How can I …
Implement a cost-effective energy
monitoring system for small to
medium buildings using Com'X 510?
Tested Validated Documented Architecture
Develop
your project
Important Information
People responsible for the application, implementation and use of this document must make sure
that all necessary design considerations have been taken into account and that all laws, safety
and performance requirements, regulations, codes, and applicable standards have been obeyed
to their full extent.
Schneider Electric provides the resources specified in this document. These resources can be
used to minimize engineering efforts, but the use, integration, configuration, and validation of the
system is the user’s sole responsibility. Said user must ensure the safety of the system as a
whole, including the resources provided by Schneider Electric through procedures that the user
deems appropriate.
Notice
This document is not comprehensive for any systems using the given architecture and does not
absolve users of their duty to uphold the safety requirements for the equipment used in their
systems, or compliance with both national or international safety laws and regulations.
Readers are considered to already know how to use the products described in this document.
This document does not replace any specific product documentation.
The following special messages may appear throughout this documentation or on the equipment
to warn of potential hazards or to call attention to information that clarifies or simplifies a
procedure.
The addition of this 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
DANGER indicates a hazardous situation which, if not avoided, will result in death or serious
injury.
WARNING
WARNING indicates a hazardous situation which, if not avoided, could result in death or
serious injury.
CAUTION
CAUTION indicates a hazardous situation which, if not avoided, could result in minor or
moderate injury.
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© 2015 Schneider Electric All Rights Reserved
NOTICE
NOTICE is used to address practices not related to physical injury.
Note: 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.
A qualified person is one who has skills and knowledge related to the construction, operation and
installation of electrical equipment, and has received safety training to recognize and avoid the
hazards involved.
Before You Begin
This automation equipment and related software is used to control a variety of industrial
processes. The type or model of automation equipment suitable for each application will vary
depending on factors such as the control function required, degree of protection required,
production methods, unusual conditions and government regulations etc. In some applications
more than one processor may be required when backup redundancy is needed.
Only the user can be aware of all the conditions and factors present during setup, operation and
maintenance of the solution. Therefore only the user can determine the automation equipment
and the related safeties and interlocks which can be properly used. When selecting automation
and control equipment and related software for a particular application, the user should refer to
the applicable local and national standards and regulations. The National Safety Council’s
Accident Prevention Manual also provides much useful information.
Ensure that appropriate safeties and mechanical/electrical interlocks protection have been
installed and are operational before placing the equipment into service. All mechanical/electrical
interlocks and safeties protection must be coordinated with the related automation equipment and
software programming.
Note: Coordination of safeties and mechanical/electrical interlocks protection is outside the scope
of this document.
START UP AND TEST
Before using electrical control and automation equipment for regular operation after installation,
the system should be given a start up test by qualified personnel to verify the correct operation of
the equipment. It is important that arrangements for such a check be made and that enough time
is allowed to perform complete and satisfactory testing.
WARNING
EQUIPMENT OPERATION HAZARD
•
Follow all start up tests as recommended in the equipment documentation.
•
Store all equipment documentation for future reference.
•
Software testing must be done in both simulated and real environments.
Failure to follow these instructions can cause death, serious injury or equipment
damage.
Verify that the completed system is free from all short circuits and grounds, except those grounds
installed according to local regulations (according to the National Electrical Code in the USA, for
example). If high-potential voltage testing is necessary, follow recommendations in the equipment
documentation to prevent accidental equipment damage.
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© 2015 Schneider Electric All Rights Reserved
Before energizing equipment:
•
Remove tools, meters, and debris from equipment
•
Close the equipment enclosure door
•
Remove ground from incoming power lines
•
Perform all start-up tests recommended by the manufacturer
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© 2015 Schneider Electric All Rights Reserved
OPERATION AND ADJUSTMENTS
The following precautions are from NEMA Standards Publication ICS 7.1-1995 (English version
prevails):
Regardless of the care exercised in the design and manufacture of equipment or in the selection
and rating of components; there are hazards that can be encountered if such equipment is
improperly operated.
