2094-in002a-en-p kinetix 6000 integration manual or motor) to alert people that dangerous voltage...
TRANSCRIPT
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Kinetix 6000 Multi-Axis Servo Drive(Catalog Numbers2094-AC05-MP5, -AC05-M01, -AC09-M02-AC16-M03, -AC32-M052094-BC01-MP5, -BC01-M01, -BC02-M02-BC04-M03, -BC07-M05
2094-BC01-MP5-S, -BC01-M01-S, -BC02-M02-S, -BC04-M03-S, -BC07-M05-S
2094-AMP5, -AM01, -AM02, -AM03, -AM052094-BMP5, -BM01, -BM02, -BM03, -BM05
2094-PRS1, -PRS2, -PRS3, -PRS4, -PRS5, -PRS6, -PRS7, -PRS82094-PR1, -PR2, -PR4, -PR6, -PR8
2094-PRF
2094-AL09, -AL75S2094-BL02, -BL75S2094-XL75S-C12094-XL75S-C2
2094-BSP2)
Integration Manual
Important User Information Solid state equipment has operational characteristics differing from those of electromechanical equipment. Safety Guidelines for the Application, Installation and Maintenance of Solid State Controls (Publication SGI-1.1 available from your local Rockwell Automation sales office or online at http://www.rockwellautomation.com/literature) describes some important differences between solid state equipment and hard-wired electromechanical devices. Because of this difference, and also because of the wide variety of uses for solid state equipment, all persons responsible for applying this equipment must satisfy themselves that each intended application of this equipment is acceptable.
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.
Allen-Bradley, A-B, ControlLogix, and Kinetix are registered trademarks of Rockwell Automation.DriveExplorer, RSLogix, RSLogix 5000, SoftLogix, and SCANport are trademarks of Rockwell Automation.Trademarks not belonging to Rockwell Automation are property of their respective companies.
IMPORTANT Identifies information that is critical for successful application and understanding of the product.
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
• recognize the consequence
SHOCK HAZARD Labels may be located on or inside the equipment (e.g., drive or motor) to alert people that dangerous voltage may be present.
BURN HAZARD Labels may be located on or inside the equipment (e.g., drive or motor) to alert people that surfaces may be dangerous temperatures.
Table of Contents
PrefaceIntroduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . P-1Who Should Use this Manual . . . . . . . . . . . . . . . . . . . . . . . P-1Purpose of this Manual . . . . . . . . . . . . . . . . . . . . . . . . . . . P-1Contents of this Manual . . . . . . . . . . . . . . . . . . . . . . . . . . . P-2Product Receiving and Storage Responsibility . . . . . . . . . . . P-2Related Documentation . . . . . . . . . . . . . . . . . . . . . . . . . . . P-3Conventions Used in this Manual . . . . . . . . . . . . . . . . . . . . P-4
Chapter 1Commission Your Kinetix 6000 Chapter Objectives. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1
General Startup Precautions . . . . . . . . . . . . . . . . . . . . . . . . 1-1Understand IAM/AM Connectors . . . . . . . . . . . . . . . . . . . . 1-2
Integrated Axis Module/Axis Module Connectors . . . . . . 1-2Locate IAM Connectors and Indicators . . . . . . . . . . . . . . . . 1-3Locate AM Connectors and Indicators . . . . . . . . . . . . . . . . . 1-4Understand SM Connectors . . . . . . . . . . . . . . . . . . . . . . . . 1-5
Locate Shunt Module Connectors . . . . . . . . . . . . . . . . . 1-5Understand LIM Connectors and Indicators . . . . . . . . . . . . . 1-6
Line Interface Module Connectors . . . . . . . . . . . . . . . . . 1-6Locate SERCOS Interface Fiber-Optic Connectors . . . . . . . . 1-9Configure Your Kinetix 6000 . . . . . . . . . . . . . . . . . . . . . . . 1-9
Configure Your Integrated Axis Module. . . . . . . . . . . . 1-10Configure Your Axis Module(s) . . . . . . . . . . . . . . . . . . 1-15
