. Ethernet
cable impedance can vary
by as much as 15%
(85 to 115 ohms). Average
Ethernet cable with 15%
impedance variation
can have up to 10 dB
additional return loss.
This discontinuity is
referred to as return loss,
since it causes some of the
signal to be reflected back
down the cable instead of
propagating forward. It
is measured in decibels or
ratio of transmitted versus
reflected signal

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Metering Devices, Protective Relays, Software and Connectivity
Connectivity Options

Fiber Optic Technology
The use of fiber optics in
telecommunications and wide
area networking has been
common for many years, but
more recently fiber optics
have become increasingly
prevalent in industrial data
communications systems
as well. High data rate
capabilities, noise rejection
and electrical isolation are
just a few of the important
characteristics that make
fiber optic technology ideal
for use in industrial and
commercial systems.

up of three parts. The center
core is composed of very
pure glass. Core dimensions
are usually in the range
of 50 to 125 um for multimode cables and 8-9 um for
single-mode cables. The
surrounding glass, called
cladding, is a slightly less
pure glass. The diameter of
the core and cladding
together is in the range of
125 to 440 um.

Although often used for pointto-point connections, fiber
optic links are being used to
extend the distance
limitations of RS-232, RS-422/
485 and Ethernet systems
while ensuring high data rates
and minimizing electrical
interference.

Fiber Optic Cable
Wiring Guidelines
The following information
can be used as a guide
when designing an Ethernet
system using Fiber Optic
Ethernet Cable:

Conventional electrical data
signals are converted into
a modulated light beam,
introduced into the fiber and
transported via a very small
diameter glass or plastic
fiber to a receiver that
converts the light back into
electrical signals.
Optical fibers allow data
signals to propagate through
them by ensuring that the
light signal enters the fiber
at an angle greater than the
critical angle of the interface
between two types of glass.
Optical fiber is actually made

Surrounding the cladding is a
protective layer of flexible
silicone called the sheath.

●

●

Select a fiber cable that is
suited for the application,
e.g., outdoor, aerial, duct,
intra-building, risers,
general building and
plenum applications
Fiber optic cable is useful in
applications where the
environment is combustible,
electrically noisy, the cable
must be bundles with high
voltage wires or where
common mode voltages
may exist between the
earth ground points of the
terminating connectors

●

●

●

●

●

Fiber optic cable is
available in various
operating temperature
ranges. Care should be
taken to match the
temperature rating of the
fiber to the environment it
will be exposed to. The
temperature specification
for fiber may be narrower
than copper cable. Consult
the cable manufacturer for
temperature specifications
of your cable type
Sealed fiber connectors are
available for use in harsh
environments to prevent
contamination from
entering the connector and
fiber. The type of seal
required will be application
dependant and can vary
from dust- and moistureproof to water-tight
Mixing fiber cable types is
not permitted. The same
core dimensions and mode
must be used within
cable segments
Care should be taken when
purchasing connectors to
include strain relief, which
reduces mechanical strain
(vibration) within the cable,
as well as the connector.
Strain relief also provides
support to the cable
to ensure proper bend
radius at the connector
Single-Mode Fiber is
used for long distance
transmission of up to
120 km. Distance may vary
depending on speed and
type of converter used

●

●

●

9.5

Multi-Mode Graded-Index
Fiber Cable is used for
communication over
shorter distances of up
to 2 km
Fiber cable is composed of
glass and is not well suited
for applications requiring
tight bend radiuses. Cable
radius dimensions vary per
manufacturer. If the
manufacturer does not
provide a bend radius, a
typical rule of thumb is a
radius not less than 15x the
cable diameter
Fiber cable to connector
terminations can be
performed in the field
using special equipment.
This method is not
recommended
●
Tier One testing is
recommended when
diagnosing system
irregularities and should
be performed in all new
installations
●
Tier Two testing is
recommended to certify
that a system complies
with standards set forth
by the owner/installer

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Dimensions

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Packaging
Description

Specifications

Dimensions of PXES4P series
Weight of PXES4P series

3.5 in H x 3.0 in W x 1.0 in D (8.9 cm x 7.6 cm x 2.5 cm)
8.6 oz. (243g)

Dimensions of PXES6P series
Weight of PXES6P series

3.6 in H x 3.0 in W x 1.7 in D (9.2 cm x 7.6 cm x 4.3 cm)
13 oz. (370g)

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9

Metering Devices, Protective Relays, Software and Connectivity
Connectivity Options

Contents

Power Xpert Gateway Series 1000 Card

Description

9

Page

Power Xpert Gateways. . . . . . . . . . . . . . . . . . . . . .
Power Xpert Ethernet Switches . . . . . . . . . . . . . . .
Power Xpert Gateway
Series 1000 Card—Power Distribution Unit
Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Product Selection . . . . . . . . . . . . . . . . . . . . . . .
Technical Data and Specifications . . . . . . . . . . .
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Xpert Gateway
Series 2000 Card—Uninterruptible Power Supplies
mMINT. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MINTII RS-232 Converter . . . . . . . . . . . . . . . . . . .
IPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
I/O Devices Digital Input Module (DIM) . . . . . . . . .
Addressable Relay II . . . . . . . . . . . . . . . . . . . . . . .
Breaker Interface Module II (BIM II) . . . . . . . . . . .
Sub-Network Master Local Display (SMLD). . . . . .
IMPCABLE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

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Power Xpert Gateway
Series 1000 Card—Power Distribution Unit
Product Description
The Power Xpert Gateway
Series 1000 Card (PXGX
1000) provides Web-enabled,
real-time monitoring of
Powerware Power
Distribution Units (PDUs),
Rack Power Modules (RPM)
and Powerware Remote
Power Panels (RPPs) through
standard on-board Web
pages, Power Xpert Software
or third-party software.

An integral part of the Power
Xpert Architecture, which
provides end-to-end
PowerChain solutions, the
PXGX 1000 provides a central
point to connect distribution
products to an Ethernet
network.
Information is presented
in organized, user-friendly
Web pages and include
the following:
●

9

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●

●

PDU system identification
Graphic panel layouts
Voltage
Current
Frequency
Energy
Power
THD (current and voltage)

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V3-T9-259
V3-T9-272

V3-T9-277
V3-T9-278
V3-T9-278
V3-T9-278
V3-T9-279
V3-T9-282
V3-T9-284
V3-T9-285
V3-T9-286
V3-T9-287
V3-T9-288
V3-T9-290
V3-T9-293
V3-T9-297
V3-T9-299

Metering Devices, Protective Relays, Software and Connectivity
Connectivity Options

Features
●

●

●

●

●

●

●

●

9.5

Standards and Certifications

Web-enabled monitoring of
power quality data down to
the branch circuit level—
Data can be viewed
from any location with a
Web browser
Configure and edit the
EMS remotely via the
Web interface—supports
remote configuration,
including naming, alarm
and warning set points and
percentages
Data, interval and event
logging with time stamp—
accurate logging for power
quality analysis
Modbus TCP/IP and SNMP
Support—open
communication protocol
facilitates integration with
standard building
management systems and
network management
systems
Customized e-mail
messaging for events
notification, including data
and event logs and periodic
“heartbeat” e-mails—
direct alarm and event
notification to the
appropriate person(s)
in the organization
Easy integration into
existing Ethernet
infrastructure—minimize
installation cost
Securely access and view
information—password
authentication is required
at two levels. The card also
supports secure Webbased communication
via SSL
Generate Modbus Register
Maps on the fly—all of the
data specific to the system
is immediately available
and can be generated with
one click of the mouse

