Transcript Cnctvty2

C O N N E C T I V I T Y
Table of Contents
Communications Overview
Base System
CONI Card and Twisted Pair
CONI Card and MINT
Digiboard
Remote communication to CH devices
Remote communication to CH devices
Base system
Multiple Display
Multiple
Multiple
Multiple
Multiple
Multiple
display
display serial connection
display Point to Point Network card
display Local Area Network
display Local Area Network Ethernet Bridge
Interfacing with other manufacturers’
Power Monitoring Systems
Enhanced Graphics
Communication with other kinds of systems
Building Management System (BMS), Distributed
Control Systems (DCS), Programmable Logic
Controllers (PLC)
Communication with other kinds of systems
Building Management System (BMS), Distributed
Control Systems (DCS), Programmable Logic
Controllers (PLC)
Modbus Gateway
Mint
Direct interface
Special configurations
Communication with other manufacturers’ devices and
networks
Enhanced Graphics: Wonderware InTouch
Introduction
Section 1
1-1
1-3
1-6
Section 2
2-1
2-2
Section 3
3-1
3-5
3-16
3-20
3-25
Section 4
4-1
Section 5
5-1
5-4
5-9
5-21
5-28
Section 6
6-1
For further information contact Power Management Application Support (PMAS) at 1-800-809-2772 (USA and Canada) or 412-490-6814. For referenced
documents (IL’s, Application Notes) contact APSC or dial FRED (Fax Retrieval of Engineering Documents) at 412-494-3745.
C O N N E C T I V I T Y
Table of Contents
Appendix A
Cables
A-1
Appendix B
Dip switch setting (CONI, MINT)
B-1
Appendix C
Line drivers and media converters settings
C-1
Index of Companies
Glossary
For further information contact Power Management Application Support (PMAS) at 1-800-809-2772 (USA and Canada) or 412-490-6814. For referenced
documents (IL’s, Application Notes) contact APSC or dial FRED (Fax Retrieval of Engineering Documents) at 412-494-3745.
C O N N E C T I V I T Y
Communications
Overview
Introduction
The purpose of a communication network is to move data from one place to another. Our customers are using
communication networks for literally thousands of reasons including providing information to decide how to allocate
energy costs, determining the efficiency of a given process, alerting them of problems with their distribution system,
and helping troubleshoot systems when an interruption occurs. They are also using communications to remotely
control processes. The advent of communications has dramatically improved the productivity and efficiency of
processes. As with all of our products, different processes have different requirements that a communication system
needs to fill. A commercial office building looking to bill once a month has a much different spec for communication
than a transfer line in an automotive plant. As a result, there are several different types of communications devices
and systems. Our customers will evaluate several things when determining which communication system is right for
them. These include:
Installed cost - sensor, communication device, network wire, display hardware & software
# of sensors supported on a network
Distance - How spread out the devices are & how much wire is required to connect them
Throughput - Amount of data that is needed to be transmitted per unit time
Reliability of data - Certainty that the data sent is data received
Availability of network - What is the uptime of the network under various conditions
Connectivity - How easily is data transferred between different networks
A communication system has “ratings and features”, much like the other C-H product. This discussion will attempt to
define the characteristics and terminology of communication networks and give a feel for what a customer is looking for
in a network.
Sensors
There are several individual parts required for a communication network. The first part is taking the data from a
sensor (i.e. a current transformer) and converting that data (0-5 amps) to an analog or digital signal. The product
that originally performed this function was a transducer (i.e. a current transducer). It took the 0-5 amps and converted
it to a proportional analog signal (i.e. 4-20 mA, 0-10V, etc.). That method proved to be fast, but expensive. In addition
to the sensor and transducer, a shielded 3 conductor cable and a translator (i.e. an analog input module in a PLC) for
each piece of information was required. That meant 3 transducers, 9 wires, 18 terminations, 3 analog inputs for 3
phase currents alone. The information could also only be sent relatively short distances.
L1 L2 L3
CURRENT
TRANSDUCER
CT
(3)
CURRENT
TRANSDUCER
CURRENT
TRANSDUCER
VOLTAGE
TRANSDUCER
PT
(3)
VOLTAGE
TRANSDUCER
VOLTAGE
TRANSDUCER
ANALOG
INPUT
ANALOG
INPUT
P
R
O
DIGITAL INPUT C
E
S
ANALOG
S
INPUT
O
ANALOG
R
ANALOG
INPUT
INPUT
ANALOG
INPUT
DIGITAL INPUT
Analog network - 1 circuit
With the introduction of the microprocessor came digital devices & networks - the ability to take the current (0-5
amps), convert the raw number to 1’s and 0’s (i.e. an IQ Energy Sentinel) and send it to another place. There was no
advantage if you sent a single phase current, but if you sent all 3 phases, all 3 voltages, energy, power, status and
control, the reduction in cost was substantial (up to a 4 fold reduction). The data messages in a digital network are
typically sent serially - one data message after another. A key component of the success of digital communications is
getting the data where it needs to be when it needs to be there. That time includes sensing the data, sending it over
the network, and translating the data into a usable format (i.e. present it on a computer screen or present it to another
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C O N N E C T I V I T Y
device so that it can interpret it and act on it). In an analog network, the time includes the translation in the analog
module, the scan time in the PLC plus the time it takes to display it. The time it takes for a specific amount of data to
complete that cycle is throughput of a network.
The Physical Layer
The next step is to get that data (1’s & 0’s) from one point to another - that is called the physical characteristic or
physical layer of a network. The physical layer consists of several components.
1) Topology: How the two points will be connected together. Networks are typically connected in 3 modes.
 Point to Point
One device connected to another device. Advantages: simple, inexpensive for one device
communicating to another. Disadvantage: Very expensive for more than 2 devices - requires additional
repeaters or communication ports.
 Bus
Multiple devices connected together on a single wire. Advantages: simple, inexpensive, for
multiple devices. Disadvantage: If line is broken, lose communication to devices beyond break.
Energy
Sentinel
W
IQ
Energy Sentinel
PONI
Val ues
Westinghouse
Digital
Protection
kA
inco m
Cell No.
IA
Digitrip RMS 810IB
IC
High Load
IG
COMPUTER WITH
SERIES III AND CONI
Peak - MW
Present - MW
Energy - kWH
PONI
Normal
Event
Relay
Program
W
Westinghouse
IQ Analyzer
2.425
RES
W
Reset
Westinghous e
IQ - 1000 II
Reset
IA=
372.81
371.25
IB=
373.47
IC= AMPERES
Step
Trip
RES
Alarm
Function
TRND EVNT HARM DEMD
Digitrip R MS Rating Plug
Long Delay
Cat.
S1 - 7
Setting
Long Delay Frame R ati ngS2 - 8
Time - Sec.
M1 - 8
.5
40- 60 Hz Only
M2 -10
10
Battery Check
Breaker Tr ips
Test Amp s
Short Delay
Pickup
6T
2
Short Delay
Time - Sec.
Test
.4
Gnd. Fault
Inst. Trip
Time - Sec.
Test
3
.2
Unit
Status
Inst.
Gnd
Previo us F1
Level
F2
Current
Voltage
Power (Watts)
Power (Var s)
Power (VA)
Energy
Gnd. Fault
Pickup
C
F3
F4
Val ue
Home
Demand
Power Factor
Frequency
Up
% THD
Distortion Factor Down
Custom
Mode
Protecti on
Step U p
Program
Set Poi nts
Step D ow n
HELP
Progr am
Step
Help
IQ 1000 II
IQ Analyzer
Digitrip 810
CH DEVICES
DEVICESMPACC
 Ring
Multiple devices connected together on a single wire forming a loop. Advantages: If data line breaks,
messages still can be heard by all devices. Disadvantage: More expensive, doubles wiring and
communication costs.
Energy
Sentinel
W
IQ
Energy Sentinel
PONI
Val ues
COMPUTER WITH
SERIES III AND CONI
Westinghouse
Digital
Protection
kA
inco m
Cell No.
IA
Digitrip RMS 810IB
IC
High Load
IG
2.425
Reset
Peak - MW
Present - MW
Energy - kWH Step
Digitrip R MS Rating Plug
Long Delay
Cat.
S1 - 7
Setting
Long Delay Frame R ati ngS2
-8
Time - Sec.
M1 - 8
.5
40- 60 Hz Only
M2 -10
10
Battery Check
Breaker Trips
Test Amp s
Short Delay
Pickup
6T
2
Short Delay
Time - Sec.
Test
.4
Gnd. Fault
Inst. Trip
Time - Sec.
Test
.2
3
Unit
Status
Inst.
Gnd. Fault
Pickup
C
Gnd
Digitrip 810
PONI
Normal
Event
Relay
Program
W
Westinghouse
IQ Analyzer
RES
Reset
RES
Alarm
Function
TRND EVNT HARM DEMD
Previo us F1
Level
Current
Voltage
Power (Watts)
Power ( Vars)
Power (VA)
Energy
Program
F2
F3
F4
W
Westinghouse
IQ - 1000 II
Trip
IA=
372.81
371.25
IB=
373.47
IC= AMPERES
Val ue
Home
Demand
Power Factor
Frequency
Up
% THD
Distortion Factor Down
Custom
Help
IQ Analyzer
Mode
Protecti on
Step U p
Program
Set Poi nts
Step D ow n
HELP
Step
IQ 1000 II
CH DEVICES
Each of the above may be redundant - two wires running in parallel such that if one wire breaks, the network is
still intact.
2) Media: How the network is physically connected together. Data is typically transmitted over (in increasing cost):
 Straight wires - An example is telephone cable (26 gauge, 4 conductor)
 Twisted Shielded Pair (TSP) - 2 conductor, twisted wire with a metal shield around it. The wire is
twisted and shielded to help prevent electrical noise from getting onto the wire or from the
communication wire into other circuits. (Noise is not good because it can change the 1’s to 0’s, changing
the value of the data.)
 2 TSP - Two twisted shield pair of wires in a single cable used for networks that have separate transmit
receive requirements or that send duplicate signals down 2 cables to check for data corruption.
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C O N N E C T I V I T Y
 Coax cable - A single conductor surrounded by a plastic material, a shield, and an outside coating.
 Fiber Optic Cable - A thin glass or plastic tube used to conduct light signals.
 Air - No physical wires.
3) Physical Signaling - The signal level and type used to get the 1’s and 0’s down the network. Examples include:
 Voltage level - Different voltage levels mean a 1 or a 0 (i.e. +12V=1, -12V=0)
 Impedance - Different impedance’s signify 1 or 0.
 Frequency - Different frequency levels (FSK- FM radio is an example) or amplitudes of the
frequency(ASK- AM radio…) mean 1 or 0.
 Light - Presence or absence of light mean a 1 or 0.
The physical spec contributes to cost, how many devices are supported on the network, the distance the network will
cover, the reliability of the data, and the availability of the data. A point to point network, over existing spare telephone
lines, using voltage signals may be inexpensive for data from one device, but is expensive if you communicate to more
than one device (one wire to each device) and the data is not very reliable as electrical noise can corrupt the data
easily. A bus network, using twisted shielded pair with FSK signaling is slightly more expensive than existing cables,
but it can support lots of devices and data reliability is very good (FSK signals are more immune to electrical noise).
Protocol
Now that the data can get from one place to another, we have to define a format such that the both ends of the network
understand what the various combinations of 1’s and 0’s mean - that is the network’s protocol. The protocol consists
of:
1) Access method or bus arbitration - who decides when a device sends data. There are several types of networks:
 Master - slave
A single device (i.e. a personal computer) controls and manages the communications on the network. It
asks for information from devices (slaves) on its network and gives information to the slaves.
 Peer to peer
Each of the devices on a network can talk on the network, unsolicited, directly to any other device on the
network. The communication is managed in a couple of ways. One method is a token, or permission to
speak, is passed around the network to each device in turn. It tells what it has to say and asks what it
needs to know, then passes the token to the next device. Another method is multiple access, collision
detection. In that method, a given device checks for network activity if it needs information or needs to
send information. If no one else is talking, it starts. If another device is talking, it waits until the first device
is done. If two devices talk at once, both devices realize it, stop talking, each wait a predetermined amount
of time before starting again. Each device on the network has a different amount of wait time, depending
on its priority and the amount of time since it last spoke.
2) Message Structure - What size, how messages are organized, and what messages mean. Each 1 or a 0 is a
single bit. A message can consist of any number of bits. The position of the bit as well as its value (0,1) is important
and defined by the protocol. Messages contain overhead, information necessary to determine where the message
came from, the type of message it is, the device address, error detection, and start/stop designation, in addition to
the data that is being transferred. The amount of overhead varies by protocol and has a significant impact on the
through put of a network (i.e. a protocol that defines a 25 bit message that requires 1 start, 1 stop bit, a 5 bit
address, 5 bits error detection, 1 bit for data message indication, leaves only 12 bits for data. To transfer 96 bits of
data, requires 200 bits to be transmitted.).
3) Baud Rate - How fast data is transmitted, usually designated in bits per second (i.e. 9600 baud = 9600 bits per
second or approx. 0.02 seconds to transmit 200 bits).
To make communications work for you, you have to define the sensor, the physical characteristics of the
communication network, the protocol that the network will use, and write software to interpret the data once it gets
where it is going. Even though the physical specification is identical, two devices may not talk because of different
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C O N N E C T I V I T Y
protocols. An analogy is a boss describing how he would like something accomplished to a group of employees (“bus”
communication (topology), over air (media), using sound (signal characteristics)). If the boss speaks a different
language (message structure) than the workers understand (German vs. English), no communication will take place.
Protocol typically affects throughput of a network and its connectivity.
Answers to Some Commonly Asked Questions
Why not develop one physical layer and protocol that all companies will use for communications?
Efforts have been made to standardize communications since the early 1970’s. Most end user customers want that
and C-H as a company supports that philosophy. The issue is however that no communication specification meets all
application needs and as a result, agreement on that one protocol/physical characteristic has been illusive. Some of
the selection characteristics for a network are as follows:
# of devices supported
Length and flexibility of data line routing
Noise immunity
Throughput of data vs. data requirements
Data structure (small, medium, or large data messages)
Electrical isolation/withstand
Connectivity (the ability for one system or network to talk to another)
Installed cost
Eventually, there will probably be multiple lower level networks in a plant, all doing what they do best for their
application, with a gateway (a method of connecting different networks together) to other networks that need to access
its information (i.e. the Modbus gateway for Series III or PowerNet).
What is an open protocol vs. a proprietary protocol?
A proprietary protocol is one in which a company elects to keep its protocol and physical characteristics secret and to
maintain control of all interfaces. Open systems are a matter of degrees. On one end of the spectrum, a company
may develop gateways to its system. On the other end, a protocol/physical layer is made available to everyone,
hardware can be manufactured by anyone, and the protocol characteristics are such that each company’s products will
communicate exactly like any others. INCOM is an open protocol in that the protocol is published, support software is
given to third party companies to develop both hardware and software interfaces. The physical layer is less open, in
that communication chip availability is controlled by C-H. However, that chip is sold to third parties, and communication
card interfaces are available. Device Net is open from a protocol standpoint and more open from a physical layer, in
that the “chip” is sold by multiple vendors.
What are some communication standards sanctioned by independent governing bodies?
Currently, there are no standards groups that “sanction” both the physical and protocol specifications. IEEE has
developed several physical layer standards - RS 232, RS 422, RS 485. Note that since the protocol has not been
standardized, almost all manufacturers that have implemented one of those standards have developed their own
protocol - therefore none truly “communicate” with each other. IEC, NEMA, IEEE, ISA, etc. are all investigating
standards for both physical & protocols, but are far away from sanctioning any one protocol and physical standard.
What affects throughput?
Throughput is affected by both physical and protocol characteristics. The number of devices talked to, the
media/physical signal used (light travels faster than electrical impulses), the bus arbitration method (master slave/peer
to peer), the amount of data each device sends back, the amount of useful data sent back (i.e. if all you want is energy,
but you have to get all information, a lot more bits will be sent), and the baud rate all determine throughput. In addition,
noise immunity is affected. Typically, the higher the baud rate, the lower the noise immunity for a give number of
devices and distance.
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C O N N E C T I V I T Y
What affects noise immunity?
Typically the selection of physical signaling, type of wire, and baud rate, affects noise-withstand in that order. Light
over fiber cable or frequency shift keying (FSK) are the most noise immune. Typically, the lower the baud rate, the
better the noise rejection. Error detection just allows you to live with a noisy communication by rejecting the
message, and asking for a new transmission (slowing down throughput).
What are the physical & protocol layers of Series III and PowerNet?
Series III and PowerNet were developed for communications in an electrical distribution system. The application is
primarily monitoring, with some low to moderate speed control (shedding breakers in demand applications, etc.)
The application typically is somewhat price sensitive, requires large numbers of devices to be monitored (average
300 devices), is very distributed, and is subject to extreme electromagnetic interference. Series III and PowerNet
use the INCOM physical & protocol layers (a development of the former Westinghouse R&D group). They use a
bus topology over a twisted shielded pair of wires using frequency (FSK) signaling method. This physical layer
was chosen to keep installed cost low by connecting up to 1000 devices on a “bus”, allowing that cable to be run in
conduit with or next to power cables with effective noise immunity, and allowing up to 10,000 feet of cable. The
message structure is also extremely efficient in an effort to keep throughput high at 9600 Baud. Each data
message consists only of data asked for, minimizing the number of bits required to be transmitted and maximizing
throughput.
Must I do anything when bringing INCOM cable into a building?
A cable act s as an antenna picking up voltages and currents that were not transmitted at the source. The ability
of a receiver to distinguish transmitted data from these extraneous signals is a measure of the noise immunity of
the system. Sometimes the magnitude of the extraneous signal overwhelms the receiver and can cause damage.
Also the National Electric Code Article 800 “Communications Circuits” requires, with few exceptions, surge
protection on any conductor entering a building. Note that Article 800 also requires that the communication circuit
be fused to a level below that of the cable.
Cutler-Hammer recommends a surge suppressor from Phoenix Contact. The unit is made up of a base unit into
which a plug-in surge suppression module is placed:
Base UFBK-2PE24DC-BE
Plug UFBK-2PE24DC-ST
These Phoenix catalog numbers are being replaced as of 4/99. The new Phoenix catalog numbers are:
Universal base - UFBK BE (order number 2783095)
Compact plug - UFBK-M2PE24DC-ST (order number 2817055)
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C O N N E C T I V I T Y
SECTION 1
BASE SYSTEM
Configuration
Application
Supports
Base System: CONI Card and Twisted Shielded Pair
Remote monitoring and control of Electrical Distribution Equipment from a single computer
All CH Devices
.
W
IQ
Energy Sentinel
PONI
Values
Westinghouse
Digital
Protection
High Load
Reset
Peak - MW
Present - MW
Energy - kWH
IA
IB
IC
IG
Cell No.
IA=
IB=
IC=
Step
TRND
Digitrip RMS Rating Plug
Long Delay
Long Delay
Setting
Time - Sec.
.5
Cat.
Frame Rating
S1 - 7
S2 - 8
M1 - 8
M2 -10
40-60 Hz Only
10
Westinghouse
IQ - 1000 II
Trip
RES
Alarm
AMPERES
EVNT HARM DEMD
F2
F1
Current
Voltage
Power (Watts)
Power (Vars)
Power (VA)
Energy
Breaker Trips
Test Amps
6T
2
Short Delay
Time - Sec.
C
Test
.4
Gnd. Fault
Time - Sec.
Inst.
F3
F4
Function
Value
Home
Mode
Protection
Step Up
Up
Program
Down
Set Points
Step Down
HELP
Step
Help
Program
Unit
Status
Inst.
Demand
Power Factor
Frequency
% THD
Distortion Factor
Custom
Trip
Test
3
.2
Gnd
W
RES
Reset
372.81
371.25
373.47
Battery Check
Short Delay
Pickup
Gnd. Fault
Pickup
Previous
Level
PONI
Normal
Event
Relay
Program
W
Westinghouse
IQ Analyzer
2.425
kA
incom
Digitrip RMS 810
Energy
Sentinel
W
IQ
E nergy S entinel
IMPCABLE
PONI
Values
Westinghouse
Digital
Protection
2.425
kA
incom
High Load
COMPUTER with
CONI, SERIES III or
COMPUTER with CONI,
POWERNET and
WINDOWS NT
Reset
Peak - MW
Present - MW
Energy - kWH
IA
IB
IC
IG
Cell No.
Digitrip RMS 810
IA=
IB=
IC=
Step
TRND
Digitrip RMS Rating Plug
Long Delay
Long Delay
Setting
Time - Sec.
.5
Cat.
Frame Rating
Breaker Trips
Test Amps
6T
Short Delay
Time - Sec.
.4
Gnd. Fault
Time - Sec.
Inst.
3
.2
Inst.
Test
Westinghouse
IQ - 1000 II
372.81
371.25
373.47
AMPERES
EVNT HARM
F1
F2
F3
Trip
RES
Alarm
Function
DEMD
Current
Voltage
Power (Watts)
Power (Vars)
Power (VA)
Energy
F4
Demand
Power Factor
Frequency
% THD
Distortion Factor
Custom
Value
Home
Mode
Protection
Step Up
Up
Program
Down
Set Points
Step Down
HELP
Trip
Test
Unit
Status
Digitrip 810
W
Previous
Level
W
RES
Reset
Battery Check
2
C
Gnd
S1 - 7
S2 - 8
M1 - 8
M2 -10
40-60 Hz Only
10
Short Delay
Pickup
Gnd. Fault
Pickup
PONI
Normal
Event
Relay
Program
W
Westinghouse
IQ Analyzer
Program
Help
IQ Analyzer
Step
IQ 1000 II
IQ
Energy Sentinel
CH DEVICES
PONI
Values
Westinghouse
Digital
Protection
2.425
kA
incom
High Load
Reset
Peak - MW
Present - MW
Energy - kWH
IA
IB
IC
IG
Cell No.
Digitrip RMS 810
IA=
IB=
IC=
Step
TRND
Digitrip RMS Rating Plug
Long Delay
Long Delay
Setting
Time - Sec.
.5
Cat.
Frame Rating
Breaker Trips
Test Amps
6T
2
Short Delay
Time - Sec.
C
.4
Gnd. Fault
Time - Sec.
Inst.
3
.2
Specifications
Status 6/96
Contact
Application Note
Previous
Level
W
RES
Reset
Westinghouse
IQ - 1000 II
372.81
371.25
373.47
Trip
RES
Alarm
AMPERES
EVNT HARM DEMD
F1
F2
F3
F4
Function
Value
Home
Battery Check
Short Delay
Pickup
Gnd. Fault
Pickup
Gnd
S1 - 7
S2 - 8
M1 - 8
M2 -10
40-60 Hz Only
10
PONI
Normal
Event
Relay
Program
W
Westinghouse
IQ Analyzer
Inst.
Test
Current
Voltage
Power (Watts)
Power (Vars)
Power (VA)
Energy
Demand
Power Factor
Frequency
% THD
Distortion Factor
Custom
Mode
Protection
Program
Down
Set Points
Step Down
HELP
Trip
Test
Unit
Status
Step Up
Up
Program
Help
Step
• Up to 1,000 devices are supported.
• Devices are daisy chained back to the CONI card using twisted shielded pair. Twisted shielded
pair cable is IMPCABLE or any cable in the Belden 9463 family.
• Up to 5 data lines may be starred from the computer. An unlimited number of taps, up to 200 ft. in
length, may branch from the 5 main runs. Each tap can support up to 64 devices.
• The maximum length of cable on any two main runs, including taps, is 10,000 feet following the
wiring guidelines defined in the Wiring Specification TD 17513.
Tested
Advanced Products Support Center
800/809-2772 (USA and Canada) or 412-490-6814
Wiring Specification - TD 17513
1-1
C O N N E C T I V I T Y
Configuration
Application
Base System: CONI Card and Twisted Shielded Pair
Remote monitoring and control of Electrical Distribution Equipment from a single computer
.
Bill of Material
and Config.
Material
Document
Settings
CONI-3
IL 17551
Address 300, IRQ 5, Mode 1 (Series-III), Mode 2
(PowerNet), BAUD 9600. (See appendix B-3 and B-4
for dip switches settings)
To connect the CONI with the
twisted pair of cables, Interface
Adapter Assy.
Cat. Num.
8793C85G01.
See appendix A-5, for configuration.
To connect the CH Devices,
Twisted Pair of Cable, TYPE
IMPCABLE or 9463 family.
TD 17513
---
To connect the CONI with the
twisted pair of cables, RJ11 Cable.
---
RJ11, less than 50 feet. See appendix A-5 for
configuration.
CH devices and PONIs where
necessary
IL 17547, IPONI
IL 17361, BPONI
IL 17408, WPONI
Different address for each device, 9600 BAUD
(for the IQ1000II, use BPONI in std. Mode)
PC, Pentium, 266 MHz., Hard Disk
memory 500 MB free min., VGA
monitor, SVGA recommended,
For Series-III 16 MB RAM memory
min., 32 MB recommended .
For PowerNet 64 MB RAM memory
min., 128 MB recommended.
---
---
--2091A90G01
-------
--Cat. Num: PNEG or
PNED (no graphics)
-------
Software
Windows 95, 3.11, or 98
Series III
OR
Windows NT
PowerNet
1-2
C O N N E C T I V I T Y
Configuration
Application
Supports
BASE SYSTEM: CONI Card and/or MINT
• Remote monitoring and control of Electrical Distribution Equipment from a single terminal with
long data line runs.
• System allows for utilization of existing spare cable.
For different kinds of
Remote Communications
All CH Devices
with modems, line drivers,
or fiber optic, see Section 2
MINT
Up to 5 data lines
RS-232
IQ
E n erg y S e ntin e l
Energy
Sentinel
W
To Serial Port
IQ
E n erg y S e ntin e l
PONI
IMPCABLE
Up to 5 data lines
To CONI
Values
Westinghouse
Digital
Protection
Westinghouse
IQ Analyzer
2.425
High Load
Reset
Peak - MW
Present - MW
Energy - kWH
IA
IB
IC
IG
Cell No.
PONI
IA=
IB=
IC=
Step
TRND
Digitrip RMS Rating Plug
Values
Westinghouse
Digital
Protection
kA
incom
Digitrip RMS 810
High Load
IA=
IB=
IC=
Step
TRND
Digitrip RMS Rating Plug
Long Delay
Setting
.5
Long Delay
Time - Sec.
Cat.
Frame Rating
Breaker Trips
Test Amps
6T
2
Short Delay
Time - Sec.
C
.4
Gnd. Fault
Time - Sec.
Inst.
3
.2
Gnd
Specifications
Status 6/96
Contact
Application Note
Long Delay
Setting
W
RES
Reset
.5
AMPERES
EVNT HARM
Long Delay
Time - Sec.
Trip
RES
F1
F2
F3
6T
Short Delay
Time - Sec.
C
.4
Function
DEMD
F4
Breaker Trips
Test Amps
2
Alarm
Gnd. Fault
Time - Sec.
Value
Home
Gnd
Previous
Level
Westinghouse
IQ - 1000 II
372.81
371.25
373.47
AMPERES
EVNT HARM
F1
F2
F3
Trip
RES
Alarm
Function
DEMD
F4
Value
Home
Battery Check
Short Delay
Pickup
Gnd. Fault
Pickup
Inst.
3
.2
Previous
Level
40-60 Hz Only
10
Westinghouse
IQ - 1000 II
372.81
371.25
373.47
S1 - 7
S2 - 8
M1 - 8
M2 -10
W
RES
Reset
Inst.
Test
Current
Voltage
Power (Watts)
Power (Vars)
Power (VA)
Energy
Demand
Power Factor
Frequency
% THD
Distortion Factor
Custom
Mode
Protection
Program
Down
Set Points
Step Down
HELP
Trip
Test
Unit
Status
Step Up
Up
Program
Help
Step
Battery Check
Short Delay
Pickup
Gnd. Fault
Pickup
S1 - 7
S2 - 8
M1 - 8
M2 -10
40-60 Hz Only
10
Normal
Event
Relay
Program
W
Westinghouse
IQ Analyzer
Reset
Peak - MW
Present - MW
Energy - kWH
IA
IB
IC
IG
Cell No.
Cat.
