8650 User Guide - Schneider Electric

8650 User Guide - Schneider Electric
PowerLogic™ ION8650
Energy and power quality meter
User guide
70002-0306-00
05/2011
Hazard categories and special symbols
Read these instructions carefully and look at the equipment to become familiar with
the device before trying to install, operate, service or maintain it. The following
special messages may appear throughout this manual or on the equipment to warn
of potential hazards or to call attention to information that clarifies or simplifies a
procedure.
The addition of either symbol to a “Danger” or “Warning” safety label indicates that
an electrical hazard exists which will result in personal injury if the instructions are
not followed.
This is the safety alert symbol. It is used to alert you to potential personal injury
hazards. Obey all safety messages that follow this symbol to avoid possible injury
or death.
DANGER indicates an imminently hazardous situation which, if not avoided, will result
in death or serious injury.
WARNING indicates a potentially hazardous situation which, if not avoided, can result
in death or serious injury.
CAUTION indicates a potentially hazardous situation which, if not avoided, can result in
minor or moderate injury.
CAUTION
CAUTION used without the safety alert symbol indicates a potentially hazardous
situation which, if not avoided, can result in equipment damage.
NOTE
Provides additional information to clarify or simplify a procedure.
Please note
Electrical equipment should be installed, operated, serviced and maintained only
be qualified personnel. No responsibility is assumed by Schneider Electric for any
consequences arising out of the use of this material.
Notices
FCC notice
This equipment has been tested and found to comply with the limits for a Class B
digital device, pursuant to part 15 of the FCC Rules. These limits are designed to
provide reasonable protection against harmful interference in a residential
installation. This equipment generates, uses, and can radiate radio frequency
energy and, if not installed and used in accordance with the instructions, may
cause harmful interference to radio communications. However, there is no
guarantee that interference will not occur in a particular installation. If this
equipment does cause harmful interference to radio or television reception, which
can be determined by turning the equipment off and on, the user is encouraged to
try to correct the interference by one or more of the following measures.

Reorient or relocate the receiving antenna.

Increase the separation between the equipment and receiver.

Connect the equipment to an outlet on a circuit different from that to which the
receiver is connected.

Consult the dealer or an experienced radio/TV technician for help.
This Class B digital apparatus complies with Canadian ICES-003.
Network compatibility notice for the internal modem
The internal modem in meters equipped with this option is compatible with the
telephone systems of most countries in the world, with the exception of Australia
and New Zealand. Use in some countries may require modification of the internal
modem’s initialization strings. If problems using the modem on your phone system
occur, please contact Schneider Electric Technical Support.
Table of Contents
Chapter 1
Safety precautions ....................................................... 7
Chapter 2
Introduction ................................................................... 9
Chapter 3
Front panel .................................................................. 19
Chapter 4
Templates and firmware ............................................ 39
Chapter 5
Basic setup ................................................................. 49
Chapter 6
Security ....................................................................... 53
Chapter 7
Communications ........................................................ 73
Chapter 8
Third party protocols ................................................. 97
Chapter 9
Time ........................................................................... 117
Chapter 10
Demand ..................................................................... 123
Chapter 11
Inputs / Outputs ........................................................ 131
Chapter 12
Energy pulsing .......................................................... 141
Chapter 13
Logging ..................................................................... 147
Chapter 14
Revenue ..................................................................... 159
Chapter 15
Power quality ............................................................ 169
Chapter 16
Displays ..................................................................... 175
Chapter 17
TEST mode ................................................................ 187
Chapter 18
Resets ........................................................................ 197
Chapter 19
Setpoints ................................................................... 203
Chapter 20
Reports ...................................................................... 207
Chapter 1
Safety precautions
Installation, wiring, testing and service must be performed in accordance with all
local and national electrical codes.
HAZARD OF ELECTRIC SHOCK, EXPLOSION OR ARC FLASH
• Apply appropriate personal protective equipment (PPE) and follow safe electrical work
practices. See NFPA 70E in the USA or applicable local standards.
• This equipment must only be installed and serviced by qualified electrical personnel.
• Turn off all power supplying this device and the equipment in which it is installed before
working on the device or equipment.
• Always use a properly rated voltage sensing device to confirm that all power is off.
• Do not perform Dielectric (Hi-Pot) or Megger testing on this device.
• Connect protective ground (earth) before turning on any power supplying this device.
• Replace all devices, doors and covers before turning on power to this equipment.
Failure to follow these instructions will result in death or serious injury.
NOTE
Do not perform Dielectric (Hi-Pot) or Megger testing on the ION8650 because its internal surge
protection circuitry starts functioning at levels below typical Hi-Pot voltages. Contact your local
Schneider Electric representative for more information on device specifications and factory testing.
© 2011 Schneider Electric. All rights reserved.
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Chapter 1 - Safety precautions
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ION8650 User Manual
© 2011 Schneider Electric. All rights reserved.
Chapter 2
Introduction
PowerLogic™ ION8650 meters provide revenue-accurate, true RMS
measurements of voltage, current, power and energy, and are complemented by
extensive I/O capabilities, comprehensive logging, and advanced power quality
measurement and compliance verification functions. The meters come with an
extensive selection of pre-configured data screens and measurements, so you can
use the meters with their default configuration after you perform basic setup. You
can also customize the meter to fit your unique requirements.
ION8650 meters give you the tools to manage complex energy supply contracts
that include commitments to power quality. You can also integrate the meters with
ION Enterprise™ or other energy management, SCADA, automation and billing
systems, via Internet communications and multiple industry-standard
communication channels and protocols including MV-90 and IEC 61850.
In this chapter
ION8650
meters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
ION8650
in enterprise energy management systems . . . . . . . . . . . . . . 11
11
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The meter is factory-configured and ready to operate . . . . . . . . . . . . . . . .
Measured Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Energy . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Demand . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Instantaneous . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Harmonics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Min/Max recording . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power quality . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Data display and analysis tools . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
The front panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
WebMeter internal web server feature . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Meter internal email server feature . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
XML compatibility . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
ION Enterprise software . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
ION Setup software . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MV-90 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IEC 61850 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Alerting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Communications methods . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Digital and analog I/O options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Onboard I/O . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Expanded I/O . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Additional
© 2011 Schneider Electric. All rights reserved.
information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
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Chapter 2 - Introduction
ION8650 User Manual
ION8650 meters
The meter is suited to a wide range of applications. The meters can be used as
stand-alone devices, but their extensive capabilities are fully realized when used
as part of an enterprise energy management (EEM) system. The ION8650 is
available with the following feature sets:
Model
Feature set
ION8650A
128MB memory, 50 data recorders (800 channels), 4-30 Class A + EN50160
power quality analysis (waveforms and transient detection)
ION8650B
64MB memory, 45 data recorders (320 channels), 4-30 Class S + EN50160
power quality monitoring
ION8650C
32MB memory, 4 data recorders (64 channels)
NOTE
For complete details of the ION8650 meter feature sets, see the ION8650 Datasheet available from
www.schneider-electric.com.
ION8650 naming convention
In the serial number and ANSI bar code area of the meter’s front panel you can
view the feature set, form factor and any special order options available with the
meter. For example:
S8650A0C0H6E0B0A
S8650
Brand and model
H6
Power supply and system frequency
A0
Feature set and form factor
E0
Communications
C0
Voltage/current inputs
B0A
I/O, security and special options
When there are differences between the models (such as a feature specific to one
model), it is indicated with the appropriate model number in this document.
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© 2011 Schneider Electric. All rights reserved.
ION8650 User Manual
Chapter 2 - Introduction
ION8650 in enterprise energy management
systems
Applications that include the meter typically require additional equipment. Display
and analysis software tools are almost always used to manage, interpret and
distribute the data measured or logged by a meter. There are usually a variety of
tools used, and often these tools are connected using different communications
standards and protocols.
The meter can adapt to many situations. Advanced communications allow data to
be shared simultaneously across multiple networks, built-in I/O provides
monitoring and non-critical control capabilities, and a variety of display and
analysis tools can be used to monitor your power system.
Power system connections
Data analysis tools
Phase voltage, phase current, ground current,
and neutral current from Wye, Delta, or singlephase power systems
- Power Monitoring Network
- Third-party software for Modbus,
DNP 3.00, MV-90, COMTRADE
Corporate network
Input/output
- Pulses
- Breaker status
- Energy pulses
On-site setup
- 320 by 240 pixel LCD
- ION Setup
- LED Pulsing
Remote data
display
I/O Expander
- Vista
- WebReach
Communications
- RS-232 and high speed RS-485
- Internal modem
- Optical infrared
- 10 Base-T Ethernet
- Interoperability
- Protocols: ION, Modbus Master,
Modbus RTU, Modbus/TCP, DNP 3.00,
ModemGate (modem to RS-485
gateway), EtherGate (Ethernet to RS485 gateway), GPS: Arbiter, GPS:
Arbiter-Vorne, GPS: True Time/Datum,
IEC 61850, FTP
Internet connectivity
- Email functionality
- WebMeter functionality
- XML compatibility
- FTP compatibility
The meter is factory-configured and ready to operate
Your meter is preconfigured to provide most of the functionality needed in many
applications. After you perform the installation and basic setup, all of the basic
measurements, energy calculations and recording functions are ready to operate.
The meter can also be fully customized if necessary to meet your needs.
© 2011 Schneider Electric. All rights reserved.
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Chapter 2 - Introduction
ION8650 User Manual
Measured Parameters
The meter provides fully bi-directional, 4-quadrant, revenue accurate energy
metering. The following sections list some of the parameters measured by the
meter.
Energy
The meter provides all common active, reactive and apparent energy parameters.

kWh, kVARh, kVAh delivered and received

kWh, kVARh, kVAh net (delivered - received)

kWh, kVARh, kVAh total (delivered + received)

Volt-hours and amp-hours

Integration of any instantaneous measurement
Energy registers can be logged automatically on a programmed schedule. All
energy parameters represent the total for all three phases.
Demand
The meter supports standard demand calculation methods, including block, sliding
window (rolling block), and predicted demand. It can measure demand on any
instantaneous value and record peak (maximum) and minimum demand with date
and timestamps to the second. Peak demand registers can be reset manually
(password protected) or logged and reset automatically on a programmed
schedule.
Measurements include:

kW, kVAR, kVA demand, min/max

Amps, Volts demand, min/max

Demand on any instantaneous measurement
Instantaneous
The meter provides highly accurate, 1 second or 1/2 cycle measurements,
including true RMS, per phase and total for:
12

Voltage and current

Active power (kW) and reactive power (kVAR)

Apparent power (kVA)

Power factor and frequency

Voltage and current unbalance

Phase reversal
© 2011 Schneider Electric. All rights reserved.
ION8650 User Manual
Chapter 2 - Introduction
Harmonics
Complete harmonic distortion metering, recording and real-time reporting, up to the
63rd harmonic for all voltage and current inputs.

Individual harmonics (including magnitude, phase and inter-harmonics)

Total even harmonics and total odd harmonics

Total harmonics (even + odd)

K-factor, Crest factor
Min/Max recording
The meter records each new minimum and new maximum value with date and
time-stamp for the following parameters:

Voltage and current min/max

kW, kVAR, and kVA min/max

Power factor

Frequency

Voltage unbalance

Plus any measured value
Power quality
The meter measures and records the following parameters:

Sag/Swells

Transients (ION8650A only)
The meter also has the following power quality features:

EN50160: ION8650A and ION8650B meters have a default framework that
measures and presents EN50160 compliance according to guidelines defined
by Eurelectric (UNIPEDE).

IEC 61000-4-30: The meter complies with the IEC 61000-4-30 power quality
standard as follows:

© 2011 Schneider Electric. All rights reserved.

The ION8650A complies with IEC 61000-4-30 Class A.

The ION8650B complies with IEC 61000-4-30 Class S.
COMTRADE: ION8650A meters can save waveform data in COMmon Format
for TRAnsient Data Exchange (COMTRADE) format, which is then available for
download via FTP. This is intended for use in conjunction with IEC 61850 and is
only available on ION8650A meters with an Ethernet port.
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Chapter 2 - Introduction
ION8650 User Manual
Data display and analysis tools
The meter integrates seamlessly with display and analysis software available from
Schneider Electric™. ION Enterprise software lets you analyze and monitor your
system and produce reports for any department in an organization. ION Enterprise
is designed to make use of all the available advanced capabilities. You can use
also data acquired by the meter in a variety of third-party systems.
The front panel
Local monitoring and standalone applications are facilitated by the meter’s front
panel interface. The front panel combines real-time display features with basic
device configuration functions. The front panel is often used in combination with
ION Enterprise or ION Setup, providing an interface for field personnel.
WebMeter internal web server feature
WebMeter™ provides quick and easy access to real-time energy and basic power
quality information without special software using an on-board web server
combined with an Ethernet port. The built-in web pages display a range of energy
and basic power quality information through the web-enabled device; these pages
also support basic meter configuration tasks.
Meter internal email server feature
You can configure the meter to automatically email high-priority alarm notifications
or scheduled system-status update messages to anyone, anywhere within the
facility or around the world. Specify the type of event that triggers an email alert,
such as power quality disturbances or logged data at any pre-determined interval,
and have your ION Enterprise or ION Setup administrator program the meter to
respond with an email message when these events occur. Email messages from
your meter can be received like any email message over a workstation, cell phone,
pager, or PDA.
XML compatibility
The meters can exchange information using industry-standard XML format. This
simple, machine-readable format supports easy integration with custom reporting,
spreadsheet, database, and other applications.
ION Enterprise software
ION Enterprise allows the meter to be part of a fully networked information system
with other meters and local and wide-area computer networks. ION Enterprise is
recommended for all power monitoring systems where advanced analysis and
non-critical control capabilities are required.
ION Enterprise provides tools for managing your power monitoring network,
logging data, analyzing real-time and logged data, generating power system
reports, and creating custom functionality at the meter level.
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© 2011 Schneider Electric. All rights reserved.
ION8650 User Manual
Chapter 2 - Introduction
ION Enterprise also offers ways to remotely view information through a web
browser: for example, through the WebReach and Web Reporter components of
ION Enterprise, and through Microsoft Terminal Services.
See the ION Enterprise Help for more information.
ION Setup software
ION Setup is a meter configuration tool designed specifically to configure and test
meters. ION Setup offers a graphical interface for performing basic meter setup,
installing templates into meters, upgrading firmware, viewing real-time and reset
accumulated values, verifying meter accuracy and measurements, and setting up
advanced security.
MV-90
MV-90 software (by Utility Translation Systems) is a multi-vendor translation
system that can collect and analyze data from a variety of different brands of
meters, each with unique database formats. MV-90 manipulates this data without
extensive knowledge of the device of origin.
For more information on using the meter in an MV-90 system, see the MV-90 and
ION Technology technical note.
IEC 61850
IEC 61850 is an Ethernet-based protocol designed for electrical substations. It is a
standard (vendor-independent) method of communications, developed to support
integrated systems composed of multi-vendor, self-describing devices. When
properly configured, the ION8650 acts as a server in an IEC 61850 system.
Alerting
The meter can be configured to send alerts in response to power system conditions
that you define, such as a power quality problem (including surges, sags and
swells), changes in relays, or required equipment maintenance. This allows you to
automatically advise key people of problems to allow quick remedial action, notify
software so logs can be uploaded from the site that initiated the alert, or service
equipment on schedule.
You can configure the meter to send alerts to email, pagers, or to software such as
ION Enterprise.
For more information on configuring alerting on the meter, see the ION meter alerts
technical note and the Alert module description in the ION Reference. For more
information on configuring alerting in ION Enterprise, see the online
ION Enterprise help.
© 2011 Schneider Electric. All rights reserved.
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Chapter 2 - Introduction
ION8650 User Manual
Communications methods
The meter can be integrated into various industry-standard networks. Data from
the meter can be made available to other devices using the Modbus™ Master,
Modbus RTU, Modbus TCP, and DNP 3.00 protocols, as well the MV-90 translation
system. You can also configure the meter to import data from devices on these
networks. With these advanced communications functions, the meter operates in
most existing power monitoring systems. Any data display and analysis software
that works with these protocols also functions with the meter.
The standard meter includes a selectable RS-232/RS-485 port, a high-speed RS485 port, and an optical port for communications in the field. Order options include
a 10Base-T Ethernet port and 57.6 kbps internal modem (both FCC and CTR-21
compliant). Depending on the hardware options purchased, up to four separate
ports can communicate simultaneously.
Digital and analog I/O options
Onboard I/O
There are two optional onboard I/O configurations available, each providing
different capabilities. The number and form of the digital inputs and outputs depend
on the option you ordered; see your meter’s Installation Guide to determine the
configuration available on your meter.
Additionally, two infrared ports (and corresponding LEDs) on the front panel are
configured by default for energy pulsing.
Digital inputs
The meter can be ordered with internally or externally-excited Form A digital inputs.
They can be used for tariff inputs and other pulse counting applications.
Digital outputs
The meter can be ordered with both Form C and Form A solid-state outputs.
Expanded I/O
The I/O Expander option extends the meter’s I/O capabilities. The digital I/O
Expander model provides four Form A digital outputs, four Form C digital outputs,
and eight Form A digital inputs. The analog I/O Expander model replaces the four
form A digital outputs with analog outputs.
Refer to the PowerLogic I/O Expander Installation Guide for details on the options
and installation and operation instructions.
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© 2011 Schneider Electric. All rights reserved.
ION8650 User Manual
Chapter 2 - Introduction
Additional information
For more information on the meter, including documentation downloads and
software tools, visit www.schneider-electric.com. Available documentation
includes:
Installation guide
This document is shipped with each meter. It details the mounting, wiring and basic
setup of the device. There is a separate installation guide for the socket and the
switchboard versions of the meter.
I/O Expander Installation guide
This document describes the optional external I/O device that you can connect to
the meter, for additional digital I/O and analog output ports.
Online ION Setup help
The online ION Setup help has in-depth information on installation, setup and
security of ION Setup. It also contains instructions on using the Setup Assistant to
configure devices.
ION Reference
This document describes ION architecture and provides detailed descriptions of all
modules in all ION meters.
Online ION Enterprise help
The ION Enterprise online help system provides information and instructions on
using ION Enterprise components.
Technical notes
Technical notes are available from the website, and provide instructions for using
meter features and for creating custom configurations.
Protocol documents
Each protocol document contains information explaining how the product interacts
with a protocol, such as DNP 3.0, Modicon Modbus, IEC 61850 and MV-90.
ION device template reference
This document lists the default ION modules and their default configuration in the
shipping template for the most recent firmware releases of ION meters.
© 2011 Schneider Electric. All rights reserved.
17
Chapter 2 - Introduction
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ION8650 User Manual
© 2011 Schneider Electric. All rights reserved.
Chapter 3
Front panel
The front panel provides a user-friendly interface from which you can view system
data or configure basic meter settings. A scrollable display and three distinct
modes (NORM, ALT and TEST) provide easy access to a range of functions
through a simple three-button keypad.
This chapter describes the front panel and explains how to use it to display data,
perform tests, and set up basic configuration options.
In this chapter
Front
panel features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20
20
20
21
21
21
21
LED pulsers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Demand reset switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Navigation buttons . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Optical port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Master reset button . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
TEST mode button . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Display
screen types . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
The status bar . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Numeric displays . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Nameplate display and event log . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Histogram displays . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Phasor diagram displays . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Disk simulator . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Time and date . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Time-stamped values . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
22
22
22
23
24
24
24
24
25
Modes
26
26
26
27
Configuring
28
28
30
30
30
31
31
32
35
36
36
37
of operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Basic operation (NORM mode) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
ALT mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
TEST mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
the meter with the front panel . . . . . . . . . . . . . . . . . . . . . . .
Accessing the SETUP menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Navigating the front panel screens . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Configuring parameters using the navigation buttons . . . . . . . . . . . . . . . .
Confirming configuration changes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Setup menus . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
BASIC SETUP menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
COM port setup menus . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
ENABLED COM PORTS menu (ION8650C only) . . . . . . . . . . . . . . . . . . .
FORMAT SETUP menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DISPLAY SETUP menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
SECURITY menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
© 2011 Schneider Electric. All rights reserved.
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Front panel features
The front panel includes a liquid crystal display (LCD) with detailed graphics and
text, up and down arrow buttons for screen navigation and basic setup procedures,
as well as LED pulsers for testing the meter. This section outlines the features
available on the front panel of the meter.
A
Watt pulser: A set of LEDs (infrared, red) used for real energy pulsing.
B
VAR pulser: A set of LEDs (infrared, red) used for reactive energy pulsing.
C
B
A
D
H
E
G
C
F
E
D
F
G
H
Demand reset switch: Resets the peak demand values logged in the
meter. Can be activated with the cover on or off.
Round button (Alt/Enter): Press to select a highlighted option. Also used
to toggle between Norm and Alt display modes. Press and hold for 3
seconds to access Setup menu.
Navigation buttons: Press the up or down buttons to scroll and highlight a
different menu item or to increase/decrease the value of a highlighted
number. Press and hold the up button for 3 seconds to move the cursor to
the left. Press and hold the down button for 3 seconds to move the cursor
to the right.
Test mode button: Located under the front label, this places the meter into
Test mode, ceasing accumulation of billable quantities.
Master reset button: Located in a recessed pinhole under the front label to
prevent accidental activation. You must remove the meter cover and its
label to access it.
Meter LCD screen
LED pulsers
Two LED pulsers located near the top of the front panel represent WATT (to the
left) and VAR (to the right).
These LEDs are pre-configured for energy pulsing. The adjacent infrared outputs
are connected to the LEDs and pulse at the same rate. Pulse rates can be adjusted
by editing the settings of the Calibration Pulser module; for a detailed description
of LED pulser operation, see “Energy pulsing with LEDs” on page 143).
Demand reset switch
Located on the front of the meter's external cover assembly, the demand reset
switch resets the peak demand values logged in the meter. This switch can be
activated with the cover on or off. When the meter is in TEST mode, the demand
reset switch resets the test demand parameters.
In most applications, the demand reset switch is sealed with an anti-tamper
mechanism; a through-hole in the switch can accommodate either an external seal
or a locking mechanism. See “Anti-tamper sealing methods” on page 69 for more
information on anti-tamper sealing.
A Demand Lockout Time register sets the minimum time allowed between
consecutive demand resets; the meter ignores any attempts to reset the demand
outside the bounds of the register. The default value for the Demand Lockout Time
is 25 days (2160000s). For details on the Demand Lockout Time setup register,
see “Configuring demand reset lockout time” on page 126.
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Chapter 3 - Front panel
Navigation buttons
The navigation buttons are the up and down arrow buttons and the round ALT/
ENTER button. Press the up or down arrow buttons to manually scroll back or forth
through the available displays and temporarily halt the display screen’s automatic
scrolling function. Press ALT/ENTER to toggle between NORM and ALT display
modes. The automatic scrolling function restarts 60 seconds after a button was last
pressed.
Hold the ALT/ENTER button for approximately three seconds to display the setup
menu. You can then use the navigation buttons to view the device's configuration
or edit basic settings. See “Setup menus” on page 31 for further instruction on
modifying the device's configuration using the front panel buttons.
Optical port
An optical port facilitates infrared communication with the device. For details on
how to configure and use this port, see “Configuring the optical port” on page 84.
Master reset button
You must remove the meter’s cover as well as the front panel label to access the
master reset button; it is located in the lower left of the faceplate. This button is
recessed to prevent accidental activation. For instructions on removing the meter
cover and performing a master reset, and information on what parameters are
reset, see “Performing a master reset from the front panel” on page 199.
MASTER
RESET
Use the master reset button to delete most accumulated values and all derived
revenue measurements from the meter.
TEST mode button
The TEST mode button is located under the meter's external cover assembly; it
places the meter into TEST mode. While in TEST mode, the meter stops
accumulating billable quantities; energy and demand measurements are
accumulated in TEST mode registers.
TEST
MODE
See “TEST mode” on page 27 for more details on this mode of operation.
© 2011 Schneider Electric. All rights reserved.
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Display screen types
The front panel displays measurements, event logs, phasor diagrams, bar graphs,
harmonics histograms, configured settings and configuration data. The types of
display screens are described below.
As shown in the graphics in the following sections, the display screen is divided into
two sections: the main display area and the status bar. The main display area
presents meter data and status information; the status bar provides time, date,
phase, quadrant, and mode information. During normal operation, the main display
area automatically cycles through a series of several displays. If you prefer, you
can use the up or down arrow buttons to step manually through these displays. By
default, the automatic scrolling resumes 60 seconds after you have pressed a
button.
TIP
To adjust the contrast, hold down the up and down arrow buttons simultaneously. When the contrast
reaches the desired level, release the buttons.
For information on customizing the display on your meter, see “Configuring front
panel displays” on page 177.
The status bar
The status bar runs along the bottom of the front panel display and contains
information about the following settings:

Date and time (in 24 hour format).

Voltage phases present. The labels and rotation of phases correspond to the
configuration of the power monitoring system.

Quadrant where the system power factor resides.

Mode (NORM, ALT or TEST).

Time remaining in the sliding window (or rolling block) demand interval. If the
interval has counted to zero the letters EOI (End Of Interval) appear on the
status bar.
Main display
Status bar
Numeric displays
All NORM mode data and some of the ALT mode display screens use numeric
displays. Numeric displays show up to four parameters at a time. If no numeric
values are available for a parameter, N/A is displayed.
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By default, the front panel automatically scales the units for basic measurements
(such as voltage, current and power parameters). For example, a measurement of
2,000 Watts is displayed as 2 kW. A measurement of 2,000,000 Watts is displayed
as 2 MW. The meter makes these conversions using your PT and CT ratios.
The meter only performs automatic unit scaling if the displayed measurement is
derived solely from the Power Meter module’s output and the display units are set
to default. See “Displays” on page 175 for more information.
Nameplate display and event log
Nameplate displays and event logs appear in ALT mode and are organized in
tabular format. Nameplate displays show owner, meter and power system details:
The Event Log displays recent high priority events (you must use ION Enterprise or
ION Setup to retrieve all logged event data):
© 2011 Schneider Electric. All rights reserved.
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Histogram displays
Harmonic content is displayed in histogram format. The 2nd to the 63rd harmonics
(31st on the ION8650C meter) are displayed in the histogram. The total harmonic
distortion (THD) is displayed above the histogram.
Phasor diagram displays
Phase information can be displayed in phasor diagram format. Phasor diagrams
are accompanied by tables that show phase, voltage and current magnitudes. In
cases where a phase vector is too small to be represented graphically, it is shown
as a table entry only.
Disk simulator
This display simulates the behavior of a mechanical watt-hour meter indicating
power received or delivered by the direction of the pulse.
Time and date
This displays supports time and date formats, enabling displays with nothing but
date and/or time and/or time remaining in the current interval.
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Time-stamped values
Up to three timestamped parameters can be displayed on the same screen. The
timestamp indicates when the displayed parameter was last updated.
© 2011 Schneider Electric. All rights reserved.
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ION8650 User Manual
Modes of operation
The meter has three modes of operation: NORM, ALT and TEST. Both NORM and
ALT are display modes, providing various power system data and meter properties
screens. TEST mode is used to perform diagnostics, verify the meter’s accuracy,
and verify meter functions.
NOTE
You can customize the display screens and alter the front panel’s scrolling characteristics by editing the
meter’s Display and Scroll modules – refer to“DISPLAY SETUP menu” on page 36 for information on
changing display settings and “Displays” on page 175 for information on customizing the displays.
Basic operation (NORM mode)
The meter defaults to NORM mode when powered up, and remains in this mode
until you manually switch to ALT or TEST.
NORM mode screens are described in “NORM mode display screens” on
page 183.
Meter configuration and NORM mode

For meters without the hardware lock, all of the settings available in the front
panel SETUP menu can be changed while the meter is in NORM mode,
provided you have the correct password.

