User Manual Owner's manual
Table Of Contents
- ArmorStart Distributed Motor Controller with EtherNet/IP User Manual
- European Communities (EC) Directive Compliance
- Table of Contents
- Chapter 1
- Product Overview
- Introduction
- Description
- Catalog Number Explanation
- Operation
- Mode of Operation
- Description of Features
- Embedded Switch Technology
- Switched vs. Unswitched Control Power Input/Output (I/O) Connections
- EtherNet/IP™ Ports
- Embedded Web Server
- EtherNet/IP LED Status Indication
- Control Module LED Status and Reset
- Electronic Data Sheet (EDS)
- Fault Diagnostics
- Standard Features
- Factory-Installed Options
- Optional HOA Keypad Configuration (Bulletin 280E/281E only)
- Optional HOA Selector Keypad with Jog Function (Bulletin 284E only)
- Source Brake Contactor and Connector (Bulletin 284E only)
- EMI Filter (Bulletin 284E only)
- Dynamic Brake Connector (Bulletin 284E only)
- IP67 Dynamic Brake Resistor (Bulletin 284E only)
- Output Contactor (Bulletin 284E only)
- Shielded Motor Cable (Bulletin 284E only)
- ArmorStart® EtherNet/ IP Features
- Notes:
- Product Overview
- Chapter 2
- Installation and Wiring
- Receiving
- Unpacking
- Inspecting
- Storing
- General Precautions
- Precautions for Bulletin 280E/281E Applications
- Precautions for Bulletin 284E Applications
- Dimensions
- Mount Orientation
- Operation
- Wiring
- Terminal Designations
- Control Power Wiring
- ArmorStart with EtherNet/IP Internal Wiring
- AC Supply Considerations for Bulletin 284E Units
- Electromagnetic Compatibility (EMC)
- Grounding
- ArmorConnect Power Media
- ArmorConnect Connections
- ArmorConnect Cable Ratings
- Ethernet and I/O Connections
- Power Connections
- Optional Locking Clip
- Installation and Wiring
- Chapter 3
- Chapter 4
- Chapter 5
- Chapter 6
- Chapter 7
- Bulletin 280E/281E/284E Programmable Parameters
- Basic Setup Parameters
- Parameter Groups
- ArmorStart EtherNet/IP Parameters
- Bulletin 280E/281E
- Bulletin 284E
- Basic Status Group
- Produced Assembly Config Group
- Starter Protection Group
- User I/O Configuration Group
- Miscellaneous Configuration Group
- Drive I/O Configuration Group (Bulletin 284E only)
- Drive Display Group (Bulletin 284E only)
- Drive Setup Group (Bulletin 284E only)
- Drive Advanced Setup Group (Bulletin 284E only)
- Clear a Type 1 Fault and Restart the Drive
- Clear an Overvoltage, Undervoltage, or Heatsink OvrTmp Fault without Restarting the Drive
- How StepLogic Works
- StepLogic Settings
- Linear List of Parameters for Bulletin 280E/281E and Bulletin 284E
- Bulletin 280E/281E/284E Programmable Parameters
- Chapter 8
- Chapter 9
- Chapter 10
- Chapter 11
- Chapter 12
- Appendix A
- Applying More Than One ArmorStart Motor Controller in a Single Branch Circuit on Industrial Machinery
- Introduction
- ArmorStart LT Product Family
- Multiple-Motor Branch Circuits and Motor Controllers Listed for Group Installation – General
- Maximum Fuse Ampere Rating According to 7.2.10.4(1) and 7.2.10.4(2)
- Explanatory Example
- Input and Output Conductors of Bulletin 290E and 291E Controllers (a)
- Input and Output Conductors of Bulletin 294E Controllers (b)
- Combined Load Conductors (c)
- Applying More Than One ArmorStart Motor Controller in a Single Branch Circuit on Industrial Machinery
- Appendix B
- CIP Information
- High Level Product Description
- CIP Explicit Connection Behavior
- CIP Object Requirements
- Identity Object
- Assembly Object
- Connection Manager Object
- Discrete Input Point Object
- Discrete Output Point Object
- Parameter Object
- Parameter Group Object
- Discrete Input Group Object
- Discrete Output Group Object
- Control Supervisor Object
- Overload Object
- Device Level Ring (DLR) Object
- Qos Object
- DPI Fault Object
- DPI Alarm Object
- Interface Object
- TCP/IP Interface Object
- Ethernet Link Object
- CIP Information
- Appendix C
