Allen-Bradley 280D-F23D-25D-CR-3, 280G-F12S-10C-RRG-CBG, 280D-SN-25-C, 280D-F23Z-25D-CR-3 Owners Manual

Page 1
User Manual

ArmorStart® Distributed Motor Controller — Safety Version

Catalog Numbers 280D, 281D, 284D
Page 2
Important User Information
IMPORTANT
Read this document and the documents listed in the additional resources section about installation, configuration, and operation of this equipment before you install, configure, operate, or maintain this product. Users are required to familiarize themselves with installation and wiring instructions in addition to requirements of all applicable codes, laws, and standards.
If this equipment is used in a manner not specified by the manufacturer, the protection provided by the equipment may be impaired.
In no event will Rockwell Automation, Inc. be responsible or liable for indirect or consequential damages resulting from the use or application of this equipment.
The examples and diagrams in this manual are included solely for illustrative purposes. Because of the many variables and requirements associated with any particular installation, Rockwell Automation, Inc. cannot assume responsibility or liability for actual use based on the examples and diagrams.
No patent liability is assumed by Rockwell Automation, Inc. with respect to use of information, circuits, equipment, or software described in this manual.
Reproduction of the contents of this manual, in whole or in part, without written permission of Rockwell Automation, Inc., is prohibited.
Throughout this manual, when necessary, we use notes to make you aware of safety considerations.
WARNING: Identifies information about practices or circumstances that can cause an explosion in a hazardous environment, which may lead to personal injury or death, property damage, or economic loss.
ATTENTION: Identifies information about practices or circumstances that can lead to personal injury or death, property damage, or economic loss. Attentions help you identify a hazard, avoid a hazard, and recognize the consequence.
Identifies information that is critical for successful application and understanding of the product.
Labels may also be on or inside the equipment to provide specific precautions.
SHOCK HAZARD: Labels may be on or inside the equipment, for example, a drive or motor, to alert people that dangerous voltage may be present.
BURN HAZARD: Labels may be on or inside the equipment, for example, a drive or motor, to alert people that surfaces may reach dangerous temperatures.
ARC FLASH HAZARD: Labels may be on or inside the equipment, for example, a motor control center, to alert people to potential Arc Flash. Arc Flash will cause severe injury or death. Wear proper Personal Protective Equipment (PPE). Follow ALL Regulatory requirements for safe work practices and for Personal Protective Equipment (PPE).
ArmorConnect, ArmorStart, ControlLogix, DeviceLog ix, PLC, RSNetWorx, RSLogix 5000, and SLC are trademarks of Rockwell Automation, Inc.
Trademarks not belonging to Rockwell Automation are property of their respective companies.
Page 3
European Communities (EC) Directive Compliance
If this product has the CE mark it is approved for installation within the European Union and EEA regions. It has been designed and tested to meet the following directives.
Low Voltage and EMC Directives
This product is tested to meet Council Directive 73/23/EEC Low Voltage and 89/336/EEC and Council Directive 89/336/EC Electromagnetic Compatibility (EMC) by applying the following standard(s):
· Bulletin 280/281: EN 60947-4-1 — Low-voltage switchgear and controlgear — Part 4-1:Contactors and
motor-starters — Electromechanical contactors and motor-starters.
· Bulletin 284: EN 61800-3 — Adjustable speed electronic power drive systems — Part 3: EMC product
standard including specific test methods.
This product is intended for use in an industrial environment.
Page 4
Notes
Page 5

Table of Contents

Table of Contents i
Chapter 1 Product Overview
Introduction ....................................................................................1-1
Description .....................................................................................1-1
Operation .......................................................................................1-2
Mode of Operation ..........................................................................1-2
Bulletin 280/281 — Full-Voltage Start .....................................1-2
Bulletin 284 — Sensorless Vector Control................................1-2
Description of Features ..................................................................1-3
Overload Protection ................................................................. 1-3
LED Status Indication ..............................................................1-5
Fault Diagnostics .....................................................................1-5
Inputs ......................................................................................1-6
Outputs ...................................................................................1-6
Gland Plate Entrance ...............................................................1-6
Motor Cable .............................................................................1-6
ArmorStart with DeviceNet Network Capabilities ......................1-6
DeviceLogix™ ........................................................................1-6
Peer to Peer Communications (ZIP) .......................................... 1-6
Factory Installed Options ................................................................1-7
Optional HOA Keypad Configuration .........................................1-7
HOA Selector Keypad with Jog Function ...................................1-7
Source Brake Contactor............................................................1-7
Dynamic Brake Resistor ...........................................................1-8
Shielded Motor Cable ...............................................................1-8
Chapter 2 Installation and Wiring
Receiving .......................................................................................2-1
Unpacking ......................................................................................2-1
Inspecting ......................................................................................2-1
Storing ...........................................................................................2-1
General Precautions .......................................................................2-2
Precautions for Bulletin 280/281 Applications .................................2-2
Precautions for Bulletin 284 Applications.........................................2-3
Dimensions ....................................................................................2-4
Bulletin 280/281 ......................................................................2-4
Bulletin 284............................................................................2-10
Wiring ...................................................................................2-15
Power and Ground Wiring .....................................................2-15
Terminal Designations ..................................................................2-15
Optional Locking Clip ...................................................................2-18
ArmorConnect Power Media .........................................................2-19
Description ............................................................................2-19
ArmorStart Safety with ArmorConnect Connectivity ...............2-20
Terminal Designations............................................................2-21
ArmorConnect Cable Ratings..................................................2-21
Branch Circuit Protection Requirements for
ArmorConnect Three-Phase Power Media .............................2-21
Group Motor Installations for USA and Canada Markets ................2-22
Wiring and Workmanship Guidelines ............................................2-22
DeviceNet Network Installation .....................................................2-23
Other DeviceNet System Design Considerations ....................2-23
Page 6
ii Table of Contents
Electromagnetic Compatibility (EMC) ............................................2-24
Grounding .............................................................................2-24
Wiring ...................................................................................2-24
Chapter 3 Bulletin 280/281 Programmable Parameters
Chapter 4 Bulletin 284 Programmable Parameters for Sensorless Vector Controllers
Introduction ....................................................................................3-1
Parameter Programming .........................................................3-1
Parameter Group Listing .................................................................3-2
DeviceLogix™ Group .....................................................................3-2
DeviceNet Group ............................................................................3-7
Starter Protection Group ...............................................................3-10
User I/O ........................................................................................3-14
Misc. Group .................................................................................3-17
ZIP Parameters ............................................................................3-18
Starter Display .............................................................................3-26
Starter Setup ................................................................................3-27
Introduction ....................................................................................4-1
Parameter Programming .........................................................4-1
Parameter Group Listing .................................................................4-2
DeviceLogix™ Group .....................................................................4-3
Starter Protection Group ...............................................................4-12
User I/O ........................................................................................4-15
Drive DeviceNet Group ..................................................................4-18
Display Group................................................................................4-20
Basic Program Group ....................................................................4-25
Clear Type 1 Fault and Restart the Drive........................................4-45
Clear an Overvoltage, Undervoltage, or Heatsink OvrTmp Fault
without Restarting the Drive..........................................................4-45
Step Logic.....................................................................................4-58
Chapter 5 HOA Keypad Operation
Introduction ....................................................................................5-1
Keypad Description ........................................................................5-1
Keypad Disable and HOA ................................................................5-5
Page 7
Table of Contents iii
Chapter 6 DeviceNet™ Commissioning
Chapter 7 Explicit Messaging on DeviceNet™
Establishing a DeviceNet Node Address ......................................... 6-1
Node Commissioning using Hardware ............................................ 6-1
Node Commissioning using Software ............................................. 6-2
Building and Registering an EDS File ............................................. 6-3
Using the Node Commissioning Tool Inside RSNetWorx
for DeviceNet ................................................................................. 6-5
System Configuration ................................................................... 6-6
Using Automap feature with default Input and Output (I/O)
Assemblies .................................................................................... 6-7
Default Input and Output (I/O) Assembly Formats ........................... 6-7
Setting the Motor FLA and Overload Trip Class (Bulletin 280/281)... 6-8
Setting the Motor FLA (Bulletin 284) ............................................... 6-9
Logic Controller Application Example with Explicit
Messaging ..................................................................................... 7-1
Programming the 1747-SLC .......................................................... 7-1
I/O Mapping ............................................................................ 7-1
Explicit Messaging with SLC .......................................................... 7-2
Setting up the Data File ................................................................. 7-4
Sequence of Events ....................................................................... 7-4
Programming the 1756-ControlLogix ............................................. 7-7
I/O Mapping ............................................................................ 7-7
Explicit Messaging with ControlLogix ............................................. 7-8
Setting Up the MSG Instruction ...................................................... 7-8
Chapter 8 Using DeviceLogix™
Chapter 9 ArmorStart® ZIP Configuration
Chapter 10 Diagnostics
DeviceLogix Programming ............................................................. 8-1
DeviceLogix Programming Example ............................................... 8-2
Overview ....................................................................................... 9-1
ZIP Parameter Overview ................................................................ 9-1
Data Production ............................................................................. 9-3
Data Consumption ......................................................................... 9-3
Mapping Consumed Data to the DeviceLogix Data Table. ............... 9-3
Finding ZIP bits in Device Logix Editor........................................... 9-12
Overview ..................................................................................... 10-1
Protection Programming ....................................................... 10-1
Fault Display ................................................................................ 10-1
Clear Fault ................................................................................... 10-2
Fault Codes ................................................................................. 10-2
Fault Definitions .......................................................................... 10-3
Short Circuit ......................................................................... 10-3
Overload Trip ........................................................................ 10-3
Page 8
iv Table of Contents
Phase Loss ............................................................................10-3
Phase Short............................................................................10-3
Ground Fault ..........................................................................10-3
Stall .......................................................................................10-3
Control Power ........................................................................10-3
I/O Fault ................................................................................10-3
Over Temperature .................................................................10-3
Phase Imbalance ...................................................................10-4
Over Current...........................................................................10-4
DeviceNet™ Power Loss .......................................................10-4
Internal Communication Fault.................................................10-4
DC Bus Fault ..........................................................................10-4
EEPROM Fault .......................................................................10-4
Hardware Fault ......................................................................10-4
Restart Retries .......................................................................10-4
Miscellaneous Faults..............................................................10-4
Chapter 11 Troubleshooting
Appendix A Specifications
Appendix B Bulletin 280/281 CIP Information
Introduction ..................................................................................11-1
Bulletin 280/281 Troubleshooting..................................................11-2
Bulletin 284 Troubleshooting......................................................... 11-6
Fault Definitions .....................................................................11-6
DeviceNet Troubleshooting Procedures ......................................11-15
Control Module Replacement ......................................................11-16
Base Module Replacement..........................................................11-18
Bulletin 280/281 Specifications.......................................................A-1
Bulletin 284 Specifications..............................................................A-5
ArmorConnect™ Three-Phase Power Media ................................A-10
Trunk Cables .........................................................................A-10
Drop Cables ..........................................................................A-11
Power Tees & Reducer ..........................................................A-12
Power Receptacles ................................................................A-14
Electronic Data Sheets ...................................................................B-1
DOL Type Product Codes and Name Strings ...................................B-1
DOL Reversing Type Product Codes and Name String .....................B-1
DeviceNet Objects ..........................................................................B-2
Identity Object — CLASS CODE 0x0001 .........................................B-3
Identity Objects ..............................................................................B-3
Message Router — CLASS CODE 0x0002 ......................................B-3
DeviceNet Object — CLASS CODE 0x0003 .....................................B-4
Assembly Object — CLASS CODE 0x0004 .....................................B-5
Custom Parameter Based
“Word-wise” I/O Assemblies ..........................................................B-5
“Word-wise” Bit-Packed Assemblies ..............................................B-6
Standard Distributed Motor Controller I/O Assemblies .....................B-7
Standard Distributed Motor Controller Output
(Consumed) Assemblies ..........................................................B-7
Page 9
Table of Contents v
Standard Distributed Motor Controller Input
(Produced) Assemblies ............................................................B-8
Connection Object — CLASS CODE 0x0005 .................................B-10
Discrete Input Point Object — CLASS CODE 0x0008 ...................B-14
Discrete Output Point Object — CLASS CODE 0x0009 ..................B-15
Discrete Output Point Object Special Requirements ......................B-16
DOP Instances 3 and 4 Special Behavior ...............................B-16
DOP Instances 1 and 2 Special Behavior ...............................B-17
Parameter Object — CLASS CODE 0x000F ..................................B-21
Parameter Group Object — CLASS CODE 0x0010 ........................B-22
Discrete Input Group Object — CLASS CODE 0x001D ..................B-23
Discrete Output Group Object — CLASS CODE 0x001E ................B-24
Control Supervisor Object -CLASS CODE 0x0029 ..........................B-25
Acknowledge Handler Object — CLASS CODE 0x002b .................B-26
Overload Object — CLASS CODE 0x002c .....................................B-27
DeviceNet Interface Object -CLASS CODE 0x00B4 ........................B-28
Appendix C Bulletin 284 CIP Information
Electronic Data Sheets ...................................................................C-1
VFD Type Product Codes and Name Strings ....................................C-1
DeviceNet Objects ..........................................................................C-2
Identity Object — CLASS CODE 0x0001 .........................................C-2
Identity Objects ..............................................................................C-3
Message Router — CLASS CODE 0x0002 ......................................C-3
DeviceNet Object — CLASS CODE 0x0003 .....................................C-4
Assembly Object — CLASS CODE 0x0004 .....................................C-5
Custom Parameter Based
“Word-wise” I/O Assemblies ..........................................................C-6
“Word-wise” Bit-Packed Assemblies ..............................................C-6
Standard Distributed Motor Controller I/O Assemblies .....................C-8
Standard Distributed Motor Controller Output
(Consumed) Assemblies ..........................................................C-8
Bulletin 284 Distributed Motor Controller I/O Assemblies ................C-9
Standard Distributed Motor Controller Ouput
(Consumed) Assemblies ..........................................................C-9
Standard Distributed Motor Controller Input
(Produced) Assemblies ............................................................C-9
Inverter Type Distributed Motor Controller Input
(Produced) Assemblies ...........................................................C-10
PowerFlex Native Assemblies .................................................C-11
Connection Object — CLASS CODE 0x0005 .................................C-13
Discrete Input Point Object — CLASS CODE 0x0008 ...................C-18
Discrete Output Point Object — CLASS CODE 0x0009 ..................C-19
Discrete Output Point Object Special Requirements ......................C-20
DOP Instances 3 and 4 Special Behavior ...............................C-20
DOP Instances 1, 2, 9, and 10 Special Behavior ....................C-22
Parameter Object — CLASS CODE 0x000F ..................................C-26
Parameter Group Object — CLASS CODE 0x0010 ........................C-27
Discrete Input Group Object — CLASS CODE 0x001D ..................C-28
Discrete Output Group Object — CLASS CODE 0x001E ................C-29
Page 10
vi Table of Contents
Control Supervisor Object -CLASS CODE 0x0029 ..........................C-30
Acknowledge Handler Object — CLASS CODE 0x002b .................C-31
DeviceNet Interface Object -CLASS CODE 0x00B4 ........................C-32
Appendix D Group Motor Installations
Appendix E Safety I/O Module and TÜV Requirements
Appendix F Accessories
Appendix G Renewal Parts
Appendix H PID Setup
Application of ArmorStart® Controllers in Group Installation ...........D-1
ArmorStart Safety-Related Parts...................................................... E-1
ArmorBlock Guard I/O Modules .......................................................E-2
Specifications ..........................................................................E-2
ArmorBlock Guard I/O Recommended Compatible
Cables and Connectors............................................................. E-3
Safety-Related Specifications..........................................................E-6
Maintenance and Internal Part Replacement....................................E-6
Troubleshooting .............................................................................. E-7
Accessories ....................................................................................F-1
Renewal Parts.................................................................................G-1
Exclusive Control.............................................................................H-1
Trim Control....................................................................................H-2
PID Reference and Feedback...........................................................H-3
PID Deadband .................................................................................H-3
PID Preload .....................................................................................H-4
PID Limits .......................................................................................H-4
PID Gains ........................................................................................H-4
Guidelines For Adjusting PID Gains..................................................H-5
Appendix I Step Logic, Basic Logic and Timer/ Counter Functions
Step Logic Using Timed Steps.......................................................... I-2
Step Logic Using Basic Logic Functions............................................ I-3
Timer Function.................................................................................I-4
Counter Function.............................................................................. I-5
Step Logic Parameters .....................................................................I-6
Page 11
Chapter 1
Product Overview
Introduction This chapter provides a brief overview of the features and
functionality of the Bulletin 280/281 and 284 ArmorStart® Distributed Motor Controllers.
Description The ArmorStart Distributed Motor Controllers are integrated, pre-
engineered, starters with Bulletin 280/281 for full-voltage and reversing applications and Bulletin 284 for variable frequency AC drives applications. The ArmorStart of fers a robust IP67/NEMA Type 4 enclosure design, which is suitable for water wash down environments.