For meters with the hardware lock, only the basic communications parameters in
the COM Setup menu can be changed in NORM mode. You must enter TEST
mode to change other meter parameters on the hardware-locked meter — see
“Additional revenue metering security” on page 68 for more details.
ALT mode
ALT mode provides scrolling display screens that show power system data, billing
information and meter properties such as nameplate information.
ALT mode screens are described in “ALT mode default display screens” on
page 183.
Switching to ALT mode
Press the ALT/ENTER button to switch to ALT mode. Press the ALT/ENTER
button again to switch back to NORM mode at any time. If no buttons are pressed,
the meter automatically reverts to NORM mode after five minutes. As with any
mode, pressing any button temporarily suspends display screen scrolling, allowing
you to press the up or down arrow buttons to manually browse the available
screens.
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Chapter 3 - Front panel
TEST mode
NOTE
If your meter has the optional hardware lock, you must remove the meter’s cover to put it into TEST
mode. See “Meter security features” on page 54 for more information.
TEST mode is typically used for meter function verification. The meter is usually
reading data from a test power supply while these functions are performed.
All of the billing quantities that are recorded when the meter is in NORM and ALT
mode stop accumulating when the meter is switched to TEST mode — the data is
sent to special TEST mode registers instead. The values accumulated in these test
registers are displayed on the front panel (and in the Vista component of
ION Enterprise).
The regular NORM/ALT mode billing registers are unaffected while the meter is in
TEST mode; accumulation of billing data resumes as soon as you exit TEST mode.
All test registers are reset to zero when you exit TEST mode.
For detailed information on TEST mode, see “Switching to TEST mode” on
page 189.
NOTE
The meter always returns to NORM mode when you exit TEST mode, even if you entered TEST mode
from ALT mode.
© 2011 Schneider Electric. All rights reserved.
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Configuring the meter with the front panel
Using the meter’s front panel, you can navigate through different menus to perform
basic setup on your meter.
NOTE
If you have a hardware-locked meter, only the basic communications parameters can be changed in
NORM mode. You must enter TEST mode to change other meter parameters on the hardware-locked
meter. See “Additional revenue metering security” on page 68 for more details.
Accessing the SETUP menu
To access the SETUP menu, press and hold the front panel's ALT/ENTER button
while the meter is displaying power system data. Within the SETUP menu is a list
of sub-menus that contain the meter’s configurable settings. The menu items are
described in “Front panel features” on page 20.
Press the up or down arrow buttons to navigate through the menu. Highlight a
menu item and press the ALT/ENTER button. When you select an item from the
SETUP menu, you are presented with another menu of the settings in the meter.
You may need to navigate several layers of menus to access the setting you want
to change.
The following diagram shows how the buttons are used to navigate the menus:
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Chapter 3 - Front panel
The settings contained in the SETUP menu are:
SETUP
BASIC SETUP
COM3 SETUP
FORMAT SETUP
VOLTS MODE
PROTOCOL
PHASE LABELS
PT PRIMARY
BAUD RATE
PF SYMBOL
PT SECONDARY
TRANSMIT DELAY
DIGIT GROUP
CT PRIMARY
UNIT ID
DATE FORMAT
CT SECONDARY
SERIAL PORT
SHOW DST
VA POLARITY
COM4 SETUP
VOLTS DECIMAL
VB POLARITY
PROTOCOL
CURRENT DECIMAL
VC POLARITY
BAUD RATE
POWER DECIMAL
IA POLARITY
TRANSMIT DELAY
IB POLARITY
UNIT ID
UPDATE RATE
IC POLARITY
SERIAL PORT
CONTRAST
PHASE ROTATION
RS485 BIAS
BACKLIGHT TO
COM1 SETUP
NETWORK SETUP
DISPLAY SETUP
DMD LOCK TO
PROTOCOL
IP ADDRESS
TEST MODE TO
BAUD RATE
MASK
DISPLAY SCALE
TRANSMIT DELAY
GATEWAY
SCALING MODE
UNIT ID
SMTP ADDRESS
DELTA VECTORS
SERIAL PORT
MAC ADDRESS
RS232 OR RS485
ENABLED COM PORTS
SECURITY SETUP
MODIFY PASSWD
RTS/CTS HANDSHAKE
COM1
DISABLE SECURITY
RS485 BIAS
COM2
WEB CONFIG
COM2 SETUP
COM3
PROTOCOL
COM4
BAUD RATE
ETHERNET
TRANSMIT DELAY
UNDO & RETURN
UNIT ID
REBOOT
© 2011 Schneider Electric. All rights reserved.
Each of the main setup screens and the
settings you can configure are discussed in
“Setup menus” on page 31.
Note: the ENABLED COM PORTS setup
menu only appears on the ION8650C.
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Navigating the front panel screens
Use the up and down arrow buttons to scroll through the menu items. When the
setting you want to change is highlighted, press the ALT/ENTER button.
To return to a previous screen, use the up or down arrow button to highlight the
RETURN menu item and then press the ALT/ENTER button.
Configuring parameters using the navigation buttons
Use the up or down arrow buttons to change the value (if numeric) or the setting (if
enumerated) of the highlighted parameter.
To change the position of the cursor, press the up or down arrow buttons for about
one second. The up arrow button moves the cursor one position to the left and the
down arrow button moves the cursor one position to the right. Once you have the
value you want, press the ALT/ENTER button to select it.
NOTE
When setting Ethernet values (IP address, default gateway, etc.), press the up arrow button to insert
additional digit spaces. Press the down arrow to remove digit spaces (see “NETWORK SETUP menu”
on page 34 for more information).
OUT OF RANGE screen
When editing numeric data, the numbers displayed on the screen below MIN and
MAX indicate valid entry bounds. If you enter a value outside valid bounds, you are
presented with a message stating that the value is out of range. You can then either
return to the register you were editing or choose to exit.
Confirming configuration changes
The CONFIRM CHANGE screen appears when you attempt to change the meter’s
settings through the front panel. This allows you to cancel an unwanted
configuration change. The front panel also informs you when an entry is out of
range. Select YES to confirm your change or NO to cancel it, then press the ALT/
ENTER button to return to the previous setup screen.
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Chapter 3 - Front panel
Setup menus
The following sections describe the setup menus in more detail.
BASIC SETUP menu
The BASIC SETUP menu lets you set volts mode, potential transformer (PT) and
current transformer (CT) ratios and various other settings (such as voltage and
current polarities) so that you can ensure that your meter is adequately set for your
application.
To access the BASIC SETUP menu with the meter’s front panel:
1. Press and hold the ALT/ENTER button on the front panel of the meter. After
about three seconds the SETUP screen appears.
2. Use the up or down arrow buttons to navigate to the BASIC SETUP menu. Press
the ALT/ENTER button.
3. Press the up or down arrow buttons to navigate to the appropriate parameter,
then press the ALT/ENTER button to edit the parameter.
Many of these settings are configured when the meter is initially put into service
(the device will not operate properly until Volts mode and PT and CT ratios are set),
but some settings may need to be changed to refine the device’s operation.
NOTE
If you have a hardware-lockable meter, you must put the device into TEST mode prior to making changes
to the BASIC SETUP parameters. For TEST mode information, see “TEST mode” on page 27.
The BASIC SETUP menu has the following settings:
Menu item
Setting options
Default
The power system’s configuration and supported form factor.
36S - 4 Wire Wye is only available on the socket meter.
 9S - 4 Wire Wye/Delta
 29S - 4 Wire Wye
Volts mode1
 35S - 3 Wire
 36S - 4 Wire Wye
Description
*See note
 Demo
Note: The default setting varies depending on the meter form factor. Ensure you
verify that the correct option is selected for your power system before putting
the meter into service.
PT Primary1
1.0 to 999999.00
120
The Potential Transformer’s primary winding rating
PT Secondary1
1.0 to 999999.00
120
The Potential Transformer’s secondary winding rating
CT Primary1
1.0 to 999999.00
5
The Current Transformer’s primary winding rating
CT Secondary1
1.0 to 999999.00
5
The Current Transformer’s secondary winding rating
NORMAL
The polarity of the Potential Transformer on V1
NORMAL
The polarity of the Potential Transformer on V2
NORMAL
The polarity of the Potential Transformer on V3
VA Polarity
VB Polarity
VC Polarity
 Normal
 Inverted
 Normal
 Inverted
 Normal
 Inverted
© 2011 Schneider Electric. All rights reserved.
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Menu item
IA Polarity
IB Polarity
IC Polarity
Phase Rotation
ION8650 User Manual
Setting options
 Normal
 Inverted
 Normal
 Inverted
 Normal
 Inverted
 ABC
 ACB
1
Default
Description
NORMAL
The polarity of the Current Transformer on I1
NORMAL
The polarity of the Current Transformer on I2
NORMAL
The polarity of the Current Transformer on I3
ABC
The expected rotation of the voltage phases (ABC or ACB)
These registers are typically set when the device is commissioned. Changing the values of these
registers while the device is in service is not recommended.
COM port setup menus
See “Communications options” on page 75 for more information on configuring
meter communications.
To make changes to communications settings with the meter’s front panel, hold
down the ALT/ENTER button for three seconds to enter the SETUP menu, then
press the down arrow button to select the COM SETUP you want.
Depending on the communications options ordered with your meter, the following
menu items are available:
Menu item
Description
COM1 Setup
Settings for the selectable RS-232 or RS-485 communications port.
COM2 Setup
Settings for the internal modem port.
COM3 Setup
Settings for the optical communications port located on the meter’s front panel.
COM4 Setup
Settings for the COM4 RS-485 port.
Network Setup
Settings for the Ethernet communications port.
Enabled COM
Ports
Set which two COM ports are enabled for communication, in addition to COM3
(front optical port) which is always enabled. This menu is only available on the
ION8650C.
NOTE
For hardware-locked meters, you do not need to be in TEST mode to alter these COM port settings.
Serial COM port settings
There are three main parameters that you must set or verify if your meter is
connected to a serial network (including modem communications): Unit ID, Baud
Rate, and Protocol.
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NOTE
Other parameters such as TRANSMIT DELAY are used in advanced configuration or fine-tuning your
system. The main parameters are the most common parameters required to get your meter
communicating.
To configure the COM port settings:
1. Press and hold the ALT/ENTER button on the front panel of the meter. After
about three seconds the SETUP screen appears.
2. Use the up or down arrow buttons to navigate to the COM port that you want to
configure. Press the ALT/ENTER button.
3. Press the up or down arrow buttons to navigate to parameter you want to edit
then press ALT/ENTER.
4. Use the up and down arrow buttons to change the value of the parameter then
press ALT/ENTER.
The menu items, and their setting options and default configurations, are listed in
the following table for COM1 (selectable RS-232 or RS-485), COM2 (modem),
COM3 (optical port) and COM4 (RS-485).
Applies to...
Menu item
Setting options
Protocol
All COM ports: ION, Modbus RTU,
Factory, DNP 3.00, GPS Arbiter1,
GPS Arbiter-Vorne1, GPS:TrueTime/
Datum1
Additional protocols on COM1 and
COM4: Modbus Master2,
EtherGate3, ModemGate3
All
All
All
Default
Description
ION
Specifies the protocol used by the
communications port.
Baud Rate
300, 1200, 2400, 4800, 9600, 19200,
38400, 57600, and 115200 bps
9600 bps
Specifies the baud rate of the serial
port. Ensure all devices on the same
loop are configured to use the same
baud rate.
Transmit Delay
0.0 to 1.0 s.
0.01s (10ms)
The amount of time in seconds that
the meter waits for communications
acknowledgements.
Sets the meter Unit ID.
A unique Unit ID is required for each
device (including all the devices on a
ModemGate or EtherGate serial
loop).
All
Unit ID
1 to 9999
COM1: Unit ID is
based on the serial
number4.
COM2: 101
COM3: 102
COM4: 103
COM1
RS232 OR RS485
RS232 or RS485
RS485
Specifies the communications mode
used by COM1.
COM1
(RS-232 only)
RTS/CTS
Handshake
RTS/CTS or RTS with Delay
RTS with Delay
Specifies the flow control used by the
communications port.
COM1
(RS-485 only)
and COM4
RS485 Bias
OFF or ON
OFF
Enables or disables RS485 biasing.
See “RS-485 biasing” on page 82 for
more information.
© 2011 Schneider Electric. All rights reserved.
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Applies to...
COM1, COM3
and COM4
ION8650 User Manual
Menu item
Serial Port
Setting options
Default
8O1, 8O2, 8N1, 8N2, 8E1, 8E2
1
8N1
Description
Sets the parity and data format. For
example, 8N1 is eight (8) data bits, no
(N) parity bit and one (1) stop bit.
Ensure that all devices on the same
loop are set to the same format.
See “Time synchronization” on page 119 for more details about GPS settings. See also the Time
Synchronization & Timekeeping technical note for further details on using the meter’s time
synchronization functions.
2
Modbus Master is not available on the ION8650C.
3
See “Configuring Ethernet connections” on page 86 and “Internal modem connections” on page 91
for more details.
4
Unit ID for COM1 is based on the meter’s serial number. For example, if the serial number is
PA-0009B263-01, the Unit ID is set in the factory to 9263.
NETWORK SETUP menu
There are two main parameters that you must set or verify if your meter is
connected to an Ethernet network: IP address and subnet mask address.
NOTE
There are other parameters, such as GATEWAY ADDRESS and SMTP ADDRESS, that are used in
advanced configuration or in fine tuning your system. The main parameters are the most common
parameters required to get your meter communicating.
The menu items, and their setting options and default configurations, are as
follows:
Menu item
Setting options
Default
Description
IP Address
0.0.0.0 to 255.255.255.255
None
Sets the IP address for the meter.
Mask
0.0.0.0 to 255.255.255.255
None
Used if subnet masking applies to your network
– see your network administrator to determine if subnet mask is used.
Gateway
0.0.0.0 to 255.255.255.255
None
Used in multiple network configurations
– see your network administrator to determine if gateway is used.
SMTP Address
0.0.0.0 to 255.255.255.255
None
Sets the IP address for the SMTP mail server that is configured to
forward mail from the meter to the final destination
– see your network administrator to determine if the SMTP mail server
is used.
MAC Address
Read-only factory-set
hexadecimal value
The MAC address is read-only and provided for information purposes only.
Most network settings can be configured through the front panel; all network
settings can be modified in ION Enterprise or ION Setup. See “Configuring
Ethernet connections” on page 86 for more information.
NOTE
Configuring the IP ADDRESS, MASK, and GATEWAY settings incorrectly can cause network
disruptions. See your network administrator for more information.
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Typically, your network administrator provides you with the appropriate IP address
for the meter. The subnet mask and gateway settings are only required if you have
communications between multiple Ethernet networks and if subnetting is
implemented.
Use the navigation buttons to edit the values of the network settings so that they
match your system addresses. As you configure the network addresses, the front
panel automatically discards unnecessary leading zeroes from each three-digit
grouping. The hidden leading zeroes appear (and disappear again) as you move
the position of cursor across the network address.
89.123.40. 0 56
In the example above, the highlighted zero is discarded as soon as you change the
position of the cursor.
ENABLED COM PORTS menu (ION8650C only)
Up to three COM ports can be active simultaneously on the ION8650C. COM3 (the
front optical port) is always enabled. The ENABLED COM PORTS menu allows
you to select the other two COM ports that you want enabled.
NOTE
A meter restart is required to change the enabled communications ports.
Menu item
Description
COM1
Specifies whether COM1 (RS-232/RS-485) is enabled or disabled.
COM2
Specifies whether COM2 (modem) is enabled or disabled.
COM3
COM3 (front optical port) is always enabled.
COM4
Specifies whether COM4 (RS-485) is enabled or disabled.
Ethernet
Specifies whether the Ethernet port is enabled or disabled.
Undo & Return
Exits the menu with no changes to the COM ports. No meter restart required.
Reboot
Restarts the meter. The changes are applied when the meter restarts.
The default settings vary depending on your order option. See your meter’s
Installation guide for details.
See “ION8650C communications options” on page 76 for details on changing the
enabled COM ports.
© 2011 Schneider Electric. All rights reserved.
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FORMAT SETUP menu
The FORMAT SETUP contains the following values that set labeling and
formatting preferences:
Menu item
Setting option
Default
Description
Phase Labels
ABC, 123, RWB, RYB, XYZ, or RST
ABC
Specifies how phases are labelled.
PF Symbol
LD/LG, +/-, or CAP/IND
LD/LG
Specifies the symbol pair used to indicate power factor.
Digit Group
1000.0, 1,000.0 or 1 000,0
1000.0
Numbers of three digits or greater can be grouped in any
of the following three formats: 1000.0 (no commas, no
spaces) or 1,000.0 (commas, no spaces) or 1 000.0 (no
commas, spaces).
Date Format
YYYY/MM/DD, MM/DD/YYYY or
DD/MM/YYYY
MM/DD/YYYY
Specifies how dates are displayed.
Show DST
Do not display DST or Display DST
Display DST
You can choose to display Daylight Savings Time (DST) or
not.
Volts Decimal
1. to 123456789.XXX
1.XX
Number of decimal places displayed for voltage values (up
to 9 digits before the decimal place and up to 3 digits after
the decimal place).
Current Decimal
1. to 123456789.XXX
1.XXX
Number of decimal places displayed for current values (up
to 9 digits before the decimal place and up to 3 digits after
the decimal place).
Power Decimal
1. to 123456789.XXX
1.XXX
Number of decimal places displayed for power values (up
to 9 digits before the decimal place and up to 3 digits after
the decimal place).
DISPLAY SETUP menu
You can configure the following display preferences:
Menu item
Setting options
Default
Description
Update Rate
1s, 2s, 3s, 4s, 5s, or 6s
1s
The front panel can update its data from every one to every six seconds.
Contrast
0 to 9
5
A front panel display contrast level can be set from zero to nine where
higher numbers represent a sharper level of contrast. You can adjust the
contrast level at any time by pressing and holding down both up and
down arrow buttons simultaneously.
Backlight TO
0 to 7200
300
Backlight timeout: this selection allows you to make the backlight turn off
automatically after zero to 7200 seconds (two hours). If this value is set to
0 (zero), the backlight is always on.
DMD Lock TO
0 to 5184000
2160000
Demand lockout time (in seconds) controls the minimum allowable time
between consecutive demand resets. You can select values from 0
(disabled) to 5184000 (60 days).
TEST mode TO
60 to 21600
1800
If there are no front panel key presses, the meter exits TEST mode
automatically; the TEST mode timeout setting defines how long the meter
remains in TEST mode before switching to norm mode. While in TEST
mode, the value on the bottom right of the status bar indicates the
amount of time before TEST mode times out.
Display Scale
1.0 to 999999.0
1000
Scale applied to values before they are displayed.
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© 2011 Schneider Electric. All rights reserved.
ION8650 User Manual
Menu item
Chapter 3 - Front panel
Setting options
Default
Description
Scaling Mode
Multiply or Divide
Divide
Specifies whether values are divided or multiplied by the Display Scale
before being displayed.
Delta Vectors
System or Instrument
Instrument
Specifies how vector diagrams are displayed when in Delta mode.
SECURITY menu
The settings in the front panel SECURITY menu allow you to:

modify the existing meter password or reset it to the factory default.

disable the password security check.

enable web browser configuration on the meter.
You require the valid password to enter the SECURITY menu. The default
password is 0 (zero).
See “Security” on page 53 for more details.
NOTE
The password enables users to change the configuration of the meter. It is recommended that you
change your password from the default when you put the meter into service
If you have not yet entered your password, the meter’s front panel requires that you
enter it before you can view the SECURITY setup menu. Use the navigation
buttons to enter numerical data. If you enter an incorrect password, the front panel
displays an invalid password message and you must try again.
Modify Password sub-menu
Use this sub-menu to change the password or to reset the password to the factory
default (0).
From the meter’s front panel, select SECURITY, then MODIFY PASSWORD. Two
choices appear: MODIFY PASSWORD or FACTORY DEFAULT. Use the Up
button to select MODIFY PASSWORD or the Down button to select FACTORY
DEFAULT.
Changing a password

To change the value of a highlighted digit, use the up or down arrow buttons:

To change the position of the cursor one space to the left, press the up arrow
button for about one second.

To change the position of the cursor one space to the right, press the down
arrow button for about one second.

When the correct password is displayed, press ALT/ENTER.
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Chapter 3 - Front panel
ION8650 User Manual
Disable Security sub-menu
Use this sub-menu to enable and disable password security on the meter.
Disabling the password allows changes to all the meter’s settings through the front
panel without a security check.
NOTE
It is highly recommended that any meters in the field have the password security check enabled. Nonsecure access to critical settings in the meter, such as PT and CT ratios, is not advisable.
When you re-enable password security, the password is reset to the factory default
of 0 (zero). It is recommended that you re-enter a custom password at this point.
Disabling the Password Security Check is necessary to write to the meter when it
is a Modbus slave device. See “The meter as Modbus slave” on page 99 for details
about configuring your meter for third-party systems.
Web Config
Use this setting to enable/disable web browser configuration of the meter. See
“Enabling and disabling web configuration” on page 58 for more details.
38
© 2011 Schneider Electric. All rights reserved.
Chapter 4
Templates and firmware
Your meter comes installed with a preconfigured default template. This template
contains various frameworks which provide all the power measuring and analyzing
functionality of the meter. The default templates and frameworks can be used
immediately without any user configuration. They can also be customized,
reconfigured, and pasted from one meter to another.
For more information on templates, frameworks and ION modules, see the
ION Reference.
Firmware is your meter’s operating system. When newer firmware is available for
your meter, simply upgrade to the latest version for all the added features and
functionality.
In this chapter
Factory
information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40
Factory Module settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40
How to TAG your meter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40
Updating
or restoring the template . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41
41
41
41
42
Meter I/O module behavior . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using the front panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using ION Setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using Designer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Upgrading
your meter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
General upgrading considerations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Upgrading to compatible firmware and template versions . . . . . . . . . . . . .
Using a laptop computer to upgrade . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Upgrading devices via a ModemGate connection . . . . . . . . . . . . . . . . . . .
Meter behavior when an upgrade fails . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Meter I/O module behavior . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Upgrading firmware using ION Setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Upgrading firmware using ION Enterprise . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Before using Device Upgrader . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using Device Upgrader . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
© 2011 Schneider Electric. All rights reserved.
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44
44
44
44
45
45
45
46
46
46
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ION8650 User Manual
Factory information
The Factory module displays firmware version, serial number and other device
information in read-only setup registers (read-only registers can be viewed but not
changed) or configurable information in read/write setup registers.
Factory Module settings
The device information provided is as follows:
Setup register
1
Description
Device Type
A device type identifier (for example, “8650” for the ION8650)
Compliance
A statement of whether the device is ION compliant or not
Options
Shows model number of meter
Revision
The meter’s firmware version
Serial Num
The meter’s serial number
ION Version
The ION version supported by the device
Template
The name of the template (framework) installed on the device at the factory
Nom Freq
The expected frequency of the power system being monitored
MAC Address
Media Access Control address1
Feature Set
The feature set of the meter (ION8650A, ION8650B or ION8650C)
The MAC address of your meter cannot be changed, and is for information only.
The Factory module also holds the alternate PT and CT values, which can scale
operational values on revenue-locked meters (see “Scaled operational values” on
page 70) and numerous read-only setup registers that hold the calibration
constants used at the factory.
How to TAG your meter
Three configurable read/write setup registers are provided for you to enter your
company name and other text information you want stored in the meter:

Owner - This is a text register for storing user information (for example, company
name). It can be up to 255 characters in length.

Tag 1 - This is a text register for storing user information (for example, device
location). It can be up to 15 characters in length.

Tag 2 - This is a text register for storing user information (for example, device
number or identifier). It can be up to 15 characters in length.
NOTE
Tag 2, if entered, is used as the default MV-90 Device ID. Refer to the MV-90 and ION Technology
technical note for more information.
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© 2011 Schneider Electric. All rights reserved.
ION8650 User Manual
Chapter 4 - Templates and firmware
Updating or restoring the template
You may need to update or restore the meter’s template:

If there is a new template with additional features or if you have configured one
meter and want to configure others with the same settings.

If you have made changes and want to return to the original configuration. The
basic setup of the device can be retained, so the meter does not need to be
taken out of service for a long period of time.
NOTE
If you restore the factory configuration, all recorded data and any custom features that you have created
(such as custom alarms or custom data recorders) are lost.
Use ION Enterprise or ION Setup to upgrade or restore the template.
Meter I/O module behavior
The state of your meter's I/O modules may change during an upgrade. They will
revert to previous settings after the upgrade is complete.
HAZARD OF UNINTENDED OPERATION
• Do not use the meter for critical control or protection applications where human or
equipment safety relies on the operation of the control circuit.
• Be aware that an unexpected change of state of the digital outputs may result when the
supply power to the meter is interrupted or after a meter firmware or template upgrade.
Failure to follow these instructions can result in death, serious injury or equipment
damage.
Using the front panel
You cannot restore the factory configuration from the meter’s front panel.
Using ION Setup
1. Obtain the meter template that you want to update or restore:

Download your meter’s factory template or an update template from
www.schneider-electric.com.

Save a template you have configured on another meter. See the ION Setup
Help for instructions.
Save the .DCF file. The default template file location is .../ION Setup/
TEMPLATE.
2. Start ION Setup.
© 2011 Schneider Electric. All rights reserved.
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Chapter 4 - Templates and firmware
ION8650 User Manual
3. Open the Setup Assistant for your meter. See the ION Setup Help for
instructions.
4. Select the Template screen.
5. Click the Send to Meter tab then click Send. The Open ION8650 DCF file
dialog box appears. Navigate to the location where you saved the .DCF file.
6. Select the .DCF file and click OK. The Template Paste Options dialog box
appears. Select the check boxes for the settings you want to retain (not
overwrite) and click OK.
Rapid Meter Programming pastes the template onto your meter. A dialog box
confirms the paste was successful.
Using Designer
See the ION Enterprise help for detailed instructions on updating and restoring
templates and frameworks.
NOTE
The time required to complete the steps in this procedure can vary depending on your connection and
the meter configuration. Some steps may take several minutes to complete.
1. Open your meter in Designer. Ensure that the meter’s main Configuration
screen is displayed.
2. Click Edit > Select All then press DELETE.
A confirmation dialog box appears explaining that some modules will not be
deleted (core modules cannot be deleted — scroll down in the dialog to see
which standard modules will be deleted).
3. Click OK on the confirmation dialog box.
The modules are deleted (other than persistent and core modules). You may get
a message stating that persistent modules could not be deleted. Click Continue.
The main meter Configuration screen is blank except for a folder that contains
the modules which cannot be deleted.
4. Click Edit > Select All to select the Frameworks folder. This selects all subfolders and modules within the folder.
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ION8650 User Manual
Chapter 4 - Templates and firmware
5. Click Edit > Paste from Framework, then select the appropriate .fwn file from
the folder \ION Enterprise\config\fmwk\nd\. Click Open.
NOTE
The Factory module’s Default Template register tells you the filename for the default factory framework.
(For details about framework files, contact Technical Support or visit www.schneider-electric.com)
The Paste Summary dialog box appears.
6. Click on the first module, scroll down to the last module, hold the SHIFT key and
click on the last module. This selects all of the modules.
7. Continue holding the SHIFT key and click on the check box to the left of the
module name. A lock icon with a green check mark appears; this performs a
lock-paste of the modules.
NOTE
Persistent modules can be overwritten in Designer. When pasting a default framework onto a meter,
use lock-paste on the Persistent modules, not free-paste. A list of Persistent modules is available from
Technical Support.
8. Select the Maintain external inputs check box and click OK.
A message appears indicating that Designer is pasting modules. All modules are
selected when the paste is complete. Click anywhere in the background of the
node diagram to deselect all of the modules.
9. Click the Power Meter shortcut in the Basic Configuration area to select it. Click
the Reset icon or select Edit > Reset. This reverts the Power Meter to the
settings it had before you deleted any modules (retaining your original basic
setup).
10. Click File > Send & Save. If you receive an message stating that the operation
is incomplete, click Continue then click File > Send & Save again.
© 2011 Schneider Electric. All rights reserved.
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Chapter 4 - Templates and firmware
ION8650 User Manual
Upgrading your meter
You can upgrade the firmware (operating software) and template on your meter
using either ION Enterprise or ION Setup.
General upgrading considerations
Upgrading to compatible firmware and template
versions
Ensure that the firmware version that you are upgrading to is compatible with your
meter and that the version number is greater than your existing firmware (or else
you will downgrade your meter).
Ensure that the template you are upgrading to matches the feature set of your
meter (in other words, if your meter is an ION8650A, the template must be an Avariant template). The variant is indicated in the template filename.
You can download meter firmware and templates from www.schneiderelectric.com.
Using a laptop computer to upgrade
Laptop computers generally have different default power properties than desktop
computers. Incorrect power options can adversely affect device upgrading
because the connection between the laptop and the device must be maintained in
order to complete the upgrade successfully. If the laptop’s hard disk shuts down or
the laptop enters system standby mode, this connection is broken and the upgrade
procedure must be restarted.
If you are upgrading a meter using a laptop computer, follow these guidelines:

Plug the laptop computer into a wall outlet. Do not run the laptop on its battery.

Configure the hard disks so that they do not shut down after a certain period of
time (for example, set to “never”).

Turn off power suspension (for example, system stand-by) and hibernate
options.

Disable options that power down the laptop when it is closed. This prevents a
shut down if the laptop is accidentally closed.

Disable the screen saver; screen savers can burden the CPU.
Upgrading devices via a ModemGate connection
The maximum acceptable baud rate for upgrading via ModemGate is 56.6 kbps.
Ensure that the baud rate on the ModemGate communications port and the baud
rate on the meter to be upgraded are set to this or lower.
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ION8650 User Manual
Chapter 4 - Templates and firmware
Meter behavior when an upgrade fails
The meter allows three consecutive attempts to upgrade the meter. If the third
attempt fails, an error is generated and you must power cycle the meter before you
try again. Wait 30 seconds for the meter to reset after power cycling it before you
try to upgrade again.
Meter I/O module behavior
The state of your meter's I/O modules may change during an upgrade. They will
revert to previous settings after the upgrade is complete.
HAZARD OF UNINTENDED OPERATION
• Do not use the meter for critical control or protection applications where human or
equipment safety relies on the operation of the control circuit.
• Be aware that an unexpected change of state of the digital outputs may result when the
supply power to the meter is interrupted or after a meter firmware or template upgrade.
Failure to follow these instructions can result in death, serious injury or equipment
damage.
Upgrading firmware using ION Setup
Performing a device upgrade in ION Setup involves:

upgrading the device firmware, and

upgrading the device template.
You can download your device’s latest firmware and template fromwww.schneiderelectric.com. Save the files in the .../ION Setup/TEMPLATE folder for easy access.
Upgrading the device firmware and template
In ION Setup:
1. Open the Setup Assistant for your meter. See the ION Setup Help for
instructions.
2. Select the Template screen.
3. Click the Firmware Upgrade tab, then click Upgrade. Enter your meter
password (if prompted) and click OK.
NOTE
If you want to retain customized meter template settings, other than those listed in the Template Paste
Options dialog box (see Step 6), click on the Save to PC tab and click Save. Save your template as a
.DCF file. Select this file in Step 5 instead of the file obtained from the website.
4. Browse to the .UPG file (device firmware) that you downloaded from the website
and click Open. Type your ION Setup password when prompted and click OK.
© 2011 Schneider Electric. All rights reserved.
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Chapter 4 - Templates and firmware
ION8650 User Manual
5. Browse to the .DCF file (device template) that you downloaded from the website
(or saved from your meter in Step 3) and click Open. The Template Paste
Options dialog box appears.
6. Select the options that you do want to be retained and clear any options that you
do not want to retain then click OK.
7. Track the progress of the upgrade.
After the firmware download is complete, ION Setup attempts to verify the
firmware. If the verification fails, contact Technical Support.
8. Click Exit when you get a message that the upgrade is complete.
Upgrading firmware using ION Enterprise
ION Enterprise includes the Device Upgrader utility for upgrading devices.
NOTE
Supervisor-level access (level 5) is required to upgrade the device.
Before using Device Upgrader
Data stored in the meter's memory is lost during the firmware upgrade. This
includes waveforms, Min/Max values, and information stored in the Data Recorder
and Integrator modules. Ensure you save your meter’s data before you upgrade
your meter.
You need the applicable upgrade (.upg) files for your meter, which are available
from www.schneider-electric.com. Save these files in a folder that is accessible
from your ION Enterprise computer.
For more information about using Device Upgrader, refer to the ION Enterprise
online help.
Using Device Upgrader
1. Stop the ION Log Inserter Service and the ION Virtual Processor Service.
2. Start Management Console.
3. Select Tools > System > Device Upgrader. Type your username and
password in the login prompt.
A dialog box displays recommendations and warnings regarding the upgrade
operation. Make sure you read and understand these warnings before you click
OK. If you need to implement any changes because of the recommendations
and warnings, close Device Upgrader, make the changes then re-open Device
Upgrader and continue.
The Device Upgrader utility appears.
4. Select your meter type from the List Devices of Type box.
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© 2011 Schneider Electric. All rights reserved.
ION8650 User Manual
Chapter 4 - Templates and firmware
5. Select the appropriate meter from Select Devices to Upgrade box. To select
multiple devices, hold down CTRL while clicking each device.
6. Click Select File in the Select Revision section. Locate and select the upgrade
(.upg) file that you downloaded from the website, then click Open.
7. Select or clear the Save/Restore Framework check box (selected by default).
If selected, this keeps a copy of your current framework template during the
upgrade. After the firmware upgrade is complete, Device Upgrader restores your
framework template.
NOTE
Device Upgrader loads new meter firmware that does not contain any framework templates. If you want
to preserve customizations that you have made to your device framework, make sure you select Save/
Restore framework. However, if you intend to replace the existing meter framework with a new one
(for example, a new default meter template that you downloaded), clear Save/Restore framework.
If you intend to replace the meter’s framework configuration with a new template, it is recommended
that you upgrade using ION Setup. See “Upgrading firmware using ION Setup” on page 45 for
information.
8. Specify how Device Upgrader responds to an unsuccessful upgrade in the
Failure Handling section (you only need to do this if you are upgrading multiple
devices):

Select Halt After, then enter a number in the box to specify how many
attempts you want Device Upgrader to make before stopping during an
unsuccessful upgrade. By default, the utility is set to stop after the first
unsuccessful upgrade.