Frame Rating
PONI
Normal
Event
Relay
Program
W
kA
incom
Digitrip RMS 810
PONI
2.425
COMPUTER with
CONI, SERIES III, & 1 or
more Serial Ports or
COMPUTER with CONI,
POWERNET, WINDOWS
NT and 1 or more Serial Digitrip 810
Ports
Energy
Sentinel
W
Inst.
Test
Current
Voltage
Power (Watts)
Power (Vars)
Power (VA)
Energy
Demand
Power Factor
Frequency
% THD
Distortion Factor
Custom
Mode
Protection
Up
Program
Down
Set Points
Step Down
HELP
Trip
Test
Unit
Status
Step Up
Program
Help
IQ Analyzer
Step
IQ 1000 II
Digitrip 810
IQ Analyzer
IQ 1000 II
CH DEVICES
CH DEVICES
• Up to 1000 devices are supported.
• Two serial connections are supported by Series III and POWERNET. The addition of a Digiboard
allows up to 16 serial connections for Series III and 32 for POWERNET, (please see page1-6 for
details).
• A simple connection between the computer and MINT is done with RS232 cable and has a distance
limitation of 50 feet. This distance limitation can be significantly increased through the introduction of
line drivers or modems, (please see section 2 for more details).
• Devices are daisy chained back to CONI or MINT using twisted shielded pair. The twisted shielded
pair cable must be IMPCABLE or any cable in the Belden 9463 family.
• Up to 5 data lines may be starred from each master (CONI or MINT). An unlimited number of taps,
up to 200 ft. in length, may branch from the 5 main runs. Each tap can support up to 64 devices.
• For each master (CONI or MINT) the maximum length of cable on any two main runs, including taps,
is 10,000 feet following the wiring guidelines defined in the Wiring Specification TD 17513.
• For radio applications, ferrite suppression core assemblies must be used on all lines connecting to
MINT (RS-232, power and INCOM). See pages 2-12, 3-14 for more information
• For radio applications, PowerNet DeviceServer and MINTs with 4/99 firmware or later must be used.
Not recommended with Series III.
Tested
Advanced Products Support Center
800/809-2772 (USA and Canada) or 412-490-6814
Wiring Specification - TD 17513
1-3
C O N N E C T I V I T Y
Configuration
Application
Base System: CONI Card and/or MINT
Remote monitoring and control of Electrical Distribution Equipment from a single computer
.
Bill of Material
and Config.
Material
Document
Settings
MINT II
IL 17466
N, 8, 1, No Ack/Nack, BAUD 9600. (See appendix
B-1 for dip switch settings)
To connect the MINT to the serial
port of a PC, RS-232 Printer
Cable, DB25M/DB9F
Black Box Cat.
BC00301
The MINT can be connected to a Line Driver, Fiber
Optic Fiber or Modem (less than 50 feet). For remote
communication, see section 2. For pin configuration,
see appendix A-1
CONI-3
IL 17551
Address 300, IRQ 5, Mode 1 (Series-III), Mode 2
(PowerNet), BAUD 9600 (See appendix B-3, and B-4
for dip switches settings)
To connect the CONI with the twisted
pair of cables, Interface Adapter
Assy.,
Cat. Num.
8793C85G01.
See appendix A-5, for configuration.
To connect the Devices,Twisted Pair
of Cable, Type IMPCABLE or 9463
family.
TD 17513
---
To connect the CONI with the
twisted pair of cables, RJ11 Cable.
---
RJ11, less than 50 feet. See appendix A-5 for
configuration.
CH devices and PONIs where
necessary
IL 17547, IPONI
IL 17361, BPONI
IL 17408, WPONI
Different address for each device, 9600 BAUD
(for the IQ1000II, use BPONI in std. Mode)
1-4
C O N N E C T I V I T Y
Material
Document
Settings
PC, Pentium, 266 MHz., Hard Disk
memory 500 MB free min., VGA
monitor, SVGA recommended,
For Series-III 16 MB RAM memory
min., 32 MB recommended .
For PowerNet 64 MB RAM memory
min., 128 MB recommended.
---
Comport 1: IRQ 4, Base Address 3F8 (hex)
Comport 2: IRQ 3, Base Address 2F8 (hex)
Series-III does not share interrupts. Thus delete any
device (e.j. modem) on the comport to be used.
--2091A90G01
-------
Software
Windows 95, 3.11, or 98
Series III
OR
Windows NT
PowerNet
--Cat. Num: PNEG or
PNED (no graphics)
-------
1-5
C O N N E C T I V I T Y
Base System: Digiboard Application
Configuration
• Remote monitoring and control of Electrical Distribution Equipment from a single terminal with
up to 16 long data line runs for Series III and 32 for PowerNet.
• System allows for utilization of existing spare cable.
For different kinds of
All CH Devices
Remote Communications
with modems, line drivers,
or fiber optic, see Section 2
MINT
LD
MINT
Application
Supports
W
IQ
E n erg y S e ntin e l
W
IQ
E nergy S entinel
PONI
Values
Westinghouse
Digital
Protection
High Load
Reset
Peak - MW
Present - MW
Energy - kWH
IA
IB
IC
IG
Cell No.
IA=
IB=
IC=
Step
TRND
Digitrip RMS Rating Plug
Long Delay
Setting
.5
Long Delay
Time - Sec.
Cat.
Frame Rating
Westinghouse
Digital
Protection
Westinghouse
IQ Analyzer
2.425
kA
incom
High Load
Reset
Peak - MW
Present - MW
Energy - kWH
IA
IB
IC
IG
Cell No.
Digitrip RMS 810
IA=
IB=
IC=
Step
TRND
Digitrip RMS Rating Plug
Long Delay
Long Delay
Setting
Time - Sec.
Cat.
Frame Rating
.5
S1 - 7
S2 - 8
M1 - 8
M2 -10
40-60 Hz Only
10
Previous
Level
6T
Short Delay
Time - Sec.
C
Test
.4
Gnd. Fault
Time - Sec.
Inst.
W
Reset
Short Delay
Time - Sec.
LD
Westinghouse
IQ - 1000 II
Trip
RES
Alarm
Function
Value
.4
Gnd. Fault
Time - Sec.
Program
Down
Set Points
Step Down
Optional Line
Driver (or
Modem)
HELP
Help
3
Inst.
Step Up
Up
Program
Unit
Status
Inst.
Mode
Protection
Inst.
.2
Gnd
Home
F4
F3
Demand
Power Factor
Frequency
% THD
Distortion Factor
Custom
Trip
Test
3
.2
Gnd
F2
6T
2
C
372.81
371.25
373.47
AMPERES
EVNT HARM DEMD
F1
Current
Voltage
Power (Watts)
Power (Vars)
Power (VA)
Energy
Breaker Trips
Test Amps
2
Breaker Trips
Test Amps
Short Delay
Pickup
Gnd. Fault
Pickup
Battery Check
Short Delay
Pickup
Gnd. Fault
Pickup
RES
Step
INCOM DEVICES
W
Previous
Level
W
RES
Reset
Westinghouse
IQ - 1000 II
372.81
371.25
373.47
AMPERES
EVNT HARM
F1
F2
F3
Trip
RES
Alarm
Function
DEMD
F4
Value
Home
Battery Check
PONI
Normal
Event
Relay
Program
W
S1 - 7
S2 - 8
M1 - 8
M2 -10
40-60 Hz Only
10
PONI
Values
PONI
Normal
Event
Relay
Program
W
Westinghouse
IQ Analyzer
2.425
kA
incom
Digitrip RMS 810
Test
Trip
Test
Current
Voltage
Power (Watts)
Power (Vars)
Power (VA)
Energy
Demand
Power Factor
Frequency
% THD
Distortion Factor
Custom
Mode
Protection
Step Up
Up
Program
Down
Set Points
Step Down
HELP
Program
Unit
Status
Help
Step
CH DEVICES
IQ
E nergy S entinel
PONI
Values
Westinghouse
Digital
Protection
High Load
Reset
Peak - MW
Present - MW
Energy - kWH
IA
IB
IC
IG
Cell No.
IA=
IB=
IC=
Step
TRND
Digitrip RMS Rating Plug
Long Delay
Long Delay
Setting
Time - Sec.
.5
Cat.
Frame Rating
S1 - 7
S2 - 8
M1 - 8
M2 -10
40-60 Hz Only
10
Previous
Level
F1
Current
Voltage
Power (Watts)
Power (Vars)
Power (VA)
Energy
Breaker Trips
Test Amps
6T
2
Short Delay
Time - Sec.
C
F2
LD
LD
Westinghouse
IQ - 1000 II
Trip
RES
Alarm
Function
Value
Home
F4
F3
LD
W
RES
Reset
372.81
371.25
373.47
AMPERES
EVNT HARM DEMD
Battery Check
Short Delay
Pickup
Gnd. Fault
Pickup
Test
.4
Gnd. Fault
Time - Sec.
Inst.
Inst.
Demand
Power Factor
Frequency
% THD
Distortion Factor
Custom
Mode
Protection
Step Up
Up
Program
Down
Set Points
Step Down
HELP
Trip
Test
3
.2
Gnd
MINT
PONI
Normal
Event
Relay
Program
W
Westinghouse
IQ Analyzer
2.425
kA
incom
Digitrip RMS 810
Step
Help
Program
Unit
Status
LD
INCOM DEVICES
W
IQ
E nergy S entinel
To CONI
LD
IMPCABLE
W
IQ
E nergy S entinel
PONI
MINT
PONI
Values
Westinghouse
Digital
Protection
High Load
Reset
Peak - MW
Present - MW
Energy - kWH
IA
IB
IC
IG
Cell No.
IA=
IB=
IC=
Step
TRND
Digitrip RMS Rating Plug
Long Delay
Long Delay
Setting
Time - Sec.
.5
Cat.
Frame Rating
S1 - 7
S2 - 8
M1 - 8
M2 -10
40-60 Hz Only
10
Breaker Trips
Test Amps
6T
2
Short Delay
Time - Sec.
C
Previous
Level
W
RES
Reset
372.81
371.25
373.47
Trip
RES
Alarm
AMPERES
EVNT HARM DEMD
F1
F2
F3
F4
Westinghouse
IQ - 1000 II
Function
Value
Home
Battery Check
Short Delay
Pickup
Gnd. Fault
Pickup
.4
Gnd. Fault
Time - Sec.
Inst.
3
.2
Gnd
PONI
Normal
Event
Relay
Program
W
Westinghouse
IQ Analyzer
2.425
kA
incom
Digitrip RMS 810
LD
Inst.
Test
Current
Voltage
Power (Watts)
Power (Vars)
Power (VA)
Energy
Demand
Power Factor
Frequency
% THD
Distortion Factor
Custom
Mode
Protection
Step Up
Up
Program
Down
Set Points
Step Down
HELP
Trip
Test
Unit
Status
Program
Help
Step
INCOM DEVICES
Specifications
Status 6/96
Contact
Application Note
RS-232
Values
Westinghouse
Digital
Protection
COMPUTER with
SERIES III, (or
POWERNET with
WINDOWS NT),
CONI, and
DIGIBOARD
Digitrip RMS 810
High Load
IA=
IB=
IC=
Reset
Peak - MW
Present - MW
Energy - kWH
IA
IB
IC
IG
Cell No.
Step
TRND
Digitrip RMS Rating Plug
Long Delay
Long Delay
Setting
Time - Sec.
.5
Cat.
Frame Rating
Breaker Trips
Test Amps
6T
2
Short Delay
Time - Sec.
C
.4
Gnd. Fault
Time - Sec.
Inst.
3
.2
Gnd
Previous
Level
W
RES
Reset
Westinghouse
IQ - 1000 II
372.81
371.25
373.47
Trip
RES
Alarm
AMPERES
EVNT HARM DEMD
F1
F2
F3
F4
Function
Value
Home
Battery Check
Short Delay
Pickup
Gnd. Fault
Pickup
S1 - 7
S2 - 8
M1 - 8
M2 -10
40-60 Hz Only
10
PONI
Normal
Event
Relay
Program
W
Westinghouse
IQ Analyzer
2.425
kA
incom
Inst.
Test
Current
Voltage
Power (Watts)
Power (Vars)
Power (VA)
Energy
Demand
Power Factor
Frequency
% THD
Distortion Factor
Custom
Mode
Protection
Step Up
Up
Program
Down
Set Points
Step Down
HELP
Trip
Test
Unit
Status
Program
Help
Step
CH DEVICES
• Up to 1000 devices are supported (PowerNet 2000)
• For Series-III, the Digiboard allows up to 16 serial connections in addition to the one connection to
the CONI. (Digiboards are sold to support 4 or 8 connections and 2 Digiboards can be placed in the
PC.)
• For PowerNet, the Digiboard allows up to 32 serial connections in addition to up to 5 CONIs.
(Digiboards are sold to support 4, 8, or 16, connections and 2 Digiboards can be placed in the PC.)
• A simple connection between the computer and a MINT is done with RS232 cable and has a
distance limitation of 50 feet. This distance limitation can be significantly increased through the
introduction of line drivers or modems, (please see Section 2 for more details).
• Devices are daisy chained back to CONI or MINT using twisted shielded pair. The twisted shielded
pair cable must be IMPCABLE or any cable in the Belden 9463 family.
• Up to 5 data lines may be starred from each master (CONI or MINT). An unlimited number of taps,
up to 200 ft. in length, may branch from the 5 main runs. Each tap can support up to 64 devices.
• For each master (CONI or MINT) the maximum length of cable on any two main runs, including
taps, is 10,000 feet per the wiring guidelines defined in the Wiring Specification TD 17513.
Tested
Power Management Application Support
800/809-2772 (USA and Canada) or 412-490-6814
Wiring Specification - TD 17513
1-6
C O N N E C T I V I T Y
Configuration
Application
Base System: Digiboard Application
Remote monitoring and control of Electrical Distribution Equipment from a single computer
.
Bill of Material
and Config.
Material
Document
Settings
Digiboard:
ClassicBoard 4 16654
ClassicBoard 8 16654
ClassicBoard 16 16654 RJ45 Box
(only PowerNet Software)
Part Number:
77000435
77000434
70001146
---
Digiboard cable (included with the
Digiboard)
-----
-----
MINT II
IL 17466
N, 8, 1, No Ack/Nack, BAUD 9600. (See appendix
B-1 for dip switch settings)
To connect the MINT to Digiboard,
RS-232 Null-Modem Cable,
25M/25M
Black Box Cat.
EYN250-0010
The MINT can be connected to a Line Driver, Fiber
Optic Fiber or Modem (less than 50 feet). For remote
communication, see section 2. For pin configuration,
see appendix A-2.
CONI-3
IL 17551
Address 300, IRQ 5, Mode 1 (Series-III), Mode 2
(PowerNet), BAUD 9600. (See appendix B-3 and B-4,
for dip switches settings)
To connect the CONI with the twisted
pair of cables, Interface Adapter
Assy.
Cat. Num.
8793C85G01
See appendix A-5, for configuration.
To connect the CH Devices, Twisted
Pair of Cable, Type IMPCABLE or
9463 family
TD 17513
---
To connect the CONI with the
twisted pair of cables RJ11 Cable.
---
RJ11, less than 50 feet. See appendix A-5 for
configuration.
CH devices and
PONIs where necessary
IL 17547, IPONI
IL 17361, BPONI
IL 17408, WPONI
Different address for each device, 9600 BAUD
(for the IQ1000II use BPONI in std. Mode)
1-7
C O N N E C T I V I T Y
Material
Document
Settings
PC, Pentium, 266 MHz., Hard Disk
memory 500 MB free min., VGA
monitor, SVGA recommended,
For Series-III 16 MB RAM memory
min., 32 MB recommended .
For PowerNet 64 MB RAM memory
min., 128 MB recommended.
---
Comport 1: IRQ 4, Base Address 3F8 (hex)
Comport 2: IRQ 3, Base Address 2F8 (hex)
Series-III does not share interrupts. Thus delete any
device (e.j. modem) on the comport to be used.
--2091A90G01
-------
Software
Windows 95, 3.11, or 98
Series III
OR
Windows NT
PowerNet
--Cat. Num: PNEG or
PNED (no graphics)
-------
1-8
C O N N E C T I V I T Y
SECTION 2
REMOTE COMMUNICATION TO INCOM DEVICES
Application:
Basics
Remote communication of CH devices to a PC for
Monitoring and Controlling.
For communicating with our devices from a distance we usually use :
•Line Driver Dedicated (non-dial tone) Phone Line connection
•Fiber Optic Drivers
•Lease Line Modem
•Modem (Dial Type Telephone Line)
•Radio modems
Architecture
The Basic Architecture can be:
COMPUTER - DRIVER - MEDIA -DRIVER - MINT - CH DEVICES
Or
COMPUTER - DRIVER - MEDIA DRIVER - CH DEVICES
DRIVER - CH DEVICES
DRIVER - CH DEVICES
On the next pages, we can see some diagrams that shows these.
2-1
C O N N E C T I V I T Y
Remote communication for CH devices
Configuration
Application
Supports
Base System for Remote communication
• Remote monitoring and control of Electrical Distribution Equipment from a single terminal
located in a different place than the devices.
All CH Devices
Energy Sentinel
IMPCABLE
W
IQ
E nergy S entinel
MEDIA
DRIVER
DRIVER
MINT
PONI
Values
COMPUTER WITH
SERIES III or
POWERNET with
WINDOWS NT
RS 232
DB25M/DB9F
Black Box
BC00301
Westinghouse
Digital
Protection
RS 232
DB25M/DB25M
Black Box
EYN250-0010
2.425
kA
incom
High Load
IA=
IB=
IC=
Reset
Peak - MW
Present - MW
Energy - kWH
IA
IB
IC
IG
Cell No.
Digitrip RMS 810
Step
TRND
Digitrip RMS Rating Plug
Long Delay
Long Delay
Setting
Time - Sec.
.5
Cat.
Frame Rating
40-60 Hz Only
10
Breaker Trips
Test Amps
6T
2
Short Delay
Time - Sec.
C
.4
Gnd. Fault
Time - Sec.
Inst.
3
.2
Gnd
Previous
Level
W
RES
Reset
Westinghouse
IQ - 1000 II
372.81
371.25
373.47
AMPERES
EVNT HARM
F1
F2
F3
Trip
RES
Alarm
Function
DEMD
F4
Value
Home
Battery Check
Short Delay
Pickup
Gnd. Fault
Pickup
S1 - 7
S2 - 8
M1 - 8
M2 -10
PONI
Normal
Event
Relay
Program
W
Westinghouse
IQ Analyzer
Inst.
Test
Current
Voltage
Power (Watts)
Power (Vars)
Power (VA)
Energy
Demand
Power Factor
Frequency
% THD
Distortion Factor
Custom
Mode
Protection
Program
Down
Set Points
Digitrip 810
Step Down
HELP
Trip
Test
Unit
Status
Step Up
Up
Program
Step
Help
IQ Analyzer
IQ 1000 II
CH DEVICES
Where:
1.- The DRIVER can be LINE DRIVERS which use 2 or 4 twisted pair telephone cable (MEDIA). Wire gauge
and number of wires determine the distance between line drivers and baud rate. Up to 20 miles may be
covered.
2.- The DRIVER can be FIBER OPTIC DRIVERS which use fiber optic cable (MEDIA), up to 2.2 miles
between drivers.
3.- The DRIVER can be LEASE LINE MODEM (contact the Phone Co.) which use a lease telephone line
(MEDIA). The distance in this case is unlimited.
4.- The driver can be MODEMS which use a dial type telephone line (MEDIA). These are used where lease
line modems and phone lines are not available or for temporary monitoring from one central location. The
distance is unlimited.
5. The driver can be a RADIO MODEM which uses line-of-sight radio communication.
2-2
C O N N E C T I V I T Y
Connection
Dedicated Phone Line
Fiber
Leased Phone Line
Dial Type Phone Line
Radio Modem
Via
Line Drivers & 2 or 4 wire “metallic” phone line
Fiber Line Driver & Fiber Optic Cable
Leased Line Modem & a Leased Telephone Line
Modem & Dial Type Telephone Line
900 MHz or 2.4 GHz Spread Spectrum Radio
Distance
4.3 miles
2.2 miles
Unlimited
Unlimited
0.25-10 miles
1.- The DRIVER can be LINE DRIVERS which use 2 or 4 twisted pair telephone cable (MEDIA). Wire gauge
and number of wires determine the distance between line drivers and baud rate. Up to 4.3 miles may be
covered.
2.- The DRIVER can be FIBER OPTIC DRIVERS which use fiber optic cable (MEDIA), up to 2.2 miles
between drivers.
3.- The DRIVER can be LEASE LINE MODEM (contact the Phone Co.) which use a lease telephone line
(MEDIA). The distance in this case is unlimited.
4.- The driver can be MODEMS which use a dial type telephone line (MEDIA). These are used where lease
line modems and phone lines are not available or for temporary monitoring from one central location. The
distance is unlimited.
5. The Spread Spectrum radio modems use unlicensed frequencies in the 900 MHz and 2.4 GHz bands to
achieve line-of-sight communications. The 900 MHz unit (MDS9810) from Adaptive Technologies
(www.mdsroc.com) provide communication at 19.2 Kbps over as little as a few hundred feet (indoor with
obstructions) to 10-20 miles outdoor with yagi antennas pointed toward each other with clear line-of-sight.
In all cases:
• From the MINT to the CH devices standard Wiring Rules apply (TD 17513).
• Communication to each remote location requires a separate serial connection. Each connection requires
one MINT and one driver at the remote location, and one driver within 50 feet of the computer.
• Two COM serial connections are supported by SERIES III and POWERNET. The addition of a Digiboard
allows for up to 16 serial connections , 32 for POWERNET (with the exception of the DIAL TYPE
TELEPHONE LINE).
Contact
Advanced Products Support Center
800/809-2772 (USA and Canada) or 412-490-6814
2-3
C O N N E C T I V I T Y
Configuration
Application
SERIAL CONNECTION: Dedicated Twisted Pair Line Connection
•Continuous monitoring and control of up to 16 for Series III separate sites from one central location
(32 for PowerNet).
•Remote locations are located less than 4 miles from the monitoring computer.
•System allows for utilization of existing 2 or 4 wire “metallic” non-dial tone telephone lines.
Bill of Material
and Config.
Material
Document
Settings
MINT II
IL 17466
N, 8, 1, No Ack/Nack, BAUD 9600 (See appendix B-1
for dip switch settings)
To connect the LINE DRIVER to
the serial port of a PC: RS-232
Printer Cable, DB25M/DB9F.
Black Box Cat.
BC00301
See appendix A-1 for pin configuration (less than 50
feet long).
To connect the MINT to DRIVER:
RS-232 Null-Modem Cable,
DB25M/DB25M
Black Box Cat.
EYN250-0010
See appendix A-2 for pin configuration (less than 50
feet long).
Line Drivers:
4 wires, 4 miles, at 19.2 Kbps
4 wires, 4 miles, at 115.2 Kbps
2 wires, 2 miles, at 19.2 Kbps
Cat. Black Box:
ME800A-R2.
ME802A
ME755A
See appendix C for configuration information.
2 or 4 Twisted Pair
Telephone Cable
#24 AWG or Larger
------
To connect the CH Devices,
Twisted Pair of Cable, Type
IMPCABLE or 9463 family.
TD 17513
---
CH devices and PONIs
where necessary
IL 17547, IPONI
IL 17361, BPONI
IL 17408, WPONI
Different address for each device, 9600 BAUD
(for the IQ1000II, use BPONI in std. Mode)
2-4
C O N N E C T I V I T Y
Material
PC, Pentium, 266 MHz., Hard Disk
memory 500 MB free min., VGA
monitor, SVGA recommended,
For Series-III 16 MB RAM memory
min., 32 MB recommended .
For PowerNet 64 MB RAM memory
min., 128 MB recommended.
Document
Settings
---
Comport 1: IRQ 4, Base Address 3F8 (hex)
Comport 2: IRQ 3, Base Address 2F8 (hex)
Series-III does not share interrupts. Thus delete any
device (e.j. modem) on the comport to be used.
--2091A90G01
-------
Software
Windows 95, 3.11, or 98
Series III
OR
Windows NT
PowerNet
--Cat. Num: PNEG or
PNED (no graphics)
-------
2-5
C O N N E C T I V I T Y
Configuration
Application
SERIAL CONNECTION: Fiber Optic Connection
•Continuous monitoring and control of up to 16 separate sites from one central location (32 for
PowerNet).
•Remote locations are located less than 2.2 miles from the monitoring computer.
•System allows for utilization of existing fiber optic cable.
Bill of Material
and Config.
Material
Document
Settings
MINT II
IL 17466
N, 8, 1, No Ack/Nack, BAUD 9600 (See
appendix B-1 for dip switch settings)
To connect the FIBER OPTIC
DRIVER to the serial port of a PC:
RS-232 Printer Cable, DB25M/DB9F
Black Box Cat.
BC00301
See appendix A-1 for pin configuration
(less than 50 feet long).
To connect the MINT to FIBER
OPTIC DRIVER: RS-232 NullModem Cable, DB25M/DB25M
Black Box Cat.
EYN250-0010
See appendix A-2 for pin configuration
(less than 50 feet long).
Fiber Optic Drivers
Cat. Black Box:
See appendix C for configuration
MD940A-FST
information.
62.5m Core / 125 m Cladding.
DUPLEX MULT-MODE FIBER
OPTIC DRIVER
ME320A
Fiber Optic Cable with Loose Buffer
recommended for underground,
suspended over-head, or other
applications with wide temperature
variations.
Tight Buffer acceptable for another
applications.
-----
------
To connect the CH Devices,
Twisted Pair of Cable, Type
IMPCABLE or 9463 family
TD 17513
---
CH devices and PONIs where
necessary
IL 17547, IPONI
IL 17361, BPONI
IL 17408, WPONI
Different address for each device, 9600
BAUD (for the IQ1000II use BPONI in std.
Mode)
2-6
C O N N E C T I V I T Y
Material
Document
Settings
PC, Pentium, 266 MHz., Hard Disk
memory 500 MB free min., VGA
monitor, SVGA recommended,
For Series-III 16 MB RAM memory
min., 32 MB recommended .
For PowerNet 64 MB RAM memory
min., 128 MB recommended.
---
Comport 1: IRQ 4, Base Address 3F8 (hex)
Comport 2: IRQ 3, Base Address 2F8 (hex)
Series-III does not share interrupts. Thus delete any
device (e.j. modem) on the comport to be used.
--2091A90G01
-------
Software
Windows 95, 3.11, or 98
Series III
OR
Windows NT
PowerNet
--Cat. Num: PNEG or
PNED (no graphics)
-------
2-7
C O N N E C T I V I T Y
SERIAL CONNECTION: Lease Line Telephone Connection
Configuration
Application
•Continuous monitoring and control of up to 16 separate sites from one central location (32 for
PowerNet)
•Remote locations are located greater than 4 miles from the monitoring computer.
Bill of Material
and Config.
Material
Document
Settings
MINT II
IL 17466
N, 8, 1, No Ack/Nack, BAUD 9600. (See appendix B-1
for dip switch settings.)
To connect the MODEM DRIVER
to the serial port of a PC: RS-232
Printer Cable, DB25M/DB9F
Black Box Cat.
BC00301
See appendix A-1 for pin configuration Less than 50
feet long).
To connect the MINT to the
MODEM DRIVER: RS-232 NullModem Cable, DB25M/DB25M.
Black Box Cat.
EYN250-0010
See appendix A-2 for pin configuration (less than 50
feet long).
Lease Line Modem
US-ROBOTICS
V.EVERYTHING
MODEM
See appendix C for configuration information.
Lease Line Telephone Line
Contact Phone Co.
------
To connect the CH Devices,
Twisted Pair of Cable, Type
IMPCABLE or 9463 family.
TD 17513
---
CH devices and
PONIs where necessary
IL 17547, IPONI
IL 17361, BPONI
IL 17408, WPONI
Different address for each device, 9600 BAUD
(for the IQ1000II use BPONI in std. Mode)
2-8
C O N N E C T I V I T Y
Material
PC, Pentium, 266 MHz., Hard Disk
memory 500 MB free min., VGA
monitor, SVGA recommended,
For Series-III 16 MB RAM memory
min., 32 MB recommended .
For PowerNet 64 MB RAM memory
min., 128 MB recommended.