●

●

Save and Restore
settings—configuring a
large PDU with EMS can
take time. Once the effort
is complete, the
configuration can be saved
for later use. It also allows
the user to duplicate panel
identical configurations in
minimal time
Supports the
Environmental Monitoring
Probe—temperature,
humidity and contact
status can be viewed
though the Web page

●
●
●
●

9

FCC Part 15, Class A
CISPR 22, Class A
ROHS Compliant
Telecom conducted via
EU Standard
●
EN 55022:1988+A1:
2000+A2:2003, Class A/
EN55022:1988+A1:200
0+A2:2003

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PDU or RPP System Summary Page

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PDU or RPP Panel Page

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RPM Panel Page

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Power Xpert Gateway
Series 1000 Card

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Power Xpert Gateway Series 1000 Card for use with Eaton
PDUs, RPPs, RPMs, PDRs and EMS-UGK

The Power Xpert Gateway
Series 1000 Card Kit Includes
●
Power Xpert Gateway
Series 1000 Card
●
Ethernet cable
●
Local configuration cable
●
Quick start guide

●

●

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Powerware Power
Distribution Units with
X-Slot® compatibility
Powerware Remote Power
Panels with X-Slot
compatibility
Powerware Rack Power
Modules with X-Slot
compatibility

●

●

●

●

●

●

●

●

Communication Ports

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9

Catalog
Number

103005741-5591

PXGX1000

Communication
Protocols Supported

Devices Supported
●

9

Style
Number

Technical Data and Specifications

9
9

Ordering Information
Description

9
9

Connectivity Options

Product Selection

9
9

Metering Devices, Protective Relays, Software and Connectivity

Ethernet ports: Two
independent RJ-45 ports:
supports 10/100Base-T
for redundant network
configurations
Serial ports: One RJ-45
console part: supports
local configuration and
optional connection to an
Environmental Monitoring
Probe (EMP)

Web server: supports
data access from Web
browsers (HTTP and
HTTPS)
Modbus TCP/IP: supports
data access from Modbus
TCP clients
SNMP: supports common
network management
tools
SMTP: supports e-mail
notification
NTP: supports time
synchronization via an
NTP server for card and
PDU synchronization
DHCP: supports automatic
IP address assignments,
if enabled

Mounting Configuration

Supported MIBs
●
●
●

●
●
●

●

Eaton PDU MIB
Eaton EMP MIB
Eaton alarms and traps
MIB
RFC 4133 Entity MIB
RFC 4268 Entity State MIB
RFC 4268 Entity State MIB
Part II
RFC 1213 MIB II

Web Browsers Supported
●
●

IE
Mozilla Firefox

●

●
●

X-Slot form factor fits
directly into PDU/RPP/
RPM chassis

Power Supply
●

●

Nominal input voltage:
12 Vdc, unregulated
(provided by PDU/RPP)
Input voltage range:
8–25 Vdc, unregulated

Power Consumption
2.0 watts

Environmental
Specifications
●

●

Ambient operating: 0 to
+40°C (32 to 104°F)
Relative humidity: 10 to
80%, noncondensing
Altitude: 10,000 ft
Enclosure rating: indoor
use only

Note: Features and specifications
listed in this document are
subject to change without notice
and represent the maximum
capabilities of the software and
products with all options
installed. This is not a complete
feature list. Features and
functionality may vary depending
on selected options.

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9

Dimensions
Approximate Dimensions in Inches (mm)

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Physical Characteristics
Height

Width

Depth

Weight
Lbs (kg)

1.50 (39.0)

4.70 (120.0)

4.50 (114.0)

0.44 (0.2)

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Connectivity Options

9.5

Contents

Power Xpert Gateway Series 2000 Card

Description

Page

Power Xpert Gateways . . . . . . . . . . . . . . . . . . . . . .
Power Xpert Ethernet Switches . . . . . . . . . . . . . . .
Power Xpert Gateway
Series 1000 Card—Power Distribution Unit . . . . . .
Power Xpert Gateway
Series 2000 Card—Uninterruptible Power Supplies
Features. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Standards and Certifications . . . . . . . . . . . . . . .
Product Selection . . . . . . . . . . . . . . . . . . . . . . .
Technical Data and Specifications . . . . . . . . . . .
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . .
mMINT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MINTII RS-232 Converter. . . . . . . . . . . . . . . . . . . .
IPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
I/O Devices Digital Input Module (DIM) . . . . . . . . .
Addressable Relay II. . . . . . . . . . . . . . . . . . . . . . . .
Breaker Interface Module II (BIM II) . . . . . . . . . . .
Sub-Network Master Local Display (SMLD) . . . . . .
IMPCABLE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

V3-T9-259
V3-T9-272
V3-T9-276

V3-T9-280
V3-T9-280
V3-T9-281
V3-T9-281
V3-T9-281
V3-T9-282
V3-T9-284
V3-T9-285
V3-T9-286
V3-T9-287
V3-T9-288
V3-T9-290
V3-T9-293
V3-T9-297
V3-T9-299

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Power Xpert Gateway
Series 2000 Card—Uninterruptible Power Supplies

9

Product Description
The Power Xpert Gateway
Series 2000 Card (PXGX
2000) provides Web-enabled,
real-time monitoring of
Powerware Uninterruptible
Power Supplies (UPS)
through standard on-board
Web pages, Power Xpert
Software or third-party
software.
An integral part of the Power
Xpert Architecture, which
provides end-to-end
PowerChain solutions, the
PXGX 2000 provides a central
point to connect distribution
products to an Ethernet
network.

Information is presented
in organized, user-friendly
Web pages and include
the following:
●
●
●
●
●
●
●
●

9
9

UPS system identification
Voltage
Current
Frequency
Energy
Output Power
Power—full load %
Battery information
●
History and
maintenance
●
Run time remaining
●
Voltage
●
% battery left

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Connectivity Options

Features

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Metering Devices, Protective Relays, Software and Connectivity

●

Standards and Certifications

Web-enabled monitoring of
power quality data—data
can be viewed from any
location with a Web
browser
Data, event and system
logging with time stamp—
accurate logging for power
quality analysis
Modbus TCP/IP and SNMP
Support—open
communication protocol
facilitates integration
with standard building
management systems and
network management
systems
Intelligent e-mail
communications—two
options for alarm and
event e-mail notification,
individual e-mails for each
alarm or event, or
collective notification,
providing the same
information with a
drastically reduced number
of e-mails
Easy integration into
existing Ethernet
infrastructure—minimize
installation cost
Securely access and view
information—password
authentication is required
at two levels. The card also
supports secure Webbased communication
via SSL
Generate Modbus Register
Maps on the fly—all of the
data specific to the UPS is
immediately available and
can be generated with one
click of the mouse
Save and Restore
settings—once the
configuration effort is
complete, it can be saved
for later use

●

●

Supports the
Environmental Monitoring
Probe—temperature,
humidity and contact
status can be viewed
through the Web page
Two independent,
redundant Ethernet
ports—designed to
support high reliability
systems

●
●
●
●

FCC Part 15, Class A
CISPR 22, Class A
ROHS Compliant
Telecom conducted via
EU Standard
●
EN 55022:1988+A1:
2000+A2:2003, Class A/
EN55022:1988+A1:200
0+A2:2003

UPS Summary Page

Alarm Summary Page

NetWatch Support Page

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Metering Devices, Protective Relays, Software and Connectivity
Connectivity Options

9.5

Product Selection
Power Xpert Gateway
Series 2000 Card

9
Ordering Information
Description
Power Xpert Gateway Series 2000 Card for use with
Powerware UPSs

Style
Number

Catalog
Number

103005868-5591

PXGX 2000

9
9
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9

Technical Data and Specifications
The Power Xpert Gateway
Series 2000 Card Kit Includes
●
Power Xpert Gateway
Series 2000 Card
●
Ethernet cable
●
Local configuration cable
●
Quick start guide