Select Ignore All to attempt to upgrade all of the selected devices
regardless of the number of devices that do not upgrade successfully.
NOTE
Firmware upgrade error codes are described in the ION Enterprise online help.
9. Click Select File in the Select Revision section. Navigate to the upgrade (.upg)
file that you want to use and click Open.
This file will be downloaded to all the devices that are highlighted in the Select
Devices to Upgrade list.
10. Click Upgrade to upgrade the selected device(s).
The Upgrade Status box shows each stage in the upgrade process. The
completed progress bar indicates what percentage of the upgrade is complete.
Each completed upgrade is noted in the Upgrade Status box.
11. Restart the ION Log Inserter Service and the ION Virtual Processor Service.
NOTE
If connection to the device is lost, or if power to the device is interrupted during an upgrade, restart the
Device Upgrade utility procedure.
© 2011 Schneider Electric. All rights reserved.
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Chapter 4 - Templates and firmware
48
ION8650 User Manual
© 2011 Schneider Electric. All rights reserved.
Chapter 5
Basic setup
This chapter explains how to perform basic meter setup using the front panel,
ION Enterprise or ION Setup.
In this chapter
Introduction
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50
50
51
51
51
51
Basic setup parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Configuring basic setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using the front panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using ION Setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using Designer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
© 2011 Schneider Electric. All rights reserved.
49
Chapter 5 - Basic setup
ION8650 User Manual
Introduction
Basic configuration of the meter is provided by the Power Meter module. The
Power Meter module is the main connection between the power system
measurements and all other ION modules in the device. This module reports the
values for all voltage, current and power measurements. The Power Meter
module’s setup registers describe details of the power system being monitored.
Basic setup is typically performed when the meter is initially put into service,
although the device cannot operate properly until the Volts Mode and PT and CT
ratios are set. After this basic setup is performed the meter operates properly, and
there is generally no need to make further changes to the basic setup.
Other advanced parameters can be configured, if needed. See the description of
the Power Meter module in ION Reference for more information.
Basic setup parameters
Menu item
Setting options
Default
The power system’s configuration and supported form factor.
36S - 4 Wire Wye is only available on the socket meter.
 9S - 4 Wire Wye/Delta
 29S - 4 Wire Wye
Volts mode1
 35S - 3 Wire
 36S - 4 Wire Wye
Description
*See note
 Demo
Note: The default setting varies depending on the meter form factor.
Ensure you verify that the correct option is selected for your power
system before putting the meter into service.
PT Primary1
1.0 to 999999.00
120
The Potential Transformer’s primary winding rating
PT Secondary
1.0 to 999999.00
120
The Potential Transformer’s secondary winding rating
CT Primary1
1.0 to 999999.00
5
The Current Transformer’s primary winding rating
CT Secondary1
1.0 to 999999.00
5
The Current Transformer’s secondary winding rating
NORMAL
The polarity of the Potential Transformer on V1
NORMAL
The polarity of the Potential Transformer on V2
NORMAL
The polarity of the Potential Transformer on V3
NORMAL
The polarity of the Current Transformer on I1
NORMAL
The polarity of the Current Transformer on I2
NORMAL
The polarity of the Current Transformer on I3
ABC
The expected rotation of the voltage phases (ABC or ACB)
ON
Whether or not PT/CT correction is applied to displayed and
recorded meter data
VA Polarity
VB Polarity
VC Polarity
IA Polarity
IB Polarity
IC Polarity
Phase Rotation
ScaleRevParam
 Normal
 Inverted
 Normal
 Inverted
 Normal
 Inverted
 Normal
 Inverted
 Normal
 Inverted
 Normal
 Inverted
 ABC
 ACB
 ON
 OFF
1
50
These registers are typically set when the device is commissioned. Changing the values of these
registers while the device is in service is not recommended.
© 2011 Schneider Electric. All rights reserved.
ION8650 User Manual
Chapter 5 - Basic setup
Configuring basic setup
Use the front panel, ION Enterprise or ION Setup to perform basic meter setup.
Using the front panel
Access the BASIC SETUP menu to configure the power system settings. See
“Front panel” on page 19 for instructions.
Using ION Setup
In ION Setup:
1. Open the Setup Assistant for your meter. See the ION Setup Help for
instructions.
2. Select the Basic Setup screen and click the PT/CT Ratios tab.
3. Configure each register as required by selecting the parameter and clicking Edit.
NOTE
Scaled Rev Param determines if the PT/CT correction is applied to displayed and recorded meter data.
By default, Scaled Rev Param is set to ON and PT/CT corrections are applied.
Using Designer
Open your meter in Designer and navigate to the Basic Configuration Framework.
Right-click on the Power Meter module to edit.
© 2011 Schneider Electric. All rights reserved.
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Chapter 5 - Basic setup
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ION8650 User Manual
© 2011 Schneider Electric. All rights reserved.
Chapter 6
Security
ION8650 meters offer standard and advanced meter security. Standard security is
enabled by default from the factory. Advanced security allows you to configure
more specific security settings, such as communications lockouts to limit the
number of invalid login attempts, and to add up to 16 users, each with unique
access privileges. Procedures for changing these security settings using the front
panel, ION Enterprise or ION Setup are detailed in this chapter.
There are also security features available for revenue meters. The scaled
operational values (SOV) feature, which allows scaling of non-revenue data on
revenue-locked meters, is described in this chapter.
In this chapter
Meter
security features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 54
Time synchronization security considerations . . . . . . . . . . . . . . . . . . . . . . 54
Standard
meter security . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Configuring standard meter security using the front panel . . . . . . . . . . . . . . . .
Entering the password . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Changing the password . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Enabling and disabling the password security check . . . . . . . . . . . . . . . .
Resetting the password . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Enabling and disabling web configuration . . . . . . . . . . . . . . . . . . . . . . . . .
Configuring standard meter security in ION Setup . . . . . . . . . . . . . . . . . . . . . .
Configuring standard meter security in Designer . . . . . . . . . . . . . . . . . . . . . . .
55
55
55
56
56
57
58
58
59
Advanced
60
60
61
61
63
64
66
67
Additional
revenue metering security . . . . . . . . . . . . . . . . . . . . . . . . . . . 68
meter security . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Configuring advanced security using ION Setup . . . . . . . . . . . . . . . . . . . . . . .
Step 1: Set basic security options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Step 2: Configure communications protocol lockout options . . . . . . . . . . .
Communications protocol lockout examples . . . . . . . . . . . . . . . . . . . . . . .
Step 3: Configure users . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Configuring advanced security using ION Enterprise . . . . . . . . . . . . . . . . . . . .
Device security access for ION Enterprise services . . . . . . . . . . . . . . . . . . . . .
Hardware-lock security option . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 68
Locked module listings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 69
Anti-tamper sealing methods . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 69
Scaled
operational values . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 70
Configuring scaled operational values . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 72
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Meter security features
Your meter includes the following security features:
Standard meter security
Anytime you make configuration changes to your meter, you must enter a
password. Standard security is enabled by default from the factory. See “Standard
meter security” on page 55.
Advanced meter security
Advanced security allows you to:

Enable or disable Modbus, front panel and web programming.

Configure communications lockouts to limit the number of invalid login attempts
permitted for each protocol and set the priority of associated meter events.

Add up to 16 users, each with unique access privileges.
See “Advanced meter security” on page 60.
Revenue meter security
Your revenue meter can be protected by hardware-lock security and anti-tamper
sealing. See “Additional revenue metering security” on page 68.
Software security
ION Enterprise or ION Setup software security brings access-level security to the
meter. With ION Enterprise or ION Setup, you can configure multiple users with
different passwords and specify access rights. ION Enterprise or ION Setup
software security only applies to users who are accessing the meter using this
software.
For more information on ION Enterprise or ION Setup software security, refer to
the ION system security technical note.
Time synchronization security considerations
Depending on ION Enterprise or ION Setup security settings, a workstation that
connects to an ION8650 device may send a time synchronization signal to
synchronize the meter's internal clock with the workstation's clock. This can cause
overlaps in the Demand intervals, and timestamps in the data logs may not be
accurate.
The Time Sync Source setup register, located in the Clock module, identifies the
only communications port that will accept time synchronization broadcasts. You
can configure this setup register through ION Setup or through the Designer
component of ION Enterprise.
Refer to the Time Synchronization & Timekeeping technical note for more
information on implementing time synchronization.
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Standard meter security
Standard meter security is enabled by default on all ION8650 meters; all
configuration functions are password-protected.

If you make configuration changes to the meter using the front panel, the meter
prompts you for its password before accepting any configuration changes. You
do not need to re-enter the password for each subsequent change. However, if
you perform no additional configuration changes for five minutes, the meter exits
setup mode; to make any further changes, you will need to re-enter the Setup
menu and provide the valid meter password.

If you make any configuration changes using ION Setup or ION Enterprise
software, you are prompted by the meter for its password (in addition to the
password used to access the software).
After you enter the correct meter password and confirm the new configuration, the
change is set on the meter.
The default meter password is 0 (zero). It is recommended that you change this
password before putting the meter into service.
Configuring standard meter security using the front panel
This section describes the password security options available to front panel users.
Step by step instructions are provided on the following procedures:

Entering the meter password.

Changing the meter password.

Disabling (and enabling) the password security check.
Entering the password
The first time you attempt to change any setting, you are presented with the
password screen (shown below). After you enter the correct password, you do not
have to re-enter it for other any other changes unless you exit the configuration
session.
ENTER PASSWD
HOLD ARROW KEY TO MOVE CURSOR
To enter the password:
1. Use the arrow buttons to change the value of the highlighted digit. The up
arrow increments the number and the down arrow decrements it.
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2. Hold down an arrow button for about one second to change the position of the
cursor. The up arrow moves the cursor left one position and the down arrow
moves the cursor right one position.
3. Press the ALT/ENTER button once you have the value that you want.
Changing the password
By default, the password is set to 0 (zero) in the factory. The password can be
changed to any number up to eight digits long. It is highly recommended that you
change the password from the default value.
To change the password:
1. Hold down the ALT/ENTER button to access the SETUP menu.
2. Use the up and down arrows to highlight SECURITY then press the ALT/
ENTER button.
3. Use the up and down arrows to highlight MODIFY PASSWD then press the ALT/
ENTER button.
4. Enter the current meter password when prompted (see “Entering the password”
on page 55). After you enter the password, you are able to modify the password:
MODIFY PASSWD
5. Use the up and down arrow buttons to change the value of the highlighted digit.
The up arrow increments the number and the down arrow decrements it.
6. Hold down an arrow button for about one second to change the position of the
cursor. The up arrow moves the cursor left one position and the down arrow
moves the cursor right one position.
7. Press the ALT/ENTER button once you have the value that you want. You are
prompted for your current password before the new password is saved.
Enabling and disabling the password security check
Disabling the password security check allows changes to all the meter's settings
through the front panel and software without a security check. This procedure may
be necessary in some rare cases (for example, if the communications interface you
are using does not support the meter’s security protocols).
NOTE
It is highly recommended that any devices in the field have the password security check enabled. Nonsecure access to critical settings in the meter, such as PT and CT ratios, is not advisable.
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Disabling the password security check
To disable the password security check:
1. Press the ALT/ENTER button to enter the SETUP menu.
2. Use the arrow buttons to scroll down the menu and select SECURITY, then
press ALT/ENTER.
3. Enter the valid meter password at the password prompt. You are then presented
with the SECURITY menu.
4. Use the arrow buttons to scroll down the menu and select DISABLE SECURITY
then press the ALT/ENTER button.
5. Select PROCEED, then select YES at the prompt to confirm the change.
Your meter’s password is now disabled; changes to settings in the meter do not
require a valid password. To re-enable the password security check, see
“Enabling the Password Security Check”, below).
6. Press the ALT/ENTER button to return to the SETUP menu.
Enabling the password security check
When you re-enable the password security, you are required to enter a new
password.
To re-enable password security:
1. Press the ALT/ENTER button to enter the SETUP menu.
2. Use the arrow buttons to scroll down the menu and select SECURITY, then
press ALT/ENTER.
3. Select MODIFY PASSWD then press the ALT/ENTER button.
The message FAC DEFAULT appears in the middle of the screen. If you want
to use the factory default password, press the ALT/ENTER button. If you want
to set the password to a different number, use the instructions in “Changing the
password” on page 56.
4. Press the ALT/ENTER button after you enter your new password.
5. Select YES to confirm the change and return to the SETUP menu.
The password security check is re-enabled, and all changes to the device's
configuration require the new meter password.
Resetting the password
In the event that you forget or lose your meter password, you can reset the
password to the factory default value of 0 (zero). Resetting the password requires
that the meter be in TEST mode.

If your meter has the password security check disabled, you can put the meter
into TEST mode using ION Enterprise or ION Setup.

If your meter has the password security check enabled (or your meter has the
hardware lock security option), you must remove the meter's outer cover to
access the TEST mode button.
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Refer to “Switching to TEST mode” on page 189 for details on putting the meter
into TEST mode.
Follow these instructions to reset the password to the factory default:
1. Put your meter into TEST mode.
2. Press and hold down the ALT/ENTER button and the demand reset switch
simultaneously.
A message appears on screen stating that the password has been reset to the
default. Password security is now enabled and the meter password is 0 (zero).
Enabling and disabling web configuration
By default, remote configuration of the device via web browser is enabled. Follow
these steps to enable or disable the ability to configure your meter over the web:
1. Press the ALT/ENTER button to enter the SETUP menu.
2. Use the arrow buttons to scroll down the menu and select SECURITY, then
press ALT/ENTER.
3. Enter the valid meter password at the password prompt. You are then presented
with the SECURITY menu.
4. Use the arrow buttons to scroll down the menu and select WEB CONFIG, then
press the ALT/ENTER button.
5. Select ENABLED or DISABLED as appropriate then press ALT/ENTER.
6. Select YES to confirm the change and return to the SETUP menu.
Configuring standard meter security in ION Setup
In ION Setup:
1. Open the Setup Assistant for your meter. See the ION Setup Help for
instructions
2. Select the Security screen.
3. Select Security Mode from the Security tab and click Edit. The Open File dialog
box appears.
4. Select the Standard.scf file and click Open to edit. The Standard Options
dialog box appears.
5. Select the check boxes of the security options you want to enable. Some options
may be unavailable because of existing security settings.
To change the password, enter a new meter password and then confirm it by
entering it again.
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NOTE
Changing communications port settings with the Allow Front Panel programming check box cleared
(unchecked) can cause loss of communications with your meter and render it inoperable. In this case a
factory reconfiguration of your meter is required, which resets your meter to its factory defaults and
destroys all logged data.
6. Click Finish when you are done. A prompt appears asking if you want to save
your security settings in a file.


Click Yes to save the settings. Enter a new name for your security file (you
cannot use Standard.scf) and click Save.
Click No if you want to cancel the changes you made.
Configuring standard meter security in Designer
1. Open your meter in Designer. Ensure that you log in with Supervisor access
and that the Toolbox is displayed.
2. Select Options > Change Standard Meter Security.
3. Enter the meter password when prompted. You must enter the existing meter
password before you can change security settings (the default is zero).
4. Type a new numeric password in the Password field and confirm it by re-typing
the password in the Confirm Password field. If you are sure you want to disable
standard security, select the Disable Standard Meter Password check box.
NOTE
Do not disable security unless it is absolutely necessary. Disabling standard security leaves your meter
configuration open to tampering (intentional or unintentional) through communications and the front
panel.
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Advanced meter security
Advanced meter security is available on ION8650 meters. Advanced security
allows you to:

Enable or disable Modbus, front panel and web programming.

Add up to 16 users, each with unique access privileges.

Configure communications protocol lockouts to limit the number of invalid login
attempts permitted for a user using a particular password, protocol and
communications method combination and set the priority of login-related meter
events.
NOTE
Use ION Enterprise or ION Setup (version 1.1 and later) to configure advanced security. ION Setup has
a Setup Assistant that guides you through advanced security setup.
Entering an advanced security user name and password
When you attempt to view data or make a change to a meter that has advanced
security enabled, you are prompted for a user name and password.
.
1. Select a user or enter a valid advanced security user name.
NOTE
User names are fixed as USER01 through to USER16.
2. Enter the appropriate password and click OK.
Configuring advanced security using ION Setup
In ION Setup:
1. Open the Setup Assistant for your meter. See the ION Setup Help for
instructions.
2. Select the Security screen.
3. Select Security Mode from the Security tab and click Edit. The Open dialog
box appears.
4. Select the Advanced.scf file and click Open to edit. The Advanced Options
dialog box appears. Use the screens to configure:
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
Basic security options, such the front panel password and whether or not
web programming is allowed. See “Step 1: Set basic security options” on
page 61.

Communications protocol lockout settings. See “Step 2: Configure
communications protocol lockout options” on page 61.

Users and their access rights and passwords. See“Step 3: Configure users”
on page 64.
Step 1: Set basic security options
1. Select the check boxes of the security options you want to enable. Some
options may be unavailable because of existing security settings. To change
the front panel password, enter a new meter password and then confirm it by
entering it again.
NOTE
Changing communications port settings with the Allow Front Panel programming check box cleared
(unchecked) can cause loss of communications with your meter and render it inoperable. In this case a
factory reconfiguration of your meter is required, which resets your meter to its factory defaults and
destroys all logged data.
2. Click Next. The Select protocol lockout options screen appears; see “Step
2: Configure communications protocol lockout options” on page 61.
Step 2: Configure communications protocol lockout
options
The communications protocol lockout advanced security feature allows you to set
the number of invalid login attempts each user (in this case, user is a single user
and password combination) can make using a particular protocol and
communications method before being locked out. For session-based (such as ION
and HTTP), you can configure how often the meter registers invalid login attempts.
You can also configure the lockout duration for all configurable protocols.
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Once a user is locked out, the meter will not accept login attempts from that user
on that protocol and communications method until the lockout duration has passed.
For example, once USER01 has been locked out using ION over Ethernet,
USER01 cannot access the meter using ION over Ethernet until the lockout
duration has passed, even if USER01 enters the correct password. However, if the
user enters the correct USER/password combination before being locked out, the
invalid attempt counter is reset to 0.
You can also configure the event priority for meter access and protocol lockout
events, so that they can be viewed in the meter’s event log.
Configuring communications protocol lockout
See “Communications protocol lockout examples” on page 63 for examples of how
these settings affect login and communications.
1. Select the check boxes beside the protocols for which you want to enable
communications protocol lockout.
2. Highlight a selected protocol and click Edit to modify the lockout values for that
protocol.

Invalid logins specifies the number of invalid login attempts allowed per
user/password combination before access is denied to that user using that
protocol and communications method.

Session timeout specifies the active session duration for a protocol; during
this time, repeated invalid login attempts using the same USER/password
combination are not registered (repeated invalid attempts with different
combinations are still registered). This only applies to session-based
protocols which send credentials with each packet. Configuring this setting
prevents accidental lockouts and the meter’s event log from being filled with
protocol access events, if logging of these events is enabled.
Click OK. Repeat for all protocols on which you want to enable communications
protocol lockout.
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3. Type the lockout duration, in minutes. The lockout duration specifies how long
the meter ignores communication attempts by a user that is locked out. The
lockout duration value applies to all lockout-enabled protocols.
Once a user is locked out, the user cannot access the meter using the same
protocol and communications method, regardless of whether or not the user
enters the correct USER/password combination.
4. Click Events to enter the event priority for valid login attempts, invalid login
attempts and protocol lockouts. The event priorities apply to all lockout-enabled
protocols. Enter 0 (zero) to disable event logging for a particular type of login
attempt.
5. Click Next. The Define individual users/passwords screen appears. See
“Step 3: Configure users” on page 64.
Communications protocol lockout examples
In the following examples:


The configured users and their valid passwords are:

USER01/password 11

USER02/password 22
For the ION protocol:



Protocol Lockout is configured to allow 3 invalid login attempts by a
particular user/password combination before locking the user out.
Session timeout is set to 30 minutes.
For all protocols that can be locked out:

Lockout duration is set to 1440 minutes (one day).

The meter is configured to log invalid event entries.
Scenario 1
This example illustrates what happens when a user repeatedly enters the same
incorrect password when attempting to access the meter.
1. An access attempt is made using ION over Ethernet by USER01 but with a
password of 0.
The user is informed of the invalid attempt and cannot access the meter. The
invalid attempt is logged in the event log and the counter of invalid attempts is
incremented to 1.
2. The user attempts to access the meter again 10 minutes later with USER01/
password 0.
The user cannot access the meter but the event is not logged and the counter of
invalid attempts is not incremented, because the session timeout has not
elapsed.
3. The user attempts to access the meter again with the invalid USER01/password
0 combination 30 minutes after the initial attempt.
Because the session timeout has elapsed, the event is logged and the counter
of invalid login attempts is incremented to 2.
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
If the user attempts to login again after 30 minutes has elapsed with the
same invalid USER01/password 0 combination, the event is logged and the
counter of invalid attempts is incremented to 3. USER01 is locked out for the
duration of the lockout time (1440 minutes), and cannot connect to the meter
using ION over Ethernet, regardless of whether or not they subsequently try
to login with the correct user/password combination. That USER can access
the meter through another communications method (for example, ION over
serial) if they enter the correct USER/password combination.

If the user attempts to login with USER01/password 11, the access is
allowed and the invalid login counter is reset to 0.
Regardless of the invalid attempts of USER01, USER02 can access the meter
using ION over Ethernet if they enter the correct password; they are not affected
by the lockout.
Scenario 2
This example illustrates what happens when different invalid combinations of user
and password are entered.
1. An access attempt is made using ION over Ethernet by USER01 but with a
password of 0.
The user is informed of the invalid attempt and cannot access the meter. The
invalid attempt is logged in the event log and the counter of invalid attempts is
incremented to 1.
2. The user attempts to access the meter again with USER01/password 3.
The user is informed of the invalid attempt and cannot access the meter. In this
case, this is considered a new invalid attempt because it is a different
combination of user and password. It is logged in the event log and the counter
of invalid attempts is incremented to 2.
3. The user attempts to access the meter again with USER01/password 4.
The user is informed of the invalid attempt and cannot access the meter. Once
again, this is considered a new invalid attempt and it is logged in the event log
and the counter of invalid attempts is incremented to 3.
USER01 is locked out for the duration of the lockout time (1440 minutes), and
cannot connect to the meter using ION over Ethernet, regardless of whether or
not they subsequently try to login with the correct user/password combination.
USER01 can access the meter through another communications method (for
example, ION over serial) if they enter the correct USER/password combination.
Regardless of the invalid attempts of USER01, USER02 can access the meter
using ION over Ethernet if they enter the correct password; they are not affected
by the lockout.
Step 3: Configure users
Advanced security allows configuration of up to 16 users, each with unique access
rights to the meter.
1. Select the check boxes of the users you want to configure (USER01 through
USER16). Select the appropriate access for each user:
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
Timesync: set the time on the meter.

Read: view any parameter except the security configuration.

Peak Demand Reset: perform a reset of peak demand values (for example,
sliding window demand for kW, kVAR, kVA etc.).

TEST Mode: put the meter into Test mode.

Full Meter Configuration: configure any programmable register on the
meter except for registers related to the security setup, registers that result
in a demand reset, or actions that place the meter in Test mode.

Security Configuration: configure advanced security for the meter; full
meter configuration must also be set to YES.
When configuring users, in most cases, you must set Read access to YES.
However, you can set up a user without read access; for example, you can
create a user who can only timesync the meter. In some cases (such as
advanced security configuration access), you must set multiple access options
to YES. When you are configuring advanced security, the software rejects
unacceptable or unsecure user configurations.
2. Select a user, then click Password to set a password for that user. Type the
password in the New password and Confirm new password fields and click
OK.
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3. Click Finish when you are done configuring users. A prompt appears asking if
you want to save your security settings in a file.


Click Yes to save the settings. Enter a new name for your security file (you
cannot use Advanced.scf) and click Save.
Click No if you want to cancel the changes you made.
Configuring advanced security using ION Enterprise
1. Open your meter in Designer. Ensure that you log in with Supervisor access
and that the Toolbox is displayed.
2. If you do not want to allow front panel programming using the standard security
meter password, double-click on the Display Options module and change the
Front Panel Programming register to disallowed.
If you allow front panel programming when you set up advanced security, the
meter password (used in standard security) is still active through the front panel.
You may need to allow front panel programming if someone installs the meter in
the field and needs to make setup modifications. After the meter is installed, you
can disallow front panel programming so that advanced security user names and
passwords must be used to view or change meter information.
NOTE
Changing communications port settings with the Allow Front Panel programming setting disabled can
cause loss of communications with your meter and render it inoperable. In this case a factory
reconfiguration of your meter is required, which resets your meter to its factory defaults and destroys all
logged data.
3. Double-click on the Meter Security Setup folder.
For each user that you want to configure, drag out a Security User module from
the Toolbox and modify the appropriate access level setup registers.
4. Click Change Password at the bottom left of the module setup screen to
configure a password. The default password is 0 (zero).
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Click OK after you configure the user settings.
5. Right-click on the Security Options module.
6. Double-click the setup register you want to edit and use the dropdown menu to
change the register setting.
You must set the Enable Advanced Security register to Enabled. Refer to the
Security Options module description in the ION Reference for more details.
After you configure the security options, click OK.
7. Click File > Send & Save. Advanced security is now enabled on the meter.
Device security access for ION Enterprise services
If you are using your meter with ION Enterprise, many ION Enterprise services
need constant access to the meter. These services include the ION Log Inserter
Service, the ION Virtual Processor Service and ION Site Service.
When advanced meter security is enabled, these services may not have sufficient
access rights to perform their operations. You must specify a user with sufficient
access rights for these services.
For more information on these services, see the online ION Enterprise Help.
NOTE
You can configure a separate user for accessing services. If you encounter difficulties with
ION Enterprise accessing the meter, it is likely that these services either do not have access rights or
the original user name and password have changed. The user configured to allow the services access
to the meter may also be locked out as a result of invalid login attempts; see “Advanced meter security”
on page 60.
Allowing ION Enterprise services access to meters with advanced security
enabled
1. Start Management Console and click Devices in the System Setup Pane.
2. Select the device (or select multiple devices) that has advanced security
enabled, right-click and select Security. The Meter Security Settings dialog
box appears.sti
3. Select the username you want from the dropdown list. The Change Password
button becomes active. Select the check box if you want to allow this user to
send time synchronization signals to the meter. Click OK.
4. Enter the valid password, re-type the password to confirm and click OK.
Allowing ION Enterprise services access to meters with standard security
enabled
ION Enterprise services can automatically access meters with standard security
when the meter is added to Management Console.
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Additional revenue metering security
To meet government regulations and utility security requirements, the ION8650
revenue meter incorporates additional security elements:

a hardware-locked security system that prevents modification of revenue
quantities after the meter is sealed.

traditional anti-tamper mechanical seals on the meter base unit and reset switch.
Hardware-lock security option
The hardware-locked security feature is an ordering option for some ION8650
meters that locks the ION module parameters specific to revenue data, so that
these parameters cannot be altered. This hardware lock is factory set. To make
configuration changes to billing parameters on a hardware-locked meter, you must
first place the meter into TEST mode. The TEST mode button is located under the
anti-tamper sealed outer cover, and the cover must be removed to access the
TEST mode button. This button cannot be activated remotely with a hardwarelocked meter.
Press this button to
enter TEST Mode
The hardware-lock option, when combined with standard and advanced security
(front panel password) and physical anti-tamper sealing, offers the highest level of
security. Hardware-locked meters operate as follows:

With the meter in Normal mode, and with standard or advanced security applied,
ION modules that generate revenue data are locked and cannot be altered.
Users can modify unlocked ION modules depending on their level of passwordprotected access through software or the front panel.

With the meter in TEST mode (which requires removing the cover and breaking
the anti-tamper seals), users can modify ION modules depending on their level
of password-protected access through ION Enterprise, ION Setup or the front
panel.
Typical values that are hardware locked include:
68

kWh, kVARh, kVAh delivered, received, del-rec, del+rec.

kW, kVAR, kVA Sliding Window demand min and max values.
© 2011 Schneider Electric. All rights reserved.
ION8650 User Manual
Chapter 6 - Security

Digital Outputs controlling the energy pulsing applications.

All Power system settings, including PT and CT ratios.
Locked module listings
For a complete list of locked modules specific to your meter and its firmware, see
the ION Device Template Reference.
Anti-tamper sealing methods
The following sections describe the anti-tamper sealing methods used by the
ION8650 meter.
Demand reset switch seal
The demand reset switch located on the front panel can be sealed by a wire seal
or lock inserted through the side of the switch. This seal does not have to be broken
to remove the meter's cover.
Socket seals
A standard ANSI C12.7 type socket-sealing ring can be in place to hold the meter
to the socket. When removing the outer cover, the sealing ring must first be
removed. Some socket sealing rings facilitate wire seals.
Outer cover seals
The outer cover of the meter is factory sealed to its backplate with a T-type seal.
Depending on the installation, this seal may be inaccessible after the meter is
installed until you remove the device from the socket.
NOTE
In certain countries the meter is no longer revenue certified if the anti-tamper seals are broken.
Socket
Outer cover
Demand reset
switch seal
© 2011 Schneider Electric. All rights reserved.
Socket
sealing ring
Outer cover
T-type seal
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Scaled operational values
The scaled operational values (SOV) feature is intended for hardware-locked
meters where the Power Meter module’s PT and CT ratios are 1:1.
The SOV feature allows you to enter alternate PT and CT values through the Vista
component of ION Enterprise, in order to obtain scaled non-revenue data for
analysis. The alternate scaling registers are stored in the Factory module and have
a default value of 1.
The Power Meter module’s PT and CT primary and secondary values are
compared against the Factory module’s alternate values by a series of Arithmetic
modules. The Arithmetic modules determine if the SOV feature is enabled (the
Power Meter module’s scaling ratios are all 1:1).

If the SOV feature is disabled, the Arithmetic modules output the Power Meter
module’s PT, CT, and kVA ratios.