The modular “plug and play” design offers simplicity in wiring the installation. The quick disconnects for the I/O, communications, and motor connections reduce the wiring time and eliminate wiring errors. The ArmorStart offers, as standard, four DC inputs and two relay outputs, to be used with sensors and actuators respectively, for monitoring and controlling the application process. The ArmorStart’s LED status indication and built-in diagnostics capabilities allow ease of maintenance and troubleshooting. The optional Hand/Off/Auto (HOA) keypad configuration allows local start/stop control at the ArmorStart
Distributed Motor Controller.
The ArmorStart Distributed Motor Controller offers short circuit protection per UL508 and IEC 60947. The ArmorStart is rated for local-disconnect service by incorporating the Bulletin 140 Motor Protector as the local-disconnect, eliminating the need for additional components. The ArmorStart Distributed Motor Controllers are suitable for group motor installations.
Safety ArmorStart The safety version of the ArmorStart provides a safety solution
integrated into DeviceNet Safety installations. The Bulletin 280/281/ 284 Safety ArmorStart achieves Category 4 functionality by using redundant contactors. The Safety ArmorStart offers a quick connects via the gland plate to the 1732DS-IB8XOBV4 safety I/O module. The Bulletin 1732DS Safety I/O inputs will monitor the status of the safety rated contactors inside the ArmorStart. The Bulletin 1732DS Safety I/O outputs to provide 24V DC power for control po wer to the ArmorStart.
Note: The Bulletin 280/281/284 Safety ArmorStart is suitable for
safety applications up to Safety Category 4PL e (TÜV assessment per ISO 13849-1:2008). T available upon request.
Note: For additional information regarding the
1732DS-IB8XOBV4 safety I/O module, see publication 1791DS-UM001*-EN-P.
ÜV compliance letter is
Page 12
1-2 Product Overview
00%
ge
)
Operation The ArmorStart Distributed Motor Controllers can operate three-
phase squirrel-cage induction motors as follows:
Bulletin 280/281: 0.5…16 A; up to 10 Hp (7.5 kW) @ 480V AC; 50/60 Hz. Bulletin 284: up to 5 Hp (3.0 kW) @ 480V AC; 50/60 Hz.
Mode of Operation Bulletin 280/281 Full-Voltage Start
This method is used in applications requiring across-the-line starting, in which full inrush current and locked-rotor torque are realized. The ArmorStart Bulletin 280 offers full-voltage starting and the Bulletin 281 offers full-voltage starting for reversing applications.
1
Percent
Volta
Time (seconds
Bulletin 284 Sensorless Vector Control
Sensorless Vector Control provides exceptional speed regulation
and very high levels of torque across the entire speed range of the
drive
The Autotune feature allows the Bulletin 284 ArmorStart
Distributed Motor Controller to adapt to individual motor
characteristics.
To select this method of operation, select V for the Mode of
Operation listed in the catalog structure. See the Industrial
Controls catalog
Page 13
Description of Features Overload Protection
Class 15 Overload Curves
1
100
10000
0 100 200 300 400 500 600 700
Multiples f or Full L oad Current
Approximate Trip Time (sec)
Cold Hot
Class 10 Overload Curves
1
10
100
1000
10000
0 100 200 300 400 500 600 700
Multiples of Full Load Current
Approximate Trip Time (sec)
Cold Hot
Class 20 Overload Curves
1
100
10000
0 100 200 300 400 500 600 700
Multiples of Full Load Current
Approximate Trip Time (sec)
Cold Hot
Class 10
Class 15
Class 20
%
%
of
%
The ArmorStart Distributed Motor Controller incorporates, as standard, electronic motor overload protection. This overload
protection is accomplished electronically with an I ArmorStart’s overload protection is programmable via the communication network, providing the user with flexibility.
The Bulletin 280/281 overload trip class can be selected for class 10, 15, 20 protection. Ambient insensitivity is inherent in the electronic design of the overload.
Figure 1.1 Overload Trip Curves
Product Overview 1-3
2
t algorithm. The
Page 14
1-4 Product Overview
% of P132 (Motor NP Hertz) % of P132 (Motor NP Hertz)
% of P132 (Motor NP Hertz)
% of P133 (Motor OL Current)
% of P133 (Motor OL Current)
% of P133 (Motor OL Current)
The Bulletin 284 ArmorStart Distributed Motor Controller incorporates, as standard, electronic motor overload protection. This
2
overload protection is accomplished electronically with an I
t algorithm. The ArmorStart’s o verload protection is programmable via the communication network providing the user with flexibility. Programming the Motor OL Current parameter provides class 10 overload protection for the Bulletin 284 Distributed Motor Controller. Ambient insensitivity is inherent in the electronic design of the overload.
Figure 1.2 Overload Trip Curves
Page 15
Product Overview 1-5
LED Status Indication
The LED Status Indication provides 4 status LEDs and a Reset button. The LEDs provide status indication for the following:
•POWER LED
The LED is illuminated solid green when control power is present and with the proper polarity
RUN LED
This LED is illuminated solid green when a start command and control power are present
•NETWORK LED
This bi-color (red/green) LED indicates the status of the communication link
•FAULT LED
Indicates Controller Fault (Trip) condition
The “Reset Button” acts as a local trip reset.
Figure 1.3 Status Indication and Reset
Fault Diagnostics
Fault diagnostics capabilities built in the ArmorStart Distributed Motor Controller help you pinpoint a problem for easy troubleshooting and quick re-starting.
Available on
Fault Indication
Short Circuit X X Phase Imbalance X
Overload X X Miscellaneous Fault X X
Phase Loss X X Brake Fuse Detection X
Control Power Loss X X Internal Comm. Fault X
Control Power Fuse Detection X X DC Bus Fault X
Output Power Fuse Detection X X Ground Fault X
I/O Fault X X Overcurrent X
Over Temperature X X Restart Retries X
DeviceNet™ Power Loss X X Stall X
EEprom Fault X X Phase Short X
Hardware Fault X X
Bulletin:
280/281 284 280/281 284
Fault Indication
Available on
Bulletin:
Page 16
1-6 Product Overview
Inputs
The inputs are single-keyed (2 inputs per connector), which are sourced from DeviceNet power (24V DC), with LED status indication.
Outputs
Two dual-key relay output connectors are supplied as standard. The outputs are sourced from control power (A1 and A2). LED status indication is also provided as standard for each output.
Gland Plate Entrance
The ArmorStart product offers two different methods of connecting incoming three-phase power to the device. One method offered is the traditional conduit entrance with a 1 in. conduit hole opening for wiring three-phase power. The second method offers connectivity to the ArmorConnect™ power media. Factory-installed receptacles are provided for connectivity to the three-phase power media.
Motor Cable
With every ArmorStart Distributed Motor Controller, a 3-meter unshielded 4-conductor cordset is provided with each unit as standard. If the optional EMI filter is selected for Bulletin 284 units, a shielded 4-conductor cordset is provided with each unit as standard.
ArmorStart with DeviceNet Network Capabilities
The ArmorStart Distributed Motor Controller deliv ers advanced capabilities to access parameter settings and provides fault diagnostics, and remote start-stop control. DeviceNet is the communication protocol, provided with the ArmorStart Bulletin 280D/281D or 284D Distributed Motor Controller.
DeviceLogix™
DeviceLogix is a stand-alone Boolean program that resides within the ArmorStart Distributed Motor Controller. DeviceLogix is programmed using Boolean math operations, such as, AND, OR, NOT, Timers, Counters, and Latches. DeviceLogix can run as a stand­alone application, independent of the network. However, 24V DC must be supplied at the DeviceNet connector to power the inputs.
Peer to Peer Communications (ZIP)
The zone control capabilities of ArmorStart Distributed Motor Controllers is ideal for large horsepower (0.5…10 Hp) motored conveyors. The ArmorStart Distributed Motor Controllers have built­in DeviceNet communications, DeviceLogix technology, and the added Zone Interlocking Parameters (ZIP) which allow one ArmorStart to receive data directly, from up to four other DeviceNet nodes, without going through a network scanner. These direct communications between conveyor zones are beneficial in a merge, diverter, or accumulation conveyor application.
Page 17
Product Overview 1-7
Factory Installed Options Optional HOA Keypad Configuration (Bulletin 280/281 only)
The ArmorStart offers two optional factory-installed Hand/Off/Auto (HOA) configurations: Standard and Forward/Reverse HOA.
Figure 1.4 Optional HOA Configuration
Optional HOA Selector Keypad with Jog Function (Bulletin 284 only)
The HOA Selector Keypad with Jog Function allows for local start/ stop control with capabilities to jog in forward/reverse motor directions.
Figure 1.5 Optional HOA with Jog Function Configuration
Source Brake Contactor (Bulletins 284 only)
An internal contactor is used to switch the electromechanical motor brake on/off. The motor brake is powered from the main power circuit. A customer-accessible 3.0 A fuse is provided to protect the brake cable. A 3 meter, 3-pin cable for connection to the motor brake is provided as standard when the option is selected.
EMI Filter (Bulletin 284 only)
The EMI Filter option is required if the Bulletin 284 ArmorStart Distributed Motor Controller must be CE-compliant. If the EMI Filter is selected, a 3 meter shielded 4-conductor cordset is provided as standard. This option is only available with sensorless vector control.
Page 18
1-8 Product Overview
Dynamic Brake Resistor (Bulletin 284 only)
The IP67 Dynamic Brake Resistor plug and play design offers simplicity in writing and installation. The factory installed option of DB1 must be selected in order to have the quick disconnect connectivity. The cable length of the IP67 Dynamic Brake Resistor is available in two lengths, 0.5 meter and 1 meter. See Appendix F, Accessories, for available IP67 Dynamic Brake Resistors.
Note: The IP67 Dynamic Brake Resistor is used only with the
-DB1 factory-installed option.
Shielded Motor Cable (Bulletin 284 only)
A 3 meter shielded 4-conductor cordset is provided instead of the 3 meter unshielded 4-conductor cordset. If the EMI Filter is selected, a 3 meter shielded 4-conductor cordset is provided as standard.
Page 19
Chapter 2
Installation and Wiring
Receiving It is the responsibility of the user to thoroughly inspect the equipment
before accepting the shipment from the freight company. Check the item(s) received against the purchase order. If any items are damaged, it is the responsibility of the user not to accept delivery until the freight agent has noted the damage on the freight bill. Should any concealed damage be found during unpacking, it is again the responsibility of the user to notify the freight agent. The shipping container must be left intact and the freight agent should be requested to make a visual inspection of the equipment.
Unpacking Remove all packing material, wedges, or braces from within and
around the starter. Remove all packing material from device(s).
Inspecting After unpacking, check the nameplate catalog number(s) against the
purchase order.
Storing The controller should remain in its shipping container prior to
installation. If the equipment is not to be used for a period of time, it must be stored according to the following instructions in order to maintain warranty coverage.
Store in a clean, dry location.
Store within an ambient temperature range of –25°C…+85°C
(–13°F…+185°F).
Store within a relative humidity range of 0…95%,
noncondensing.
Do not store equipment where it could be exposed to a corrosive
atmosphere.
Do not store equipment in a construction area.
Page 20
2-2 Installation and Wiring
ATTENTION
!
ATTENTION
!
ATTENTION
!
ATTENTION
!
General Precautions In addition to the precautions listed throughout this manual, the
following statements, which are general to the system, must be read and understood.
The controller contains ESD (electrostatic discharge)-sensitive parts and assemblies. Static control precautions are required when installing, testing, servicing, or repairing the assembly. Component damage may result if ESD control procedures are not followed. If you are not familiar with static control procedures, refer to Publication 8000-4.5.2, Guarding against Electrostatic Discharge, or any other applicable ESD protection handbooks.
An incorrectly applied or installed controller can damage components or reduce product life. Wiring or application errors, such as undersizing the motor, incorrect or inadequate AC supply, or excessive ambient temperatures, may result in malfunction of the system.
Precautions for Bulletin 280/281 Applications
Only personnel familiar with the controller and associated machinery should plan or implement the installation, startup, and subsequent maintenance of the system. Failure to do this may result in personal injury and/or equipment damage.
To prevent electrical shock, open disconnect prior to connecting and disconnecting cables. Risk of shock - environment rating may not be maintained with open receptacles.
Page 21
Precautions for Bulletin 284
ATTENTION
!
ATTENTION
!
Applications
Installation and Wiring 2-3
The drive contains high voltage capacitors which take time to discharge after removal of mains supply . Before working on drive, ensure isolation of mains supply from line inputs (R, S, T [L1, L2, L3]). Wait three minutes for capacitors to discharge to safe voltage levels. Failure to do so may result in personal injury or death. Darkened display LEDs are not an indication that capacitors have discharged to safe voltage leve ls. Risk of shock - environment rating may not be maintained with open receptacles.
Only qualified personnel familiar with adjustable frequency AC drives and associated machinery should plan or implement the installation, startup, and subsequent maintenance of the system. Failure to do this may result in personal injury and/or equipment damage.
Page 22
2-4 Installation and Wiring
Dimensions Dimensions are shown in millimeters (inches). Dimensions are not
intended to be used for manufacturing purposes. All dimensions are subject to change.
Figure 3 Dimensions for Bulletin 280D Safety Product, IP67/NEMA Type 4
with Conduit Entrance
Page 23
Installation and Wiring 2-5
ArmorStart device with a 10 A short circuit protection rating ArmorStart device with a 25 A short circuit protection rating
Dimensions are shown in millimeters (inches). Dimensions are not intended to be used for manufacturing purposes. All dimensions are subject to change.
Figure 4 Dimensions for Bulletin 280D Safety Product, IP67/NEMA Type 4
with ArmorConnect™ Connectivity
Page 24
2-6 Installation and Wiring
Dimensions are shown in millimeters (inches). Dimensions are not intended to be used for manufacturing purposes. All dimensions are subject to change.
Figure 5 Dimensions for Bulletin 281D Safety Product, IP67/NEMA Type 4
with Conduit Entrance
Page 25
Installation and Wiring 2-7
ArmorStart device with a 10 A short circuit protection rating ArmorStart device with a 25 A short circuit protection rating
Dimensions are shown in millimeters (inches). Dimensions are not intended to be used for manufacturing purposes. All dimensions are subject to change.
Figure 6 Dimensions for Bulletin 281D Safety Product, IP67/NEMA Type 4
with ArmorConnect Connectivity
Page 26
2-8 Installation and Wiring
LED Status Indication
Motor Connection
DeviceNet Connection
(Mini/M18)
Local Disconnect
2 Outputs
(Micro/M12)
4 Inputs
(Micro/M12)
Ground Terminal
A1/A2 - 24V DC Control Power from 1732DS Safety I/O Module output
Safety Monitor input from
1732DS Safety I/O Module input
LED Status Indication
Motor Connection
DeviceNet Connection
(Mini/M18)
Local Disconnect
2 Outputs
(Micro/M12)
4 Inputs
(Micro/M12)
Ground Terminal
A1/A2 - 24V DC Control Power from 1732DS Safety I/O Module output
Safety Monitor input from
1732DS Safety I/O Module input
Figure 7 Bulletin 280D ArmorStart Safety Product with Conduit Entrance
Figure 8 Bulletin 281D ArmorStart Safety Product with Conduit Entrance
Page 27
Installation and Wiring 2-9
Three-Phase Power
Three-Phase Power A1/A2 - 24V DC Control Power from 1732DS Safety I/O Module output
Safety Monitor input from
1732DS Safety I/O Module input
Safety Monitor input from
1732DS Safety I/O Module input
A1/A2 - 24V DC Control Power from 1732DS Safety I/O Module output
Three-Phase Power
Three-Phase Power
1732DS Safety I/O Module output
Safety Monitor input from
1732DS Safety I/O Module input
Safety Monitor input from
1732DS Safety I/O Module input
A1/A2 - 24V DC Control Power from 1732DS Safety I/O Module output
A1/A2 - 24V DC Control Power from
Figure 9 Bulletin 280D ArmorStart Safety Product with ArmorConnect
Figure 10 Bulletin 281D ArmorStart Safety Product with ArmorConnect
Page 28
2-10 Installation and Wiring
Dimensions Dimensions are shown in millimeters (inches). Dimensions are not
intended to be used for manufacturing purposes. All dimensions are subject to change.
Figure 11 Dimensions for Bulletin 284D Safety Product, 2 Hp and below @
460V AC, IP67/NEMA Type 4 with Conduit Entrance
Page 29
Installation and Wiring 2-11
ArmorStart device with a 10 A short circuit protection rating
Dimensions are shown in millimeters (inches). Dimensions are not intended to be used for manufacturing purposes. All dimensions are subject to change.
Figure 12 Dimensions for Bulletin 284D Safety Product, 2 Hp and below @
460V AC, NEMA Type 4 with ArmorConnect™ Connectivity
Page 30
2-12 Installation and Wiring
Dimensions are shown in millimeters (inches). Dimensions are not intended to be used for manufacturing purposes. All dimensions are subject to change.