Document
Settings
---
Comport 1: IRQ 4, Base Address 3F8 (hex)
Comport 2: IRQ 3, Base Address 2F8 (hex)
Series-III does not share interrupts. Thus delete any
device (e.j. modem) on the comport to be used.
--2091A90G01
-------
Software
Windows 95, 3.11, or 98
Series III
OR
Windows NT
PowerNet
--Cat. Num: PNEG or
PNED (no graphics)
-------
2-9
C O N N E C T I V I T Y
Configuration
Application
SERIAL CONNECTION: Dial Up Phone Line Access
•Temporary monitoring of single or multiple sites from one central location.
•Remote locations are located greater than 4 miles from the monitoring computer.
OR
•Continuous monitoring of up to 2 locations where lease line modem and dedicated phone lines are
not available.
Bill of Material
and Config.
Material
Document
Settings
MINT II
IL 17466
N, 8, 1, No Ack/Nack, BAUD 9600. (See appendix B-1
for dip switch settings.)
To connect the MODEM to the
serial port of a PC, RS-232
Printer Cable, DB25M/DB9F
Black Box Cat.
001868-0
See appendix A-1 for pin configuration (less than 50
feet long).
To connect the MINT to the
MODEM: RS-232 Null-Modem
Cable, DB25M/DB25M
Black Box Cat.
EYN250-0010
See appendix A-2 for pin configuration less than 50
feet long).
Modems
US-ROBOTICS
SPORTSTER
EXTERNAL
MODEM, or
US-ROBOTICS
V.EVERYTHING
MODEM
See appendix C for configuration information.
Dial-Up Telephone Line
-----
------
To connect the CH Devices,
Twisted Pair of Cable, Type
IMPCABLE or 9463 family
TD 17513
IMPCABLE or 9463 family
CH devices and PONIs
where necessary
IL 17547, IPONI
IL 17361, BPONI
IL 17408, WPONI
Different address for each device, 9600 BAUD
(for the IQ1000II use BPONI in std. Mode)
2-10
C O N N E C T I V I T Y
Material
PC, Pentium, 266 MHz., Hard Disk
memory 500 MB free min., VGA
monitor, SVGA recommended,
For Series-III 16 MB RAM memory
min., 32 MB recommended .
For PowerNet 64 MB RAM memory
min., 128 MB recommended.
Document
Settings
---
Comport 1: IRQ 4, Base Address 3F8 (hex)
Comport 2: IRQ 3, Base Address 2F8 (hex)
Series-III does not share interrupts. Thus delete any
device (e.j. modem) on the comport to be used.
Windows 95, 3.11, or 98
Series III
--2091A90G01
-------
Terminal Dial-Up Program
(Windows Terminal
recommended)
----
----
Software
OR
Windows NT
PowerNet
-----Cat. Num: PNEG or ---PNED (no
graphics)
Terminal Dial-Up Program
(Windows Terminal
recommended)
----
----
2-11
C O N N E C T I V I T Y
Configuration
Application
SERIAL CONNECTION: Radio Modem
•Continuous monitoring and control of up to 1000 sites using PowerNet. (Radio modem applications
are not recommended for Series III)
•System operates in a broadcast mode with one master and the balance of sites connected to
MINTs in with the radio modem in slave mode.
Bill of Material
and Config.
Material
Document
Settings
MINT II
IL 17466
N, 8, 1, No Ack/Nack, BAUD 9600. (See appendix B-1
for dip switch settings.)
To connect the RADIO MODEM
to the Serial Port of the PC: RS232 Printer Cable, DB25M/DB9F
Black Box Cat.
BC00301
See appendix A-1 for pin configuration Less than 50
feet long).
To connect the Radio Modem
Remote to the Mint: RS-232
Null-Modem Cable,
DB25M/DB25M
Radio Modem MICROWAVE
DATA SYSTEM, mod. MDS9810
Black Box Cat.
EYN250-0010
---
See appendix A-2 for pin configuration less than 50
feet long).
Master, connected to the serial port of the PC):
BAUD 9600, N, 8, 1, SIMPLEX: OFF, Hop Time:
normal, Buffer Mode: 5EE, Add: 9106
Remote, connected to a MINT:
BAUD rate 9600 BPS, 8,N,1, , Mode Remote, Add:
3634
Note: Must use 4/99 or later MINT firmware and
PowerNet DeviceServer with XON/XOFF disabled.
Do not use Series III.
To connect the CH Devices,
Twisted Pair of Cable, Type
IMPCABLE or 9463 family.
TD 17513
---
CH devices and PONIs
where necessary
IL 17547, IPONI
IL 17361, BPONI
IL 17408, WPONI
Different address for each device, 9600 BAUD
(for the IQ1000II use BPONI in std. Mode)
Ferrite Suppression Core
Assemblies 0443167251B (for use
with IMPCABLE) or 0443164251B
(for use with 9463, RS-232,
power)
www.fair-rite.com
www.Newark.com
Install on each line entering MINT (INCOM, RS-232 and
power). See page 2-13 for alternate supplier
Fair-Rite
Newark
Use
0443167251B 91F6477
IMPCABLE
0443164251B 91F6476
9463, power, RS-232
2-12
C O N N E C T I V I T Y
Material
Document
PC, Pentium, 266 MHz., Hard Disk
memory 500 MB free min., VGA
monitor, SVGA recommended,
For Series-III 16 MB RAM memory
min., 32 MB recommended .
For PowerNet 64 MB RAM memory
min., 128 MB recommended.
Settings
---
Comport 1: IRQ 4, Base Address 3F8 (hex)
Comport 2: IRQ 3, Base Address 2F8 (hex)
Series-III does not share interrupts. Thus delete any
device (e.j. modem) on the comport to be used.
--2091A90G01
-------
Software
Windows 95, 3.11, or 98
Series III
OR
Windows NT
PowerNet
--Cat. Num: PNEG or
PNED (no graphics)
-------
Ferrite EMI suppressors are also available from:
Elna-Ferrite Technologies, Inc.
234 Tinker Street
Woodstock, NY 12498
Attention: Gail Ouimet
800-553-2870 phone
914-679-7010 fax
Order:
Item
Part No.
1
0443164251
2
0443167251
Qty.
5
5
Description
Ferrite EMI suppressors (.705" X .275" X 1.272")
Ferrite EMI suppressors (.870" X .402" X 1.272")
2-13
C O N N E C T I V I T Y
Communication of CH devices to a single terminal from two
or more remote different locations
Remote communication from different locations to a PC
Fiber Optic Driver as Repeaters
Configuration
• Remote monitoring and control of Electrical Distribution Equipment located in different places
from a single terminal.
Application
Supports
All CH Devices
IMPCABLE
W
IQ
E nergy S entinel
FOMD
MINT
PONI
Values
Westinghouse
Digital
Protection
High Load
Reset
Peak - MW
Present - MW
Energy - kWH
IA
IB
IC
IG
Cell No.
IA=
IB=
IC=
Step
TRND
Digitrip RMS Rating Plug
Long Delay
Long Delay
Setting
Time - Sec.
Cat.
Frame Rating
.5
S1 - 7
S2 - 8
M1 - 8
M2 -10
40-60 Hz Only
10
Previous
Level
F1
F2
Westinghouse
IQ - 1000 II
Trip
RES
Alarm
Function
Value
Home
F4
F3
Current
Voltage
Power (Watts)
Power (Vars)
Power (VA)
Energy
Breaker Trips
Test Amps
6T
2
Short Delay
Time - Sec.
C
Test
.4
Gnd. Fault
Time - Sec.
Inst.
Demand
Power Factor
Frequency
% THD
Distortion Factor
Custom
Mode
Protection
RS-232
Black Box
EYN250-0010
Program
Set Points
Step Down
HELP
Help
Program
Unit
Status
Inst.
Step Up
Up
Down
Trip
Test
3
.2
Step
CH DEVICES
IMPCABLE
Where:
FOMD = Fiber Optic Multipoint Driver
W
RES
Reset
372.81
371.25
373.47
AMPERES
EVNT HARM DEMD
Battery Check
Short Delay
Pickup
Gnd. Fault
Pickup
Gnd
Normal
Event
Relay
Program
W
Westinghouse
IQ Analyzer
2.425
kA
incom
Digitrip RMS 810
PONI
Fiber Optic
Cable
W
IQ
E nergy S entinel
PONI
Values
Westinghouse
Digital
Protection
High Load
Reset
Peak - MW
Present - MW
Energy - kWH
IA
IB
IC
IG
Cell No.
IA=
IB=
IC=
Step
TRND
Digitrip RMS Rating Plug
Long Delay
Long Delay
Setting
Time - Sec.
.5
Cat.
Frame Rating
40-60 Hz Only
10
Previous
Level
6T
Short Delay
Time - Sec.
Test
.4
Gnd. Fault
Time - Sec.
Inst.
3
.2
Gnd
F1
F2
Trip
RES
Alarm
Function
Value
Home
F4
F3
RS-232
Black Box
BC00301
Westinghouse
IQ - 1000 II
AMPERES
EVNT HARM DEMD
Current
Voltage
Power (Watts)
Power (Vars)
Power (VA)
Energy
Breaker Trips
Test Amps
2
C
FOMD
W
RES
Reset
372.81
371.25
373.47
Battery Check
Short Delay
Pickup
Gnd. Fault
Pickup
S1 - 7
S2 - 8
M1 - 8
M2 -10
MINT
PONI
Normal
Event
Relay
Program
W
Westinghouse
IQ Analyzer
2.425
kA
incom
Digitrip RMS 810
Inst.
Demand
Power Factor
Frequency
% THD
Distortion Factor
Custom
Mode
Protection
Step Up
Up
Program
RS-232
Black Box
EYN250-0010
Down
Set Points
Step Down
HELP
Trip
Test
Step
Help
Program
Unit
Status
CH DEVICES
IMPCABLE
IQ
E nergy S entinel
To CONI
FOMD
W
IQ
E nergy S entinel
MINT
PONI
Values
Westinghouse
Digital
Protection
Digitrip RMS 810
High Load
Reset
Peak - MW
Present - MW
Energy - kWH
IA
IB
IC
IG
Cell No.
IA=
IB=
IC=
Step
TRND
Digitrip RMS Rating Plug
Long Delay
Long Delay
Setting
Time - Sec.
.5
Cat.
Frame Rating
S1 - 7
S2 - 8
M1 - 8
M2 -10
40-60 Hz Only
10
Breaker Trips
Test Amps
6T
2
Short Delay
Time - Sec.
C
Previous
Level
W
RES
Reset
372.81
371.25
373.47
Trip
RES
Alarm
AMPERES
EVNT HARM DEMD
F1
F2
F3
F4
Westinghouse
IQ - 1000 II
Function
Value
Home
Battery Check
Short Delay
Pickup
Gnd. Fault
Pickup
.4
Gnd. Fault
Time - Sec.
Inst.
3
.2
Gnd
Inst.
Test
Current
Voltage
Power (Watts)
Power (Vars)
Power (VA)
Energy
Demand
Power Factor
Frequency
% THD
Distortion Factor
Custom
Mode
Protection
Step Up
Up
Program
Down
Set Points
HELP
Trip
Test
Unit
Status
Program
FOMD
Help
Step Down
Fiber Optic
Cable
Step
CH DEVICES
Status 6/96
Contact
Application Note
PONI
Values
Westinghouse
Digital
Protection
PONI
Normal
Event
Relay
Program
W
Westinghouse
IQ Analyzer
2.425
kA
incom
W
COMPUTER with
SERIES III (or
POWERNET with
WINDOWS NT), with
or without CONI,
Digitrip RMS 810
High Load
IA=
IB=
IC=
Reset
Peak - MW
Present - MW
Energy - kWH
IA
IB
IC
IG
Cell No.
Step
TRND
Digitrip RMS Rating Plug
Long Delay
Long Delay
Setting
Time - Sec.
.5
Cat.
Frame Rating
10
Breaker Trips
Test Amps
6T
2
Short Delay
Time - Sec.
C
Previous
Level
W
RES
Reset
Westinghouse
IQ - 1000 II
372.81
371.25
373.47
Trip
RES
Alarm
AMPERES
EVNT HARM DEMD
F1
F2
F3
F4
Function
Value
Home
Battery Check
Short Delay
Pickup
Gnd. Fault
Pickup
.4
Gnd. Fault
Time - Sec.
Inst.
3
.2
Gnd
S1 - 7
S2 - 8
M1 - 8
M2 -10
40-60 Hz Only
PONI
Normal
Event
Relay
Program
W
Westinghouse
IQ Analyzer
2.425
kA
incom
Inst.
Test
Current
Voltage
Power (Watts)
Power (Vars)
Power (VA)
Energy
Mode
Protection
Step Up
Up
Program
Down
Set Points
Step Down
HELP
Trip
Test
Unit
Status
Demand
Power Factor
Frequency
% THD
Distortion Factor
Custom
Program
Help
Step
CH DEVICES
Tested
Power Management Application Support
800/809-2772 (USA and Canada) or 412-490-6814
Wiring Specification - TD 17513
2-14
C O N N E C T I V I T Y
Configuration
Application
REMOTE CONNECTION: Fiber Optic Connection as Repeaters
•Continuous monitoring and control of 2 or more separate sites from one central location.
•Remote locations are located less than 2.2 from each other.
•System allows for utilization of existing fiber optic cable.
Bill of Material
and Config.
Material
Document
Settings
MINT II
IL 17466
N, 8, 1, No Ack/Nack, BAUD 9600 (See
appendix B-1 for dip switch settings)
To connect the FIBER OPTIC
Black Box Cat.
DRIVER to the serial port of a PC, RS- BC00301
232 Printer Cable, DB25M/DB9F
See appendix A-1 for pin configuration
(less than 50 feet long).
To connect the MINT to FIBER
OPTIC DRIVER, RS-232 NullModem Cable, DB25M/DB25M
Black Box Cat.
EYN250-0010
See appendix A-2 for pin configuration
(less than 50 feet long).
Fiber Optic Multipoint Line
Drivers
Cat. Black Box:
See appendix C for configuration
ME540-A-ST, MULTIPONT,
information
62.5m Core / 125 m Cladding.
Fiber Optic Cable with Loose Buffer
recommended for underground,
suspended over-head, or other
applications with wide temperature
variations.
Tight Buffer acceptable for another
applications.
-----
-----
To connect the CH Devices,
Twisted Pair of Cable, Type
IMPCABLE or 9463 family
TD 17513
---
CH Devices and
PONIs where necessary
IL 17547, IPONI
IL 17361, BPONI
IL 17408, WPONI
Different address for each device, 9600 BAUD
(for the IQ1000II use BPONI in std. Mode)
2-15
C O N N E C T I V I T Y
Material
Document
Settings
PC, Pentium, 266 MHz., Hard Disk
memory 500 MB free min., VGA
monitor, SVGA recommended,
For Series-III 16 MB RAM memory
min., 32 MB recommended .
For PowerNet 64 MB RAM memory
min., 128 MB recommended.
---
Comport 1: IRQ 4, Base Address 3F8 (hex)
Comport 2: IRQ 3, Base Address 2F8 (hex)
Series-III does not share interrupts. Thus delete any
device (e.j. modem) on the comport to be used.
--2091A90G01
-------
Software
Windows 95, 3.11, or 98
Series III
OR
Windows NT
PowerNet
--Cat. Num: PNEG or
PNED (no graphics)
-------
2-16
C O N N E C T I V I T Y
SECTION 3
MULTIPLE DISPLAY
Remote communication between PCs with or without CH devices
Remote communication between PCs (with or without CH Devices connected)
for Monitoring and Controlling from distant PCs and/or on site.
Application:
Basics
For communication between PCs, we have:
•Computer to Computer (Point to Point)
Serial Connection
Using Line-Drivers:
RS-232 Cable
COMPUTER
Modem or
Line Driver
RS-232 Cable
MEDIA
Modem or
Line Driver
COMPUTER
With this scheme, we can transmit data between 2 PCs using the serial port trough different ways and distances. For
example:
Connection
Dedicated Phone Line
Fiber
Leased Phone Line
Dial Type Phone Line
Via
Line Drivers & 2 or 4 wire “metallic” phone line
Fiber Line Driver & Fiber Optic Cable
Leased Line Modem & a Leased Telephone Line
Modem & Dial Type Telephone Line
Distance
4.3 miles
2.2 miles
Unlimited
Unlimited
3-1
C O N N E C T I V I T Y
•Computer to Computer (Point to Point)
Using Network Cards
When we connects 2 PCs (both with Network cards) directly. That is, without Media Converters,
we must use CROSS-OVER (CROSS PINNING) Cat. 5 10BaseT(UTP-Unshielded Twisted Pair),
cable. The maximum distance is 328 feet (100m)
Cross-Over Cable
(Max. 328 feet)
COMPUTER
COMPUTER
•In order to increment the distance between the PCs we can use Media Converters. It converts
between fiber and your 10BaseT RJ45 cables
Straight 10BaseT, Cat. 5, with RJ45
Connector (Max. 328 feet)
COMPUTER
Media
Converter
Straight 10BaseT, Cat. 5, with RJ45
Connector (Max. 328 feet)
MEDIA
Media
Converter
COMPUTER
3-2
C O N N E C T I V I T Y
•Communication between Several Computers
Networking
•Local Area Network (LAN)
Several Computers, all with Network cards, on a Local Area Network (LAN) connected with HUBS (to
connect HUB to HUB, one needs Cross-Over 10BaseT, Cat. 5, with RJ45 Connector), Maximum distance 328 feet.
COMPUTER
Straight 10BaseT, Cat. 5, with RJ45
Connector (Max. 328 feet)
COMPUTER
HUB
COMPUTER
Straight 10BaseT,
Cat. 5, with RJ45
Connector (Max.
328 feet)
HUB
Cross-Over 10BaseT,
Cat. 5, with RJ45
Connector (Max. 328
feet)
HUB
COMPUTER
3-3
C O N N E C T I V I T Y
•In order to increment the distance between the Hubs, we can use Media Converters. That is a
necessity because the maximum distance between a Hub and a PCs connected with cat. 5,
Ethernet 10BaseT cable (UTP-Unshielded Twisted Pair), RJ45 Connector is 328 feet (100m)
Cross-Over
10BaseT, Cat. 5,
with RJ45
Connector (Max.
328 feet)
Straight 10BaseT,
Cat. 5, with RJ45
Connector (Max.
328 feet)
COMPUTER
HUB
Media
Converter
Straight 10BaseT, Cat. 5, with RJ45
Connector (Max. 328 feet)
COMPUTER
MEDIA
COMPUTER
HUB
Media
Converter
MEDIA
Media
Converter
Cross-Over 10BaseT, Cat.
5, with RJ45 Connector
(Max. 328 feet)
Media
Converter
HUB
Cross-Over
10BaseT, Cat. 5,
with RJ45
Connector (Max.
328 feet)
Media
Converter
Straight 10BaseT, Cat.
5, with RJ45 Connector
(Max. 328 feet)
COMPUTER
Media
Converter
RULES:
There are some rules that one must follow to assure a good transmission of data between PCs. Some of
them are:
1. Between 2 PCs, or nodes, (through any possible path) there must be a maximum of 4 repearters (or
hubs)
2. Media converters count as 1/4 repeater.
3. No more than 3 populated cable segments.
4. If there is no media converters between HUBs, one must connect them with cross-over cable.
5. When using media converters, it is recommended to use Cross-Over Media Converters in order to
eliminate the use of cross-over cables.
6. Between Hubs and PCs, one must use straight cable.
Contact
Advanced Products Support Center
800/809-2772 (USA and Canada) or 412-490-6814
3-4
C O N N E C T I V I T Y
Configuration
Application
Supports
MULTIPLE DISPLAY: Independent Control, Series III Interface
SERIAL CONNECTION
•Independent monitoring and control done both on site and from a remote computer.
•Remote computer has Series III Interface with all logging, alarming, and trending capabilities.
All CH Devices
RS-232
DB25M/DB9F
Black Box:
BC00301
Modem or
Line Driver
RS-232
DB25M/DB9F
Black Box:
BC00301
Media
IQ
E nergy S entinel
Modem or
Line Driver
PONI
Values
COMPUTER WITH
SERIES III
COMPUTER WITH
SERIES III with CONI or MINT
with a serial port configured
as Gateway
“MAIN”
Energy
Sentinel
W
“DEVICE”
Westinghouse
Digital
Protection
2.425
kA
incom
High Load
IA=
IB=
IC=
Reset
Peak - MW
Present - MW
Energy - kWH
IA
IB
IC
IG
Cell No.
Digitrip RMS 810
Step
TRND
Digitrip RMS Rating Plug
Long Delay
Long Delay
Setting
Time - Sec.
.5
Cat.
Frame Rating
40-60 Hz Only
10
Breaker Trips
Test Amps
6T
2
Short Delay
Time - Sec.
C
.4
Gnd. Fault
Time - Sec.
Inst.
3
.2
Gnd
Previous
Level
W
RES
Reset
372.81
371.25
373.47
AMPERES
EVNT HARM
F1
F2
F3
Trip
RES
Alarm
Function
DEMD
F4
Westinghouse
IQ - 1000 II
Value
Home
Battery Check
Short Delay
Pickup
Gnd. Fault
Pickup
S1 - 7
S2 - 8
M1 - 8
M2 -10
PONI
Normal
Event
Relay
Program
W
Westinghouse
IQ Analyzer
Inst.
Test
Current
Voltage
Power (Watts)
Power (Vars)
Power (VA)
Energy
Demand
Power Factor
Frequency
% THD
Distortion Factor
Custom
Mode
Protection
Program
Down
Set Points
Digitrip 810
Step Down
HELP
Trip
Test
Unit
Status
Step Up
Up
Program
Help
IQ Analyzer
Step
IQ 1000 II
CH DEVICES
Specifications
• “MAIN” computer supports 1000 devices and up to 16 “DEVICE” computers.
• From the “DEVICE” computer to all devices, standard Wiring rules apply (TD 17513).
• The computer labeled “DEVICE” is configured to use one of its serial ports as a gateway. The
modem is attached to the serial port configured as a gateway. The computer labeled “MAIN” has
a modem attached to one of its com ports. On the “MAIN” computer SERIES III is setup to look
for a MINT on the com port with the modem attached.
• Distance between the “Main” and “Device” computers is dependent on the connection used:
Connection
Dedicated Phone Line
Fiber
Leased Phone Line
Dial Type Phone Line
Status 6/96
Contact
Application Note
Via
Line Drivers & 2 or 4 wire “metallic” phone line
Fiber Line Driver & Fiber Optic Cable
Leased Line Modem & a Leased Telephone Line
Modem & Dial Type Telephone Line
Distance
4.3 miles
2.2 miles
Unlimited
Unlimited
Tested
Power Management Application Support
800/809-2772 (USA and Canada) or 412-490-6814
Wiring Specification - TD 17513
3-5
C O N N E C T I V I T Y
Configuration
Application
MULTIPLE DISPLAY
SERIAL CONNECTION: Dedicated Twisted Pair Line Connection
•Independent monitoring and control done both on site and from a remote computer.
•Remote computer has Series III Interface with all logging, alarming, and trending capabilities.
•Remote locations are located less than 4 miles.
•System allows for utilization of existing 2 or 4 wire “metallic” non-dial tone telephone lines.
Bill of Material
and Config.
Material
Document
Settings
To connect the LINE DRIVER to
the serial port of PCs: RS-232
Printer Cable, DB25M/DB9F.
Black Box Cat.
BC00301
See appendix A-1 for pin configuration (less than 50
feet long).
Line Drivers:
4 wires, 4 miles, at 19.2 Kbps
4 wires, 4 miles, at 115.2 Kbps
2 wires, 2 miles, at 19.2 Kbps
Cat. Black Box:
ME800A-R2.
ME802A
ME755A
See appendix C for configuration information.
2 or 4 Twisted Pair
Telephone Cable
#24 AWG or Larger
------
To connect the CH Devices,
Twisted Pair of Cable, Type
IMPCABLE or 9463 family.
TD 17513
---
CH Devices and
PONIs where necessary
IL 17547, IPONI
IL 17361, BPONI
IL 17408, WPONI
Different address for each device, 9600 BAUD
(for the IQ1000II, use BPONI in std. Mode)
CONI-3
IL 17551
Address 300, IRQ 5, Mode 1 (Series-III), Mode 2
(PowerNet), BAUD 9600 (See appendix B-3, and B-4
for dip switches settings)
To connect the CONI with the twisted
pair of cables, Interface Adapter
Assy.,
Cat. Num.
8793C85G01.
See appendix A-5, for configuration.
To connect the CONI with the
twisted pair of cables, RJ11 Cable.
---
RJ11, less than 50 feet. See appendix A-5 for
configuration.
3-6
C O N N E C T I V I T Y
Material
PC, Pentium, 266 MHz., Hard Disk
memory 100MB free min., VGA
monitor, SVGA recommended,
For Series-III 16 MB RAM memory
min., 32 MB recommended .
Document
Settings
---
Comport 1: IRQ 4, Base Address 3F8 (hex)
Comport 2: IRQ 3, Base Address 2F8 (hex)
Series-III does not share interrupts. Thus delete any
device (e.j. modem) on the comport to be used.
--2091A90G01
-------
Software
Windows 95, 3.11, or 98
Series III
3-7
C O N N E C T I V I T Y
Configuration
Application
MULTIPLE DISPLAY
SERIAL CONNECTION: Fiber Optic Connection
•Independent monitoring and control done both on site and from a remote computer.
•Remote computer has Series III Interface with all logging, alarming, and trending capabilities.
•Remote locations are located less than 2.2 miles.
•System allows for utilization of existing fiber optic cable.
Bill of Material
and Config.
Material
Document
Settings
To connect the FIBER OPTIC
DRIVER to the serial port of PCs:
RS-232 Printer Cable, DB25M/DB9F
Black Box Cat.
BC00301
See appendix A-1 for pin configuration
(less than 50 feet long).
Fiber Optic Drivers
Cat. Black Box:
See appendix C for configuration
MD940A-FST
information.
62.5m Core / 125 m Cladding.
DUPLEX MULT-MODE FIBER
OPTIC DRIVER
ME320A
Fiber Optic Cable with Loose Buffer
recommended for underground,
suspended over-head, or other
applications with wide temperature
variations.
Tight Buffer acceptable for another
applications.
-----
------
To connect the CH Devices,
Twisted Pair of Cable, Type
IMPCABLE or 9463 family
TD 17513
---
CH Devices and
PONIs where necessary
IL 17547, IPONI
IL 17361, BPONI
IL 17408, WPONI
Different address for each device, 9600
BAUD (for the IQ1000II use BPONI in std.
Mode)
CONI-3
IL 17551
Address 300, IRQ 5, Mode 1 (Series-III),
Mode 2 (PowerNet), BAUD 9600 (See
appendix B-3, and B-4 for dip switches
settings)
To connect the CONI with the twisted
pair of cables, Interface Adapter
Assy.,
Cat. Num.
8793C85G01.
See appendix A-5, for configuration.
To connect the CONI with the
twisted pair of cables, RJ11 Cable.
---
RJ11, less than 50 feet. See appendix A-5
for configuration.
3-8
C O N N E C T I V I T Y
Material
Document
Settings
PC, Pentium, 266 MHz., Hard Disk
memory 100MB free min., VGA
monitor, SVGA recommended,
For Series-III 16 MB RAM memory
min., 32 MB recommended .
---
Comport 1: IRQ 4, Base Address 3F8 (hex)
Comport 2: IRQ 3, Base Address 2F8 (hex)
Series-III does not share interrupts. Thus delete any
device (e.j. modem) on the comport to be used.
--2091A90G01
-------
Software
Windows 95, 3.11, or 98
Series III
3-9
C O N N E C T I V I T Y
MULTIPLE DISPLAY
SERIAL CONNECTION: Lease Line Telephone Connection
Configuration
Application
•Independent monitoring and control done both on site and from a remote computer.
•Remote computer has Series III Interface with all logging, alarming, and trending capabilities.
•Remote locations are located greater than 4 miles.
Bill of Material
and Config.
Material
Document
Settings
To connect the MODEM DRIVER
to the serial port of PCs: RS-232
Printer Cable, DB25M/DB9F
Black Box Cat.
