Download Metasys Integrator Cutler-Hammer Application

Application Note
Issue Date May 25, 2004
APPLICATION NOTE
Metasys Integrator® Cutler-Hammer® Application
Introduction
3
Application Details
3
Component Requirements
9
Vendor Contact Information
11
Design Considerations
11
Cable Connections
13
Cable Pinouts
13
Connecting the Cable
13
Metasys Integrator Unit Setup
15
Point Mapping Tables
17
IQ 1000 II
17
IQ Data Plus II
19
IQ Data Plus 4000
20
Advantage
21
Advantage Control Module (ACM)
22
IQ Energy Sentinel
23
IQ Generator or Data
23
AEM II/CMU
24
Digitrip II
25
IQ Analyzer
26
Digitrip MV
30
Digitrip RMS 810
31
Digitrip 3000
32
© 2004 Johnson Controls, Inc.
Code No. LIT-6295245
1
www.johnsoncontrols.com
2
Metasys Network Setup
33
Mapping to a CS Object
33
Custom Integration
34
Metasys Integrator—Metasys Integrator Cutler-Hammer Application
Introduction
This document explains Metasys Integrator® Cutler-Hammer®
application. Use this document with the Metasys Integrator unit technical
bulletins, which provide information on installing and commissioning the
Metasys Integrator unit. For information on Cutler-Hammer equipment,
see Cutler-Hammer documentation (obtainable from a Cutler-Hammer
representative).
Note: If you use a Universal Packaging Module (UPM) enclosure, you
must install the Metasys Integrator unit 300 Series in a two high
enclosure (EN-EWC25-0) rather than a one high enclosure
(EN-EWC13-0) as shown in the figures in this application note.
Application
Details
The Metasys Integrator unit allows Cutler-Hammer equipment to become
an integral part of the Metasys® and Metasys Companion™ Networks.
Once Cutler-Hammer Integrated, Monitoring, Protection, and Control
Communications (IMPACC™) devices are connected to the Metasys or
Companion Network via the Metasys Integrator unit, their data is
available to the full complement of Metasys Building Automation System
(BAS) features, including Change-of-State (COS) monitoring, alarm
notification, trend, and totalization. The Metasys Integrator unit allows
status information and commands to be transmitted between the IMPACC
devices and the Metasys or Companion Network.
Cutler-Hammer IMPACC devices may interface with non-Cutler-Hammer
devices (such as the Metasys Integrator unit) in three ways: through a
Cutler-Hammer Master INCOM Network Translator II (MINT II), through
a Personal Computer (PC) running Cutler-Hammer Series III software
equipped with Cutler-Hammer MINT II, or through a PC equipped with a
Cutler-Hammer Computer Operated Network Interface (CONI) Expansion
Card and Series III software.
The Metasys Integrator unit supports a direct connection to the following
Cutler-Hammer applications:
•
IQ 1000 II™
•
IQ Data Plus II™
•
IQ Data Plus 4000
•
Advantage™
•
Advantage Control Module (ACM)
•
IQ Energy Sentinel™
Metasys Integrator—Metasys Integrator Cutler-Hammer Application
3
•
IQ Generator or Data™
•
Assemblies Electronic Monitor (AEM) II with subnetwork devices
•
Digitrip II
•
IQ Analyzer
•
Central Monitoring Unit (CMU) with subnetwork devices
•
Digitrip MV
•
Digitrip 810
•
Digitrip 3000
The AEM II subnetwork devices that are supported are:
•
Digitrip II
•
IQ Data Plus II
Note: As a subnetwork, the AEM II can monitor and display up to
40 breakers equipped with Digitrip II RMS 700 or Digitrip II RMS
800 trip units, and up to 8 Data Plus II devices.
The CMU subnetwork devices that are supported are:
•
Advantage
•
ACM
Note: As a subnetwork, the CMU monitors and displays data for up to
99 Advantage starters.
Each Metasys Integrator vendor port can connect to one MINT II.
Each MINT II can connect to up to 1000 Cutler-Hammer controllers.
(However, the Metasys Integrator system has a 255 device limit and is
subject to overall N2 point data size limitations. See the Metasys
Integrator unit technical bulletins for more information.
Figure 1 shows Cutler-Hammer and Metasys Integrator unit integration
when using the MINT II. Figure 2 shows Cutler-Hammer and Metasys
Companion integration when using the MINT II. Figure 3 shows
Cutler-Hammer Series III and Metasys Integrator unit integration when
using a CONI card. Figure 4 shows Cutler-Hammer Series III and Metasys
Integrator unit integration when using the MINT II.
4
Metasys Integrator—Metasys Integrator Cutler-Hammer Application
N1 LAN
RS-232
Metasys
Integrator Unit
Master INCOM
Network
Translator
(MINT II)
Standard NCU
(Network Control
Unit)
IQ
Generator
or
Data
IQ
Energy
Sentinel
IQ
Data
Plus II
IQ
Data Plus
4000
CMU
Digitrip
MV
Digitrip
810
Digitrip
3000
Advantage
Starter
Advantage
Control
Module
Subnetwork
Note:
IQ
1000 II
Advantage
ACM
AEM
II
II
Digitrip
II
IQ Data
Plus II
Subnetwork
westing1
UNT
(Unitary
Controller) N2 Bus
If you use a UPM enclosure, you must install the Metasys Integrator unit 300 Series in a two high
enclosure (EN-EWC25-0) rather than a one high enclosure (EN-EWC13-0) as shown in the figures
in this application note.
Figure 1: Cutler-Hammer and Metasys System Integration via MINT II
Metasys Integrator—Metasys Integrator Cutler-Hammer Application
5
Panel Unit
Workstation
RS-232
Master INCOM
Network
Translator
(MINT 11)
Metasys
Integrator Unit
N2 Bus
IQ
Generator
or
Data
IQ
Energy
Sentinel
IQ
Data
Plus II
IQ
Data Plus
4000
IQ
1000 II
Advantage
CMU
Digitrip
MV
Digitrip
810
Digitrip
3000
AEM
II
ACM
Advantage
Starter
Advantage
Control
Module
Subnetwork
Digitrip
II
IQ Data
Plus II
Subnetwork
Note: A PC version and converter may be substituted for the Panel unit.
Note:
westcomp
UNT
If you use a UPM enclosure, you must install the Metasys Integrator unit 300 Series in a
two high enclosure (EN-EWC25-0) rather than a one high enclosure (EN-EWC13-0) as shown
in the figures in this application note.