- Using DeviceLogix
- DeviceLogix Programming
- DeviceLogix Programming Example
- Import and Export
- Bulletin 284 - VFD Preset Speed Example
- DeviceLogix Ladder Editor Example
- ArmorStart 280 and 281 Status Bits
- Bulletin 280 and 281 ArmorStart Fault Bits
- Bulletin 280 and 281 ArmorStart Outputs
- Bulletin 280 and 281 ArmorStart Produced Network Bits
- Bulletin 284 ArmorStart Status Bits
- Bulletin 284 ArmorStart Fault Bits
- Bulletin 284 ArmorStart Outputs
- Bulletin 284 ArmorStart Produced Network Bits
- Using DeviceLogix
- Appendix D
- Appendix E
- Appendix F
- Back Cover
Rockwell Automation Publication 280E-UM001B-EN-P - July 2012 271
Applying More Than One ArmorStart Motor Controller in a Single Branch Circuit on Industrial Machinery Appendix A
1. Requirement One: Controller Ratings — The motor controllers and
overload relays must be listed for group installation with specified maximum
branch-circuit protection.
Text : “7.2.10.4(1) Each motor controller and overload device is… listed for group
installation with specified maximum branch-circuit protection…”
Analysis: To apply the ArmorStart LT motor controllers in the multiple-motor
branch circuit shown in Figure 98
, 7.2.10.4(1) must be satisfied; each controller
must be listed for group installation with specified maximum branch-circuit
protection. The UL listing for each ArmorStart LT motor controller confirms
that it – including its integral overload relay and motor disconnecting means — is
suitable for motor group installation with specified fuses, satisfying 7.2.10.4(1).
The Bulletin 290E and 291E controllers are listed for group installation
according to UL 508, Industrial Control Equipment. The Bulletin 294E
controllers are listed for group installation according to UL 508C, Power
Conversion Equipment.
Referring to Figure 99
(a) indicates the markings on the nameplate that satisfy
7.2.10.4(1). The marking “Suitable for Motor Group Installation” satisfies the
requirement to be listed for group installation. The ratings located beneath the
description “Max. Ratings” are the specified maximum branch circuit protection.
The (a) beside the fuse(s) indicates that the maximum protection specified on the
nameplate applies to these fuse(s).
2. Requirement Two: Conductor Short-circuit and Ground-Fault
Protection — The fuse must protect the conductors for short-circuit faults
and ground faults.
Text : “7.2.10.4(2) The rating or setting of the branch short-circuit and ground-
fault protection device does not exceed the values in Tab le 4 8
for the smallest
conductor in the circuit.”
Analysis: Referring to Figure 98
, 7.2.10.4(2) must be satisfied. The fuse, as
indicated by the description in Figure 98
(a), is the branch short-circuit and
ground-fault protection device. The word circuit means the branch circuit.
The conductors of the branch circuit start at the load side of the fuses and end
at the input to the motor, including the conductors between the motor
controllers and the motor. The smallest conductor in the circuit is any one
of the 14 AWG conductors that supply each controller and motor. The note
at (b) indicates the conductor protection is based on the smallest conductor,
14 AWG. Referring to Tab le 4 8
a 14 AWG conductor may be used in a circuit
that is protected by a fuse of any class having a rating of 60 amperes or less (c).
Therefore, selecting a fuse of any class with a maximum rating of 60 amperes
satisfies the conductor protection requirement of 7.2.10.4(2).
Supplementary Note 1: The value specified in Ta b l e 48
is the maximum rating
of fuse that 7.2.10.4(2) permits to protect that size of conductor. The rating of
the fuse may be set to the maximum value given by Tab l e 48
for the smallest
conductor without further justification. However, if any controller, or other
component, has a maximum rating of fuse that is less than the Tab l e 48
value, the