BC00301
See appendix A-1 for pin configuration Less than 50
feet long).
Lease Line Modem
US-ROBOTICS
V.EVERYTHING
MODEM
See appendix C for configuration information.
Lease Line Telephone Line
Contact Phone Co.
------
To connect the CH Devices,
Twisted Pair of Cable, Type
IMPCABLE or 9463 family.
TD 17513
---
CH Devices and
PONIs where necessary
IL 17547, IPONI
IL 17361, BPONI
IL 17408, WPONI
Different address for each device, 9600 BAUD
(for the IQ1000II use BPONI in std. Mode)
CONI-3
IL 17551
Address 300, IRQ 5, Mode 1 (Series-III), Mode 2
(PowerNet), BAUD 9600 (See appendix B-3, and B-4
for dip switches settings)
To connect the CONI with the
twisted pair of cables, Interface
Adapter
Assy.,
Cat. Num.
8793C85G01.
See appendix A-5, for configuration.
To connect the CONI with the
twisted pair of cables, RJ11 Cable.
---
RJ11, less than 50 feet. See appendix A-5 for
configuration.
3-10
C O N N E C T I V I T Y
Material
PC, Pentium, 266 MHz., Hard Disk
memory 100MB free min., VGA
monitor, SVGA recommended,
For Series-III 16 MB RAM memory
min., 32 MB recommended .
Document
Settings
---
Comport 1: IRQ 4, Base Address 3F8 (hex)
Comport 2: IRQ 3, Base Address 2F8 (hex)
Series-III does not share interrupts. Thus delete any
device (e.j. modem) on the comport to be used.
--2091A90G01
-------
Software
Windows 95, 3.11, or 98
Series III
3-11
C O N N E C T I V I T Y
Configuration
Application
MULTIPLE DISPLAY
SERIAL CONNECTION: Dial Up Phone Line Access
•Temporary Independent monitoring and control done both on site and from a remote computer.
•Remote computer has Series III Interface with all logging, alarming, and trending capabilities.
•Remote locations are located greater than 4 miles.
OR
•Continuous monitoring of up to 2 locations where lease line modem and dedicated phone lines are
not available.
Bill of Material
and Config.
Material
Document
Settings
To connect the MODEM to the
serial port of PCs: RS-232
Printer Cable, DB25M/DB9F
Black Box Cat.
001868-0
See appendix A-1 for pin configuration (less than 50
feet long).
Modems
US-ROBOTICS
SPORTSTER
EXTERNAL
MODEM, or
US-ROBOTICS
V.EVERYTHING
MODEM
See appendix C for configuration information.
Dial-Up Telephone Line
-----
------
To connect the CH Devices,
Twisted Pair of Cable, Type
IMPCABLE or 9463 family
TD 17513
IMPCABLE or 9463 family
CH Devices and
PONIs where necessary
IL 17547, IPONI
IL 17361, BPONI
IL 17408, WPONI
Different address for each device, 9600 BAUD
(for the IQ1000II use BPONI in std. Mode)
CONI-3
IL 17551
Address 300, IRQ 5, Mode 1 (Series-III), Mode 2
(PowerNet), BAUD 9600 (See appendix B-3, and B-4
for dip switches settings)
To connect the CONI with the
twisted pair of cables, Interface
Adapter
Assy.,
Cat. Num.
8793C85G01.
See appendix A-5, for configuration.
To connect the CONI with the
twisted pair of cables, RJ11 Cable.
---
RJ11, less than 50 feet. See appendix A-5 for
configuration.
3-12
C O N N E C T I V I T Y
Material
PC, Pentium, 266 MHz., Hard Disk
memory 100MB free min., VGA
monitor, SVGA recommended,
For Series-III 16 MB RAM memory
min., 32 MB recommended .
Document
Settings
---
Comport 1: IRQ 4, Base Address 3F8 (hex)
Comport 2: IRQ 3, Base Address 2F8 (hex)
Series-III does not share interrupts. Thus delete any
device (e.j. modem) on the comport to be used.
Windows 95, 3.11, or 98
Series III
--2091A90G01
-------
Terminal Dial-Up Program
(Windows Terminal
recommended)
----
----
Software
3-13
C O N N E C T I V I T Y
Configuration
Application
MULTIPLE DISPLAY
SERIAL CONNECTION: Radio Modem
•Independent monitoring and control done both on site and from a remote computer.
•Remote computer has PowerNet software with all logging, alarming, and trending capabilities.
Bill of Material
and Config.
Material
Document
Settings
To connect the RADIO MODEM
to the serial port of PCs: RS-232
Printer Cable, DB25M/DB9F
Black Box Cat.
BC00301
See appendix A-1 for pin configuration (less than 50
feet long).
Radio Modem MICROWAVE
DATA SYSTEM, mod. MDS9810
(www.mdsroc.com)
---
Master, connected to the serial port of the PC):
BAUD 9600, N, 8, 1, SIMPLEX: OFF, Hop Time:
normal, Buffer Mode: 5EE, Add: 9106
Remote, connected to a MINT:
BAUD rate 9600 BPS, 8,N,1, , Mode Remote, Add:
3634
MINT firmware 4/99 or later with PowerNet
DeviceServer (not Series III) required.
---
To connect the CH Devices,
Twisted Pair of Cable, Type
IMPCABLE or 9463 family.
TD 17513
CH Devices and
PONIs where necessary
IL 17547, IPONI
IL 17361, BPONI
IL 17408, WPONI
Different address for each device, 9600 BAUD
(for the IQ1000II use BPONI in std. Mode)
CONI-3
IL 17551
Address 300, IRQ 5, Mode 1 (Series-III), Mode 2
(PowerNet), BAUD 9600 (See appendix B-3, and B-4
for dip switches settings)
To connect the CONI with the
twisted pair of cables, Interface
Adapter
Assy.,
Cat. Num.
8793C85G01.
See appendix A-5, for configuration.
To connect the CONI with the
twisted pair of cables, RJ11 Cable.
---
RJ11, less than 50 feet. See appendix A-5 for
configuration.
Ferrite Suppression Core
Assemblies 0443167251B (for use
with IMPCABLE) or 0443164251B
(for use with 9463, RS-232,
power)
www.fair-rite.com
www.Newark.com
Install on each line entering MINT (INCOM, RS-232 and
power)
Fair-Rite
Newark
Use
0443167251B 91F6477
IMPCABLE
0443164251B 91F6476
9463, power, RS-232
3-14
C O N N E C T I V I T Y
Material
PC, Pentium, 266 MHz., Hard Disk
memory 100MB free min., VGA
monitor, SVGA recommended,
For Series-III 16 MB RAM memory
min., 32 MB recommended .
Document
Settings
---
Comport 1: IRQ 4, Base Address 3F8 (hex)
Comport 2: IRQ 3, Base Address 2F8 (hex)
Series-III does not share interrupts. Thus delete any
device (e.j. modem) on the comport to be used.
--2091A90G01
-------
Software
Windows 95, 3.11, or 98
Series III
3-15
C O N N E C T I V I T Y
Configuration
Application
Supports
MULTIPLE DISPLAY
POINT TO POINT REMOTE COMMUNICATION FOR PCs
Display In Two Locations: Independent Control, Series III or POWERNET
Interface
Network Card
•Independent monitoring and control done both on site and from a remote computer.
•Remote computer has Series III Interface with all logging, alarming, and trending capabilities.
•A graphical user interface at remote monitoring computer(s) and/or at local terminal(s)
•When we connects 2 PCs directly (Point to Point). That is, without Media Converters, we must use
CROSS-OVER (CROSS PINNING) cable. The maximum distance is 328 feet (100m)
•Typically, the connection between the PC network interface card (NIC) and the media converter is a
“straight-through” cable. If the media converter is designed to be connected to a hub instead of a
NIC, then we use the cross-over cable between the NIC and the media converter. There are some
media converters (Called Cross-Over Media Converters) that have an UP-LINK switch. With this
switch set on the “X” position, we can use straight pinning 10BaseT, RJ45 connector, cat. 5 cable.
Media converters that include the uplink switch can connect to both NICs and Ethernet hubs with a
straight-through cable. No cross-over cabling is required.
All CH Devices
Ethernet
Straight 10BaseT, Cat. 5,
with RJ45 Connector
(Max. 328 feet)
Energy
Sentinel
W
IQ
E nergy S entinel
Media
Converter
MEDIA
Media
Converter
PONI
Values
Westinghouse
Digital
Protection
kA
incom
COMPUTER with
ENHANCED GRAPHICS,
REMOTELY POSSIBLE,
NET-DDE, NETWORK
SOFTWARE, and NETWORK
CARD or
COMPUTER WITH
NETWORK CARD
POWERNET, and NETPOWER
INTEGRATOR
“MAIN”
IA=
IB=
IC=
Reset
Peak - MW
Present - MW
Energy - kWH
IA
IB
IC
IG
Cell No.
Digitrip RMS 810
Step
PONI
Normal
Event
Relay
Program
W
Westinghouse
IQ Analyzer
2.425
W
RES
Reset
372.81
371.25
373.47
Westinghouse
IQ - 1000 II
Trip
RES
Alarm
COMPUTER with
SERIES III with CONI and/or
MINT, ENHANCED GRAPHICS,
REMOTELY POSSIBLE, NET-DDE,
Digitrip 810 IQ Analyzer IQ 1000 II
NETWORK CARD and
CH DEVICES
NETWORK SOFTWARE or
COMPUTER with CONI and/or
MINT, NETWORK CARD, POWERNET,
NETPOWER INTEGRATOR, and WINDOWS NT
High Load
TRND
Digitrip RMS Rating Plug
Long Delay
Long Delay
Setting
Time - Sec.
.5
Cat.
Frame Rating
40-60 Hz Only
10
Breaker Trips
Test Amps
6T
2
Short Delay
Time - Sec.
C
.4
Gnd. Fault
Time - Sec.
Inst.
3
.2
Gnd
Previous
Level
AMPERES
EVNT HARM
F1
F2
F3
Function
DEMD
F4
Value
Home
Battery Check
Short Delay
Pickup
Gnd. Fault
Pickup
S1 - 7
S2 - 8
M1 - 8
M2 -10
Inst.
Test
Current
Voltage
Power (Watts)
Power (Vars)
Power (VA)
Energy
Demand
Power Factor
Frequency
% THD
Distortion Factor
Custom
Mode
Protection
Unit
Status
Step Up
Up
Program
Down
Set Points
Step Down
HELP
Trip
Test
Program
Help
Step
“DEVICE”
Basic Configuration 1: Devices connected to only one terminal with Cross-Over Media
Converter and Straight 10BaseT, RJ45 connector, Cat. 5 cable.
3-16
C O N N E C T I V I T Y
“DEVICE”
“DEVICE”
COMPUTER with
SERIES III with CONI and/or MINT, ENHANCED
GRAPHICS, REMOTELY POSSIBLE, NET-DDE,
NETWORK CARD AND NETWORK SOFTWARE or
COMPUTER with CONI and/or MINT, NETWORK CARD,
POWERNET, NETPOWER INTEGRATOR, and
WINDOWS NT
Straight 10BaseT, Cat. 5,
with RJ45 Connector
(Max. 328 feet)
MEDIA
Media
Converter
PONI
Values
Westinghouse
Digital
Protection
2.425
kA
incom
High Load
IA=
IB=
IC=
Reset
Peak - MW
Present - MW
Energy - kWH
IA
IB
IC
IG
Cell No.
Digitrip RMS 810
Step
TRND
Digitrip RMS Rating Plug
Long Delay
Long Delay
Setting
Time - Sec.
.5
Cat.
Frame Rating
40-60 Hz Only
10
Breaker Trips
Test Amps
6T
2
Short Delay
Time - Sec.
C
.4
Gnd. Fault
Time - Sec.
Inst.
3
.2
Gnd
Previous
Level
F1
F2
F3
Westinghouse
IQ - 1000 II
RES
Alarm
High Load
Function
Value
Long Delay
Long Delay
Setting
Time - Sec.
Home
Inst.
Test
Mode
Protection
Digitrip 810
Breaker Trips
Test Amps
6T
Short Delay
Time - Sec.
Step Down
.4
HELP
Program
Help
Gnd. Fault
Time - Sec.
IQ 1000 II
CH DEVICES
Inst.
3
.2
Step
Gnd
IQ Analyzer
TRND
Previous
Level
W
RES
Reset
372.81
371.25
373.47
AMPERES
EVNT HARM
F1
F2
F3
Trip
RES
Alarm
Function
DEMD
F4
Westinghouse
IQ - 1000 II
Value
Home
Battery Check
2
C
Set Points
S1 - 7
S2 - 8
M1 - 8
M2 -10
40-60 Hz Only
Short Delay
Pickup
Gnd. Fault
Pickup
Program
Trip
Test
Unit
Status
Cat.
Frame Rating
Step Up
Up
Down
Step
Digitrip RMS Rating Plug
.5
Demand
Power Factor
Frequency
% THD
Distortion Factor
Custom
IA=
IB=
IC=
Reset
Peak - MW
Present - MW
Energy - kWH
10
Current
Voltage
Power (Watts)
Power (Vars)
Power (VA)
Energy
Westinghouse
IQ Analyzer
2.425
IA
IB
IC
IG
Cell No.
Digitrip RMS 810
PONI
Normal
Event
Relay
Program
W
kA
incom
Trip
DEMD
F4
Values
Westinghouse
Digital
Protection
Battery Check
Short Delay
Pickup
Gnd. Fault
Pickup
S1 - 7
S2 - 8
M1 - 8
M2 -10
PONI
W
RES
Reset
372.81
371.25
373.47
AMPERES
EVNT HARM
Media
Converter
PONI
Normal
Event
Relay
Program
W
Westinghouse
IQ Analyzer
COMPUTER WITH SERIES III with CONI and/or
MINT, ENHANCED GRAPHICS, REMOTELY
POSSIBLE, NET-DDE, NETWORK CARD AND
NETWORK SOFTWARE or
COMPUTER with CONI and/or MINT, NETWORK
CARD, POWERNET, NETPOWER INTEGRATOR,
and WINDOWS NT
Inst.
Test
Current
Voltage
Power (Watts)
Power (Vars)
Power (VA)
Energy
Demand
Power Factor
Frequency
% THD
Distortion Factor
Custom
Mode
Protection
Program
Set Points
Digitrip 810
Step Down
HELP
Trip
Test
Unit
Status
Step Up
Up
Down
Program
Step
Help
IQ Analyzer
IQ 1000 II
CH DEVICES
Basic Configuration 2: Devices connected to both terminals with Cross-Over Media
Converter and Straight 10BaseT, RJ45 connector, Cat. 5 cable.
Contact
Advanced Products Support Center
800/809-2772 (USA and Canada) or 412-490-6814
3-17
C O N N E C T I V I T Y
Configuration
Application
Point to Point, Display In Two Locations: Independent Control, Series III or
PowerNet Interface. Fiber Optic Connection
•Independent monitoring and control done both on site and from a remote computer.
•Remote computer has Series III or PowerNet Interface with all logging, alarming, and trending
capabilities.
•A graphical user interface at remote monitoring computer(s) and/or at local terminal(s)
•PCs are located less than 2.2 miles from each other
•System allows for utilization of existing fiber optic cable
•When we connect 2 PCs directly (Point to Point). That is, without Media Converters, we must use
CROSS-OVER (CROSS PINNING) cable. The maximum distance is 328 feet (100m)
•When we need to increase this distance, we can use Media Converters, such as fiber optic media
converters.
•Fiber optic cable is available in both “multi-mode” and “single-mode” varieties. Multi-mode cable is
less expensive, but Ethernet signals can only travel 6500 feet on multi-mode fiber. Single mode
distances are longer, typically 20 km. The type of media converter must match the type of cable.
Bill of Material
and Config.
Material
Document
Settings
CONI-3
IL 17551
Address 300, IRQ 5, Mode 1, BAUD 9600. (See
appendix B-3 and B-4 for dip switches settings)
To connect the CONI with the
twisted pair of cables, Interface
Adapter Assy.
Cat. Num.
8793C85G01.
See appendix A-5, for configuration.
To connect the CH Devices,
Twisted Pair of Cable, TYPE
IMPCABLE or 9463 family.
TD 17513
---
To connect the CONI with the
twisted pair of cables, RJ11 Cable.
---
RJ11, less than 50 feet. See appendix A-5 for
configuration.
To connect the 2 PCs Ethernet 8
wires, cat. 5, 10BaseT, Cross
Pinning Cable (Cross-over) with
RJ45 connector, max. 328 feet
(100m), (when we do not use CrossOver Media Converters)
Cat. Black Box:
EVCRB05
See appendix A-6, for pin configuration.
To connect the PCs to the Media
Cat. Black Box:
Converters Ethernet 8 wires, Cat. 5,
EVNSL01
10BaseT, Straight Pinning Cable with
RJ45 connector, max. 328 feet
(100m).
See appendix A-6, for pin configuration.
CH Devices and
PONIs where necessary
IL 17547, IPONI
IL 17361, BPONI
IL 17408, WPONI
Different address for each device, 9600 BAUD
(for the IQ1000II use BPONI in std. Mode)
3-18
C O N N E C T I V I T Y
Material
Document
Settings
PC, Pentium, 266 MHz., Hard Disk
memory 500 MB free min., VGA
monitor, SVGA recommended,
For Series-III 16 MB RAM memory
min., 32 MB recommended .
For PowerNet 64 MB RAM memory
min., 128 MB recommended.
---
Comport 1: IRQ 4, Base Address 3F8 (hex)
Comport 2: IRQ 3, Base Address 2F8 (hex)
Series-III does not share interrupts. Thus delete any
device (e.j. modem) on the comport to be used.
Network Card:
3COM ETHERLINK III PCMCIA
---
---
Cross-Over Media Converter
10Base-T/Fiber-ST, Multimode.
(with this model we do not need
Cross-Over cables)
Cat. Black Box:
LE1500-AUTP
62.5m Core /
125 m Cladding.
DUPLEX MULTIMODE FIBER
OPTIC CrossOver Media
Converter
---
Fiber Optic Cable with Loose Buffer
recommended for underground,
suspended over-head, or other
applications with wide temperature
variations.
Tight Buffer acceptable for another
applications.
-----
------
Software
Windows 95, 3.11 or 98
Series III, (for each PC with INCOM
devices connected)
Net DDE
Network Software
Enhanced Graphics
Carbon Copy (Remotely Possible)
--2091A90G01
-------
--Cat. Num: PNEG
-------
OR
Windows NT
PowerNet
3-19
C O N N E C T I V I T Y
MULTIPLE SYSTEMS: Local Area Network (LAN)
Configuration
•A LAN is to be used to network multiple SERIES III or POWERNET systems together with one or
more remote monitoring computers.
•Independent monitoring and control done both on site and at the remote computer(s)
•A graphical user interface at remote monitoring computer(s) and/or at local terminal(s)
•Fastest data update times possible.
Application
“MAIN”
Supports
COMPUTER WITH
ENHANCED GRAPHICS,
REMOTELY POSSIBLE, NET
DDE, NETWORK CARD &
NETWORK SOFTWARE or
COMPUTER with NETWORK
CARD, POWERNET, &
NETPOWER INTEGRATOR
All CH Devices
“REMOTE”
COMPUTER with ENHANCED
GRAPHICS ,
NET DDE, NETWORK CARD &
NETWORK SOFTWARE or
COMPUTER with NETWORK CARD,
POWERNET, & NETPOWER
INTEGRATOR
PONI
Normal
Event
Relay
Program
W
Westinghouse
IQ Analyzer
IA=
IB=
IC=
TRND
Previous
Level
RES
Reset
372.81
371.25
373.47
AMPERES
EVNT HARM
F1
Current
Voltage
Power (Watts)
Power (Vars)
Power (VA)
Energy
F2
F3
DEMD
F4
Demand
Power Factor
Frequency
% THD
Distortion Factor
Custom
Home
MINT
Up
Down
Terminal
Server
Help
Program
HUB
Straight 10BaseT,
Cat. 5, with RJ45
Connector (Max.
328 feet)
“DEVICE”
COMPUTER with
SERIES III, ENHANCED
GRAPHICS, CONI, NET
DDE, NETWORK CARD &
NETWORK SOFTWARE
or
COMPUTER with CONI,
NETWORK CARD,
POWERNET, NETPOWER
INTEGRATOR, and
WINDOWS NT
“DEVICE”
COMPUTER WITH
SERIES III, ENHANCED
GRAPHICS, CONI,
NET DDE, NETWORK CARD &
NETWORK SOFTWARE or
COMPUTER with CONI,
NETWORK CARD,
POWERNET, NETPOWER
INTEGRATOR, and WINDOWS
NT
Straight 10BaseT,
Cat. 5, with RJ45
Connector (Max.
328 feet)
* Cross-Over 10BaseT,
Cat. 5, with RJ45
Connector (Max. 328
feet), Between HUBs
HUB
Media
Converter
Media
Converter
HUB
MEDIA
PONI
PONI
PONI
Values
Westinghouse
Digital
Protection
Values
Westinghouse
Digital
Protection
High Load
IA=
IB=
IC=
Reset
Peak - MW
Present - MW
Energy - kWH
IA
IB
IC
IG
Cell No.
Step
TRND
Digitrip RMS Rating Plug
Long Delay
Setting
.5
Long Delay
Time - Sec.
Cat.
Frame Rating
Previous
Level
W
RES
Reset
Westinghouse
IQ - 1000 II
372.81
371.25
373.47
AMPERES
EVNT HARM
F1
F2
F3
Trip
RES
Alarm
Function
DEMD
F4
Value
Home
Battery Check
Current
Voltage
Power (Watts)
Power (Vars)
Power (VA)
Energy
Breaker Trips
Test Amps
6T
2
Short Delay
Time - Sec.
C
.4
Gnd. Fault
Time - Sec.
Inst.
3
.2
Gnd
S1 - 7
S2 - 8
M1 - 8
M2 -10
40-60 Hz Only
10
Short Delay
Pickup
Gnd. Fault
Pickup
Normal
Event
Relay
Program
W
Westinghouse
IQ Analyzer
2.425
kA
incom
Digitrip RMS 810
Inst.
Test
Demand
Power Factor
Frequency
% THD
Distortion Factor
Custom
Mode
Protection
Step Up
Up
Program
Down
Set Points
Step Down
HELP
Trip
Test
Program
Unit
Status
Digitrip 810
Help
IQ Analyzer
Step
IQ 1000 II
CH DEVICES
Straight
10BaseT, Cat.
5, with RJ45
Connector
(Max. 328 feet)
kA
incom
High Load
IA=
IB=
IC=
Reset
Peak - MW
Present - MW
Energy - kWH
IA
IB
IC
IG
Cell No.
Digitrip RMS 810
Step
TRND
Digitrip RMS Rating Plug
Long Delay
Setting
.5
Long Delay
Time - Sec.
Cat.
Frame Rating
40-60 Hz Only
10
372.81
371.25
373.47
AMPERES
EVNT HARM
F1
Current
Voltage
Power (Watts)
Power (Vars)
Power (VA)
Energy
Breaker Trips
Test Amps
6T
2
Short Delay
Time - Sec.
C
.4
Gnd. Fault
Time - Sec.
Inst.
3
.2
Gnd
Previous
Level
W
RES
Reset
F2
F3
Trip
RES
Alarm
Function
DEMD
F4
Westinghouse
IQ - 1000 II
Value
Home
Battery Check
Short Delay
Pickup
Gnd. Fault
Pickup
S1 - 7
S2 - 8
M1 - 8
M2 -10
PONI
Normal
Event
Relay
Program
W
Westinghouse
IQ Analyzer
2.425
Inst.
Test
Demand
Power Factor
Frequency
% THD
Distortion Factor
Custom
Mode
Protection
Step Up
Up
Program
Down
Set Points
Step Down
HELP
Trip
Test
Program
Unit
Status
Digitrip 810
Step
Help
IQ Analyzer
IQ 1000 II
CH DEVICES
“REMOTE”
* If media converter supports Built-In-Cross-Over
Connection, the Straight Through Cable between media
converter and hub can be used
COMPUTER WITH
ENHANCED GRAPHICS ,
NET DDE, NETWORK CARD &
NETWORK SOFTWARE or
COMPUTER with NETWORK
CARD, POWERNET, &
NETPOWER INTEGRATOR
3-20
C O N N E C T I V I T Y
Specifications
Rules
• Each “DEVICE” Computer (PC with CH devices connected) supports up to 1000 devices.
• From the “DEVICE” computers to all devices standard wiring rules apply (TD 17513).
• The remote monitoring computers may be linked together on a LAN system running at speeds
up to 100 Megabaud using currently available Ethernet hardware. Note that ISA bus Ethernet
cards are limited to 10 Megabaud. 100 Megabaud is available from Ethernet hardware built into
the computer motherboard or from a PCI bus network interface card (NIC).
• Trending data can be recorded to any location on the network as supported by the network
software. Data can be viewed from all INCOM networks at any drop on the network running
Enhanced Graphics Software.
• Data is exchanged over any network supporting TCP/IP, NetBIOS, or IPX/SPX protocol. Such
network platforms include Microsoft Windows for Workgroups and Microsoft Windows 95.
• Data exchange rates are dependent on network speed, number of nodes on the network and
types of messages transmitted and network hardware (routers, etc.) located between nodes.
typically between one and ten Megabaud.
• Each “REMOTE” can be connected to a LAN (Local Area Network) to monitor or control. That
is, we can connect several computers to the hubs depending on our requirements.
There are some rules that one must follow to assure a good transmission of data between PCs.
Some of them are:
1. Between 2 PCs, or nodes, (through any possible path) there must be a maximum of 4
repeaters (or hubs)
2. Media converters count as 1/4 repeater.
3. No more than 3 populated cable segments.
4. If there is no media converters between HUBs, one must connect them with cross-over cable.
5. When using media converters, it is recommended to use Cross-Over Media Converters in order
to eliminate the use of cross-over cables.
6. Between Hubs and NICs mounted in PCs, one must use straight cable.
Status 6/96
Contact
Application Note
Tested
Power Management Application Support
800/809-2772 (USA and Canada) or 412-490-6814
INCOM Wiring Specification - TD 17513
3-21
C O N N E C T I V I T Y
Configuration
Application
MULTIPLE SYSTEMS: Local Area Network (LAN). Fiber Optic Connection
•A LAN is to be used to network multiple SERIES III or POWERNET systems together with one or
more remote monitoring computers.
•Independent monitoring and control done both on site and at the remote computer(s)
•A graphical user interface at remote monitoring computer(s) and/or at local terminal(s)
•Fastest data update times possible.
•Media Converters are located less than 2.2 miles away
•There are media converters (called Cross-Over Media Converters) that have an UP-LINK switch. With
this switch set on the “X” position, we can use straight pinning 10BaseT, RJ45 connector, cat. 5 cable.
That is, it eliminates the use of Cross-Over cables when connecting the media converter to a hub.
Bill of Material
and Config.
Material
Document
CONI-3, for each PC with INCOM
devices.
IL 17551
Address 300, IRQ 5, Mode 1, BAUD 9600. (See
appendix B-3 and B-4 for dip switches settings)
To connect the CONI with the
twisted pair of cables, Interface
Adapter Assy.
Cat. Num.
8793C85G01.
See appendix A-5, for configuration.
To connect the CH Devices,
Twisted Pair of Cable, TYPE
IMPCABLE or 9463 family.
TD 17513
---
To connect the CONI with the
twisted pair of cables, RJ11 Cable.
---
RJ11, less than 50 feet. See appendix A-5 for
configuration.
HUB: 8 Port 3COM Ethernet Hub
TPO/8, 3C16700 with 8 10BaseT
RJ45 ports
Cat. Black Box:
3C16700
---
Cross-Over Media Converter
10Base-T/Fiber-ST, Multimode
Settings
Cat. Black Box:
--LE1500-AUTP
62.5m Core / 125 m
Cladding. DUPLEX
MULTI-MODE FIBER
OPTIC Cross-Over
Media Converter
3-22
C O N N E C T I V I T Y
Material
Document
Settings
Fiber Optic Hub
(When the Fiber Optic Driver and
the HUB are contained in the same
unit)
(www.blackbox.com)
Cat. Black Box:
See appendix C for configuration information
Chassis: LE6221A
Thick Ethernet:
LE6205-f
10BaseT (RJ45):
LE6210
Fiber ST: LE6207-ST
62.5m Core / 125 m
Cladding. DUPLEX
MULT-MODE FIBER
OPTIC HUB
Fiber Optic Cable with Loose
Buffer recommended for
underground, suspended overhead, or other applications with
wide temperature variations.