Configure Your Logix SERCOS interface Module . . . . . . . . 1-16Configure Your Logix Controller . . . . . . . . . . . . . . . . . 1-16Configure Your Logix Module . . . . . . . . . . . . . . . . . . . 1-17Configure Your Kinetix 6000 Modules . . . . . . . . . . . . . 1-19Configure the Motion Group . . . . . . . . . . . . . . . . . . . . 1-23Configure Axis Properties . . . . . . . . . . . . . . . . . . . . . . 1-24Download Your Program . . . . . . . . . . . . . . . . . . . . . . 1-25
Apply Power to Your Kinetix 6000 . . . . . . . . . . . . . . . . . . 1-26Apply Power to Your Kinetix 6000 (with LIM) . . . . . . . 1-26Apply Power to Your Kinetix 6000 (without LIM). . . . . 1-30
Test and Tune Your Axes. . . . . . . . . . . . . . . . . . . . . . . . . 1-33Test Your Axes. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-33Tune Your Axes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-36
Chapter 2Troubleshoot Your Kinetix 6000 Chapter Objectives. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-1
Safety Precautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-2General Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . 2-2
Error Codes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-3Troubleshoot IAM/AM Status LEDs . . . . . . . . . . . . . . . . . . . 2-8
Drive Status LED . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-8Comm Status LED. . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-8
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Bus Status LED . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-9Troubleshoot SM Status LEDs . . . . . . . . . . . . . . . . . . . . . . 2-10
General Shunt Module Troubleshooting . . . . . . . . . . . . 2-10Bus Status LED . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-11Temperature Fault LED . . . . . . . . . . . . . . . . . . . . . . . . 2-11Shunt Fault LED . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-11
Troubleshoot LIM Status LEDs . . . . . . . . . . . . . . . . . . . . . 2-12Troubleshoot RBM Status LEDs . . . . . . . . . . . . . . . . . . . . . 2-12
24V dc Status LED. . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-12230V ac Auxiliary Power Status LED . . . . . . . . . . . . . . 2-13
Troubleshoot General System Problems . . . . . . . . . . . . . . 2-14Understand Logix/Drive Fault Behavior. . . . . . . . . . . . . . . 2-16Supplemental Troubleshooting Information. . . . . . . . . . . . 2-19
Tools for Changing Parameters . . . . . . . . . . . . . . . . . . 2-19Using Analog Test Points to Monitor System Variables . 2-20
Replace Kinetix 6000 System Components. . . . . . . . . . . . . 2-22Before You Begin . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-22
Remove Modules from the Power Rail. . . . . . . . . . . . . . . . 2-23Replace Power Rail Modules. . . . . . . . . . . . . . . . . . . . . . . 2-24Remove the Power Rail . . . . . . . . . . . . . . . . . . . . . . . . . . 2-25Replace the Power Rail. . . . . . . . . . . . . . . . . . . . . . . . . . . 2-26Remove the Line Interface Module . . . . . . . . . . . . . . . . . . 2-27Replace the Line Interface Module . . . . . . . . . . . . . . . . . . 2-28
Appendix AInterconnect Diagrams Chapter Objectives . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-1
Kinetix 6000 Interconnect Diagram Notes . . . . . . . . . . . . . . A-1Power Interconnect Diagrams. . . . . . . . . . . . . . . . . . . . . . . A-3DC Common Bus Interconnect Diagrams . . . . . . . . . . . . . . A-8Shunt Module Interconnect Diagrams . . . . . . . . . . . . . . . . A-13
1336 Active Shunt Input Fuse Specifications . . . . . . . . . A-141336 Active Shunt Fault Relay Specifications . . . . . . . . A-14
AM/Motor Interconnect Diagrams . . . . . . . . . . . . . . . . . . . A-16Controlling a Brake Example . . . . . . . . . . . . . . . . . . . . . . A-24System Block Diagrams . . . . . . . . . . . . . . . . . . . . . . . . . . A-26
IAM/AM Inverter Block Diagram . . . . . . . . . . . . . . . . . A-26IAM Converter Block Diagram. . . . . . . . . . . . . . . . . . . A-27Safe-Off Feature Block Diagram. . . . . . . . . . . . . . . . . . A-28SM Block Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . A-28LIM Block Diagrams . . . . . . . . . . . . . . . . . . . . . . . . . . A-29RBM Block Diagrams . . . . . . . . . . . . . . . . . . . . . . . . . A-34