It is sometimes possible to misadjust the equipment and thus produce unsatisfactory or unsafe
operation. Always use the manufacturer’s instructions as a guide for functional adjustments.
Personnel who have access to these adjustments should be familiar with the equipment
manufacturer’s instructions and the machinery used with the electrical equipment.
Only those operational adjustments actually required by the operator should be accessible to the
operator. Access to other controls should be restricted to prevent unauthorized changes in
operating characteristics.
WARNING
UNEXPECTED EQUIPMENT OPERATION
•
Only use software tools approved by Schneider Electric for use with this equipment.
•
Update your application program every time you change the physical hardware
configuration.
Failure to follow these instructions can cause death, serious injury or equipment
damage.
INTENTION
This document is intended to provide a quick introduction to the described system. It is not
intended to replace any specific product documentation, nor any of your own design
documentation. On the contrary, it offers information additional to the product documentation on
installation, configuration and implementing the system.
The architecture described in this document is not a specific product in the normal commercial
sense. It describes an example of how Schneider Electric and third-party components may be
integrated to fulfill an industrial application.
A detailed functional description or the specifications for a specific user application is not part of
this document. Nevertheless, the document outlines some typical applications where the system
might be implemented.
The architecture described in this document has been fully tested in our laboratories using all the
specific references you will find in the component list near the end of this document. Of course,
your specific application requirements may be different and will require additional and/or different
components. In this case, you will have to adapt the information provided in this document to
your particular needs. To do so, you will need to consult the specific product documentation of the
components that you are substituting in this architecture. Pay particular attention in conforming to
any safety information, different electrical requirements and normative standards that would apply
to your adaptation.
It should be noted that there are some major components in the architecture described in this
document that cannot be substituted without completely invalidating the architecture,
descriptions, instructions, wiring diagrams and compatibility between the various software and
hardware components specified herein. You must be aware of the consequences of component
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© 2015 Schneider Electric All Rights Reserved
substitution in the architecture described in this document as substitutions may impair the
compatibility and interoperability of software and hardware.
CAUTION
EQUIPMENT INCOMPATIBILITY OR INOPERABLE EQUIPMENT
Read and thoroughly understand all hardware and software documentation before attempting
any component substitutions.
Failure to follow these instructions can result in injury or equipment damage.
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© 2015 Schneider Electric All Rights Reserved
This document is intended to describe the network architecture for a cost-effective energy
monitoring system for small to medium facilities, using the Com'X 510 digital and analog inputs
and meter data.
DANGER
HAZARD OF ELECTRIC SHOCK, BURN OR EXPLOSION
•
Only qualified personnel familiar with low and medium voltage equipment are to perform
work described in this set of instructions. Workers must understand the hazards involved in
working with or near low and medium voltage circuits.
•
Perform such work only after reading and understanding all of the instructions contained in
this bulletin.
•
Turn off all power before working on or inside equipment.
•
Use a properly rated voltage sensing device to confirm that the power is off.
•
Before performing visual inspections, tests, or maintenance on the equipment, disconnect
all sources of electric power. Assume that all circuits are live until they have been
completely de-energized, tested, grounded, and tagged. Pay particular attention to the
design of the power system. Consider all sources of power, including the possibility of back
feeding.
•
Handle this equipment carefully and install, operate, and maintain it correctly in order for it
to function properly. Neglecting fundamental installation and maintenance requirements
may lead to personal injury, as well as damage to electrical equipment or other property.
•
Beware of potential hazards, wear personal protective equipment and take adequate safety
precautions.
•
Do not make any modifications to the equipment or operate the system with the interlocks
removed. Contact your local field sales representative for additional instruction if the
equipment does not function as described in this manual.
•
Carefully inspect your work area and remove any tools and objects left inside the
equipment.
•
Replace all devices, doors and covers before turning on power to this equipment.