Figure 2: Cutler-Hammer and Metasys Companion Integration
via MINT II
The data from Cutler-Hammer equipment may be graphically analyzed by
installing Cutler-Hammer Series III software on a PC, which is equipped
with a Cutler-Hammer Computer Operated Network Interface (CONI)
Expansion Card or MINT II. The CONI card is connected to IQ Analyzers
(or other IMPACC compliant devices) via twisted pair cable. Each
Metasys Integrator vendor port can then connect an available serial port
(COM1 or COM2) at the PC. See Figure 3 and Figure 4.
6
Metasys Integrator—Metasys Integrator Cutler-Hammer Application
N1 LAN
PC with CONI Card
Running Series III
Software
Standard NCU
RS-232 to
COM1 or
COM2
Twisted Pair*
from CONI
Metasys
Integrator Unit
N2 Bus
IQ
Generator
or
Data
IQ
Energy
Sentinel
IQ
Data
Plus II
IQ
Data Plus
4000
IQ
1000 II
Advantage
CMU
Digitrip
MV
Digitrip
810
Digitrip
3000
AEM
II
II
ACM
Advantage
Starter
Advantage
Control
Module
Subnetwork
Note:
Digitrip
II
IQ Data
Plus II
Subnetwork
*7,500 ft Maximum
sys3CONI
UNT
If you use a UPM enclosure, you must install the Metasys Integrator unit 300 Series in a two high
enclosure (EN-EWC25-0) rather than a one high enclosure (EN-EWC13-0) as shown in the figures
in this application note.
Figure 3: Cutler-Hammer Series III and Metasys System Integration
via CONI Card
Metasys Integrator—Metasys Integrator Cutler-Hammer Application
7
N1 LAN
PC Running
Series III Software
Standard NCU
RS-232 to
COM1 or
COM2
RS-232 to
COM1 or
COM2
MINT II
UNT
IQ
Energy
Sentinel
IQ
Data
Plus II
IQ
Data Plus
4000
CMU
Digitrip
MV
Digitrip
810
Digitrip
3000
Advantage
Starter
Advantage
Control
Module
Subnetwork
Note:
IQ
1000 II
Digitrip
II
Advantage
AEM
II
IQ Data
Plus II
Subnetwork
If you use a UPM enclosure, you must install the Metasys Integrator unit 300 Series in a two high
enclosure (EN-EWC25-0) rather than a one high enclosure (EN-EWC13-0) as shown in the figures
in this application note.
Figure 4: Cutler-Hammer Series III and Metasys System Integration
via MINT II
8
Metasys Integrator—Metasys Integrator Cutler-Hammer Application
MINT
N2 Bus
IQ
Generator
or
Data
Component
Requirements
MINT II
Series III
To integrate Cutler-Hammer equipment using the MINT II, you need the
following components:
•
properly installed Cutler-Hammer Master INCOM Network Translator
(MINT II) and Cutler-Hammer IMPACC devices
•
RS-232 cable (for connecting MINT II to the Metasys Integrator unit)
•
Metasys Integrator unit
•
N2 Bus (for connecting Metasys Integrator unit to the Metasys or
Companion Network)
•
portable PC for downloading vendor communication tables
(.VCT files) and network setup information into the Metasys
Integrator controller, and for running diagnostics
•
cable for connecting portable PC to Metasys Integrator controller
•
the correct vendor communication table (.VCT file) to download into
Metasys Integrator controller (supplied on Metasys Integrator CD-ROM)
To integrate Cutler-Hammer equipment using a PC running the Series III
software, you need the following components:
•
Pentium® PC with properly installed Cutler-Hammer CONI expansion
card or MINT II
•
properly installed Cutler-Hammer IMPACC devices to the PC running
Cutler-Hammer Series III software
•
RS-232 cable (for connecting the PC COM1 port to the Metasys
Integrator unit)
•
Metasys Integrator unit
•
N2 Bus (for connecting Metasys Integrator unit to the Metasys or
Companion Network)
•
portable PC for downloading vendor communication tables
(.VCT files) and network setup information into the Metasys
Integrator unit, and for running diagnostics
•
cable for connecting portable PC to the Metasys Integrator unit
•
the correct vendor communication table (.VCT file) to download into
the Metasys Integrator unit (supplied on Metasys Integrator CD-ROM)
This document describes the RS-232 cable and the vendor communication
tables. Cutler-Hammer documentation describes their equipment. The
remaining components are described in the Metasys Integrator unit
technical bulletins.
Metasys Integrator—Metasys Integrator Cutler-Hammer Application
9
Metasys Network
Release
Requirements
Metasys
Companion
Release
Requirements
Vendor
Component
Requirements
To integrate Cutler-Hammer equipment into the Metasys Network, you
need:
•
Metasys Operator Workstation (OWS) software Release 4.0 or later
•
Metasys Integrator unit firmware Release 9.0 or later
•
Metasys Integrator unit software Release 9.3 or later
To integrate Cutler-Hammer equipment into the Metasys Companion
Network, you need:
•
Metasys Companion Release 4.0 or later
•
Metasys Integrator unit firmware Release 9.0 or later
•
Metasys Integrator unit software Release 9.3 or later
Integration between the Metasys Integrator unit and Cutler-Hammer has
been tested with the equipment listed in Table 1. Changes to this
equipment or integration of Cutler-Hammer products not discussed in this
document require additional software development and testing by
Systems Products. For information on integrating other products, refer to
the Custom Integration section in this document.
Table 1: Cutler-Hammer Part and Software Version Numbers
Cutler-Hammer
Product
Style Number
Software
Version Number
MINT II
MINTII
6.50
IQ 1000 II
IQ1000II
E6
IQ Data Plus II
IQDPII
7.1
IQ Data Plus 4000
IQDP 4000
Advantage
WPONI
V16
Advantage Control
Module (ACM)
Product ID 35, 36, 37, 38, 39
4.30
IQ Energy Sentinel
IQESF208
IQESF480
IQESJ208
IQESJ480
IQESK208
IQESK480
(F Frame, 120/208 VAC)
(F Frame, 277/480 VAC)
(J Frame, 120/208 VAC)
(J Frame, 277/480 VAC)
(K Frame, 120/208 VAC)
(K Frame, 277/480 VAC)
IQ Generator or Data
IQDATA
IQGEN
(IQ Data)
(IQ Generator)
Assemblies Electronic
Monitor II
2D78548G01
Series III
S320, S3200, S31000
CONI Card
5275C78601
N/A
IQ Analyzer
IQA 6010 or IQA 6210
1.12
Continued on next page . . .
10
Metasys Integrator—Metasys Integrator Cutler-Hammer Application
6.5
Vendor Contact
Information
Cutler-Hammer
Product (Cont.)