Tight Buffer acceptable for another
applications.
-----
------
To connect the PCs to the Hubs:
Ethernet 8 wires, Cat. 5, 10BaseT,
Straight Pinning Cable with RJ45
connector, max. 328 feet (100m).
Cat. Black Box:
EVNSL01
------
For connection between Hubs if we
do not have Cross-Over Media
Converters: Ethernet 8 wires, cat. 5,
10BaseT, Cross Pinning Cable
(Cross-over) with RJ45 connector,
max. 328 feet (100m).
Cat. Black Box:
EVCRB05
See appendix A-6, for pin configuration.
CH devices and
PONIs where necessary
IL 17547, IPONI
IL 17361, BPONI
IL 17408, WPONI
Different address for each device, 9600 BAUD
(for the IQ1000II use BPONI in std. Mode)
PC, Pentium, 266 MHz., Hard Disk
memory 500 MB free min., VGA
monitor, SVGA recommended,
For Series-III 16 MB RAM memory
min., 32 MB recommended .
For PowerNet 64 MB RAM memory
min., 128 MB recommended.
---
Comport 1: IRQ 4, Base Address 3F8 (hex)
Comport 2: IRQ 3, Base Address 2F8 (hex)
Series-III does not share interrupts. Thus delete any
device (e.j. modem) on the comport to be used.
Network Card:
3COM ETHERNELINK III, PCMCIA
---
---
3-23
C O N N E C T I V I T Y
Material
Document
Settings
--2091A90G01
-------
--Cat. Num: PNEG
-------
Software
Windows 95, 3.11 or 98
Series III, (for each PC with INCOM
Devices connected)
Net DDE
Network Software
Enhanced Graphics
Carbon Copy (Remotely Possible)
OR
Windows NT
PowerNet
3-24
C O N N E C T I V I T Y
MULTIPLE SYSTEMS: Local Area Network (LAN),
Ethernet Bridge
Remote Monitoring and Control Only
Configuration
•A LAN is to be used to network multiple POWERNET systems together with one or more
remote central monitoring computers.
•Monitoring and control done only at remote computer(s).
•A graphical user interface at remote monitoring computer(s)
•Fastest data update times possible.
Application
Supports
All CH Devices
“MAIN”
Straight 10BaseT,
Cat. 5, with RJ45
Connector (Max.
328 feet)
COMPUTER with NETWORK
CARD, POWERNET, and
NETPOWER INTEGRATOR
“Ethernet Bridge Gateway”
“Ethernet Bridge Gateway”
* Cross-Over 10BaseT,
Cat. 5, with RJ45
Connector (Max. 328
feet), Between HUBs
NETLINK
NETLINK
HUB
IMPCABLE
IMPCABLE
Media
Converter
HUB
PONI
Values
Westinghouse
Digital
Protection
Westinghouse
IQ Analyzer
2.425
kA
incom
Digitrip RMS 810
High Load
IA=
IB=
IC=
Reset
Peak - MW
Present - MW
Energy - kWH
IA
IB
IC
IG
Cell No.
Step
TRND
Digitrip RMS Rating Plug
Long Delay
Long Delay
Setting
Time - Sec.
.5
Cat.
Frame Rating
Reset
Westinghouse
IQ - 1000 II
372.81
371.25
373.47
Trip
RES
Alarm
AMPERES
EVNT HARM DEMD
F1
Current
Voltage
Power (Watts)
Power (Vars)
Power (VA)
Energy
Breaker Trips
Test Amps
6T
2
Short Delay
Time - Sec.
C
.4
Gnd. Fault
Time - Sec.
Inst.
3
.2
Gnd
Previous
Level
W
RES
F2
F3
F4
Function
Value
Home
Battery Check
Short Delay
Pickup
Gnd. Fault
Pickup
S1 - 7
S2 - 8
M1 - 8
M2 -10
40-60 Hz Only
10
PONI
Normal
Event
Relay
Program
W
Inst.
Test
Demand
Power Factor
Frequency
% THD
Distortion Factor
Custom
Mode
Protection
Step Up
Up
MEDIA
Media
Converter
Straight 10BaseT,
Cat. 5, with RJ45
Connector (Max.
328 feet)
Program
PONI
Values
Westinghouse
Digital
Protection
kA
incom
High Load
Program
Help
Step Down
.5
Digitrip 810IQ AnalyzerIQ 1000 II
CH DEVICES
Specifications
Cat.
Frame Rating
TRND
Breaker Trips
Test Amps
6T
2
Short Delay
Time - Sec.
Gnd. Fault
Time - Sec.
Inst.
3
.2
Gnd
Previous
Level
W
RES
Reset
372.81
371.25
373.47
Trip
RES
Alarm
AMPERES
EVNT HARM DEMD
F1
F2
F3
F4
Westinghouse
IQ - 1000 II
Function
Value
Home
Battery Check
Short Delay
Pickup
C
* If media converter supports BuiltIn-Cross-Over Connection, the
Straight Through Cable between
media converter and hub can be
used
S1 - 7
S2 - 8
M1 - 8
M2 -10
40-60 Hz Only
10
.4
Step
Step
Digitrip RMS Rating Plug
Long Delay
Long Delay
Setting
Time - Sec.
HELP
Trip
Test
Unit
Status
IA=
IB=
IC=
Reset
Peak - MW
Present - MW
Energy - kWH
IA
IB
IC
IG
Cell No.
Digitrip RMS 810
PONI
Normal
Event
Relay
Program
W
Westinghouse
IQ Analyzer
2.425
Gnd. Fault
Pickup
Down
Set Points
HUB
Inst.
Test
Current
Voltage
Power (Watts)
Power (Vars)
Power (VA)
Energy
Demand
Power Factor
Frequency
% THD
Distortion Factor
Custom
Mode
Protection
Unit
Status
Step Up
Up
Program
Down
Set Points
Step Down
HELP
Trip
Test
Program
Help
Step
Digitrip 810IQ AnalyzerIQ 1000 II
CH DEVICES
• Each Ethernet Bridge supports up to 1000 devices.
• From the Ethernet Bridges standard wiring rules apply (TD 17513).
• The remote monitoring computers may be linked together on a LAN system running at speeds
up to 100 Megabaud.
• Trending data can be recorded to any location on the network as supported by the network
software. Data can be viewed from all POWERNET networks at any drop on the network
running Enhanced Graphics Software.
• Data is exchanged over any network supporting TCP/IP, NetBIOS, or IPX/SPX protocol. Such
network platforms include Microsoft Windows NT and Microsoft Windows 95 or 98.
• Data exchange rates are dependent on network speed, typically between one and ten
Megabaud.
• The same rules for networking of the previous system apply on this one. The only difference is
that the Ethernet Bridges do not have a monitor, mouse or keyboard. A monitor, mouse and
keyboard can be purchased and installed after the fact to provide local annunciation provided
the appropriate client software (NetPower Monitor, NetPower Graphics, etc.) is installed at that
node.
3-25
C O N N E C T I V I T Y
Rules
The same rules of the previous system apply to this system. The only different is that the Ethernet
Bridges are PCs without monitor, mouse or keyboard. Thus, configuration must be performed
from a remote PC. This configuration is designed for remote monitoring and control. That is, when
local monitoring and control is not desired.
1. Between 2 PCs, or nodes, (through any possible path) there must be a maximum of 4
repeaters (or hubs)
2. Media converters count as 1/4 repeater.
3. No more than 3 populated cable segments.
4. If there is no media converters between HUBs, one must connect them with cross-over cable.
5. When using media converters, it is recommended to use Cross-Over Media Converters in
order to eliminate the use of cross-over cables.
6. Between Hubs and PCs, one must use straight cable.
Status 6/96
Contact
Application Note
Tested
Power Management Application Support
800/809-2772 (USA and Canada) or 412-490-6814
INCOM Wiring Specification - TD 17513
3-26
C O N N E C T I V I T Y
Configuration
Application
MULTIPLE SYSTEMS: Local Area Network (LAN),
Remote Monitoring and Control Only
•A LAN is to be used to network multiple POWERNET systems together with one or more
remote central monitoring computers.
•Monitoring and control done only at remote computer(s).
•A graphical user interface at remote monitoring computer(s)
•Fastest data update times possible.
Bill of Material
and Config.
Material
Document
Settings
CONI-3, for each Ethernet Bridge,
or PC with INCOM devices.
IL 17551
Address 300, IRQ 5, Mode 1, BAUD 9600. (See
appendix B-3 and B-4 for dip switches settings)
To connect the CONI with the
twisted pair of cables, Interface
Adapter Assy.
Cat. Num.
8793C85G01.
See appendix A-5, for configuration.
To connect the CH Devices,
Twisted Pair of Cable, TYPE
IMPCABLE or 9463 family.
TD 17513
---
To connect the CONI with the
twisted pair of cables, RJ11 Cable.
---
RJ11, less than 50 feet. See appendix A-5 for
configuration.
HUB: 8 Port 3COM Ethernet Hub
TPO/8, 3C16700 with 8 10BaseT
RJ45 ports
Cat. Black Box:
3C16700
---
Cross-Over Media Converter
10Base-T/Fiber-ST, Multimode
Cat. Black Box:
--LE1500-AUTP
62.5m Core / 125 m
Cladding. DUPLEX
MULTI-MODE FIBER
OPTIC Cross-Over
Media Converter
3-27
C O N N E C T I V I T Y
Material
Document
Settings
Fiber Optic Hub
(When the Fiber Optic Driver and
the HUB are contained in the same
unit)
www.blackbox.com
Cat. Black Box:
See appendix C for configuration information
Chassis: LE6221A
Thick Ethernet:
LE6205-f
10BaseT (RJ45):
LE6210
Fiber ST: LE6207-ST
62.5m Core / 125 m
Cladding. DUPLEX
MULT-MODE FIBER
OPTIC HUB
Fiber Optic Cable with Loose
Buffer recommended for
underground, suspended overhead, or other applications with
wide temperature variations.
Tight Buffer acceptable for another
applications.
-----
------
To connect the PCs or Ethernet
Bridges to the Hubs: Ethernet 8
wires, Cat. 5, 10BaseT, Straight
Pinning Cable with RJ45 connector,
max. 328 feet (100m).
Cat. Black Box:
EVNSL01
------
For connection between Hubs if we
do not have Cross-Over Media
Converters: Ethernet 8 wires, cat. 5,
10BaseT, Cross Pinning Cable
(Cross-over) with RJ45 connector,
max. 328 feet (100m).
Cat. Black Box:
EVCRB05
See appendix A-6, for pin configuration.
CH devices and
PONIs where necessary
IL 17547, IPONI
IL 17361, BPONI
IL 17408, WPONI
Different address for each device, 9600 BAUD
(for the IQ1000II use BPONI in std. Mode)
PC, Pentium, 266 MHz., Hard Disk
memory 500 MB free min., VGA
monitor, SVGA recommended,
For PowerNet 64 MB RAM memory
min., 128 MB recommended
---
Comport 1: IRQ 4, Base Address 3F8 (hex)
Comport 2: IRQ 3, Base Address 2F8 (hex)
Ethernet Bridge Gateway
NETLINK
With 1 INCOM PORT and Ethernet
10BaseT
Cat. Num: NLE1T
-----
3-28
C O N N E C T I V I T Y
Material
Document
Settings
Fiber Optic NETLINK
With 1 INCOM port and Ethernet
Basic F1 Fiber
(When the Fiber Optic Driver and
the Ethernet Bridge are contained
in the same unit)
Cat. Num: NLE1F
See appendix C for configuration information
Software
For Remote PC
Windows NT
PowerNet
--Cat. Num. PNEG
-------
3-29
C O N N E C T I V I T Y
MULTIPLE SYSTEMS: Local Area Network (LAN),
Serial Terminal Server
Configuration
•Similar application as Ethernet Gateway, but uses an Ethernet to RS-232 adapter called a
“Terminal Server”.
•Terminal Server connects to MINT which converts the RS-232 signal to INCOM twisted pair.
Software is included that “redirects” serial port communications to a remote terminal server.
•Only functions with software that supports redirecting COM ports (e.g. DeviceServer)
•One DeviceServer can communicate with up to 32 terminal servers.
Application
Supports
All CH Devices
“MAIN”
Straight 10BaseT,
Cat. 5, with RJ45
Connector (Max.
328 feet)
COMPUTER with NETWORK
CARD, POWERNET,
DeviceServer++
and NETPOWER INTEGRATOR
“Ethernet Bridge Gateway”
Lantronix MSS100
* Cross-Over 10BaseT,
Cat. 5, with RJ45
Connector (Max. 328
feet), Between HUBs
NETLINK
“COM Port Redirector
software supplied with the
DeviceServer re-maps a local
COM port(COM1-COM 32) to a
remote serial terminal server.
++
Serial Terminal Server
HUB
IMPCABLE
Media
Converter
HUB
PONI
Values
Westinghouse
Digital
Protection
Westinghouse
IQ Analyzer
2.425
kA
incom
High Load
IA=
IB=
IC=
Reset
Peak - MW
Present - MW
Energy - kWH
IA
IB
IC
IG
Cell No.
Digitrip RMS 810
Step
TRND
Digitrip RMS Rating Plug
Long Delay
Long Delay
Setting
Time - Sec.
.5
Cat.
Frame Rating
Reset
Westinghouse
IQ - 1000 II
372.81
371.25
373.47
Trip
RES
Alarm
AMPERES
EVNT HARM DEMD
F1
Current
Voltage
Power (Watts)
Power (Vars)
Power (VA)
Energy
Breaker Trips
Test Amps
6T
2
Short Delay
Time - Sec.
C
.4
Gnd. Fault
Time - Sec.
Inst.
3
.2
Gnd
Previous
Level
W
RES
F2
F3
F4
Function
Value
Home
Battery Check
Short Delay
Pickup
Gnd. Fault
Pickup
S1 - 7
S2 - 8
M1 - 8
M2 -10
40-60 Hz Only
10
PONI
Normal
Event
Relay
Program
W
Inst.
Test
Demand
Power Factor
Frequency
% THD
Distortion Factor
Custom
Mode
Protection
Step Up
Up
MEDIA
Media
Converter
Straight 10BaseT,
Cat. 5, with RJ45
Connector (Max.
328 feet)
Set Points
Help
Step Down
High Load
.5
CH DEVICES
Step
Cat.
Frame Rating
TRND
Previous
Level
PONI
W
RES
Reset
372.81
371.25
373.47
Trip
RES
Alarm
AMPERES
EVNT HARM DEMD
F1
F2
F3
F4
Westinghouse
IQ - 1000 II
Function
Value
Home
Battery Check
Breaker Trips
Test Amps
Short Delay
Pickup
6T
2
Short Delay
Time - Sec.
.4
Gnd. Fault
Time - Sec.
Inst.
3
.2
Gnd
S1 - 7
S2 - 8
M1 - 8
M2 -10
40-60 Hz Only
10
Gnd. Fault
Pickup
* If media converter supports BuiltIn-Cross-Over Connection, the
Straight Through Cable between
media converter and hub can be
used
IA=
IB=
IC=
Digitrip RMS Rating Plug
Long Delay
Long Delay
Setting
Time - Sec.
C
Step
Digitrip 810IQ AnalyzerIQ 1000 II
Specifications
Digitrip RMS 810
Reset
Peak - MW
Present - MW
Energy - kWH
IA
IB
IC
IG
Cell No.
Normal
Event
Relay
Program
W
Westinghouse
IQ Analyzer
2.425
kA
incom
Program
HELP
Program
PONI
Values
Westinghouse
Digital
Protection
Down
Trip
Test
Unit
Status
Plugs into
RS-232
port on
MINT
HUB
Inst.
Test
Current
Voltage
Power (Watts)
Power (Vars)
Power (VA)
Energy
Demand
Power Factor
Frequency
% THD
Distortion Factor
Custom
Mode
Protection
Unit
Status
Step Up
IMPCABLE
Up
Program
Down
Set Points
Step Down
HELP
Trip
Test
Program
Help
Step
Digitrip 810IQ AnalyzerIQ 1000 II
CH DEVICES
• Similar rules to the Ethernet Gateway
• While up to 1000 devices are supported on each terminal server, the RS-232 communications
speed practically limits an application to under 50 devices per terminal server.
• The terminal server requires a fixed IP address as do the Ethernet Gateways.
3-30
C O N N E C T I V I T Y
Rules
The same rules as the Ethernet Gateway system apply to a terminal server system.
1. Between 2 PCs, or nodes, (through any possible path) there must be a maximum of 4
repeaters (or hubs)
2. Media converters count as 1/4 repeater.
3. No more than 3 populated cable segments.
4. If there is no media converters between HUBs, one must connect them with cross-over cable.
5. When using media converters, it is recommended to use Cross-Over Media Converters in
order to eliminate the use of cross-over cables.
6. Between Hubs and PCs, one must use straight cable.
7. Redirector software will map COM1 through COM32 (selectable by COM port) to one or more
terminal servers. Note the connection from a terminal server to a remapped COM port is a onefor-one connection (two DeviceServers cannot connect to the same MINT, for example).
Status 1/99
Tested
Contact
Application Note
Power Management Application Support
800/809-2772 (USA and Canada) or 412-490-6814
INCOM Wiring Specification - TD 17513
3-31
C O N N E C T I V I T Y
Configuration
Application
MULTIPLE SYSTEMS: Local Area Network (LAN),
Remote Monitoring and Control Only
•A LAN is to be used to network multiple POWERNET systems together with one or more
remote central monitoring computers.
•Monitoring and control done only at remote computer(s).
•A graphical user interface at remote monitoring computer(s)
•Fastest data update times possible.
Bill of Material
and Config.
Material
Document
Settings
CONI-3, for each Ethernet Bridge,
or PC with INCOM devices.
IL 17551
Address 300, IRQ 5, Mode 1, BAUD 9600. (See
appendix B-3 and B-4 for dip switches settings)
To connect the CONI with the
twisted pair of cables, Interface
Adapter Assy.
Cat. Num.
8793C85G01.
See appendix A-5, for configuration.
To connect the CH Devices,
Twisted Pair of Cable, TYPE
IMPCABLE or 9463 family.
TD 17513
---
To connect the CONI with the
twisted pair of cables, RJ11 Cable.
---
RJ11, less than 50 feet. See appendix A-5 for
configuration.
HUB: 8 Port 3COM Ethernet Hub
TPO/8, 3C16700 with 8 10BaseT
RJ45 ports
Cat. Black Box:
3C16700
---
Cross-Over Media Converter
10Base-T/Fiber-ST, Multimode
Terminal Server
Cat. Black Box:
--LE1500-AUTP
62.5m Core / 125 m
Cladding. DUPLEX
MULTI-MODE FIBER
OPTIC Cross-Over
Media Converter
Lantronix MSS100-01 IP address is programmed to unit via 10BASE-T or RS-232
interface using software supplied with MSS1-01. Serial
port parameters should be set to 19200, 8 data bits, no
parity, 1 stop bit. See notes page 3-34.
3-32
C O N N E C T I V I T Y
Material
Document
Settings
Fiber Optic Hub
(When the Fiber Optic Driver and
the HUB are contained in the same
unit)
www.blackbox.com
Cat. Black Box:
See appendix C for configuration information
Chassis: LE6221A
Thick Ethernet:
LE6205-f
10BaseT (RJ45):
LE6210
Fiber ST: LE6207-ST
62.5m Core / 125 m
Cladding. DUPLEX
MULT-MODE FIBER
OPTIC HUB
Fiber Optic Cable with Loose
Buffer recommended for
underground, suspended overhead, or other applications with
wide temperature variations.
Tight Buffer acceptable for another
applications.
-----
------
To connect the terminal servers to
the Hubs: Ethernet 8 wires, Cat. 5,
10BaseT, Straight Pinning Cable
with RJ45 connector, max. 328 feet
(100m).
Cat. Black Box:
EVNSL01
------
For connection between Hubs if we
do not have Cross-Over Media
Converters: Ethernet 8 wires, cat. 5,
10BaseT, Cross Pinning Cable
(Cross-over) with RJ45 connector,
max. 328 feet (100m).
Cat. Black Box:
EVCRB05
See appendix A-6, for pin configuration.
CH devices and
PONIs where necessary
IL 17547, IPONI
IL 17361, BPONI
IL 17408, WPONI
Different address for each device, 9600 BAUD
(for the IQ1000II use BPONI in std. Mode)
PC, Pentium, 266 MHz., Hard Disk
memory 500 MB free min., VGA
monitor, SVGA recommended,
For PowerNet 64 MB RAM memory
min., 128 MB recommended
---
Comport 1: IRQ 4, Base Address 3F8 (hex)
Comport 2: IRQ 3, Base Address 2F8 (hex)
Ethernet Bridge Gateway
NETLINK
With 1 INCOM PORT and Ethernet
10BaseT
Cat. Num: NLE1T
-----
3-33
C O N N E C T I V I T Y
Material
Document
Settings
Fiber Optic NETLINK
With 1 INCOM port and Ethernet
Basic F1 Fiber
(When the Fiber Optic Driver and
the Ethernet Bridge are contained
in the same unit)
Cat. Num: NLE1F
See appendix C for configuration information
Software
For Remote PC
Windows NT
PowerNet
--Cat. Num. PNEG
-------
Application Notes
1. Install EZWebCon software from the Lantronix CD.
2. Follow instructions in manual to download the IP address to the unit.
3. Use interview wizard to configure MSS100 as follows:
- NetWare packets disabled (if you are not using IPX)
- Setup serial port for 19200 baud, dynamic access, character size 8, flow control RTS/CTS, parity none, stop bits 1.
4. Download configuration to MSS100 terminal server and reboot.
5. Install redirector software from CD, select port to redirect (COM 1-32), and enter IP address of the MSS100.
Use 3001 for the TCPport address.
6. Install a standard 28800 bps modem on the computer with the redirected port (DeviceServer node).
7. Configure the MINT DIP switches for 19200 baud and RTS/CTS control. (Switch 5 off ).
8. Set the MINT in Device Configurator for 19200 baud and RTS/CTS handshake.
9. Set the timeout for the MINT to at least 1000 milliseconds. This value may need to be higher if the LAN is very busy.
We have tested this to 10000 milliseconds.
3-34
C O N N E C T I V I T Y
Connecting
Through
Interface
Manufacturer
Supports
SECTION 4
INTERFACING WITH OTHERS MANUFACTURER’S POWER MONITORING SYSTEM
ENHANCED GRAPHICS - Wonderware InTouch
Wonderware
All CH, Siemens, Square D, Beckwith and GE/Multilin Devices
SERIES III and POWERNET are able to communicate with other manufacturer’s Power Monitoring
Systems through Enhanced Graphics. Linkage is done through the following “DDE” compliant
software options:
SIEMENS: Sieserve
WinPM
SQUARE D: System Manager (SMS-1500, -3000) with DDE add-on
Wonderware DDE I/O Server
Kepware DDE Server (www.kepware.com)
GE:
Power Leader Software - Windows Version only
(alternate: using GE Modbus Concentrator and Modbus DDE Server)
Beckwith:
Wonderware or Kepware Modbus DDE Server
That is, all the data from the devices (CH and other vendor’s devices) appear on the screens of
Enhanced Graphics. With this software, we can integrate many different power monitoring devices
made by different vendors into one system. This software is necessary because each power
monitoring system “speaks” a different language. For example: Modbus, INCOM, etc.
PLEASE NOTE: IN ALL CASES THE ENHANCED GRAPHICS PACKAGE IS THE MASTER ON THE NETWORK.
THE ENHANCED GRAPHICS PACKAGE CAN READ AND WRITE DATA TO ANY DEVICE, BUT WITH FEW
EXCEPTONS, A DEVICE CANNOT REQUEST DATA FROM THE PC.
Computer with CONI (or MINT), Series III, Enhanced Graphics,
Other Vendors Communication Card and DDE Compliant Software
or
COMPUTER with CONI (or MINT), POWERNET, NETPOWER
INTEGRATOR, WINDOWS NT, and others VENDORS
COMMUNICATION CARDS
Siemens Power
Monitoring
Devices
Sq. D Power
Monitoring
Devices
INCOM
Twisted Pair
IQ
E nergy S entinel
PONI
Values
Westinghouse
Digital
Protection
kA
incom
High Load
Reset
Peak - MW
Present - MW
Energy - kWH
IA
IB
IC
IG
Cell No.
Digitrip RMS 810
IA=
IB=
IC=
Step
TRND
Digitrip RMS Rating Plug
.5
Cat.
Frame Rating
40-60 Hz Only
10
Breaker Trips
Test Amps
6T
2
Short Delay
Time - Sec.
C
.4
Gnd. Fault
Time - Sec.
Inst.
3
.2
Gnd
Previous
Level
W
RES
Reset
372.81
371.25
373.47
Trip
RES
Alarm
AMPERES
EVNT HARM DEMD
F1
F2
F3
F4
Westinghouse
IQ - 1000 II
Function
Value
Home
Battery Check
Short Delay
Pickup
Gnd. Fault
Pickup
S1 - 7
S2 - 8
M1 - 8
M2 -10
PONI
Normal
Event
Relay
Program
W
Westinghouse
IQ Analyzer
2.425
Long Delay
Long Delay
Setting
Time - Sec.
GE Power
Monitoring
Devices
W
Inst.
Test
Current
Voltage
Power (Watts)
Power (Vars)
Power (VA)
Energy
Demand
Power Factor
Frequency
% THD
Distortion Factor
Custom
Mode
Protection
Unit
Status
Step Up
Up
Program
Down
Set Points
Step Down
HELP
Trip
Test
Program
Help
Step
CH DEVICES
4-1
C O N N E C T I V I T Y
GE Notes
GE purchased Multilin and has adopted the Modbus protocol for their newer meters, including all
Multilin meters. The most common physical connection used is RS-485.
Older GE products (MicroVersa trip, some legacy “Power Leader” labeled devices) communicate
using GE’s “COMNET” protocol. This is a proprietary protocol transmitted over a single twisted pair.
If the installation has existing COMNET devices brought to a computer, the easiest integration may
be to verify if the existing GE software supports DDE. Note that GE purchased Wonderware
InTouch software for a time, but has recently attempted to self-develop a graphics application. Your
application may have Wonderware software. Wonderware software supports DDE and can integrate
INCOM, DeviceNet and other protocols using DDE server programs loaded on the PC.
Wonderware can communicate to remote DDE servers using NetDDE.
If the existing COMNET system has no computer, or if the computer is obsolete and planned for
replacement, use the GE “Modbus Concentrator” to convert the COMNET protocol into Modbus.
RS-232
RS-232/
RS-485
2-wire
RS-485
GE Modbus
Concentrator
Cat: PLZOOMG01
Each COMNET port on the Modbus Concentrator supports
up to 4 MicroVersa Trip units on up to 1000 feet of twisted
pair cable. There are 8 COMNET ports on each Modbus
Concentrator, therefore 32 MicroVersa trip units are
supported per Modbus Concentrator. COMNET supports
up to 6 repeaters, permitting up to 6000’ total distance on
one COMNET network.
To other
Modbus
slave devices
GE EPM
Cat:
PLE3ESxG14
Multilin
Relay
2-wire
COMNET
MicroVersa
Trip - C
MicroVersa
Trip - C
MicroVersa
Trip - C
Note that GE/Multilin provides single-node waveform capture software for no extra charge when a
Multilin relay supporting waveform capture is purchased. However, if these waveforms need to be
displayed over a LAN, the Waveform Client / Event Logger package must be purchased. Currently,
GE bundles this software with Wonderware. This adds considerably ($6000-8000) to project cost.
Status 7/99
Contact
Application Note
Tested
Power Management Application Support
800/809-2772 (USA and Canada) or 412-490-6814
Wiring Specification - TD 17513
4-2
C O N N E C T I V I T Y
AB Notes
Allen-Bradley offers two power monitoring meters, the Bulletin 1400 and the Bulletin 1403. The
Bulletin 1400 is a relabeled PML3710. The PML3710 is also known as the GE EPM3170 and the
Siemens 4700. We communicate to the PML3710/AB Bulletin 1400 using the RS-485 port with the
Modbus RTU protocol.