Figure 13 Dimensions for Bulletin 284D Safety Product, 3 Hp and above @
460V AC, IP67/NEMA Type 4 with Conduit Entrance
Page 31
Installation and Wiring 2-13
ArmorStart device with a 25 A short circuit protection rating
Dimensions are shown in millimeters (inches). Dimensions are not intended to be used for manufacturing purposes. All dimensions are subject to change.
Figure 14 Dimensions for Bulletin 284D Safety Product, 3 Hp and above @
460V AC, IP67/NEMA Type 4 with ArmorConnect Connectivity
Page 32
2-14 Installation and Wiring
LED Status Indication
Motor
Connector
DeviceNet Connection (Mini/M18)
Local Disconnect
2 Outputs
(Micro/M12)
4 Inputs
(Micro/M12)
Dynamic Brake Connector
Source Brake
Connector Ground Termin al
A1/A2 - 24V DC Control Power from 1732DS Safety I/O Module output
Safety Monitor input from
1732DS Safety I/O Module input
Three-Phase Power
Three-Phase Power
Safety Monitor input from
1732DS Safety I/O Module input
Safety Monitor input from
1732DS Safety I/O Module input
A1/A2 - 24V DC Control Power from 1732DS Safety I/O Module output
A1/A2 - 24V DC Control Power from 1732DS Safety I/O Module output
Figure 15 Bulletin 284 ArmorStart Safety Product with Conduit Entrance
Figure 16 Bulletin 284 ArmorStart Safety Product with ArmorConnect
Page 33
Wiring Power and Ground Wiring
Table 2.1 provides the power and ground wire capacity and the tightening torque requirements. The power and ground terminals will accept a maximum of two wires per terminal.
Table 2.1 Power and Ground Wire, Size and Torque Specifications
Terminals Wire Size Torque Wire Strip Length
Installation and Wiring 2-15
Power
and
Ground
Primary Terminal:
1.3…5.3 mm
(#16 …#10 AWG)
Secondary Terminal:
0.8…5.3 mm
(#18 …#10 AWG)
2
2
Primary Terminal:
10.8 lb•in (1.2 N•m)
Secondary Terminal:
(0.5 N•m)
0.35 in. (9 mm)
4.5 lb•in
Terminal Designations As shown in the next figures, the ArmorStart Distributed Motor Controller
contains terminals for power, control, safety monitor inputs, and ground wiring. Access can be gained by removing the terminal access cover plate.
Figure 2.1 Bulletin 280 Power, Control, and Safety Monitor Input Terminals
Page 34
2-16 Installation and Wiring
Figure 2.2 Bulletin 281 Power, Control, and Safety Monitor Input Terminals
Page 35
Installation and Wiring 2-17
Figure 2.3 Bulletin 284 ArmorStart Power, Control, and Safety Monitor Input
Terminals
Table 2.2 Power, Control, Safety Monitor, and Ground Terminal Designations
Terminal Designations No. of Poles Description
SM1 2 Safety Monitor Input
SM2 2 Safety Monitor Input
A1 (+) 2 Control Power Input
A2 (-) 2 Control Power Common
PE 2 Ground
1/L1 2 Line Power Phase A
3/L3 2 Line Power Phase B
5/L5 2 Line Power Phase C
Page 36
2-18 Installation and Wiring
Optional Locking Clip The clam shell design clips over the ArmorStart motor connector and
motor cable to limit customer access from disconnecting the motor cable on the ArmorStart Distributed Motor Controller. The locking clip is an optional device that can be used, if desired.
Figure 2.4 Bulletin 280 Installation of Locking Clip
Figure 2.5 Bulletin 281Installation of Locking Clip
Figure 2.6 Bulletin 284 Installation of Locking Clip
Page 37
ArmorConnect Power Media Description
RESET
OFF
Bulletin 280/281 ArmorStart
Bulletin 283 ArmorStart
Bulletin 284 ArmorStart
PLC
Bulletin 1492FB
Branch Circuit
Protective Device
Enclosure
Bulletin 1606
Power Supply
Bulletin 800F Emergency Stop Pushbutton
1606-XLSDNET4
DeviceNet
Power Supply
The ArmorConnect power media offers both three-phase and control power cable system of cord sets, patch cords, receptacles, tees, reducers and accessories to be utilized with the ArmorStart Distributed Motor Controller. These cable system components allow quick connection of ArmorStart Distributed Motor Controllers, there by reducing installation time. They provide for repeatable, reliable connection of the three-phase and control power to the ArmorStart Distributed Motor Controller and motor by providing a plug-and-play environment that also avoids system mis-wiring. When specifying power media for use with the ArmorStart Distributed Motor Controllers (Bulletin 280/281 and 284) use only the Bulletin 280 ArmorConnect power media.
Figure 2.7 Three-Phase Power System Overview
Installation and Wiring 2-19
Three-Phase Power Trunk- PatchCord cable with integral female or male connector on each end
Example Part Number: 280-PWR35A-M*
Three-Phase Drop Cable- PatchCord cable with integral female or male connector on each end
Example Part Number: 280-PWR22A-M*
Three-Phase Power Tees and Reducer -
Tee connects to a single drop line to trunk with quick change connectors – Part Number: 280-T35 Reducing Tee connects to a single drop line (Mini) to trunk (Quick change) connector – Part Number: 280-RT35 Reducer connects from quick change male connector to mini female connector– Part Number: 280-RA35
Three-Phase Power Receptacles -
Female receptacles are a panel mount connector with flying leads – Part Number: 280-M35F-M1
Page 38
2-20 Installation and Wiring
Three-Phase Power Receptacle
ArmorStart devices with 10 A short circuit protection rating
ArmorStart devices with 25 A short circuit protection rating
A1/A2 -24V DC
1732DS Safety
I/O Module Output
Control Power from
Ground
Terminal
Safety Monitor
Input from
1732DS Safety
I/O Module Input
Three-Phase Power Receptacle
A1/A2 -24V DC
1732DS Safety
I/O Module Output
Control Power from
Ground
Terminal
Safety Monitor
Input from 1732DS Safety I/O Module Input
Ground
Terminal
Safety Monitor
Input from
1732DS Safety
I/O Module Input
A1/A2 -24V DC
Control Power from
1732DS Safety
I/O Module Output
ArmorStart devices with conduit entrance
Three-Phase Power Receptacle
ArmorStart Safety with ArmorConnect Connectivity
Page 39
Terminal Designations
Terminal Designations
Description Color Code
SM1 Safety Monitor Input Brown
SM2 Safety Monitor Input White
A1 (+) Control Power Input Brown
A2 (-) Control Power Common Blue
PE Ground Green/Yellow
1/L1 Line Power - Phase A Black
3/L2 Line Power - Phase B White
5/L3 Line Power - Phase C Red
Installation and Wiring 2-21
ArmorConnect Cable Ratings
The ArmorConnect power media cables are rated per UL Type TC 600V 90 °C Dry 75 °C Wet, Exposed Run (ER) or MTW 600V 90 °C or STOOW 105 °C 600V - CSA STOOW 600V FT2.
Branch Circuit Protection Requirements for ArmorConnect Three-Phase Power Media
When using ArmorConnect three-phase power media, only fuses can be used for the motor branch circuit protective device, for the group motor installations. The following fuse types are recommended: Class CC, T, or J type fuses.
Maximum Ratings
Voltage (V) 480Y/277
Sym. Amps RMS 65 kA
Time Delay Fuse 50 A
Non-Delay Fuse 100 A
Page 40
2-22 Installation and Wiring
Group Motor Installations for USA and Canada Markets
Wiring and Workmanship Guidelines
The ArmorStart Distributed Motor Controllers are listed for use with each other in group installations per NFPA 79, Electrical Standard for Industrial Machinery. When applied according to the group motor installation requirements, two or more motors, of any rating or controller type, are permitted on a single branch circuit. Group Motor Installation has been successfully used for many years in the USA and Canada.
Note: For additional information regarding group motor
installations with the ArmorStart Distributed Motor Controller, see Appendix C.
In addition to conduit and seal-tite raceway, it is acceptable to utilize cable that is dual rated Tray Cable, Type TC-ER and Cord, STOOW, for power and control wiring on ArmorStart installations. In the USA and Canada installations, the following guidance is outlined by the NEC and NFPA 79.
In industrial establishments where the conditions of maintenance and supervision ensure that only qualified persons service the installation, and where the exposed cable is continuously supported and protected against physical damage using mechanical protection, such as struts, angles, or channels, Type TC tray cable that complies with the crush and impact requirements of Type MC (Metal Clad) cable and is identified for such use with the marking Type TC-ER (Exposed Run)* shall be permitted between a cable tray and the utilization equipment or device as open wiring. The cable shall be secured at intervals not exceeding 1.8 m (6 ft) and installed in a “good workman­like” manner. Equipment grounding for the utilization equipment shall be provided by an equipment grounding conductor within the cable.
*Historically cable meeting these crush and impact requirements were designated and marked “Open Wiring”. Cable so marked is equivalent to the present Type TC-ER and can be used.
While the ArmorStart is intended for installation in factory floor environments of industrial establishments, the following must be taken into consideration when locating the ArmorStart in the application: Cables, including those for control voltage including 24V DC and communications, are not to be exposed to an operator or building traffic on a continuous basis. Location of the ArmorStart to minimize exposure to continual traff ic is recommended. If location to minimize traffic flow is unavoidable, other barriers to minimize inadvertent exposure to the cabling should be considered. Routing cables should be done in such a manner to minimize inadvertent exposure and/or damage.
Page 41
Installation and Wiring 2-23
Additionally, if conduit or other raceways are not used, it is recommended that strain relief fittings be utilized when installing the cables for the control and power wiring through the conduit openings.
The working space around the ArmorStart may be minimized as the ArmorStart does not require examination, adjustment, servicing or maintenance while energized. In lieu of this service, the ArmorStart is meant to be unplugged and replaced after proper lockout/tag-out procedures have been employed.
Since the ArmorStart is available with a factory installed HOA keypad option this may require the ArmorStart to be selected and installed as follows if the application requires frequent use of the hand operated interface by the equipment operator:
1. They are not less than 0.6 m (2 ft) above the servicing level and
are within easy reach of the normal working position of the operator.
2. The operator is not placed in a hazardous situation when operat-
ing them.
3. The possibility of inadvertent operation is minimized. If the operated interface is used in industrial establishments where the
conditions of maintenance and supervision ensure that only qualified persons operate and service the ArmorStart's operator interface, and the installation is located so that inadvertent operation is minimized then other installation locations with acceptable access can be provided.
DeviceNet Network Installation The ArmorStart Distributed Motor Controller contains the equivalent
of 30 in. (0.76 m) of DeviceNet drop cable's electrical characteristics and therefore 30 in. of drop cable must be included in the DeviceNet drop cable budget for each ArmorStart in addition to actual drop cable required for the installation.
Other DeviceNet System Design Considerations
The separation of the control power and DeviceNet power is recommended as a good design practice. This minimizes the load on the DeviceNet supply, and prevents transients which may be present on the control power system from influencing the communication controls. For additional information regarding 24V DC control po wer system design, see Appendix D.
Page 42
2-24 Installation and Wiring
Electromagnetic Compatibility
(EMC)
The following guidelines are provided for EMC installation compliance.
General Notes (Bulletin 284 only)
The motor Cable should be kept as short as possible in order to avoid electromagnetic emission as well as capacitive currents
Conformity of the drive with CE EMC requirements does not guarantee an entire machine installation complies with CE EMC requirements. Many factors can influence total machine/ installation compliance.
Using an EMI filter with any drive rating, may result in relatively high ground leakage currents. Therefore, the filter must only be used in installations and solidly grounded (bonded) to the building power distribution ground. Grounding must not rely on flexible cables and should not include any form of plug or socket that would permit inadvertent disconnection. Some local codes may require redundant ground connections. The integrity of all connections should be periodically checked.
Grounding
Connect a grounding conductor to the terminal provided as standard on each ArmorStart Distributed Motor Controller. Refer to Table 2.2 for grounding provision location. There is also an externally av ailable ground terminal. Refer to Figure 7, Figure 8, and Figure 15.
Wiring
Wire in an industrial control application can be divided into three groups: power, control, and signal. The following recommendations for physical separation between these groups is provided to reduce the coupling effect.
Minimum spacing between different wire groups in the same tray should be 6 in. (16 cm).
Wire runs outside an enclosure should be run in conduit or have shielding/armor with equivalent attenuation.
Different wire groups should be run in separate conduits.
Minimum spacing between conduits containing different wire groups should be 3 in. (8 cm).
Page 43
Chapter 3
Bulletin 280/281 Programmable Parameters
Introduction This chapter describes each programmable parameter and its
function.
Parameter Programming
Each Distributed Motor Controller type will have a common set of parameters followed by a set of parameters that pertain to the individual starter type.
Refer to Chapter 6, DeviceNet™ Commissioning for instructions in using RSNetWorx™ for DeviceNet to modify parameter settings.
Important: Resetting the Factory Default Values Parameter 47,
Set to Defaults, allows the installer to reset all parameters to the factory default values. It also resets the MAC ID to its factory default after DeviceNet Power is cycled if switches are set >63.
Important: Parameter setting changes downloaded to the
ArmorStart™ take effect immediately, even during a “running” status.
Important: Parameter setting changes made in a configuration tool
such as RSNetWorx for DeviceNet do not take effect in the ArmorStart until the installer applies or downloads the new settings to the device.
Page 44
3-2 Bulletin 280/281 Programmable Parameters
Parameter Group Listing The Bulletin 280/281 ArmorStart contains eight parameter groups.
The parameters shown in the DeviceLogix, DeviceNet, Starter Protection, User I/O, Misc. Parameter, ZIP Parameters, Starter Display and Starter Setup, are discussed in this chapter.