Style Number
Software
Version Number
Digitrip II
Any Digitrip from the Cutler-Hammer
Low Voltage Digitrip RMS 700 or 800
Family
Digitrip MV
3D86762G01
3.0
Digitrip 810
7829C08G06
3.0
Digitrip 3000
Product ID 3
4.0
CMU
Product ID 29
4.0 or greater
Eaton Electrical, Inc./Cutler-Hammer
Advanced Products Support Center
Phone: 800-809-2772
www.eatonelectrical.com
Design
Considerations
When integrating Cutler-Hammer equipment, keep the following
considerations in mind:
•
Make sure all Cutler-Hammer equipment is set up and running
properly before attempting to integrate with the Metasys or
Companion Network. (The Cutler-Hammer representative is
responsible for operation of MINT II controllers, Series III, and
CONI card.)
•
Make sure the MINT II baud rate is set to 9600 baud.
(The Cutler-Hammer representative is responsible for setting the
MINT II baud rate.)
•
Set the DIP switches on the MINT II to the settings listed below.
For more detailed information, refer to Instructions for Master
Network Translator II (I.L. 17466 Model B) available from your
Cutler-Hammer representative.
•
On the WPONI attached to the Advantage Control Module, make sure
the address on rotary dial A-1 is not set to A through F. This will
disable the communications watchdog timer. The Cutler-Hammer
representative is responsible for setting the address.
Metasys Integrator—Metasys Integrator Cutler-Hammer Application
11
Table 2: DIP Switch Settings for the MINT II
Setting
RS-232 Baud (9600)
INCOM Baud (9600)
SW
1
SW
2
on
off
SW
3
SW
4
SW
5
SW
6
SW
7
off
Stop Bits (2 Bits)
on
Modem Control (No RTS/CTS)
Ack/Nack Byte (Sent)
on
off
Handshake Byte (Not Sent)
•
RS-232 cable distance between the Metasys Integrator unit and the
MINT II can be a maximum of 50 feet.
•
Cable distance between the MINT II and the last controller can be a
maximum of 7500 feet.
•
The MINT II is also used in the Ingersoll-Rand® application.
Ingersoll-Rand and Cutler-Hammer are in the same vendor family
(meaning you can have both applications on the same Metasys
Integrator vendor trunk and vendor port).
•
When integrating Cutler-Hammer equipment through the Series III,
configure Series III to function COM1 or COM2, whichever is
connected to the Metasys Integrator unit. Configure the Series III as a
gateway (set the proper jumper in the CONI card) with the following
settings for the communications port:
Baud Rate
Stop Bits
Parity
ACK/NACK
Handshake
Word Length
•
12
off
9600
2
None
Sent
No
8
Distance between devices and the master control unit cannot exceed
7500 feet.
Metasys Integrator—Metasys Integrator Cutler-Hammer Application
Cable Connections
Cable Pinouts
Use the cable pinouts in Figure 5 for the RS-232 connection between the
Metasys Integrator unit and the Cutler-Hammer Master INCOM Network
Translator II.
Vendor Port A or B
on Metasys Integrator
RS-232 Port
on MINT II
DB-9 Female
DB-25 Male
Signal
Pin
Pin
Signal
2
3
7
RD
TD
GND
RS-232
TD
RD
GND
3
2
5
(50 ft maximum)
WESTING2
Figure 5: Cable Pinouts on MINT II
Vendor Port A or B
on Metasys Integrator
RS-232 Port
on Series III
DB-9 Female
DB-9 Female
Signal
Pin
DCD
TD
RD
DTR
GND
1
2
3
4
5
Pin
Signal
1
3
2
4
5
DCD
RD
TD
DTR
GND
RS-232
(50 ft maximum)
cblser3
Figure 6: Cable Pinouts on Series III
Connecting the
Cable
Connect the female end of the RS-232 cable to either Vendor Port A or
Vendor Port B on the Metasys Integrator unit. Connect the male end of the
cable to the RS-232 Port on the MINT II.
Master
INCOM
Network
Translator II
Metasys
Integrator
Vendor Port
A or B
RS-232 Cable
RS-232 Port
WESTING3
Figure 7: Port to Port Connection with MINT II
Metasys Integrator—Metasys Integrator Cutler-Hammer Application
13
PC with
CONI Card
Running
Series III
Software
Metasys
Integrator
Vendor Port
A or B
RS-232 Cable
RS-232 Port
Twisted
Pair
Cutler-Hammer
Devices
WESTING4
Figure 8: Port to Port Connection with
Series III Using CONI Card
PC Running
Series III
Software
Metasys
Integrator
Vendor Port
A or B
RS-232 Cable
RS-232 Port
MINT II
RS-232 Cable
RS-232 Port
Twisted
Pair
Cutler-Hammer
Devices
WESTING5
Figure 9: Port to Port Connection with Series III Using MINT II
14
Metasys Integrator—Metasys Integrator Cutler-Hammer Application
Metasys Integrator Unit Setup
To set up the Metasys Integrator unit, use a portable PC connected to the
Metasys Integrator Terminal Port. Metasys Integrator unit setup involves:
•
downloading the correct vendor communication table (.VCT file)
•
setting up the ports
•
assigning network addresses to the controllers
The following table provides information specific to Cutler-Hammer
applications. For detailed procedures, see the Metasys Integrator unit
technical bulletins.
Table 3: Metasys Integrator Unit Setup for Cutler-Hammer
Applications
Vendor Communication Table (.VCT File)
Advantage
iq_adva.vct
Advantage Control Module (ACM)
iq_acm3x.vct
IQ 1000 II
iq_1000.vct
IQ Energy Sentinel
iq_ener.vct
IQ Generator
iq_gene.vct
IQ Data Plus II
iq_data.vct
IQ Data Plus 4000
iq_dp4k.vct
IQ Analyzer
iq_analy.vct
Digitrip 810
iq_dt810.vct
Digitrip 3000
Iq_dt3k.vct
Digitrip MV
iq_dtmv.vct
AEM II
Subnetwork Devices
Digitrip RMS
IQ Data Plus II
iq_aem.vct
CMU
Subnetwork Devices
Advantage
ACM
iq_aem.vct
iq_aemdi.vct
iq_aemdp.vct
iq_cmadv.vct
iq_cmacm.vct
Port Setup
Baud Rate
9600
Word Length
8
Stop Bits
2
Parity
None
Interface
RS-232
Continued on next page . . .
Metasys Integrator—Metasys Integrator Cutler-Hammer Application
15
Network Setup (Cont.)
Vendor Address
Vendor address in the Metasys
Integrator unit is the decimal
equivalent of the hex address set via
the switches on the Cutler-Hammer
equipment.
Example:
When the Cutler-Hammer switch
setting is 017, the vendor address is 23.