•
All instructions in this manual are written with the assumption that the customer has taken
these measures before performing maintenance or testing.
Failure to follow these instructions will result in death or serious injury.
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© 2015 Schneider Electric All Rights Reserved
Table of Contents
1.
Introduction
1.1.
1.2.
1.3.
1.4.
2.
13
15
Network Architecture
Verification Results
Validation Results
15
16
16
Wiring
Com'X 510 and EGX100 Serial Port Configuration
Communication Settings for Serial Devices
Device Setup in the Com'X 510
Operation
5.1.
5.2.
6.
13
Selected Architecture
Configuration and Implementation
4.1.
4.2.
4.3.
4.4.
5.
10
10
10
11
Design and Validation
3.1.
3.2.
3.3.
4.
Purpose
Customer Challenges
Prerequisites
About this Document
Selection
2.1.
3.
10
19
22
22
22
25
Viewing Data for Serial or Ethernet Devices
Viewing Data for Devices through Digital or Analog Inputs
Maintenance
6.1.
6.2.
19
25
25
26
Com'X 510 Maintenance
Device Maintenance
26
26
7.
Conclusion
27
8.
Appendix
28
8.1.
8.2.
Bill of material and software
Reference documents
28
28
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1 - Introduction
1.
Introduction
1.1.
Purpose
The purpose of this document is to provide tested, validated, and documented instructions for
deploying the Com'X 510 Energy Server as an alternative to an energy monitoring software
solution. The target application is for small to medium buildings, including:
•
Small schools, clinics, shops, retail convenience or chain stores
•
Group housing, apartment blocks and high-end residential
•
Small to medium hotels
•
Colleges
•
General offices and public buildings
This document describes the network architecture for an entry-level energy monitoring solution
for these types of facilities using the Com'X 510 inputs combined with meter data. The
architecture supports multiple connection types such as:
•
Devices connected to the Com’X 510 inputs
•
Serial connections
•
Ethernet remote connections
When properly configured, the Com'X 510 can display logged and real-time data through web
pages on the Com'X 510, as well as through data log publication.
1.2.
Customer Challenges
This document is intended to meet the following challenges for customers:
•
No direct and detailed view of energy usage before receiving utility bills.
•
High cost of deploying an energy monitoring system for system integrators.
•
Complex setup of an energy monitoring system involving hardware and software
components.
1.3.
Prerequisites
1.3.1.
System Prerequisites
The devices below were used in the validation of the TVD. However, you can substitute devices
to include: energy meters, high-end meters, medium range meters, circuit breakers, and WAGES
devices. Schneider Electric recommends limiting the Com'X 510 to 32 serial loads and 64 total
devices.
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1 - Introduction
1.3.2.
Software/Firmware Supported
Notes on version support
Com'X 510, firmware v1.0.12
No device substitution supported.
EGX100, firmware v3.0
Substitute any low-end Modbus gateway with
access to remote devices.
EM6400, firmware v3.05.03
Substitute any electrical Modbus meter.
ION 7330
Specific firmware version was not validated.
Substitute any high-end meter
PM3250, firmware v1.0.901
PM870, firmware v12.200 OS
PM5350, firmware v3.0.4 OS
PM1200, firmware v3.05.03
Substitute any medium range power meter.
Powerpact A, firmware v2.2.7
Substitute any circuit breaker, for example a
Masterpact.
IFM, firmware 1.1.1
--
SHO 100 Humidity Sensor
Substitute any 0-10V or 4-20mA device.
STO 300 Temperature sensor
Substitute any 0-10V or 4-20mA device.
Competencies
To use the Com'X 510 for energy monitoring as specified, you must be familiar with:
1.4.
•
A standard web browser.
•
Functionality of the selected meters, breakers, and WAGES devices.
About this Document
This document is structured as follows:
The Introduction gives an overview of the reason for the architecture and the prerequisites
necessary to achieve it.
The Selection section explains when you would choose this as a solution for a customer need.