If the SOV feature is enabled, the Arithmetic modules output the alternate PT,
CT, and kVA ratios. These ratios are applied to the outputs of the MU (Metering
Units) Power Meter module to generate scaled operational values. The scaled
operational values can be viewed and analyzed using the Vista and Web
Reporter components of ION Enterprise.
NOTE
Scaled operational data can only be accessed through ION Enterprise.
The following diagram shows how scaled operational values are generated.
Alt PT Prim
Factory Module
Alt PT Primary
= 240
Alt PT Secondary
= 120
Alt PT Sec
Alt CT Prim
Alt CT Sec
Power Meter
Module
PT Prim
Alt PT Primary
= 1200
Alt PT Secondary
= 120
CT Prim
Two Arithmetic modules are
used: SetRatios1 and SetRatios2
Arithmetic
Module
Source
PT Ratio = 2:1
PT Sec
CT Sec
SOV On
Four Arithmetic modules are used:
ScaledOpVals1 thru ScaledOpVals4
PT Ratio
CT Ratio
kVA Ratio
ION Enterprise Server
Arithmetic
Module
Source
Vln a = 60 V
MU Power
Meter Module
Vln a = 30 V
1. Alternate PT and CT primary and secondary values are loaded into the first
series of Arithmetic modules.
Example: Alternate PT Primary = 240, Alternate PT Secondary = 120
2. Power Meter PT and CT primary and secondary values are loaded into the first
series of Arithmetic modules.
Example: PT Primary = 120, PT Secondary = 120
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ION8650 User Manual
Chapter 6 - Security
NOTE
All the Power Meter module’s ratios must equal 1:1 to enable the SOV feature.
3. Because the Power Meter module’s ratios are 1:1, the alternate scaling registers
are used to generate the PT, CT, and kVA ratios, which are loaded into the
second series of Arithmetic modules.
Example: PT ratio = 2:1
4. MU Power Meter module per phase voltage, current and energy values, and
total/average voltage, current and energy values are loaded into the second
series of Arithmetic modules.
Example: VLN a = 30 V
5. The second series of Arithmetic modules apply the PT, CT, and kVA ratios to the
MU Power Meter values to output operational scaled values to your
ION Enterprise database.
Example: VLN a = 60 V
The following 1-second data values are scaled by the SOV feature.
Vln a
Vln b
Vln c
Vln avg
Vll ab
Vll bc
Vll ca
Vll avg
Ia
Ib
Ic
I avg
kW a
kW b
kW c
kW total
kVAR a
kVAR b
kVAR c
kVAR total
kVA a
kVA b
kVA c
kVA total
The following are derived from scaled operational data values:

Maximum/minimum,

Historic high/low/mean, and

Waveforms.
NOTE
The Sag/Swell and Transient modules are not affected by the SOV feature. The nominal voltage
register in the Sag/Swell module must be set to the unscaled voltage value.
The Harmonics Measurement module outputs are only scaled by the SOV feature
when the Display Mode register is set to Engineering units. No other harmonics
modules are affected.
Because total harmonic distortion (THD), total even harmonic distortion (TEHD)
and total odd harmonic distortion (TOHD) are expressed as percentages, these
values are not affected by the SOV feature.
© 2011 Schneider Electric. All rights reserved.
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Configuring scaled operational values
You can configure the alternate PT and CT values in the Vista component of
ION Enterprise.
1. Open your meter in Vista.
2. Select the Power Quality tab and click the Setup icon to open the Power
Quality Setup screen.
The Power Quality Setup screen contains fields where you can enter the
alternate scaling register values, along with an indicator showing whether the
SOV feature is enabled or disabled.
NOTE
The alternate scaling registers are set to 1 by default.
3. Enter the alternate PT and CT values to provide the desired scaling.
When the SOV feature is enabled and the alternate PT and CT values are
configured (no longer equal to 1), the Vista screens indicate if the data values
displayed are scaled operational values or not.
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© 2011 Schneider Electric. All rights reserved.
Chapter 7
Communications
This chapter includes general instructions for connecting and configuring all the
communication ports on your meter.
For specific installation steps and meter specifications, consult your
ION8650 Installation Guide.
NOTE
If you cannot communicate as expected with an ION8650C, ensure that you have enabled the
communications port that you are using and that you have power cycled the meter. See “ION8650C
communications options” on page 76 for more information.
In this chapter
Communications
overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 74
Communications
options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 75
ION8650C communications options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 76
Serial
connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 79
RS-232 connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 79
RS-485 connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 81
Configuring the optical port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 84
Configuring
Ethernet connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 86
Configuring EtherGate connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 87
Using FTP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 89
Internal
© 2011 Schneider Electric. All rights reserved.
modem connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 91
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Communications overview
The following illustration shows the connections to the communications card.
Back view of ION8650
Communications wiring
on breakout panel
Communications
wiring on switchboard
Ethernet 10Base-T: RJ45
connector. See
“Configuring Ethernet
connections” on page 86.
ANSI Type II
Magnetic Optical
Communications
Coupler on COM3.
This port is located
on the front panel.
See “Configuring the
optical port” on
page 84.
74
Modem on COM2:
RJ11 male
connector. See
“Internal modem
connections” on
page 91.
Optional communications
breakout cable for serial
communications. Ordered
separately.
COM1: RS-232 or RS-485.
COM4: RS-485.
See “Communications
breakout cable” on
page 83.
Serial COMs and
Expanded I/O: Molex
Micro-Fit 24 pin male
connector. See
“Communications
options” on page 75.
IRIG-B GPS Time
Synchronization.
Optional I/O Expander for serial
communications (and expanded I/O).
Ordered and shipped separately. For
more information, see the
I/O Expander documentation.
Serial COMs
COM1: RS-232 or RS-485
COM4: RS-485
© 2011 Schneider Electric. All rights reserved.
ION8650 User Manual
Chapter 7 - Communications
Communications options
ION8650 meters have numerous communication possibilities depending on your
ordering options and, in the case of the ION8650C, the enabled communications
ports. Not all models have exactly the same communications options available.
Contact your Schneider Electric sales representative for the latest ordering options
and documentation. You can use all communications ports simultaneously on the
ION8650A and ION8650B; you can use the front optical port plus two other ordered
communications ports simultaneously on the ION8650C.
Socket and switchboard meters communication
options
Port
Available options
Notes
COM1
RS-232 / RS-485
User selectable RS-232 or RS-485
COM2
Internal Modem RJ11
Maximum 57.6 kbps baud rate modem
COM3
Optical Port
ANSI Type II optical port located at front of meter
COM4
RS-485
Network
Ethernet RJ45 (10Base-T)
IRIG-B
Captured wire connector
Format is unmodulated IRIG-B time code
Optional switchboard breakout panel communication
options
See the ION8650 switchboard installation guide for wiring instructions..
Connector type
A
B
C
D
A
I/O Expander (option)
B
Onboard I/O (option)
G
C
COM1 RS-485
H
D
COM4 RS-485
E
COM1 RS-232
F
IRIG-B
G
Modem (option)
H
Ethernet (option)
I
Auxiliary power (option)
F
I
E
NOTE
The communications ports on an I/O Expander are not enabled when connected to a breakout panel.
Use the RS-485 and RS-232 provided on the breakout panel.
© 2011 Schneider Electric. All rights reserved.
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Chapter 7 - Communications
ION8650 User Manual
Communications accessories
The following accessories are currently available as separate products:
I/O Expander
The I/O Expander connects with the male Molex connector on the meter to provide
I/O capabilities as well as access to standard serial communications ports. Refer
to the I/O Expander Installation Guide for details about this device.
Communications breakout cable
The communications breakout cable connects with the male Molex connector on
the meter. This is a pre-made cable that provides access to the standard serial
communications ports on the meter.
Molex extension cables
Molex extension cables can be ordered in both 5 and 15 feet (1.5 or 4.5 meter)
lengths.
Optical probe
The optical probe attaches to the optical port on the front of the meter and allows
on-site communications (for example, with a laptop computer).
ION8650C communications options
The ION8650C supports concurrent communications on the optical port (COM3)
and a maximum of two other communications ports for a total of three simultaneous
communications connections. If your ION8650C has three communications ports
enabled, you must disable one of the active communications ports before you can
enable another one in its place. For example, if you have an ION8650C with
optional Ethernet enabled, you must disable the Ethernet port in order to
communicate over both serial ports (COM1 and COM4).
The default settings vary depending on your order option. See your meter’s
Installation guide for details.
NOTE
Switching the active communications ports requires a meter reboot before the changes can take effect.
Enabling and disabling ION8650C communications ports using the front
panel
1. Press the ALT/ENTER button to enter the SETUP menu.
1. Use the arrow buttons to scroll down the menu and select ENABLED COM
PORTS, then press ALT/ENTER. Select CONTINUE and press ALT/ENTER
when prompted.
2. Select the active communications port you want to disable (for example,
Ethernet) and press ALT/ENTER. Select DISABLED and press ALT/ENTER. If
prompted, enter the meter password to confirm the change.
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ION8650 User Manual
Chapter 7 - Communications
3. Select the communications port you want to enable (for example, COM1) and
press ALT/ENTER. Select ENABLED and press ALT/ENTER. Confirm the
change if prompted.
HAZARD OF UNINTENDED OPERATION
• Do not use the meter for critical control or protection applications where human or
equipment safety relies on the operation of the control circuit.
• Be aware that an unexpected change of state of the digital outputs may result when the
supply power to the meter is interrupted or after a meter firmware or template upgrade.
Failure to follow these instructions can result in death, serious injury or equipment
damage.
4. Select REBOOT and press ALT/ENTER. Enter the meter password and confirm
the change if prompted. This power cycles the meter and applies the change.
NOTE
Select UNDO & RETURN to exit the ENABLED COM PORTS setup menu without making any changes.
Your meter will not reboot.
Enabling and disabling ION8650C communications ports using ION Setup
NOTE
You must manually power cycle the meter to have the changes take effect.
1. Select Communications > Port Settings and click the Enabled Ports tab.
2. Select an available port to enable or disable.

© 2011 Schneider Electric. All rights reserved.
You can only enable or disable communications ports that were ordered with
the meter. Ports that were not ordered appear in the list as Not Installed (in
the graphic above, COM2 was not ordered).
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ION8650 User Manual

The front optical port is always enabled and cannot be disabled.
Click Edit. Enter the meter password, if prompted. The Set Enabled Ports
dialog box appears.
3. Select a checkbox to enable a listed port or clear a checkbox to disable a listed
port. You can enable a maximum of two of the ports listed in the dialog box.
4. Click OK to return to the Setup Assistant. Changes will take effect the next time
the meter is power cycled, either manually or in a power outage.
HAZARD OF UNINTENDED OPERATION
• Do not use the meter for critical control or protection applications where human or
equipment safety relies on the operation of the control circuit.
• Be aware that an unexpected change of state of the digital outputs may result when the
supply power to the meter is interrupted or after a meter firmware or template upgrade.
Failure to follow these instructions can result in death, serious injury or equipment
damage.
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ION8650 User Manual
Chapter 7 - Communications
Serial connections
The ION8650 provides RS-232 and RS-485 serial communications connections,
located on the back of the meter, as well as an optical port, located on the front of
the meter.
Refer to the ION8650 Installation Guide for information on determining the serial
port options available on your meter.
If the meter’s COM1 port is set to RS-232, you can connect this port to a remote
modem, which in turn is connected to a computer. You must use a null-modem RS232 cable to connect the meter to an external modem. One end of the cable must
be equipped with a Micro-Fit 3.0 Molex female connector for mating with the Molex
male connector on the meter.
You can connect numerous meters’ COM1 ports by selecting RS-485 and using an
RS-232 to RS-485 converter to create a serial network.
NOTE
You cannot use both RS-232 and RS-485 ports on the meter’s COM1 simultaneously.
You can configure your local and remote modems with ION Enterprise or
ION Setup. You can also use ION Setup or ION Enterprise to schedule regular
connection times to collect meter data.
Extension cables with Molex connectors are available for your meter. Pin
assignments for the Molex connector are provided in the ION8650 Installation
Guide that ships with the meter (also available at www.schneider-electric.com).
NOTE
The total number of possible serial connections is limited by the number of physical serial ports on the
meter. The meter has two physical serial ports (not counting the front optical port).
RS-232 connections
Refer to the ION8650 Installation Guide for the meter’s RS-232 specifications and
specific wiring instructions.
Because of the wiring configuration between pins 2 and 3, the meter is considered
a DTE (Data Terminal Equipment) device in all RS-232 connections. Please see
“Meter connections to single devices” on page 80.
© 2011 Schneider Electric. All rights reserved.
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ION8650 User Manual
DB9 null modem
wiring diagram
DCE
(computer)
DTE
(meter)
Communications settings for the RS-232 port are accessible through the front
panel SETUP menu, ION Enterprise or ION Setup.
Meter connections to single devices
A
A
DB9 direct connect to computer
B
DB9 direct connect to external modem
C
Molex direct connect to I/O Expander connected to
computer
D
Molex direct connect to I/O Expander connected to
external modem
B
C
D
Meter connections to a serial loop
A
A
RS-232
50 feet (15.2 m) maximum
B
RS-232 to RS-485 converter
C
RS-485 loop
B
C
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ION8650 User Manual
Chapter 7 - Communications
RS-485 connections
Refer to the ION8650 Installation Guide for RS-485 specifications and wiring
instructions.
The breakout cable’s twisted pair provide connections for both of the meter’s
RS-485 serial communications ports. The first set is for COM1 RS-485
connections. The second set is for COM4 RS-485 communications.
Up to 32 devices can be connected on a single RS-485 bus. Use a good quality
shielded twisted pair cable for each RS-485 bus, AWG 22 (0.33 mm2) or larger.
The overall length of the RS-485 cable connecting all devices cannot exceed 4000
feet (1219 m). The RS-485 bus can be configured in straight-line or loop
topologies.
Straight-line topology
Wiring color codes for the Molex cable
are provided in the ION8650
Installation Guide that ships with the
meter and is available at
www.schneider-electric.com.
RS-232 to
RS-485
converter
RT Termination
resistor
RT
Shield
Loop topology
Shield
RS-232 to
RS-485
converter
Termination
block
General bus wiring considerations
Devices connected on the bus, including the meter, converter(s) and other
instrumentation, must be wired as follows:

Connect the shield of each segment of the cable to ground at one end only.

Isolate cables as much as possible from sources of electrical noise.

Use an intermediate terminal strip to connect each device to the bus. This allows
for easy removal of a device for servicing if necessary.
© 2011 Schneider Electric. All rights reserved.
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
Install a ¼ Watt termination resistor (Rt) between the (+) and (-) terminals of the
device at each end point of a straight-line bus. The resistor should match the
nominal impedance of the RS-485 cable (typically 120 ohms – consult the
manufacturer’s documentation for the cable’s impedance value).
RS-485 connection methods to avoid
Avoid any device connection that causes a branch in the main RS-485 bus. This
includes star and tee (T) methods. These wiring methods can cause signal
reflections that can lead to interference. At any connection point on the RS-485
bus, no more than two cables should be connected. This includes connection
points on instruments, converters, and terminal strips. Following this guideline
ensures that both star and tee connections are avoided.
Avoid 3-way “Star”
connection point
Avoid 3-way “T”
connection point
RS-485 biasing
The RS-485 +/- wires are floating (ungrounded) so there can be voltage signals on
the wires even when there is no device communicating on the bus. The amount of
floating voltage depends on many factors, such as capacitive effects in the RS-485
bus and noise in nearby systems. If the floating voltage is high enough, it can be
incorrectly interpreted as an RS-485 signal and cause your meter to stop
communicating. The meter has an RS-485 biasing option to prevent the RS-485
bus from floating when devices are not sending data.
Setting RS-485 biasing using the front panel
1. Press and hold the ALT/ENTER button for a few seconds. The SETUP menu
appears.
2. Use the navigation buttons to highlight the RS-485 COM port that you want to
configure (COM1 or COM4) and press ALT/ENTER to select.
3. Use the navigation buttons to highlight RS-485 BIAS and press ALT/ENTER to
select.
4. Select either ON (RS-485 biasing applied) or OFF (RS-485 biasing not applied).
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Chapter 7 - Communications
Setting RS-485 biasing using ION Setup
In ION Setup:
1. Open the Setup Assistant for your meter. See the ION Setup Help for
instructions
2. Select Communications > Port Settings.
3. Click the COM1 or COM4 tab. Select RS-485 Bias and click Edit.
4. Select ON to apply RS-485 biasing or OFF to not apply RS-485 biasing.
5. Click OK.
Communications breakout cable
Refer to the ION8650 Installation Guide for the DB9 serial pin assignments for the
optional breakout cable female DB9 connector. A communications breakout cable
facilitates communications connections by connecting to the Molex male connector
on your meter. The cable splits to a standard DB9 female connector and two RS485 shielded, twisted pairs. Cable length is 152 cm (5 feet).
Molex male
from the meter
Two RS-485
twisted pairs
DB9 female
connector
RS-485 shield
Configuring RS-485
Using the front panel
1. Press and hold the ALT/ENTER button for a few seconds. The SETUP menu
appears.
2. Use the navigation buttons to highlight the RS-485 COM port that you want to
configure (COM1 or COM4) and press ALT/ENTER to select.
3. Configure the settings (for example, Protocol, Baud Rate and Unit ID) to match
your communication system.
© 2011 Schneider Electric. All rights reserved.
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Using ION Setup
In ION Setup:
1. Open the Setup Assistant for your meter. See the ION Setup Help for
instructions.
2. Select Communications > Port Settings.
3. Click the COM1 or COM4 tab and configure the settings (for example, Protocol,
Baud Rate, and Unit ID) to match your communications system.
Configuring the optical port
Refer to the ION8650 Installation Guide for optical port specifications.
The optical port available on ION8650 meters is compatible with standard
magnetic optical communications couplers, or optical probes (ANSI Type II).
Optical probes are available both from Schneider Electric and other suppliers as a
separate product; contact Schneider Electric for a list of suppliers. The original
equipment manufacturer’s warranty applies. See the Optical Magnetic Couplers
technical note for more detailed information.
Optical probes can communicate real-time measurements via the ION, RTU, DNP
3.0, Factory, or GPS protocols. You can configure the optical port communications
settings with the front panel, ION Enterprise or ION Setup.
Using the front panel
1. Press and hold the ALT/ENTER button for a few seconds. The SETUP menu
appears.
2. Use the up or down arrow buttons to select COM3 SETUP.
3. Press the ALT/ENTER button to access COM3 SETUP parameters.
4. Configure the settings (for example, Baud Rate, Unit ID, and Protocol) to match
your communications system.
Using ION Setup
In ION Setup:
1. Open the Setup Assistant for your meter. See the ION Setup Help for
instructions.
2. Select Communications > Port Settings.
3. Click the COM3 tab and configure the settings (for example, Baud Rate, Unit ID,
and Protocol) to match your communications system.
To enable communications from the optical port, you must configure the COM3
communications. The Protocol, Baud Rate and Unit ID settings must properly
match your system. When creating a site, ensure RTS Control setting is disabled
for the COM3 serial site.
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Chapter 7 - Communications
Using ION Enterprise
1. Open Management Console and add a Direct Site.
2. Set the Serial Port to COM3 and ensure that the settings properly match your
system. Ensure that RtsCts is disabled for the optical port site in Management
Console. Refer to the Management Console section of the online ION Enterprise
help for details.
© 2011 Schneider Electric. All rights reserved.
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Configuring Ethernet connections
This section only applies if your meter has the Ethernet option. Refer to the
ION8650 Installation Guide for Ethernet port specifications and information on
determining the options available on your meter.
Ethern
e
t
Ethernet connections are made via the RJ45 modular jack on the rear of the unit.
Use high quality Category 3, 4 or 5 UTP cable (RJ45 female to RJ45 male) if you
require an extension. The optional Ethernet port is capable of data rates up to 10
Mbps and supports TCP/IP, FTP, ION, Telnet, and Modbus/TCP protocols. The
meter supports a maximum of eight simultaneous Ethernet connections with
additional dedicated connections for Modbus master over TCP/IP and IEC 61850.
NOTE
Some features, such as IEC 61850 and COMTRADE, require that your meter has an Ethernet
connection.
Ethernet connections for the ION8650
TCP/IP Modbus master dedicated
TCP connection. Connect with up to
10 Modbus slave IP addresses.
Refer to “Third party protocols” on
page 97 for Modbus information.
8 simultaneous connections.
Protocols include ION, DNP and
Modbus/TCP.
IEC 61850 dedicated connection for
up to 5 IEC 61850 clients.
1 FTP connection.
SMTP server (email),
outgoing only.
You can configure Ethernet communications using the front panel, ION Enterprise
or ION Setup. In each case, you must configure the IP Address, Subnet Mask,
Gateway, SMTP Server and SMTP Connection Timeout to properly match your
system.
NOTE
The MAC addressof your meter cannot be changed, and is provided for information only.
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Chapter 7 - Communications
Using the front panel
1. Press and hold the ALT/ENTER button for a few seconds. The SETUP menu
appears.
2. Use the up or down arrow buttons to select NETWORK SETUP and press ALT/
ENTER.
3. Configure the Ethernet Communications settings (for example, IP Address,
Subnet Mask, Gateway and SMTP Server) to match your communications
system.
Using ION Setup
In ION Setup:
1. Open the Setup Assistant for your meter. See the ION Setup Help for
instructions.
2. Select Communications > Port Settings and click the Ethernet tab.
3. Select a setting and then click Edit. Configure the settings (for example, IP
Address, Subnet Mask, Gateway, SMTP Server and SMTP Connection
Timeout) to match your communications system.
Using ION Enterprise
After you wire your meter to the Ethernet network and perform basic setup, add the
meter to your ION Enterprise network using Management Console.
To enable communications through the Ethernet port, you must configure the
Ethernet Communications module. Start Designer and configure the IP Address,
Subnet Mask, Gateway, SMTP Server and SMTP Connection Timeout registers to
match your system.
Adding an Ethernet device to your ION Enterprise network
In Management Console, the Ethernet Device Options screen appears when you
add an Ethernet device (meter). Use this screen to describe your meter’s Ethernet
address and other communications information. Be sure to include:

the server computer that communicates with the Ethernet device.

the Ethernet device TCP/IP address.
Configuring EtherGate connections
The meter can function as an Ethernet gateway (EtherGate). EtherGate is a
powerful communications tool that lets you communicate through a gateway meter
to a serial network connected to the meter. When a meter installed on the Ethernet
network has EtherGate enabled, a master device (such as a workstation running
ION Enterprise) can communicate through the gateway meter to a serial network
of devices wired to the gateway meter’s COM port. The transfer of data between
protocols is handled automatically. EtherGate is available on serial ports COM1
and COM4 in place of the ION, Modbus Master, Modbus RTU, or DNP 3.00
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protocols. Withe EtherGate enabled, the meter permits the direct transfer of data
from up to 62 devices (31 devices per COM port).
A
B
A
Gateway meter
B
Ethernet
C
Serial devices connected to the gateway meter
C
Install the serial devices, configure them and connect them to your Ethernetconnected gateway meter. Ensure that each serial device is configured with the
same baud rate and has a unique Unit ID. Then use the meter’s front panel,
ION Enterprise or ION Setup to change the COM1 or COM4 Protocol setting to
EtherGate. You must then create an EtherGate site in ION Enterprise or
ION Setup, and add the serial devices to the EtherGate site. See The ION meter
as an Ethernet gateway technical note for more information on setting up an
Ethernet gateway.
Using the front panel to set the EtherGate protocol
1. Press and hold the ALT/ENTER button for a few seconds. The SETUP menu
appears.
2. Use the up or down arrow buttons to select the COM port that you want to
configure (COM1 or COM4) and press ALT/ENTER.
3. Scroll to PROTOCOL and press ALT/ENTER. Change the port’s PROTOCOL
setting to ETHERGATE.
4. Press ALT/ENTER to set the protocol.
Using ION Setup to create an EtherGate site
Follow the instructions below to communicate to the devices on the RS-485 loop
with ION Setup.
In ION Setup:
1. Right-click on your workstation icon and select Insert Item. The New Network
Item dialog box appears.
2. Select Site and click OK. The New Site dialog box appears.
3. Click the General tab.
4. Configure the site as follows:

88
Type a site name.
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ION8650 User Manual
Chapter 7 - Communications

Select Ethernet from the Comm Link options.

Select the Gateway check box.

Type the meter’s IP address and select a port in the Gateway Info fields. For
the port, select either 7801 for COM1 or 7802 for COM4.
Click OK.
5. Right-click on your newly created site and select Insert Item. The New Network
Item dialog box appears.
6. Select Meter and click OK. The New Device dialog box appears.
7. Enter serial device information here and click OK. Your new device appears
under your newly created site
8. Repeat steps 5 to 7 to enter each device on your serial network.
NOTE
Use a standard Ethernet connection in ION Setup to connect to and read data from your EtherGate
meter.
Using ION Enterprise to create an EtherGate site
Follow the instructions below to communicate to the devices on the RS-485 loop
with ION Enterprise.
In Management Console:
1. Create an Ethernet gateway site.
2. Configure your Ethernet gateway site with the IP address of the gateway meter.
Select the IP Port that matches the gateway meter’s COM port that is connected
to the RS-485 loop (select 7801 for COM1 or 7802 for COM4).
3. Add each of the devices on the RS-485 loop to the Ethernet Gateway site (you
do not need to add the gateway meter as a device).
NOTE
Use a standard Ethernet connection in ION Enterprise to connect to and read data from your EtherGate
meter.
Using FTP
The meter can function as an FTP server, supporting IEC 61850 protocols and
COMTRADE formatted waveform files. The FTP timeout period is 90 seconds on
a control port. Only one simultaneous FTP transfer connection is permitted. To
connect to your meter, ensure that your FTP software is configured to only use a
single FTP connection. The recommended FTP software is Windows Explorer or
WinSCP running on a Windows-based machine.
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NOTE
To connect to your meter using Windows Explorer, you must include the login and password in the FTP
connection string. For example, with standard meter security (no user configured) and the a front panel
password of 2, to connect to a meter with an IP address of 123.45.6.78, the Windows Explorer
connection string would be ftp://0:[email protected]
The meter communicates via FTP on the following ports:
Port
Description
21
Incoming commands connections
20
Active data connections
3000-3020
Passive data connections
File names are limited to ASCII characters that do not contain a blank space or /,
\, “, *, ?, <, >, and have a maximum length of 64 characters.
For more information about using FTP for IEC 61850 or COMTRADE, refer to the
IEC 61850 protocol and ION Technology protocol document or the COMTRADE
and ION Technology technical note.
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Chapter 7 - Communications
Internal modem connections
This section only applies if your meter has the internal modem option. Refer to the
ION8650 Installation Guide for internal modem specifications and information on
determining the options available on your meter
Telepho
ne netw
ork
The internal modem is accessed through COM2, supports all standard modem
protocols at transmission rates from 300 bps to 57600 bps (300 bps is only
recommended for paging applications) and can be shared by up to 31 devices on
an RS-485 chain. It is available with a standard six-pin RJ-11 phone plug. If you
have multiple meters linked on an RS-485 loop, only the first meter requires an
internal modem. This setup is referred to as a ModemGate (see “Configuring
ModemGate connections” on page 93).You can configure the settings of the
internal modem with the front panel, ION Enterprise or ION Setup.
To enable communications through the meter’s internal modem, configure the
COM2 communications Baud Rate, Unit ID, Protocol, and ModemInit setup
registers as required for your system. See “ModemInit setup register” on page 91
for more information on this register.
NOTE
When the meter is equipped with the Alert module, the modem can initiate calls. Paging is supported
through numeric paging and the TAP1 protocol. See the ION Enterprise online help for details on
managing modem connections, setting up periodic dial-out and configuring remote site event
notification.
ModemInit setup register
The ModemInit setup register defines the initialization string for the internal modem
with a maximum of 47 characters. Edit the ModemInit register and enter the desired
initialization string. The string is sent to the modem as soon as you download the
COM2 module. Note that the string is also sent to the modem whenever the meter
is powered up or the baud rate in the COM2 Communications module is changed.
NOTE
Changing the ModemInit or Baud Rate setup registers while the internal modem is online causes the
modem to disconnect from the phone line.
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Modem initialization strings
Refer to the Modem AT Commands technical note for a complete list of AT
commands for meter modems.
NOTE
The Modem AT Commands technical note also contains instructions on how you can determine your
meter’s modem type based on the meter’s serial number.
Adjusting the modem initialization string for CTR-21 compliant modems
The table below shows the strings to add to the end of your modem configuration
string setup register for each of three possible scenarios.
Behavior
Add to modem initialization string
Does not answer
(modem does not detect ring tone)
*NC70
Does not dial
(modem does not detect dial tone)
In order of preference:
*NC70, *NC70X0, *NC8 (Italy only)
Does not detect busy signal
*NC70
If your local modem (not the internal modem) is not already set up, configure it with
the Remote Modem Setup utility in ION Enterprise according to the instructions in
the online help. After the meter is installed and the internal modem is connected to
the telephone network, the COM2 module can be configured using the meter’s
front panel, ION Enterprise or ION Setup. For information on how to connect the
internal modem to the telephone network, refer to your ION8650 Installation Guide.
Configuring COM2 through the front panel
1. Press and hold the ALT/ENTER button for a few seconds. The SETUP menu
appears.
2. Use the up or down arrow buttons to select COM2 SETUP and press ALT/
ENTER.
3. Configure the COM2 settings (for example, Baud Rate, Unit ID, and Protocol) to
match your communications system.
Configuring the meter and modem site using
ION Setup
In ION Setup:
1. Open the Setup Assistant for your meter. See the ION Setup Help for
instructions.
2. Select Communications > Port Settings and click the COM2 tab.
3. Select the setting that you want to configure and click Edit.
4. Configure the COM2 settings (for example, Baud Rate, Unit ID, and Protocol) to
match your communications system.
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Chapter 7 - Communications
Configuring the COM2 module using Designer
Before you can configure the COM2 module in Designer, you must add the meter
(with the internal modem) and a modem site to your ION Enterprise network.
Adding a meter and a modem site to your ION Enterprise network
In Management Console, add the meter with the internal modem and a modem site
to your ION Enterprise network. Describe how your remote modem is wired and
other communications information on the options screens.
Either before or after adding the modem site, you must add a dialout modem to the
server computer. The server computer dialout modem communicates to the
modem at the modem site.
On the Modem Site Options screen, ensure that:

you select the server computer that you want to communicate with the remote
modem and that the server computer dialout modem is configured.

you enter the remote modem telephone number.

you set the baud rate of the modem site to the baud rate of the COM2 port to
avoid communications errors.
See the ION Enterprise online help for more information.
Configuring the COM2 Communications module in Designer
Start Designer and configure the COM2 Communications module Baud Rate, Unit
ID, and Protocol setup registers to match your communications system. Configure
the initialization string for the internal modem using the ModemInit register. Refer
to “ModemInit setup register” on page 91.
Configuring ModemGate connections
ModemGate is a powerful feature that creates a communications connection
between the telephone network and an RS-485 serial network of devices. When
you specify the protocol for a meter’s COM port as MODEMGATE, all data
received by the meter’s internal modem is automatically transferred to the serial
network. ModemGate is available on either the COM1 or COM4 port; you cannot
use the feature on both ports simultaneously. The meter must have the COM2
modem option to function as a modem gateway.
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A
B
C
A
Workstation with ION Enterprise and
modem
B
Telephone network
C
ModemGate meter equipped with optional
internal modem
D
Devices on RS-485 loop
D
NOTE
The baud rate used between connected modems is independent of the internal baud rate used for
communication between the meter and its modem.
Wire a serial connection between one or more meters and the meter COM port
hosting the ModemGate (COM1 or COM4). You can make ModemGate
connections through an RS-232 cable to a single device or through an RS-485
shielded twisted pair cable to multiple devices. ModemGate connections do not
connect a workstation running ION Enterprise (or other master device) to the
gateway meter’s COM1 or COM4 port, but rather to the gateway meter’s internal
modem port (COM2); the meter then transfers the data to the serial devices
connected to COM1 or COM4.
Configuring the meter for ModemGate
1. Install the meter and connect the internal modem.
2. Use the front panel, ION Enterprise or ION Setup to set up the internal modem
and the serial communications port (COM1 or COM4) that is the ModemGate.
You can enable ModemGate on either COM1 or COM4, not both simultaneously.
3. Set the internal modem COM2 Baud Rate, Unit ID and Protocol. The baud rate
must be the same as the port hosting the gateway and all the devices connected
to the gateway.
4. Set the protocol of the port connected to the RS-485 loop to MODEMGATE
(either COM1 or COM4). For each device on the RS-485 loop, you must also:
94

Set the baud rate to the same value as the modem baud rate (COM2).

Configure each device, including the gateway meter, with a unique Unit ID.
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ION8650 User Manual
Chapter 7 - Communications
Configuring devices connected to the ModemGate meter
1. Use ION Enterprise, ION Setup or the front panel to change and configure
settings. Ensure each device connected to the meter has the same baud rate
as the meter ModemGate port (either COM1 or COM4).
2. Ensure each device connected on the RS-485 network (including the meter
modem) has a unique Unit ID. Record the serial baud rate of the modem site and
the Unit IDs for every device in order to add the ModemGate and its meters to
your network.
NOTE
Ensure RS-485 is selected for connections to multiple devices along the same bus.
Using ION Setup to create a ModemGate site
In ION Setup:
1. Right-click on your workstation icon and select Insert Item. The New Network
Item dialog box appears.
2. Select Site and click OK. The New Site dialog box appears.
3. Click the General tab.
4. Configure the site as follows:

Type a site name.

Select Modem from the Comm Link options.

Click Modem configuration to access the Modem configuration wizard,
which configures your local and remote modems.

Enter the phone number of the modem you are connecting to in the Phone
Number field.
Click OK.
5. Right-click on your newly created site and select Insert Item. The New Network
Item dialog box appears.
6. Select Meter and click OK. The New Device dialog box appears.
7. Enter serial device information and click OK. Your new device appears under
your newly created site
8. Repeat steps 5 to 7 to enter each device on your serial network.
Using ION Enterprise to create a ModemGate site
To communicate to the devices on the RS-485 loop using ION Enterprise:
1. Start Management Console and create a Modem Site.
2. Configure your modem site by typing in the appropriate fields or using the
dropdown menus. Include the meter’s internal modem telephone number and
ensure that the server computer’s dialout modem is configured. Refer to the
online ION Enterprise Help for information on adding a dialout modem.
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Adding ModemGate meters to the ION Enterprise network
1. Start Management Console and click Devices. Right-click in the Devices
display window and select New > Serial Device on Direct Site.
2. Enter the information by typing in the appropriate fields or using the dropdown
menus, remembering that:


96
Unit ID: The value in the UNIT ID field identifies the meter on the RS-485
loop.
Site: The ModemGate site that you created.
© 2011 Schneider Electric. All rights reserved.
Chapter 8
Third party protocols
This chapter explains how Modbus, DNP 3.0 and IEC 61850 protocols are
implemented on the meter.
It also contains brief instructions for configuring your meter to work with MV-90
systems.
In this chapter
Overview
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 98
Communications protocol configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 98
The
meter as Modbus slave . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 99
Using the Modbus RTU protocol . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 99
Configuring the meter as a Modbus slave . . . . . . . . . . . . . . . . . . . . . . . . . . . 100
Modbus Slave modules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 101
Using the Modbus/TCP protocol . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 101
The
meter as Modbus master . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 103
Configuring the meter as a Modbus master . . . . . . . . . . . . . . . . . . . . . . . . . . 103
Using
the DNP 3.0 protocol . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 108
Configuring DNP 3.0 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 108
Using
the IEC 61850 protocol . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 110
The default IEC 61850 configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 110
Configuring IEC 61850 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 110
Configuring
© 2011 Schneider Electric. All rights reserved.
MV-90 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 115
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Overview
The meter supports DNP 3.0, Modbus RTU and Modbus/TCP, and IEC 61850
protocols.
Most Modbus, IEC 61850 and DNP modules that send meter data using these
protocols are factory configured and only require basic configuration, such as
communications setup.

Your meter is preconfigured to send Modbus data (acting as Modbus slave). It is
not ready to receive data as a Modbus master until you set up the necessary
framework.

Your meter is preconfigured to send DNP 3.0 data to a DNP master.