IQ 1000 II
0 to 4095
IQ Data Plus II
0 to 4095
IQ Data Plus 4000
0 to 4095
Advantage
0 to 4095
Advantage Control Module* 0 to 4095
IQ Energy Sentinel
0 to 1024
IQ Generator or Data
0 to 4095
AEM II
0 to 4095
IQ Analyzer
0 to 4095
* Do not use hexadecimal A through F as
the last digit of the rotary address of the
WPONI attached to the ACM (or starter
automatically stops if no communication
within 5 seconds).
Vendor Address for Subnetwork
Devices
Subnet vendor address entered in the
Metasys Integrator Network
Configuration Screen is the decimal
equivalent of the hex address set via
the switches on the Cutler-Hammer
equipment.
Example:
When the Cutler-Hammer subnet
switch setting is 41, the vendor subnet
address is 65.
Allowable Values at Digitrip II, IQ Data
Plus II, Advantage, Advantage Starters
Hexadecimal Switches
1-9, 10-19, 20-29, 30-39, 40-49, 50-59,
60-69, 70-79, 80-89, 90-99
Corresponding Decimal Values at the
Metasys Integrator Unit:
1-9, 16-25, 32-41, 48-57, 64-73, 80-89,
96-105, 112-121, 128-137, 144-153
To enter the subnetwork vendor address,
type the AEMII or CMU address, followed
by a comma and the subnetwork device
address. For example: 1024,20
Timeout Value
MINT II
Poll Delay
1500 ms
Series III
with CONI
6000 ms
Series III
with MINT II
6000 ms
55 ms
0
0
Mint II
Series III
Series III
2 seconds
1 second
5 seconds
2 seconds
3 seconds
3 seconds
4 seconds
4 seconds
1 second
1 second
1 second
2 seconds
4 seconds
6 seconds
3 seconds
2 seconds
and CONI
15 seconds
1 second
38 seconds
15 seconds
23 seconds
23 seconds
26 seconds
30 seconds
1 second
1 second
1 second
15 seconds
30 seconds
45 seconds
23 seconds
15 seconds
and MINT II
22 seconds
1 second
55 seconds
22 seconds
33 seconds
33 seconds
37 seconds
44 seconds
1 second
1 second
1 second
22 seconds
44 seconds
66 seconds
33 seconds
22 seconds
Performance Guide
Approximate Scan Time
(For a single N2 address)
Advantage
Advantage Control Module (ACM)
IQ 1000 II
IQ Energy Sentinel
IQ Generator/Data
IQ Data Plus II
IQ Data Plus 4000
IQ Analyzer
Digitrip 810
Digitrip 3000
Digitrip MV
IQ AEM II / CMU
Digitrip II (AEM subnet)
IQ DataPlus II (AEM subnet)
Advantage (CMU subnet)
ACM (CMU subnet)
16
Metasys Integrator—Metasys Integrator Cutler-Hammer Application
Point Mapping Tables
The following tables (one for each application) show the points available
for mapping in the Cutler-Hammer controllers.
IQ 1000 II
Table 4: IQ 1000 II Multifunction Motor Protective Relay
NPT1
To get the hardware
reference for
mapping points to
CS object attributes
(via the software
model), combine
the Network Point
Type (NPT) and
Network Point
Address (NPA). For
example, the
hardware reference
for the Phase C
Current point is AI3.
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
1
2
NPA
Unit
Description
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
Amps
Amps
Amps
Amps
DegC
DegC
DegC
DegC
DegC
DegC
DegC
DegC
DegC
DegC
DegC
Phase A Current
Phase B Current
Phase C Current
Ground Current
Winding Temperature 1
Winding Temperature 2
Winding Temperature 3
Winding Temperature 4
Winding Temperature 5
Winding Temperature 6
Motor Bearing Temperature 1
Motor Bearing Temperature 2
Load Bearing Temperature 1
Load Bearing Temperature 2
Auxiliary Temperature
2
Network Point Type
Network Point Address
Continued on next page . . .
Metasys Integrator—Metasys Integrator Cutler-Hammer Application
17
NPT1
(Cont.)
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
ADF
ADF
ADF
ADF
ADF
ADF
ADF
ADF
ADF
ADF
ADF
ADF
ADF
ADF
ADF
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
1
2
18
NPA
2
Unit
Description
Ready to Start Motor
Motor is Running
Motor Trip Status
Motor Alarm Status
Instantaneous Over Current Trip
I2 T Trip
Phase Unbalance Trip
Ground Fault Trip
Jam Trip
Under Load Trip
Trip Bypass
Remote Trip (via Hardware Input)
Motor Bearing Temperature Trip
Load Bearing Temperature Trip
Winding Temperature Trip
Reverse Sequence Trip
Incomplete Sequence Trip
External Trip (via IMPACC)
Differential Trip on AC Input
Ambient Temperature Trip
Phase Unbalance Alarm
Winding Temperature Alarm
Motor Bearing Temperature Alarm
Load Bearing Temperature Alarm
Jam Alarm
Under Load Alarm
Ambient Temperature Alarm
I2 T Alarm/Trip
Starts per Hour Alarm/Trip
Code
Code
%
Amps
DegC
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
Product ID
Communications Software Version
Operations Count
Run Time
Remaining Starts
Oldest Start Time
Percent I2 T
Highest Phase Current
Highest RTD Temperature
Number I2 T Trips
Number Instantaneous Over Current Trips
Number of Under Load Trips
Number of Jam Trips
Number of Ground Fault Trips
Number of RTD Trips
Network Point Type
Network Point Address
Metasys Integrator—Metasys Integrator Cutler-Hammer Application
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
IQ Data Plus II
To get the hardware
reference for
mapping points to
CS object attributes
(via the software
model), combine
the Network Point
Type (NPT) and
Network Point
Address (NPA). For
example, the
hardware reference
for the Phase C
Current point is AI3.
Table 5: IQ Data Plus II Electrical Monitoring Functions (Direct
Connection or via an AEM II Subnetwork)
NPT1
NPA
Unit
Description
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
1
2
3
4
5
6
7
8
9
10
11
12
13
14
Amps
Amps
Amps
Volt
Volt
Volt
Volt
Volt
Volt
kW
kW
Hz
kVA
Phase A Current
Phase B Current
Phase C Current
Line-to-Line Voltage VAB
Line-to-Line Voltage VBC
Line-to-Line Voltage VCA
Line-to-Neutral Voltage VAN
Line-to-Neutral Voltage VBN
Line-to-Neutral Voltage VCN
Power
Demand
Frequency
Reactive Power
Power Factor
BI
BI
BI
BI
BI
BI
BI
BI
1
2
3
4
5
6
7
8
ADF
ADF
ADF
1
2
3
1
2
2
Trip Flag
Alarm Flag
External Trip
Over Voltage Trip
Under Voltage Trip
Phase Unbalance Trip
Phase Loss Trip
Phase Reversal Trip
Code
Code
kWh
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
Product ID
Communications Software Version
Energy
Network Point Type
Network Point Address
Metasys Integrator—Metasys Integrator Cutler-Hammer Application
19
IQ Data Plus
4000
To get the hardware
reference for
mapping points to
CS object attributes
(via the software
model), combine
the Network Point
Type (NPT) and
Network Point
Address (NPA). For
example, the
hardware reference
for the Phase C
Current point is AI3.