Communication
Protocols Supported
●

●

Devices Supported
●

Powerware uninterruptible
power supplies with X-Slot
compatibility; these include
the Powerware 5115 RM,
5125, 9125, 9140, 9155,
9315, 9355, 9330, 9390,
9395, BladeUPST

●

●

●

Communication Ports
●

●

Ethernet ports: two
independent RJ-45 ports:
supports 10/100Base-T for
redundant network
configurations
Serial ports: one RJ-45
console port supports
local configuration and
optional connection to an
Environmental Monitoring
Probe (EMP)

●

Web server: supports
data access from Web
browsers (HTTP and
HTTPS)
Modbus TCP/IP: supports
data access from Modbus
TCP clients
SNMP: supports common
network management
tools
SMTP: supports e-mail
notification
NTP: supports time
synchronization via an
NTP server for card and
UPS synchronization
DHCP: supports automatic
IP address assignments,
if enabled

Supported MIBs
●
●
●
●

●
●

●

Eaton Power MIB
RFC 1628 UPS MIB
Eaton EMP MIB
Eaton alarms and
traps MIB
RFC 4133 Entity MIB
RFC 4268 Entity State
MIB; RFC 4268 Entity
State MIB Part 2
RFC 1213 MIB II

Web Browsers Supported
●
●

Mounting Configuration
●

X-Slot form factor fits
directly into UPS chassis

●

Nominal input voltage:
12 Vdc, unregulated
(provided by UPS)
Input voltage range:
8–25 Vdc, unregulated

Power Consumption
●

●

●
●

9
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9

2.0 watts

IE
Mozilla Firefox

9
9

Environmental
Specifications
●

9
9

Power Supply
●

9

9

Ambient operating:
0 to +40°C (32 to 104°F)
Relative humidity:
10 to 80%, noncondensing
Altitude: 10,000 ft
Enclosure rating: indoor
use only

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9

Dimensions
Approximate Dimensions in Inches (mm)

9

Physical Characteristics

9

Height

Width

Depth

Weight
Lbs (kg)

9

1.50 (39.0)

4.70 (120.0)

4.50 (114.0)

0.44 (0.2)

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9

Metering Devices, Protective Relays, Software and Connectivity
Connectivity Options

Contents

mMINT Module

Description

9

Page

Power Xpert Gateways. . . . . . . . . . . . . . . . . . . . . .
Power Xpert Ethernet Switches . . . . . . . . . . . . . . .
Power Xpert Gateway
Series 1000 Card—Power Distribution Unit . . . . . .
Power Xpert Gateway
Series 2000 Card—Uninterruptible Power Supplies
mMINT
Technical Data and Specifications . . . . . . . . . . .
MINTII RS-232 Converter . . . . . . . . . . . . . . . . . . .
IPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
I/O Devices Digital Input Module (DIM) . . . . . . . . .
Addressable Relay II . . . . . . . . . . . . . . . . . . . . . . .
Breaker Interface Module II (BIM II) . . . . . . . . . . .
Sub-Network Master Local Display (SMLD). . . . . .
IMPCABLE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

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V3-T9-259
V3-T9-272
V3-T9-276
V3-T9-279
V3-T9-283
V3-T9-284
V3-T9-285
V3-T9-286
V3-T9-287
V3-T9-288
V3-T9-290
V3-T9-293
V3-T9-297
V3-T9-299

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mMINT

9

Product Description

Features

The mMINT (Modbus Master
INCOM Network Translator)
Module is an Eaton accessory
product that provides
communication between
a Modbus RTU network
and an INCOM (INdustrial
COMmunications) network
(see Page V3-T9-283). This
module is transparent to the
Modbus network. It
communicates to a master on
the Modbus network using
the Modbus RTU (Remote
Terminal Unit) protocol. It
communicates to slave
devices on the INCOM
network using the IMPACC
(Integrated Monitoring,
Protection, And Control
Communication) protocol.

The mMINT module is a
slave device on the Modbus
network and as such requires
a master that will exchange
register objects with the
mMINT module.

●

Handles generic passthrough commands
(Modbus/INCOM/Modbus)
Capable of passing
Modbus register objects
from Eaton’s existing
products and newer PnP
(Plug-n-Play) products to a
Modbus RTU master
Data in IEEE Floating Point
format and fixed point
Modbus RTU
communications data
transfer rates of 1200,
9600 or 19,200 baud with
one start bit, eight data
bits, no parity, and either
one or two stop bits

●

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●

●

●

●

Standards and Certifications

●

●

●

●
●

Up to 32 products
connected to INCOM
network port (246 unique
addresses maximum)
Flashing Status LED to
indicate an active module
LED indicators for INCOM
transmit and receive
communications
exchanges
LED indicators for Modbus
RS-485 transmit and
receive communications
exchanges
Input power for the module
from either 120 Vac or 24
to 125 Vdc
DIN rail mount package
0ºC to 60ºC ambient
operation

●
●
●

UL
CSA
CE mark

Product Selection
The catalog number of this
product is mMINT.

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9.5

Metering Devices, Protective Relays, Software and Connectivity
Connectivity Options

Technical Data and Specifications
Module Mounting
When mounting the
mMINT, verify that an
11 mm H x 28 mm W
DIN rail is used and that it is
within an enclosed space.

●

●

Simplified Wiring Rules
INCOM Network
The following simplified rules
apply to a given system
consisting of a single daisychained main cable link
between master and slave
devices (see below). For
more complex considerations
including star configurations,
please refer to the IMPACC
wiring specification
T.D. 17513.
Modbus RTU Serial Network

(Slave)
Modbus
mMINT

Modbus
Master

(Master)
INCOM Network

INCOM
Slaves

●

●

9
Recommended INCOM
cable styles are Belden
9463 or C-H style
2A957805G01
The maximum system
capacity is 10,000 feet of
communications cable and
32 slave devices on the
INCOM network under
the mMINT
Non-terminated taps, up to
200 feet in length, off the
main link are permitted,
but add to the total
cable length
Make sure that there is
twisted-pair wire that is
recommended for IMPACC
network use. Use shielded
twisted-pair wire to
connect each slave to the
INCOM network, daisychain style. The polarity
of the twisted pair is
not important

Modbus RS-485 Network
The following simplified rules
apply to a given system
consisting of a cable link
between master and slave
devices (see below). For
more complex configurations,
please refer to standard
Modbus RTU wiring
specification rules for
the RS-485 network.
●

●

●

The recommended
Modbus cable has twistedpair wires (24 AWG
stranded 7x32 conductors
with PVC insulation) having
an aluminum/mylar foil
shield with drain wire
The maximum system
capacity is 4000 feet of
communications cable and
247 devices on the
Modbus RTU network
Make sure that there is
twisted-pair wire that is
recommended for Modbus
RTU network use. Use
shielded twisted-pair wire
to connect each slave to
the Modbus RTU network,
daisy-chain style. The
polarity of the twisted pair
is critically important

RS-485
Modbus
A B COM SHD

9

J3

9
9

4.25
(108.0)

9
9
J2

J1

9
24 – 125 Vdc
120 Vac

Shield INCOM
3.54
(89.9)

mMINT Module Dimensions

Burden
●
24 Vac/dc 3 VA

9
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9

Communications Speed
■
INCOM: 1200, 9600 baud
●
N2 Bus: 9600 baud
Note: Contact Eaton for
availability and support for the
N2 Gateway.