The Design and Validation section explains the architecture and design of the deliverables as
well as how to verify proper function, and includes any information the lab has collected regarding
the performance and limits of the architecture.
The Configuration and Implementation section describes how to set up the architecture.
The Conclusion attempts to summarize the key aspects you should follow to achieve the
architecture. Read this section if you want to quickly assess your capability to understand and
follow the procedures in the document.
The Appendix provides reference materials and additional instructions for advanced
configurations.
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© 2015 Schneider Electric All Rights Reserved
1 - Introduction
Document Section
Target
Audience
Introduction
Selection
Design &
Validation
Execution
Center
Designers
√
√
√
√
Sales/Bid
Responders
√
√
√
√
Business
Development
√
Application
Engineers,
Project Staff
Technical
Support
√
Configuration &
Implementation
Operation
Maintenance
√
√
√
√
√
√
Conclusion
√
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2 - Selection
2.
Selection
This TVD network architecture describes the network architecture for a switched mode
connection with Com'X 510 and EGX100 gateways connected to the Ethernet network via an
upstream switch. The EGX100 was chosen as a passthrough gateway for this solution because it
allows remote access to connected devices.
This architecture is appropriate for customers who:
2.1.
•
cannot connect to a hosted energy monitoring service for network isolation reasons.
•
need a entry-level option for energy monitoring, without the high costs of software licenses,
specialized hardware (such as server computers), support, and training.
Selected Architecture
WAGES devices are connected both locally on the Com'X 510 inputs and serial port and remotely
through the EGX100 serial port. The Com'X510 communicates with the EGX100 gateway through
Ethernet. Energy consumption information can then be viewed for all devices in a web browser
with the Com'X 510 Monitoring features and/or in an external application using the Publication
feature.
The devices for the selected architecture are:
•
•
Electrical Modbus meters
•
EM6400
•
ION 7330
•
PM3250, PM800 Series, PM5350, PM1200
Circuit breakers
•
Powerpact A
•
Pulse devices
•
Gateway
•
•
PowerLogic EGX 100 Ethernet Gateway
0-10V or 4-20mA devices
•
SHO 100 Humidity Sensor
•
STO 300 Temperature sensor
This system is monitoring a single-phase 110 V AC voltage source (see Design for an electrical
power diagram).
The drawing below describes the network architecture:
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2 - Selection
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3 - Design and Validation
3.
Design and Validation
Your actual performance will vary, depending on environment, duty cycle, load type,
and other factors.
3.1.
Network Architecture
The network architecture supports a switched mode connection with Com'X 510 and EGX100
gateways connected to the Ethernet network via an upstream switch. Three of the meters
(PM3250, EM1200 and EM6400) are serially connected to the EGX100 and the rest of the meters
are serially connected to the Com'X 510. Pulse meters and sensors are connected to the Com'X
510 digital and analog inputs.
Below is the lab panel layout for the architecture:
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© 2015 Schneider Electric All Rights Reserved
3 - Design and Validation
A TWIDO programmable logic controller was configured with TwidoSuite software v2.20 to
generate two continuous pulse outputs at an interval of 100ms. These pulses are used as inputs
to a water or gas custom pulse devices. These devices are based on custom models in the
Com'X 510 Custom Library and are used to simulate water and gas flow rates. Com'X 510
product testing confirms that these types of meters are supported by Com'X 510.
3.2.
Verification Results
Commissioning the Com'X 510 for this architecture was completed in 23 minutes and 12
seconds, and includes the following configuration steps:
1.
Upgrade firmware over USB (to v1.0.10).
2.
Log in to the Com'X.
3.
Verify the firmware is installed.
4.
Set up publication.
5.
Set up date/time.
6.
Set up logging interval.
7.
Configure Site information.
8.
Add all devices (8)
9.
Turn on publishing.
10. Turn on data logging.
The serial devices were added using the Device Discovery feature. Custom models were created
for the gas and water meters and humidity and temperature sensors, and this is included in the
commissioning time.