To provide billing using data from any of these meters, use DDE Logger software. DDE Logger
software reads real-time data from the device and writes it into the E-Log database for use by
programs such as NPBILL and NPTREND.
Use the Wonderware or Kepware DDE Server on the PC to communicate with the Modbus network
RS-232
RS-232/
RS-485
RS-485/
RS-485
2-wire
RS-485
AB Bulletin
1400
To other
Modbus
slave devices
GE EPM
3710 or 3720
PML 3710 or
3720
A Modbus RS-485 network supports up to 32 devices on up
to 4000 feet of twisted pair. A RS-485 to RS-485 repeater
can be used to add additional RS-485 nodes to a system.
Note that RS-485 cabling cannot be run in parallel with high
voltage or high current conductors. The manufacturers of
RS-485 compatible equipment recommend maintaining 36”
spacing between RS-485 cabling and power cabling.
Status 7/99
Contact
To other
Modbus
slave devices
AB Bulletin
1400
Siemens
4700
Mulltilin
PQM
Tested
Power Management Application Support
800/809-2772 (USA and Canada) or 412-490-6814
4-3
C O N N E C T I V I T Y
Siemens Notes
Siemens products include Static Trip III (using SEABus protocol) and Series 4700 meters (PML
meters brand-labeled as Siemens). Communication with these products requires a DDE server
supporting these protocols. The Siemens “Sieserve” DDE server supports both Modbus and
SEABus protocol, although not at the same time -- two copies must run to support both. Since
Modbus is a standard (and free) DDE server with Wonderware, Sieserve will usually only be
purchased when communication with a Static Trip III device is necessary.
Use the Wonderware or Kepware DDE Server on the PC to communicate with the Modbus network
RS-232
RS-232/
RS-485
RS-485/
RS-485
A Modbus RS-485 network supports up to 32 devices on up
to 4000 feet of twisted pair. A RS-485 to RS-485 repeater
can be used to add additional RS-485 nodes to a system.
Note that RS-485 cabling cannot be run in parallel with high
voltage or high current conductors. The manufacturers of
RS-485 compatible equipment recommend maintaining 36”
spacing between RS-485 cabling and power cabling.
2-wire SEABus
RS-485
Static Trip III
To other
SEABus
slave devices
Static Trip III
Static Trip III
2-wire Modbus
RS-485
AB Bulletin
1400
To other
Modbus
slave devices
Siemens
4700
Mulltilin
PQM
Siemens also strongly promotes Profibus. Profibus is available in several protocols (DP, PA, FMS),
so double check which version of Profibus is being used. All versions, however, are supported by
3rd party DDE and OPC servers. For connection to a PC, order the Siemens PROFIboard ISA or
PCI card. As with other DDE/OPC servers, several can coexist in the same PC to transfer data
between networks.
PROFIboard
CONI
Status 7/99
Contact
Profibus
Device
Profibus
Device
IQ
Device
Digitrip
Device
Tested
Power Management Application Support
800/809-2772 (USA and Canada) or 412-490-6814
4-4
C O N N E C T I V I T Y
Square D Notes
Square D 2000 Series (CM-2xxx) include a 4-wire RS-485 port that uses the same Sy/Max protocol
as the old (Sy/Max) Square D PLCs. Using an RS-485 converter and a DDE Server available from
Kepware, we can communicate to legacy Square D meters. Newer Square D software (SMS-1500,
3000) include DDE/OPC support so both packages can communicate with CH (or other vendor)
meters. Older Square D software (SMS-700, 770) are non-Y2K compliant. Square D recommends
these be replaced with SMS-1500 or 3000
Square D 600/610 meters support Modbus over RS-485 in additional to the Sy/Max protocol.
Use the Kepware DDE Server on the PC to communicate with the Square D network
RS-232
RS-232/
RS-485
RS-485/
RS-485
A Sy/Max (Sy/Link) RS-485 network supports up to 32
devices on up to 4000 feet of twisted pair. A RS-485 to RS485 repeater can be used to add additional RS-485 nodes
to a system.
4-wire Sy/Max (Sy/Link)
RS-485
CM-2050
CM-2150
To other
Sy/Max
slave devices
CM-2250
4-wire Sy/Max (Sy/Link)
RS-485
To other
SyMax
slave devices
Note that RS-485 cabling cannot be run in parallel with high
voltage or high current conductors. The manufacturers of
RS-485 compatible equipment recommend maintaining 36”
spacing between RS-485 cabling and power cabling.
CM-2050
Status 7/99
Contact
CM-2150
CM-2250
Tested
Power Management Application Support
800/809-2772 (USA and Canada) or 412-490-6814
4-5
C O N N E C T I V I T Y
Beckwith Notes
Beckwith manufactures several switchgear type relays. For example, the M-3520 provides Intertie
(service entrance or utility-to-utility) protection. Each Beckwith relay includes both RS-232 and RS485 serial ports. Each supports the Modbus protocol. Beckwith sells a Windows based software
program (M-3822 IPScom Communication Software package) this is used to program the relay.
This software uses the BECO 2200 protocol. Use Modbus when connecting to the Beckwith relays.
BECO 2200 protocol is not (as of this date) supported by any known OPC or DDE server.
Use the Kepware or Wonderware DDE Server on the PC to communicate with the Modbus network
RS-232
RS-232/
RS-485
RS-485/
RS-485
An RS-485 network supports up to 32 devices on up to
4000 feet of twisted pair. A RS-485 to RS-485 repeater can
be used to add additional RS-485 nodes to a system.
Note that RS-485 cabling cannot be run in parallel with high
voltage or high current conductors. The manufacturers of
RS-485 compatible equipment recommend maintaining 36”
spacing between RS-485 cabling and power cabling.
Status 6/00
Contact
4-wire Modbus
RS-485
M-3520
Intertie
To other
Modbus
slave devices
M-3425
Generator
4-wire Modbus
RS-485
M-3310
Transformer
M-3430
Generator
(High Impedance
Grounded)
Not Tested
Power Management Application Support
800/809-2772 (USA and Canada) or 412-490-6814
4-6
C O N N E C T I V I T Y
Configuration
Application
Interfacing with other manufactures’ power monitoring system
Trough Enhanced Graphics.
For SERIES III and POWERNET: CONI Card and/or MINT
Integration between different vendors’ devices for Remote monitoring and control of Electrical
Distribution Equipment from a single computer
.
Bill of Material
and Config.
Material
Document
Settings
MINT II
IL 17466
N, 8, 1, No Ack/Nack, BAUD 9600. (See appendix B-1
for dip switch settings)
To connect the MINT to the serial
port of a PC, RS-232 Printer
Cable, DB25M/DB9F
Black Box Cat.
BC00301
The MINT can be connected to a Line Driver, Fiber
Optic Fiber or Modem (less than 50 feet). For remote
communication, see section 2. For pin configuration,
see appendix A-1
CONI-3
IL 17551
Address 300, IRQ 5, Mode 1 (Series-III), Mode 2
(PowerNet), BAUD 9600 (See appendix B-3 and B-4
for dip switches settings)
To connect the CONI with the twisted
pair of cables, Interface Adapter
Assy.,
Cat. Num.
8793C85G01.
See appendix A-5, for configuration.
To connect the CH Devices,Twisted
Pair of Cable, Type IMPCABLE or
9463 family.
TD 17513
---
To connect the CONI with the
twisted pair of cables, RJ11 Cable.
---
RJ11, less than 50 feet. See appendix A-5 for
configuration.
CH devices and
PONIs where necessary
IL 17547, IPONI
IL 17361, BPONI
IL 17408, WPONI
Different address for each device, 9600 BAUD
(for the IQ1000II, use BPONI in std. Mode)
4-7
C O N N E C T I V I T Y
Material
Document
Settings
PC, Pentium, 266 MHz., Hard Disk
memory 500 MB free min., VGA
monitor, SVGA recommended,
For Series-III 16 MB RAM memory
min., 32 MB recommended .
For PowerNet 64 MB RAM memory
min., 128 MB recommended.
---
Comport 1: IRQ 4, Base Address 3F8 (hex)
Comport 2: IRQ 3, Base Address 2F8 (hex)
Series-III does not share interrupts. Thus delete any
device (e.j. modem) on the comport to be used.
--2091A90G01
-------
--PNEG
NPID60K
-------
Software
Windows 95, 3.11, or 98
Series III
Enhanced Graphics
OR
Windows NT
PowerNet
NetPower Integrator
*NOTE: Complete Bill of Material must also include hardware/software from other vendors.
4-8
C O N N E C T I V I T Y
SECTION 5
COMMUNICATION WITH OTHER KIND OF SYSTEMS:
Building Management Systems (BMS), Distributed Control System (DCS),
Programmable Logic Controllers (PLC)
Application:
NOTE:
SERIES III and POWERNET can be connected to many kinds of systems. In all cases
Series III and PowerNet act as Slaves to the BMS, DCS or PLC. This is done in
different ways. Refer to the following tables:
While some CH Devices are supported by these custom device drivers, the available
list of supported CH Devices is incomplete. Since MODBUS is supported by ALL CH
DEVICES, MODBUS is the recommended protocol to interface with foreign devices.
Building Management System
Manufacturer
Through
Honeywell Building Management System MINT
(Deltanet Graphic Central)
ILEX Energy Management Systems
MINT
Johnson Controls - Metasys
MINT or DDE
Siemens Landis & GYR Power System
600 Factory Automation System
MINT
Siebe Enviornmental Controls
ASI Controls
All Manufacturers
CONI or MINT
DDE
Modbus Gateway
CH Devices
Page
Addressable Relay,
5-9, 5-10
Advantage (no control), ACM,
AEMII, CMU , Digitrip RMS,
Digitrip MV, IQ Energy
Sentinel (breaker mount), IQ
1000II, IQ 500, IQ Data/Gen,
IQ Data Plus II, Universal
RTD
Digitrips, AEMII (Digitrips via 5-9, 5-11
AEMII)
MINT: IQ Data/Gen, IQ
5-9-5-12
Energy Sentinel, IQ Data Plus
II, IQ1000II, Advantage,
Digitrip RMS, AEMII, Digitrip
MV, IQ Analyzer, IQ DP4000.
DDE: All CH devices
IQ Data/Gen, IQ Energy
Sentinel (breaker mount), IQ
Data Plus II, IQ 1000II,
Advantage, Digitrip 700/800,
AEMII, Digitrip MV, IQ
Transfer, IQ Analyzer
All CH devices
All CH devices
All CH devices
5-9, 5-13
5-29
5[38
5-4
5-1
C O N N E C T I V I T Y
Distributed Control System
Manufacturer
Through
CH Divices
Page
Distributed Control System
(most of them)
MODBUS GATEWAY
All CH devices (waveform data from IQ Analyzer,
Digitrip 910, and Digitrip Optim is not supported)
5-4
Bailey Controls - Bailey Network 90
Mint
All CH devices
5-9, 5-14
Foxboro - Intelligent Automation
(I/A) Series
Mint
IQ Data/Gen, IQ DP II, AEMII, Digitrip 700/800
(through AEM II), IQ 1000, IQ 500, Advantage, ACM,
IQ Energy Sentinel (breaker mount), RTD
5-9, 5-15
Westinghouse - WDPF
Twisted Pair of Cables
Addressable Relay, Advantage, ACM, AEM II, CMU,
Digitrip RMS, IQ Energy Sentinel (breaker mount), IQ
1000 II, IQ 500, IQ Data/Gen, IQ Data Plus II, Universal
RTD Module
5-21, 5-22
Fisher Provox - Provox/RM1
PC with CONI and Fisher
CHIP
IQ Data Plus II, IQ 1000 II, MMCO Relay
5-31
5-2
C O N N E C T I V I T Y
Programmable Logic Controllers
Manufacturer
Through
CH Divices
Page
Programmable Logic Controllers
(most of them)
MODBUS GATEWAY
All CH Divices (waveform data from IQ
Analyzer, Digitrip 910, Digitrip Optim is not
supported)
5-4
Allen Bradley - PLC 5, PLC 3, PLC 2
Mint
All CH devices
5-9, 5-16
GE Fanuc - 90/70 PLC
Mint
Advantage, CMU
5-9, 5-18
Square D - SY/MAX PLC
Mint
IQ Data Plus II, Digitrip RMS, AEM II, Digitrip
MV, Advantage
5-9, 5-19
Westinghouse - 50, 500, 2000 Series
Siemens - 90U, 100U, 115U
Twisted Pair of Cables
All CH devices
5-21, 5-24
As one can see from these 3 tables, there are 3 main methods of
communicating between INCOM devices and others kinds of systems:
• Modbus Gateway
• Mint or Series III as gateway
• Twisted pair of cable
Contact
Advanced Products Support Center
800/809-2772 (USA and Canada) or 412-490-6814
5-3
C O N N E C T I V I T Y
Connection by
Supports
Modbus+
Modbus Gateway
All CH Devices (waveform data from the IQ Analyzer, Digitrip OPTIM and Digitrip 910 is not
supported)
SERIES III and POWERNET can be connected to any system with the ability to communicate using
the Modbus protocol. This is done through the Modbus Gateway. The Modbus Gateway translates
the INCOM signal to Modbus protocol and communicates it to the master system over the RS232
transmission media, using RTU transmission mode. Modbus is a widely used protocol for which the
majority of Building Management Systems, Distributed Control System and Programmable Logic
Controllers. Note: The Modbus Gateway supports up to 200 CH devices, 8000 Modbus Input
Registers (3xxxx) and 200 Modbus Holding Registers (4xxxx).
BM-85
Computer with Series III and Modbus
Gateway, or POWERNET with NETPOWER
MODBUS Software
RS232
See appendix A-3
For pin configuration
MODBUS
Interface
Unit
Building Management System
Distributed Control System or
Programmable Logic Controller
IMPCABLE
Twisted Pair
W
IQ
E nergy S entinel
OR
MODBUS
Gateway Standalone
Unit
PONI
Values
Westinghouse
Digital
Protection
kA
incom
High Load
Reset
Peak - MW
Present - MW
Energy - kWH
IA
IB
IC
IG
Cell No.
Digitrip RMS 810
IA=
IB=
IC=
Step
TRND
Digitrip RMS Rating Plug
Long Delay
Long Delay
Setting
Time - Sec.
.5
Cat.
Frame Rating
40-60 Hz Only
10
372.81
371.25
373.47
F2
F3
F4
Westinghouse
IQ - 1000 II
Trip
RES
Alarm
AMPERES
EVNT HARM DEMD
F1
Current
Voltage
Power (Watts)
Power (Vars)
Power (VA)
Energy
Breaker Trips
Test Amps
6T
2
Short Delay
Time - Sec.
C
.4
Gnd. Fault
Time - Sec.
Inst.
3
.2
Gnd
Previous
Level
W
RES
Reset
Function
Value
Home
Battery Check
Short Delay
Pickup
Gnd. Fault
Pickup
S1 - 7
S2 - 8
M1 - 8
M2 -10
PONI
Normal
Event
Relay
Program
W
Westinghouse
IQ Analyzer
2.425
Inst.
Test
Demand
Power Factor
Frequency
% THD
Distortion Factor
Custom
Mode
Protection
Step Up
Up
Program
Down
Set Points
Step Down
HELP
Trip
Test
Program
Unit
Status
Help
Step
CH DEVICES
Note that specifications calling for Modbus Plus (Modbus+, MB+) can be met by supplying a
conventional Modbus solution and adding the Modicon BM85 “Bridge MUX”. The BM-85 adds
approximately $2700 (includes configuration programming of the BM-85) to the project cost and
features up to 2 MB+ ports, plus 3 additional Modbus ports. The Modbus ports can be programmed
as either masters or slaves. Using the BM-85, then, permits multiple masters to be connected to a
single Modbus network (something that normally cannot be done).
Status 6/96
Contact
Application Note
Tested
Power Management Application Support
800/809-2772 (USA and Canada) or 412-490-6814
Wiring Specification - TD 17513, Modbus Gateway Manual - IL17545
*NOTE: Complete Bill of Material must also include hardware/software from other vendors
5-4
C O N N E C T I V I T Y
Multi-Drop Modbus
Due to the point to point wiring restrictions associated with RS-232, modems or line drivers must be
used to connect multiple Modbus Gateways to a single Modbus master. For example, the following
diagram shows RS-232 to RS-485 line drivers being used to tie multiple Modbus Gateways back to a
single BMS, DCS, or PLC interface.
Modbus+
BM-85
RS232
See appendix A-4
For Pin Configuration
IMPCABLE
RS 485
MODBUS
Interface
Unit
LD 485
LD 485
LD 485
Building Management System
Distributed Control System or
Programmable Logic Controller
Note: The Modbus Gateway can be
either a NETLINK Unit (NLM1) or a
PC with PowerNet (PNED) and
Modbus (NPCOREMOD)
RS232
DB25M/DB9F
Cat. Black Box:
BC00301
MODBUS
Gateway
IMPCABLE
Twisted
Pair
W
W
IQ
E nergy S entinel
IQ
E nergy S entinel
IQ
E nergy S entinel
High Load
IA=
IB=
IC=
Step
TRND
Digitrip RMS Rating Plug
Long Delay
Long Delay
Setting
Time - Sec.
.5
Cat.
Frame Rating
Previous
Level
F2
F3
F4
Westinghouse
Digital
Protection
Westinghouse
IQ - 1000 II
Digitrip RMS 810
Alarm
Breaker Trips
Test Amps
6T
High Load
Function
Value
Short Delay
Time - Sec.
.4
Gnd. Fault
Time - Sec.
Inst.
3
.2
Inst.
Test
Demand
Power Factor
Frequency
% THD
Distortion Factor
Custom
.5
Mode
Protection
Cat.
Frame Rating
Program
CH DEVICES
Breaker Trips
Test Amps
6T
Short Delay
Time - Sec.
Step Down
.4
Gnd. Fault
Time - Sec.
Inst.
3
.2
Help
Step
Gnd
Previous
Level
F2
F3
F4
Values
Westinghouse
Digital
Protection
Westinghouse
IQ - 1000 II
Digitrip RMS 810
High Load
Function
Value
.5
Inst.
Test
Demand
Power Factor
Frequency
% THD
Distortion Factor
Custom
Mode
Protection
Program
Breaker Trips
Test Amps
6T
Short Delay
Time - Sec.
Step Down
.4
Help
Gnd. Fault
Time - Sec.
CH DEVICES
Inst.
3
.2
Step
Gnd
Previous
Level
W
RES
Reset
372.81
371.25
373.47
Trip
RES
Alarm
AMPERES
EVNT HARM DEMD
F1
F2
F3
F4
Westinghouse
IQ - 1000 II
Function
Value
Home
Battery Check
2
C
Set Points
HELP
Program
S1 - 7
S2 - 8
M1 - 8
M2 -10
40-60 Hz Only
Short Delay
Pickup
Gnd. Fault
Pickup
Down
Trip
Test
Unit
Status
Cat.
Frame Rating
Step Up
Up
TRND
Digitrip RMS Rating Plug
Long Delay
Long Delay
Setting
Time - Sec.
Home
10
Current
Voltage
Power (Watts)
Power (Vars)
Power (VA)
Energy
IA=
IB=
IC=
Step
PONI
Normal
Event
Relay
Program
W
Reset
Peak - MW
Present - MW
Energy - kWH
IA
IB
IC
IG
Cell No.
RES
Alarm
Westinghouse
IQ Analyzer
2.425
kA
incom
Trip
AMPERES
EVNT HARM DEMD
F1
PONI
W
RES
Reset
372.81
371.25
373.47
Battery Check
2
C
Set Points
HELP
Program
S1 - 7
S2 - 8
M1 - 8
M2 -10
40-60 Hz Only
Short Delay
Pickup
Gnd. Fault
Pickup
Down
Trip
Test
Unit
Status
Step Up
Up
TRND
Digitrip RMS Rating Plug
Long Delay
Long Delay
Setting
Time - Sec.
Home
10
Current
Voltage
Power (Watts)
Power (Vars)
Power (VA)
Energy
IA=
IB=
IC=
Step
PONI
Normal
Event
Relay
Program
W
Reset
Peak - MW
Present - MW
Energy - kWH
IA
IB
IC
IG
Cell No.
RES
Westinghouse
IQ Analyzer
2.425
kA
incom
Trip
AMPERES
EVNT HARM DEMD
F1
Values
W
RES
Reset
372.81
371.25
373.47
Battery Check
2
C
Gnd
S1 - 7
S2 - 8
M1 - 8
M2 -10
40-60 Hz Only
10
Short Delay
Pickup
Gnd. Fault
Pickup
PONI
PONI
Normal
Event
Relay
Program
W
Reset
Peak - MW
Present - MW
Energy - kWH
IA
IB
IC
IG
Cell No.
MODBUS
Gateway
W
Westinghouse
IQ Analyzer
2.425
kA
incom
RS232
DB25M/DB9F
Cat. Black Box:
BC00301
MODBUS
Gateway
PONI
Values
Westinghouse
Digital
Protection
Digitrip RMS 810
LD 485
Inst.
Test
Current
Voltage
Power (Watts)
Power (Vars)
Power (VA)
Energy
Demand
Power Factor
Frequency
% THD
Distortion Factor
Custom
Mode
Protection
Program
Down
Set Points
HELP
Trip
Test
Unit
Status
Step Up
Up
Program
Help
CH DEVICES
As with the point-to-point Modbus connection shown on the previous page, the BM-85 may be added
to provide Modbus+ access to the Modbus network.
5-5
Step
Step Down
C O N N E C T I V I T Y
Configuration
Modbus Gateway. CONI Card and Twisted Shielded Pair
Interface
Manufacturer
Cutler-Hammer
Application
Bill of Material
and Config.
Communication to other kind of system: BMS, DCS, or PLC
*NOTE: Complete Bill of Material must also include hardware/software from other vendors
Material
Document
Settings
CONI-3
IL 17551
Address 300, IRQ 5, Mode 1 (Series-III), Mode 2
(PowerNet), BAUD 9600. (See appendix B-3 and B-4
for dip switches settings)
To connect the CONI with the
twisted pair of cables, Interface
Adapter Assy.
Cat. Num.
8793C85G01.
See appendix A-5, for configuration.
To connect the CH Devices,
Twisted Pair of Cable, TYPE
IMPCABLE or 9463 family.
TD 17513
---
To connect the CONI with the
twisted pair of cables, RJ11 Cable.
---
RJ11, less than 50 feet. See appendix A-5 for
configuration.
CH devices and
PONIs where necessary
IL 17547, IPONI
IL 17361, BPONI
IL 17408, WPONI
Different address for each device, 9600 BAUD
(for the IQ1000II, use BPONI in std. Mode)
5-6
C O N N E C T I V I T Y
Material
Document
Settings
PC, Pentium, 266 MHz., Hard Disk
memory 500 MB free min., VGA
monitor, SVGA recommended,
For Series-III 16 MB RAM memory
min., 32 MB recommended .
For PowerNet 64 MB RAM memory
min., 128 MB recommended.
---
Comport 1: IRQ 4, Base Address 3F8 (hex)
Comport 2: IRQ 3, Base Address 2F8 (hex)
Series-III does not share interrupts. Thus delete any
device (e.j. modem) on the comport to be used.
NLM1
---
----
---
Or
NETLINK Modbus
For one NETLINK MODBUS:
To connect the Modbus Interface
to the serial port of the PC (or
NETLINK Modbus Unit). See
appendix A-3 for pin requirements.
If necessary for multiple
Gateways to a single Modbus
Interface (page 5-4):
RS232/RS485 Line Driver
Cat. Black Box:
ME836A -R2
ME838A (recommended)
See appendix C for configuration
information
To connect the RS232/RS485 LINE
Black Box Cat.
DRIVER to the serial port of the PC (or BC00301
NETLINK Unit): RS-232 Printer Cable,
DB25M/DB9F
See appendix A-1 for pin configuration
(less than 50 feet long).
To connect the RS232/RS485 LINE
--DRIVER to the Modbus Interface Unit .
See appendix A-4 for PIN
requirements.
----
5-7
C O N N E C T I V I T Y
Material
Document
Settings
--2091A90G01
-------
Software for the PC:
Windows 95, 3.11 or 98
Series III, (for each PC with INCOM
devices connected)
Net DDE
Network Software
Enhanced Graphics
Carbon Copy (Remotely Possible)
Modbus Add on software
IL 17545
OR
Windows NT
PowerNet and
Net Power Modbus
--Cat. Num: PNEG
Cat. Num: NPCOREMOD
-------
5-8
C O N N E C T I V I T Y
Connection by
NOTES:
MINT
CH devices can be connected to some Building Management Systems, Distributed Control Systems
or PLCs through a MINT.
The most frequent configuration is the following:
INTERFACE
MODULE
Building Managements Systems
Distributed Control System or
PLC card
RS232, 25 pins
For pin
requirements, see
appendix A-4
IMPCABLE
Twisted Pair
MINT
W
IQ
E nergy S entinel
PONI
Values
Westinghouse
Digital
Protection
kA
incom
High Load
Reset
Peak - MW
Present - MW
Energy - kWH
IA
IB
IC
IG
Cell No.
Digitrip RMS 810
IA=
IB=
IC=
Step
TRND
Digitrip RMS Rating Plug
Long Delay
Long Delay
Setting
Time - Sec.
.5
Cat.
Frame Rating
40-60 Hz Only
10
Breaker Trips
Test Amps
6T
2
Short Delay
Time - Sec.
C
.4
Gnd. Fault
Time - Sec.
Inst.
3
.2
Gnd
Previous
Level
W
RES
Reset
372.81
371.25
373.47
Trip
RES
Alarm
AMPERES
EVNT HARM DEMD
F1
F2
F3
F4
Westinghouse
IQ - 1000 II
Function
Value
Home
Battery Check
Short Delay
Pickup
Gnd. Fault
Pickup
S1 - 7
S2 - 8
M1 - 8
M2 -10
PONI
Normal
Event
Relay
Program
W
Westinghouse
IQ Analyzer
2.425
Inst.
Test
Current
Voltage
Power (Watts)
Power (Vars)
Power (VA)
Energy
Demand
Power Factor
Frequency
% THD
Distortion Factor
Custom
Mode
Protection
Unit
Status
Step Up
Up
Program
Down
Set Points
Step Down
HELP
Trip
Test
Program
Help
Step
CH DEVICES
However, in some cases we have to use a RS232/RS485 Line Driver as an interface between the
MINT and the Interface Module or Card of the Building Management System, Distributed Control
System or PLCs.
The next pages show some examples of systems that can be connected with this structure.
5-9
C O N N E C T I V I T Y
Connecting to
Honeywell BMS: Deltanet Graphic Central
Interface
Manufacturer
Honeywell
Connection by
MINT
Supports
Addressable Relay, Advantage (no control), ACM, AEM II, CMU, Digitrip RMS, Digitrip MV,
IQ Energy Sentinel (breaker mount), IQ 1000II, IQ 500, IQ Data/Gen, IQ Data Plus II, Universal
RTD
An interface has been developed by Honeywell that allows the Honeywell system to act as
a master on the INCOM network. This is done through a software driver loaded into the Delta
Universal Gateway. This is a hardware module with an RS232 port and acts as the interface unit
between the MINT and Deltanet Graphics Central.
Status 6/96
Bill of Material*
Contact
Application Note
Tested
• List of page 5-23
• Supported CH Devices
Local Honeywell Home and Building Control Sales Office
Wiring Specification - TD 17513
*NOTE: Complete Bill of Material must also include hardware/software from other vendors
5-10
C O N N E C T I V I T Y
Connecting to
BMS
ILEX Energy Management System
Interface
Manufacturer
ILEX
Connection by
MINT
Supports
Digitrips, AEM II (Digitrips must communicate via the AEM II)
An interface has been developed by ILEX EMS that allows the ILEX system to act as
a master on the INCOM network. This is done through a software driver loaded into the
ILEX 8110, an RTU with communications capability. Note that maximum of 17 Digitrips
may be networked to each 8110 RTU.