Table 3.1 Parameter Group Listing
DeviceLogix DeviceNet
1 Hdw Inputs 10 Autobaud Enable 22 Breaker Type 30 Off-to-On Delay 45 Keypad Mode 67 AutoRun Zip 101 Phase A Current 106 FLA Setting 2 Network Inputs 11 Consumed IO Assy 23 PrFltResetMode 31 On-to-Off Delay 46 Keypad Disable 68 Zone Produced EPR 102 Phase B Current 107 Overload Class 3 Network Outputs 12 Produced IO Assy 24 Pr Fault Enable 32 In Sink/Source 47 Set To Defaults 69 Zone Produced PIT 103 Phase C Current 108 OL Reset Level 4 Tri p St atu s 13 Prod Assy Word 0 25 Pr Fault Reset 33 OutA Pr FltState 56 Base Enclosure 70 Zone #1 MacId 104 Average Current 5 Starter Status 14 Prod Assy Word 1 26 StrtrDN FltState 34 OutA Pr FltValue 57 Base Option 71 Zone #2 MacId 105% Therm Utilized 6 DNet Status 15 Prod Assy Word 2 27 StrtrDN FltValue 35 OutA DN FltState 58 Wiring Option 72 Zone #3 MacId 7 Starter Command 16 Prod Assy Word 3 28 StrtrDN IdlState 36 OutA DN FltValue 59 Starter Enclosure 73 Zone #4 MacId 8 Network Override 17 Consumed IO Size 29 StrtrDN IdlV 9 Comm Override 18 Produced IO Size 61 Last PR Fault 38 OutA DN IdlValue 75 Zone #2 Health
19 Starter COS Mask 62 Warning Status 39 OutB Pr FltState 76 Zone #3 Health 20 Net Out COS Mask 40 OutB Pr FltValue 77 Zone #4 Health 21 DNet Voltage 41 OutB DN FltState 78 Zone #1 Mask
Starter
Protection
alue 37 OutA DN IdlState 60 Starter Options 74 Zone #1
User I/O Misc. ZIP Parameters Starter Display Starter Setup
42 OutB DN FltValue 79 Zone #2 Mask 43 OutB DN IdlState 80 Zone #3 Mask 44 OutB DN IdlValue 81 Zone #4 Mask
Health
82 Zone #1 Offset 83 Zone #2 Offset 84 Zone #3 Offset 85 Zone #4 Offset 86 Zone #1 EPR 87 Zone #2 EPR 88 Zone #3 EPR 89 Zone #4 EPR 90 Zone #1 Control 91 Zone #2 Control 92 Zone #3 Control 93 Zone #4 Control 94 Zone #1 Key 95 Zone #2 Key 96 Zone #3 Key 97 Zone #4 Key 98 Device Value Key 99 Zone Ctrl Enable
DeviceLogix™ Group
Hdw Inputs
This parameter provides status of hardware inputs
Parameter Number 1
Access Rule GET
Data Type WORD
Group DeviceLogix
Units
Minimum Value 0
Maximum Value 15
Default Value 0
Page 45
Bulletin 280/281 Programmable Parameters 3-3
Bit
3210 ——— XInput 0 — X Input 1 — X Input 2
X ———Input 3
Network Inputs
This parameter provides status of network inputs
1514131211109876543210
——————————————— X Net Input 0 —————————————— X — Net Input 1 ————————————— X —— Net input 2 ———————————— X ——— Net Input 3 ——————————— X ———— Net Input 4 —————————— X ————— Net Input 5 ————————— X —————— Net Input 6 ———————— X ——————— Net Input 7 ——————— X ———————— Net Input 8 —————— X ————————— Net Input 9 ————— X —————————— Net Input 10 ———— X ——————————— Net Input 11 ——— X ———————————— Net Input 12 —— X ————————————— Net Input 13 — X —————————————— Net Input 14
X ——————————————— Net Input 15
Parameter Number 2
Access Rule GET
Data Type WORD
Group DeviceLogix
Units
Minimum Value 0
Maximum Value 65535
Default Value 0
Bit
Function
Function
Network Outputs
This parameter provides status of network outputs
Parameter Number 3
Access Rule GET
Data Type WORD
Group DeviceLogix
Units
Minimum Value 0
Maximum Value 32767
Default Value 0
Page 46
3-4 Bulletin 280/281 Programmable Parameters
Bit
Function
14131211109876543210
—————————————— X Net Output 0 ————————————— X — Net Output 1 ———————————— X —— Net Output 2 ——————————— X ——— Net Output 3 —————————— X ———— Net Output 4 ————————— X ————— Net Output 5 ———————— X —————— Net Output 6 ——————— X ——————— Net Output 7 —————— X ———————— Net Output 8 ————— X ————————— Net Output 9 ———— X —————————— Net Output 10 ——— X ——————————— Net Output 11 —— X ———————————— Net Output 12 — X ————————————— Net Output 13
X —————————————— Net Output 14
Trip Status
Parameter Number 4
Access Rule GET This parameter provides trip identification
Data Type WORD
Group DeviceLogix Setup
Units
Minimum Value 0
Maximum Value 16383
Default Value 0
Bit
Function
131211109876543210
————————————— X Short Circuit ———————————— X — Overload ——————————— X —— Phase Loss —————————— X ——— Reserved ————————— X ———— Reserved ———————— X ————— Control Power ——————— X —————— I/O Fault —————— X ——————— Over Temperature ————— X ———————— Phase Imbalance ———— X ————————— Dnet Power Loss ——— X —————————— Reserved —— X ——————————— Reserved — X ———————————— EEprom
X ————————————— HW Fault
Page 47
Bulletin 280/281 Programmable Parameters 3-5
Starter Status
This parameter provides the status of the starter
131211109876543210
————————————— X Tripped ———————————— X — Warning ——————————— X —— Running Fwd —————————— X ——— Running Rev ————————— X ———— Ready ———————— X ————— Net Ctl Status ——————— X —————— Reserved —————— X ——————— At Reference ————— X ———————— Reserved ———— X ————————— Reserved ——— X —————————— Reserved —— X ——————————— Keypad Hand — X ———————————— HOA Status
X ————————————— 140M On
Parameter Number 5
Access Rule GET
Data Type WORD
Group DeviceLogix
Units
Minimum Value 0
Maximum Value 16383
Default Value 0
Bit
Function
DNet Status
This parameter provides status of the DeviceNet connection
Parameter Number 6
Access Rule GET
Data Type WORD
Group DeviceLogix
Units
Minimum Value 0
Maximum Value 32, 767
Default Value 0
Page 48
3-6 Bulletin 280/281 Programmable Parameters
Bit
1514131211109876543210
——————————————— X Explicit Connection —————————————— X — I/O Connection ————————————— X —— Explicit Fault ———————————— X ——— I/O Fault ——————————— X ———— I/O Idle ———————— X X X ————— Reserved ——————— X ———————— ZIP 1 Cnxn —————— X ————————— ZIP 1 Flt ————— X —————————— ZIP 2 Cnxn ———— X ——————————— ZIP 2 Flt ——— X ———————————— ZIP 3 Cnxn —— X ————————————— ZIP 3 Flt — X —————————————— ZIP 4 Cnxn
X ——————————————— ZIP 4 Flt
Starter Command
The parameter provides the status of the starter command.
Parameter Number 7
Access Rule GET
Data Type WORD
Group DeviceLogix
Units
Minimum Value 0
Maximum Value 255
Default Value 0
Function:
Bit
76543210
——————— X Run Fwd —————— X — Run Rev ————— X —— Fault Reset ———— X ——— Reserved ——— X ———— Reserved —— X ————— Reserved — X —————— User Out A
X ——————— User Out B
Network Override
This parameter allows for the local logic to override a Network fault 0 = Disable 1 = Enable
Parameter Number 8
Access Rule GET/SET
Data Type BOOL
Group DeviceLogix
Units
Minimum Value 0
Maximum Value 1
Default Value 0
Function:
Page 49
Bulletin 280/281 Programmable Parameters 3-7
DeviceNet Group
Comm Override
This parameter allows for local logic to override the absence of an I/O connection 0 = Disable 1 = Enable
Autobaud Enable
When this parameter is enabled, the device will attempt to determine the network baud rate and set its baud rate to the same, provided network traffic exists. At least one node with an established baud rate must exist on the network for autobaud to occur. 0 = Disable 1 = Enable
Parameter Number 9
Access Rule GET/SET
Data Type BOOL
Group DeviceLogix
Units
Minimum Value 0
Maximum Value 1
Default Value 0
Parameter Number 10
Access Rule GET/SET
Data Type BOOL
Group DeviceNet
Units
Minimum Value 0
Maximum Value 1
Default Value 1
Consumed I/O Assy
This parameter selects the format of the I/O data consumed. Enter a Consumed I/O assembly instance number to select a data format.
Produced I/O Assy
This parameter selects the format of the I/O data produced. Enter a Produces I/O assembly instance number to select a data format.
Parameter Number 11
Access Rule GET/SET
Data Type USINT
Group DeviceNet
Units
Minimum Value 0
Maximum Value 187
Default Value 160
Parameter Number 12
Access Rule GET/SET
Data Type USINT
Group DeviceNet
Units
Minimum Value 0
Maximum Value 190
Default Value 161
Page 50
3-8 Bulletin 280/281 Programmable Parameters
Prod Assy Word 0
This parameter is used to build bytes 0-1 for produced assembly 120
Produced Assy Word 1
This parameter is used to build bytes 2-3 for produced assembly 120
Prod Assy Word 2
This parameter is used to build bytes 4-5 for produced assembly 120
Parameter Number 13
Access Rule GET/SET
Data Type USINT
Group DeviceNet
Units
Minimum Value 0
Maximum Value 108
Default Value 1
Parameter Number 14
Access Rule GET/SET
Data Type USINT
Group DeviceNet
Units
Minimum Value 0
Maximum Value 108
Default Value 4
Parameter Number 15
Access Rule GET/SET
Data Type USINT
Group DeviceNet
Units
Minimum Value 0
Maximum Value 108
Default Value 5
Prod Assy Word 3
This parameter is used to build bytes 6-7 for produced assembly 120
Consumed I/O Size
This parameter reflects the consumed I/O data size in bytes.
Parameter Number 16
Access Rule GET/SET
Data Type USINT
Group DeviceNet
Units
Minimum Value 0
Maximum Value 108
Default Value 6
Parameter Number 17
Access Rule GET
Data Type USINT
Group DeviceNet
Units
Minimum Value 0
Maximum Value 8
Default Value 1
Page 51
Bulletin 280/281 Programmable Parameters 3-9
Produced I/O Size
This parameter reflects the produced I/O data size in bytes.
Starter COS Mask
This parameter allows the installer to define the change-of­state conditions that will result in a change-of-state message being produced
Bulletin 280 products. Bulletin 281 products.
Parameter Number 18
Access Rule GET
Data Type USINT
Group DeviceNet
Units
Minimum Value 0
Maximum Value 8
Default Value 2
Parameter Number 19
Access Rule GET/SET
Data Type WORD
Group DeviceNet
Units
Minimum Value 0
Maximum Value 16383
Default Value
16149 16157
Bit
Function
13 12 11 10 9 8 7 6 5 4 3 2 1 0
————————————— X Tripped ———————————— X — Warning —————————— X —— Running Fwd —————————— X ——— Running Rev ————————— X ———— Ready ———————— X ————— Reserved ——————— X —————— Reserved —————— X ——————— Reserved ————— X ———————— Input 0 ———— X ————————— Input 1 ——— X —————————— Input 2 —— X ——————————— Input 3 — X ———————————— HOA Status
X ————————————— 140M On
Page 52
3-10 Bulletin 280/281 Programmable Parameters
Net Out COS Mask
This parameter sets the bits that will trigger a COS message when network outputs change state.
Bit
14131211109876543210
—————————————— X Net Output 0 ————————————— X — Net Output 1 ———————————— X —— Net Output 2 ——————————— X ——— Net Output 3 —————————— X ———— Net Output 4 ————————— X ————— Net Output 5 ———————— X —————— Net Output 6 ——————— X ——————— Net Output 7 —————— X ———————— Net Output 8 ————— X ————————— Net Output 9 ———— X —————————— Net Output 10 ——— X ——————————— Net Output 11 —— X ———————————— Net Output 12 — X ————————————— Net Output 13
X —————————————— Net Output 14
Parameter Number 20
Access Rule GET/SET
Data Type WORD
Group DeviceNet
Units
Minimum Value 0
Maximum Value 32767
Default Value 0
Function
Starter Protection Group
Dnet Voltage
This parameter provides the voltage measurement for the DeviceNet network
Breaker Type
This parameter identifies the Bulletin 140M used in this product 0 = 140M-D8N-C10 1 = 140M-D8N-C25
Parameter Number 21
Access Rule GET
Data Type UINT
Group DeviceNet
Units xx.xx Volts
Minimum Value 0
Maximum Value 6500
Default Value 0
Parameter Number 22
Access Rule GET/SET
Data Type BOOL
Group Starter Protection
Units
Minimum Value 0
Maximum Value 1
Default Value 0
Page 53
Bulletin 280/281 Programmable Parameters 3-11
PrFlt Reset Mode
Parameter Number 23
Access Rule GET/SET This parameter configures the
Protection Fault reset mode.
0= Manual 1= Automatic
Data Type BOOL
Group Starter Protection
Units
Minimum Value 0
Maximum Value 1
Default Value 0
Pr Fault Enable
Parameter Number 24
Access Rule GET/SET This parameter enables the
Protection Fault by setting the bit to 1
Data Type WORD
Group Starter Protection Setup
Units
Minimum Value 0
Maximum Value 16383
Default Value 12419
Bit
Function
131211109876543210
————————————— X Short Circuit ———————————— X — Overload ——————————— X —— Phase Loss —————————— X ——— Reserved ————————— X ———— Reserved ———————— X ————— Control Power ——————— X —————— I/O Fault —————— X ——————— Over Temperature ————— X ———————— Phase Imbalance ———— X ————————— Dnet Power Loss ——— X —————————— Reserved —— X ——————————— Reserved — X ———————————— Eeprom
X ————————————— HW Fault
Pr Fault Reset
This parameter resets the Protection Fault on a transition of 0-->1.
Parameter Number 25
Access Rule GET/SET
Data Type BOOL
Group Starter Protection
Units
Minimum Value 0
Maximum Value 1
Default Value 0
Page 54
3-12 Bulletin 280/281 Programmable Parameters
StrtrDN FltState
This parameter in conjunction with Parameter 27 defines how the starter will respond when a DeviceNet fault occurs. When set to “1”, hold to last state occurs. When set to “0”, will go to DnFlt Value on DN faults as determined by Parameter 27.
StrtrDN FltValue
This parameter determines how the starter will be commanded in the event of a Device Net fault. 0 = OFF 1 = ON
StrtrDN IdlState
This parameter in conjunction with Parameter 29 defines how the starter will respond when a DeviceNet network is idle. When set to “1”, hold to last state occurs. When set to “0”, will go to DnIdl Value on DN Idle as determined by Parameter 29.
Parameter Number 26
Access Rule GET/SET
Data Type BOOL
Group Starter Protection
Units
Minimum Value 0
Maximum Value 1
Default Value 0
Parameter Number 27
Access Rule GET
Data Type BOOL
Group Starter Protection
Units
Minimum Value 0
Maximum Value 1
Default Value 0
Parameter Number 28
Access Rule GET/SET
Data Type BOOL
Group Starter Protection
Units
Minimum Value 0
Maximum Value 1
Default Value 0
StrtrDN IdlValue
This parameter determines the state that starter assumes when the network is idle and Parameter 28 is set to “0” 0 = OFF 1 = ON
Parameter Number 29
Access Rule GET
Data Type BOOL
Group Starter Protection
Units
Minimum Value 0
Maximum Value 1
Default Value 0
Page 55
Bulletin 280/281 Programmable Parameters 3-13
Last PR Fault
0 = None 1 = Hardware Short Circuit 2 = Software Short Circuit 3 = Motor Overload 4 = Reserved 5 = Phase Loss 6 – 12 = Reserved 13 = Control Power Loss 14 = Control Power Fuse 15 = I/O Short 16 = Output Fuse 17 = Overtemp 18= Reserved 19 = Phase Imbalance 20 = Reserved 21 = DNet Power Loss 22 = Internal Comm 23-26 = Reserved 27 = MCB EEPROM 28 = Base EEPROM 29 = Reserved 30 = Wrong Base 31 = Wrong CTs 32-100 = Reserved
Parameter Number 61
Access Rule GET
Data Type UINT
Group Starter Protection
Units
MinimumValue 0
Maximum Value 100
Default Value 0
Warning Status
This parameter warns the user of a condition, without faulting
15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0
X reserved
X reserved
X H a r d w a r e
X reserved
X reserved
Parameter Number 62 Access Rule GET Data Type WORD Group Starter Protection Units — MinimumValue 0 Maximum Value 65535 Default Value 0
Bit
X reserved
X Phase Loss
X reserved
X reserved
X Control Power
XIO Warning
X reserved
X Phase Imbalance
X DeviceNet
X reserved
Warning
X reserved
Page 56
3-14 Bulletin 280/281 Programmable Parameters
User I/O
Off-to-On Delay
This parameter allows the installer to program a time duration before an input is reported “ON”
On-to-Off Delay
This parameter allows the installer to program a time duration before an input is reported “OFF”
In Sink/Source
This parameter allows the installer to program the inputs to be sink or source.
0=Sink 1=Source
Parameter Number 30
Access Rule GET/SET
Data Type UINT
Group User I/O
Units ms
Minimum Value 0
Maximum Value 65.000
Default Value 0
Parameter Number 31
Access Rule GET/SET
Data Type UINT
Group User I/O
Units ms
Minimum Value 0
Maximum Value 65.000
Default Value 0
Parameter Number 32
Access Rule GET/SET
Data Type BOOL
Group User I/
Units
Minimum Value 0
Maximum Value 1
Default Value 0
OutA Pr FltState
This parameter in conjunction with Parameter 34 defines how Output A will respond when a protection trip occurs. When set to “1”, Output A continues to operate as command via the network. When set to “0”, Output A will open or close as determined by setting in Parameter 34
Parameter Number 33
Access Rule GET/SET
Data Type BOOL
Group User I/O
Units
Minimum Value 0
Maximum Value 1
Default Value 0
Page 57
Bulletin 280/281 Programmable Parameters 3-15
OutA Pr FltValue
This parameter determines the state the Out A assumes when a trip occurs and Parameter 33 is set to “0” 0 = Open 1 = Close
OutA DN FltState
This parameter in conjunction with Parameter 36 defines how Output A will respond when a DeviceNet network fault occurs. When set to “1”, Output A will hold state prior to trip occurrence. When set to “0”, Output A will open or close as determined by setting in Parameter 36
OutA DN FltValue
This parameter determines the state that Output A assumes when a DeviceNet network fault occurs and Parameter 35 is set to “0” 0 = Open 1 = Close
Parameter Number 34
Access Rule GET/SET
Data Type BOOL
Group User I/O
Units
Minimum Value 0
Maximum Value 1
Default Value 0
Parameter Number 35
Access Rule GET/SET
Data Type BOOL
Group User I/O
Units
Minimum Value 0
Maximum Value 1
Default Value 0
Parameter Number 36
Access Rule GET/SET
Data Type BOOL
Group User I/O
Units
Minimum Value 0
Maximum Value 1
Default Value 0
OutA DN IdlState
This parameter in conjunction with Parameter 38 defines how Output A will respond when the DeviceNet network is idle. When set to “0”, Output A will open or close as determined by the setting in Parameter 38 The DN Flt parameters supersede the Dn Idl parameters
OutA DN IdlValue
This parameter determines the state that Output A assumes when the network is idle and Parameter 37 is set to “0” 0 = Open 1 = Close
Parameter Number 37
Access Rule GET/SET
Data Type BOOL
Group User I/O
Units
Minimum Value 0
Maximum Value 1
Default Value 0
Parameter Number 38
Access Rule GET/SET
Data Type BOOL
Group User I/O
Units
Minimum Value 0
Maximum Value 1
Default Value 0
Page 58
3-16 Bulletin 280/281 Programmable Parameters
OutB Pr FltState
This parameter in conjunction with Parameter 40 defines how Output B will respond when a protection trip occurs. When set to “1”, Output B continue to operate as command via the network. When set to “0”, Output B will open or close as determined by setting in Parameter 40
OutB Pr FltValue
This parameter determines the state the Out B assumes when a protection trip occurs and Parameter 39 is set to “0” 0 = Open 1 = Close
OutB DN FltState
This parameter in conjunction with Parameter 42 defines how Output B will respond when a DeviceNet network fault occurs. When set to “1”, Output B will hold state prior to trip occurrence. When set to “0”, Output B will open or close as determined by setting in Parameter 42
Parameter Number 39
Access Rule GET/SET
Data Type BOOL
Group User I/O
Units
Minimum Value 0
Maximum Value 1
Default Value 0
Parameter Number 40
Access Rule GET/SET
Data Type BOOL
Group User I/O
Units
Minimum Value 0
Maximum Value 1
Default Value 0
Parameter Number 41
Access Rule GET/SET
Data Type BOOL
Group User I/O
Units
Minimum Value 0
Maximum Value 1
Default Value 0
OutB DN FltValue
This parameter determines the state that Output B assumes when a DeviceNet network fault occurs and Parameter 41 is set to “0” 0 = Open 1 = Close
OutB DN IdlState
This parameter in conjunction with Parameter 44 defines how Output B will respond when the DeviceNet network is idle. When set to “0”, Output B will open or close as determined by the setting in Parameter 44. The DN Flt parameters supersede the Dn Idl parameters
Parameter Number 42
Access Rule GET/SET
Data Type BOOL
Group User I/O
Units
Minimum Value 0
Maximum Value 1
Default Value 0
Parameter Number 43
Access Rule GET/SET
Data Type BOOL
Group User I/O
Units
Minimum Value 0
Maximum Value 1
Default Value 0
Page 59
Bulletin 280/281 Programmable Parameters 3-17
Misc. Group
OutB DN IdlValue
This parameter determines the state that Output B assumes when the network is idle and Parameter 43 is set to “0” 0 = Open 1 = Close
Keypad Mode
This parameter selects if the
keypad operation is maintained or momentary
0= Maintained 1= Momentary
Keypad Disable
This parameter disables all keypad function except for the “OFF” and “RESET” buttons
0=Not Disabled 1=Disabled
Parameter Number 44
Access Rule GET/SET
Data Type BOOL
Group User I/O
Units
Minimum Value 0
Maximum Value 1
Default Value 0
Parameter Number 45
Access Rule GET/SET
Data Type BOOL
Group Misc.