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mMINT in a Communications Network

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Volume 3—Power Distribution and Control Assemblies

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V3-T9-283

9.5
9

Metering Devices, Protective Relays, Software and Connectivity
Connectivity Options

Contents

MINTII RS-232 Converter

Description

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MINTII RS-232 Converter

9

Product Description

Application Description

Converts a network of Power
Management Software
devices to ASCII RS-232
format for access through
a serial port of a personal
computer, laptop, or
Programmable Logic
Controller.

The Master INCOM Network
Translator II (MINTII) converts
the twisted shielded pair
network of INCOM devices to
an RS-232 signal. This signal
can be accessed by PLCs,
computer serial ports,
building management system
serial interface cards. The
MINTII is also often applied
as an interface to standard
line drivers and converters to
allow communication through
dedicated telephone lines,
dial-up modems, fiber-optic
line drivers, radio frequency
or wireless modems.

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9

Page

Power Xpert Gateways. . . . . . . . . . . . . . . . . . . . . .
Power Xpert Ethernet Switches . . . . . . . . . . . . . . .
Power Xpert Gateway
Series 1000 Card—Power Distribution Unit . . . . . .
Power Xpert Gateway
Series 2000 Card—Uninterruptible Power Supplies
mMINT. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MINTII RS-232 Converter
IPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
I/O Devices Digital Input Module (DIM) . . . . . . . . .
Addressable Relay II . . . . . . . . . . . . . . . . . . . . . . .
Breaker Interface Module II (BIM II) . . . . . . . . . . .
Sub-Network Master Local Display (SMLD). . . . . .
IMPCABLE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Displayed Parameters
●
Eaton’s MINTII provides
access to all parameters
monitored over the Power
Management Software
network
●
Supports INCOM networks
up to 8500 feet (2590m) in
distance and device counts
up to 1000

9

Product Selection

●

Master INCOM Network
Translator II

9

Catalog
Number

●

MINTII
●

●

Technical Data and
Specifications

●

Temperature
●
0°C to 60°C
Humidity
●
0% to 95%
Power
●
120V

Communications
●
INCOM, RS-232

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V3-T9-284

Volume 3—Power Distribution and Control Assemblies

V3-T9-279
V3-T9-282
V3-T9-285
V3-T9-286
V3-T9-287
V3-T9-288
V3-T9-290
V3-T9-293
V3-T9-297
V3-T9-299

Suitable for panel
mounting or desktop use
120 Vac power cord
included for plug-in to
standard duplex receptacle
Height: 2.25 inches
(57.2 mm)
Width: 11.5 inches
(292.1 mm)
Depth: 4.25 inches
(108.0 mm)

Speed
●
1200, 2400 and 9600 baud
(INCOM), 19.2K baud
(RS-232)

9

V3-T9-276

Dimensions

MINTII RS-232 Converter
Description

V3-T9-259
V3-T9-272

CA08100004E—November 2013

www.eaton.com

9.5

Metering Devices, Protective Relays, Software and Connectivity
Connectivity Options

Contents

IPONI Communication Module

Description

Page

Power Xpert Gateways . . . . . . . . . . . . . . . . . . . . . .
Power Xpert Ethernet Switches . . . . . . . . . . . . . . .
Power Xpert Gateway
Series 1000 Card—Power Distribution Unit . . . . . .
Power Xpert Gateway
Series 2000 Card—Uninterruptible Power Supplies
mMINT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MINTII RS-232 Converter. . . . . . . . . . . . . . . . . . . .
IPONI
DPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
I/O Devices Digital Input Module (DIM) . . . . . . . . .
Addressable Relay II. . . . . . . . . . . . . . . . . . . . . . . .
Breaker Interface Module II (BIM II) . . . . . . . . . . .
Sub-Network Master Local Display (SMLD) . . . . . .
IMPCABLE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

V3-T9-259
V3-T9-272
V3-T9-276
V3-T9-279
V3-T9-282
V3-T9-284
V3-T9-286
V3-T9-287
V3-T9-288
V3-T9-290
V3-T9-293
V3-T9-297
V3-T9-299

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IPONI
Product Selection Guide

Product Description

IPONI Selection Chart
Description

IPONI

INCOM
on Product

IQ Analyzer

Š1.06

—

■

IQ DP-4000

■

—

■

IQ 200

—

■

—

IQ Multipoint Energy Submeter II

—

■

—

Energy Sentinel

—

■

—

Power Sentinel

—

■

—

MPONI

IQ Generator

■

—

—

IQ Data

■

—

—

IQ Data Plus II

—

—

—

IQ 500

—

—

—

IQ Transfer

■

—

—

AEMII

■

—

—

BIM II

■

—

—

CMU

■

—

—

CED

■

—

—

MP-3000

■

—

■

Digitrip 3000

—

■

—

FP-5000

—

■

—

The INCOM Product
Operated Network Interface
card, or IPONI card, adds
communication capability to
various Eaton products. Each
IPONI has three 16-digit
address switches to uniquely
identify each device on the
network. IPONIs are
designed to be daisy-chained
throughout a unit substation
or equipment room to a
master device such as a
mMINT, MINTII or Power
Xpert Gateway. From the
master computer, information
is distributed through the
facility’s TCP/IP Ethernet
network. A twisted shielded
pair network connecting
IPONIs may extend up to
10,000 feet (3048m) before
terminating a master device.
The IPONI comes with
mounting hardware and
attaches to the back of its
associated device.

9

Technical Data and
Specifications

9

Temperature
●
–20°C to 70°C

9

Humidity
●
5%–95% noncondensing
Power
●
20–30 Vdc maximum,
50 mA nominal,
100 mA maximum
Speed
●
1200 and 9600 baud
Communications
●
Three-position removable
terminal block for twisted
shielded pair INCOM

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Product Selection
IPONI Card

9
PONI Communication Modules
Description

Catalog
Number

INCOM PONI

IPONI

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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V3-T9-285

9.5

Metering Devices, Protective Relays, Software and Connectivity
Connectivity Options

9

Contents

9

Power Xpert Gateways. . . . . . . . . . . . . . . . . . . . . .
Power Xpert Ethernet Switches . . . . . . . . . . . . . . .
Power Xpert Gateway
Series 1000 Card—Power Distribution Unit . . . . . .
Power Xpert Gateway
Series 2000 Card—Uninterruptible Power Supplies
mMINT. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MINTII RS-232 Converter . . . . . . . . . . . . . . . . . . .
IPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DPONI
MPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
I/O Devices Digital Input Module (DIM) . . . . . . . . .
Addressable Relay II . . . . . . . . . . . . . . . . . . . . . . .
Breaker Interface Module II (BIM II) . . . . . . . . . . .
Sub-Network Master Local Display (SMLD). . . . . .
IMPCABLE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Description

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DPONI

9

Product Description

Features

The DeviceNet Product
Operated Network
Interface (DPONI) enables
communication between a
DeviceNet network master
station and a host device in a
Master/Slave format over a
DeviceNet network. The
DPONI is compatible with the
MP-3000 and the MP-4000.
The DPONI is powered both
by the host product to which
it is attached and by the
DeviceNet network. The
DPONI uses opto-couplers
to isolate the two power
systems.