Status 6/96
Bill of Material*
Contact
Application Note
Tested
• Digitrips and AEM II’s
• PONIs (where necessary)
• And List of page 5- 23
Local ILEX Representative or
ILEX Systems
1988 Tarob Court
Milpitas, CA 95035-6802
408/945-0294
Wiring Specification - TD 17513
*NOTE: Complete Bill of Material must also include hardware/software from other vendors
5-11
C O N N E C T I V I T Y
Connecting to
Johnson Controls BMS - Metasys
Interface
Manufacturer
Johnson Controls
Connection by
MINT
Supports
IQ Data, IQ Generator, IQ Energy Sentinel, IQ Data Plus II, IQ 1000 II, Advantage,
Digitrip RMS, AEM II, Digitrip MV, IQ Analyzer, IQ DP 4000
An interface has been developed by Johnson Controls that allows the Johnson Controls
network (Metasys) to act as a master on the INCOM network. This is done through a
software driver loaded into the JCI Metasys Integrator. This is a hardware module with an
RS232 port and acts as the interface unit between the MINT II and Metasys.
Status 6/96
Bill of Material*
Contact
Application Note
Tested
• List of page 5- 23
• Supported CH Devices
Local Johnson Controls Sales Office
Wiring Specification - TD 17513
*NOTE: Complete Bill of Material must also include hardware/software from other vendors
5-12
C O N N E C T I V I T Y
Connecting to
BMS
LANDIS & GYR POWERS SYSTEM 600 Factory Automation System
Interface
Manufacturer
Landis & Gyr Powers
Connection by
MINT
Supports
IQ Data, IQ Generator, IQ Energy Sentinel(Breaker Mount), IQ Data Plus II, IQ-1000 II, Advantage,
Digitrip 700/800, AEM II, Digitrip MV, IQ Transfer, IQ Analyzer
The physical connection from the System 600 to INCOM is done via the Landis & Gyr Gateway
Module. The Gateway Module connects to either the Mint II.
Note that the Gateway Module supports 80 INCOM devices.
Status 6/96
Bill of Material*
Contact
Application Note
Tested
• List of page 5- 23
• Supported CH Devices
• And a RS485/RS232 Converter to connect the Mint or PC to the Gateway Module of Landis
System
Local Landis & Gyr Sales Office or
Landis & Gyr
1000 Deerfield Pky
Buffalo Grove, IL 60089
847/215-1050
Wiring Specification - TD 17513
*NOTE: Complete Bill of Material must also include hardware/software from other vendors
5-13
C O N N E C T I V I T Y
Connecting to
BAILEY DCS - Network 90
Interface
Manufacturer
Bailey Controls
Connection by
MINT
Supports
Driver (supports or can be modified to support) all CH Devices.
An interface has been developed by Bailey Controls that allows the Bailey network to act as a
master on the INCOM network. This is done through a software driver loaded into the Bailey
Multi-Function Process Module. This is a hardware module with an RS232 port and acts as the
interface unit between the MINT II and Bailey’s Network 90.
Status 6/96
Bill of Material*
Contact
Application Note
Tested
• List of page 5- 23
Local Bailey Controls Sales Office
Wiring Specification - TD 17513
*NOTE: Complete Bill of Material must also include hardware/software from other vendors
5-14
C O N N E C T I V I T Y
Connecting to
FOXBORO DCS -- Intelligent Automation (I/A) Series
Interface
Manufacturer
Foxboro
Connection by
MINT
Supports
IQ Data, IQ Generator, IQ DP II, AEM II, Digitrip 700/800(through AEMII), IQ 1000, IQ 500,
Advantage, ACM, Energy Sentinel (breaker mount), RTD
An interface has been developed by Foxboro that links INCOM with Foxboro’s Intelligent
Automation (I/A) Series. The interface is done through the Foreign Device Gateway (FDG) a module with an RS232 port and loaded with an INCOM driver. Information is then sent from the
FDG to the Foxboro Operator Workstation.
Status 6/96
Bill of Material*
Contact
Application Note
Tested
• List of Page 5- 23
• Supported Devices
Local Foxboro Sales Office
Wiring Specification - TD 17513
*NOTE: Complete Bill of Material must also include hardware/software from other vendors
5-15
C O N N E C T I V I T Y
Connecting to
ALLEN BRADLEY - PLC 5, PLC 3, PLC 2, SLC5
Interface
Manufacturer
Real Time Automation
Connection by
MINT
Supports
Driver (supports or can be modified to support) all CH Devices
A driver has been written by a third party system house that allows the Allen Bradley PLC to act
as a master on the INCOM network. This is done through a software driver loaded into the
A-B 2760-RB module. This card is defined by A-B as a “flexible interface module,” which has an
RS 232 port, and operates on the A-B 1771 Universal I/O rack. This particular driver also adds
additional capabilities for the user, such as manual/auto polling. RTA also has a similar driver
written for the SLC5/ PLC.
Status 6/96
Bill of Material*
Contact
Application Note
Tested
• List of page 5- 23
Real Time Automation
5232 W. Oklahoma Ave.
Milwaukee, WI 53219
(414)453-5100
Wiring Specification - TD 17513
*NOTE: Complete Bill of Material must also include hardware/software from other vendors
5-16
C O N N E C T I V I T Y
Connecting to
ALLEN BRADLEY - PLC 5, PLC 3, PLC 2
Interface
Manufacturer
Instrument Controls, Inc.
Connection by
MINT
Supports
Driver (supports or can be modified to support ) all CH devices
A driver has been written by a third party system house that allows the Allen Bradley PLC to act
as a master on the INCOM network. This is done through a software driver loaded into the A-B
2760-RB module. This card is defined by A-B as a “flexible interface module,” which has an RS 232
port, and operates on the A-B 1771 Universal I/O rack. This particular driver also adds additional
capabilities for the user, such as manual/auto polling.
Status 6/96
Bill of Material*
Contact
Application Note
Tested
• List of page 5- 23
Instrument Controls, Inc.
P.O. Box 7126
Pensacola, FL 32534
904/968-2191
Wiring Specification - TD 17513
*NOTE: Complete Bill of Material must also include hardware/software from other vendors
5-17
C O N N E C T I V I T Y
Connecting to
GE Fanuc - 90/70 PLC
Interface
Manufacturer
Point Eight
Connection by
MINT
Supports
Advantage, CMU
A driver has been written to allow the GE 90/70 PLC to communicate with Advantage starters and
contacts through a CMU. This is done through the GE Programmable Co-Processor Module. The
RS232 port on the module connects to the MINT II.
Status 6/96
Bill of Material*
Contact
Application Note
Tested
•List of page 5- 23
•CMU and Advantage Starters
•PONIs (where necessary)
Point Eight
1510 Engineers Road
Belle Chase, LA 70037
504/394-6100
Wiring Specification - TD 17513
*NOTE: Complete Bill of Material must also include hardware/software from other vendors
5-18
C O N N E C T I V I T Y
Connecting to
SQUARE D - SY/MAX PLCs
Interface
Manufacturer
Engage Networks Inc.
Connection by
MINT
Supports
IQ Data Plus II, Digitrip RMS, AEM II, Digitrip MV, Advantage
A driver has been written by a third party systems house that allows the Square D SY/MAX to act
as a master on the INCOM network. This is done through the Westinghouse Network Interface
Module (WNIM). The WNIM is a communications card that is compatible with the
entire line of SY/MAX PLCs.
Status 6/96
Bill of Material*
Contact
Application Note
Tested
• List of page 5- 23
• Supported CH Devices
Engage Networks Inc.
316 N. Milwaukee St., Ste. 214
Milwaukee, WI 53202
414-273-7600
CH Wiring Specification - TD 17513
*NOTE: Complete Bill of Material must also include hardware/software from other vendors
5-19
C O N N E C T I V I T Y
Bill of Material
and Config.
*NOTE: Complete Bill of Material must also include hardware/software from other vendors
Material
Document
Settings
CH devices and
PONIs where necessary
IL 17547, IPONI
IL 17361, BPONI
IL 17408, WPONI
Different address for each device, 9600 BAUD
(for the IQ1000II, use BPONI in std. Mode)
MINT II
IL 17466
N, 8, 1, No Ack/Nack, BAUD 9600. (See appendix B-1
for dip switch settings.)
To connect the MINT to the
Module Interface of the BMS,
DCS, or PLCs: RS-232
See appendix A-4 for pin
requirements.
--
--
To connect the CH Devices,
Twisted Pair of Cable, TYPE
IMPCABLE or 9463 family.
TD 17513
---
5-20
C O N N E C T I V I T Y
Connection by
NOTES:
DIRECT INTERFACE
Twisted Pair of Cable
INCOM can be directly interfaced with some Building Management Systems, Distributed
Control Systems or PLCs through the installation of some CARDS that allows direct access
to the twisted pair of cables.
The configuration is the following:
Interface Card
Building Managements Systems
Distributed Control System or
PLC interface card
IMPCALE
Twisted Pair
W
IQ
E nergy S entinel
PONI
Values
Westinghouse
Digital
Protection
kA
incom
High Load
Reset
Peak - MW
Present - MW
Energy - kWH
IA
IB
IC
IG
Cell No.
Digitrip RMS 810
IA=
IB=
IC=
Step
TRND
Digitrip RMS Rating Plug
Long Delay
Long Delay
Setting
Time - Sec.
.5
Cat.
Frame Rating
40-60 Hz Only
10
Breaker Trips
Test Amps
6T
2
Short Delay
Time - Sec.
C
.4
Gnd. Fault
Time - Sec.
Inst.
3
.2
Gnd
Previous
Level
W
RES
Reset
372.81
371.25
373.47
Trip
RES
Alarm
AMPERES
EVNT HARM DEMD
F1
F2
F3
F4
Westinghouse
IQ - 1000 II
Function
Value
Home
Battery Check
Short Delay
Pickup
Gnd. Fault
Pickup
S1 - 7
S2 - 8
M1 - 8
M2 -10
PONI
Normal
Event
Relay
Program
W
Westinghouse
IQ Analyzer
2.425
Inst.
Test
Current
Voltage
Power (Watts)
Power (Vars)
Power (VA)
Energy
Demand
Power Factor
Frequency
% THD
Distortion Factor
Custom
Mode
Protection
Unit
Status
Step Up
Up
Program
Down
Set Points
Step Down
HELP
Trip
Test
Program
Help
Step
CH DEVICES
The next pages show some examples of systems that can be connected with this structure.
5-21|
C O N N E C T I V I T Y
Connecting to
Westinghouse DCS - WDPF
Interface
Manufacturer
Westinghouse Process Control Division
Connection by
Supports
Twisted Pair of cables
Addressable Relay, Advantage, ACM, AEM II, CMU, Digitrip RMS, IQ Energy Sentinel (breaker
mount), IQ 1000 II, IQ 500, IQ Data/Generator, IQ Data Plus II, Universal RTD Module
INCOM can be directly interfaced with Westinghouse WDPF with the installation of a QLC
card in the WDPF Distributed Processing Unit. The QLC card allows direct access to the INCOM
twisted pair.
Status 6/96
Bill of Material*
Contact
Application Note
Tested
• List of page 5-27
• Supported CH Devices
• PONIs (where necessary)
Local Westinghouse PCD Sales Office or
Westinghouse Process Control Division
200 Beta Drive
Pittsburgh, PA 15238
412/963-4000
CH Wiring Specification - TD 17513
*NOTE: Complete Bill of Material must also include hardware/software from other vendors
5-22
C O N N E C T I V I T Y
Bill of Material
and Config.
*NOTE: Complete Bill of Material must also include hardware/software from other vendors
Material
Document
Settings
CH devices and PONIs
where necessary
IL 17547, IPONI
IL 17361, BPONI
IL 17408, WPONI
Different address for each device, 9600 BAUD
(for the IQ1000II, use BPONI in std. Mode)
To connect the CH Devices,
Twisted Pair of Cable, TYPE
IMPCABLE or 9463 family.
TD 17513
---
5-23
C O N N E C T I V I T Y
Connecting to
WESTINGHOUSE PLC: 50, 500, 2000 Series/ SIEMENS PLC: S5-90U, 100U, 115U Series
Interface
Manufacturer
Westinghouse Distribution and Control
Connection by
Twisted Pair of cables
Supports
Advantage, Addressable Relays
A direct interface has been developed between Westinghouse 50, 500, and 2000 Series PLCs
and Advantage starters, contacts, and Addressable Relay II's. The NL 582 module allows the
twisted pair to be brought directly into the PLC, eliminating the need for hardwiring to I/O
modules.
Status 6/96
Bill of Material*
Contact
Application Note
Tested
•List of page 5-31
•Westinghouse 50, 500, or 2000 Series PLCs or Siemens 90U, 100U, 115U Series PLCs
•Advantage, Addressable Relays
•PONIs (where necessary)
•NL 582 Card
Local Cutler-Hammer Sales Office or
Advanced Products Support Center
800/809-2772 (USA and Canada) or 412-490-6814
Wiring Specification - TD 17513
*NOTE: Complete Bill of Material must also include hardware/software from other vendors
5-24
C O N N E C T I V I T Y
Bill of Material
and Config.
*NOTE: Complete Bill of Material must also include hardware/software from other vendors
Material
Document
Settings
CH devices and
PONIs where necessary
IL 17547, IPONI
IL 17361, BPONI
IL 17408, WPONI
Different address for each device, 9600 BAUD
(for the IQ1000II, use BPONI in std. Mode)
To connect the CH Devices,
Twisted Pair of Cable, TYPE
IMPCABLE or 9463 family.
TD 17513
---
Westinghouse PLC Series: 50, 500,
or 2000. Or Siemens S5: 90U, 100U,
115U Series PLC
---
---
NL 582 Card
---
---
5-25
C O N N E C T I V I T Y
Connecting to
WESTINGHOUSE PLC: 50, 500, 2000 Series/ SIEMENS PLC: 90U, 100U, 115U Series
Interface
Manufacturer
Westinghouse Distribution and Control
Connection by
Twisted Pair of cables
Supports
All CH Devices (waveform data from the IQ Analyzer and Digitrip 910 is not supported)
A direct interface has been developed between Westinghouse 50, 500, and 2000 Series PLCs
and CH compatible devices. The NL 583 module allows the twisted pair to be
brought directly into the PLC, eliminating the need for hardwiring to I/O modules.
Status 6/96
Bill of Material*
Contact
Application Note
Tested
•List of page 5-33
•Westinghouse 50, 500, or 2000 Series PLCs or Siemens 90U, 100U, 115U Series PLCs
•CH Devices
•PONIs (where necessary)
•NL 583 Card
Local Cutler-Hammer Sales Office or
Advanced Products Support Center
800/809-2772 (USA and Canada) or 412-490-6814
Wiring Specification - TD 17513
*NOTE: Complete Bill of Material must also include hardware/software from other vendors
5-26
C O N N E C T I V I T Y
Bill of Material
and Config.
*NOTE: Complete Bill of Material must also include hardware/software from other vendors
Material
Document
Settings
CH devices and
PONIs where necessary
IL 17547, IPONI
IL 17361, BPONI
IL 17408, WPONI
Different address for each device, 9600 BAUD
(for the IQ1000II, use BPONI in std. Mode)
To connect the CH Devices,
Twisted Pair of Cable, TYPE
IMPCABLE or 9463 family.
TD 17513
---
Westinghouse PLC Series: 50, 500,
or 2000. Or Siemens S5: 90U, 100U,
115U Series PLC
---
---
NL 583 Card
---
---
5-27
C O N N E C T I V I T Y
Connection by
NOTES:
Special Configurations
The next configurations are configuration that are slightly different from the previous ones.
5-28
C O N N E C T I V I T Y
Connecting to
Siebe Environmental Controls
Interface
Manufacturer
Siebe Environmental Controls
Supports
All CH Devices (waveform data from the IQ Analyzer and Digitrip 910 is not supported)
An interface has been developed to link CH devices to Siebe Environmental Controls Ultivist software.
This is done through a software driver loaded into the Ultivist workstation, a computer
running the Ultivist Software. The interface can be done direct to the CONI card or the MINT.
BMS OPERATOR WORKSTATION:
Computer with CONI or MINT, INCOM
Driver, and Ultivist Software
IMPCABLE
Twisted Pair
W
IQ
E nergy S entinel
PONI
Values
Siebe
Devices
Westinghouse
Digital
Protection
kA
incom
High Load
Reset
Peak - MW
Present - MW
Energy - kWH
IA
IB
IC
IG
Cell No.
Digitrip RMS 810
IA=
IB=
IC=
Step
TRND
Digitrip RMS Rating Plug
Long Delay
Long Delay
Setting
Time - Sec.
.5
Cat.
Frame Rating
40-60 Hz Only
10
Breaker Trips
Test Amps
6T
2
Short Delay
Time - Sec.
C
.4
Gnd. Fault
Time - Sec.
Inst.
3
.2
Gnd
Previous
Level
W
RES
Reset
372.81
371.25
373.47
Trip
RES
Alarm
AMPERES
EVNT HARM DEMD
F1
F2
F3
F4
Westinghouse
IQ - 1000 II
Function
Value
Home
Battery Check
Short Delay
Pickup
Gnd. Fault
Pickup
S1 - 7
S2 - 8
M1 - 8
M2 -10
PONI
Normal
Event
Relay
Program
W
Westinghouse
IQ Analyzer
2.425
Inst.
Test
Current
Voltage
Power (Watts)
Power (Vars)
Power (VA)
Energy
Demand
Power Factor
Frequency
% THD
Distortion Factor
Custom
Mode
Protection
Unit
Status
Step Up
Up
Program
Down
Set Points
Step Down
HELP
Trip
Test
Program
Help
Step
CH DEVICES
Status 6/96
Contact
Application Note
Tested
Local Siebe Environmental Controls Representative or
Siebe Environmental Controls
1701 Byrd Ave.
Richmond, VA 23230
(804)289-4200
Wiring Specification - TD 17513
*NOTE: Complete Bill of Material must also include hardware/software from other vendors
5-29
C O N N E C T I V I T Y
Bill of Material
and Config.
*NOTE: Complete Bill of Material must also include hardware/software from other vendors
Material
Document
Settings
CH devices and PONIs
where necessary
IL 17547, IPONI
IL 17361, BPONI
IL 17408, WPONI
Different address for each device, 9600 BAUD
(for the IQ1000II, use BPONI in std. Mode)
To connect the CH Devices,
Twisted Pair of Cable, TYPE
IMPCABLE or 9463 family.
TD 17513
---
INCOM DRIVER
---
---
MINT II
IL 17466
N, 8, 1, No Ack/Nack, BAUD 9600. (See appendix B-1
for dip switch settings.)
To connect the MINT to PC
running Ultivist Software:
RS-232 Printer Cable,
DB25M/DB9F
Black Box Cat.
BC00301
See appendix A-1 for pin configuration Less than 50
feet long).
CONI-3
IL 17551
Address 300, IRQ 5, Mode 1 (Series-III), Mode 2
(PowerNet), BAUD 9600. (See appendix B-3, and B4, for dip switches settings)
To connect the CONI with the
twisted pair of cables, Interface
Adapter Assy.
Cat. Num.
8793C85G01.
See appendix A-5, for configuration.
To connect the CONI with the
twisted pair of cables, RJ11 Cable.
---
RJ11, less than 50 feet. See appendix A-5 for
configuration.
5-30
C O N N E C T I V I T Y
Connecting to
FISHER-PROVOX - Provox / RM1
Interface
Manufacturer
Scalon Control
Supports
IQ Data Plus II's, IQ1000-II's, MMCO Relays
An interface has been developed by a third party integrator for Fisher-Provox. This interface
allows information from INCOM to be fed into the Fisher-Provox system through a Computer
Highway Interface Package (CHIP). The CHIP pulls information directly from the CONI, and
sends it to the Fisher-Provox control center.
Personal Computer
with CONI
IMPCABLE
Twisted Pair
PONI
CHIP
To Fisher-Provox Control Center
PONI
W
W
Westinghouse
IQ - 1000 II
Westinghouse
IQ - 1000 II
Trip
Trip
RES
RES
Alarm
Function
Alarm
Value
Mode
Protection
Function
Step Up
Value
Mode
Protection
Program
Step Up
Program
Set Points
Step Down
Set Points
HELP
Step Down
HELP
Step
Step
CH DEVICES
Status 6/96
Bill of Material*
Contact
Application Note
Tested
•List of page 5-43
•IQ Data Plus II's, IQ1000-II's, MMCO Relays
•PONIs (where necessary)
Scalon Control
2455 W. Cardinal Dr.
Beaumont, TX 77705
409/842-5932
Wiring Specification - TD 17513
*NOTE: Complete Bill of Material must also include hardware/software from other vendors
5-31
C O N N E C T I V I T Y
Bill of Material
and Config.
*NOTE: Complete Bill of Material must also include hardware/software from other vendors
Material
Document
Settings
CH devices and PONIs
where necessary
IL 17547, IPONI
IL 17361, BPONI
IL 17408, WPONI
Different address for each device, 9600 BAUD
(for the IQ1000II, use BPONI in std. Mode)
CONI-3
IL 17551
Address 300, IRQ 5, Mode 1 (Series-III), Mode 2
(PowerNet), BAUD 9600. (See appendix B-3 and B-4
for dip switches settings)
To connect the CONI with the
twisted pair of cables, Interface
Adapter Assy.
Cat. Num.
8793C85G01.
See appendix A-5, for configuration.
To connect the CONI with the
twisted pair of cables, RJ11 Cable.
---
RJ11, less than 50 feet. See appendix A-5 for
configuration.
To connect the CH Devices,
Twisted Pair of Cable, TYPE
IMPCABLE or 9463 family.
TD 17513
---
PC:
PC, Pentium, 266 MHz., Hard Disk
memory 500 MB free min., VGA
monitor, SVGA recommended,
For Series-III 16 MB RAM memory
min., 32 MB recommended .
For PowerNet 64 MB RAM memory
min., 128 MB recommended.
---
---
5-32
C O N N E C T I V I T Y
Material
Document
Settings
Windows 95, 3.11, or 98
Series III
--2091A90G01
-------
Windows NT
PowerNet
-----
-------
Software
5-33
C O N N E C T I V I T Y
Connecting to
INTELLUSION Fix D-MACS
Interface
Manufacturer
Gray Matter Solutions
Supports
All CH Devices (waveform data from the IQ Analyzer, Digitrip OPTIM and Digitrip 910 is
not supported)
A driver has been developed to link INCOM devices to Intellusion’s Fix DMacs software. The
Interface is direct to the CONI card, using Series III or PowerNet as a DDE Server.
Personal Computer with Intellusion’s Fix DMacs Software,
Series III software, and a CONI card
IMPCABLE Twisted Pair
IMPCABLE
Twisted Pair
W
IQ
E nergy S entinel
PONI
Values
Westinghouse
Digital
Protection
kA
incom
High Load
Reset
Peak - MW
Present - MW
Energy - kWH
IA
IB
IC
IG
Cell No.
Digitrip RMS 810
IA=
IB=
IC=
Step
TRND
Digitrip RMS Rating Plug
Long Delay
Long Delay
Setting
Time - Sec.
.5
Cat.
Frame Rating
40-60 Hz Only
10
Breaker Trips
Test Amps
6T
2
Short Delay
Time - Sec.
C
.4
Gnd. Fault
Time - Sec.
Inst.
3
.2
Gnd
Previous
Level
W
RES
Reset
372.81
371.25
373.47
Trip
RES
Alarm
AMPERES
EVNT HARM DEMD
F1
F2
F3
F4
Westinghouse
IQ - 1000 II
Function
Value
Home
Battery Check
Short Delay
Pickup
Gnd. Fault
Pickup
S1 - 7
S2 - 8
M1 - 8
M2 -10
PONI
Normal
Event
Relay
Program
W
Westinghouse
IQ Analyzer
2.425
Inst.
Test
Current
Voltage
Power (Watts)
Power (Vars)
Power (VA)
Energy
Demand
Power Factor
Frequency
% THD
Distortion Factor
Custom
Mode
Protection
Program
Set Points
Step Down
HELP
Trip
Test
Unit
Status
Step Up
Up
Down
Program
Help
Step
CH DEVICES
Status 6/96
Contact
Application Note
Tested
Power Management Application Support
800/809-2772 (USA and Canada) or 412-490-6814
Wiring Specification - TD 17513
*NOTE: Complete Bill of Material must also include hardware/software from other vendors
5-34
C O N N E C T I V I T Y
Bill of Material
and Config.
*NOTE: Complete Bill of Material must also include hardware/software from other vendors
Material
Document
Settings
CH devices and
PONIs where necessary
IL 17547, IPONI
IL 17361, BPONI
IL 17408, WPONI
Different address for each device, 9600 BAUD
(for the IQ1000II, use BPONI in std. Mode)
CONI-3
IL 17551
Address 300, IRQ 5, Mode 1 (Series-III), Mode 2
(PowerNet), BAUD 9600. (See appendix B-3,and B-4,
for dip switches settings)
To connect the CONI with the
twisted pair of cables, Interface
Adapter Assy.
Cat. Num.
8793C85G01.
See appendix A-5, for configuration.
To connect the CONI with the
twisted pair of cables, RJ11 Cable.
---
RJ11, less than 50 feet. See appendix A-5 for
configuration.
To connect the CH Devices,
Twisted Pair of Cable, TYPE
IMPCABLE or 9463 family.
TD 17513
---
The existing PC with Intellusion’ Fix
DMacs software must have the next
characteristics:
PC, Pentium, 266 MHz., Hard Disk
memory 500 MB free min., VGA
monitor, SVGA recommended,
For Series-III 16 MB RAM memory
min., 32 MB recommended .
For PowerNet 64 MB RAM memory
min., 128 MB recommended.
---
---
5-35
C O N N E C T I V I T Y
Material
Document
Settings
Windows 95, 3.11, or 98
Series III
Intellusion’s Fix DMacs software
--2091A90G01
-------
Windows NT
PowerNet
Intellusion’s Fix DMacs software
-----
-------
Software
5-36
C O N N E C T I V I T Y
Connecting to
Power Measurement Limited (PML) Pegasys
Interface
Manufacturer
PML (WWW.PML.COM)
Supports
PML’s Pegasys is an HMI and logging package manufactured for PML’s line of electronic
metering including the ION7700, 7300 and 7300. PML meters uses Modbus RTU via RS-485.
Pegasys 2.0 is advertised to be both a DDE Server (provides information to clients such as Excel
and Wonderware) and a DDE Client (able to read from and write to NPDDE, Excel and
Wonderware).
Personal Computer with Pegasys Software
Ethernet LAN
CONI or MINT (via COM port)
IMPCABLE Twisted Pair
PowerNet Client and/or
Wonderware
IMPCABLE
Twisted Pair
W
IQ
E nergy S entinel
PONI
Values
Westinghouse
Digital
Protection
kA
incom
High Load
Reset
Peak - MW
Present - MW
Energy - kWH
IA
IB
IC
IG
Cell No.
Digitrip RMS 810
IA=
IB=
IC=
Step
TRND
Digitrip RMS Rating Plug
Long Delay
Long Delay
Setting
Time - Sec.
.5
Cat.
Frame Rating
40-60 Hz Only
10
Breaker Trips
Test Amps
6T
2
Short Delay
Time - Sec.
C
.4
Gnd. Fault
Time - Sec.
Inst.
3
.2
Gnd
PML DEVICES
Status 6/96
Contact
Application Note
Previous
Level
W
RES
Reset
372.81
371.25
373.47
Trip
RES
Alarm
AMPERES
EVNT HARM DEMD
F1
F2
F3
F4
Westinghouse
IQ - 1000 II
Function
Value
Home
Battery Check
Short Delay
Pickup
Gnd. Fault
Pickup
S1 - 7
S2 - 8
M1 - 8
M2 -10
PONI
Normal
Event
Relay
Program
W
Westinghouse
IQ Analyzer
2.425
Inst.
Test
Current
Voltage
Power (Watts)
Power (Vars)
Power (VA)
Energy
Demand
Power Factor
Frequency
% THD
Distortion Factor
Custom
Mode
Protection
Program
Set Points
HELP
Trip
Test
Unit
Status
Step Up
Up
Down
Program
Help
Step
CH DEVICES
Not Tested
Power Management Application Support
800/809-2772 (USA and Canada) or 412-490-6814
Wiring Specification - TD 17513
*NOTE: Complete Bill of Material must also include hardware/software from other vendors
5-37
Step Down
C O N N E C T I V I T Y
Connecting to
ASI Controls
Interface
Manufacturer
ASI Controls (www.asicontrols.com)
Supports
ASI Controls manufactures Direct Digital Controls (DDC) for HVAC and light industrial customers.