Table 6: IQ Data Plus 4000
NPT1
NPA2
Unit
Description
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
Amps
Amps
Amps
Volt
Volt
Volt
Volt
Volt
Volt
kW
kW
Hz
kVA
Phase A Current
Phase B Current
Phase C Current
Line-to-Line Voltage VAB
Line-to-Line Voltage VBC
Line-to-Line Voltage VCA
Line-to-Neutral Voltage VAN
Line-to-Neutral Voltage VBN
Line-to-Neutral Voltage VCN
Power
Demand
Frequency
Reactive Power
Power Factor
Demand Watts (Window)
Demand VARS (Window)
Demand Volt-Amps (Window)
Peak Demand Watts
Peak Demand VARS
Peak Demand Volt-Amps
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
Trip Flag
Alarm Flag
Loss of Phase Current Trip
Phase Reversal Trip
Phase Unbalance Trip
Loss of Phase Voltage Trip
Under Voltage Trip
Over Voltage Trip
IMPACC Trip
Alarm 1 Active Trip
Loss of Phase Current Alarm
Phase Reversal Alarm
Phase Unbalance Alarm
Loss of Phase Voltage Alarm
Under Voltage Alarm
Over Voltage Alarm
IMPACC Alarm
Alarm 1 Active Alarm
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
BO
BO
BO
1
2
3
Reset Demand Window
Reset Energy Values
Reset Peak Demand
0-no,
0-no,
0-no,
1-yes
1-yes
1-yes
ADF
ADF
ADF
1
2
3
1
2
20
Watts
VARS
VA
Watts
VARS
VA
Code
Code
kWh
Product ID
Communications Software Version
Energy
Network Point Type
Network Point Address
Metasys Integrator—Metasys Integrator Cutler-Hammer Application
Advantage
To get the hardware
reference for
mapping points to
CS object attributes
(via the software
model), combine
the Network Point
Type (NPT) and
Network Point
Address (NPA). For
example, the
hardware reference
for the Phase C
Current point is AI3.
Table 7: Advantage Monitoring Unit for Starter or Contactors
(Direct Connection or via a CMU Subnetwork)
NPT1
NPA
Unit
Description
AI
AI
AI
1
2
3
Amps
Amps
Amps
Phase A Current
Phase B Current
Phase C Current
BI
BI
BI
BI
BI
BI
BI
BI
1
2
3
4
5
6
7
8
ADF
ADF
ADF
1
2
3
Code
Code
Code
4
Volt
ADF
2
Starter Open Status
Starter Closed Status
Starter Tripped Status
Starter Alarmed Status
Overload
Start Signal Present
Remote Reset Present
Local Reset Present
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
Product ID
Communications Software Version
Trip Type # 1 - Overload
2 - Ground Current Trip
3 - Phase Loss Trip
4 - Phase Unbalance Trip
16 - Ground Current exceeds interrupt
capacity
32 - Control Voltage too low -> unit will
open
48 - Control Voltage too low to pick up
64 - Control Voltage too high to pick up
80 - Current too low to close
112 - External Trip (via INCOM)
Line Voltage
1 Network Point Type
2 Network Point Address
Metasys Integrator—Metasys Integrator Cutler-Hammer Application
21
Advantage
Control Module
(ACM)
To get the hardware
reference for
mapping points to
CS object attributes
(via the software
model), combine
the Network Point
Type (NPT) and
Network Point
Address (NPA). For
example, the
hardware reference
for the Phase C
Current point is AI3.
Table 8: Advantage Control Module (ACM)
Product ID 35, 36, 37, 38, 39 (Direct Connection or via a CMU
Subnetwork)
NPT1
NPA2
Unit
Description
AI
AI
AI
1
2
3
Amps
Amps
Amps
Phase A Current
Phase B Current
Phase C Current
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
1
2
3
4
5
6
7
8
9
10
11
12
13
14
AO
1
Code
Send command*: 0,1,2,3,4,5
0-No Effect
1-Stop
2-Start Fast Forward
3-Start Slow Forward3
4-Start Reverse4
5-Reset Trip/Unit
ADF
ADF
ADF
1
2
3
Code
Code
Code
ADF
4
Volt
Product ID
Communications Software Version
Trip Type # 0 - Normal
1 - Overload
2 - Ground Current Trip
3 - Phase Loss Trip
4 - Phase Unbalance Trip
16 - Ground Current exceeds interrupt
capacity
32 - Control Voltage too low -> unit will
open
48 - Control Voltage too Low to pick up
64 - Control Voltage too high to pick up
80 - Current too low to close
112 - External Trip (via INCOM)
Line Voltage
1
2
3
4
*
22
Starter Open
Starter Closed
Starter Tripped
Starter Alarmed
Overload
Start Signal Present
Remote Reset Present
Local Reset Present
Stop
Forward or Fast Forward
Reverse or Slow Forward
Off Mode
Auto Mode
Hand Mode
Network Point Type
Network Point Address
Only for Product ID 37, 38, 39
Only for Product ID 36
Can command only when in Auto mode.
Metasys Integrator—Metasys Integrator Cutler-Hammer Application
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
IQ Energy
Sentinel
To get the hardware
reference for
mapping points to
CS object attributes
(via the software
model), combine
the Network Point
Type (NPT) and
Network Point
Address (NPA). For
example, the
hardware reference
for the Alarm Status
point is BI3.
Table 9: IQ Energy Sentinel Circuit Breaker Monitoring
NPT1
NPA
Unit
Description
AI
1
Watts
Instantaneous Power
BI
BI
BI
BI
BI
BI
1
2
3
4
5
6
ADF
ADF
ADF
ADF
ADF
1
2
3
4
5
1
2
IQ Generator or
Data
To get the hardware
reference for
mapping points to
CS object attributes
(via the software
model), combine
the Network Point
Type (NPT) and
Network Point
Address (NPA). For
example, the
hardware reference
for the Phase C
Current point is AI3.