Eaton’s DPONI

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DeviceNet
Network
Connection
(5 point plug)

9

V3-T9-287
V3-T9-288
V3-T9-290
V3-T9-293
V3-T9-297
V3-T9-299

T

Data
Code
Earth
GND

R

IQ Host
Device
Connection

INCOM
Status

Product Selection
DPONI
Description

Catalog
Number

The DeviceNet Product Operated Network Interface

DPONI

Technical Data and Specifications
Power
11–27 Vdc, 40 mA maximum
Speed
●
125, 250 or 500 Kbps
●

Communications
Standard five-wire
CAN connection

●

9
V3-T9-286

V3-T9-279
V3-T9-282
V3-T9-284
V3-T9-285

DEVICE
MOUNTING

Temperature
●
–20ºC to 70ºC
Humidity
●
5%–90% noncondensing

9

V3-T9-276

DeviceNet
Status

The DPONI communicates
at 125, 250 or 500 Kbps
selected via a front panel
DIP switch. All products on
the DeviceNet network
must be set at the same
communication rate.
The DPONI has a bi-color
network/module status
LED that functions in
accordance with the
DeviceNet specification.
An additional monocolor
LED flashes while the DPONI
is receiving a message from
the host device.

Page
V3-T9-259
V3-T9-272

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

Metering Devices, Protective Relays, Software and Connectivity
Connectivity Options

9.5

Contents
Description

Page

Power Xpert Gateways . . . . . . . . . . . . . . . . . . . . . .
Power Xpert Ethernet Switches . . . . . . . . . . . . . . .
Power Xpert Gateway
Series 1000 Card—Power Distribution Unit . . . . . .
Power Xpert Gateway
Series 2000 Card—Uninterruptible Power Supplies
mMINT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MINTII RS-232 Converter. . . . . . . . . . . . . . . . . . . .
IPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MPONI
I/O Devices Digital Input Module (DIM) . . . . . . . . .
Addressable Relay II. . . . . . . . . . . . . . . . . . . . . . . .
Breaker Interface Module II (BIM II) . . . . . . . . . . .
Sub-Network Master Local Display (SMLD) . . . . . .
IMPCABLE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

V3-T9-259
V3-T9-272
V3-T9-276
V3-T9-279
V3-T9-282
V3-T9-284
V3-T9-285
V3-T9-286
V3-T9-288
V3-T9-290
V3-T9-293
V3-T9-297
V3-T9-299

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MPONI
Product Description

9

Features

The MPONI Product Operated
Network Interface card, or
MPONI card, enables Modbus
communication capability to
various Eaton products. Each
MPONI contains two rotary
address switches to uniquely
identify each device on the
network and a baud rate DIP
switch. A 5-pin connector is
provided for wiring to the
RS-485 network. Various
baud rates are available for
networking flexibility, and
onboard LEDs indicate
operation, error and
communication status.
The MPONI is applied where
a device network exists
connected by a dedicated
shielded twisted pair
conductor. Modbus RS-485
allows a single device or
multiple units in a daisy-chain
configuration to communicate
with another local or remote
device and may extend up to
4000 feet (1219m) without a
repeater. The MPONI comes
with mounting hardware and
attaches to the back of its
associated device.

MPONI

9

Network Connection
(Green Phoenix
LED
Connection)

Address
Selector
Switches

Function
Selector
Switch

9
9

TX
RS-485 RX

9

NETWORK

1=A

2=G
3 = COMMON

9

STATUS

4 = SHIELD
5 = CHASSIS

9

IQ Host
Device
Connection

RS-485
P roduct
O perated
N etwork
I nterface

9
9

LED
Recommended
18 gauge twisted pair IMPCABLE or
20 gauge Belden 9463 class

9
9

Product Selection

9

MPONI
Description

Catalog
Number

Modbus Product Operated Network Interface Card

MPONI

9
9
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9

Note: Please see IL for detailed
register support information for
each supported product. Not all
device functionality is supported
with the RS-485 PONI over the
Modbus Protocol.

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

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V3-T9-287

9.5
9

Metering Devices, Protective Relays, Software and Connectivity
Connectivity Options

Contents

Digital Input Module (DIM)

Description

9

Page

Power Xpert Gateways. . . . . . . . . . . . . . . . . . . . . .
Power Xpert Ethernet Switches . . . . . . . . . . . . . . .
Power Xpert Gateway
Series 1000 Card—Power Distribution Unit . . . . . .
Power Xpert Gateway
Series 2000 Card—Uninterruptible Power Supplies
mMINT. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MINTII RS-232 Converter . . . . . . . . . . . . . . . . . . .
IPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
I/O Devices Digital Input Module (DIM)
Product Selection . . . . . . . . . . . . . . . . . . . . . . .
Technical Data and Specifications . . . . . . . . . . .
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Addressable Relay II . . . . . . . . . . . . . . . . . . . . . . .
Breaker Interface Module II (BIM II) . . . . . . . . . . .
Sub-Network Master Local Display (SMLD). . . . . .
IMPCABLE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

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I/O Devices Digital Input Module (DIM)

9

Product Description

9
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9

Eaton’s Digital Input Module
is a device that interfaces
with up to four standard utility
(electric, gas, water) meters
or monitors eight digital
inputs. It translates KYZ
pulses from meters into a
register count that is
maintained and compiled
within the DIM module in
non-volatile memory. The
pulse count can be accessed
from the DIM module
remotely using Eaton Power
Management Software,
including the Energy Billing
application.
The DIM can also be used to
monitor eight digital inputs
from switch closures.

Features, Benefits and
Functions
●

●

●

●

●
●

●

●

9
9

●

Reads four separate KYZ
equipped utility meters
Pulse counts stored in nonvolatile memory
Each channel
independently monitors
KYZ counts, pulse counts,
or digital indications
Monitors a maximum of
eight individual digital
inputs
Input channels are isolated
Isolated 24 Vdc power
is provided on the I/O
connector
LED indicators on the input
channels indicate when the
unit is counting
10 LED status indicators,
100 ohm termination DIP
switch, address selector
switches
DIN rail mounting

Standards and Certifications
●
●
●
●
●
●

●

●

●

●

●

UL 873
CE mark (48 Vdc operation)
FCC Part 15, Class A
IEC 1000-4-x
CISPR 22, Class A
IEC 1000-4-2; 1995, Electro
Static Discharge
IEC 1000-4-3; 1995,
Radiated RF Immunity
IEC 1000-4-6; 1996,
Conducted RF Immunity
FCC Part 15 Class A
(10 meters) Radiated
Emissions
CISPR 22, Class A
(30 meters); 1991,
Radiated Emissions
CISPR 22, Class A; 1991,
Conducted Emissions
(PowerPort)

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V3-T9-288

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

V3-T9-259
V3-T9-272
V3-T9-276
V3-T9-279
V3-T9-282
V3-T9-284
V3-T9-285
V3-T9-286
V3-T9-287
V3-T9-289
V3-T9-289
V3-T9-289
V3-T9-290
V3-T9-293
V3-T9-297
V3-T9-299

9.5

Metering Devices, Protective Relays, Software and Connectivity
Connectivity Options

Product Selection
DIM

Dimensions
Ordering Information
Description

Catalog
Number

Digital Input Module

DIM

Approximate Dimensions in Inches (mm)

9

KYZ Input Module

9
9
9
9

Technical Data and Specifications

9

Specifications

9

Description

Rating

Operating temperature

–20ºC to 60ºC

Storage temperature

–20ºC to 70ºC

Operating Humidity

5 to 90% maximum noncondensing

9
9
9

Altitude

10,000 ft. (3048m)

Environment

Indoor use only

Transient overvoltage

Category 2

KYZ Input Module

Pollution

1º

Width

Height

Depth

Equipment

Class 1

3.54 (89.9)

4.25 (107.9)

3.50 (88.9) 1

Frequency Range
●
50/60 Hz

Mounting Information
The DIM module is designed
to be DIN rail mountable.
DIN rail must be 1/3 inches
H x 1-3/8 inches W (8.5 mm
H x 34.9 mm W).