3.3.
Validation Results
The Com'X 510 has built-in web pages for viewing real-time data and data stored on the box. The
Monitoring tab provides real-time and historical chart views for devices through the gateway, and
the Measurements Table provides views for equipment connected downstream. You can also
refer to published data logs for each device for further data analysis. See Operation for details on
using Com'X 510 energy monitoring features.
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3 - Design and Validation
The Year over Year Energy dashboard allows you to view total usage for each month:
You can then view detailed monthly usage with Historical Trending, which displays all data
points logged within the selected date range. For each topic, you can view up to four devices on
the same graph. Below displays the value for each logging interval for the month of July:
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© 2015 Schneider Electric All Rights Reserved
3 - Design and Validation
You can also view the current status of your system to look for unexpected usage, such as high
after-hours energy usage. Real Time Data allows you to view detailed information for a single
device or a summary of multiple devices:
Single Device View for PM3250
Summary Device View: Power for PM3250 and PM870s
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© 2015 Schneider Electric All Rights Reserved
4 - Configuration & Implementation
4.
Configuration and Implementation
Refer to the documentation for each device in the selected architecture for complete instructions
and safety information (see 8.2 Reference documents). Below are the configuration steps for the
selected architecture. Processes may vary based on device substitutions.
4.1.
Wiring
Below is the 2-wire RS485 wiring diagram for connecting serial devices to the Com'X 510 and
EGX100. Note that the selected device labels use a variety of symbols for RS485 wiring, and this
drawing highlights examples of these differences.
4.1.1.
Gateways
Below is the wiring diagram for the EGX100 serial port and power supply. Refer to the EGX100
Installation Guide for complete instructions (see 8.2 Reference documents).
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© 2015 Schneider Electric All Rights Reserved
4 - Configuration & Implementation
4.1.2.
Micrologic and Powerpact Breakers
Powerpact Wiring Diagram to Com’X510 through the IFM:
4.1.3.
Analog Sensors
SHO100 humidity sensor wiring diagram to the Com’X510 in 0–10 V configuration:
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4 - Configuration & Implementation
SHO100 humidity sensor wiring diagram to the Com’X510 in 4–20 mA configuration:
STO300 Temperature Sensors 4–20 mA Wiring Diagram
4.1.4.
Pulse Devices
TWD LMDA 20RT modular controller base was used to generate digital pulses, simulating digital
gas and water meter inputs. Refer to the installation guide for your specific pulse meter(s) for
wiring instructions (see 8.2 Reference documents).
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© 2015 Schneider Electric All Rights Reserved
4 - Configuration & Implementation
4.2.
Com'X 510 and EGX100 Serial Port Configuration
Serial communication settings for all devices on the serial bus must be the same and match the
gateway settings. For example, values for EGX100 and Com'X510 for this TVDA are:
4.3.
•
Physical interface: RS485 2-Wire
•
Number of stop bits: 1
•
Baud rate: 19200
•
Parity: None
•
Response Timeout: 200 ms for EGX 100 and 1000 ms for Com'X 510
Communication Settings for Serial Devices
Serial communication settings for all devices on the serial bus must be the same and match the
gateway settings. Values for this TVDA are:
4.3.1.
•
Baud rate: 19200
•
Parity: None
Configuring the EM6400
You can use the meter display to configure Baud rate and parity for the EM6400.
4.3.2.
Configuring the ION7330
Serial communications are available on COM1, and COM2. To enable communications through
the meter serial ports, configure the applicable communications module. The Protocol, Tran
delay, Baud rate, and unit ID setup registers must properly match your system and can be set
through the meter front panel or ION software.
4.3.3.
Configuring the PM1200
You can use the meter display to configure Baud rate and parity for the PM1200.
4.3.4.