2
Inactive
Active
Alarm Status
Energy for Phase A is Negative
Energy for Phase B is Negative
Energy for Phase C is Negative
Code
Code
kWh
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
Product ID
Communications Software Version
Energy
5 Minute Average Power Update Counter
5 Minute Average of Power
Network Point Type
Network Point Address
Table 10: IQ Generator or Data Electrical Monitoring Functions
NPT1
NPA
Unit
Description
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
1
2
3
4
5
6
7
8
9
10
Amps
Amps
Amps
Volt
Volt
Volt
Volt
Volt
Volt
Hz
Phase A Current
Phase B Current
Phase C Current
Line-to-Line Voltage VAB
Line-to-Line Voltage VBC
Line-to-Line Voltage VCA
Line-to-Neutral Voltage VAN
Line-to-Neutral Voltage VBN
Line-to-Neutral Voltage VCN
Frequency
ADF
ADF
1
2
Code
Code
Product ID
Communications Software Version
1
2
2
Network Point Type
Network Point Address
Metasys Integrator—Metasys Integrator Cutler-Hammer Application
23
AEM II/CMU
To get the hardware
reference for
mapping points to
CS object attributes
(via the software
model), combine
the Network Point
Type (NPT) and
Network Point
Address (NPA). For
example, the
hardware reference
for the Active point
is BI2.
24
Table 11: Assemblies Electronic Monitor (AEM) II--Monitor
Display Electrical Central Monitoring Unit (CMU)
NPT1
NPA
2
BI
BI
BI
1
2
3
BI
4
ADF
ADF
1
2
1
2
Unit
Description
Inactive (no devices on subnetwork)
Active
Tripped (trip occurred and has not been
acknowledged)
Alarm (Digitrip in high load)
Code
Code
Product ID
Communications Software Version
Network Point Type
Network Point Address
Metasys Integrator—Metasys Integrator Cutler-Hammer Application
0-no,
0-no,
1-yes
1-yes
0-no,
0-no,
1-yes
1-yes
Digitrip II
Digitrip II and IQ Data Plus II are supported on the AEM II subnetwork:
Table 12: Digitrip II as a Subnetwork Device of AEM II
Use Table 12 and
Table 5 to map
points to devices in
the AEM II
subnetwork.
To get the hardware
reference for
mapping points to
CS object attributes
(via the software
model), combine
the Network Point
Type (NPT) and
Network Point
Address (NPA). For
example, the
hardware reference
for the Phase C
Current point is AI3.
NPT1
NPA
Unit
Description
AI
AI
AI
AI
AI
AI
AI
1
2
3
4
5
6
7
Amps
Amps
Amps
Amps
MW
MW
WH
Phase A Current
Phase B Current
Phase C Current
Ground Current (if trip unit has ground fault)
Power
Demand Watts
Energy
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
1
2
3
4
5
6
7
8
9
10
11
12
13
14
Long Delay Trip
Short Delay Trip
Instantaneous Trip
Discriminator Trip
Ground Fault Trip
Breaker Trip
External Trip (via INCOM)
High Load Alarm
Negative Power Reading
Override Trip
Hertz Flag
Long Delay Protection in Progress
Ground Test Initiated
Status of Breaker
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-60,
0-no,
0-no,
0-closed,
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-50
1-yes
1-yes
1-open
BI
BI
BI
BI
15
16
17
18
Plug Trip
Inactive
Active
Tripped (trip occurred and has
not been acknowledged)
Alarm (Digitrip in High Load)
0-no,
0-no,
0-no,
1-yes
1-yes
1-yes
0-no,
0-no,
1-yes
1-yes
2
BI
19
ADF
ADF
ADF
1
2
3
1
2
Code
Code
kWh
Product ID
Communications Software Version
Accumulated Energy AEM II
Network Point Type
Network Point Address
Metasys Integrator—Metasys Integrator Cutler-Hammer Application
25
IQ Analyzer
To get the hardware
reference for
mapping points to
CS object attributes
(via the software
model), combine
the Network Point
Type (NPT) and
Network Point
Address (NPA). For
example, the
hardware reference
for the Phase C
Current point is AI3.
Table 13: IQ Analyzer Electrical Monitoring Functions
NPT1
NPA2
Unit
Description
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
Amps
Amps
Amps
Amps
Amps
Volt
Volt
Volt
Volt
Volt
Volt
Volt
Volt
Volt
kW
kVAR
kVA
#
#
Hz
kW
kW
kW
kW
kW
Phase A Current
Phase B Current
Phase C Current
Ground Current
Average Phase Current
Line-to-Line Voltage VAB
Line-to-Line Voltage VBC
Line-to-Line Voltage VCA
Average Line-to-Line Voltage
Line-to-Neutral Voltage VAN
Line-to-Neutral Voltage VBN
Line-to-Neutral Voltage VCN
Average Line-to-Neutral Voltage
Neutral-to-Ground
Real Power 3-phase
Reactive Power 3-phase
Volt-Amperes 3-phase
pf Displacement 3-phase
pf Apparent 3-phase
Frequency
Real Power Phase A
Real Power Phase B
Real Power Phase C
Reactive Power Phase A
Reactive Power Phase B
1
2
Network Point Type
Network Point Address
Continued on next page . . .
26
Metasys Integrator—Metasys Integrator Cutler-Hammer Application
NPT1
NPA2
(Cont.)
Unit
Description
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
AI
kW
kVA
kVA
kVA
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
Amps
Amps
Amps
Amps
Amps
Amps
Amps
Amps
kW
kVAR
kVA
kW
kVAR
kVA
Reactive Power Phase C
Volt-Amperes Phase A
Volt-Amperes Phase B
Volt-Amperes Phase C
pf Displacement Phase A
pf Displacement Phase B
pf Displacement Phase C
pf Apparent Phase A
pf Apparent Phase B
pf Apparent Phase C
% Total Harmonic Distortion Phase A Current
% Total Harmonic Distortion Phase B Current
% Total Harmonic Distortion Phase C Current
% Total Harmonic Distortion Neutral Current
% Total Harmonic Distortion Phase A-B Voltage
% Total Harmonic Distortion Phase B-C Voltage
% Total Harmonic Distortion Phase C-A Voltage
% Total Harmonic Distortion Phase A-N Voltage
% Total Harmonic Distortion Phase B-N Voltage
% Total Harmonic Distortion Phase C-N Voltage
Average (Window) 3-phase Average
Peak 3-phase Average
Average (Window) Phase A Current
Average (Window) Phase A Current
Average (Window) Phase A Current
Peak Phase A Average
Peak Phase B Average
Peak Phase C Average
Average (Window) Real Power
Average (Window) Reactive Power
Average (Window) Volt-Amperes
Peak Real Power
Peak Reactive Power
Peak Volt-Amperes
1
2
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
Network Point Type
Network Point Address
Continued on next page . . .
Metasys Integrator—Metasys Integrator Cutler-Hammer Application
27
NPT1
NPA2
(Cont.)