Power
●
85 to 138 Vac (120 Vac
nominal) 50/60 Hz; 100 mA
●
48–128 Vdc (48 Vdc
nominal); 100 mA
●
Brownout operation at
50% and 80% of nominal
AC and DC ratings
●
Power input is provided
from a limited source,
isolated from the mains
by double isolation
●
Power for all inputs is
supplied from an internal,
isolated 24 Vdc power
source

9
9
9

Note
1 Does include DIN rail.

9
9
9

Communications
The DIM is a fully compatible
Power Management Software
communicating device
with built-in INCOM
communications. The DIM
comes complete with a
3-pin connector to receive
the shielded twisted pair
conductor.

9
9
9
9
9

All wiring must be complete
as per Instruction Leaflet
TD17513, Wiring
Specification Base Rules.

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

V3-T9-289

9.5
9

Metering Devices, Protective Relays, Software and Connectivity
Connectivity Options

Contents

Addressable Relay II

Description

9

Page

Power Xpert Gateways. . . . . . . . . . . . . . . . . . . . . .
Power Xpert Ethernet Switches . . . . . . . . . . . . . . .
Power Xpert Gateway
Series 1000 Card—Power Distribution Unit . . . . . .
Power Xpert Gateway
Series 2000 Card—Uninterruptible Power Supplies
mMINT. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MINTII RS-232 Converter . . . . . . . . . . . . . . . . . . .
IPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
I/O Devices Digital Input Module (DIM) . . . . . . . . .
Addressable Relay II
Product Selection . . . . . . . . . . . . . . . . . . . . . . .
Technical Data and Specifications . . . . . . . . . . .
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Breaker Interface Module II (BIM II) . . . . . . . . . . .
Sub-Network Master Local Display (SMLD). . . . . .
IMPCABLE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

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V3-T9-259
V3-T9-272
V3-T9-276
V3-T9-279
V3-T9-282
V3-T9-284
V3-T9-285
V3-T9-286
V3-T9-287
V3-T9-288
V3-T9-291
V3-T9-291
V3-T9-292
V3-T9-293
V3-T9-297
V3-T9-299

9
9

Addressable Relay II

9

Product Description

9
9
9
9
9

The Addressable Relay II is
designed for use where
information or control of noncommunicating devices is
required remotely. The relays
communicate at 9600/1200
baud on the INCOM network.
Devices are assigned a threedigit address to uniquely
identify them on the daisychained twisted shielded pair
network.

9

The Addressable Relay II is a
Form C relay on terminals 1, 2
and 3, with output contact
ratings as shown in the
Contact Ratings table. The
Addressable Relay II may be
powered by 48–120 Vac or
48–125 Vdc through
terminals 11 and 12 of the
terminal block. DC polarity is
not significant.

9

Application Description

9
9
9
9

●

9
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9

●

Features, Benefits and
Functions
Each Addressable Relay II
includes two status indicating
circuits (IN1 and IN2) that can
be used to transmit the
contact status of devices
external to the Addressable
Relay II. Each input is isolated
with its own return. A typical
installation using these reportback inputs to the Eaton
PowerNet system is shown in
the wiring example. Terminals
4 and 5 connect to the status
input 1 circuit (IN1) and
terminals 6 and 7 connect to
the status input 2 circuit (IN2).
These status indicating
circuits operate with input
voltages of 48–120 Vac or
48–125 Vdc circuits.

Enables remote control of
non-communication
capable devices on Eaton’s
PowerNet system
Monitors two digital status
inputs on the PowerNet
system

The Addressable Relay II
includes a feature called
the “communications
watchdog.” The
communications watchdog
monitors communications
between the Addressable
Relay II and the computer
control station. If
communications are lost, the
communications watchdog
will reset the relay to the deenergized (OFF) state. The
Addressable Relay II must be
updated every 10 seconds
when the communications
watchdog is enabled or else
communications are
assumed to be lost. The
communications watchdog
is enabled when DIP switch 3
is set to the ON position.
When the communications
watchdog is not enabled, the
relay will remain in the state
set by the last command
issued. See V3-T9-296 for
DIP switch configuration.

Monitored Parameters
Output relay energized/
de-energized
●
Input 1 status
●
Input 2 status
●
Breaker status open/closed
●
Protective relay status
normal/tripped
●

Communications
●
Built-in INCOM
communications for
monitoring in Eaton’s
PowerNet system
The Addressable Relay II also
includes a feature called
“relay pulse.” The relay pulse
feature sets the Addressable
Relay II to a pulse mode
where the relay is energized
(ON) for 10 seconds and then
is de-energized (OFF). The
relay pulse is enabled when
DIP switch 2 is set to the ON
position and disabled when
DIP switch 2 is set to the OFF
position. If this feature is not
enabled, the relay will remain
in the state set by the last
command.

9
V3-T9-290

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

Metering Devices, Protective Relays, Software and Connectivity
Connectivity Options

9.5

Product Selection
Addressable Relay II

9
Addressable Relay
Description

Catalog
Number

Addressable Relay II

ARII

9
9
9
9
9

Technical Data and Specifications
●
●

Power: 48–120 Vac; 48–125 Vdc
Operating temperature range: 32°–158°F (0°–70°C)

9
9

Contact Ratings
Contact
Ratings

Make

9

Break

120–240 Vac

4960 VA

828 VA

24–120 Vac

43A

7.2A

30 Vdc

10A

10A

9
9
9

Wiring Diagram

9

Power Bus
L1
L2
L3

9

INCOM
Network

9
9
Cpt

M1

M2

M3

OL

OL

OL

T1

T2

T3

9
9

FL

9
9

Hand
Communication and
Controlled Output Relay

9

OL
Off
1

M

9

Auto

2
OL

9

3
M
AUX

OL
Input 1
6

Input 2

8

5
7

9

MA

9

INCOM
Communications

9

Power

12

9

11
Addressable Relay

9

DIP Switch Functions
O 1 2 3
N

D O O

OFF
Baud Rate
9600
Relay Pulse
Disabled
Communications Watchdog
Disabled

9

ON
1200
Enabled

9

Enabled

Volume 3—Power Distribution and Control Assemblies

9
CA08100004E—November 2013

www.eaton.com

V3-T9-291

9.5
9
9

Metering Devices, Protective Relays, Software and Connectivity
Connectivity Options

Dimensions
Approximate Dimensions in Inches (mm)
Mounting

9

1.00
(25.4)

9

.50
(12.7)

9
9
9
9

Insert (3)
#8 Screws
for
Mounting

2.82
(71.6)

9
9
9
Back View

9
9
9

Addressable Relay
Width

Height

Depth

1.75 (44.5)

3.00 (76.2)

4.00 (101.6)

9
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V3-T9-292

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

Metering Devices, Protective Relays, Software and Connectivity
Connectivity Options

9.5

Contents

Breaker Interface Module II (BIM II)

Description

Page

Power Xpert Gateways . . . . . . . . . . . . . . . . . . . . . .
Power Xpert Ethernet Switches . . . . . . . . . . . . . . .
Power Xpert Gateway
Series 1000 Card—Power Distribution Unit . . . . . .
Power Xpert Gateway
Series 2000 Card—Uninterruptible Power Supplies
mMINT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MINTII RS-232 Converter. . . . . . . . . . . . . . . . . . . .
IPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
I/O Devices Digital Input Module (DIM) . . . . . . . . .
Addressable Relay II. . . . . . . . . . . . . . . . . . . . . . . .
Breaker Interface Module II (BIM II)
Features, Benefits and Functions . . . . . . . . . . .
Product Selection . . . . . . . . . . . . . . . . . . . . . . .
Technical Data and Specifications . . . . . . . . . . .
Sub-Network Master Local Display (SMLD) . . . . . .
IMPCABLE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

V3-T9-259
V3-T9-272
V3-T9-276
V3-T9-279
V3-T9-282
V3-T9-284
V3-T9-285
V3-T9-286
V3-T9-287
V3-T9-288
V3-T9-290
V3-T9-294
V3-T9-295
V3-T9-295
V3-T9-297
V3-T9-299

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9

Breaker Interface Module II (BIM II)
Product Description

Application Description

Eaton’s Breaker Interface
Module is a panel-mounted
device that displays the
following parameters.