Units
Minimum Value 0
Maximum Value 1
Default Value 0
Parameter Number 46
Access Rule GET/SET
Data Type BOOL
Group Misc.
Units
Minimum Value 0
Maximum Value 1
Default Value 0
Set to Defaults
This parameter if set to 1 will set the device to the factory defaults
0=No Operation 1=Set to Defaults
Base Enclosure
Indicates the ArmorStart Base unit enclosure rating
Bit 0 = IP67 Bit 1 = Nema 4X Bit 2-15 = Reserved
Parameter Number 47
Access Rule GET/SET
Data Type BOOL
Group Misc.
Units
Minimum Value 0
Maximum Value 1
Default Value 0
Parameter Number 56
Access Rule GET
Data Type WORD
Group Misc.
Units
MinimumValue 0
Maximum Value 65535
Default Value 0
Page 60
3-18 Bulletin 280/281 Programmable Parameters
Base Options
Indicates the options for the ArmorStart Base unit
Bit 0 = Output Fuse Bit 1 = Safety Monitor Bit 2 = CP Fuse Detect Bits 3-7 = Reserved Bit 8 = 10A Base Bit 9 = 25A Base Bit 10-15 = Reserved
Wiring Options
Bit 0 = Conduit Bit 1 = Round Media Bits 2-15 = Reserved
Starter Enclosure
Bit 0 = IP67 Bit 1 = NEMA 4x Bits 2-15 reserved
Parameter Number 57
Access Rule GET
Data Type WORD
Group Misc.
Units
MinimumValue 0
Maximum Value 65535
Default Value 0
Parameter Number 58
Access Rule GET
Data Type WORD
Group Misc.
Units
MinimumValue 0
Maximum Value 65535
Default Value 0
Parameter Number 59
Access Rule GET
Data Type WORD
Group Misc.
Units
MinimumValue 0
Maximum Value 65535
Default Value
ZIP Parameters
Starter Option
Bit 0 = HOA Keypad Bit 1 = Safety Monitor Bit 2 = Source Brake
Bits 4-15 = Reserved
AutoRun Zip
Enables ZIP data production on power up
0=Disable 1=Enable
Parameter Number 60
Access Rule GET
Data Type WORD
Group Misc.
Units
MinimumValue 0
Maximum Value 66535
Default Value
Parameter Number 67
Access Rule Get/Set
Data Type BOOL
Group ZIP Parameters
Units
MinimumValue 0
Maximum Value 1
Default Value 0
Page 61
Bulletin 280/281 Programmable Parameters 3-19
Zone Produced EPR
The Expected Packet Rate in msec. Defines the rate at which ZIP data is produced. Defaults to 75 msec.
Zone Produced PIT
The Production Inhibit Time in msec. Defines the minimum time between Change of State data production
Zone #1 MAC ID
The node address of the device whose data is to be consumed for zone 1
Parameter Number 68
Access Rule GET/SET
Data Type UINT
Group Zip Parameter
Units msec
MinimumValue 0
Maximum Value 65535
Default Value 75
Parameter Number 69
Access Rule GET/SET
Data Type UINT
Group ZIP Parameters
Units msec
MinimumValue 0
Maximum Value 65535
Default Value 75
Parameter Number 70
Access Rule GET/SET
Data Type USINT
Group ZIP Parameters
Units
MinimumValue 0
Maximum Value 64
Default Value 64
Zone #2 MAC ID
The node address of the device whose data is to be consumed for zone 2
Zone #3 MAC ID
The node address of the device whose data is to be consumed for zone 3
Parameter Number 71
Access Rule GET/SET
Data Type USINT
Group ZIP Parameters
Units
MinimumValue 0
Maximum Value 64
Default Value 64
Parameter Number 72
Access Rule GET/SET
Data Type USINT
Group ZIP Parameters
Units
MinimumValue 0
Maximum Value 64
Default Value 64
Page 62
3-20 Bulletin 280/281 Programmable Parameters
Zone #4 MAC ID
The node address of the device whose data is to be consumed for zone 4
Zone #1 Health
Read Only consumed connection status for zone 1
0 = Healthy 1 = Unhealthy
Zone #2 Health
Read Only consumed connection status for zone 2
0 = Healthy 1 = Unhealthy
Parameter Number 73
Access Rule GET/SET
Data Type USINT
Group Misc. Option
Units
MinimumValue 0
Maximum Value 64
Default Value 64
Parameter Number 74
Access Rule GET
Data Type BOOL
Group ZIP Parameters
Units
MinimumValue 0
Maximum Value 1
Default Value 0
Parameter Number 75
Access Rule GET
Data Type BOOL
Group ZIP Parameters
Units
MinimumValue 0
Maximum Value 1
Default Value 0
Zone #3 Health
Read Only consumed connection status for zone 3
0 = Healthy 1 = Unhealthy
Zone #4 Health
Read Only consumed connection status for zone 4
0 = Healthy 1 = Unhealthy
Parameter Number 76
Access Rule GET
Data Type BOOL
Group ZIP Parameters
Units
MinimumValue 0
Maximum Value 1
Default Value 0
Parameter Number 77
Access Rule GET
Data Type BOOL
Group ZIP Parameters
Units
MinimumValue 0
Maximum Value 1
Default Value 0
Page 63
Bulletin 280/281 Programmable Parameters 3-21
Zone #1 Mask
Bit enumerated consumed data mask for zone 1. Each bit represents a byte in consumed data up to 8 bytes in length. If a mask bit is set, the corresponding consumed data byte is placed in the DeviceLogix data table
Zone #2 Mask
Bit enumerated consumed data mask for zone 2. Each bit represents a byte in consumed data up to 8 bytes in length. If a mask bit is set, the corresponding consumed data byte is placed in the DeviceLogix data table
Zone #3 Mask
Bit enumerated consumed data mask for zone 3. Each bit represents a byte in consumed data up to 8 bytes in length. If a mask bit is set, the corresponding consumed data byte is placed in the DeviceLogix data table
Parameter Number 78
Access Rule GET/SET
Data Type BYTE
Group ZIP Parameters
Units
MinimumValue 0
Maximum Value 255
Default Value 0
Parameter Number 79
Access Rule GET/SET
Data Type BYTE
Group ZIP Parameters
Units
MinimumValue 0
Maximum Value 255
Default Value 0
Parameter Number 80
Access Rule GET/SET
Data Type BYTE
Group ZIP Parameters
Units
MinimumValue 0
Maximum Value 255
Default Value 0
Zone #4 Mask
Bit enumerated consumed data mask for zone 4. Each bit represents a byte in consumed data up to 8 bytes in length. If a mask bit is set, the corresponding consumed data byte is placed in the DeviceLogix data table
Zone #1 Offset
The byte offset into the ZIP data portion of the DeviceLogix data table to place the chosen consumed data bytes for zone 1.
Parameter Number 81
Access Rule GET/SET
Data Type BYTE
Group ZIP Parameters
Units
MinimumValue 0
Maximum Value 255
Default Value 0
Parameter Number 82
Access Rule GET/SET
Data Type UINT
Group ZIP Parameters
Units
MinimumValue 0
Maximum Value 7
Default Value 0
Page 64
3-22 Bulletin 280/281 Programmable Parameters
Zone #2 Offset
The byte offset into the ZIP data portion of the DeviceLogix data table to place the chosen consumed data bytes for zone 2.
Zone #3 Offset
The byte offset into the ZIP data portion of the DeviceLogix data table to place the chosen consumed data bytes for zone 3.
Zone #4 Offset
The byte offset into the ZIP data portion of the DeviceLogix data table to place the chosen consumed data bytes for zone 4.
Parameter Number 83
Access Rule GET/SET
Data Type UNIT
Group ZIP Parameters
Units
MinimumValue 0
Maximum Value 7
Default Value 0
Parameter Number 84
Access Rule GET/SET
Data Type UNIT
Group ZIP Parameters
Units
MinimumValue 0
Maximum Value 1
Default Value 0
Parameter Number 85
Access Rule GET/SET
Data Type UNIT
Group ZIP Parameters
Units
MinimumValue 0
Maximum Value 1
Default Value 0
Zone #1 EPR
The Expected Packet Rate in msec. for the zone 1 consuming connection. If consumed data is not received in 4 times this value, the zone connection will time out and “Zone #1 Health” will report 1 = Not Healthy.
Zone #2 EPR
The Expected Packet Rate in msec. for the zone 1 consuming connection. If consumed data is not received in 4 times this value, the zone connection will time out and “Zone #2 Health” will report 1 = Not Healthy.
Parameter Number 86
Access Rule GET/SET
Data Type UINT
Group ZIP Parameters
Units msec
MinimumValue 0
Maximum Value 65535
Default Value 75
Parameter Number 87
Access Rule GET/SET
Data Type UNIT
Group ZIP Parameters
Units msec
MinimumValue 0
Maximum Value 65535
Default Value 75
Page 65
Bulletin 280/281 Programmable Parameters 3-23
Zone #3 EPR
The Expected Packet Rate in msec. for the zone 1 consuming connection. If consumed data is not received in 4 times this value, the zone connection will time out and “Zone #3 Health” will report 1 = Not Healthy.
Zone #4 EPR
The Expected Packet Rate in msec. for the zone 1 consuming connection. If consumed data is not received in 4 times this value, the zone connection will time out and “Zone #4 Health” will report 1 = Not Healthy.
Zone #1 Control
Zone 1 Control Word. Default Bit 0 and Bit 1 set, all other bits clear. Bit0=Security Enable 1=Enable data security Bit1=COS Cnxn 1=Consume DNet Group 2 COS messages Bit2=Poll Cnxn 1=Consume DNet Group 2 Poll Response msgs. Bit3=Strobe Cnxn 1=Consume DNet Group 2 Strobe Response msgs. Bit4=Multicast Poll 1=Consume Multicast Poll Response messages.
Parameter Number 88
Access Rule GET/SET
Data Type UNIT
Group ZIP Parameters
Units msec
MinimumValue 0
Maximum Value 65535
Default Value 75
Parameter Number 89
Access Rule GET/SET
Data Type UNIT
Group ZIP Parameters
Units msec
MinimumValue 0
Maximum Value 65535
Default Value 75
Parameter Number 90
Access Rule GET/SET
Data Type BYTE
Group ZIP Parameters
Units
MinimumValue 0
Maximum Value 255
Default Value 3
Page 66
3-24 Bulletin 280/281 Programmable Parameters
Zone #2 Control
Zone 2 Control Word. Default Bit 0 and Bit 1 set, all other bits clear. Bit0=Security Enable 1=Enable data security Bit1=COS Cnxn 1=Consume DNet Group 2 COS messages Bit2=Poll Cnxn 1=Consume DNet Group 2 Poll Response msgs. Bit3=Strobe Cnxn 1=Consume DNet Group 2 Strobe Response msgs. Bit4=Multicast Poll 1=Consume Multicast Poll Response messages
Zone #3 Control
Zone 3 Control Word. Default Bit 0 and Bit 1 set, all other bits clear. Bit0=Security Enable 1=Enable data security Bit1=COS Cnxn 1=Consume DNet Group 2 COS messages Bit2=Poll Cnxn 1=Consume DNet Group 2 Poll Response msgs. Bit3=Strobe Cnxn 1=Consume DNet Group 2 Strobe Response msgs. Bit4=Multicast Poll 1=Consume Multicast Poll Response messages
Parameter Number 91
Access Rule GET/SET
Data Type BYTE
Group ZIP Parameters
Units
MinimumValue 0
Maximum Value 255
Default Value 3
Parameter Number 92
Access Rule GET/SET
Data Type BYTE
Group ZIP Parameters
Units
MinimumValue 0
Maximum Value 255
Default Value 3
Zone #4 Control
Zone 3 Control Word. Default Bit 0 and Bit 1 set, all other bits clear. Bit0=Security Enable 1=Enable data security Bit1=COS Cnxn 1=Consume DNet Group 2 COS messages Bit2=Poll Cnxn 1=Consume DNet Group 2 Poll Response msgs. Bit3=Strobe Cnxn 1=Consume DNet Group 2 Strobe Response msgs. Bit4=Multicast Poll 1=Consume Multicast Poll Response messages
Parameter Number 93
Access Rule GET/SET
Data Type BYTE
Group ZIP Parameters
Units
MinimumValue 0
Maximum Value 255
Default Value 3
Page 67
Bulletin 280/281 Programmable Parameters 3-25
Zone #1 Key
When the “Security Enable” bit for zone 1 is enabled, this value must match the value of the Device Value Key parameter in the device whose data is being consumed for zone 1.
Zone #2 Key
When the “Security Enable” bit for zone 2 is enabled, this value must match the value of the Device Value Key parameter in the device whose data is being consumed for zone 2.
Zone #3 Key
When the “Security Enable” bit for zone 3 is enabled, this value must match the value of the Device Value Key parameter in the device whose data is being consumed for zone 3.
Parameter Number 94
Access Rule GET/SET
Data Type UINT
Group ZIP Parameters
Units
MinimumValue 0
Maximum Value 65535
Default Value 0
Parameter Number 95
Access Rule GET/SET
Data Type UINT
Group ZIP Parameters
Units
MinimumValue 0
Maximum Value 65535
Default Value 0
Parameter Number 96
Access Rule GET/SET
Data Type UINT
Group ZIP Parameters
Units
MinimumValue 0
Maximum Value 65535
Default Value 0
Zone #4 KEY
When the “Security Enable” bit for zone 4 is enabled, this value must match the value of the Device Value Key parameter in the device whose data is being consumed for zone 4
Device Value Key
This value is produced in the last 2 bytes of data when one of the ZIP assemblies is chosen for data production.