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
ADF
ADF
ADF
ADF
ADF
1
2
3
4
5
1
2
Unit
Description
Program Mode
Normal
In Alarm and Program Mode
Alarm
Relay Output 1 Status
Relay Output 2 Status
Relay Output 3 Status
Relay Output 4 Status
Digital Input 1 Active
Digital Input 2 Active
Digital Input 3 Active
Digital Output 1 Closed
Digital Output 2 Closed
Digital Output 3 Closed
Digital Output 4 Closed
Internal Register Failure
Multiplication Failure
Division Failure
Logic Failure
Addition or Subtraction Failure
Internal RAM Failure
External RAM Failure
External ROM Failure
EPROM Failure
Neutral to Ground Overvoltage Alarm
Event Trigger 1 Lock Active
Event Trigger 2 Lock Active
Event Trigger 3 Lock Active
Event Trigger 4 Lock Active
Event Trigger 5 Lock Active
Event Trigger 6 Lock Active
Event Trigger 7 Lock Active
Excessive Floating Voltage Warning
Synch Internal Overflow Warning
Reverse Phase Sequence Relay
code
code
code
kWh
MWh
Product ID
Communications Software Version
Engineering Unit for ADF04-31 (3-Kilo, 6-Mega)
Forward Energy (kWh)
Forward Energy (MWh)
Network Point Type
Network Point Address
Continued on next page . . .
28
0-no,
0-no,
0-no,
0-no,
0-open,
0-open,
0-open,
0-open,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
Metasys Integrator—Metasys Integrator Cutler-Hammer Application
1-yes
1-yes
1-yes
1-yes
1-closed
1-closed
1-closed
1-closed
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
NPT1
NPA2
(Cont.)
Unit
Description
ADF
ADF
ADF
ADF
ADF
ADF
ADF
ADF
ADF
ADF
ADF
ADF
ADF
ADF
ADF
ADF
ADF
ADF
ADF
ADF
ADF
ADF
ADF
ADF
ADF
ADF
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
GWh
TWh
kWh
MWh
GWh
TWh
kWh
MWh
GWh
TWh
kVARh
MVARh
GVARh
TVARh
kVARh
MVARh
GVARh
TVARh
kVARh
MVARh
GVARh
TVARh
kVAh
MVAh
GVAh
TVAh
Forward Energy (GWh)
Forward Energy (TWh)
Reverse Energy (kWh)
Reverse Energy (MWh)
Reverse Energy (GWh)
Reverse Energy (TWh)
Net Energy (kWh)
Net Energy (MWh)
Net Energy (GWh)
Net Energy (TWh)
Forward VAR Hours (kVARh)
Forward VAR Hours (MVARh)
Forward VAR Hours (GVARh)
Forward VAR Hours (TVARh)
Reverse VAR Hours (kVARh)
Reverse VAR Hours (MVARh)
Reverse VAR Hours (GVARh)
Reverse VAR Hours (TVARh)
Net VAR Hours (kVARh)
Net VAR Hours (MVARh)
Net VAR Hours (GVARh)
Net VAR Hours (TVARh)
Volt-Ampere Hours (kVAh)
Volt-Ampere Hours (MVAh)
Volt-Ampere Hours (GVAh)
Volt-Ampere Hours (TVAh)
BO
BO
BO
BO
BO
BO
BO
BO
BO
BO
1
2
3
4
5
6
7
8
9
10
BO
BO
BO
1
2
*
11
12
13
Reset Peak Demand-Watts*
Reset Energy Kilowatt Hours*
Reset Peak Demand-Currents*
Reset Min/Max Currents*
Reset Min/Max L-L Voltages*
Reset Min/Max L-N Voltages*
Reset Min/Max pf-Apparent*
Reset Min/Max pf-Displacement*
Reset Min/Max Power*
Reset Min/Max Current % Total Harmonic
Distortion*
Reset Min/Max Voltage % Total Harmonic
Distortion*
Reset Min/Max per-ph Power*
Acknowledge Triggered Events*
0-n/a,
0-n/a,
0-n/a,
0-n/a,
0-n/a,
0-n/a,
0-n/a,
0-n/a,
0-n/a,
1-reset
1-reset
1-reset
1-reset
1-reset
1-reset
1-reset
1-reset
1-reset
0-n/a, 1-reset
0-n/a, 1-reset
0-n/a, 1-reset
0-n/a, 1-ack
Network Point Type
Network Point Address
Do not map these points to Companion BO points. If you map these points to
Metasys system BO objects, disable the Auto Restore option in the BO object’s
Definition and Focus window.
Metasys Integrator—Metasys Integrator Cutler-Hammer Application
29
Table 14: Digitrip MV
Digitrip MV
To get the hardware
reference for
mapping points to
CS object attributes
(via the software
model), combine
the Network Point
Type (NPT) and
Network Point
Address (NPA). For
example, the
hardware reference
for the Phase C
Current point is AI3.
NPT1
NPA2
Unit
Description
AI
AI
AI
AI
AI
AI
AI
AI
1
2
3
4
5
6
7
8
Amps
Amps
Amps
Amps
Amps
Amps
Amps
Amps
Phase A Current
Phase B Current
Phase C Current
Ground Current
Peak Phase Current IA
Peak Phase Current IB
Peak Phase Current IC
Peak Phase Current Ground
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
Tripped
Alarmed
Long Delay Trip
Short Delay Trip
Instantaneous Trip
Discriminator Trip
Ground Fault
Breaker Trip
Phase Long Delay Interlock IN
Ground Long Delay Interlock IN
Override Trip
External Trip (via INCOM)
High Load Alarm
Long Delay Protection in Progress
Ground Test Initiated
Phase Test Initiated
Ground Long Delay Has Picked Up
Phase Short Delay Has Picked Up
Ground Short Delay Has Picked Up
Trip Unit Is In Program Mode
Trip Unit Is In Test Mode
RAM Error
EEROM Error
Test Initiated
Test Timer Started
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
BO
BO
BO
BO
1
2
3
4
Circuit Breaker*
Reset Alarm*
Reset Trip*
Reset (Peak) Demand Currents*
0-open,
0-n/a,
0-n/a,
0-n/a,
1-closed
1-reset
1-reset
1-reset
ADF
ADF
1
2
1
2
*
30
Code
Code
Product ID
Communications Software Version
Network Point Type
Network Point Address
Do not map these points to Companion BO points. If you map these points to
Metasys system BO objects, disable the Auto Restore option in the BO object’s
Definition and Focus window.
Metasys Integrator—Metasys Integrator Cutler-Hammer Application
Digitrip
RMS 810
To get the hardware
reference for
mapping points to
CS object attributes
(via the software
model), combine
the Network Point
Type (NPT) and
Network Point
Address (NPA). For
example, the
hardware reference
for the Phase C
Current point is AI3.