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Table of Contents iii
Appendix BUpgrade Your Kinetix 6000 Firmware
Chapter Objectives. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-1Upgrade Drive Firmware Using DriveExplorer . . . . . . . . . . B-1
Before You Begin. . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-1Select Axis Modules to Upgrade . . . . . . . . . . . . . . . . . . B-1HyperTerminal Configuration . . . . . . . . . . . . . . . . . . . . B-4Flash Your Firmware . . . . . . . . . . . . . . . . . . . . . . . . . . B-5
Appendix CIntegrate Resistive Brake Moduleswith Kinetix 6000 Drives
Chapter Objectives. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-1Before You Begin . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-1Understand Safety Precautions . . . . . . . . . . . . . . . . . . . . . . C-2
Safety Standards for Reference . . . . . . . . . . . . . . . . . . . C-2Background on Safety Design . . . . . . . . . . . . . . . . . . . . C-3Stop Categories . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-3Risk Assessment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-4Control Reliability . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-5
Resistive Brake Module Interconnect Diagram Notes . . . . . . C-5Resistive Brake Module Interconnect Diagrams . . . . . . . . . . C-6Set the RBM Delay Time Using DriveExplorer . . . . . . . . . . C-14
Remove SERCOS Communication . . . . . . . . . . . . . . . . C-14Set the RBM Delay Time Parameter . . . . . . . . . . . . . . . C-15Save the Delay Time Parameter to Non-Volatile Memory . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-16
Reconnect SERCOS Communication . . . . . . . . . . . . . . C-17
Appendix DDC Common Bus Applications Chapter Objectives. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . D-1
Before You Begin . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . D-1Calculate Total Bus Capacitance . . . . . . . . . . . . . . . . . . D-2Calculate Additional Bus Capacitance . . . . . . . . . . . . . . D-3Kinetix 6000 Capacitance Values . . . . . . . . . . . . . . . . . . D-3Common Bus Capacitance Example . . . . . . . . . . . . . . . D-4
Set the Additional Bus Capacitance Parameter. . . . . . . . . . . D-5Remove SERCOS Communication . . . . . . . . . . . . . . . . . D-5Set the Additional Bus Capacitance Parameter . . . . . . . . D-6Save the Add Bus Cap Parameter to Non-Volatile Memory . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . D-7
Reconnect SERCOS Communication . . . . . . . . . . . . . . . D-8
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iv Table of Contents
Publication 2094-IN002E-EN-P — September 2005
Preface
Introduction Read this preface to familiarize yourself with the rest of the manual. This preface contains the following topics:
• Who Should Use this Manual
• Purpose of this Manual
• Contents of this Manual
• Product Receiving and Storage Responsibility
• Related Documentation
• Conventions Used in this Manual
Who Should Use this Manual
This manual is intended for engineers or programmers directly involved in the operation, field maintenance, and integration of the Kinetix 6000 multi-axis servo drive with the SERCOS interface module.
If you do not have a basic understanding of the Kinetix 6000, contact your local Allen-Bradley representative for information on available training courses before using this product.
Purpose of this Manual This manual provides the startup, configuration, and troubleshooting procedures for the Kinetix 6000. The purpose of this manual is to assist you in the integration of your Kinetix 6000 servo drive with the ControlLogix 1756-MxxSE SERCOS interface module or SoftLogix 1784-PM16SE SERCOS PCI card.
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P-2
Contents of this Manual Refer to the following listing for the descriptive contents of this installation manual.