You must use an IEC 61850 configuration tool and ICD file to configure the
IEC 61850 aspects of your meter, with the exception of I/O and additional data
values, which must be done through ION Setup.
NOTE
Changing the default third-party protocol frameworks (or creating new frameworks to enable receive
functionality) is an advanced procedure that requires an understanding of the protocol and the meter’s
internal operation before you proceed. Refer to the descriptions in the ION Reference of the DNP,
IEC 61850 and Modbus modules. Refer to the Multiport DNP 3.0 and ION Technology, DNP 3.0 Device
Profile, IEC 61850 and ION Technology, and Modbus and ION Technology documents for information
on these protocols.
Communications protocol configuration
In order to use the pre-configured Modbus or DNP slave configuration, you must
first assign the communications protocol that you want to use to the applicable port.
By default, all communications ports are configured to use the ION protocol. Select
the third-party protocol that you want from the list of available protocols for the
communications port you are configuring. See “Communications” on page 73 for
instructions. You do not have to assign a communications channel for IEC 61850
but your meter must have an Ethernet connection.
NOTE
Modbus RTU is available on each of the meter’s communications ports, and multiple ports can
communicate using Modbus simultaneously. Modbus TCP is available on the meter’s optional Ethernet
connection. Up to three ports can use the DNP 3.00 protocol at any one time.
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Chapter 8 - Third party protocols
The meter as Modbus slave
Your meter can act as a Modbus slave, using both the Modbus RTU and
Modbus/TCP protocols.
The meter can act as a Modbus slave device, making any real-time data available
through the Modbus protocol. Modbus master devices connected to the meter can
read this data or write data to your meter’s ION registers (for example, to make
configuration changes).
Using the Modbus RTU protocol
The factory Modbus slave configuration
The meter makes data available to Modbus master devices using pre-configured
Modbus Slave modules. These modules are linked to other modules in the meter
that provide the energy, power and demand data. Once a communications channel
is configured to use Modbus RTU protocol, the data is available to Modbus master
devices.
NOTE
Connect to IP port 7701 for Modbus RTU communications over Ethernet. The Modbus unit ID of the
meter over Ethernet has a default value of 100.
Set the COM port to
the Modbus RTU
protocol
Communications port
Power Meter
module
VIn a
Modbus Slave
module
40011
Data is available
to Modbus
master devices
Measured data is
linked to the Modbus
module’s input
Modbus Slave
module outputs data
in Modbus format
As the data available through the Modbus Slave modules is in a specific format,
knowledge of the Modbus protocol and an understanding of the settings used in
the meter are required to interpret the data provided.
Changing the Modbus configuration
If the factory Modbus configuration does not suit your needs, the existing Modbus
Slave modules can be relinked to other parameters that you want to access
through Modbus.
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If your Modbus master device requires data in a format different than that provided
by the factory Modbus configuration, you can edit the setup registers in the Modbus
Slave modules. These setup registers specify the Modbus format, scaling and
base address settings. Refer to the ION Reference for complete details on the
Modbus Slave module.
Configuring the meter as a Modbus slave
You cannot configure Modbus through the meter’s front panel; you can only assign
the Modbus protocol to communication ports (see “Communications” on page 73
for details).
Use ION Enterprise or ION Setup to perform full Modbus configuration.
Using ION Setup
In ION Setup:
1. Open the Setup Assistant for your meter. See the ION Setup Help for
instructions.
2. Select Communications > 3rd Party Protocols.
3. Click the Modbus Slave tab.
4. Select the map name (for example, Default) and click Edit. The Modbus map
editor appears.
5. Edit, add, or delete the Modbus Slave module registers or the name of the
Modbus map.
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Chapter 8 - Third party protocols
6. Click OK.
Modbus Slave modules
All ION8650 meters have nine Modbus Slave modules. Meters with EN51060
support (ION8650A and ION8650B) have 11 additional modules. For a detailed
Modbus map, refer to the Modbus Protocol and Register Map for ION Devices
document, available from www.schneider-electric.com.
Importing data using Modbus RTU
It is possible to bring data into the meter using Modbus. Various ION registers can
be written to by Modbus master devices by correlating the Modbus register number
with the address of the ION register you want to write to. When a Modbus register
is written with a value, the corresponding ION register is written, provided the
Modbus RTU protocol is active on the communications port that connects the
Modbus master to the meter.
You can use the Modbus RTU protocol to write values into ION external numeric,
pulse and Boolean registers, allowing you to enable, disable and reset meter
functions. You can also use the Modbus protocol to change setup register values
in various ION modules to configure the meter’s operation.
To bring data into the meter with Modbus RTU, you must disable the meter’s
password security.
Using the Modbus/TCP protocol
Modbus/TCP is an open Modbus protocol variant (formerly called MBAP). It
defines the packet structure and connection port (port 502) for the industry
standard TCP/IP protocol. The structure of Modbus/TCP is very similar to the
Modbus RTU packet except that it has an extra six-byte header and does not use
the cyclic redundancy check (CRC). Modbus/TCP retains the Modbus RTU limit of
256 bytes per packet.
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NOTE
For Modbus RTU communications over Ethernet, connect to IP port 7701.
Modbus TCP communications
You can communicate to the meter using Modbus TCP. Your meter must have the
optional Ethernet port. Configure the meter to connect using connection port 502
to use Modbus TCP communications protocols.
NOTE
You cannot form an EtherGate connection to the Modbus TCP network.
The Modbus unit ID of the meter over Ethernet has a default value of 100.
Eth e
rnet
102
Connect to port 502
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ION8650 User Manual
Chapter 8 - Third party protocols
The meter as Modbus master
ION8650 meters can act as a Modbus master using the Modbus RTU and Modbus/
TCP protocols:

The meter can Modbus master using Modbus RTU over serial connections
between the meter’s COM1 or COM4 ports and the Modbus slave devices. It
can Modbus master over both COM1 and COM4 simultaneously.

Meters with an Ethernet connection can Modbus master over TCP/IP using up to
ten available TCP connections. These TCP connections are dedicated to
Modbus mastering, and are not included in the maximum of eight (8) Ethernet
connections.
The meter acting as Modbus master can write data to (export) and read data from
(import) Modbus slave devices. The data can be processed by the meter and sent
out using other communications methods (email, ION Enterprise, etc.). The meter
can also send data directly to other devices on a Modbus network.
NOTE
Modbus master functionality is not available on the ION8650C.
For more information on Modbus mastering, see the Modbus and ION Technology
technical note.
Configuring the meter as a Modbus master
This sections describes the ION modules involved in using the meter as a Modbus
master and using ION Setup or ION Enterprise.
The Modbus master configuration
There is no pre-configured Modbus master framework on your meter. This
functionality must be enabled by configuring the following modules in your meter’s
framework.
Modbus master ION modules
Several ION modules work together to create Modbus master functionality on the
meter. Your meter has some or all of these modules, depending on the model and
firmware version. See the ION Reference for more information on these and other
ION modules:

Modbus Master Device module: reads data from a Modbus slave, which can
be an ION meter or third-party device. This imported data can be used by other
ION modules. The Modbus Master Device module references a Modbus
Master Map module setup register to specify the Modbus format, scaling, and
base address settings.

Modbus Master Map module: provides a common place to hold setup
information (used to decode a Modbus response) for specific device types.
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This information can be referenced by multiple Modbus Master Device
modules.

Modbus Master Options module: maps any serial connection or Ethernet
TCP socket from the Modbus Import, Modbus Export and Modbus Master
Device modules to any serial communications port or unique IP address and
port number.

Modbus Export module: provides write functionality.

Modbus Import module: provides read functionality. This data can then be
used by other ION modules.
NOTE
Modbus Export and Modbus Import modules are legacy modules and are provided for backwards
compatibility.
See the Modbus and ION Technology technical note for more information on
configuring Modbus master an the ION Reference for more information on the
modules used in Modbus mastering.
Using the front panel
You cannot configure Modbus through the meter’s front panel. You can only assign
the Modbus protocol to communication ports. See “Communications” on page 73
for details.
Use ION Enterprise or ION Setup to perform full Modbus configuration.
Using ION Setup
In ION Setup:
1. Open the Setup Assistant for your meter. See the ION Setup Help for
instructions.
2. Select Communications > 3rd Party Protocols.
3. Click on the Modbus Master tab.
4. Click Add to add a Modbus slave device. The Modbus Device dialog box
appears.
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Chapter 8 - Third party protocols
5. Type the slave device’s name and a label suffix (if applicable). Select the device
type of the slave device from the Device Type list (in this example, an ION6200).
6. Type the unit ID of the slave device in the Slave ID box.
7. Select the serial or TCP connection you want to configure from the Connected
via list. This is the connection used by the Modbus master to connect to that
slave device. Click Connections. The Modbus Master Connections dialog
box appears.
8. Select the tab that corresponds to the connection you are configuring (for
example, if you selected TCP Connection 1 from the Connected via list, select
the TCP 1 tab), and edit the text boxes as follows:

Serial Connections: Select the port that is connected to the Modbus slave
devices from the Assigned Port dropdown list.

TCP Connections: Type the IP address of the Modbus slave device. Ensure
that the IP port is 502. You can enter up to ten (10) Modbus slave device IP
addresses.
NOTE
For Modbus mastering over RTU, the total number of possible serial connections is limited by the
number of physical serial ports on the meter that can Modbus master. The meter has two physical serial
ports that support Modbus master (COM1 and COM4).
To Modbus master over Ethernet, the meter must have the optional Ethernet connection.
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Click OK when you have finished configuring connections to return to the
Modbus Device dialog box.
9. Click OK to add the slave device. The device now appears in the list. Continue
adding devices by clicking Add until all of your devices are entered.
NOTE
The meter as Modbus master over TCP/IP will attempt to communicate to a slave for up to 100 seconds
(as per the RFC1122 standard) before moving on to the next slave device.
See the Modbus and ION Technology technical note for more information.
Using ION Enterprise
Use Designer to configure Modbus master functionality on your meter.
1. Open the master meter in Designer.
2. Navigate to the Modbus Master Options module. Right-click on the center of the
module icon to access the ION Module Setup dialog box.
3. Configure the setup registers by selecting the setup register you want to change
and clicking Modify, or by double-clicking on the register.

Serial Connections: Select the appropriate port from the dropdown list.

TCP Connections: Enter the IP address of the Modbus slave device,
followed by a colon (:) and the IP port (502), for example, 192.168.0.1:502.
You can enter up to 10 unique IP addresses.
NOTE
For Modbus mastering over RTU, the total number of possible serial connections is limited by the
number of physical serial ports on the meter that can Modbus master. The meter has two physical serial
ports that support Modbus master (COM1 and COM4).
To Modbus master over Ethernet, the meter must have the optional Ethernet connection.
4. Create a new Modbus Master Map module for each slave device. The Modbus
Master Map module has two setup registers:
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
Device Type: Enter the type of device that you want to map. This value is
referenced by the Modbus Master Device module.

Device Map: This is the data that you want to access from the Modbus slave
device, in the form of text strings containing the parameter label, register
value, data format, etc.
5. Create a new Modbus Master Device module for each slave device. Configure
the following setup registers in the Modbus Master Device module:

Connection: Select the serial or TCP connection being used to communicate
with the slave device.

Slave Addr: Type the unit ID of the slave device.

Device type: Type a device type string. Ensure that this is the same as the
device type entered in the Modbus Master Map module.

Slave name: Type a name for the slave device.
6. Link the module inputs and outputs as required.
7. Select File > Send & Save when you are finished.
See the online ION Enterprise Help for more information on creating, modifying
and linking modules in Designer and the ION Reference for details of module setup
and output registers.
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Using the DNP 3.0 protocol
The Distributed Network Protocol Version 3.0 (DNP 3.0) is an open protocol used
in the electric utility industry for communications and interoperability among
substation computers, remote terminal units (RTUs), intelligent electronic devices
(IEDs; for example, meters), and master stations.
Your meter can be integrated into a DNP network as a DNP slave, using the DNP
Slave Import, DNP Slave Export and DNP Slave Options modules. For more
information on the various DNP modules, see the ION Reference.
Your meter supports a maximum of three concurrent connections (or “sessions”)
using the DNP 3.0 protocol; one for each serial port, up to three using Ethernet, or
a combination of both. Combinations available depend on the meter's
communications options. A session consists of all incoming and outgoing DNP
master/slave traffic on one of the meter's communications ports.
Consult the DNP User’s Group at http://www.dnp.org/ to learn more about the
protocol.
The factory DNP 3.0 configuration
Your meter is pre-configured with a DNP framework that allows for basic DNP
slave functionality. DNP Slave Export modules are used to send data to the DNP
master while DNP Slave Options modules provide per-session settings such as
communications options. Although some minor setup of the framework is
necessary before it is enabled (assigning the DNP protocol to the communications
ports, for example), most module settings should not require alteration.
For information on your meter’s default DNP map and factory configuration, see the
ION8650 DNP 3.0 Device Profile.
Importing data using DNP 3.0
Data can be imported into the meter from a DNP control relay or analog output
device. DNP Slave Import modules are used to take a DNP Analog output or Binary
output object and map them into ION registers.
NOTE
DNP Slave Import modules are not part of the factory DNP framework and must be added manually.
Refer to the DNP Slave Import module description in the ION Reference for details. Refer to the
DNP 3.0 Device Profile protocol document for a description on the DNP 3.0 communications protocol
used by the meter.
Configuring DNP 3.0
If the factory DNP configuration does not suit your needs, you can relink the
existing DNP Slave Export modules to access a different set of parameters through
DNP. Alternately, you can add additional DNP Slave Export modules and link the
desired parameters to them.
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If your DNP network requires data in a format different than that provided by the
factory DNP configuration, you can edit the setup registers in the DNP Slave Export
modules and the DNP Slave Options modules. Do not make any changes to the
DNP Slave Options modules’ setup registers unless you understand the effects
each change will cause. Refer to the ION Reference for complete details on DNP
Slave Export and DNP Slave Options module function.
For detailed information on configuring your meter to use DNP, see the Multiport
DNP 3.0 and ION Technology technical note.
Using the front panel
You cannot configure DNP through the meter’s front panel. You can only assign
the DNP 3.0 protocol to communication ports. See “Communications” on page 73.
Using ION Setup
In ION Setup:
1. Open the Setup Assistant for your meter. See the ION Setup Help for
instructions.
2. Select Communications > 3rd Party Protocols and click on the DNP 3.0 tab.
3. Select the DNP feature you want to configure (for example, Parameter Map) and
click Edit.
The Setup Assistant wizard guides you through DNP configuration. See the
ION Setup Help for more information.
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Using the IEC 61850 protocol
IEC 61850 is an Ethernet-based protocol designed for electrical substations. It is a
standardized method of communications, developed to support integrated systems
composed of multi-vendor, self-describing IEDs (intelligent electronic devices) that
are networked together to perform monitoring, metering, and real-time, non-critical
protection and control.
NOTE
You must have an Ethernet connection on your meter to be able to use IEC 61850.
Your meter can be integrated into an IEC 61850 system as an IED (or server),
supporting a maximum of five concurrent IEC 61850 client connections and one
FTP connection (used for transferring data or configuration files).
Use ION Setup to enable IEC 61850 control of your meter’s optional I/O ports and
to map additional meter values into IEC 61850. See “Configuring IEC 61850” on
page 110 for more information and safety precautions. All other IEC 61850-specific
configuration is done using an IEC 61850 configuration tool and your IEC 61850
client software.
Additional information
For more information, refer to the following:

IEC 61850 and ION Technology protocol document provides more information
about how IEC 61850 is implemented on your meter.

ION Reference describes the IEC 61850 ION modules.

The IEC (International Electrotechnical Commission) website at www.iec.ch
provides general information about the IEC 61850 protocol.
The default IEC 61850 configuration
Your meter’s factory template includes an IEC 61850 framework already
configured with a default set of meter data mapped into IEC 61850. This default set
of meter data is used in the default data sets and reports in the ICD files available
from the website.
You must load a valid IEC 61850 configuration (CID) file into the meter in order to
activate the IEC 61850 features of your meter.
Your meter has five (5) dedicated IEC 61850 client connections and one FTP
connection.
Configuring IEC 61850
No meter port configuration is required for IEC 61850, but the meter must have an
operating Ethernet connection for IEC 61850 client connections and for FTP
transmission of configuration and data files.
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Configuring additional ION data into IEC 61850
The IEC 61850 ICD file for your meter contains a comprehensive set of default data
values. Additional meter data values can be made available in IEC 61850 by
mapping the ION data to the GGIO Custom Analog or GGIO Custom Digital
modules.
Using the front panel
You cannot configure IEC 61850 through the meter’s front panel.
Using ION Setup
In ION Setup:
1. Open the Setup Assistant for your meter. See the ION Setup Help for
instructions
2. Select Communications > 3rd Party Protocols and select the IEC 61850 tab.
The CID status line indicates whether the meter has received and validated an
IEC 61850 CID file and is operating as an IEC 61850 server:

IEC 61850 stack running: the meter has received and validated an
IEC 61850 CID file and is operating as an IEC 61850 server.

Missing CID file: no IEC 61850 CID file is loaded into the meter.

Invalid CID file: the IEC 61850 CID file is invalid.
3. Select the custom option that matches the data you want to map and click Edit.
Custom Analog and Custom Digital allow you to map additional numeric (analog)
or Boolean/binary (digital) values into IEC 61850.
NOTE
Because Custom Analog and Custom Digital are ION modules, they can be configured at any time,
regardless of CID status.
4. Expand the Available registers list and select the custom analog or digital value
that you want to map into IEC 61850. Highlight the IEC 61850 leaf you want to
map onto and click the >> button to map the value. Click the << button to remove
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the value. Select Show all available registers to show all the ION modules and
their registers. Click OK to send your changes to the meter.
Configuring meter digital I/O control via IEC 61850
By default, your meter’s I/O status values are available via IEC 61850. You can
configure the meter to provide IEC 61850 control of the meter’s optional digital
output hardware ports by configuring the GGIO Onboard ION module and the
Digital Output module.
NOTE
Refer to “Inputs / Outputs” on page 131 for details on how to configure your meter’s digital inputs and
outputs.
To control your meter’s digital outputs via IEC 61850, you must configure the
Digital Output module’s Source register to be the IEC 61850 digital status value
(SPCS.stVal) output register. This output register is written by the IEC 61850
system into the IEC 61850 GGIO Onboard module. You must also disconnect the
Digital Input module’s Status output register from the IEC 61850 GGIO Onboard
Digital Output Status input register or else you will create a circular reference and
the modules will go offline. Refer to the ION Reference for details of the IEC 61850
GGIO Onboard module.
HAZARD OF UNINTENDED OPERATION
• Do not use the meter for critical control or protection applications where human or
equipment safety relies on the operation of the control circuit.
• Be aware that an unexpected change of state of the digital outputs may result when the
supply power to the meter is interrupted or after a meter firmware or template upgrade.
Failure to follow these instructions can result in death, serious injury or equipment
damage.
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Using ION Setup
In ION Setup:
1. Connect to your meter in Advanced Mode.
2. Navigate to the GGIO Onboard folder and double-click on the module in the
right-hand pane.
3. Select the Setup Registers tab.
4. Select the SPCS Control Mode register that corresponds to the digital output
you want to control through IEC 61850 and click Edit. A dialog box appears.
5. Select IEC 61850 CTLVAL from the dropdown list and click OK.
6. Select the Inputs tab.
7. Select the digital output Status register for the digital output that you want to
control through IEC 61850. Click Delete.
NOTE
The digital input Status register must be deleted in order to prevent a circular reference that will cause
the affected modules to go offline.
8. Click Send to send your changes to the meter.
9. Navigate to the Digital Output folder.
10. Double-click on the Digital Output module that you want to control through
IEC 61850.
11. Select the Setup Registers tab and confirm that the Digital Output module’s
setup registers are appropriately configured.
12. Select the Inputs tab.
13. Select the Source register and click Edit.
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14. Navigate to the IEC 61850 GGIO Onboard module and select the SPCS.stVal
output register that corresponds to the digital output.
15. Click OK and Send to save your changes to the meter.
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Configuring MV-90
ION8650 meters can provide energy values to an MV-90 data management
system. In order to recognize and communicate with your meter, the MV-90
software requires meter configuration data to create a master (master.dat) file for
your meter.
Use ION Setup to:

generate a meter configuration (master.dat) file for your meter that can be
imported directly into your MV-90 system or printed for manual data entry.

configure your meter’s revenue data in MV-90 E-File data format.

export an .hhf file to transfer revenue data from your meter to your MV-90
system using a handheld device.
For more information, see the MV-90 and ION Technology technical note, available
from the website.
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Chapter 9
Time
This chapter covers the meter’s clock and time synchronization, including IRIG-B
GPS time synchronization.
NOTE
References to NTP in ION devices or documentation should be interpreted as SNTP.
In this chapter
Meter
Time
clock configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 118
synchronization . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 119
IRIG-B time synchronization . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 119
Configuring
the meter clock . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 120
120
120
120
121
Using the front panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using ION Setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using Designer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Clock module settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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Meter clock configuration
The Clock module controls the meter’s internal clock, which provides timestamps
for data logged by the device. The clock needs to be configured properly to ensure
that internally logged data has accurate timestamp information. The clock settings
do not affect any data logs that are stored external to the meter. The Clock module
also receives the time synchronization signals sent to it by a workstation running
ION Enterprise or ION Setup, updating the device’s clock when required.
The Clock module’s Clock Source setup register defines how the meter’s internal
clock auto-corrects drift from its internally calculated time. A separate time source
(such as a GPS receiver or a DNP Master) can be used to synchronize the clock
through a communications channel. By default, the clock is set to synchronize from
the line frequency.
See the ION Reference for more information on the Clock module and the Time
Synchronization & Timekeeping technical note for more information about time and
ION meters.
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Time synchronization
Time synchronization lets you synchronize your meter’s internal clock with all of the
other meters, devices, and software in a network. After the meter is synchronized,
all the data logs stored on the meter have timestamps that are relative to a uniform
time base. This allows you to achieve precise sequence-of-events and power
quality analyses using the data logged on the meter. Use ION Enterprise or
ION Setup to broadcast time signals across the network, or utilize an external
source (such as a DNP Master or IRIG-B) to synchronize your meter’s clock.
Refer to the Time Synchronization & Timekeeping technical note for more
information on implementing time synchronization.
IRIG-B time synchronization
ION8650 meters come with an IRIG-B connection for GPS time synchronization
using unmodulated IRIG-B time code data. The meter is pre-configured to
synchronize via IRIG-B GPS, after you wire the meter to a GPS receiver and set
the clock Time Sync Source and Clock Source parameters.
Any GPS receiver that outputs unmodulated IRIG-B time code data can be used
as a time synchronization source.
You can configure IRIG-B time synchronization to update if the GPS receiver is
locked onto a satellite source or to update regardless of whether or not the GPS
receiver is locked onto a satellite source. Refer to the Clock module description in
the ION Reference for more information on this setting.
IRIG-B standard and specifications
The standard is outlined in the IRIG-STANDARD 200-04 “IRIG Serial Time Code
Formats” prepared by the Timing Committee, Telecommunications and Timing
Group, Range Commanders Council.
1
Accuracy
+/- 1 ms
Format
IRIG-B00x1 format (unmodulated IRIG-B time code)
Nominal Voltage
5 Vdc +/- 10%
Maximum Voltage
8 Vdc
Coded expressions 4 to 7 are supported but the year data is not used by the meters.
Diagnostic module outputs and event log entries
The Diagnostic module output registers and event log entries update as described
in the Time Synchronization & Timekeeping technical note, with the following
exceptions:

The GPS Receiver Status output register in the Diagnostics module is set to
N/A.

The GPS locked and GPS unlocked event log entries are not generated.
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Configuring the meter clock
Use ION Enterprise or ION Setup to change the meter’s clock settings.
Using the front panel
You cannot configure the time using the front panel.
Using ION Setup
In ION Setup:
1. Open the Setup Assistant for your meter. See the ION Setup Help for
instructions
2. Select the Clock screen.
3. Click the Timezone tab to configure your meter’s clock settings. Select a
parameter and click Edit to change.
NOTE
For IRIG-B, set the Time Sync Source to IRIG-B and the Clock Source to COMM.
4. Click on the DST Settings tab to configure your meter’s daylight savings periods
for up to 20 years. Select a parameter and click Edit to change.
5. Connect the meter to the time sync source (such as a GPS receiver output) if
applicable.
Using Designer
Open your meter in Designer and navigate to the Meter Clock Setup framework.
Right-click on the Clock module to edit.
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Clock module settings
The setup registers in the Clock module specify timezone and Daylight Savings
Time (DST) parameters and time synchronization functions. Refer to the Clock
module description in the ION Reference for information on advanced settings you
can configure.
Setup register
Function
Default
Timezone
Sets the timezone the device is in, relative to Greenwich Mean Time.
0
DST Start 1 …
DST Start 20
The date and time when DST begins for 20 separate years.
DST End …
DST End 20
The date and time when DST ends for 20 separate years.
Refer to the ION Device
Template Reference for the DST
Start and DST End defaults for
the twenty separate years.
DST Offset
The amount of time the clock is changed when DST begins or ends.
3,600 seconds
Time Sync Source
Specifies the communications port that receives time sync signals. For
Ethernet, it also specifies which protocol can time sync the meter.
COM3
Time Sync Type
Specifies the type of time sync signal (Local or Universal time).
UTC
Clock Source
Specifies the clock’s time synchronization signal source (line frequency,
communications signals, or internal crystal).
Line Frequency
Percent Battery
Remaining
The setting displays the approximate percentage of battery life remaining. You
should only need to edit this parameter if you have replaced the battery.
Not applicable
Local Time
The parameter is show for information purposes only. It displays the current
local time on the meter. To change this, you must time sync the meter.
Not applicable
TIP
When modifying setup registers of the Clock module in Designer, use the Format option to convert
between UNIX and conventional time. Refer to the description of the Clock module in the online
ION Reference for more details.
Typically, the DST Start and DST End registers do not need to be reconfigured for
users in North America. The factory defaults are the DST start and end dates for
20 years, in UNIX time (the number of seconds since 00:00:00 UTC on Jan. 1,
1970).
Refer to the Time Synchronization & Timekeeping technical note for further details
on using the meter’s time synchronization functions. Refer to the ION Reference
for more information on the Clock module and its registers.
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Chapter 10
Demand
This chapter explains how to configure and view demand values on your meter.
In this chapter
Introduction
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 124
Sliding window demand . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 124
Peak demand . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 124
Illustration of the basic demand framework . . . . . . . . . . . . . . . . . . . . . . . 124
Configuring
demand . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 125
125
125
125
125
126
Using the front panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using ION Setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using Designer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sliding Window Demand module settings . . . . . . . . . . . . . . . . . . . . . . . .
Configuring demand reset lockout time . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Demand
Forgiveness . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 127
128
129
129
129
Additional Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Configuring Demand Forgiveness . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using the Front Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using ION Setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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Introduction
Demand is a measure of average power consumption over a fixed time interval.
Peak (or maximum) demand is the highest demand level recorded over the billing
period. Demand is measured using Sliding Window Demand modules. These
modules are configured to calculate the average current demand and kW, kVAR
and kVA demand. The setup registers in the demand module defines time intervals
for demand calculations, setting the sensitivity of the module’s operation.
The meter has a default demand framework that is suitable for most utility
applications. However, if needed, you can customize it for your specific application.
Sliding window demand
Sliding window demand is often referred to as rolling block demand. To compute
sliding window demand values, the meter uses the sliding window averaging (or
rolling interval) technique which divides the demand interval into sub-intervals.
The demand is measured electronically based on the average load level over the
most recent set of sub-intervals. This method offers better response time than fixed
interval methods.
The meter uses the Sliding Window Demand module to calculate sliding window
demand.
Peak demand
Power utilities generally bill commercial customers based on their peak usage
levels, called peak demand (in kW) and energy consumption (in kWh). Demand is
a measure of average power consumption over a fixed time interval, typically 15
minutes. Peak (or maximum) demand is the highest demand level recorded over
the billing period. Sliding window demand is one method of measuring demand.
Illustration of the basic demand framework
In the following diagram, the Sliding Window Demand module labeled “Demand”
calculates demand from the power input by measuring and averaging the power
over a set interval. The demand value is then output to a Maximum module labeled
“Peak Demand” that records the highest demand value over time (peak demand).
DEMAND
Power
Sliding Window
Demand module
Power output
averaged
(Demand)
PEAK DEMAND
Maximum
value (Peak)
Maximum module
For more information on ION modules, refer to the online ION Reference.
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Configuring demand
Use ION Enterprise or ION Setup to change your meter’s demand settings.
Using the front panel
You cannot use the front panel to configure demand.
Using ION Setup
The Demand screen in the Setup Assistant helps you configure sliding window (or
rolling block) demand. This screen also contains two registers used for configuring
sliding window demand while the meter is in TEST mode.
In ION Setup:
1. Open the Setup Assistant for your meter. See the ION Setup Help for
instructions.
2. Select the Demand screen.
3. Select a register and click Edit to configure.
Using Designer
Open your meter in Designer and navigate to the Demand Setup framework. Click
on Demand Setup to access the Sliding Window Demand modules. Right-click on
a module to edit.
Sliding Window Demand module settings
The following table outlines the sliding window demand settings. See the ION
Reference for more information about the Sliding Window Demand module.
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Setup
register
Function
Default
Sub Intvl
The time, in seconds, in the sliding window demand
sub-interval.
900
#SubIntvls
The number of sub-intervals in the sliding window.
1
Pred Resp
The speed of Predicted Demand calculations; use higher
values for faster prediction (70 to 99 recommended).
70
Update Rate
Defines the update rate of the SWinDemand output register
Varies depending
on the module
Configuring demand reset lockout time
The demand reset lockout time sets the minimum time allowed between
consecutive demand resets; the meter ignores any attempts to reset demand that
occur within the lockout time. The default demand lockout time is 25 days (2160000
seconds).
Using the front panel
1. Hold down the ALT/ENTER button to access the SETUP menu.
2. Use the up and down arrows to highlight DISPLAY SETUP then press the ALT/
ENTER button.
3. Use the up and down arrows to highlight DMD LOCK TO then press the ALT/
ENTER button.
4. Use the up and down arrows to enter a demand lockout time in seconds. Press
ALT/ENTER to apply the value.
Using ION Setup
In ION Setup:
1. Open the Setup Assistant for your meter. See the ION Setup Help for
instructions
2. Select the Demand screen and click the Rolling Block tab.
3. Select Demand Lockout and click Edit. Enter a demand lockout time in days (in
Elapsed Interval Format) or seconds (in Numeric Bounded Format). Click OK.
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Demand Forgiveness
Demand Forgiveness is the time programmed to the meter during which demand
(and therefore peak demand) will not be calculated in the power restoration period
following a total power outage.
During power-up following a complete power outage, customer equipment
consumes a higher than normal amount of power. Demand Forgiveness lets a
utility forgive the customer for peak demand penalties that can arise from powerup following a power outage (should the outage exceed a user-specified period of
time).
Demand and Peak Demand module behavior during Demand Forgiveness
A peak demand value is the highest demand value since the last peak demand
reset. The Demand Forgiveness framework sets the Sliding Window Demand
module inputs to zero during a Demand Forgiveness period. This method allows
demand interval data to accurately reflect a complete interval that includes data:

prior to an outage

during the Demand Forgiveness period (zero values)

after the Demand Forgiveness period
NOTE
During a Demand Forgiveness period, Sliding Window Demand module inputs are set to zero and do
not reflect actual demand. These values should not be used to calculate energy for billing purposes.
Energy values are not affected and reflect actual energy consumption during the Demand Forgiveness
period.
The settings listed below must be made configured for Demand Forgiveness
functionality. These settings can be accessed from ION Setup; refer to “Using
ION Setup” on page 129.

Minimum Outage Duration lets you specify the amount of time (in seconds) that
the power must be out before the Demand Forgiveness period begins.

Demand Forgiveness Duration lets you specify the amount of time (in seconds)
that demand is forgiven (demand inputs are zero).

Update Rate lets you define the update rate of the SWinDemand output register.
It is set to Every Second by default for revenue-related demand modules; with
this setting, demand value measured is updated once per second.

Outage Voltage (line-to-line average in unscaled meter units) lets you define a
voltage level that is considered an outage. This is set to 20 volts by default.
© 2011 Schneider Electric. All rights reserved.
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KW
Power
1:30
Demand
Interval #1
1:45
Demand
Interval #2
Demand Forgiveness ends
Demand Forgiveness begins
Chapter 10 - Demand
2:00
Demand
Interval #3
Time
Power Outage
The specified amount of time that the power must be out before demand
is forgiven.
The specified amount of time that demand is delayed during the Demand
Forgiveness period.
The preceding diagram shows an example of a meter that is set up for Demand
Forgiveness. The Sliding Window Demand module is averaging demand values at
15 minute intervals. During interval #1, the meter has a power outage that lasts for
18 minutes. The power outage is defined by a system voltage of 20 volts which is
specified in the Outage Voltage setting. The Minimum Outage Duration setting is
specified as 10 minutes, so this is the amount of time that the power must be out
before demand can be forgiven. The Demand Forgiveness Duration setting is
specified as 1800 seconds (30 minutes), so for 30 minutes following power
restoration, demand inputs are zero. The power is restored during interval #2,
where the surge of power consumption during power-up is included in the Demand
Forgiveness period and has a value of zero.
Additional Information
The following points are important to note:

128
The following demand input values are zero for kQ, kW, kVA, and kVAR during
the Demand Forgiveness period:

Delivered

Received

Delivered + received

Delivered – received

Q1, Q2, Q3, Q4

If a new peak is set prior to a power outage, it persists.