Table 15: Digitrip RMS 810
NPT1 NPA2 Unit
Amps
Amps
Amps
Amps
kW
kW
kWh
Description
Phase A Current
Phase B Current
Phase C Current
Ground Current
Power
Power Demand
Energy
Power Factor
Total Energy
AI
AI
AI
AI
AI
AI
AI
AI
AI
1
2
3
4
5
6
7
8
9
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
Tripped
Alarmed (Long Delay Pickup)
Tripped or Opened via INCOM
Trip Bar in Trip Position
Long Delay Trip
Short Delay Trip
Instantaneous Trip
Discriminator Trip
OverrideTrip
Over Temperature Trip
Plug Trip
Breaker Trip Request-DTA Energized
Open as a Result of INCOM Shed Cmd
Ground Fault
High Load Alarm
Negative Power Reading
Long Delay Protection in Progress
Unit Under a Test Condition
Test Started
Phase Test Initiated
Ground Test Initiated
EEROM Error
BD
1
Hertz Flag
BO
BO
BO
BO
1
2
3
4
Circuit Breaker3
Reset Trip*
Reset Energy*
Reset Peak Demand*
ADF
ADF
1
2
1
2
3
*
kWh
Code
Code
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
0-open,
0-n/a,
0-n/a,
0-n/a,
1-closed
1-reset
1-reset
1-reset
Product ID
Communications Software Version
Network Point Type
Network Point Address
The circuit breaker can only be closed after resetting the trip. This command is
not supported on the R-frame breaker.
Do not map these points to Companion BO points. If you map these points to
Metasys system BO objects, disable the Auto Restore option in the BO object’s
Definition and Focus window.
Metasys Integrator—Metasys Integrator Cutler-Hammer Application
31
Digitrip 3000
To get the hardware
reference for
mapping points to
CS object attributes
(via the software
model), combine
the Network Point
Type (NPT) and
Network Point
Address (NPA). For
example, the
hardware reference
for the Phase C
Current point is AI3.
Table 16: Digitrip 3000
NPT1 NPA2 Unit
Description
Phase A Current
Phase B Current
Phase C Current
Ground Current
Phase A Peak Demand Current
Phase B Peak Demand Current
Phase C Peak Demand Current
Ground Peak Demand Current
1
2
3
4
5
6
7
8
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
BI
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
Tripped
Alarmed (Long Delay Pickup)
Tripped or Opened via INCOM
Long Delay Trip
Short Delay Trip
Instantaneous Trip
Discriminator Trip
OverrideTrip
External Trip via INCOM
Ground Fault
High Load Alarm
Long Delay Protection in Progress
Unit Under a Test Condition
Test Started
Phase Test Initiated
Ground Test Initiated
EEROM Error
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
0-no,
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
1-yes
BO
BO
BO
BO
1
2
3
4
Circuit Breaker3
Reset Trip*
Reset Alarm*
Reset Peak Demand*
0-open,
0-n/a,
0-n/a,
0-n/a,
1-closed
1-reset
1-reset
1-reset
ADF
ADF
1
2
1
2
3
*
32
Amps
Amps
Amps
Amps
Amps
Amps
Amps
Amps
AI
AI
AI
AI
AI
AI
AI
AI
Code
Code
Product ID
Communications Software Version
Network Point Type
Network Point Address
The circuit breaker can only be closed after resetting the trip. This command is
not supported on the R-frame breaker.
Do not map these points to Companion BO points. If you map these points to
Metasys system BO objects, disable the Auto Restore option in the BO object’s
Definition and Focus window.
Metasys Integrator—Metasys Integrator Cutler-Hammer Application
Metasys Network Setup
Metasys Network Setup is described in the Metasys Integrator unit
technical bulletins. This section contains details specific to
Cutler-Hammer applications.
Mapping to a
CS Object
Table 17: Software Model and CS Object Definition
Application
Software Model
(on Tables and
Models CD-ROM)
Display Attribute NT Command
Attribute
(recommended)
(recommended)
AI1 Phase A Current BI3 Starter Trip
Status
Advantage
IQ_ADVA.DDL
Advantage Control
Module (ACM)
IQ_ACM3X.DDL
IQ 1000 II
IQ_1000.DDL
IQ Energy Sentinel
IQ.ENER.DDL
IQ Generator
IQ.GENE.DDL
IQ Data Plus II
IQ_DATA.DDL
IQ Data Plus 4000
IQ_DP4K.DDL
BO1 Reset Demand
IQ Analyzer
IQ_ANALY.DDL
BO13 Acknowledge
Triggered Events
Digitrip 810
IQ_DT810.DDL
BI1 Tripped*
Digitrip 3000
IQ_DT3K.DDL
BO4 Reset Peak
Demand
Digitrip MV
IQ_DTMV.DDL
IQ Generator or
Data
IQ_GENE.DDL
Digitrip II
(for AEM
subnetwork)
IQ_AEMDI.DDL
BI1 Long Delay Trip*
IQ Data Plus II
(for AEM
subnetwork)
IQ_AEMDP.DDL
BI2 Alarm Flag*
Assemblies
Electronic Monitor
II/CMU
IQ_AEM.DDL
*
BI3 Starter Tripped
AI1
Instantaneous
Power
BI2 Ready*
BI2 Active*
AI10 Frequency*
BI1 Trip Flag*
BI1
Inactive
BI4 Alarm*
Since none of the points are commandable, you cannot command the attribute from
the NT. (This must be defined because the NT Command attribute cannot be null.)
Metasys Integrator—Metasys Integrator Cutler-Hammer Application
33
Custom Integration
For information on integrating products that are not discussed in this
document, first refer to the Metasys Compatible Products online list of
released connectivity products. If this list does not provide the information
you require, consider using the Systems Integration Services (SIS)
Request Custom Engineered Solutions process to request a custom
contract from System Integration Team.
Access both the Metasys Compatible Products and the Request Custom
Engineered Solutions process from The Advisor by performing the
following steps:
1. Click on the Products Focus link, located at the top of The Advisor
home page.
2. Under Products, click on the Systems Integration Services link.
3. For the searchable database, click on Metasys Compatible Products.
4. Select Metasys Compatible Products Database.
5. Click Online Search Tool.
6. After the search in completed, return to the Systems Integration
Services home page as instructed in Steps 1-2.
7. Select Custom Engineered Solutions to view the process used for
requesting all types of SIS engineered solutions and services.
8. Select Requesting an Engineered Solution or Service.
9. Click Online Request Page.
If you need further assistance, contact the Johnson Controls Field Support
Center.
Controls Group
507 E. Michigan Street
P.O. Box 423
Milwaukee, WI 53201
34
Metasys Integrator—Metasys Integrator Cutler-Hammer Application
www.johnsoncontrols.com
Published in U.S.A.