810, 910, 750, 1050, 550,
1150, 520MC, IQ Energy
Sentinels and Power
Sentinels
●
Event logging
●
Alarming
●
High load indication
●
Peak exceeded alarm
●
Grouping of meters
An operator can use the
Breaker Interface Module to:

●
●
●
●
●
●

●
●

●

●

Phase current
Energy
Present demand watts
Peak demand watts
Average demand current
Cause and magnitude
of trip
Trip history
% Total Harmonic
Distortion (THD) for
each phase
% Harmonic Content for
each phase (1st–27th
harmonic)
Custom circuit description

Note: The Breaker Interface
Module displays only a portion of
the information it receives from
the Digitrip RMS 910, 1150 and
Power Sentinels. The balance of
the information (such as
Waveform Analysis and Power
Factor) can be passed through the
unit to a master computer, where
it can be viewed.

●

●

9
●

●

●

Complete Initial System
Setup:
●
Select system
frequency (50/60 Hz)
●
Set password
●

●

●

Configure OPTIM
Protective Settings.
●
Select protection
options
●
Select alarm levels
Display Information:
●
Metered values
●
Trip event information
●
Breaker information
●
Time-current set points

9

Test OPTIM Trip Unit
Performance:
●
Phase and ground
●
Trip/no trip

9
9

Expanded Energy
Monitoring:
●
Set addresses for group
energy monitoring
●
Group energy readings

9
9
9

Local and Remote
Indication:
●
Remote indication/
alarming
●
Breaker status LED
indication

9
9
9

Expanded
Communications:
●
Communicate with:
– OPTIM Trip Units
– Digitrip RMS 810, 910
and 1150 Trip Units
– IQ Energy Sentinels
and Universal IQ
Energy Sentinels
– A total of 50 devices

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

V3-T9-293

9.5
9

●

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●

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9
9
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9

Connectivity Options

Features, Benefits and Functions

9

9

Metering Devices, Protective Relays, Software and Connectivity

●

Monitors and displays
parameters from any
combination of Digitrip
RMS 810, 910, 1150 and
Digitrip OPTIM Trip Units,
F-/J-/K-Frame Energy
Sentinels, and Universal
Energy Sentinels,
supporting as many as
50 of these devices up to
10,000 feet (3048 m) away
Communicates the
information from these
protective and energy
monitoring devices over
Eaton INCOM network
to a computer or PLC
Continuously monitors
breakers recording and
time-stamping trip events
along with approximate
fault currents. Events are
logged into non-volatile
RAM

Communications
Depending upon the type of
communication protocol used
by the main network, an
appropriate PONI module can
be easily field-mounted to the
back of the Breaker Interface
Module, enabling the unit to
pass the information from its
subnetwork to a remote
master control unit up to
10,000 feet (3048 m) away.
No reprogramming of the
unit is required when the
PONI is added.
The Breaker Interface Module
can be mounted directly on
the assembly or at a remote
location and can be used to
access and configure and
display information from
OPTIM Trip Units.

Password Protection
A user-defined password is
included for added security
when changing settings or
performing breaker tests.
Non-Volatile Memory
The programmed functions,
addresses and circuit
descriptions are stored in
non-volatile memory.
External Power
A 24 Vdc supply is required
for the BIM II. (No external
power supply is required for
the PONI Card.) A 120 or
240 Vac supply is required
for the BIMPS.

Rear Access Area
All wiring connections to the
Breaker Interface Module
are made at the chassis’ rear
and include:
●

●
●
●

●

●

●

Relay connection for
“alarm” condition, “high
load” condition, “peak
exceed” for device or
group, and watthour pulse
Initiator
24 Vdc input—BIM II
120 or 240 Vac input—
BIMPS
DIP switches for selecting
an operating mode
Three-contact connector
with subnetwork
Connector for PONI
card for remote
communications Local
Display Units

Physical Characteristics
●
Graphical, glass plasma
display
●
Up to seven lines of
information
●
Membrane faceplate
NEMA 3R and 12 rated

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V3-T9-294

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

Metering Devices, Protective Relays, Software and Connectivity
Connectivity Options

9.5

Product Selection

Breaker Interface
Module II (BIM II)

9
9

Breaker Interface Module
Description

Catalog
Number

9

Breaker Interface Module

BIMII

9

BIMPSII

9
9
9

Technical Data and Specifications
Power Requirement
●
15 VA maximum
Input Voltage
●
24 Vdc ±5%—BIM II
●
120 or 240 Vac ±10%—
BIMPS
Operating Temperature
●
0°C to 70°C
(32°C to 158°F)

Humidity
5% to 95% R.H.
(noncondensing)

9

Alarm Contact Ratings
●
10A at 277 Vac (resistive)
●
10A at 30 Vdc (resistive)
●
1/3 hp at 125, 250 Vac

9

●

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

V3-T9-295

9.5
9
9

Metering Devices, Protective Relays, Software and Connectivity
Connectivity Options

Dimensions
Approximate Dimensions in Inches (mm)
Connections and DIP Switch Rear Label Diagram

9
Sub

.10 Typical
(2.5) 5 Places

5.06
(128.6)

We have established a toll-free
line for problems

7
8

Run
Unused
Unused
Unused
Unused
PONI On

.19
(4.8)

Customer Satisfaction

6
Peak
Exceeded

.11
(2.8)

5

Learn

3.38
(85.9)

.19
(4.8)

9

9

Sub
Network

Shield

Learn/Run
Unused
Unused
Unused
Unused
PONI Power

H02

15

Ground

16

24-30 Vac
PONI
Interface

17

Common

18

PONI
Interface

1.69
(42.9)

1.03
(26.2)

1.03
(26.2)
General Layout and Dimensions

9
Breaker Interface Module
Height

Width

9

Without Communications Card

9

With Communications Card

6.72 (170.7)

Depth

10.25 (260.4)

6.72 (170.7)

2.60 (66.0)

10.25 (260.4)

3.85 (97.8)

9
Drilling Pattern
5.38
(136.7)

9
9
9
9
9
9

14

Unused

Expanded View

9

9

13 Typical

Call 1-800-809-2772

Sub
Network

2.04
(51.8)

9

9

12 .38

.87
(22.1)

9

9

11

(9.7)

Sync.
Pulse
Impulse

4

CATALOG # BIMPS
STYLE # 7801C61G02
High Load

9

WH Pulse
Initiator

3

9
9

2

Off

Learn/Run
Unused
Unused
Unused
Unused
PONI Power

9

10

1
Alarm

9

Interface
Shield

9

5.56
(141.2)

PONI

Network

2.69
(68.3)
8.90
(226.1)
9.38
(238.3)
6.68
(169.7)

4.45
(113.0)

4.69
(119.1)

.06
(1.5) RAD
2.23 4 Places
(56.7)
2.53
(64.3)

9

5.06
(128.5)

9

.218 (5.5) DIA 10 Places

9
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V3-T9-296

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

Metering Devices, Protective Relays, Software and Connectivity
Connectivity Options

9.5

Contents

Sub-Network Master Local Display)