Product Receiving and Storage Responsibility
You, the customer, are responsible for thoroughly inspecting the equipment before accepting the shipment from the freight company. Check the item(s) you receive against your purchase order. If any items are obviously damaged, it is your responsibility to refuse delivery until the freight agent has noted the damage on the freight bill. Should you discover any concealed damage during unpacking, you are responsible for notifying the freight agent. Leave the shipping container intact and request that the freight agent make a visual inspection of the equipment.
Store the product in its shipping container prior to installation. If you are not going to use the equipment for a period of time, store using the following guidelines.
• Use a clean, dry location
• Maintain an ambient temperature range of -40 to 70° C (-40 to 158° F)
• Maintain a relative humidity range of 5% to 95%, non-condensing
• Store it where it cannot be exposed to a corrosive atmosphere
• Store it in a non-construction area
Chapter Title Contents
PrefaceDescribes the purpose, background, and scope of this manual. Also specifies the audience for whom this manual is intended.
Chapter 1 Commission Your Kinetix 6000
Provides steps to follow when configuring your Kinetix 6000, the Logix SERCOS interface module, and when applying power to the Kinetix 6000 for the first time.
Chapter 2 Troubleshoot Your Kinetix 6000Provides diagnostic aids that help isolate problems with your drive and Kinetix 6000 removal/replacement procedures.
Appendix A Interconnect DiagramsProvides interconnect diagrams between the Kinetix 6000 and the Line Interface Module, Shunt Module, Resistive Brake Module and servo motors.
Appendix B Upgrade Your Kinetix 6000 Firmware
Provides steps to follow when you need to upgrade (flash) your IAM and AM firmware.
Appendix CIntegrate Resistive Brake Modules with Kinetix 6000 Drives
Provides safety precautions, interconnect diagrams, and procedures specific to configuring the RBM with the Kinetix 6000.
Appendix D DC Common Bus ApplicationsExplains how to calculate capacitance values and set the Add Bus Cap parameter for DC common bus applications.
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P-3
Related Documentation The following documents contain additional information concerning related Allen-Bradley products. To obtain a copy, contact your local Allen-Bradley office, distributor, or download them from www.rockwellautomation.com/literature.
For Read This Document Catalog Number
The instructions needed for the installation and wiring of the Kinetix 6000 Kinetix 6000 Installation Manual 2094-IN001
Installation instructions for the LIM and removal/replacement procedures for selected internal LIM components
Kinetix 6000 Line Interface Module Installation Instructions 2094-IN005
Information on wiring and troubleshooting your Kinetix 6000 safety drive Kinetix Safe-Off Feature Safety Reference Manual GMC-RM002
A description and specifications for the 2094 family including motors and motor accessories Kinetix Motion Control Selection Guide GMC-SG001
Drive and motor sizing with application analysis software Motion Analyzer CD (v4.1 or above) PST-SG003
Kinetix 6000 user documentation and CAD files Kinetix 6000 User Documentation and CAD Files CD 2094-CL001
More detailed information on the use of ControlLogix motion features and application examples ControlLogix Motion Module Programming Manual 1756-RM086
ControlLogix SERCOS interface module installation instructions SERCOS interface Module Installation Instructions 1756-IN572
SoftLogix SERCOS interface PCI card installation instructions 16 Axis PCI SERCOS interface Card Installation Instructions 1784-IN041
The instructions needed to program a motion application Logix5000 Controllers Motion Instructions Reference Manual 1756-RM007
Information on configuring and troubleshooting your ControlLogix SERCOS and analog motion modules Logix5000 Motion Modules User Manual 1756-UM006
Information on configuring and troubleshooting your SoftLogix PCI card
SoftLogix Motion Card Setup and Configuration Manual 1784-UM003
Information on the installation and wiring of Bulletin 2090 Resistive Brake Modules Resistive Brake Module Installation Instructions 2090-IN009
Information on proper handling, installing, testing, and troubleshooting fiber-optic cables
Fiber-Optic Cable Installation and Handling Instructions 2090-IN010
Information, examples, and techniques designed to minimize system failures caused by electrical noise System Design for Control of Electrical Noise GMC-RM001
For declarations of conformity (DoC) currently available from Rockwell Automation Rockwell Automation Product Certification website www.ab.com/
certification/ce/docs
An article on wire sizes and types for grounding electrical equipment National Electrical CodePublished by the National Fire Protection Association of Boston, MA.