Even though demand is zero during the Demand Forgiveness period, a new
peak can be set if the demand was very high prior to the power outage or after
the Demand Forgiveness period ends.

Demand Forgiveness works for auxiliary and blade powered meters.

All ION modules in the Demand Forgiveness framework are fully locked.
© 2011 Schneider Electric. All rights reserved.
ION8650 User Manual
Chapter 10 - Demand

If a Demand Forgiveness period is initiated, and another power outage occurs
that is less than the time specified in the Minimum Outage Duration setting, the
Demand Forgiveness period continues. If a second outage is greater than the
time specified in the Minimum Outage Duration setting, the Demand
Forgiveness period restarts.

Both the power outage downtime and the Demand Forgiveness downtime are
stored within the Demand Forgiveness framework. The Store modules preserve
a timestamp that is viewable in Vista.

The Sliding Window Demand module Update Rate setup register must be set to
EVERY SECOND (this is the default for revenue-related demand modules).

If Demand Forgiveness is enabled on an auxiliary-powered meter and there is
no power on the blades, the meter assumes that this is an outage. When power
is applied to the blades, demand is forgiven for the specified time.

If Demand Forgiveness is enabled and the meter is unplugged for servicing or
other reasons, the Demand Forgiveness framework assumes there was an
outage and demand is forgiven for the specified time.

For meters where Demand Forgiveness is enabled at the factory (for example,
certain certified revenue-sealed meters), demand is not measured when the
meter is first put into service. Instead demand is forgiven for the specified time.
Configuring Demand Forgiveness
Demand Forgiveness is disabled by default. Use ION Setup to enable Demand
Forgiveness.
NOTE
If Demand Forgiveness is enabled, do not use demand values to calculate energy for billing purposes.
Energy values are not affected and reflect actual energy consumption during the Demand Forgiveness
period.
Using the Front Panel
You cannot enable or edit Demand Forgiveness settings using the front panel.
Using ION Setup
In ION Setup:
1. Open the Setup Assistant for your meter. See the ION Setup Help for
instructions.
2. Select the Demand screen and click the Demand Forgiveness tab.
3. Select Demand Forgiveness Enable. Click Edit and select ON. This enables
Demand Forgiveness.
4. Select Min Outage Duration and click Edit.
Type the amount of time (in seconds) that the power must be out before the
Demand Forgiveness period starts. Click OK.
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5. Select Demand Forgiveness Duration and click Edit.
Type the amount of time (in seconds) that demand is forgiven (demand inputs
are zero). Click OK.
6. Select Outage Voltage if required and click Edit.
Type the minimum voltage (line-to-line average in unscaled meter units) that is
considered an outage; this is set to 20 V by default but you can adjust this. Click
OK.
130
© 2011 Schneider Electric. All rights reserved.
Chapter 11
Inputs / Outputs
This chapter provides information on the meter’s various digital and analog inputs
and outputs (I/O).
Refer to your ION8650 Installation Guide for instructions on wiring inputs and
outputs and for the general meter I/O specifications.
You can use the ION8650’s onboard I/O for a variety of applications.
For example, you can use a Form A digital input to monitor a breaker to verify how
many times the breaker trips. When the breaker reaches its limit for the number of
trips, you can use the digital output to light an LED next to the breaker so field
personnel are alerted. You can also use a Form C digital output to send KYZ
pulsing information to third-party system equipment.
In this chapter
Introduction
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 132
134
135
135
136
137
138
138
138
139
Specifying an I/O port in a module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using the onboard digital outputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Digital Output modules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using the optional onboard digital inputs . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using the optional analog outputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Configuring inputs and outputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using the front panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using ION Setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using Designer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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Introduction
The meter’s digital and analog I/O ports simplify data gathering by importing a
variety of data types into a single, common system. You need to configure the
following modules in order to use the meter’s for digital and analog I/O capabilities.

Digital Input: Digital (status) inputs can be used for monitoring external
contacts or pulse counting applications, and are controlled by Digital Input
modules. This module tells the meter how to interpret incoming signals.

Digital Output: Digital outputs are used for hardware relay control or pulse
counting applications. The outputs can be controlled by Digital Output modules,
Pulser modules, or Calibration Pulser modules, depending on the application
(relay switching or energy pulsing). An example of a commonly used application
for each module is listed below.



Digital Output module: monitors a change of state to control relay
operation via a hardware output device.
Pulser module: transfers high-speed pulses to a hardware pulse counting
device that is used to track energy usage.
Calibration Pulser module: integrates instantaneous power inputs, then
outputs high-speed pulses to an LED that can be monitored to verify
revenue meter calibration.
All of these modules can act as intermediaries between the hardware port and
the other modules in the meter. They define the characteristics of outgoing
signals.

Analog Output: Analog outputs can deliver a continuous DC signal, and are
controlled by the Analog Output modules.
See the ION8650 Installation guide for I/O wiring instructions.
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Chapter 11 - Inputs / Outputs
Onboard I/O
Onboard I/O
Socket or switchboard meter connections
Expanded I/O (and serial
COMs): Molex Micro-Fit
24 pin male connector.
Optional Onboard
I/O: 16 pin male
connector.
Optional I/O Expander for serial communications
and expanded I/O. For more information, see the
PowerLogic I/O Expander Installation Guide.
Serial COMs
COM1: RS-232 or
RS-485.
COM4: RS-485,
depending on the
options ordered for
your meter.
Depending on the version
of the I/O Expander that
you ordered, you can have:
Eight Form A digital inputs.
Four Form C digital outputs.
Four Form A digital outputs
or four analog outputs.
Onboard I/O breakout cable with female
connector and sixteen bare-ended wires.
See your meter’s Installation Guide for
installation instructions and information on
determining the I/O configuration available on
your meter.
I/O Expander for ION8650 meters
For analog or additional digital I/O with the meter, you can use an external
I/O Expander. Information for the analog and digital I/O Expander options is
available in the I/O Expander Installation Guide.
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Specifying an I/O port in a module
For detailed information and instructions on configuring Analog and Digital I/O
modules, see the ION Reference.
Configure the Digital Output, Digital Input, Analog Output, Pulser, and Calibration
Pulser modules to specify which port handles the outgoing or incoming signals. To
assign a port to one of these modules, simply modify the Port setup register by
picking a port from the enumerated list. This can be done with both ION Setup and
the Designer component of ION Enterprise.
The following table describes the ports that can be configured (in the Digital Output,
Digital Input, Analog Output, and Calibration Pulser modules) to handle outgoing
or incoming signals.
NOTE
You must confirm the meter I/O options (onboard and/or I/O Expander) to determine which of the
following apply to your meter.
ION module
type
ION module
name
Hardware port
(device label)
Port name
(ION label)
Description
Onboard digital output ports
Digital Output (DO)
Calibration Pulser
DO Onbrd RA-1
A1
On-Board FormA Out 1
Digital Output port 1 (Form A Solid State)
DO Onbrd RC-1 to
DO Onbrd RC-4
C1 to C4
On-Board FormC 1 to
On-Board FormC 4
Digital Output port 1to 4 (Form C Relay)
VARh Pulse LED1
Watt LED
WATT LED
LED Output
Wh Pulse LED1
VAR LED
VAR LED
LED Output
Onboard digital input ports
Digital Input (DI)
DI-S9
S1
On-Board FormA 1
Digital Input port 1 (Form A)
DI-S10, DI-S11
S2, S3
On-Board FormA2 to
On-Board FormA3
Digital Input port 2 to 3 (Form A)
I/O Expander digital output ports
Digital Output (DO)
DO RC-1 to
DO RC-4
C-1 to C-4
I/O Exp FormC 1 to
I/O Exp FormC 4
Digital Output port 1 to 4 (Form C)
DO RA-1 to
DO RA-4
A-1 to A-4
I/O Exp FormA 1 to
I/O Exp FormA 4
Digital Output port 1 to 4 (Form A)
I/O Expander digital input ports
Digital Input (DI)
DI-S1 to DI-S8
A-1 to A-4
I/O Exp In 1 to
I/O Exp In 8
Digital Input port 1-8 (Form A)
I/O Expander analog output ports
Analog Output (AO)
134
Analog Out 1 to
Analog Out 4
A1 to A4
I/O Exp AnOut 1 to
I/O Exp AnOut 4
Analog Output port 1 to 4
© 2011 Schneider Electric. All rights reserved.
ION8650 User Manual
Chapter 11 - Inputs / Outputs
Configuring energy pulsing applications
To configure the LED outputs for energy pulsing applications (for example, kVAh),
see “Energy pulsing” on page 141.
Using the onboard digital outputs
Digital outputs are used for hardware relay control or pulse counting applications.
For example, the meter’s digital outputs can provide on/off control signals for
capacitor banks, generators, and other equipment. The digital output ports can
also send out status signals or kWh pulses, if the receiving device determines
energy usage by counting pulses.
A meter with the optional onboard I/O provides four Form C digital outputs and a
Form A digital output. All digital outputs can deliver a continuous signal or a pulse.
Contact Schneider Electric for complete information regarding relay applications.
Digital Output modules
HAZARD OF UNINTENDED OPERATION
• Do not use the meter for critical control or protection applications where human or
equipment safety relies on the operation of the control circuit.
• Be aware that an unexpected change of state of the digital outputs may result when the
supply power to the meter is interrupted or after a meter firmware or template upgrade.
Failure to follow these instructions can result in death, serious injury or equipment
damage.
These outputs can be controlled with Digital Output modules, Pulser modules, or
Calibration Pulser modules, depending on the application. For relay and control,
the Digital Output module is used. For pulsing applications, the Pulser or
Calibration Pulser modules are generally used.
You must configure these modules in order to use the output ports.

Calibration Pulser modules allow you to generate high accuracy energy
pulses for verifying meter accuracy. They integrate instantaneous power inputs.

Digital Output modules accept Boolean inputs, and output a continuous signal
or pulses.

Pulser modules convert instantaneous pulses to pulses or transitions.
Configure the settings of the controlling module to match your requirements.
Ensure that the module’s Port setup register matches the meter’s output that you
want to control.
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For detailed information and instructions on configuring these modules, see the
ION Reference. For information on the default settings for the modules, see the
ION Device Template Reference.
The available settings for these modules are as follows:
ION module
Setup registers
Calibration
Pulser
Description
Port
Not Used
WATT LED
VAR LED
I/O Exp FormC 1
I/O Exp FormC 2
I/O Exp FormC 3
I/O Exp FormC 4
I/O Exp FormA 1
I/O Exp FormA 2
I/O Exp FormA 3
I/O Exp FormA 4
On-Board Form C 1
On-Board Form C 2
On-Board Form C 3
On-Board Form C 4
On-Board FormA Out 1
Determines the output hardware channel
Pulse Width
0 to 2000000
Pulse Width, in seconds (0 for continuous pulse)
Polarity
Fixed at NON-INVERTING
Specifies a non-inverted (or level) pulse
EvLog Mode
Log on or Log off
Determines whether or not to log status changes in the
Event Log
Port
As per Digital Output, above
Determines the output hardware channel
PulseWidth
0.020 to 2000000
Pulse width, in seconds
OutputMode
Pulse or KYZ
Full pulse or KYZ (transition pulse)
Polarity
Fixed at NON-INVERTING
Specifies a non-inverted (or level) pulse
Port
As per Digital Output, above
The output hardware channel
Pulse Width
0.010 to 1.000
Pulse Width, in seconds
Kt
0.01 to 1000000000
Watts per pulse
Int Mode
Forward, Reverse, Absolute, or Net
Integration modes that can be selected
OutputMode
Pulse or KYZ
Full pulse or KYZ (transition pulse)
Digital Output
Pulser
Available settings
Using the optional onboard digital inputs
Digital inputs are used for status monitoring or pulse counting applications. Status
monitoring can help you prevent equipment damage, improve maintenance, or
track security breaches. Common status monitoring applications include
monitoring:
136

closed/open positions of breakers.

on/off status of generators.

armed/unarmed conditions in a building alarm system.

over/under pressures of transformers.
© 2011 Schneider Electric. All rights reserved.
ION8650 User Manual
Chapter 11 - Inputs / Outputs
The function of each status input is controlled by a Digital Input module; this
module tells the meter how to interpret incoming signals. Digital Input modules can
be linked with other modules for counting status changes.
CAUTION
VOLTAGES OVER 130 VDC CAN DAMAGE DIGITAL INPUTS
Do not use digital inputs for voltage sensing applications.
Failure to follow this instructions can result in equipment damage.
For detailed information and instructions on configuring these modules, see the
ION Reference. For information on the default settings for the modules, see the
ION Device Template Reference.
The available settings in the Digital Input modules are as follows:
Setup register
Available settings
Description
Input Mode
Pulse, KYZ
Specifies complete pulse or KYZ transition pulse
EvLog Mode
Log On, Log Off
Specifies whether or not to log status changes.
Digital Input status changes have an event priority of 20.
Debounce
numeric
Setting for the mechanical contact bounce, in seconds
Polarity
Fixed at NON-INVERTING
Specifies a non-inverted (or level) pulse
I/O MODULE IN1 to I/O MODULE IN 8, NOT USED
Port
I/O Exp In 1 to 8
On-Board FormA 1 to 3
Specifies which hardware port the module controls
Using the optional analog outputs
Analog outputs let you output real-time power to an RTU or perform equipment
control operations. The analog outputs provide industry standard 0 to 20 mA
current signals. These outputs are only available with the optional I/O Expander.
HAZARD OF UNINTENDED OPERATION
Do not use the meter for critical control or protection applications where human or equipment safety relies on the operation of the control circuit.
The electrical signal on the output is DC. Make sure proper polarity is observed when wiring external devices to the analog output ports.
Failure to follow these instructions can result in death, serious injury or equipment
damage.
Four Analog Output modules control the optional I/O Expander’s analog outputs.
These modules are not linked by default. Link the numeric output of another ION
module to the Source input of the Analog Output module—this value is represented
© 2011 Schneider Electric. All rights reserved.
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on the I/O Expander’s analog output port. Setup the Zero Scale and Full Scale
setup registers of the Analog Output module to the numeric range you want to
emulate.
For detailed information and instructions on configuring these modules, see the
ION Reference. For information on the default settings for the modules, see the
ION Device Template Reference.
The available settings in the Analog Output module is as follows:
Setup registers
Available settings
Description
Port
I/O EXP AnOut 1 to
I/O EXP AnOut 4,
NOT USED
Specifies the output hardware channel.
Full Scale
-1 x 109 to 1 x 109
Sets the measured value that will create the
maximum possible output on the analog output
hardware port.
Zero Scale
-1 x 109 to 1 x 109
Sets the measured value that will create the
minimum possible output on the analog output
hardware port.
Ensure that the module’s Port setup register matches the I/O Expander’s output
that you want to control. If the port you want to use does not appear in the Port
setup register list, that port is in use by another module. Edit the Port setup register
of the module using that port and set it to NOT USED – the port is then available
to other modules.
See the I/O Expander Installation Guide for more information on the I/O Expander
and the ION Reference for more information on the Analog Output module,
including details are setting the zero and full scales. Both documents are available
from www.schneider-electric.com.
Configuring inputs and outputs
Use ION Enterprise or ION Setup to configure the meter’s I/O framework.
Using the front panel
You cannot configure I/O using the meter’s front panel.
Using ION Setup
The Setup Assistant helps you configure your meter’s optional (onboard and I/O
Expander) analog and digital inputs and outputs.
NOTE
See “Energy pulsing” on page 141 for information on configuring the Calibration Pulser modules in
ION Setup.
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Chapter 11 - Inputs / Outputs
In ION Setup:
1. Open the Setup Assistant for your meter. See the ION Setup Help for
instructions.
2. Select either the Onboard I/O or the Expander I/O folder and select the screen
for the I/O type that you want to configure.
The tabs on the I/O screens correspond to the associated modules (for example,
Onboard I/O > Digital Outputs > A1 allows you to configure Digital Output
module RA-1). Click the tab you want to edit.
3. Select the parameter and click Edit to edit a value.
4. Select Source and click Edit to link a module to a source. Navigate to the source
register you require and click OK.
Using Designer
Open your meter in Designer and navigate to the Advanced Setup framework.
Click on the appropriate grouping object (Digital Inputs, Digital Outputs or Analog
I/O) and right-click the module that you want to edit.
© 2011 Schneider Electric. All rights reserved.
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140
ION8650 User Manual
© 2011 Schneider Electric. All rights reserved.
Chapter 12
Energy pulsing
This chapter provides instructions for configuring energy pulsing on your meter.
In this chapter
Introduction
Energy
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 142
pulsing with LEDs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 143
Configuring
energy pulsing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 144
144
144
145
145
146
Using the front panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using ION Setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using Designer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Calibration Pulser module settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Pulser module settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
© 2011 Schneider Electric. All rights reserved.
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Introduction
Your meter uses Calibration Pulser modules and Pulser modules for energy
pulsing.

Pulser module: The Pulser module serves as an intermediary between other
modules’ pulse output registers (accepting them as pulse inputs) and a
hardware output channel on the device. These modules are capable of sending
pulses or pulse transitions to any hardware output channel.

Calibration Pulser module: The Calibration Pulser module is a highly accurate
energy pulser used for verifying accuracy on meters employed in billing
applications. This module type serves as an intermediary between the power
(kW, kVAR or kVA) outputs of the Power Meter module and a device’s hardware
output channel. Refer to the PowerLogic ION8650 accuracy verification
technical note for instructions on verifying the accuracy of your meter. By default,
two Calibration Pulser modules are configured and linked to the front panel
LEDs.
See the ION Reference for more information on these modules.
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Chapter 12 - Energy pulsing
Energy pulsing with LEDs
The two LEDs on the front panel are preconfigured for energy pulsing. The
adjacent smaller infrared outputs are connected to the LEDs and pulse at the same
rate.
The pulse rate of the LEDs can be adjusted by modifying the Kt setup register in
the associated Calibration Pulser module. The value entered defines how much
energy the module accumulates before a pulse is sent to the hardware channel.
The front panel WATT and VAR LEDs are factory set to the same pulse rate. The
Kt value is shown on your meter’s front panel label; the default setting for Kt
depends on the form factor of your meter.
Infrared pulsers
LED pulse indicators
Kt value for the
meter
WATT – LED and VAR – LED
The WATT – LED is controlled by a Calibration Pulser module that has its Source
input linked to the kW del+rec output of the Arithmetic module labeled “KW del,
rec”.
The VAR – LED is controlled by a Calibration Pulser module that has its Source
input linked to the kVAR del+rec output of the Arithmetic module labeled “kVAR
del, rec”.

For meters with 9S, 36S and 29S form factors, the default pulse rate of the front
panel WATT LED is 1.8 (1.8 Watt-hours per pulse). The kt value of the VAR LED
is also 1.8.

For Form Factor 35S meters, the default pulse rate of the front panel WATT LED
is set at 1.2 (1.2 Watt-hours per pulse). The Kt value for the VAR LED is also 1.2.
Customizing energy pulsing
Changing the value for the Kt setup register of the associated Calibration Pulser
module lets you modify the pulsing rate of either channel. If you want to configure
the LED port for a different pulsing application, you must re-link the Source input to
the output register of a different instantaneous power quantity in one of the
Arithmetic modules. Ensure that the quantity you select originates from the MU
(meter units) Power Meter module.
© 2011 Schneider Electric. All rights reserved.
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Configuring energy pulsing
Use ION Enterprise or ION Setup to change your meter’s energy pulsing settings.
HAZARD OF UNEXPECTED DIGITAL OUTPUT PULSE
• Do not use the meter for critical control or protection applications where human or
equipment safety relies on the operation of the control circuit.
• Be aware that an unexpected pulse on the digital outputs can result when the supply
power to the meter is interrupted or after a meter firmware or template upgrade.
Failure to follow these instructions can result in death, serious injury or equipment
damage.
Using the front panel
You cannot configure energy pulsing using the front panel.
Using ION Setup
In ION Setup:
1. Open the Setup Assistant for your meter. See the ION Setup Help for
instructions.
2. Select LED Pulsing.
3. Click on the tab that corresponds to the LED that you want to configure.
4. Configure the settings as required. See “Calibration Pulser module settings” on
page 145 for more information on the settings other than Pulser Mode.
Pulser Mode determines whether the LED pulsing occurs always or only when
the meter is in TEST mode.
144
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Chapter 12 - Energy pulsing
The appropriate Kt value depends on Scaled Rev Param (located on the Basic
Setup tab).

If Scaled Rev Param is OFF, the Kt value must be the primary value and the
Calibration Pulser module pulses based on primary kWh and kVARh

If Scaled Rev Param is ON, the Kt value must be the secondary value, and
the Calibration Pulser module pulses based on secondary kWh and kVARh.
5. Select the Energy Pulsing screen to configure the other default Calibration
Pulser modules for energy pulsing applications, if required. By default, these
modules are not linked to an output.
6. Click the End of Interval tab to configure the end of energy pulsing.
Using Designer
Open your meter in Designer and navigate to the Energy Pulsing Setup folder.
Right-click a module to edit.
Calibration Pulser module settings
The setup registers available in the Calibration Pulser module are listed in the table
below. The defaults listed are for the two pre-configured Calibration Pulser
modules that control the front panel LEDs (these modules are labelled Wh Pulse
LED and VARh Pulse LED).
Setup register
1
© 2011 Schneider Electric. All rights reserved.
Function
Default
Pulse Width
This register specifies the width of the pulses sent to the
hardware channel (in seconds). The Calibration Pulser module
maintains a minimum duty cycle of 50% on the output pulse train.
0.05
Kt
The numeric bounded register defines how much energy the
module accumulates before a pulse is sent to the hardware
channel. An industry standard for energy pulsing is 1.8, or one
pulse per 1.8 energy-hours.
varies1
Int Mode
Specifies the modes of integration that can be selected.
Absolute
OutputMode
This register specifies whether the output is a complete pulse
(Pulse) or a change of state transition (KYZ).
Pulse
Port
This register specifies which hardware port the pulse/KYZ
transition appears on. Only those hardware channels that are still
available appear in this list.
Not Used
The default Kt value varies depending on the template. For meters with the 9S/29S/36S template, the
default is 1.8. For meters with the 35S template, the default is 1.2.
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ION8650 User Manual
Pulser module settings
Only the End of Interval Pulser module is available by default. The defaults below
reflect the defaults in this module.
Setup register
146
Function
Default
Pulse Width
This register specifies the width of the pulses sent to the
hardware channel (in seconds).
0.1
OutputMode
This register specifies whether the output is a complete pulse
(Pulse) or a change of state transition (KYZ).
Pulse
Port
This register specifies which hardware port the pulse/KYZ
transition appears on.
Not Used
© 2011 Schneider Electric. All rights reserved.
Chapter 13
Logging
The ION8650 meter has powerful data logging and event recording capabilities.
Data and event logs recorded by the meter are prioritized and stored onboard. Data
is retrieved periodically by ION Enterprise (or another third party application).
If you use ION Enterprise, all retrieved data from your system is stored in an
ODBC-compliant database. The information in the database can be viewed and
analyzed using ION Enterprise components such as Vista (for viewing) or Web
Reporter (for organizing and presenting data).
In this chapter
Data
logging . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 148
148
148
148
150
150
150
151
151
151
155
Configuring data logging . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using the front panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using ION Setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Changing waveform recording . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
The default logging framework . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Default logging capacity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Changing the log depths . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Changing the frequency of logging . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Default logging configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Viewing data log information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Event
logging . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 156
Event priority groups . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 156
Events external to the module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 156
Displaying events . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 157
Logging
© 2011 Schneider Electric. All rights reserved.
and recording capacity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 158
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Data logging
The meter has a default, comprehensive data-logging configuration. Information
regarding the default logging capacity and default logging configuration can be
found in “Default logging capacity” on page 150.
To learn more about the Data Recorder modules in your meter, refer to the
ION Reference.
Configuring data logging
Use ION Enterprise or ION Setup to change your meter’s logging settings.
Using the front panel
You cannot configure logging using the front panel.
Using ION Setup
In ION Setup:
1. Open the Setup Assistant for your meter. See the ION Setup Help for
instructions.
2. Select the Logging folder.
Use the Memory, Load Profile and Event Log screens to configure your logging
settings.
Memory screen
1. Select the Memory screen to re-allocate meter memory.
2. Select the log you want to configure and click Edit. You can change both the Log
Duration (days) and the Log Size (records). Changing these parameters affects
the meter memory allocated to that log.
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Chapter 13 - Logging
Load Profile screen
1. Select the Load Profile screen to configure the Revenue Log.
2. Click the Channels tab to access the Revenue Log sources. Select a source.

Click Unlink to unlink the parameter from the source.

Click Edit to edit the parameter. The Parameter Selection dialog box
appears, showing source register groupings. Click on the ‘+’ symbol beside
the register group to view the individual registers. Select the register that you
want to connect to the source and click OK.
Select the Show all available registers checkbox for a complete list of all
possible registers.
3. Click the Interval/Depth tab to edit the Revenue Log interval and duration and
missing record handling.
© 2011 Schneider Electric. All rights reserved.
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Event Log screen
Select the Event Log screen to configure what events are logged:

Cutoff: This parameter determines the minimum priority level for events to be
logged; events with a lower priority are not logged.

EvPriority: This parameter sets the event priority of Sag/Swell events. See
“Configuring power quality event logging” on page 173 for more information.

PhaseLossEnable: This parameter enables or disables phase loss event
recording.
Changing waveform recording
The Waveform Recorder modules do not require changes to their default settings.
If you want to change the format of the recorded waveforms, refer to the Waveform
Recorder module description in the ION Reference.
NOTE
If you are generating COMTRADE waveform data records, the associated Waveform Recorder
modules cannot be modified unless the COMTRADE module’s Module Enable register is set to
DISABLED. If the Waveform Recorder modules are not configured identically (have the same setup
register values) the COMTRADE module will not go online.
The default logging framework
The following sections outline the default logging capacity and configuration.
NOTE
The default logging configuration may be used by other components of your power monitoring system
(for example, the reporting components of ION Enterprise). Before you change the default configuration
of any of the logs, ensure you understand the impact on the change on these components and the data
they display.
Default logging capacity
The following table summarizes the default recording depths and recording
intervals of the various Data recorders and Waveform recorders in the meter.
ION8650A
default depth
ION8650B
default depth
ION8650C
default depth
Revenue Log
9120
6240
3360
900 seconds
Loss Log
9120
6240
N/A
900 seconds
EgyDmd Log
9120
6240
N/A
900 seconds
Daily nominal log
DailyNom Log
450
450
N/A
Daily
Historic Logs
Hist Logs
9120
6240
N/A
900 seconds
Harmonic Logs
Harm Logs
2280
1560
N/A
3600
Log types
Energy Logs
150
Interval
© 2011 Schneider Electric. All rights reserved.
ION8650 User Manual
Chapter 13 - Logging
ION8650A
default depth
ION8650B
default depth
ION8650C
default depth
Transient Log
3000
N/A
N/A
Triggered on demand
Sag/Swell Log
3000
3000
3000
Triggered on demand
SagSwellState Log
3000
3000
N/A
Triggered on demand
COMTRADE1
1
N/A
N/A
Triggered by Waveform
Recorder
EN50160 Logs (ION8650A
and ION8650B only)
22 Data Recorders
Varies2
Varies2
N/A
Daily, weekly, 10 minutes...2
4-30 Logs (ION8650A and
ION8650B only)
3 Data Recorders
Varies3
Varies3
N/A
3 second, 10 minute, 2 hour
Log types
Disturbance Recorders
Interval
1
See the COMTRADE and ION Technology technical note for more details.
2
See the Power Quality: ION Meters and EN50160 technical note for more details.
3
See the 4-30 Compliance and ION meters technical note for more details.
Changing the log depths
Change the value in a Data Recorder module’s Depth setup register to increase
the number of records stored in the recorder. The RecordMode setup register
controls how the Data Recorder overwrites old records; refer to the Data Recorder
module description in the ION Reference before changing this setup register.
Changing the frequency of logging
The five Periodic Timer modules that control the frequency of different data
recording are as follows:

“Revenue Log Trg” controls the frequency of the logging of revenue values

“Loss Log Trg” controls the frequency of Loss Compensation Data logging

“EgyDmd Log Trg” controls the frequency of logging for the Energy and Demand
Log (this log is used for generating reports using Web Reporter)