Description

Page

Power Xpert Gateways . . . . . . . . . . . . . . . . . . . . . .
Power Xpert Ethernet Switches . . . . . . . . . . . . . . .
Power Xpert Gateway
Series 1000 Card—Power Distribution Unit . . . . . .
Power Xpert Gateway
Series 2000 Card—Uninterruptible Power Supplies
mMINT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MINTII RS-232 Converter. . . . . . . . . . . . . . . . . . . .
IPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
I/O Devices Digital Input Module (DIM) . . . . . . . . .
Addressable Relay II. . . . . . . . . . . . . . . . . . . . . . . .
Breaker Interface Module II (BIM II) . . . . . . . . . . .
Sub-Network Master Local Display (SMLD)
Product Selection . . . . . . . . . . . . . . . . . . . . . . .
Technical Data and Specifications . . . . . . . . . . .
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IMPCABLE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

V3-T9-259
V3-T9-272
V3-T9-276
V3-T9-279
V3-T9-282
V3-T9-284
V3-T9-285
V3-T9-286
V3-T9-287
V3-T9-288
V3-T9-290
V3-T9-293
V3-T9-298
V3-T9-298
V3-T9-298
V3-T9-299

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9
9
9
9
9

Sub-Network Master Local Display (SMLD)
Product Description

Application Description

Eaton’s Sub-Network Master
Local Display (SMLD) is an
electronic submetering
device that provides users
the ability to view information
from sub-network connected
devices locally at switchgear,
switchboards, panelboards,
motor control centers and
control panels, nearby or
thousands of feet away. The
SMLD has a built-in LCD
display with navigations
for configuring, as well as
monitoring. Auto-learn
capabilities complete the
configuration requirements,
enabling customization by
use of user-defined
descriptions, as well as
adding and deleting meters.
The SMLD can be operated
standalone or in parallel with
the new FetchIT™ software
application or the Power Xpert
complete energy monitoring
system solution software.

●

●

Acquire and display data
(no control) from up to
100 devices that can
communicate on Eaton’s
INCOM network, used in
the PowerNet monitoring
system

Following devices are
supported:
●
●

●

●

Features, Benefits
and Functions
●

●

●

●

Auto-learn connected
devices
Configuration stored in
non-volatile memory
Host communications
arbitration algorithm
enables seamless
integration into existing
communication networks
Functions standalone or
networked

●

●
●

IQ 200
IQ Multipoint Energy
Submeter II
IQ Energy Sentinel
(F, J, K Frames)
Universal Internal
Energy Sentinel
Universal External
Energy Sentinel
IQ Power Sentinel
Digitrip OPTIM 1050L

Standards and Certifications
●

●

●

Safety Standards—
UL 61010B-1
EMC Susceptibility
Standards—IEC 1000-4-3,
1995 Radiated RF
Immunity
EMC Emissions
Standards—FCC Part 15,
Class B Radiated
Emissions

9
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Physical Characteristics
●
Keypad functions:
●
Menu
●
Scroll up
●
Scroll down
●
Enter
●

9

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9

Backlit LCD, 4-line x 20
character

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

V3-T9-297

9.5
9
9

Metering Devices, Protective Relays, Software and Connectivity
Connectivity Options

Product Selection
Sub-Network Master
Local Display

9
9

Ordering Information
Description

Catalog
Number

Local Display (120 Vac)

LDISP120

Local Display (24 Vac or Vdc)

LDISP24

9
9
9
9
9
9
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9
9
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9

Technical Data and Specifications
Frequency Range
●
50/60 Hz
Power
●
Power consumption:
200 mA (maximum) at
24 Vac, 24 Vdc
●
Power connector rating:
24 Vac or 24 Vdc at
1 ampere
●
Power source: 120 Vac or
24 Vdc, UL Class 2 or CSA
Class III SELV transformer
in accordance with C22.2
No. 1010-1. The voltage
range is 18 to 24 Vac or
Vdc, 200 mA (maximum)

9
9

Ratings
Operating temperature:
0°C to 60°C
●
Storage temperature:
–20°C to 70°C
●
Operating humidity: 5 to
90% maximum noncondensing
●
Altitude: 10,000 feet
(3048m)
●
Environment: indoor
use only
●

Communications
INCOM Frequency Shift
Key (FSK) network
compatible 9600 baud
●
Non-intrusive arbitration
algorithm
●
Passive monitoring
automatically enabled by
arbitration algorithm while
host PC is communicating
●
Master on INCOM network
upon data request from
front panel if host PC is not
communicating
●
Addresses for sub-network
devices can be 001–044 hex
(1–255 decimals)
●

Mounting Information
●
4.37 H x 4.37 W x 1.50 D
inches (111.0 H x 111.0 W x
38.1 D mm)
●
Door mount or panel
mount

Typical Use Diagram of SMLD

9

Computer
with Power
Management
Software

SMLD

9
9
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9

IQ
ES or
PS

IQ 200

Digitrip
OPTIM 1050C

9
9
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9
9
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9

Multiple Units as Required

Dimensions
Approximate Dimensions in Inches (mm)
Meter Base Unit
Width

Height

Depth

4.37 (111.0)

4.37 (111.0)

1.50 (38.1)

Note
DIN (92 mm x 92 mm) access cutout.

V3-T9-298

Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

9.5

Metering Devices, Protective Relays, Software and Connectivity
Connectivity Options

Contents

IMPCABLE

Description

Polyethylene Filler

Conductors
PVC
Outer Jacket

Tinned
Copper
Braid

Aluminum
Shield

Drain Wire

Polyethylene Insulator

Page

Power Xpert Gateways . . . . . . . . . . . . . . . . . . . . . .
Power Xpert Ethernet Switches . . . . . . . . . . . . . . .
Power Xpert Gateway
Series 1000 Card—Power Distribution Unit . . . . . .
Power Xpert Gateway
Series 2000 Card—Uninterruptible Power Supplies
mMINT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MINTII RS-232 Converter. . . . . . . . . . . . . . . . . . . .
IPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DPONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MPONI
I/O Devices Digital Input Module (DIM) . . . . . . . . .
Addressable Relay II. . . . . . . . . . . . . . . . . . . . . . . .
Breaker Interface Module II (BIM II) . . . . . . . . . . .
Sub-Network Master Local Display (SMLD) . . . . . .
IMPCABLE

V3-T9-259
V3-T9-272
V3-T9-276
V3-T9-279
V3-T9-282
V3-T9-284
V3-T9-285
V3-T9-286
V3-T9-288
V3-T9-290
V3-T9-293
V3-T9-297

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IMPCABLE
Product Description

Application Description

Standards and Certifications

The IMPCABLE is an 18 AWG
cable with a 100 ohm
impedance at 100 kHz tuned
to work optimally with the
FSK signal from Eaton’s
devices. The cable has been
designed with characteristics
that allow up to 1000 devices
or distances up to 10,000 feet
(3048m) from the master.

Eaton’s IMPCABLE was
designed to be run in
switchgear where codes
require a 600 volt insulation
rating. Typical “blue hose”
cables are rated at 300 volts.

●

Please refer to Eaton’s wiring
specification for instructions
on cable runs and calculating
maximum distances and
devices on a given network.

●
●
●
●

UL AWM 20253
NECT CM
CSA
PCC-FT1
P-MSHA

Product Selection

9

IMPCABLE

9

Description

Catalog
Number

IMPCABLE

IMPCABLE

Features

●

●
●

9
9

Technical Data and
Specifications

Physical Characteristics
●
Twisted shielded pair with
drain wire
●
600 volt at 80°C
●
18 AWG, 20 AWG drain
UL AWM 20253

9

INCOM signal: attenuation
1.6 db/1000 feet (305m)
Long communication runs
600 volt required ratings

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Volume 3—Power Distribution and Control Assemblies

CA08100004E—November 2013

www.eaton.com

V3-T9-299



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