Parameter Number 97
Access Rule GET/SET
Data Type UINT
Group ZIP Parameters
Units
MinimumValue 0
Maximum Value 65535
Default Value 0
Parameter Number 98
Access Rule GET/SET
Data Type UINT
Group ZIP Parameters
Units
MinimumValue 0
Maximum Value 65535
Default Value 0
Page 68
3-26 Bulletin 280/281 Programmable Parameters
Starter Display
Zone Ctrl Enable
Global enable for ZIP peer-to­peer messaging. This parameter must be disabled before any changes to the ZIP configuration f or th e d e vi ce ca n be ma de . 0=Disable 1=Enable
Phase A Current
This parameter provides the current of Phase A measured n increments of 1/10
th
of an
ampere
Phase B Current
This parameter provides the current of Phase B measured in increments of 1/10
th
of an
ampere
Parameter Number 99
Access Rule GET/SET
Data Type BOOL
Group ZIP Parameters
Units
MinimumValue 0
Maximum Value 1
Default Value 0
Parameter Number 101
Access Rule GET/SET
Data Type INT
Group Starter Display
Units xx.x Amps
Minimum Value 0
Maximum Value 32767
Default Value 0
Parameter Number 102
Access Rule GET/SET
Data Type INT
Group Starter Display
Units xx.x Amps
Minimum Value 0
Maximum Value 32767
Default Value 0
Phase C Current
This parameter provides the current of Phase C measured in increments of 1/10
th
of an
ampere
Average Current
This parameter provides the average current measured in increments of 1/10th of an ampere
Parameter Number 103
Access Rule GET/SET
Data Type INT
Group Starter Display
Units xx.x Amps
Minimum Value 0
Maximum Value 32767
Default Value 0
Parameter Number 104
Access Rule GET/SET
Data Type INT
Group Starter Display
Units xx.x Amps
Minimum Value 0
Maximum Value 32767
Default Value 0
Page 69
Bulletin 280/281 Programmable Parameters 3-27
Starter Setup
% Therm Utilized
This parameter displays the % Thermal Capacity used
FLA Setting
The motor’s full load current rating is programmed in this parameter
Parameter Number 105
Access Rule GET/SET
Data Type USINT
Group Starter Display
Units % FLA
Minimum Value 0
Maximum Value 100
Default Value 0
Parameter Number 106
Access Rule GET/SET
Data Type INT
Group Starter Setup
Units xx.x Amps
Minimum Value See Table 3.2
Maximum Value See Table 3.2
Default Value See Table 3.2
Table 3.2 FLA Setting Ranges and Default Values (with indicated setting
precision)
FLA Current Range (A)
Minimum Value Maximum Value
0.24 1.2 0.24
0.5 2.5 0.5
1.1 5.5 1.1
3.2 16.0 3.2
Overload Class
This parameter allows the installer to select the overload class
1= Overload Class 10 2= Overload Class 15 3= Overload Class 20
OL Reset Level
This parameter allows the installer select the % Thermal Capacity which an overload can be cleared
Parameter Number 107
Parameter Number 108
Default Value
Access Rule GET/SET
Data Type USINT
Group Starter Setup
Units xx.x Amps
Minimum Value 1
Maximum Value 3
Default Value 1
Access Rule GET/SET
Data Type USINT
Group Starter Setup
Units % FLA
Minimum Value 0
Maximum Value 100
Default Value 75
Page 70
3-28 Bulletin 280/281 Programmable Parameters
Notes
Page 71
Chapter 4
Bulletin 284 Programmable Parameters for Sensorless Vector Controllers
This chapter describes each programmable parameter and its function for Bulletin 284 Sensorless Vector Controllers.
Parameter Programming Each Distributed Motor Controller type will have a common set of
parameters followed by a set of parameters that pertain to the individual starter type.
Refer to Chapter 6, DeviceNet™ Commissioning, for instructions in using RSNetworx™ for DeviceNet™ to modify parameter settings.
Important: Resetting the Factory Default Values Parameter 47, Set
to Defaults, allows the installer to reset all parameter to
the factory default values. It also resets the MA C ID to its factory default after DeviceNet Power is cycled if switches are set >63.
Important: Parameter setting changes downloaded to the
ArmorStart® take effect immediately, even during a running status.
Important: Parameter setting changes made in a configuration tool
such as RSNetworx for DeviceNet do not take effect in the ArmorStart until the installer applies or downloads the new settings to the device.
Page 72
4-2 Bulletin 284 Programmable Parameters for Sensorless Vector Controllers
Parameter Group Listing The Bulletin 284D ArmorStart contains ten parameter groups. The
parameters shown in the DeviceLogix™, DeviceNet , Starter Protection , User I/O , Misc. Parameter , Drive DeviceNet , Display Group, Basic Program, and Advanced Program will be discussed in this chapter.
Table 4.1 Paramerer Group Listing
DeviceLogix DeviceNet Starter Protection User I/O Miscellaneous Drive DeviceNet
1 Hdw Inputs 2 Network Inputs 3 Network Outputs 4 Tri p Status 5 Starter Status 6 DNet Status 7 Starter Command 8 Network Override 9 Comm Override
Display Group ZIP Parameters Basic Setup Advanced Setup
101 Output Freq 102 Commanded Freq 103 Output Current 104 Output Voltage 105 DC Bus Voltage 106 Drive Status 107 Fault 1 Code 108 Fault 2 Code 109 Fault 3 Code 110 Process Display 112 Control Source 113 Contrl In Status 114 Dig In Status 115 Comm Status 116 Control SW Ver 117 Drive Type 118 Elapsed Run Time 119 Tes t point D a t a 120 Analog In 0…10V 121 Analog In 4…20 mA 122 Output Power 123 Output Power Fctr 124 Drive Temp 125 Counter Status 126 Timer Status 127 Timer Stat Fract 128 Stp Logic Status 129 Torque Current
10 Autobaud Enable 11 Consumed IO Assy 12 Produced IO Assy 13 Prod Assy Word 0 14 Prod Assy Word 1 15 Prod Assy Word 2 16 Prod Assy Word 3 17 Consumed IO Size 18 Produced IO Size 19 Starter COS Mask 20 Net Out COS Mask 21 DNet Voltage
67 AutoRun Zip 68 Zone Produced EPR 69 Zone Produced PIT 70 Zone #1 MacId 71 Zone #2 MacId 72 Zone #3 MacId 73 Zone #4 MacId 74 Zone #1 Health 75 Zone #2 Health 76 Zone #3 Health 77 Zone #4 Health 78 Zone #1 Mask 79 Zone #2 Mask 80 Zone #3 Mask 81 Zone #4 Mask 82 Zone #1 Offset 83 Zone #2 Offset 84 Zone #3 Offset 85 Zone #4 Offset 86 Zone #1 EPR 87 Zone #2 EPR 88 Zone #3 EPR 89 Zone #4 EPR 90 Zone #1 Control 91 Zone #2 Control 92 Zone #3 Control 93 Zone #4 Control 94 Zone #1 Key 95 Zone #2 Key 96 Zone #3 Key 97 Zone #4 Key 98 Device Value Key 99 Zone Ctrl Enable
22 Breaker Type 23 PrFltResetMode 24 Pr Fault Enable 25 Pr Fault Reset 26 StrtrDN FltState 27 StrtrDN FltValue 28 StrtrDN IdlState 29 StrtrDN IdlValue 61 RAST Pr Fault 62 Warning Status
131 Motor NP Volts 132 Motor NP Hertz 133 Motor OL Current 134 Minimum Freq 135 Maximum Freq 136 Start Source 137 Stop Mode 138 Speed Reference 139 Accel Time 1 140 Decel Time 1 141 Reset To Defalts 142 Reserved 143 Motor OL Ret
30 Off-to-On Delay 31 On-to-Off Delay 32 In Sink/Source 33 OutA Pr FltState 34 OutA Pr FltValue 35 OutA DN FltState 36 OutA DN FltValue 37 OutA DN IdlState 38 OutA DN IdlValue 39 OutB Pr FltState 40 OutB Pr FltValue 41 OutB DN FltState 42 OutB DN FltValue 43 OutB DN IdlState 44 OutB DN IdlValue
151 Digital In1 Sel 152 Digital In2 Sel 153 Digital In3 Sel 154 Digital In4 Sel 155 Relay Out Sel 156 Relay Out Level 157 Relay Out LevelF 158 Opto Out1 Sel 159 Opto Out1 Level 160 Opto Out1 LevelF 161 Opto Out2 Sel 162 Opto Out2 Level 163 DB Threshold 164 Opto Out Logic 165 Analog Out Sel 166 Analog Out High 167 Accel Time 2 168 Decel Time 2 169 Internal Freq 170 Preset Freq 0 171 Preset Freq 1 172 Preset Freq 2 173 Preset Freq 3 174 Preset Freq 4 175 Preset Freq 5 176 Preset Freq 6 177 Preset Freq 7 178 Jog Frequency 179 Jog Accel/Decel 180 DC Brake Time 181 DC Brake Level 182 DB Resistor Sel 183 S Curve % 184 Boost Select 185 Start Boost 186 Break Voltage 187 Break Frequency 188 Maximum Voltage
45 Keypad Mode 46 Keypad Disable 47 Set To Defaults 56 Base Enclosure 57 Base Options 58 Wiring Options 59 Starter Enclosure 60 Starter Options
189 Current Limit 1 190 Motor OL Select 191 PWM Frequency 192 Auto Rstrt Tries 193 Auto Rstrt Delay 194 Start At PowerUp 195 Reverse Disable 196 Flying Start En 197 Compensation 198 SW Current Trip 199 Process Factor 200 Fault Clear 201 Program Lock 202 Tes t point S e l
203 Comm Data Rate
204 Comm Node Addr 205 Comm Loss Action 206 Comm Loss Time 207 Comm Format 208 Language 209 Anlg Out Setpt 210 Anlg In 0…10V Lo 211 Anlg In 0…10V Hi 212 Anlg In 4…20 mA Lo 213 Anlg In4…20 mA Hi 214 Slip Hertz @ FLA 215 Process Time Lo 216 Process Time Hi 217 Bus Reg Mode 218 Current Limit 2 219 Skip Frequency 220 Skip Freq Band 221 Stall Fault Time 222 Analog In Loss 223 10V Bipolar Enbl 224 Var PWM Disable 225 Torque Perf Mode 226 Motor NP FLA
48 Drive Control 49 Drvin PrFltState 50 Drvin PrFltValue 51 Drvin DNFltState 52 Drvin DNFltValue 53 Drvin DNFltState 54 Drvin DNFltValue 55 High Speed Enable
227 Autotune 228 IR Voltage Drop 229 Flux Current Ref 230 PID Trim Hi 231 PID Trim Lo
232 PID Ref Sel
233 PID Feedback Sel 234 PID Prop Gain 235 PID Integ Time 236 PID Diff Rate 237 PID Setpoint 238 PID Deadband 239 PID Preload 240 Stp Logic 0 241 Stp Logic 1 242 Stp Logic 2 243 Stp Logic 3 244 Stp Logic 4 245 Stp Logic 5 246 Stp Logic 6 247 Stp Logic 7 248 Reserved 249 Reserved 250 Stp Logic Time 0 251 Stp Logic Time 1 252 Stp Logic Time 2 253 Stp Logic Time 3 254 Stp Logic Time 4 255 Stp Logic Time 5 256 Stp Logic Time 6 257 Stp Logic Time 7 258 Reserved 259 Reserved 260 EM Brk Off Delay 261 EM Brk On Delay 262 MOP Reset Sel
Page 73
DeviceLogix Group
Bulletin 284 Programmable Parameters for Sensorless Vector Controllers 4-3
.
Hdw Inputs
This parameter provides status of hardware inputs.
Network Inputs
This parameter provides status of network inputs.
Parameter Number 1
Access Rule GET
Data Type WORD
Group DeviceLogix
Units — Minimum Value 0 Maximum Value 15
Default Value 0
Bit
Function
3 2 1 0
X Input 0 — X Input 1 — X Input 2
X Input 3
This parameter is not available with the Bulletin 284A.
Parameter Number 2
Access Rule GET
Data Type WORD
Group DeviceLogix
Units — Minimum Value 0 Maximum Value 65535
Default Value 0
Bit
Function
15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0
X Net Input 0 — X Net Input 1 — X Net input 2 — X Net Input 3 — X Net Input 4 — X Net Input 5 — X Net Input 6 — X Net Input 7 — X Net Input 8 — X Net Input 9 — X Net Input 10 — X Net Input 11 — X Net Input 12 — X Net Input 13 — X Net Input 14
X Net Input 15
Page 74
4-4 Bulletin 284 Programmable Parameters for Sensorless Vector Controllers
Network Outputs
This parameter provides status of network outputs.
Bit
14 13 12 11 10 9 8 7 6 5 4 3 2 1 0
X Net Output 0 — X Net Output 1 — X Net Output 2 — X Net Output 3 — X Net Output 4 — X Net Output 5 — X Net Output 6 — X Net Output 7 — X Net Output 8 — X Net Output 9 — X Net Output 10 — X Net Output 11 — X Net Output 12 — X Net Output 13
X Net Output 14
Parameter Number 3
Access Rule GET
Data Type WORD
Group DeviceLogix
Units — Minimum Value 0 Maximum Value 32767
Default Value 0
Function
Page 75
Bulletin 284 Programmable Parameters for Sensorless Vector Controllers 4-5
Trip Status
This parameter provides trip identification.
Bit
15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0
X Short Circuit — X Overload — X Phase Short — X Ground Fault — X Stall — X Control Power — X IO Fault — X Overtemperature — X Over Current — X Dnet Power Loss — X Internal Comm X DC Bus Fault — X EEprom — X HW Fault — X Restart Retries
X Misc. Fault
Parameter Number 4
Access Rule GET
Data Type WORD
Group DeviceLogix
Units — Minimum Value 0 Maximum Value 65535
Default Value 0
Function
Indicates DB1 Comm Fault for Bulletin 284.
Page 76
4-6 Bulletin 284 Programmable Parameters for Sensorless Vector Controllers
Starter Status
This parameter provides the status of the starter.
Parameter Number 5
Access Rule GET
Data Type WORD
Group DeviceLogix
Units — Minimum Value 0 Maximum Value 65535
Default Value 0
Bit
Function
15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0
X Tr ippe d — X Warning — X Running Fwd — X Running Rev — X Ready — X Net Ctl Status — X Net Ref Status — X At Reference — X DrvOpto1 — X DrvOpto2 — X Keypad Jog — X Keypad Hand — X HOA Status — X 140M On — X Contactor 1
X Contactor 2
Refers to Source Brake contactor status.Refers to Output contactor status.
Page 77
Bulletin 284 Programmable Parameters for Sensorless Vector Controllers 4-7
Dnet Status
This parameter provides status of the DeviceNet connection.
Bit
15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0
X Exp Cnxn — X IO Cnxn — X Exp Flt — X IO Flt — X IO Idle — X X X Reserved — X ZIP 1 Cnxn — X ZIP 1 Flt — X ZIP 2 Cnxn — X ZIP 2 Flt — X ZIP 3 Cnxn — X ZIP 3 Flt — X ZIP 4 Cnxn
X ZIP 4 Flt
Parameter Number 6
Access Rule GET
Data Type WORD
Group DeviceLogix
Units — Minimum Value 0 Maximum Value 31
Default Value 0
Function
Starter Command
This parameter provides the command the starter.
Parameter Number 7
Access Rule GET/SET
Data Type WORD
Group DeviceLogix
Units — Minimum Value 0 Maximum Value 255
Default Value 0
Bit
Function
7 6 5 4 3 2 1 0
X Run Fwd — X Run Rev — X Fault Reset — X Jog Fwd — X Jog Rev — X Reserved — X User Out A
X User Out B
Page 78
4-8 Bulletin 284 Programmable Parameters for Sensorless Vector Controllers
Network Override
This parameter allows for the local logic to override a Network fault. 0 = Disable 1 = Enable
Comm Override
This parameter allows for local logic to override a loss of an I/O connection. 0 = Disable 1 = Enable
DeviceNet Group
Autobaud Enable
When this parameter is enabled, the device will attempt to determine the network baud rate and set its baud rate to the same, provided network traffic exists. At least one node with an established baud rate must exist on the network for autobaud to occur. 0 = Disable 1 = Enable
Parameter Number 8
Access Rule GET/SET
Data Type BOOL
Group DeviceLogix
Units — Minimum Value 0 Maximum Value 1
Default Value 0
Parameter Number 9
Access Rule GET/SET
Data Type BOOL
Group DeviceLogix
Units — Minimum Value 0 Maximum Value 1
Default Value 0
Parameter Number 10
Access Rule GET/SET
Data Type BOOL
Group DeviceNet
Units — Minimum Value 0 Maximum Value 1
Default Value 1
Consumed I/O Assy
This parameter selects the format of the I/O data consumed
Produced I/O Assy
This parameter selects the format of the I/O data produced.
Parameter Number 11
Access Rule GET/SET
Data Type USINT
Group DeviceNet
Units — Minimum Value 0 Maximum Value 188
Default Value 164
Parameter Number 12
Access Rule GET/SET
Data Type USINT
Group DeviceNet
Units — Minimum Value 0 Maximum Value 190
Default Value 165
Page 79
Bulletin 284 Programmable Parameters for Sensorless Vector Controllers 4-9
Prod Assy Word 0
This parameter is used to build bytes 0-1 for produced assembly 120.
Produced Assy Word 1
This parameter is used to build bytes 2-3 for produced assembly 120
Prod Assy Word 2
This parameter is used to build bytes 4-5 for produced assembly 120.
Parameter Number 13
Access Rule GET/SET
Data Type USINT
Group DeviceNet
Units — Minimum Value 0 Maximum Value 262
Default Value 1
Parameter Number 14
Access Rule GET/SET
Data Type USINT
Group DeviceNet
Units — Minimum Value 0 Maximum Value 262
Default Value 4
Parameter Number 15
Access Rule GET/SET
Data Type USINT
Group DeviceNet
Units — Minimum Value 0 Maximum Value 262
Default Value 5
Prod Assy Word 3
This parameter is used to build bytes 6-7 for produced assembly 120.