“Hist Log Trg” controls the frequency of Historic Data logging

“Harm Log Trg” controls the frequency of Harmonics logging
NOTE
Programming your meter to write to any data recorder at continuous intervals lower than 60 seconds
(heavy logging configuration) can cause loss of data in the event of a power failure. Use of an
uninterruptible power supply (UPS) is recommended for such heavy logging configurations.
Change the value in the Period setup register to change the frequency of data
logging (in seconds). Do not change the Sync Mode setup register.
Default logging configuration
The following sections describe each Data Recorder module and the parameters
they log. Your meter may not have all of the logs described and the settings may
vary depending on the meter, its firmware and its template.
© 2011 Schneider Electric. All rights reserved.
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Revenue logging
The Revenue Log is configured for use with UTS MV-90 billing software. The
default values logged by the Revenue Log are as follows:
Parameter
Description
kWh del int
Interval kWh delivered
kWh rec int
Interval kWh received
kVARh del int
Interval kVARh delivered
kVARh rec int
Interval kVARh received
Historic data logging
Three data recorders are used to record standard power system quantities, such
as phase current, phase voltage and power factor. By default, they log the following
output register values:
Hist Mean Log
Hist High Log
Hist Low Log
Vll ab mean
I avg mean
Vll ab high
I avg high
Vll ab low
I avg low
Vll bc mean
kW tot mean
Vll bc high
kW tot high
Vll bc low
kW tot low
Vll ca mean
kVAR tot mean
Vll ca high
kVAR tot high
Vll ca low
kVAR tot low
Vll avg mean
kVA tot mean
Vll avg high
kVA tot high
Vll avg low
kVA tot low
V unbal mean
PF lag mean
V unbal high
PF lag high
V unbal low
PF lag low
Ia mean
PF lead mean
Ia high
PF lead high
Ia low
PF lead low
Ib mean
Freq mean
Ib high
Freq high
Ib low
Freq low
Ic mean
Ic high
Ic low
Loss Log
One Loss Log recorder is configured to record loss values. By default, it logs the
following parameters – note that the parameters differ depending on the meter
template:
Template
152
Loss Log parameter
Description
All
MU Ia^2h int
Phase A interval current squared hours
All
MU Ib^2h int
Phase B interval current squared hours
All
MU Ic^2h int
Phase C interval current squared hours
35S only
MU Vll ab^2h int
Phase A interval voltage Line-to-Line squared hours
35S only
MU Vll bc^2h int
Phase B interval voltage Line-to-Line squared hours
35S only
MU Vll ca^2h int
Phase C interval voltage Line-to-Line squared hours
9S/29S/36S only
MU Vln a^2h int
Phase A interval voltage Line-to-Neutral squared hours
9S/29S/36S only
MU Vln b^2h int
Phase B interval voltage Line-to-Neutral squared hours
9S/29S/36S only
MU Vln c^2h int
Phase C interval voltage Line-to-Neutral squared hours
© 2011 Schneider Electric. All rights reserved.
ION8650 User Manual
Chapter 13 - Logging
Harmonics logging
Two recorders provide various harmonics logs, including K-factor and Total
Harmonics Distortion (THD). These recorders are labeled Harm Mean Log and
Harm High Log. By default, they log the following values:
Harm Mean log
Harm High log
V1 THD mean
I1 K Fac mean
V1 THD high
I1 K Fac high
V2 THD mean
I2 K Fac mean
V2 THD high
I2 K Fac high
V3 THD mean
I3 K Fac mean
V3 THD high
I3 K Fac high
I1 THD mean
I1 THD high
I2 THD mean
I2 THD high
I3 THD mean
I3 THD high
Energy Demand Log
One data recorder is configured to provide power system data for the Web
Reporter component of ION Enterprise.
EgyDmd Log
kWh del
kVAh del+rec
kWh rec
kW sd del-rec
kWh del-rec
kVAR sd del-rec
kVARh del
kVA sd del+rec
kVARh rec
PF lag mean
kVARh del-rec
PF lead mean
Sag/Swell and Transient logging
Three data recorders provide details of these power quality events. The Sag/Swell
and Transient data recorders, by default, log the following values
Sag/Swell log (ION8650A and ION8650B)
DistDur
DistV1Engy
DistV2Engy
DistV3Engy
DistV1Min
DistV2Min
DistV3Min
DistNominal
DistV1Max
DistV2Max
DistV3Max
SwellLim
DistV1Avg
DistV2Avg
DistV3Avg
SagLim
Sag/Swell log (ION8650C)
© 2011 Schneider Electric. All rights reserved.
DistDur
DistV2Max
PT Prim
DistV1Min
DistV3Min
PT Sec
DistV1Max
DistV3Max
CT Prim
DistV2Min
DistNominal
CT Sec
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Transient log
TranV1Dur
TranV2Max
TranNominal
PT Sec
TranV1Max
TranV3Dur
Threshold
CT Prim
TranV2Dur
TranV3Max
PT Prim
CT Sec
The SagSwellState data recorder provides additional information required by the
Sag/Swell and Transient logs.
See “Configuring power quality event logging” on page 173 for enabling or
disabling Sag/Swell and Transient events from being recorded in the Event Log.
NOTE
Modification of the Sag/Swell, Transient and SagSwellState logs is an advanced procedure that should
only be performed by experienced users familiar with ION and the interaction of these data recorders.
See the COMTRADE and ION Technology technical note for information about
COMTRADE records.
EN50160 compliance logging (ION8650A and ION8650B only)
By default, 22 Data Recorder modules are used for logging EN50160 compliance
parameters.
Data Recorder
EN50160 component logged
Data Recorder
EN50160 Frq/Mg
Power Frequency and Supply Magnitude
EN50160 Vunbal
EN50160 Flicker
Flicker
EN50160 Hrm Vlt
EN50160 Vlt Dp1
EN50160 Ihm Vlt
EN50160 Vlt Dp2
EN50160 MSignal
EN50160 Vlt Dp3
Supply Voltage Dips
EN50160 Prm-Flk
EN50160 Vlt Dp5
EN50160 Prm-VDp
Short/Long Interruptions
EN50160 Ovrvlt1
EN50160 Ovrvlt2
EN50160 Ovrvlt3
EN50160 Prm-Vlr
EN50160 Prm-OV
Temporary Overvoltages
Voltage Unbalance
Harmonics (up to 40th)
Mains Signalling Voltage
EN50160 Prm-f/V
EN50160 Vlt Dp4
EN50160 Intrp
EN50160 component logged
Parameter data
These data recorders are disabled by
default (see below).
EN50160 PrmHrm1
EN50160 PrmHrm2
The meter logs EN50160 counter data for present and previous observation
periods as well as EN50160 events. EN50160 parameter data logging (from seven
“Prm” data recorders) is disabled by default. Enable or disable EN50160
Parameter Logging via the default Power Quality Vista diagram.
For more information about EN50160 data logging, see the Power Quality: ION
Meters and EN50160 technical note.
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ION8650 User Manual
Chapter 13 - Logging
4-30 logging (ION8650A and ION8650B only)
Three data recorders are used to log parameters related to 4-30 compliance and
to create reports.
Data Recorder
4-30 parameters logged
 Voltage Disturbances
 V1-RMS (Root-Mean-Square)
 V2-RMS
 V3-RMS
4-30 3s Log
4-30 10m Log
4-30 2hr Log
 THD (Total Harmonic Distortion)
 Vneg/Vpos
 Vzero/Vpos
 V-Overdeviation
 V-Underdeviation
 Frequency
 Flicker (deviation expressed as a percent-
age of nominal voltage; available in 10minute and 2-hour reports only)
 Unbalance
For more information on 4-30 compliance, see the 4-30 Compliance and ION
meters technical note.
Viewing data log information
Viewing data in ION Setup
In ION Setup:
1. Select your meter.
2. Select View > Data Screens > Data Recorders. The following logs are
available for viewing, depending on your meter:

Average Harmonics

Energy & Demand

Historic Average, Historic Highs, Historic Lows

Maximum Harmonics

Revenue Log

Sags & Swells

Transformer Losses

Transients (ION8650A only)
See “Reports” on page 207 for information on running basic reports in ION Setup.
Viewing data in ION Enterprise
You can view information from the data logs in the Vista, WebReach and Web
Reporter components of ION Enterprise. See the online ION Enterprise Help for
more information.
© 2011 Schneider Electric. All rights reserved.
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Event logging
Events produced by the meter’s various ION modules are prioritized and grouped
to facilitate custom logging. Each event is assigned a priority group number based
on its type and severity.
Event priority groups
Some event groups are preset with a priority number as shown in the table below.
You can also define your own priority number for some modules. Priority numbers
from 128-191 appear in the global event log viewer in the Vista component of
ION Enterprise. Priority numbers from 192-255 are also logged, initiate a beep and
cause the window to flash. You can customize these responses to display
messages or perform netsend messages, for example.
Event group
Description
Priority number
Reset
Module reset or re-synchronized
5
Setup Change
Module setup changes (setup register changes, label changes, input handle changes)
10
Input Register Change
Inputs of certain modules change value (for example, input to And/Or module changes)
15
I/O State Change
I/O state changes (for example, relay closes)
20
Information
Module produces important user information
25
Warning
Module produces a warning
30
EN50160 Event
(ION8650A and ION8650B
only)
An EN50160 counter (N1 or N2) increases
50
Loss of Potential
Loss of Potential has occurred
128
Error Detected
An error has been detected
255
Setpoint
Setpoint condition goes Active or Inactive (for example, Sag/Swell module detects a
disturbance)
programmable via
module setup
The Event Log Controller module allows you to set a priority cutoff for event
logging. Any events with a priority number greater than the cutoff value are logged,
and events with lower priorities are discarded. Refer to the individual module
descriptions and the Event Log Controller module description in the ION Reference
for more details.
Events external to the module
Some events are not produced by a specific module. These events are generated
internally by the meter. Their associated priority levels are shown in the table
below.
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Chapter 13 - Logging
Event group
Description
Priority number
Factory initialize performed
Firmware or memory upgrade performed
Meter power-up or power-down
Warning
Internal modem not responding or modem recovered
30
Battery low
Telnet or serial terminal locked out
Security disabled or enabled
Failure
Communications not able to allocate required memory
255
Displaying events
View events in the following locations:
Application
© 2011 Schneider Electric. All rights reserved.
Menu / screen
Navigation
Front Panel
Event Log
ALT display mode
ION Setup
Event Log
Setup Assistant > Reports > Event Log
Vista
Meter Events
Volts/Amps tab > Meter events object
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Logging and recording capacity
The meter provides both data and event logs. The amount of memory required to
store these logs depends on the number of parameters being logged and the
frequency with which these parameters are logged.
The following equation can help determine the amount of memory required to store
data and event logs:
each record consumes (in Bytes) = [(number of parameters * 5) + 8]
The meter can also perform waveform recording. To calculate the waveform
memory usage use the following formula:
waveform memory usage (in Bytes) = [2*(number of samples per cycle) + 10]*
(number of cycles in waveform) + 30
NOTE
Round up to the nearest kilobyte after each of the above calculations.
In ION Setup, the Memory tab in the Logging folder of the Setup Assistant displays
the memory allocated to each log and the meter’s total in-use and available logging
memory.
158
© 2011 Schneider Electric. All rights reserved.
Chapter 14
Revenue
This chapter provides instructions for configuring PT/CT correction, transformer
line loss compensation and time of use.
In this chapter
PT/CT
correction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 160
Configuring PT/CT correction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 160
Transformer
Line Loss Compensation . . . . . . . . . . . . . . . . . . . . . . . . .
Configuring TLC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using the front panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using ION Setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using Vista . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Time
162
162
162
162
163
of Use . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 165
165
165
165
166
166
166
167
Configuring Time of Use . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using the front panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using ION Setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Time Of Use settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Seasonal settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Time of Use module settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Displaying Time of Use . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
© 2011 Schneider Electric. All rights reserved.
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ION8650 User Manual
PT/CT correction
The primary application for PT/CT correction is to apply correction factors for ratio
errors and phase angle errors to instrument transformers. Instrument transformer
correction reduces or eliminates the need to replace transformers in installations
where high accuracy is required.
PT/CT correction is done using the Instrument Transformer Correction (Instr
Xformer) module. There is an ITC module for each current input (I1, I2, I3) and for
each voltage input (V1, V2, V3) to the meter. Note that the correction affects only
the 1-second values in the Power Meter module. No high-speed, harmonics, or
waveform values are affected by the correction. For more information, see the ITC
(Instr Xformer) module description in the ION Reference.
Configuring PT/CT correction
In ION Setup:
1. Open the Setup Assistant for your meter. See the ION Setup Help for
instructions.
2. Select Revenue > PT/CT Correction.
3. Select Active Correction on the ITC Correction tab then click Edit. The
Transformer Correction Setup wizard appears.
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Chapter 14 - Revenue
4. Select the checkbox beside the Voltage Inputs or Current Inputs and click Next.
The first correction screen appears.
5. Select a test point and click Edit to edit the test points. Click OK to return to the
correction wizard then click Next to move to the next correction screen. Go
through all the correction screens then click Finish.
NOTE
You can select a maximum of eight (8) test points.
6. Select Active Correction on the ITC Correction tab and click Analyze to access
screens where you can input your wiring configuration and power system
information.
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Transformer Line Loss Compensation
Transformer Loss Compensation (TLC) is used when a meter’s actual location is
different from the electrical location where change of ownership occurs; for
example, where meters are connected on the low-voltage side of power
transformers when the ownership change occurs on the high-side of the
transformer. This physical separation between meter and actual billing point results
in measurable losses. Compensating for this loss - Loss Compensation - is the
means of correcting this meter reading. Losses may be added to or subtracted from
the meter registration.
Meters are usually installed on the low-voltage side of a transformer because it is
more cost-effective. There are also cases where change of ownership can occur
halfway along a transmission line where it is impractical to install a meter. In this
case, power metering must again be compensated.
NOTE
Due to the variation in installations, advanced knowledge of power systems and connection
methods is required before transformer loss compensation can be properly implemented. Data
parameters should only be programmed by qualified personnel that have appropriate training and
experience with Transformer Loss Compensation calculations.
For more information, see the Transformer Line Loss Calculations technical note.
Configuring TLC
Use ION Enterprise or ION Setup to change your meter’s TLC settings.
Using the front panel
You cannot configure Transformer Line Loss Compensation using the front panel.
Using ION Setup
The Transformer Loss screen allows you to enable/disable TLC, choose which
method you prefer (1 or 2) and configure TLC settings.
In ION Setup:
1. Open the Setup Assistant for your meter. See the ION Setup Help for
instructions.
2. Select Revenue > Transformer Loss. Click the Method Selection tab.
3. Select Loss Comp Enble to enable TLC, then click Edit.
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4. Select Comp Enabled from the dropdown list and click OK.
5. Select Comp Mthod Slct and click Edit to choose the TLC method you want to
use. Select Method 1 to use the Test Sheet method and Method 2 to use the
%Loss Constants method.
Click OK.
6. Click the tab of the TLC method you chose in the previous step and configure
the settings for that method.
Using Vista
1. Open your meter in Vista.
2. Click the Revenue tab.
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3. Click the Loss Compensation object. The Loss Compensation window
appears:
Click here to enable
Loss Compensation
calculations.
Choose either the Test
Sheet or %Loss Constants
compensation method.
These are the true instrument
transformer ratios. Normally
they coincide with the Power
Meter module’s setup.
4. Configure your values as required.
See the Transformer Line Loss Calculations technical note for more details on this
feature.
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Chapter 14 - Revenue
Time of Use
The Time of Use module may only be important if you are using the meter in a
billing application (for example, you are a power provider), as the module contains
the meter’s seasonal rate schedules. Typically, power consumers do not require
Time Of Use configuration.
See the ION Reference for more information on the Time of Use module.
Configuring Time of Use
Use ION Enterprise or ION Setup to change your meter’s Time of Use settings.
Using the front panel
You cannot configure Time of Use using the front panel.
Using ION Setup
In ION Setup:
1. Open the Setup Assistant for your meter. See the ION Setup Help for
instructions
2. Select Revenue > Time of Use.
3. Select a Time of Use program from the list (for example, Sample TOU) and click
Edit.
4. Follow the Time of Use Wizard to configure your program. Click Send to save
the TOU program on your meter.
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Time Of Use settings
The Time of Use module’s setup registers define your seasons’ start and end
dates, the day types where your rates differ, and the rate schedules for each
season’s day types. The module compares the meter’s internal clock with the
season, day, and time of day settings in these registers and changes its output
registers to reflect the current state of these settings.
Seasonal settings
The Time of Use module supports up to four separate seasons. Each seasons’
start and end dates are set into the appropriate Season setup register.
NOTE
Ensure that there is no date overlapping when defining seasons and that every day of the year is
covered by your seasons. If there are gaps between seasons, the module returns an exception
message and will not function.
If your rates do not change between seasons, you do not need to configure the
Season setup registers — by default, all Season 1 rates are in effect all year.
If you have different seasons, enter their start and end dates into the appropriate
setup registers. If your season is active on the same dates every year, you only
need to enter a single range of dates in the appropriate Season setup register. If
the active dates are different each year (for example, Season 3 becomes active
every first Monday in August), the start dates must be individually specified for
each year.
NOTE
Changes to the TOU seasons are noted in the meter’s event log.
Time of Use module settings
The Time of Use module is partially configured at the factory. Check the setup
registers to ensure that the settings match your Time of Use schedules.
Setup register
Function
Season 1- 4
These setup registers define the dates for each active season. When a season is active, the Time of Use module
uses the applicable rate schedules.
Season 1 - 4
Weekday Rates
These setup registers specify seasonal weekday rates.
Season 1 - 4
Weekend Rates
These setup registers specify seasonal weekend rates.
Season 1 - 4
Alt 1 Rates
These setup registers specify a season's daily rates during the days specified in the Alt 1 Days setup register.
Season 1 - 4
Alt 2 Rates
These setup registers specify a season's daily rates during the days specified in the Alt 2 Days setup register.
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Setup register
Function
Season 1 - 4
Holiday Rates
These setup registers specify a season's daily rates during the days specified in the Holidays setup register.
Weekdays
This register defines the days of the week for all seasons. The rates in the Season (1, 2, 3, or 4) Weekday Rates
setup registers are used on these days.
Weekends
This register defines the weekend days for all seasons. The rates in the Season (1, 2, 3, or 4) Weekend Rates
setup registers are used on these days.
Alt 1 Days
This register defines a set of alternative dates for all seasons. These dates generally have different rates from
weekdays, weekends, or holidays.
Alt 2 Days
This register is similar in function to Alt 1 Days, but contains a different set of dates.
Holidays
This register defines the holidays for all seasons. The rates defined in the Season (1, 2, 3, or 4) Holiday Rates
setup registers are used on these days.
Self Read Days
This setup register defines the dates and times that the Self Read output register pulses. If no time is entered in
this register, the Self Read output register pulses on the date specified at 12:00 AM.
Displaying Time of Use
View Time of Use values in the following locations:
Application
© 2011 Schneider Electric. All rights reserved.
Menu
Navigation
Front Panel
Active TOU Rate and Active TOU
Season screens
ALT Display mode
Vista
Time of Use Screen
Revenue tab > Time of use object
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© 2011 Schneider Electric. All rights reserved.
Chapter 15
Power quality
This chapter explains how to configure your meter’s power quality functionality.
NOTE
To help ensure meter accuracy:
Your meter must have adequate power; for power quality applications with inadequate line power, an
auxiliary power supply for the meter is recommended.
Your meter must have a properly connected protective earth ground since insufficient earth grounding
of the meter can adversely affect meter accuracy.
In this chapter
Power
quality configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 170
170
170
170
171
171
172
173
173
173
173
174
174
174
174
Configuring power quality settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using the front panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using ION Setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using Designer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sag/Swell module settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Transient module settings (ION8650A only) . . . . . . . . . . . . . . . . . . . . . .
Configuring power quality event logging . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using the front panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using ION Setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using Designer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power quality standards compliance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
EN50160 settings (ION8650A and ION8650B) . . . . . . . . . . . . . . . . . . . .
4-30 settings (ION8650A and ION8650B only) . . . . . . . . . . . . . . . . . . . .
COMTRADE settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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Power quality configuration
Power quality configuration is provided by a number of modules and frameworks,
depending on your meter type, such as the Sag/Swell module, the Transient
module, the Mains Signalling Evaluation module, and the IEC 61000-4-30
framework, among others.
See the ION Reference for more information on these modules.
For a description of the scaled operational values (SOV) feature and the alternate
scaling registers on the Power Quality page in the Vista component of
ION Enterprise, refer to “Scaled operational values” on page 70.
Configuring power quality settings
Use ION Enterprise or ION Setup to change your meter’s power quality settings.
NOTE
The Sag/Swell module’s Nom Volts setting is used by the Transient module, as well as in other power
quality features such as EN50160 and 4-30 calculations. You must set this register to enable these
power quality features. If the Sag/Swell module’s Nom Volts setup register is set to zero, these functions
are disabled. Nom Volts is typically set when the meter is put into service. If Nom Volts has not been
set, enter a value for your system’s nominal voltage (i.e., 120, 277, or 347).
Using the front panel
You cannot configure power quality from the front panel.
Using ION Setup
NOTE
COMTRADE must be DISABLED in order to configure Sag/Swell or Transients.
In ION Setup:
1. Open the Setup Assistant for your meter. See the ION Setup Help for
instructions.
2. Select the Power Quality screen.
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3. Set COMTRADE Status to Disabled, if it is enabled.
4. Click the Sag/Swell tab to record your system’s nominal voltage, set sag and
swell limits, configure sag/swell waveform recorder settings, enable
COMTRADE waveform records and set other sag/swell settings.
NOTE
The Sag/Swell module’s Nom Volts setting is used by the Transient module, as well as in other power
quality features such as EN50160 and 4-30 calculations. All power quality functions are disabled if the
nominal voltage is set to 0 (zero).
5. Click the Transient tab to set the voltage deviation threshold, set the transient
waveform recorder depth and frequency, enable COMTRADE waveform records
and set other transient settings.
NOTE
The ION8650A features dual waveform capture: Sags are recorded at 32 samples x 54 cycles.
Transients waveform capture at 512 samples x 4 cycles.
6. Re-enable COMTRADE, if necessary.
Using Designer
Open your meter in Designer and navigate to the Power Quality folder. Right-click
a module to edit.
Sag/Swell module settings
The Sag/Swell module monitors voltage waveforms for sags and swells (i.e.,
ITI [CBEMA] Type 2 and Type 3 disturbances). It then reports each disturbance’s
magnitude and duration. The Sag/Swell module can also detect sub-disturbances
during a Sag/Swell event. Settings are as follows:
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Setup
register
1
Function
Default
Swell Lim
This is the magnitude above which a voltage deviation is considered a
swell.
110
Sag Lim
This is the magnitude below which a voltage deviation is considered a
sag.
90
Change Crit
This is the amount a voltage signal must change during a disturbance to
be considered a new sub-disturbance.
10
Nom Volts1
This is the nominal power system voltage (used for all power quality
functions). Set Nom Volts to 0 (zero) to disable power quality monitoring.
0
Hysteresis
This is the difference in magnitude between the start and end limits for a
Sag/Swell. For example, if the sag limit is set to 90% and the hysteresis
is set to 2%, the voltage needs to reach 92% before the sag is
considered over.
2
EvPriority
The priority assigned to Sag/Swell module events
(0 to 255, 255 is highest).
0
The primary power system voltage is sometimes different than the PT Primary setup register value
(for example, when the PT Primary is used to indicate winding ratio rather than primary voltage).
You also need to set the EvPriority register value if you want Sag/Swell events to
be recorded in the Event Log. To enable Sag/Swell events, the EvPriority value
must be greater than the Event Log Controller module’s Cutoff value (the
recommended Sag/Swell EvPriority value is 200). To disable Sag/Swell events so
they are not recorded in the Event Log, set EvPriority to 0 (zero).
You can change Swell Lim and Sag Lim, but most applications are served by the
default values entered into these registers. The Change Crit setup register does
not need to be changed for normal operation.
Transient module settings (ION8650A only)
The Transient module monitors voltage waveforms for transient activity (i.e.
ITI [CBEMA] Type 1 disturbances). The Threshold setup register defines what
voltage disturbance magnitude is considered as transient activity. Threshold is
interpreted as a percentage of the nominal system voltage, plus 100. For example,
if you want transients recorded when voltage deviates from nominal by 20%, enter
120 into the Threshold setup register.
Setup register
1
Function
Default
Threshold
This is the magnitude at which a voltage deviation is considered a
transient.
125
EvPriority1
The priority assigned Transient module events
(0 to 255, 255 is highest).
0
By default, Transient events are not recorded in the Event Log.
You also need to set the EvPriority register value if you want Transient events to
be recorded in the Event Log. To enable Transient events, the EvPriority value
must be greater than the Event Log Controller module’s Cutoff value (the
recommended Transient EvPriority value is 200). To disable Transient events so
they are not recorded in the Event Log, set EvPriority to 0 (zero).
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Chapter 15 - Power quality
Configuring power quality event logging
Use ION Enterprise or ION Setup to change your meter’s power quality event log
settings.
NOTE
By default, Power Quality events are not included in the Event Log.
Using the front panel
You cannot configure Power Quality event logging from the front panel.
Using ION Setup
In ION Setup:
1. Open the Setup Assistant for your meter. See the ION Setup Help for
instructions.
2. Select Logging > Event Log.
3. Select Sag/Swell Event Priority (SS1 EvPriority) or Transient Event Priority (TR1
EvPriority) on the Event tab and click Edit.

To stop Sag/Swell or Transient events from being recorded in the Event Log,
set event priority to zero (0).

To include Sag/Swell or Transient events in the Event Log, the event priority
must be greater than the Event Log Cutoff (EL1 Cutoff) value. The
recommended EvPriority value for enabling event logging is 200.
Using Designer
Open your meter in Designer and navigate to the Power Quality Setup Framework.
Right-click the Sag/Swell or Transient module to edit.
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Power quality standards compliance
The ION8650 has additional frameworks and settings related to the power quality
standards below.
EN50160 settings (ION8650A and ION8650B)
The EN50160 framework is composed of numerous ION modules including: Mains
Signaling Evaluation, Harmonics Evaluation, Voltage Harmonics, Flicker, and
more.
NOTE
To avoid missing data in your EN50160 reports, use a meter with an auxiliary power option connected
to a UPS (Uninterruptible Power Supply) so that the EN50160 framework continues to operate during
power outage situations.
See “EN50160 compliance logging (ION8650A and ION8650B only)” on page 154
for information on EN50160 parameter logging.
See the Power Quality: ION Meters and EN50160 technical note for details.
4-30 settings (ION8650A and ION8650B only)
IEC 61000-4-30 power quality standard compliance is provided by a variety of ION
modules including: Power Quality Aggregator, Harmonics Measurement,
Disturbance Analyzer, Symmetrical Components, Mains Signaling Evaluation,
Sag/Swell and more.
See the 4-30 Compliance and ION Meters technical note for details.
COMTRADE settings (ION8650A and ION8650B only)
The meter can provide waveforms in COMmon format for TRAnsient Data
Exchange (COMTRADE) format. COMTRADE records are created from the
existing Waveform Recorder modules, which are connected to the COMTRADE
module.
See the COMTRADE and ION Technology technical note for details.
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Chapter 16
Displays
This chapter explains the available front panel displays. It also includes procedures
for customizing displays using ION Enterprise or ION Setup.
In this chapter
Introduction
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 176
Configuring
front panel displays . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 177
Using the front panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 177
Using ION Setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 177
Using Designer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 180
Default
front panel display screens . . . . . . . . . . . . . . . . . . . . . . . . . . . . 183
NORM mode display screens . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 183
ALT mode default display screens . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 183
TEST mode default display screens . . . . . . . . . . . . . . . . . . . . . . . . . . . . 186
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Introduction
The meter ships with pre-configured front panel display screens designed to suit
the data needs of most users. Different types of screens are available depending
on the meter’s current mode of operation (see “Modes of operation” on page 26 for
details).
Front panel displays can also be customized on your meter to show virtually any
measurement or calculation. For example, you can:
176

change displayed parameters, such as from Vll to Vln or Vllab to Vlna

adjust character size to be different on each screen

change data display settings such as backlight timeout, automatic display
scrolling, parameter update rate, display mode and display units.
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ION8650 User Manual
Chapter 16 - Displays
Configuring front panel displays
Using the front panel
You cannot configure displays from the front panel.
Using ION Setup
The following sections explain how to add or edit a display screen, and how to set
up scaling for a display.
Adding or editing a display screen
In ION Setup:
1. Open the Setup Assistant for your meter. See the ION Setup Help for
instructions.
2. Select the Displays screen.
3. Select Displays on the Front Panel tab and click Edit.
ION Setup uploads your meter’s display information to the Display Editor. This
can take a few moments.
4. Edit, rename, delete or rearrange displays as needed.
5. Click New to add a new display or click Edit to change an existing display. The
Display Setup wizard appears. There are three basic steps for creating or editing
display screens.
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
Select a Screen Type: Choose the screen type you want from the
dropdown list.

Select Parameters: Link or unlink the parameters available for your chosen
screen type. Assign your preferred display units (if required); see
“Considerations when assigning display units” on page 178 for
considerations and examples of display unit scaling.

Select Digit Display Properties: Select your display qualities, including
digit resolution and truncated or rounded last digits.
6. Click Send to save the changes in the meter.
Considerations when assigning display units
NOTE
If you want to scale all front panel values by the same scaling factor, you do not need to assign display
units to individual parameters. Instead configure the display scaling settings under the DISPLAY
SETUP menu on the front panel; see “DISPLAY SETUP menu” on page 36. You can also configure the
display scaling settings by accessing the Display Options module; see the ION Reference for more
information.
For most values, the meter determines and displays the correct units for the source
measurement, and automatically scales displayed values for readability. If these
units meet your needs, you do not need to configure display unit scaling. Assigning
display units allows you to: 1) override the default units and force a certain scaling or
2) to display units when the meter cannot determine the correct units (for example,
when the source is an output from an Arithmetic module).
For the purposes of the display units, the source parameter is assumed to be in the
base units of the Power Meter module (in other words, V, A, kW, etc.). If the source
parameter is not in the base units of the Power Meter module, the parameter may
be scaled incorrectly or display incorrect units.
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NOTE
You can only assign display units to One, Two, Three and Four Parameter screens and One, Two and
Three Parameter with Timestamp screens.
The available units are:
 Default
 V, kV, MV
 A, kA, MA
 kw, MW, GW
 kVAR, MVAR, GVAR
 kVA, MVA, GVA
 Vh, kVh, MVh
 Ah, kAh, MAh
 kWh, MWh, GWh
 kVARh, MVARh, GVARh
 kVAh, MVAh, GVAh
 LD/LG1
 IND/CAP1
 Hz
%
 Blank
1
Power factor related units will not scale or change based on the input value. They are always
assumed to be coming from a lagging source or a leading source.
The following example illustrates display unit scaling on a three parameter screen,
including the case when the parameter is not in the base units from the Power
Meter module. In the example, the kW tot value from the Power Meter module is
10000.

Parameter 1 = kW tot directly from the Power Meter module

Parameter 2 = kW tot from an Arithmetic module that has divided the Power
Meter module value by 1000, converting it to MW.

Parameter 3 = kW tot from an Arithmetic module that does not scale the value
from the Power Meter module.
Configuration
© 2011 Schneider Electric. All rights reserved.
Displayed value
Notes
Default
Parameter 1 = 10000 kW
Parameter 2 = 10
Parameter 3 = 10000
Parameter 2 and 3 do not display units because
they come from Arithmetic modules
kW
Parameter 1 = 10000 kW
Parameter 2 = 10 kW
Parameter 3 = 10000 kW
Parameter 2 and 3 do not change since they are
assumed to be in the base units of the Power
Meter module. However, parameter 2 is shown as
10 kW when it has already been scaled to 10 MW.
MW
Parameter 1 = 10 MW
Parameter 2 = 0.01 MW
Parameter 3 = 10 MW
All three parameters are scaled. However,
parameter 2 has been scaled twice.
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Using Designer
NOTE
Before you reconfigure or delete a framework, it is recommended that you make a copy. This ensures
that you can restore the framework, if necessary, without having to reinitialize the factory configuration.
To remove a data display screen
1. Open your meter in Designer.
2. Select the Display module responsible for the screen.
3. Press DELETE. This also deletes all links to that particular Display module.
If the display screen you are deleting is part of the automatic scrolling cycle, you
must reconfigure the links from the Scroll module’s Trigger outputs to the remaining
Display modules so that the following considerations hold true:

The first Display module in the scrolling cycle is linked to the Trigger 1 output of
the Scroll module.

The last Display module in the scrolling cycle (module n) is linked to the
Trigger n output of the Scroll module. For example, if your scrolling cycle
consists of 5 screens, Trigger 5 should be linked to the fifth module in the cycle.

The Wraparound setup register of the Scroll module designates the last trigger
output (Trigger n). Expanding on the previous example, since Trigger 5 is the last
trigger, the Scroll module’s Wraparound setup register would have a value of 5.
To add a new display screen
1. Create a Display module.
2. Define the modules characteristics (display format) by adjusting its setup
registers.
3. Link any required data to the Source inputs of the Display module.
If you want your new screen to appear in the automatic scrolling cycle, you must
link the Show input of the Display module to a Trigger output of a Scroll module.
To create a Disk Simulator screen
1. Create a new Display module and set the type as Disk Simulator.
2. Connect the new Display module’s first input to the Calibration Pulser module’s
Disk Position output that you want to monitor for its pulsing interval.
3. To include the newly added screen to the ALT screen list, connect the Display
module’s Show1 and Show2 inputs to the Scroll module’s last available Trigger
outputs in ALT SCROLL UP and ALT SCROLL DOWN (respectively).
You can determine the last available Trigger by right-clicking on the output to
discover the Triggers’ owners.
4. Increase the Scroll module’s Wraparound setup register by 1 to include the new
screen.
5. Configure the remaining display settings according to your needs.
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Although the Disk Simulator display is intended to show the disk behavior of
mechanical watt-hour meters, this feature can be used to monitor any accumulated
meter quantity over the time. To do this, connect the Display module’s first input to
the meter quantity and connect the second input to the maximum value that you
expect the displayed quantity to be bounded by (this can be any output register or
an External Numeric module register). In a case where the Display module is not
connected to a Calibration Pulser module, the Disk Simulator revolves from left to
right.
If the associated Calibration Pulser module is set for NET accumulation, and a
negative value is accumulated and sent to the Disk Simulator display, the negative
number on the display will be a negative accumulation, but the display disk will still
go from left to right (forwards). To make the display disk go from right to left
(backwards), set the associated Calibration Pulser module’s Int Mode register to
reverse.
NOTE
The inputs to the Disk Simulator display are always positive. If the value exceeds the maximum scale
value assigned in the second input, nothing is displayed except labels and the disk rectangle.
To configure leading zeros
The leading zeros and decimal point in a numeric display can be configured with
the Display module setup register Screen Resolution. For example, the number
276.3443 can be configured in one of the following ways, depending on the
selection you make in the Screen Resolution setup register:
Value
276.3443
Screen resolution
1.x
=
276.3
1234.xx
=
0276.34
123456.
=
000276.
If the Screen Resolution setup register is set to DEFAULT, the Display module uses
the resolutions defined in the Display Options module.
Last digit mode
The Display module setup register Last Digit Mode lets you specify whether to
truncate or round a value’s last digit. Numbers round up at 5 or greater and round
down from 1 to 4. A truncated value disposes of any digits after the number of
decimal places that you specified in the Screen Resolution setup register.
Screen resolution = 1.xxx
© 2011 Schneider Electric. All rights reserved.
Value
=
276.35192
Rounded
=
276.352
Truncated
=
276.351
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To configure parameter titles
The parameter value on a display screen is the value of an output connected to the
Display module Source input register. By default, the displayed parameter’s title is
the name of the output connected to the Source input. The Display module Source
Title setup register lets you change the default to a title that better describes your
system. For example, if “KWh Net” is linked to the first Source input, you can
change its display name by setting Source 1 Title to “KWh Net West”. A maximum
of 25 characters is permitted.
See “Changing TEST mode timeout” on page 192 for information on configuring
TEST mode display timeouts.
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Default front panel display screens
Each mode of operation (NORM, ALT and TEST) has its own display screens,
providing various power system data and meter properties screens.
NORM mode display screens
The meter comes factory-configured with the NORM mode displays detailed
below. If the settings in the Scroll module have not been altered, each screen is
displayed for five seconds (if no front panel buttons are pressed).
Display scrolling is suspended when a front panel button is pressed, allowing you
to manually scroll through the display screens using the up or down arrow buttons.
If required, refer to “Front panel features” on page 20 for more instructions on using
the front panel buttons.

kWh: This screen displays kWh delivered and received values.

kVARh: This screen displays kVARh delivered and received values.

kVAh: This screen displays kVAh delivered and received values.