A glossary of industrial automation terms and abbreviations Allen-Bradley Industrial Automation Glossary AG-7.1
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Conventions Used in this Manual
The following conventions are used throughout this manual.
• Bulleted lists such as this one provide information, not procedural steps
• Numbered lists provide sequential steps or hierarchical information
• Words that you type or select appear in bold
• When we refer you to another location, the section or chapter name appears in italics
• Acronyms for the Kinetix 6000 components, shown in the table below, are used throughout this manual.
Kinetix 6000 Component Catalog Numbers Acronym
Power Rail 2094-PRx PR
Power Rail (slim) 2094-PRSx PRS
Power Rail Slot Filler 2094-PRF PRF
Integrated Axis Module 2094-xCxx-Mxx IAM
Axis Module 2094-xMxx AM
Line Interface Module 2094-xLxx and -xLxxS-xx LIM
Shunt Module 2094-BSP2 SM
Resistive Brake Module 2090-XBxx-xx RBM
Publication 2094-IN002E-EN-P — September 2005
Chapter 1
Commission Your Kinetix 6000
Chapter Objectives This chapter provides you with information to apply power and configure your Kinetix 6000. This chapter includes:
• General Startup Precautions
• Understand IAM/AM/SM and LIM Connectors
• Locate Connectors and Indicators
• Locate SERCOS Interface Fiber-Optic Connectors
• Configure Your Kinetix 6000
• Configure Your Logix SERCOS interface Module
• Apply Power to Your Kinetix 6000
• Test and Tune Your Axes
Note: Some of the procedures in this chapter include information regarding integration with other products.
General Startup Precautions
The following precautions pertain to all of the procedures in this chapter. Be sure to read and thoroughly understand them before proceeding.
ATTENTION This product contains stored energy devices. To avoid hazard of electrical shock, verify that all voltages on the system bus network have been discharged before attempting to service, repair or remove this unit. Only qualified personnel familiar with solid state control equipment and safety procedures in publication NFPA 70E or applicable local codes should attempt this procedure.
ATTENTION This drive contains ESD (Electrostatic Discharge) sensitive parts and assemblies. You are required to follow static control precautions when you install, test, service, or repair this assembly. If you do not follow ESD control procedures, components can be damaged. If you are not familiar with static control procedures, refer to Allen-Bradley publication 8000-4.5.2, Guarding Against Electrostatic Damage or any other applicable ESD Protection Handbook.
1 Publication 2094-IN002E-EN-P — September 2005
1-2 Commission Your Kinetix 6000
Understand IAM/AM Connectors
The following table provides a brief description of the Kinetix 6000 IAM/AM connectors.
Integrated Axis Module/Axis Module Connectors
Designator Description Connector Present on IAM or AM
IOD User I/O (drive) 26-pin high-density D-shell IAM/AM
MF Motor Feedback 15-pin high-density D-shell (male) IAM/AM
AF Auxiliary Feedback 15-pin high-density D-shell (female) IAM/AM
CPD Control Input Power (drive) 2-position connector housing IAM
IPD
DC Bus and VAC Input Power (drive)230V 6-position connector housing IAM
DC Bus and VAC Input Power (drive)460V 6-position connector housing IAM
CED Contactor Enable 2-position connector housing IAM
MP Motor Power 4-position connector housing IAM/AM
BC Resistive/Motor Brake 6-position connector housing IAM/AM
SO Safe-Off 9-position plug/header IAM/AM
Tx and Rx SERCOS Transmit and Receive SERCOS fiber optic (2) IAM/AM
DPI DPI DPI IAM
Publication 2094-IN002E-EN-P — September 2005
Commission Your Kinetix 6000 1-3
Locate IAM Connectors and Indicators
Use the figure below to locate the Integrated Axis Module connectors and indicators. Although the physical size of the 2094-BCxx-Mxx (460V) IAM is larger than the 2094-ACxx-Mxx (230V) IAM, the location of the connectors and indicators is identical.