They sell controllers with digital inputs and outputs that are connected to variable air valve (VAV),
fan coil units, roof top air conditioners. These DDC controllers connect to a network. They sell a
32-bit software package called ASIExpert that runs under Windows 95, 98 or NT. This is used to
configure the ASI controllers connected to the VAVs, fan coil units, etc. They also sell a DDE
Server that is loaded on any Windows PC. This software translates the messages from the
COM1 through COM4 ports into DDE messages that are sent over a LAN.
Ethernet LAN
ASI Net Network
Interface Unit Including ASI DDE Server
SINC/3-3000 RS-232 t
Token Passing Contro
Ethernet
Gateway
PowerNet Client with
Wonderware to access
data from:
PowerNet
- using NPDDE
ASI-Net
- using NetDDE with
ASI DDEServer
IPONI
COM1
COM4
RS-485
IPONI
VAV controller, etc.
CH DEVICES
VAV controller, etc.
Status 6/96
Contact
Application Note
Not Tested
Power Management Application Support
800/809-2772 (USA and Canada) or 412-490-6814
Wiring Specification - TD 17513
*NOTE: Complete Bill of Material must also include hardware/software from other vendors
5-38
C O N N E C T I V I T Y
SECTION 6
COMMUNICATION WITH OTHERS MANUFACTURERS DEVICES AND
NETWORKS
Connecting
Through
ENHANCED GRAPHICS - Wonderware InTouch
Interface
Manufacturer
Wonderware
Supports
All CH devices
SERIES III and POWERNET is able to communicate with other manufacturer’s devices and networks
through Enhanced Graphics. Linkage is done through “DDE” I/O Servers developed by either
Wonderware or a third party integrators. A short list of available drivers is included below. A
comprehensive and up-to-date list of Wonderware Intouch DDE I/O Servers can be found on the
Internet at the following address:
“http://www.wonderware.com/partners/body/wondertools/ddeserv.asp”
Master or Slave or Peer
DCS / BMS / PLC
Computer with CONI, Series
III, Enhanced Graphics, and
DDE I/O Server (for other
manufacturer’s system)
Allen-Bradley - Data Highway/Data Highway Plus
Bailey - Network 90
GE Fanuc - Genius, CCM 2, Series 90
IQ
Energy Sentinel
PONI
Values
Westinghouse
Digital
Protection
Westinghouse
IQ Analyzer
2.425
kA
incom
High Load
Reset
Peak - MW
Present - MW
Energy - kWH
IA
IB
IC
IG
Cell No.
Digitrip RMS 810
IA=
IB=
IC=
Step
TRND
Digitrip RMS Rating Plug
Long Delay
Long Delay
Setting
Time - Sec.
.5
Cat.
Frame Rating
10
Breaker Trips
Test Amps
6T
2
Short Delay
Time - Sec.
C
.4
Gnd. Fault
Time - Sec.
Inst.
3
.2
Gnd
Previous
Level
W
RES
Reset
Westinghouse
IQ - 1000 II
372.81
371.25
373.47
Trip
RES
Alarm
AMPERES
EVNT HARM DEMD
F1
F2
F3
F4
Function
Value
Home
Battery Check
Short Delay
Pickup
Gnd. Fault
Pickup
S1 - 7
S2 - 8
M1 - 8
M2 -10
40-60 Hz Only
Inst.
Test
Current
Voltage
Power (Watts)
Power (Vars)
Power (VA)
Energy
Demand
Power Factor
Frequency
% THD
Distortion Factor
Custom
Mode
Protection
Step Up
Up
Program
Down
Set Points
Step Down
HELP
Trip
Test
Unit
Status
Program
Honeywell - Series 9000 Loop and Logic Controller
PONI
Normal
Event
Relay
Program
W
Honeywell - TDC 2000/3000
Energy
Sentinel
W
Help
Step
Master or Slave
or Peer
Modicon - Modbus/Modbus Plus
Power Measurement Limited (PML)
Digitrip 810IQ AnalyzerIQ 1000 II
CH DEVICES
Siemens - H1, 3964R, Profibus
Square D - SY/LINK, SY/NET, SY/MAX
TI - TIWAY
Westinghouse - 3964R, H1, L1, Numalogic
plus 300 additional protocols.
6-1
C O N N E C T I V I T Y
Status 6/96
Contact
Application Note
Tested
Power Management Application Support
800/809-2772 (USA and Canada) or 412-490-6814 or
Local Wonderware Distributor
CH Wiring Specification - TD 17513
*NOTE: Complete Bill of Material must also include hardware/software from other vendors
6-2
C O N N E C T I V I T Y
Configuration
Application
Enhanced Graphics
Communication with other manufacturers’ devices and networks
Bill of Material
and Config.
Material
Document
Settings
CONI-3
IL 17551
Address 300, IRQ 5, Mode 1 (Series-III), Mode 2
(PowerNet), BAUD 9600. (See appendix B-3 and B-4,
for dip switches settings)
To connect the CONI with the
twisted pair of cables, Interface
Adapter Assy.
Cat. Num.
8793C85G01.
See appendix A-5, for configuration.
To connect the CH Devices,
Twisted Pair of Cable, TYPE
IMPCABLE or 9463 family.
TD 17513
---
To connect the CONI with the
twisted pair of cables, RJ11 Cable.
---
RJ11, less than 50 feet. See appendix A-5 for
configuration.
CH devices and
PONIs where necessary
IL 17547, IPONI
IL 17361, BPONI
IL 17408, WPONI
Different address for each device, 9600 BAUD
(for the IQ1000II, use BPONI in std. Mode)
PC, Pentium, 266 MHz., Hard Disk
memory 500 MB free min., VGA
monitor, SVGA recommended,
For Series-III 16 MB RAM memory
min., 32 MB recommended .
For PowerNet 64 MB RAM memory
min., 128 MB recommended.
---
---
6-3
C O N N E C T I V I T Y
Material
Document
Settings
--2091A90G01
-------
Software
Windows 95, 3.11, or 98
Series III
Enhanced Graphics and
Enhanced Graphics DDE I/O Server
(for other manufacturers’ Systems)
OR
Windows NT
PowerNet
NetPower Integrator
-----Cat. Num: PNEG
---Cat. Num: NPID60K
6-4
C O N N E C T I V I T Y
Appendix A: Pin Cables for connecting the MINT-II.
AT MODEM CABLE
Configuration
• Configuration of PINS
• RS-232, AT MODEM CABLE, DB9F /DB25M, Cat. Black Box BC00301
AT MODEM CABLE
COMPUTE
R
RS-232
Serial Port
MINT OR DRIVER
25 PIN
FEMALE
9 PIN
MALE
MALE
DATA TERMINAL
EQUIPMENT
(DTE)
9 PIN
FEMALE
FEMALE
DATA
COMMUNICATIONS
EQUIPMENT
(DCE)
25 PIN
MALE
9 PIN
X
RECEIVE DATA
TRANSMIT DATA
DATA TERMINAL READY
GROUND
DATA SET READY
REQUEST TO SEND
CLEAR TO SEND
X
25 PIN
1
2
3
4
5
6
7
8
9
1
2
3
4
5
6
7
8
20
X
TRANSMIT DATA
RECEIVE DATA
REQUEST TO SEND
CLEAR TO SEND
DATA SET READY
GROUND
X
DATA TERMINAL READY
Where:
RECEIVE DATA =
TRANSMIT DATA =
DATA TERMINAL READY =
GROUND =
DATA SET READY =
REQUEST TO SEND =
CLEAR TO SEND =
RXD
TXD
DTR
GN
D
DSR
RTS
CTS
A-1
C O N N E C T I V I T Y
Appendix A: Pin Cables for connecting the MINT-II
NULL MODEM CABLE
Configuration
• Configuration of PINS
• RS-232, NULL MODEM CABLE, Cat. Black Box EYN250-0010, 25M/25M.
NULL MODEM CABLE
DRIVER
MINT
25 PIN
FEMALE
25 PIN
FEMALE
DATA COMMUNICATIONS
EQUIPMENT
(DCE)
25 PIN
MALE
DATA COMMUNICATIONS
EQUIPMENT
(DCE)
25 PIN
MALE
25 PIN
DCE
X
TRANSMIT DATA
RECEIVE DATA
REQUEST TO SEND
CLEAR TO SEND
DATA SET READY
GROUND
DATA TERMINAL READY
25 PIN
DCE
1
2
3
4
5
6
7
20
1
2
3
4
5
6
7
20
X
TRANSMIT DATA
RECEIVE DATA
REQUEST TO SEND
CLEAR TO SEND
DATA SET READY
GROUND
DATA TERMINAL READY
Where:
RECEIVE DATA =
TRANSMIT DATA =
DATA TERMINAL READY =
GROUND =
DATA SET READY =
REQUEST TO SEND =
CLEAR TO SEND =
RXD
TXD
DTR
GN
D
DSR
RTS
CTS
A-2
C O N N E C T I V I T Y
Appendix A: Pin Requirements for Serial Ports of PCs and Ethernet Bridges,
and Modbus Gateways (NetLinks)
Configuration
• PIN Requirements for RS-232 Ports
INTERFACE
MODULE
COMPUTE
R or
NETLINK
RS-232
Serial Port
(BMS, DCS,
PLC, or
MODBUS
INTERFACE
UNIT)
CABLE
XX PIN
9 PIN
MALE
MALE
DATA TERMINAL
EQUIPMENT
(DTE)
-9 PIN
FEMALE
XX PIN
9 PIN MALE
Where:
1
2
3
4
5
6
7
8
9
X
RECEIVE DATA
TRANSMIT DATA
X
GROUND
X
REQUEST TO SEND
CLEAR TO SEND
X
RECEIVE DATA =
TRANSMIT DATA =
DATA TERMINAL READY =
GROUND =
DATA SET READY =
REQUEST TO SEND =
CLEAR TO SEND =
RXD
TXD
DTR
GN
D
DSR
RTS
CTS
NOTE:
CTS must be TRUE (HIGH) for port to transmit data. The typical
solution is to jumper RTS to CTS.
A-3
C O N N E C T I V I T Y
Appendix A: Pin Requirements DCE
Configuration
• PIN Requirements for DCE, 25 PINS
INTERFACE
MODULE
(BMS, DCS,
PLC, or
MODBUS
INTERFACE
UNIT)
CABLE
MINT
XX PIN
25 PIN
FEMALE
--
FEMALE
DATA
COMMUNICATIONS
EQUIPMENT
(DCE)
25 PIN
MALE
XX PIN
DATA
TERMINAL
EQUIPMENT
(DTE)
MODEM OR MINT
(DC E)
DATA SET
25F PIN
2
3
4
5
7
DATA TERMINAL
EQUIPMENT
(DTE)
XX PIN
RXD
TXD
RTS
CTS
GN
D
TXD
RXD
CTS
RTS
GN
D
Where:
RECEIVE DATA =
TRANSMIT DATA =
REQUEST TO SEND =
CLEAR TO SEND =
GROUND =
RXD
TXD
RTS
CTS
GN
D
A-4
C O N N E C T I V I T Y
Appendix A: Pin Cables for connecting CONI-III
RJ-11 Cable
Configuration
• Configuration of PINS
• RJ-11 CABLE and Interface Adapter Assy , Cat. 8793C85G01
IMPCABLE
RJ-11 and Interface Adapter
RJ-11 Cable, less
than 50 feet
RJ-11
Plug
RJ-11
Jack
RJ-11
Jack
Phoenix
Connector
RJ-11
Plug
3
Shield
6
5
4
3
2
1
1
2
3
4
5
6
2
Net 2
1
Net 1
CONI-III
CARD
Interface
Adapter
Assembly
RJ-11 CABLE COLOR CODE:
1 Gray Wire (may not be
present)
2 Black Wire
3 Red Wire
4 Green Wire
5 Yellow Wire
6 Blue Wire (may not be present)
IMPCABLE
A-5
C O N N E C T I V I T Y
Appendix A: RJ-45 Pin Cables
Configuration
• Configuration of PINS
• RJ-45 CABLE
Straight Cable
1 2 3 4 5 6 7 8
1
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
Cross-Over Cable
1
3
2
6
3
1
4
5
5
4
6
2
7
8
8
7
A-6
C O N N E C T I V I T Y
Appendix B: DIP SWITCH SETTING
MINT-II
• Configuration of dip switches
• MINT-II
• For more information, refer to I.L. 17466
Configuration
This table shows the possible configuration of the MINT-II’s dip switches. On the next page, we can see
the typical configurations for the MINT-II when it is connected to the serial port of a PC or to a DRIVER
(it could be line driver, fiber optic driver, modem, etc.)
1200
2400
9600
19.2K
RS-232
BAUD
INCOM
BAUD
1200
9600
STOP
BITS
2 BITS
1 BIT
MODEM
CONTROL
NO RTS/CTS
RTS/CTS USED
ACK/NACK
BYTE
NOT SENT
SENT
HANDSHAKE
BYTE
SENT
NOT SENT
1
O
N
SW1
SW2
ON
OFF
ON
OFF
ON
ON
OFF
OFF
SW3
SW4
SW5
SW6
SW7
ON
OFF
2
ON
OFF
ON
OFF
ON
OFF
ON
OFF
3
4
5
6
7
8
Dip switches on the front of
MINT-II
Here the dip switches are
shown in closed position
Dip switch 8 not used
B-1
C O N N E C T I V I T Y
Appendix B: DIP SWITCH SETTING
MINT-II
Configuration
• Typical Configuration
• MINT-II
• For more information, refer to I.L. 17466
Configuration of a MINT-II connected to a PC
1
2
3
4
5
6
7
8
O
N
MINT-II connected to a PC’s serial port (as DATA TERMINAL EQUIPMENT, DTE)
RS-232 BAUD = 9600, INCOM = BAUD 9600 (all INCOM devices must be set at the same
BAUD rate), no RTS/CTS (Request To Send/Clear To Send), no HAND SHAKE
N, 8, 1, No Ack / Nack.
Configuration of a MINT-II connected to LINE DRIVER, FIBER OPTIC DRIVER, or MODEM
1
2
3
4
5
6
7
8
O
N
MINT-II connected to a MODEM or DRIVER (as DATA COMMUNICATION EQUIPMENT, DCE)
RS-232 BAUD = 9600, INCOM = BAUD 9600 (all INCOM devices must be set at the same
BAUD rate), RTS/CTS (Request To Send/Clear To Send), no HAND SHAKE
N, 8, 1, No Ack / Nack.
Note: the use of RTS/CTS handshaking is optional for 4-wire point-to-point (non-multipoint)
applications. For point-to-point applications, it is acceptable to set DIP switch 5 ON. Make sure
that the modem/line driver is set to “constant transmit carrier”, not “switched carrier” using RTS.
B-2
C O N N E C T I V I T Y
Appendix B: DIP SWITCH SETTING
CONI-III
Configuration
• Typical Configuration.
• CONI-III for SERIES-III
• For more information, refer to I.L. 17551
NOTE: SWITCH 1 ON THE RIGHT (4 Dip Switches)
SWITCH 3 ON THE LEFT
Configuration of a CONI-III install in a PC
SWITCH 3
ADDRESS
300
HEXADECIMAL
200
Hex
100
Hex
080
Hex
040
Hex
020
Hex
010
Hex
1
2
3
4
5
6
O
N
For other addresses refer to I.L. 17551A
SWITCH 2
INTERRUPT
SELECTION
NUM. 5
IRQ 3
IRQ4
IRQ5
IRQ7
IRQ9
2
3
4
5
O
N
1
SWITCH 1
MODE 1
BAUD 9600
and
MASTER
NOT
USED
6
MODE
2
1200
BAUD
SLAVE
NOT
USED
MODE
1
9600
BAUD
MASTER NOT
USED
1
2
O
N
3
Note: Mode 1 must be used
with Series III. Either Mode
1 or Mode 2 can be used
with PowerNet. Mode 2
uses a faster “block” mode
this is usually desirable.
Refer to your PowerNet
documentation for more info.
4
B-3
C O N N E C T I V I T Y
Appendix B: DIP SWITCH SETTING
CONI-III
Configuration
• Typical Configuration.
• CONI-III for PowerNet
• For more information, refer to I.L. 17551
NOTE: SWITCH 1 ON THE RIGHT (4 Dip Switches)
SWITCH 3 ON THE LEFT
Configuration of a CONI-III install in a PC
SWITCH 3
ADDRESS
300
HEXADECIMAL
200
Hex
100
Hex
080
Hex
040
Hex
020
Hex
010
Hex
1
2
3
4
5
6
O
N
For other addresses refer to I.L. 17551A
SWITCH 2
INTERRUPT
SELECTION
NUM. 5
IRQ 3
IRQ4
IRQ5
IRQ7
IRQ9
2
3
4
5
O
N
1
SWITCH 1
MODE 2
BAUD 9600
and
MASTER
NOT
USED
6
MODE
2
1200
BAUD
SLAVE
NOT
USED
MODE
1
9600
BAUD
MASTER NOT
USED
1
2
O
N
3
Note: Mode 1 must be used
with Series III. Either Mode
1 or Mode 2 can be used
with PowerNet. Mode 2
uses a faster “block” mode
this is usually desirable.
Refer to your PowerNet
documentation for more info.
4
B-4
C O N N E C T I V I T Y
Appendix C: Modem/Line Driver Configuration
Configuration
• Later
B-5
C O N N E C T I V I T Y
Index of
Companies
Company
Product
Page
Allen-Bradley
Data Highway, Data Highway Plus
PLC 5, PLC 3, PLC 2
PowerMonitor 1400
6-1
5-3, 5-9, 5-16
Bailey Controls
Network 90
5-2, 5-9, 5-14, 6-1
Fisher-Provox
Provox/RM1
5-2, 5-31
Foxboro
I/A Series
5-2, 5-9, 5-15
GE
Power Leader
4-1
GE Fanuc
Genius, CCM2, Series 90
90/70 PLC
6-1
5-3, 5-9, 5-18
Honeywell
Deltanet Graphic Central
TDC 3000, TDC 2000,
Series 9000 Loop and Logic Controller
5-1, 5-9, 5-10
6-1
6-1
Intellusion
Fix D-MACS
5-34
ILEX Systems
ILEX Management System
5-1, 5-9, 5-11
Johnson Controls
Metasys
5-1, 5-9, 5-12
Landis & Gyr Powers
System 600
5-1, 5-9, 5-13
Modicon
Modbus, Modbus Plus
6-1
Power Measurements Ltd
Pegasys
3710, 3720
5-37
Siebe Environmental Controls
Ultivist Software
5-1, 5-29
Siemens
Sieserve, WinPM
H1, 3964R
100U,115U Series PLCs
4700 Digital Power Meter
4-1
6-1
5-3, 5-21, 5-24
Square D
System Manager
SY/LINK, SY/MAX, SY/NET
SY/MAX PLCs
4-1
6-1
5-3, 5-9, 5-19
TI
TIWAY
6-1
Westinghouse PLC
50, 500, 2000 Series
H1, 3964R, L1, Numalogic
5-3, 5-21, 5-24
6-1
Westinghouse WDPF
WDPF
5-2, 5-21, 5-22
For further information contact the Power Management Application Support (APSC) at 1-800-809-2772 (USA and Canada) or 412-490-6814. For
referenced documents (IL’s, TD’s, Application Notes) contact APSC or dial FRED (Fax Retrieval of Engineering Documents) at 412-494-3745.
C O N N E C T I V I T Y
Glossary
Addressable Relay II
A digital input/output device that monitors through status inputs and controls through a Form C contact
output.
Advantage
A line of NEMA starters and contactors that are able to communicate information on the INCOM network.
AEM II (Assemblies Electronic Monitor II)
A device that displays the information from up to 40 Digitrip devices.
Baud
A measurement of digital communications speed. Baud refers to the number of signal line transitions per
second. Baud is not the same as bits per second, but common usage makes it so.
BIM (Breaker Interface Module)
A device that displays the information of up to 50 circuit breakers equipped with Digitrip RMS 810/910,
OPTIM trip units, and/or Energy Sentinels or Universal Energy Sentinels. The BIM is also used to
program and test OPTIM trip units.
Building Management System
A system that monitors and controls a building’s environmental control (HVAC - Heating, Ventilating, Air
Conditioning), energy management, maintenance management, lighting control, and fire management.
CED (Central Energy Display)
A device that displays energy and power information from up to 50 IQ Energy Sentinels and IQ Data Plus
II's.
CONI (Computer Operated Network Interface)
A card that mounts in the expansion slot of an IBM or IBM-compatible AT-type bus computer. The card
contains the INCOM chip, allowing communications with INCOM device.
CMU (Central Monitoring Unit)
A device that displays information from up to 99 Advantage starters, contactors, or IQ 500s.
CSV (Comma Separated Variable)
Data file format where entries are separated by commas, CSV files are used in spreadsheet applications
(e.g. Microsoft Excel, Lotus 1-2-3).
Daisy-Chain
A data communications topology where devices are connected one after another. Other topologies
include “ring” and “star”.
DDE ( Dynamic Data Exchange)
A standard Microsoft and IBM communication protocol, DDE allows programs to easily and freely
exchange data with one another. DDE is the communications standard that allows Microsoft Windows
applications to communicate easily.
Digiboard
A card installed in the computer which allows for up to eight serial connections. (Series III can support two
Digiboards.)
For further information contact the Power Management Application Support (APSC) at 1-800-809-2772 (USA and Canada) or 412-490-6814. For
referenced documents (IL’s, TD’s, Application Notes) contact APSC or dial FRED (Fax Retrieval of Engineering Documents) at 412-494-3745.
C O N N E C T I V I T Y
Digitrip RMS
Solid-state, low voltage, circuit breaker trip unit for use in types DS, DSL, SPB, and Series C R-Frame
Circuit Beakers. Provides circuit protection, information, integral testing, and energy monitoring functions.
Digitrip RMS’s communicate directly with INCOM and can also be networked through an AEM II or BIM.
Digitrip OPTIM
Solid-state, low voltage, circuit breaker trip unit for use in types DS, SPB, and Series C Circuit Beakers.
Provides circuit protection, information, integral testing, and energy monitoring functions. Digitrip OPTIM’s
communicate directly with INCOM and can also be networked through a BIM.
Digitrip MV
Solid-state circuit breaker overcurrent relay. Provides selectable circuit protection, information, operator
conducted testing, and remote communications capability with INCOM.
Distributed Control System (DCS)
An integrated system that provides process control and data acquisition functions. Used extensively by all
continuous process industries including pulp and paper, petrochemical, waste-water, and power generation.
Driver
A software program that establishes a communications link between two microprocessor based device.
Enhanced Graphics
An IBM personal computer based graphics package, used in conjunction with Series III, that provides
supervisory control, monitoring, and data acquisition.
Gateway Interface
A selectable option in Series III that allows INCOM information to be passed through the computer serial port
into another computer, PLC, or system. The information (protocol) sent is identical to that of the MINT II
(see MINT II).
INCOM (Industrial Communications)
Refers to the protocol used on the INCOM network.
IMPACC
Integrated Monitoring Protection and Control Communications. Refers to the Cutler-Hammer
communications network for electrical distribution systems.
IQ 500
A solid-state overload relay that provides current based overload protection for a motor.
IQ 1000 II
A solid-state motor protective relay that provides current and temperature protection and monitoring for a
motor.
IQ Analyzer
A solid state premier power quality meter. Performs all the metering functions of the IQ Data Plus II as well
providing extensive power quality information, waveform analysis, detailed information on trends, recorded
events/alarms, harmonic distortion, and peak demands of current and power.
IQ Data
A solid-state metering device that monitors voltage and current.
For further information contact the Power Management Application Support (APSC) at 1-800-809-2772 (USA and Canada) or 412-490-6814. For
referenced documents (IL’s, TD’s, Application Notes) contact APSC or dial FRED (Fax Retrieval of Engineering Documents) at 412-494-3745.
C O N N E C T I V I T Y
IQ Data Plus II
A solid-state metering device that monitors current, voltage, watts, vars, power factor, demand watts,
frequency, and watt-hours.
IQ Energy Sentinel
A breaker mounted, solid-state metering device that monitors watts, watt-hours, and peak demand for Series C
Breakers.
IQ Generator
A solid-state metering device that monitors voltage, current and frequency.
IQ Universal Energy Sentinel
A DIN rail or panel-mounted, solid state metering device that monitors watts, watt-hours, and peak demand
where Series C breakers are not used.
MINT (Master INCOM Network Translator)
A device that translates the 33 bit INCOM signal into a 10-bit ASCII message. There are two ports on the
MINT II, an INCOM port and an RS232 port. This allows for RS 232 communications to a computer,
programmable controller, or other system.
Modbus
A communications protocol that stipulates how data is transmitted across a serial bus. Modbus is commonly
used for industrial communications and distributed control systems.
Modbus Gateway
A device that translates the INCOM signal to Modbus protocol and communicates it over RS 232 transmission
media. The gateway can either be a stand alone unit or a computer with Series III and Modbus Software. The
latter is done by using the computer’s serial port as a Gateway Interface.
Protocol
Communications term referring to the format in which data messages are transmitted.
PONI (Product Operated Network Interface)
A communications module that attaches to an INCOM compatible device and allows the device to
communicate to the system master.
Programmable Logic Controller (PLC)
A solid state device used to control, monitor, and regulate industrial machines and processes.
RS 232 / RS 485 / RS 422
Various communication standards referencing how information is sent between microprocessor controlled
devices.
RS232 PONI (Product Operated Network Interface)
A communications module that attaches to an INCOM compatible device. The RS 232 PONI allows the device
to communicate with a system master using a 10 byte ASCII RS232 signal. The RS 232 PONI is used on
networks where only one device (or AEM II, CMU, CED) is required.
Series III
A complete monitoring and control software package for the INCOM network. Series III is Microsoft Windows
based and runs on a personal computer.
For further information contact the Power Management Application Support (APSC) at 1-800-809-2772 (USA and Canada) or 412490-6814. For referenced documents (IL’s, TD’s, Application Notes) contact APSC or dial FRED (Fax Retrieval of Engineering
Documents) at 412-494-3745.
Revision History
6/5/00
4/14/00
3/17/00
2/14/00
11/2/99
9/8/99
7/26/99
7/7/99
6/22/99
5/10/99
5/3/99
3/31/99
3/4/99
3/4/99
3/1/99
(DGL) Pages 4-1, 4-7 Beckwith Relay information added.
(DGL) Pages 5-1, 5-38 ASI Controls information added
(DGL) Pages 4-4, 4-5 corrections
(DGL) Pages 5-4, 5-5 added information on Modbus Plus
(DGL) Page 4-4 Profibus interface info added
(DGL) Page 4-5 added Square D interface information
(DGL) Page 4-4 Included informaiton on Siemens SEABus and Static Trip III trip units
(DGL) Page 5-16 Changed C&I to Real Time Automation. Included the SLC5 driver to INCOM.
(DGL) Page 4-2 added info on GE Waveform Client software
(DGL) Pages 1-2,-5,-8, 2-7,-9,-11,-13,-16, 3-19,-23,-28,-33, 4-4, 5-7,-32 -35, 6.3 increased recommended PowerNet free storage
requirement from 100 MB free HD to 500 MB free HD, required RAM from 32 MB to 64, recommended RAM from 64 MB to 128
Pages 2-1,-2,-3,-13 updated with additional information regarding radio modems
(DGL) Pages 2-10, 3-12 updated catalog numbers replaced old dial-up modems with V.Everything modems
(DGL) Page 67 updated information on COMNET distances, number of nodes per segment
(DGL) Page 5-37 (106) Power Measurements Limited (PML) Pegasys information added.
(DGL) Changed 1-3, 2-12, 3-14 info regarding radio modems (must use 4/99 MINT firmware and PowerNet (not S3)
(DGL) Added catalog number information for Phoenix surge protection equipment
(DGL) Added information on surge protection of INCOM line.
(DGL) Page B-4 (Appendix C) added.
(DGL) Page 67 (GE device interfacing) added catalog numbers for Modbus Concentrator and GE EMP that supports Modbus
(DGL) Added final page showing revision history