Peak Demand Delivered: This screen displays the maximum delivered kW,
kVAR, kVA values and a timestamp of when the peak occurred. These values
are sliding window (rolling block) demand calculations.

Peak Demand Reset Count: This screen displays a count of the number of
demand resets executed as well as a timestamp of the latest peak demand
reset.

Q Metering: This screen displays approximated VARh measurements, one
phase (60 degrees) behind the normal watthour connection (90° - 330° and 150°
- 270°).

Disk Simulator: This display simulates the behavior of a mechanical watt-hour
meter indicating power received or delivered by the direction of the pulse.

All Segments: This is a screen test where a black screen showing all segments
(all pixels on) indicates that the display is functioning properly.
ALT mode default display screens
The meter comes factory-configured with the ALT mode displays detailed below. If
the settings in the Scroll module have not been altered, each screen is displayed
for five seconds if no front panel buttons are pressed (until five minutes have
elapsed).
Viewing ALT display modes
1. Press the Alt/Enter button once to toggle between the NORM and ALT display
modes.
2. Press the up or down arrow buttons to scroll back or forth through the displays.
If no buttons are pressed, the meter reverts back to NORM mode after five minutes.
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NOTE
These screens vary depending on the firmware version on the meter and custom display configuration.

Name Plate 1: The Name Plate 1 screen contains information on owner, TAG1,
TAG2, battery life, and firmware version and feature set of the meter.
TAG1 and TAG2 typically identify the meter’s user and installed location. The
Owner and TAG registers are located in the Factory module and are
configurable with ION Enterprise or ION Setup. See “How to TAG your meter”
on page 40.

Name Plate 2: This screen displays the following information for the current
sliding window (rolling block) demand settings:
Sliding Window (Rolling Block)
CONFIG
Length of the demand period multiplied by the number of demand periods
UPDATE
Length of the demand period
SYNC
Clock synchronization source
MAX (kW)
1
184
Maximum kW Demand1
The MAX (kW) value is a maximum allowable demand level based on installed transformer
configurations and nominal voltages and currents.

Event Log: The Event Log screen displays up to four of the most recent, high
priority events (priority 255 only). The date, a timestamp, an event description,
and an event code are provided for each event displayed. If more than four high
priority events have been recorded, the Event Log screen indicates additional
logs exist. Refer to “Data logging” on page 148 for more details.

Phasor Diagram: This screen shows phasors and numeric values for each
phase current and phase voltage measurement.

Instantaneous Voltage: This screen shows the phase voltage and average
voltage (line-to-neutral or line-to-line voltage, depending on the meter’s service
type).

Instantaneous Current: This screen shows the phase current and average
current values.

Instantaneous Power: This screen shows kW total, kVAR total, kVA total and
signed Power Factor total values.

Instantaneous Demand: This screen shows kW delivered and received from the
sliding window (rolling block) demand calculation.

Voltage Harmonics: These screens show per-phase voltage harmonic
histograms.

Current Harmonics: These screens show per-phase current harmonic
histograms.

Instantaneous Demand: This screen shows kW delivered and received.
© 2011 Schneider Electric. All rights reserved.
ION8650 User Manual
Chapter 16 - Displays

Flicker (ION8650A and ION8650B only): This screen displays flicker
measurements from V1, V2 and V3.

Frequency: This screen displays frequency information.
ALT mode Time of Use (TOU) display screens
The ALT mode TOU display screens are factory-configured to show Time of Use
(TOU) data. The measurements displayed originate from frameworks of modules
that are linked to a TOU module. By default, only one season is configured in the
sample TOU schedule; until you configure other seasons, all data appears under
that one season. For details about the TOU module, refer to the ION Reference.
By default, all demand values result from sliding window (rolling block)
calculations.
NOTE
The following abbreviations are used on the TOU display screens:
PB = Past Billing period. A billing period is the time between two consecutive meter readings for billing
purposes by a utility.
PS = Previous Season. Billing Seasons are defined in the TOU module description in the ION
Reference.

Active TOU Rate: This screen shows which of the valid TOU billing rates is
active.

Active TOU Season: This screen shows which TOU billing season is currently
active.

TOU Energy by Rate: This screen shows kWh delivered values for each TOU
rate.

kW Peak Demand: These screens display the maximum kW delivered value for
each TOU rate. These values result from sliding window (rolling block) demand
calculations.

Past Billing Energy: This screen displays the kWh delivered values for each
TOU rate in the previous billing period.

Past Billing Peak Demand: These screens display the maximum kW delivered
value for each TOU rate in the previous billing period. These values result from
sliding window (rolling block) demand calculations.

Past Season Energy: This screen displays the kWh delivered for each TOU rate
in the past billing season. These values result from sliding window (rolling block)
demand calculations.

Past Season Peak Demand: These screens display the maximum kW delivered
for each TOU rate in the past billing season.

Past Billing/Season Energy: These screens display the kWh delivered and
received values in the past billing period and billing season.

Past Bill/ Season Pk Demand: These screens show the maximum kW received
values in the past billing period and billing season. These values result from a
sliding window (rolling block) demand calculation.

Past Billing/Season Energy: These screens display the kVARh delivered and
received values in the past billing period and billing season.
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
Past Bill/Season Pk Demand: These screens display the maximum kVAR
delivered and received values in the past billing period and billing season. These
values result from a sliding window (rolling block) demand calculation.

Past Billing/Season Energy: These screens display the kVAh delivered and
received values in the past billing period and billing season.

Past Bill/Season Pk Demand: These screens display the maximum kVA
delivered and received values in the past billing period and billing season. These
values result from a sliding window (rolling block) demand calculation.
TEST mode default display screens
The values shown in the TEST mode display screens represent different
accumulators than those shown in NORM mode (although they perform some of
the same basic measurements). The TEST mode display values are for the
purpose of checking accuracy; they only accumulate while the meter is in TEST
mode.
Viewing TEST mode
There are two ways to switch the meter into TEST mode depending on the type of
meter you have:

Standard meter (without hardware lock): You must use ION Enterprise or
ION Setup; refer to “Switching to TEST mode” on page 189.

Standard hardware-locked meter: You must remove the cover from the meter
and press the TEST mode button; refer to “Performing a master reset from the
front panel” on page 199 for detailed instructions on removing the meter’s
cover.
When the meter is in TEST mode, the front panel cycles through four TEST mode
display screens:
186

kWh Test: This screen shows TEST mode kWh delivered and received values.

kVARh/KVAh Test: This screen shows TEST mode kVARh/KVAh delivered and
received values.

Instantaneous Demand Test: This screen shows TEST mode kW delivered and
received values. Both quantities are produced from a sliding window (rolling
block) demand calculation. This value is reset if the demand reset switch is
turned while the device is in TEST mode.
© 2011 Schneider Electric. All rights reserved.
Chapter 17
TEST mode
This chapter describes your meter’s TEST mode and explains how to switch from
Normal mode to TEST mode.
In this chapter
Introduction
Switching
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 188
to TEST mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 189
Using the front panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 189
Using ION Setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 189
Using Vista . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 191
Changing
TEST mode timeout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 192
Using the front panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 192
Using ION Setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 192
Using Designer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 193
TEST
mode default display screens . . . . . . . . . . . . . . . . . . . . . . . . . . . 194
TEST
mode LED energy pulsing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 195
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Introduction
TEST mode is typically used for verifying meter function. The meter is usually
reading data from a test power supply while these functions are performed.
Several things to note about TEST mode:

All of the billing quantities that are recorded when the meter is in Normal mode
stop accumulating when the meter is switched to TEST mode — the data is sent
to special TEST mode registers instead.

The values accumulated in these test registers are displayed on the front panel
and in ION Enterprise or ION Setup.

The regular normal mode billing registers are unaffected while the meter is in
TEST mode; accumulation of this data continues as soon as you exit TEST
mode.

All test registers are reset to zero when you exit TEST mode.
NOTE
The meter always returns to NORM mode when you exit TEST mode, even if you entered TEST mode
from ALT mode.
You cannot place a hardware-locked meter in TEST mode using ION Enterprise or
ION Setup. The meter must be placed in TEST mode using the front panel.
Refer to the PowerLogic ION8650 accuracy verification technical note for final
accuracy verification test details and procedure.
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Chapter 17 - TEST mode
Switching to TEST mode
Place the meter into TEST mode using the front panel, ION Setup or Vista. The
meter’s front panel informs you when the meter is in TEST mode with a special
display screen.
Using the front panel
The TEST mode button on the meter is located beneath the outer cover. You must
first remove the cover to access the button. Refer to the ION8650 Installation guide
for instructions and safety precautions.
TEST
MODE
HAZARD OF ELECTRIC SHOCK
Wear PPE and take precautions not to touch the meter’s lever contact switches if accessing the front panel buttons of a switchboard meter.
Failure to follow these instructions will result in death or serious injury.
After you remove the outer cover, press the TEST mode button.
NOTE
If you have a hardware-locked meter, only the basic communications parameters can be changed in
NORM mode. You must enter TEST mode to change other meter parameters on the hardware-locked
meter. See “Additional revenue metering security” on page 68 for more details.
Using ION Setup
NOTE
You cannot place a hardware-locked meter in TEST mode using ION Setup. The meter must be placed
in TEST mode using the front panel. See “Using the front panel” on page 189.
In ION Setup:
1. Open the Setup Assistant for your meter. See the ION Setup Help for
instructions.
2. Select the Verification screen.
© 2011 Schneider Electric. All rights reserved.
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3. Select Test Mode on the Verification tab and click Edit. Enter your meter
password if prompted. A dialog box informs you that the meter is in Test mode.
Click OK.
The Test Mode screen appears and test values are displayed.
Click on the tabs to perform various test-related tasks. See the ION Setup online
help for more information.
4. Click Scaling on the Energy tab if you want to apply PT/CT scaling to the values
displayed in Test mode. The default is OFF (no scaling is applied).
5. Click Loss Mode on the Volts, Amps and Power tab if you want any
transformer loss compensation that you have configured applied to values in
TEST mode.
6. Click Close. A dialog box informs you that the meter is back in Normal mode.
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Chapter 17 - TEST mode
Using Vista
NOTE
You cannot place a hardware-locked meter in TEST mode using ION Enterprise. The meter must be
placed in TEST mode using the front panel. See “Using the front panel” on page 189.
1. Open your meter in Vista.
2. Select the Setup/Diagnostics tab and click General Setup.
3. Select the Test Mode option for Meter Mode. You are prompted for the
ION Enterprise user password. If meter security is enabled, you are also
prompted for the meter password. For more information see the Vista section of
the online ION Enterprise Help.
© 2011 Schneider Electric. All rights reserved.
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Changing TEST mode timeout
If no front panel buttons are pressed, the meter exits TEST mode after 30 minutes
(1800 seconds) by default, if the default TEST mode timeout value has not been
changed. The timeout value resets to 30 minutes each time you press any front
panel button. While in TEST mode, the value on the bottom right of the status bar
indicates the amount of time before TEST mode times out. The meter always
returns to NORM mode when the TEST mode timeout elapses.
The timer indicates
the TEST mode
timeout.
You can change the value of the TEST mode timeout using ION Enterprise,
ION Setup or the front panel.
Using the front panel
Follow these steps to change the TEST mode timeout using the front panel:
NOTE
You must be in TEST mode to change the TEST mode timeout if your meter is hardware-locked.
1. Enter the SETUP menu by holding down the ALT/ENTER button.
2. Scroll through the menu items, highlight DISPLAY OPTIONS, and press the
ALT/ENTER button.
3. Scroll down and highlight the TEST MODE TO menu item. Press ALT/ENTER.
The current TEST mode timeout is displayed.
4. Enter the new value of the TEST mode timeout in seconds. Use the up or down
arrow buttons to change the value of the highlighted digit. Press the up or down
arrow button to change the position of the highlight cursor. Press the ALT/
ENTER button.
5. Select YES to confirm the change. Enter the meter password if prompted.
Using ION Setup
In ION Setup:
1. Connect to the meter in Advanced Mode. See the ION Setup Help for
instructions.
2. Locate the Display Options module in the module list and double-click to open
the module.
3. Click the Setup Registers tab and double-click the Test Mode Timeout setup
register.
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Chapter 17 - TEST mode
4. Set the Test Mode Timeout to the desired time. You can choose from a numeric
bounded format or an elapsed interval format.
5. Click Send to save the changes to the meter.
Using Designer
1. Open your meter in Designer.
2. Double-click the Display Setup folder.
3. Right-click on the Display Options module to access the setup registers. Select
the Test Mode Timeout setup register and click Modify to edit.
4. Set the Test Mode Timeout to the desired time.
5. Click OK to send the changes to the meter.
© 2011 Schneider Electric. All rights reserved.
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TEST mode default display screens
The values shown in the TEST mode display screens represent different
accumulators than those shown in NORM mode (although they perform some of
the same basic measurements). The TEST mode display values are for accuracy
checking purposes; they only accumulate while the meter is in TEST mode.
In TEST mode, the front panel cycles through four TEST mode display screens:
194

kWh TEST: This screen shows TEST mode kWh delivered and received values.

kVARh/KVAh TEST: This screen shows TEST mode kVARh/KVAh delivered and
received values.

Instantaneous Demand TEST: This screen shows TEST mode kW delivered and
received values. Both quantities are produced from a sliding window (rolling
block) demand calculation. This value is reset if the demand reset switch is
turned while the device is in TEST mode.
© 2011 Schneider Electric. All rights reserved.
ION8650 User Manual
Chapter 17 - TEST mode
TEST mode LED energy pulsing
Above the display screen are two pairs of energy pulsing LEDs and infrared
outputs. The LEDs and IR outputs are factory-configured to pulse while the meter
is in TEST mode.
VAR infrared
output
WATT infrared
output
The Kt label
indicates the
default pulsing
rate
WATT LED
VAR LED
The energy pulsing LEDs provide an interface for accuracy checking instruments.
The Kt label indicates the factory-configured pulsing rate. (You can change the
energy pulsing frequency with ION Enterprise or ION Setup.) See “Configuring
energy pulsing” on page 144 for more information on configuring the LED settings.
© 2011 Schneider Electric. All rights reserved.
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ION8650 User Manual
© 2011 Schneider Electric. All rights reserved.
Chapter 18
Resets
This chapter provides instructions for performing various meter resets.
In this chapter
Performing
a reset . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 198
198
198
199
199
199
199
199
200
200
201
202
Performing a master reset . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Parameters affected by a master reset . . . . . . . . . . . . . . . . . . . . . . . . . .
Performing a demand reset . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Parameters affected by a demand reset . . . . . . . . . . . . . . . . . . . . . . . . .
Demand Lockout Time . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using the front panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Performing a master reset from the front panel . . . . . . . . . . . . . . . . . . . .
Performing a demand reset from the front panel . . . . . . . . . . . . . . . . . . .
Using ION Setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using Vista . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Master resets and hardware-locked meters . . . . . . . . . . . . . . . . . . . . . . . . . .
© 2011 Schneider Electric. All rights reserved.
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Performing a reset
Resets allow you to clear various accumulated parameters stored by the meter.
Performing a master reset
To perform a master reset on a hardware-locked meter, you must remove the front
cover and press the master reset button. See “Master resets and hardware-locked
meters” on page 202 for more information.
With a meter that is not hardware-locked, you can perform a master reset via
software. It does not have to be in TEST mode.
NOTE
Be sure to record any important data before performing a meter reset.
Parameters affected by a master reset
The master reset deletes most accumulated values and all derived revenue
measurements from the meter, clears the meters event and waveform logs, and
clears COMTRADE waveform records from the meter’s internal FTP server. The
mode that the meter is in (NORM mode or TEST mode - see “Modes of Operation”
on page 31) defines the values that are reset.
NORM or ALT mode
In NORM or ALT mode, the following parameters are reset to zero:

Energy and Demand

Peak Demand

Loss Calculation

Long-term Min/Max

Power Quality disturbance counters

Time of Use
The following are cleared:

Event Log

All Data Recorders

All Waveform Recorders

All COMTRADE files
TEST mode
All TEST mode Energy and Demand measurements are set to zero.
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Chapter 18 - Resets
Performing a demand reset
Parameters affected by a demand reset
The mode that the meter is in (for example, NORM mode or TEST mode) defines
the values that will be reset.

NORM mode: resets the peak demand values logged in the meter.

TEST mode: resets the test demand parameters to zero.
Demand Lockout Time
The setup register labeled Demand Lockout Time (Display Options module) sets
the minimum time allowed between consecutive demand resets; the meter ignores
any attempts to reset the demand outside the bounds of the register.
The default value for the Demand Lockout time is 25 days. For details on the
Demand Lockout Time setup register, refer to “Configuring demand reset lockout
time” on page 126.
For more details on the Display Options module, see the ION Reference.
Using the front panel
Performing a master reset from the front panel
The master reset button is recessed to avoid accidental activation. You must first
remove the meter’s cover before you can perform a master reset.
MASTER
RESET
HAZARD OF ELECTRIC SHOCK
Wear PPE and take precautions not to touch the meter’s lever contact switches if accessing the front panel buttons of a switchboard meter.
Failure to follow these instructions will result in death or serious injury.
1. Remove the front cover of the meter. Refer to the ION8650 Installation guide
for instructions and safety precautions.
2. Using a pin or similar instrument, press and hold the master reset button until a
message displays stating that the master reset is in progress.
NOTE
Do not configure or power down your meter until the meter’s front panel displays a message stating that
the master reset is complete. If you configure or power down your meter during a master reset, the
affected parameters may not be completely reset.
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Performing a demand reset from the front panel
The demand reset switch can be activated with the cover on or off.
In most applications, the demand reset switch is sealed with an anti-tamper
mechanism; a through-hole in the switch can accommodate either an external seal
or a locking mechanism. See “Demand reset switch seal” on page 69 for details of
anti-tamper sealing.
Using ION Setup
In ION Setup:
1. Open the Setup Assistant for your meter. See the ION Setup Help for
instructions.
2. Select the Verification screen.
3. Select Normal Mode and click Display.
4. Select the desired tab in the Normal Mode dialog box. Two resets are available:
Peak Reset and Master Reset. Click the appropriate button to perform the reset
(Peak Demand in the example below).
NOTE
The master reset is not accessible via software in a hardware-locked meter, whether the meter is in
TEST, ALT or NORM mode. A master reset on a hardware-locked meter can only be performed from
the front panel. See “Master resets and hardware-locked meters” on page 202 for details.
With a meter that is not hardware-locked, you can perform a master reset via software. It does not need
to be in TEST mode.
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Chapter 18 - Resets
A dialog box informs you when the reset is complete.
NOTE
Do not configure or power down your meter until a message appears stating that the master reset is
complete. If you configure or power down your meter during a master reset, the affected parameters
may not be completely reset.
Using Vista
Open your meter in Vista. You can perform several resets from within Vista.
Performing a master reset
NOTE
The master reset is not accessible via software in a hardware-locked meter, whether the meter is in
TEST, ALT or NORM mode. A master reset on a hardware-locked meter can only be performed from
the front panel. See “Master resets and hardware-locked meters” on page 202 for details.
With a meter that is not hardware-locked, you can perform a master reset via software. It does not need
to be in TEST mode.
1. Click the Setup/Diagnostics tab and click the General icon.
2. Click the Master Reset icon.
NOTE
Do not configure or power down your meter until a message appears stating that the master reset is
complete. If you configure or power down your meter during a master reset, the affected parameters
may not be completely reset.
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Performing a peak demand reset
1. Click the Revenue tab and click the Demand Max icon.
2. Click the Peak demand reset icon.
Performing a Min/Max reset
1. Click the Volts/Amps tab and click the Long-term min/max icon.
2. Click the Reset Min/Max icon.
Performing a Sag/Swell or Harmonics Min/Max reset
1. Click the Power Quality tab
2. Click Reset counters to reset the disturbance counters. Click the Harmonics
Details icon then click Reset Min/Max to reset the harmonics min/max values.
Master resets and hardware-locked meters
The master reset is not accessible via software in a hardware-locked meter,
whether the meter is in TEST, ALT or NORM mode. A master reset on a hardwarelocked meter can only be performed from the front panel.
TEST mode
In TEST mode, a screen is displayed stating that the master reset is unavailable:
Normal mode, Locked
In this case the meter attempts the master reset, but revenue and event logs are
not cleared. The rest of the master reset is successful.
202
© 2011 Schneider Electric. All rights reserved.
Chapter 19
Setpoints
This chapter provides instructions for configuring meter setpoints.
In this chapter
Introduction
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 204
Configuring
setpoints . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 205
205
205
205
205
206
Using the front panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using ION Setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using Vista . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Relative Setpoint module settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Fine tuning over condition monitoring . . . . . . . . . . . . . . . . . . . . . . . . . . .
© 2011 Schneider Electric. All rights reserved.
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Chapter 19 - Setpoints
ION8650 User Manual
Introduction
The Relative Setpoint module provides extensive non-critical control, secondary
protection, and analysis capabilities by allowing you to initiate an action in
response to a specific condition. It is particularly useful for performing actions
based on differences between a value (for example, kW on phase A) relative to a
reference value (for example, kW demand for all three phases). Use this module’s
outputs for demand control of equipment or any other applications requiring
setpoint activity relative to a varying value. See the ION Reference for more
information on the Relative Setpoint module.
HAZARD OF UNINTENDED OPERATION
• Do not use the meter for critical control or protection applications where human or
equipment safety relies on the operation of the control circuit.
• Be aware that an unexpected change of state of the digital outputs may result when the
supply power to the meter is interrupted or after a meter firmware or template upgrade.
Failure to follow these instructions can result in death, serious injury or equipment
damage.
204
© 2011 Schneider Electric. All rights reserved.
ION8650 User Manual
Chapter 19 - Setpoints
Configuring setpoints
Use ION Enterprise or ION Setup to change your meter’s setpoints.
Using the front panel
You cannot configure setpoints using the front panel.
Using ION Setup
In ION Setup:
1. Connect to your meter in Advanced Mode.
2. Click on the Relative Setpoint module you want to configure.
Using Vista
Open your meter in Vista and click on the Setpoints tab. Click the Setup icon. Use
the switches to turn various monitoring on and off (see circled below). Click the
numeric boxes to edit condition settings.
Relative Setpoint module settings
By default, the following Relative Setpoint modules are configured:
Label
Description
Over KW sd
When active, this annunciates when the total kW sliding window demand
exceeds a specified amount.
Over I a
When active, this annunciates when the current on phase A exceeds a
specified amount.
Over I b
When active, this annunciates when the current on phase B exceeds a
specified amount.
Over I c
When active, this annunciates when the current on phase C exceeds a
specified amount.
Over V unbal
When active, this annunciates if the voltage unbalance exceeds a
specified amount.
Phase 1 loss, Phase 2
loss, Phase 3 loss
When active, these annunciate if the phase voltage drops below the Sag/
Swell module’s Nom Volts register by a specified amount.
V1, V2, V3 (+/- 15%)
for 10m, 10s, 3s
When active, these annunciate when the phase voltage deviates from the
Sag/Swell module’s Nom Volts register by a specified amount.
NOTE
There is usually no need to change any of the Relative Setpoint modules’ setup registers for normal
operation of the meter.
See the ION Reference for more information on the Relative Setpoint module.
© 2011 Schneider Electric. All rights reserved.
205
Chapter 19 - Setpoints
ION8650 User Manual
Fine tuning over condition monitoring
If you want to fine-tune over condition monitoring, the only setup registers you
should change are SusUntlON and SusUntlOFF.
SusUntlON determines how long the modules wait after an over condition is
detected before reporting it. This gives the monitored value a short period to correct
itself before the event is registered with the module so that very brief over
conditions are ignored. Similarly, SusUntlOFF is the amount of time a normal value
must be present before the module considers normal operation to be restored.
Both SusUntlON and SusUntlOFF values are entered in seconds.
206
© 2011 Schneider Electric. All rights reserved.
Chapter 20
Reports
This chapter provides instructions for viewing various meter reports and logs.
In this chapter
Introduction
Viewing
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 208
meter logs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 209
Using the front panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 209
Using ION Setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 209
Using Vista . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 210
© 2011 Schneider Electric. All rights reserved.
207
Chapter 20 - Reports
ION8650 User Manual
Introduction
Accumulated meter values are saved in logs. These logs can be acquired by your
energy management software (such as ION Enterprise) and saved in its database
for analysis and reporting.
The Web Reporter component of ION Enterprise is a database reporting
application that lets you define, generate, and manage comprehensive reports
based on the information in your system database. It processes selected data and
generates a finished report.
For more information on reports, see the Web Reporter section of the online
ION Enterprise Help.
208
© 2011 Schneider Electric. All rights reserved.
ION8650 User Manual
Chapter 20 - Reports
Viewing meter logs
View meter logs using ION Enterprise, ION Setup or the front panel.
Using the front panel
The front panel only displays recent high priority events (Event Log).
Press ALT/ENTER to access the ALT display then press the up and down arrow
buttons to navigate to the Event Log.
Using ION Setup
In ION Setup:
1. Open the Setup Assistant for your meter. See the ION Setup Help for
instructions.
2. Select the Reports screen.
3. Select one of the logs or comparisons in the list and click Display to view the
associated log.
Below is an example of an Events Log.
© 2011 Schneider Electric. All rights reserved.
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Chapter 20 - Reports
ION8650 User Manual
4. You can view, save or print the log. Click Close to exit.
See also “Viewing data log information” on page 155 for information on viewing
data log information in ION Setup.
Using Vista
Open your meter in Vista and click on the various tabs available. Click an icon to
view the associated logs. The following logs are available in Vista:


Volts/Amps tab:

Meter Events

Voltage

Current

Power

Frequency/PF
Revenue tab:


210
Logged Interval data
Power Quality tab:

Harmonics Trending

Transient & Sag/Swell Statistics CBEMA

Waveforms/Sequence of Events

EN50160
© 2011 Schneider Electric. All rights reserved.
A
ALT mode
display screens 183
time of use screens 185
alt mode
switching to 26
analog outputs 137
B
basic setup
front panel menu 31
bus wiring 81
C
Calibration Pulser module 135, 142
CBEMA/ITIC 171, 172
clock
configuration 118
configuring 120
Clock module 118
communications breakout cable 83
communications options 75
communications options, ION8650C 76
communications overview 74
configuring leading zeros 181
configuring parameter titles 182
configuring the meter for ModemGate 94
connections
RS-232 79
RS-485 81
CTR-21 compliant modem 92
current
harmonics display 184
D
data
historical logging 152
data logging
viewing 155
daylight savings time 121
default logging framework 150
demand
configuring 125
overview 124
demand forgiveness 127
demand reset 199
demand reset lockout time, configuring 126
demand reset switch 20
Digital Input module 137
Digital Output module 135
digital outputs 135
display setup
menu 36
displays
ALT mode 183
assigning units 178
configuring 177
default displays 183
disk simulator 24
histogram 24
nameplate 23
numeric 22
phasor 24
status bar 22
time and date 24
time stamped 25
types 22
DNP 3.0 protocol 108
E
EN50160
logging 154
energy pulsing
configuring 144
energy pulsing with LEDs 143
EtherGate 87
Ethernet connections 86
ethernet setup 34
event
event log displays 184
Event log and nameplate displays 23
Event Log Controller module 156
event logging 156
displaying 157
event priority 156
external events 156
F
features
front panel 20
format setup menu 36
front panel
accessing the setup menu 28
adjusting contrast 22
com ports setup 32
configuring leading zeros 181
configuring parameter titles 182
demand reset switch 20
display setup 36
ethernet setup 34
format setup 36
LED pulsers 20
master reset button 21
navigation buttons 21
optical port 21
security setup 37
TEST mode button 21
front panel changes
confirming 30
front panel features 20
G
harmonics
logs 153
histogram displays 24
histograms
front panel 184
historic data log 152
modem
internal 91
ModemGate 93
configuring the meter for 94
modes of operation 26
alt mode 26
norm mode 26
test mode 27
molex extension cables 76
MV-90 152
MV90 115
MV-90 protocol 115
I
N
I/O
navigation buttons 21
using 30
norm mode 26
display screens 183
numeric displays 22
getting more information 17
H
specifying an I/O port 134
I/O Expander 133
IEC 61000-4-30
logging 155
IEC 61850 protocol 110
instantaneous measurement displays 184
internal modem 91
ION Enterprise
reporting 153
ION8650C communications options 76
IRIG-B time synchronization 119
L
LED pulsers 20
logging
4-30 155
changing log depths 151
changing log frequency 151
configuring 148
default configuration 151
default framework 150
EN50160 154
energy demand 153
events 156
harmonics 153
historical data 152
loss log 152
recording capacity 158
sag/swell 153
transient 153
loss log 152
M
Mains Signalling Evaluation module 170
master reset button
location of 21
parameters affected 198
master resets on hardware-locked meters
202
Modbus, meter as master 103
Modbus, meter as slave 99
O
onboard digital inputs 136
optical port 21
configuring 84
optical probe 76
out of range screen 30
over condition monitoring 206
P
passwords
to upgrade devices 46
Periodic Timer module 151
phasor diagram displays 24
phasor diagrams
front panel 184
Power Meter module 50
power quality setup 170
Pulser module 135, 142
R
Relative Setpoint module 204
revenue log 152
RS-232
connections 79
RS-485
connections 81
RS-485 connections
biasing 82
methods to avoid 82
S
sag/swell
logging 153
Sag/Swell module 171
Scaled operational values (SOV) 70
security
anti-tamper sealing 68
device access for software services 67
disabling via front panel 38
hardware lock 68
security setup menu 37
serial com settings 32
serial connections 79
setup
power quality 170
setup menu
accessing via front panel 28
basic 31
com ports 32
configuring with navigation buttons 30
confirming changes 30
network setup 34
returning to previous screen 30
serial com settings 32
Sliding window demand module 124
status bar 22
T
test mode
displays screens 186
LED energy pulsing 186
switching to 27
time out 192
TEST mode button 21
time of use
configuring 165
seasons 166
Time of Use module 165
time synchronization 119
IRIG-B 119
TOU
front panel screens 185
transient logging 153
Transient module 170, 172
U
upgrading meter 44
V
voltage
harmonics display 184
W
Waveform Recorder module 150
PowerLogic™ ION8650
User guide
Schneider Electric
2195 Keating Cross Road
Saanichton, BC V8M 2A5 Canada
For technical support:
[email protected]
(00) + 1 250 544 3010
Contact your local Schneider Electric sales
representative for assistance or go to
www.schneider-electric.com
ION, ION Enterprise, Modbus, Modicon, PowerLogic, Schneider Electric and WebMeter are either
trademarks or registered trademarks of Schneider Electric in France, the USA and other countries.
Other trademarks used are the property of their respective owners.
Electrical equipment should be installed, operated, serviced, and maintained only by qualified
personnel. No responsibility is assumed by Schneider Electric for any consequences arising out of
the use of this material.
70002-0306-00 05/2011
© 2011 Schneider Electric All Rights Reserved
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