Configuring Micrologic and Powerpact Breakers
You can communicate with a Micrologic or Powerpact circuit breaker through the IFM
communication module. Use the two coding wheels on IFM front panel to set the Modbus
address. The IFM module automatically detects the Baud rate and parity of the connected
breaker when it is connected to the Modbus serial port.
4.4.
Device Setup in the Com'X 510
To view energy consumption data on the Com'X 510, devices must be added to the Com'X 510
hierarchy and configured for logging.
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4 - Configuration & Implementation
4.4.1.
Adding Devices
To add remote and local serial devices and digital inputs in the Com'X 510 Device Settings:
•
Use Device Discovery to discover the devices that are locally connected to the Modbus
serial port and the downstream EGX100.
•
Create or import the provided custom models for pulse meters.
•
Add an input to the Com'X 510 under Digital and Analog Inputs.
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© 2015 Schneider Electric All Rights Reserved
4 - Configuration & Implementation
After the devices are added in the Com'X 510, the Device Settings tab displays the hierarchy:
4.4.2.
Configuring Devices for Logging
Each device logs certain measurements by default. You can customize the measurements to be
logged and published for each device from Device Settings. Then, you can start data logging in
the Commissioning main tab. The Com'X 510 User Manual contains a quick start guide for
setting up data logging (see 8.2 Reference documents).
4.4.3.
Publishing .csv Data Logs
For devices that are not viewable in the Monitoring tab, you may want to publish data logs for
analysis outside the Com'X 510. You can set up the device log publication type (.csv) and
frequency in Settings > General Settings > Publication. Then, start publication from the
Commissioning main tab.
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© 2015 Schneider Electric All Rights Reserved
5 – Operation
5.
Operation
The Com'X 510 provides views of real-time data along with historical data log trends and
dashboards. After the devices are configured for logging, you can view data on the Monitoring
and/or Measurements Table tab. Alternatively, you can view data logs for all devices in the
published .csv files.
NOTE: Power outages or device reboot may cause small gaps in data.
5.1.
Viewing Data for Serial or Ethernet Devices
For most devices connected to the Com'X 510 or EGX100 serial port, the Monitoring tab
displays:
•
Real Time Data for single or multiple devices.
•
Energy Dashboards for comparing usage on a device time over time.
•
Historical Trending for comparing usage on multiple devices for a topic or multiple topics for
a single device.
See the Com'X 510 User Manual for a list of devices that are not viewable in the Monitoring tab
(see 8.2 Reference documents).
5.2.
Viewing Data for Devices through Digital or Analog Inputs
Data from devices on the Com'X 510 digital and analog inputs are not available in the Monitoring
tab. To view real time data for these devices, click the Measurements Table main tab, then scroll
to the device.
You can also refer to the published .csv data logs for historical data.
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© 2015 Schneider Electric All Rights Reserved
6 – Maintenance
6.
Maintenance
6.1.
Com'X 510 Maintenance
Update the Com'X firmware to the latest version as it becomes available, and clear browser
cache after each firmware upgrade. You can find the latest firmware version in the Shopping
Kiosk, the Solutions Expert Community, or the Com'X range page at www.schneider-electric.com.
Always back up the configuration before upgrading the Com'X 510 or after making any changes
to the configuration.
6.2.
Device Maintenance
See the documentation for each connected WAGES device for maintenance related to the
device's hardware or firmware (8.2 Reference documents).
If you need to replace a connected device, you can also replace it within the Com'X 510 device
tree view with the Replace Device feature. This allows you to update hardware with the same or
similar device type while maintaining continuity in data reporting.
Before replacing or removing a device, you must stop data logging and publishing in the
Commissioning tab. After replacement, restart data logging and publishing.
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© 2015 Schneider Electric All Rights Reserved
7 - Conclusion
7.
Conclusion
This tested, validated, and documented architecture allows you to deploy the Com'X 510 energy
server as an alternative to an energy monitoring software solution for small to medium buildings,
including:
•
Small schools, clinics, shops, retail convenience or chain stores
•
Group housing, apartment blocks and high-end residential
•
Small to medium hotels
•
Colleges
•
General offices and public buildings
These instructions describe how to implement an architecture that supports devices connected to
the Com’X 510 inputs and serial port as well as Ethernet remote connections through the
EGX100.