Consumer I/O Size
This parameter maps to the Scanner Tx Size.
Parameter Number 16
Access Rule GET/SET
Data Type USINT
Group DeviceNet
Units — Minimum Value 0 Maximum Value 262
Default Value 6
Parameter Number 17
Access Rule GET
Data Type USINT
Group DeviceNet
Units — Minimum Value 0 Maximum Value 8
Default Value 4
Page 80
4-10 Bulletin 284 Programmable Parameters for Sensorless Vector Controllers
Produced I/O Size
This parameter maps to the Scanners Rx Size.
Starter COS Mask
This parameter allows the installer to define the change-of-state conditions that will result in a change-of-state message being produced.
Bit
13 12 11 10 9 8 7 6 5 4 3 2 1 0
X Tr ippe d — X Warning — X Running Fwd — X Running Rev — X Ready — X Net Ctl Status — X Net Ref Status — X At Reference — X User Input 1 — X User Input 2 — X User Input 3 — X User Input 4 — X HOA Status
X 140M On
Parameter Number 18
Access Rule GET
Data Type USINT
Group DeviceNet
Units — Minimum Value 0 Maximum Value 8
Default Value 4
Parameter Number 19
Access Rule GET/SET
Data Type WORD
Group DeviceNet
Units — Minimum Value 0 Maximum Value 16383
Default Value 16383
Function
Page 81
Bulletin 284 Programmable Parameters for Sensorless Vector Controllers 4-11
Net Out COS Mask
This parameter sets the bit that will trigger a COS message on the network output.
Bit
14 13 12 11 10 9 8 7 6 5 4 3 2 1 0
X Net Output 0 — X Net Output 1 — X Net Output 2 — X Net Output 3 — X Net Output 4 — X Net Output 5 — X Net Output 6 — X Net Output 7 — X Net Output 8 — X Net Output 9 — X Net Output 10 — X Net Output 11 — X Net Output 12 — X Net Output 13
X Net Output 14
Parameter Number 20
Access Rule GET/SET
Data Type WORD
Group DeviceNet
Units — Minimum Value 0 Maximum Value 32767
Default Value 0
Function
Dnet Voltage
This parameter provides the voltage measurement for the DeviceNet network.
Parameter Number 21
Access Rule GET
Data Type UINT
Group DeviceNet
Units V Minimum Value 0 Maximum Value 6500
Default Value 0
Page 82
4-12 Bulletin 284 Programmable Parameters for Sensorless Vector Controllers
Starter Protection Group
Breaker Type
This parameter identifies the Bulletin 140M used in this product. 0 = 140M-D8N-C10 1 = 140M-D8N-C25
PrFlt Reset Mode
This parameter is the Protection Fault reset mode. 0 = Manual 1 = Automatic
Pr Fault Enable
This parameter enables the Protection Fault by setting the bit to 1.
Parameter Number 22
Access Rule GET
Data Type BOOL
Group Starter Protection
Units — Minimum Value 0 Maximum Value 1
Default Value
Parameter Number 23
Access Rule GET/SET
Data Type BOOL
Group Starter Protection
Units — Minimum Value 0 Maximum Value 1
Default Value 0
Parameter Number 24
Access Rule GET/SET
Data Type WORD
Group Starter Protection
Units — Minimum Value 0 Maximum Value 65535
Default Value 64927
Bit
15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0
X Short Circuit — X Overload — X Phase Short — X Ground Fault — X Stall — X Control Power — X IO Fault — X Overtemperature — X Over Current — X Dnet Power Loss — X Internal Comm — X DC Bus Fault — X EEprom — X HW Fault — X Restart Retries
X Misc. Fault
Function
Page 83
Bulletin 284 Programmable Parameters for Sensorless Vector Controllers 4-13
Pr Fault Reset
This parameter resets the Protection Fault on a transition 0 > 1.
StrtrDN FltState
This parameter in conjunction with Parameter 27 defines how the starter will respond when a DeviceNet fault occurs. When set to 1, hold to last state occurs. When set to 0, will go to DnFlt Value on DN faults as determined by Parameter 27.
StrtrDN FltValue
This parameter determines if the starter will be commanded in the event of a DevceNet fault. 0 = OFF 1 = ON
Parameter Number 25
Access Rule GET/SET
Data Type BOOL
Group Starter Protection
Units — Minimum Value 0 Maximum Value 1
Default Value 0
Parameter Number 26
Access Rule GET/SET
Data Type BOOL
Group Starter Protection
Units — Minimum Value 0 Maximum Value 1
Default Value 0
Parameter Number 27
Access Rule GET/SET
Data Type BOOL
Group Starter Protection
Units — Minimum Value 0 Maximum Value 1
Default Value 0
StrtrDN IdlState
This parameter in conjunction with Parameter 29 defines how the starter will respond when a DeviceNet network is idle. When set to 1, hold to last state occurs. When set to 0, will go to DnFlt Value on DN faults as determined by Parameter 29. 0 = Go to Idle Value 1 = Hold Last State
StrtrDN IdlValue
This parameter determines the state that starter assumes when the network is idle and Parameter 28 is set to 0. 0 = OFF 1 = ON
Parameter Number 28
Access Rule GET/SET
Data Type BOOL
Group Starter Protection
Units — Minimum Value 0 Maximum Value 1
Default Value 0
Parameter Number 29
Access Rule GET/SET
Data Type BOOL
Group Starter Protection
Units — Minimum Value 0 Maximum Value 1
Default Value 0
Page 84
4-14 Bulletin 284 Programmable Parameters for Sensorless Vector Controllers
Last PR Fault
1 =Hdw Short Ckt 2 = Reserved 3 =Motor Overload (PF Fault Code 7) 4 =Drive Overload (PF Fault Code 64) 5 = Phase U to Gnd (PF Fault Code 38) 6 = Phase V to Gnd (PF Fault Code 39) 7 = Phase W to Gnd (PF Fault Code 40) 8 = Phase UV Short (PF4 Fault Code 41) 9 = Phase UW Short (PF Fault Code 42) 10 = Phase VW Short (PF Fault Code 43) 11 = Ground Fault (PF Fault Code 13) 12 = Stall (PF Fault Code 6) 13 = Control Pwr Loss 14 = Control Pwr Fuse 15 = Input Short 16 = Output Fuse 17 = Over Temp 18 = Heatsink OvrTmp (PF Fault Code 8) 19 = HW OverCurrent (PF Fault Code 12) 20 = SW OverCurrent (PF Fault Code 63) 21 = DNet Power Loss 22 = Internal Comm 23 = Drive Comm Loss (PF Fault Code 81) 24 = Power Loss (PF Fault Code 3) 25 = Under Voltage (PF Fault Code 4) 26 = Over Voltage (PF Fault Code 5) 27 = MCB EEPROM 28 = Base EEPROM 29 =Drive EEPROM (PF Fault Code 100) 30 = Wrong Base 31 = Fan RPM 32 = Power Unit (PF Fault Code 70) 33 = Drive IO Brd (PF Fault Code122) 34 = Restart Retries (PF Fault Code 33) 35 = Drive Aux In Flt (PF Fault Code 2) 36 = Analog Input (PF Fault Code 29) 37 = Drv Param Reset (PF Fault Code 48) 38 = SCV Autotune (PF Fault Code 80) 39 = Source Brake 40 = Reserved 41 = DB1 Comm 42 = DB1 Fault
Parameter Number 61
Access Rule GET
Data Type UINT
Group Starter Protection
Units
Minimum Value 0
Maximum Value 45
Default Value 0
Warning Status
This parameter warns the user of a condition, without faulting
Parameter Number 62
Access Rule GET
Data Type WORD
Group Starter Protection
Units
Minimum Value 0
Maximum Value 65535
Default Value 0
Page 85
User I/O Group
Bulletin 284 Programmable Parameters for Sensorless Vector Controllers 4-15
Off-to-On Delay
This parameter allows the installer to program a time duration before being reported ON.
On-to-Off Delay
This parameter allows the installer to program a time duration before being reported OFF.
In Sink/Source
This parameter allows the installer to program the inputs to be sink or source. 0 = Sink 1 = Source
Parameter Number 30
Access Rule GET/SET
Data Type UINT
Group User I/O
Units ms Minimum Value 0 Maximum Value 65.000
Default Value 0
Parameter Number 31
Access Rule GET/SET
Data Type UINT
Group User I/O
Units ms Minimum Value 0 Maximum Value 65.000
Default Value 0
Parameter Number 32 Access Rule GET/SET Data Type BOOL Group User I/O Units — Minimum Value 0 Maximum Value 1 Default Value 0
Page 86
4-16 Bulletin 284 Programmable Parameters for Sensorless Vector Controllers
Miscellaneous Group
Keypad Mode
This parameter selects if the keypad operation is maintained or momentary. 0 = Maintained 1 = Momentary
Parameter Number 45
Access Rule GET/SET
Data Type BOOL
Group Misc.
Units — Minimum Value 0 Maximum Value 1
Default Value 0
Keypad Disable
This parameter disables all keypad function except for the OFF and RESET buttons. 0 = Not Disabled 1 = Disabled
Set to Defaults
This parameter if set to 1 will set the device to the factory defaults. 0 = No Operation 1 = Set to Defaults
Base Enclosure
Indicates the ArmorStart Base unit enclosure rating
0 = IP67 1 = Nema 4X 2-15 = Reserved
Parameter Number 46
Access Rule GET/SET
Data Type BOOL
Group Misc.
Units — Minimum Value 0 Maximum Value 1
Default Value 0
Parameter Number 47
Access Rule GET/SET
Data Type BOOL
Group Misc.
Units — Minimum Value 0 Maximum Value 1
Default Value 0
Parameter Number 56
Access Rule GET
Data Type WORD
Group Misc.
Units Minimum Value 0 Maximum Value
Default Value 0
Base Options
Indicates the options for the ArmorStart Base unit
Bit 0 = Output Fuse Bit 1 = Safety Monitor Bit 2 = CP Fuse Detect Bits 3-7 = Reserved Bit 8 = 10A Base Bit 9 = 25A Base Bit 10-15 = Reserved
Parameter Number 57
Access Rule GET
Data Type WORD
Group Misc.
Units Minimum Value 0 Maximum Value
Default Value 0
Page 87
Bulletin 284 Programmable Parameters for Sensorless Vector Controllers 4-17
Wiring Options
Bit 0 = Conduit Bit 1 = Round Media Bits 2-15 = Reserved
Starter Enclosure
Bit 0 = IP67 Bit 1 = NEMA 4x Bits 2-15 reserved
Starter Option
Bit 0 = HOA Keypad Bit 1 = Safety Monitor Bit 2 = Source Brake Bit 3 = Control Brake Bit 4 = Dynamic Brake Bit 5 = Output Contactor Bit 6 = EMI Filter Bit 7 = 0-10V Analog In
Bits 8-15 = Reserved
Parameter Number 58
Access Rule GET
Data Type WORD
Group Misc.
Units Minimum Value 0 Maximum Value
Default Value 0
Parameter Number 59
Access Rule GET
Data Type WORD
Group Misc.
Units Minimum Value 0 Maximum Value
Default Value 0
Parameter Number 60
Access Rule GET
Data Type WORD
Group Misc.
Units Minimum Value 0 Maximum Value 66535
Default Value 0
Page 88
4-18 Bulletin 284 Programmable Parameters for Sensorless Vector Controllers
Drive DeviceNet Group
Drive Control
This parameter provides the status of drive parameters.
11109876543210
——————————— X Accel 1 En —————————— X — Accel 2 En ————————— X —— Decel 1 En ———————— X ——— Decel 3 En ——————— X ———— Freq Sel 0 —————— X ————— Freq Sel 1 ————— X —————— Freq Sel 2 ———— X ——————— Reserved ——— X ———————— Drv In 1 —— X ————————— Drv In 2 — X —————————— Drv In 3
X ——————————— Drv In 4
Parameter Number 48
Access Rule GET
Data Type WORD
Group Drive DeviceNet
Units — Minimum Value 0 Maximum Value 4095
Default Value 0
Bit
Function
Drvin PrFltState
This parameter, in conjunction with Parameter 50, defines how the Drive Digital Inputs 1…4 will respond when a protection trip occurs. When set to 1, Drive Digital Inputs 1…4 continue to operate as command via the network. When set to 0, Drive Digital Inputs 1…4 will open or close as determined by setting in Parameter 50. 0 = Go to PrFlt Value 1 = Ignore PrFlt
Drvin PrFltValue
This parameter determines the state of Drive Digital Inputs 1…4, assumes when a trip occurs and Parameter 49 is set to 0. 0 = Open 1 = Close
Parameter Number 49
Access Rule GET/SET
Data Type BOOL
Group Drive DeviceNet
Units — Minimum Value 0 Maximum Value 1
Default Value 0
Parameter Number 50
Access Rule GET/SET
Data Type BOOL
Group Drive DeviceNet
Units — Minimum Value 0 Maximum Value 1
Default Value 0
Page 89
Bulletin 284 Programmable Parameters for Sensorless Vector Controllers 4-19
Drvin DNFltState
This parameter, in conjunction with Parameter 52, defines how the Drive Digital Inputs 1…4 will respond when a DeviceNet fault occurs. When set to 1, Drive Digital Inputs 1…4 hold to last state occurs. When set to 0, will go to DnFlt Value on DN faults as determined by Parameter 52. 0 = Go to Fault Value 1 = Hold Last State
Drvin DNFlt Value
This parameter determines the state of Drive Digital Inputs 1…4 when a DeviceNet Fault occurs and Parameter 51 is set to 0. 0 = OFF 1 = ON
Drvin DNIdlState
This parameter, in conjunction with Parameter 54, defines how the Drive Digital Input 1…4 will respond when a DeviceNet network is idle. When set to 1, hold to last state occurs. When set to 0, will go to DnFlt Value on DN faults as determined by Parameter 54. 0 = Go to Fault Value 1 = Hold Last State
Parameter Number 51
Access Rule GET/SET
Data Type BOOL
Group Drive DeviceNet
Units — Minimum Value 0 Maximum Value 1
Default Value 0
Parameter Number 52
Access Rule GET/SET
Data Type BOOL
Group Drive DeviceNet
Units — Minimum Value 0 Maximum Value 1
Default Value 0
Parameter Number 53
Access Rule GET/SET
Data Type BOOL
Group Drive DeviceNet
Units — Minimum Value 0 Maximum Value 1
Default Value 0
StrtrDN IdlValue
This parameter determines the state that Drive Digital Inputs 1…4 assume when the network is idle and Parameter 53 is set to 0. 0 = OFF 1 = ON
High Speed En
0 = Disabled 1 = Enabled
Parameter Number 54
Access Rule GET/SET
Data Type BOOL
Group Drive DeviceNet
Units — Minimum Value 0 Maximum Value 1
Default Value 0
Parameter Number 55
Access Rule GET/SET
Data Type BOOL
Group Drive DeviceNet
Units — Minimum Value 0 Maximum Value 1
Default Value 0
Page 90
4-20 Bulletin 284 Programmable Parameters for Sensorless Vector Controllers
Display Group
Output Freq
Output frequency present at T1, T2, T3.
Commanded Freq
Value of the active frequency command. Displays the commanded frequency even if the drive is not running.
Output Current
Output Current present at T1, T2, T3.
Parameter Number 101
Related Parameters 102, 110, 134, 135, 138
Access Rule GET
Data Type UINT
Group Display Group
Units 0.1 Hz Minimum Value 0.0 Maximum Value 400.0 Hz
Default Value Read Only
Parameter Number 102
Related Parameters 101, 113, 134, 135, 138
Access Rule GET
Data Type UINT
Group Display Group
Units 0.1 Hz Minimum Value 0.0 Maximum Value 400.0 Hz
Default Value Read Only
Parameter Number 103
Access Rule GET
Data Type UINT
Group Display Group
Units 0.01 Minimum Value 0.00 Maximum Value Drive rated amps x 2
Default Value Read Only
Output Voltage
Output Current present at T1, T2, T3.
DC Bus Voltage
Present DC Bus voltage level.
Parameter Number 104
Related Parameters 131, 184, 188
Access Rule GET
Data Type UINT
Group Display Group
Units 1V AC Minimum Value 0 Maximum Value 230V, 460V, or 600V AC
Default Value Read Only
Parameter Number 105
Access Rule GET
Data Type UINT
Group Display Group
Units 1V DC Minimum Value Maximum Value
Default Value Read Only
Based on Drive Rating
Page 91
Bulletin 284 Programmable Parameters for Sensorless Vector Controllers 4-21
Drive Status
Present operating condition of the drive. Bit 0 = running Bit 1 = Forward Bit 2 = Accelerating Bit 3 = Decelerating
Fault 1 Code
A code that represents drive fault. The code will appear in this parameter as the most recent fault that has occurred.
Fault 2 Code
A code that represents a drive fault. The code will appear in this parameter as the second most recent fault that has occurred.