Logged and real-time data can be viewed through Com'X 510 web pages and published data
logs, providing a timely and detailed view of energy consumption for a facility, all at a lower cost
to the end customer.
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© 2015 Schneider Electric All Rights Reserved
8 - Appendix
8.
Appendix
8.1.
Bill of material and software
The following table summarizes all of the selected hardware. As noted in the Introduction, some
of these devices can be substituted for devices with similar functionality:
Description
Reference
Firmware or
software version
Function
Com'X 510
EBX510
1.0.12
Energy server used for energy monitoring
EGX100
Modbus
Gateway
EGX100SD
3.020
Passthrough gateway for providing access to
remote devices
EM6400
EM6400IE DM 1.0RS
3.05.03
Modbus electrical meter
ION 7330
S7330A0B0B0E0A0A
N/A
Modbus electrical meter
PM3250
METSEPM3250
v1.0.901
Modbus electrical meter
PM870
PM870
v12.200 OS
Modbus electrical meter
PM5350
METSEPM5350
v3.0.4 OS
Modbus electrical meter
PM1200
METSEPM1200
3.05.03
Modbus electrical meter. Firmware is not
upgradable.
PowerPact A
HDL36030U54XEH
V2.2.7
Circuit breaker
IFM
TRV00210
v1.1.1
Modbus interface module for communicating
with PowerPact circuit breaker
SHO 100
SHO100
N/A
Humidity sensor
STO 300
STO300
N/A
Temperature sensor
Web browser
PC or mobile device
Windows XP, Vista, or
Windows 7
Allows viewing of logged and real time data
for energy monitoring
8.2.
Reference documents
The following table is a list of documents you might want to refer to when more details are
needed. They are available at www.schneider-electric.com or in the Schneider Electric Shopping
Kiosk. Enter the document reference in the search box.
Document title
Com'X 200, 210, 510 Instruction Sheet
Reference
253534170
Com'X 510 User Manual
DOCA0098EN
Com'X 200 Metering and Data Acquisition System Installation
Guide
DOCA0035EN
PowerLogic Ethernet Gateway EGX100 Installation Guide
63230-319-200
PowerLogic Ethernet Gateway EGX100 User Guide
63230-319-204
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8 - Appendix
Document title
Reference
Breaker Status Control Module (BSCM) with NSX Cord for
PowerPact™ H-, J-, and L-Frame Circuit Breakers Instruction
Bulletin
SHO100 Outdoor Humidity Sensor Instructions
0FL4201001
STO 300 Temperature Sensor Instructions
0FL4183001
Twido PLC TWDLMDA20DRT Programmable Controllers
Hardware Guide
TwidoSuite V2.3 Programming Guide
35011387
35011386K01000
EM6400 Series Power Meter Quick Start Guide
CTD7302
EM6400 User Manual
NHA12535
ION 7330 Installation Guide
70002-0198
ION 7330 User Manual
70002-0162
PM3250/3255 Instruction Sheet
S1B46607
PM3200 Series User Manual
DOCA0006EN
PM800 Series Power Meter Installation Guide
63230-500-282
PM800 Series Power Meter Quick Reference Guide
8.3.
S1A80374
3000DB0808
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1.0
Original version
Katie Cullen
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© 2015 Schneider Electric All Rights Reserved
8 - Appendix
30
© 2015 Schneider Electric All Rights Reserved
PowerLogic™, Twido™, and TwidoSuite™ are trademarks or registered trademarks of Schneider Electric. Other
trademarks used herein are the property of their respective owners.
Schneider Electric Industries SAS
Head Office
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Due to evolution of standards and equipment,
characteristics indicated in texts and images in this
document are binding only after confirmation by our
departments.
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Version 1.0 – 04/2015