Parameter Number 106
Related Parameter 195
Access Rule GET
Data Type Byte
Group Display Group
Units — Minimum Value 0 Maximum Value 1
Default Value Read Only
Parameter Number 107
Access Rule GET
Data Type UINT
Group Display Group
Units — Minimum Value F122 Maximum Value F2
Default Value Read Only
Parameter Number 108
Access Rule GET
Data Type UINT
Group Display Group
Units — Minimum Value F122 Maximum Value F2
Default Value Read Only
Fault 3 Code
A code that represents a drive fault. The code will appear in this parameter as the third most recent fault that has occurred.
Process Display
The output frequency scaled by the process factor (Parameter 199).
Parameter Number 109
Access Rule GET
Data Type UINT
Group Display Group
Units — Minimum Value F122 Maximum Value F2
Default Value Read Only
Parameter Number 110
Related Parameter 101. 199
Access Rule GET
Data Type LINT
Group Display Group
Units 0.01…1 Minimum Value 0.00 Maximum Value 9999
Default Value Read Only
Page 92
4-22 Bulletin 284 Programmable Parameters for Sensorless Vector Controllers
Control Source
Displays the source of the Start Command and Speed Reference. Valid Start Commands for the Bulletin 284 ArmorStart are the following: 2 = 2-wire 3 = 2-wire Level Sensitive 4 = 2-wire High Speed 5 = RS485 (DSI) Port 9 = Jog Valid Speed Commands for the Bulletin 284 ArmorStart are the following: 1 = Internal Frequency 2 = 0…10V Input/Remote Potentiometer 4 = Preset Freq X 5 = RS485 (DSI) port 6 = Step Logic Control 9 = Jog Freq
Contrl In Status
Status of the control terminal block control inputs: Bit 0 = Start/Run FWD input Bit 1 = Direction/Run REV Input Bit 2 = Stop Input Bit 3 = Dynamic Brake Transistor On
Parameter Number 112
136, 138, 151…154 (Digital
Inx Sel) must be set to 4, 169,
Related Parameters
Access Rule GET
Data Type UINT
Group Display Group
Units 1 Minimum Value 0 Maximum Value 9
Default Value 5
Parameter Number 113
Related Parameter 102, 134, 135
Access Rule GET
Data Type UINT
Group Display Group
Units 1 Minimum Value 0 Maximum Value 1
Default Value 0
170…177 (Preset Freq X),
240…247 (Step Logic
Control)
Dig In Status
Status of the control terminal block digital inputs: Bit 0 = Digital IN 1 Sel Bit 1 = Digital IN 2 Sel Bit 2 = Digital IN 3 Sel Bit 3 = Digital IN 4 Sel
Comm Status
Status of communications ports: Bit 0 = Receiving Data Bit 1 = Transmitting Data Bit 2 = RS485 Bit 3 = Communication Error
Parameter Number 114
Related Parameter 151…154
Access Rule GET
Data Type UINT
Group Display Group
Units 1 Minimum Value 0 Maximum Value 1
Default Value 0
Parameter Number 115
Related Parameter 203…207
Access Rule GET
Data Type UINT
Group Display Group
Units 1 Minimum Value 0 Maximum Value 1
Default Value 0
Page 93
Bulletin 284 Programmable Parameters for Sensorless Vector Controllers 4-23
Control SW Ver
Main Control Board software version for AC Drive.
Drive Type
Used by Rockwell Automation field service personnel.
Elapsed Run Time
Accumulated time drive is outputting power. Time is displayed in 10 hour increments.
Parameter Number 116
Access Rule GET
Data Type UINT
Group Display Group
Units 0.01 Minimum Value 1.00 Maximum Value 99.99
Default Value Read Only
Parameter Number 117
Access Rule GET
Data Type UINT
Group Display Group
Units 1 Minimum Value 1001 Maximum Value 9999
Default Value Read Only
Parameter Number 118
Access Rule GET
Data Type UINT
Group Display Group
Units 1 = 10 hrs Minimum Value 0 Maximum Value 9999
Default Value Read Only
Testpoint Data
The present value of the function selected in Parameter 202.
Analog In 0…10V
The percent value of the voltage at I/O terminal 13 (100% = 10V).
Analog In 4…20 mA This parameter is not available for use with the Bulletin 284 ArmorStart Distributed Motor Controller.
Parameter Number 119
Related Parameter 202
Access Rule GET
Data Type UINT
Group Display Group
Units 1 Hex Minimum Value 0 Maximum Value FFFF
Default Value Read Only
Parameter Number 120
Related Parameter 210, 211
Access Rule GET
Data Type UINT
Group Display Group
Units 0.1% Minimum Value 0.0% Maximum Value 100.0%
Default Value Read Only
Parameter Number 121
Page 94
4-24 Bulletin 284 Programmable Parameters for Sensorless Vector Controllers
Output Power
The output power present at T1, T2, and T3.
Output Power Fctr
The angle in electrical degrees between motor voltage and current.
Drive Temp
Present operating temperature of the drive power section.
Parameter Number 122
Access Rule GET
Data Type UINT
Group
Units Minimum Value 0.00 Maximum Value Drive rated power X 2
Default Value Read Only
Parameter Number 123
Access Rule GET
Data Type UINT
Group Display Group
Units 0.1° Minimum Value 0.0° Maximum Value 180.0°
Default Value Read Only
Parameter Number 124
Access Rule GET
Data Type UINT
Group Display Group
Units 1°C Minimum Value 0 Maximum Value 120
Default Value Read Only
Display Group
Counter Status
The current value of the counter when counter is enabled.
Timer Status
The current value of the timer when timer is enabled.
Parameter Number 125
Access Rule GET
Data Type UINT
Group Display Group
Units 1 Minimum Value 0 Maximum Value 9999
Default Value Read Only
Parameter Number 126
Access Rule GET
Data Type UINT
Group Display Group
Units 0.1 sec Minimum Value 0 Maximum Value 9999
Default Value Read Only
Page 95
Bulletin 284 Programmable Parameters for Sensorless Vector Controllers 4-25
Stop drive before changing this parameter.
Stop drive before changing this parameter.
Stp Logic Status
When Parameter 138 (Speed Reference) is set to 6 Stp Logic, this parameter will display the current step of step logic as defined by Parameters 240…247 (Stp Logic X).
Torque Current
The current value of the motor torque current.
Basic Program Group
Parameter Number 128
Access Rule GET
Data Type UINT
Group Display Group
Units 1 Minimum Value 0 Maximum Value 8
Default Value Read Only
Parameter Number 129
Related Parameters
Access Rule GET
Data Type UINT
Group Display Group
Units 0.01 Minimum Value 0.00 Maximum Value Drive Rated Amps x 2
Default Value Read Only
Motor NP Volts
Set to the motor name plate rated volts.
Motor NP Hertz
Set to the motor nameplate rated frequency.
Parameter Number 131
Related Parameters 104, 184, 185…187
Access Rule GET/SET
Data Type UINT
Group Basic Program
Units 1V AC Minimum Value 20 Maximum Value 240V, 460V, or 600V AC
Default Value Based on Drive Rating
Parameter Number 132
Related Parameters 184, 185…187, and 190
Access Rule GET/SET
Data Type UINT
Group Basic Program
Units 1 Hz Minimum Value 15 Maximum Value 400
Default Value 60 Hz
Page 96
4-26 Bulletin 284 Programmable Parameters for Sensorless Vector Controllers
Stop drive before changing this parameter.
Stop drive before changing this parameter.
Motor OL Current
Set to the maximum allowable current. The drive fault on an F7 Motor Over load if the value of this parameter is exceeded by 150% for 60 seconds.
Minimum Freq
Sets the lowest frequency the drive will output continuously.
Maximum Freq
Sets the Highest frequency the drive will output continuously.
Parameter Number 133
Related Parameter
Access Rule GET/SET
Data Type UINT
Group Basic Program
Units 0.1 A Minimum Value 0.0 Maximum Value Drive rated amps x 2
Default Value Based on Drive Rating
Parameter Number 134
Related Parameter
Access Rule GET/SET
Data Type UINT
Group Basic Program
Units 0.1 Hz Minimum Value 0.0 Maximum Value 400
Default Value 0.0
Parameter Number 135
Related Parameter
Access Rule GET/SET
Data Type UINT
Group Basic Program
Units 0.1 Hz Minimum Value 0.0 Maximum Value 400
Default Value 60.0
155, 158, 161, 189, 190, 198,
214, 218
101, 102, 113, 135, 185, 186,
187, 210, 212
101, 102, 113, 134, 135, 178,
185, 186, 187, 211, 213
Start Source
Sets the control scheme used to start the Bulletin 284 ArmorStart. 2 = 2-wire 3 = 2-wire Level Sensitive 4 = 2-wire High Speed 5 = RS485 (DSI) Port
Parameter Number 136
Related Parameters 112 and 137
Access Rule GET/SET
Data Type UINT
Group Basic Program
Units — Minimum Value 0 Maximum Value 5
Default Value 5
Page 97
Bulletin 284 Programmable Parameters for Sensorless Vector Controllers 4-27
Maximum Freq
Accel Time
-------------------------------------- A ccel Rate=
Stop Mode
Valid Stop Mode for the Bulletin 284 ArmorStart are the following: 0 = Ramp, CF Ramp to Stop. Stop command clears active fault. 1 = Coast, CF Coast to Stop. Stop command clears active fault. 2 = DC Brake,CF DC Injection Braking Stop. Stop command clears active fault. 3 = DCBrkAuto, CF DC injection Braking with Auto Shutoff. Standard DC Injection Braking for value set in Parameter 180 (DC Brake Time) or Drive shuts off if the drive detects that the motor is stopped. Stop command clears active fault 4 = Ramp Ramp to Stop 5 = Coast Coast to Stop 6 = DC Brake DC Injection Braking Stop 7 = DC BrakeAuto DC Injection Stop with Auto Shutoff. Standard DC Injection Braking for value set in Parameter 180 (DC Brake Time) or Drive shuts off if current limit is exceeded 8 = Ramp + EM B, CF Ramp to Stop with EM Brake Control. Stop command clears active fault. 9 = Ramp + EM Brk Ramp to Stop with EM Brake Control.
Speed Reference
Valid Speed References for the Bulletin 284 ArmorStart are the following: 1 = Internal Freq 2 = 0…10V Input 4 = Preset Freq 5 = Comm port 6 = Stp Logic 9 = Jog Freq
Note: Option 2 must be selected when using 0…10V Analog Input.
Parameter Number 137
Related Parameters
Access Rule GET/SET
Data Type UINT
Group Basic Program
Units
Minimum Value 0
Maximum Value 9
Default Value 9
Parameter Number 138
Related Parameters
Access Rule GET/SET
Data Type UINT
Group Basic Program
Units — Minimum Value 0 Maximum Value 7
Default Value 5
136, 180, 181, 182, 205, 260,
261
101, 102, 112, 139, 140, 151,
152, 153, 154, 169,
170…173, 174…177, 210,
211, 213, 232, 240…247,
and 250…257
Accel Time 1
Sets the rate of acceleration for all speed increases.
Parameter Number 139
138, 140, 151, 152, 153, 154,
Related Parameters
Access Rule GET/SET
Data Type UINT
Group Basic Program
Units 0.1 sec Minimum Value 0.0 sec Maximum Value 600.0 sec
Default Value 10.0 sec
167, 170…173, 174…177,
and 240…247
Page 98
4-28 Bulletin 284 Programmable Parameters for Sensorless Vector Controllers
Stop drive before changing this parameter.
Stop drive before changing this parameter.
Motor OL Current
Set to the maximum allowable current. The drive fault on an F7 Motor Over load if the value of this parameter is exceeded by 150% for 60 seconds.
Minimum Freq
Sets the lowest frequency the drive will output continuously.
Maximum Freq
Sets the Highest frequency the drive will output continuously.
Parameter Number 133
Related Parameter
Access Rule GET/SET
Data Type UINT
Group Basic Program
Units 0.1 A Minimum Value 0.0 Maximum Value Drive rated amps x 2
Default Value Based on Drive Rating
Parameter Number 134
Related Parameter
Access Rule GET/SET
Data Type UINT
Group Basic Program
Units 0.1 Hz Minimum Value 0.0 Maximum Value 400
Default Value 0.0
Parameter Number 135
Related Parameter
Access Rule GET/SET
Data Type UINT
Group Basic Program
Units 0.1 Hz Minimum Value 0.0 Maximum Value 400
Default Value 60.0
155, 158, 161, 189, 190, 198,
214, 218
101, 102, 113, 135, 185, 186,
187, 210, 212
101, 102, 113, 134, 135, 178,
185, 186, 187, 211, 213
Start Source
Sets the control scheme used to start the Bulletin 284 ArmorStart. 2 = 2-wire 3 = 2-wire Level Sensitive 4 = 2-wire High Speed 5 = RS485 (DSI) Port
Parameter Number 136
Related Parameters 112 and 137
Access Rule GET/SET
Data Type UINT
Group Basic Program
Units — Minimum Value 0 Maximum Value 5
Default Value 5
Page 99
Bulletin 284 Programmable Parameters for Sensorless Vector Controllers 4-29
Maximum Freq
Accel Time
-------------------------------------- A ccel Rate=
Stop Mode
Valid Stop Mode for the Bulletin 284 ArmorStart are the following: 0 = Ramp, CF Ramp to Stop. Stop command clears active fault. 1 = Coast, CF Coast to Stop. Stop command clears active fault. 2 = DC Brake,CF DC Injection Braking Stop. Stop command clears active fault. 3 = DCBrkAuto, CF DC injection Braking with Auto Shutoff. Standard DC Injection Braking for value set in Parameter 180 (DC Brake Time) or Drive shuts off if the drive detects that the motor is stopped. Stop command clears active fault 4 = Ramp Ramp to Stop 5 = Coast Coast to Stop 6 = DC Brake DC Injection Braking Stop 7 = DC BrakeAuto DC Injection Stop with Auto Shutoff. Standard DC Injection Braking for value set in Parameter 180 (DC Brake Time) or Drive shuts off if current limit is exceeded 8 = Ramp + EM B, CF Ramp to Stop with EM Brake Control. Stop command clears active fault. 9 = Ramp + EM Brk Ramp to Stop with EM Brake Control.
Speed Reference
Valid Speed References for the Bulletin 284 ArmorStart are the following: 1 = Internal Freq 2 = 0…10V Input 4 = Preset Freq 5 = Comm port 6 = Stp Logic 9 = Jog Freq
Note: Option 2 must be selected when using 0…10V Analog Input.
Parameter Number 137
Related Parameters
Access Rule GET/SET
Data Type UINT
Group Basic Program
Units
Minimum Value 0
Maximum Value 9
Default Value 9
Parameter Number 138
Related Parameters
Access Rule GET/SET
Data Type UINT
Group Basic Program
Units — Minimum Value 0 Maximum Value 7
Default Value 5
136, 180, 181, 182, 205, 260,
261
101, 102, 112, 139, 140, 151,
152, 153, 154, 169,
170…173, 174…177, 210,
211, 213, 232, 240…247,
and 250…257
Accel Time 1
Sets the rate of acceleration for all speed increases.
Parameter Number 139
138, 140, 151, 152, 153, 154,
Related Parameters
Access Rule GET/SET
Data Type UINT
Group Basic Program
Units 0.1 sec Minimum Value 0.0 sec Maximum Value 600.0 sec
Default Value 10.0 sec
167, 170…173, 174…177,
and 240…247
Page 100
4-30 Bulletin 284 Programmable Parameters for Sensorless Vector Controllers
Maximum Freq
Decel Time
-------------------------------------- D ecel Rate=
Stop drive before changing this parameter.
Stop drive before changing this parameter.
Decel Time 1
Sets the rate of deceleration for all speed decreases.
Reset To Defaults
Resets all parameter values to factory defaults. 0 = Ready/Idle (Default) 1 = Factory Rset
Motor OL Ret
Enables/disables the Motor overload Retention function. When Enabled, the value held in the motor overload counter is saved at power-down and restored at power­up. A change to this parameter setting resets the counter. 0 = Disabled (Default) 1 = Enabled
Parameter Number 140
138, 139, 151, 152, 153, 154,
Related Parameters
Access Rule GET/SET
Data Type UINT
Group Basic Program
Units 0.1 sec Minimum Value 0.1 sec Maximum Value 600.0 sec
Default Value 10.0 sec
Parameter Number 141
Access Rule GET/SET
Data Type BOOL
Group Basic Program Group
Units — Minimum Value 1 Maximum Value 1
Default Value 0
Parameter Number 143
Access Rule GET/SET
Data Type BOOL
Group Basic Program Group
Units — Minimum Value 0 Maximum Value 1
Default Value 0
168, 170…173, 174…177,
and 240…247
Advanced Program Group
151 (Digital In 1 SEL) 152 (Digital In 2 SEL) 153 (Digital In 3 SEL) 154 (Digital In 4 SEL)
Selects the function for the digital inputs.
Parameter Number 151, 152, 153, 154
112, 114, 138…140, 167,
Related Parameters
Access Rule GET/SET
Data Type UINT
Group Advanced Program Group
Units Minimum Value Maximum Value
Default Value
168, 170…173, 174…177,
178, 179, 240…247
See Table 4.2 for details
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