Figure 1.1Kinetix 6000 Integrated Axis Modules (2094-ACxx-Mxx and -BCxx-Mxx)
Note: Power, feedback, and I/O connectors are shown, however for wiring information, refer to the Kinetix 6000 Multi-Axis Servo Drive Installation Manual (publication 2094-IN001).
BAUDRATE
TXRXDPI
DC-DC+
L3L2L1
CONT EN-CONT EN+
WVU
MBRK -MBRK +
COM PWR
DBRK -DBRK +
CTRL 2CTRL 1
1 2
3
41
2 3
4 5
6
1 2 1 2 3 4 5 6
1 2
1 2 3 4 5 6 7 8 9
Control Power(CPD) Connector
DC Bus / AC Input Power(IPD) Connector
Contactor Enable(CED) Connector
Integrated Axis Module, top view(2094-BM01-MP5-S is shown)
Motor Power(MP) Connector
Motor/Resistive Brake(BC) Connector
SERCOS Baud Rateand Optical Power Switches
SERCOS Transmit (Tx) Connector
SERCOS Receive (Rx) ConnectorDPI Connector
SERCOSNode Address Switch
Seven SegmentFault Status LED
Drive Status LEDCOMM Status LEDBus Status LED
Auxiliary Feedback (AF) Connector
Motor Feedback (MF) Connector
I/O (IOD) Connector
Mounting Screw
Integrated Axis Module, front view(2094-AC05-M01 is shown)
Motor CableShield Clamp
Safe-Off(SO) Connector
(present only on the 2094-BCxx-Mxx-S)
Publication 2094-IN002E-EN-P — September 2005
1-4 Commission Your Kinetix 6000
Locate AM Connectors and Indicators
Use the figure below to locate the Axis Module connectors and indicators. Although the physical size of the 2094-BMxx (460V) AM is larger than the 2094-AMxx (230V) AM, the location of the connectors and indicators is identical.
Figure 1.2Kinetix 6000 Axis Modules (2094-AMxx and -BMxx)
Note: Power, feedback, and I/O connectors are shown, however for wiring information, refer to the Kinetix 6000 Multi-Axis Servo Drive Installation Manual (publication 2094-IN001).
BAUDRATE
TXRX
WVU
MBRK -MBRK +
COM PWR
DBRK -DBRK +
1 2
3
41
2 3
4 5
6
1 2 3 4 5 6 7 8 9
Motor Power(MP) Connector
Motor/Resistive Brake(BC) Connector
SERCOS Transmit (Tx) ConnectorSERCOS Receive (Rx) Connector
Axis Module, top view(2094-BMP5-S is shown)
Axis Module, front view(2094-AM01 is shown)
Drive Status LEDCOMM Status LEDBus Status LED
Auxiliary Feedback (AF) Connector
Motor Feedback (MF) Connector
I/O (IOD) Connector
Mounting Screw
Seven SegmentFault Status LED
Motor CableShield Clamp
SERCOS Baud Rateand Optical Power Switches
Safe-Off(SO) Connector
(present only on the 2094-BMxx-S)
Publication 2094-IN002E-EN-P — September 2005
Commission Your Kinetix 6000 1-5
Understand SM Connectors Use the table below and Figure 1.3 to locate the Shunt Module connectors and indicators.
Locate Shunt Module Connectors
Figure 1.3Kinetix 6000 Shunt Modules (2094-BSP2)
Note: Power connectors are shown, however for wiring information, refer to the Kinetix 6000 Multi-Axis Servo Drive Installation Manual (publication 2094-IN001).
Designator Description Connector
RC External Shunt Resistor Connector 3-position connector housing
TS External Thermal Switch Connector 2-position connector housing
1 2
3
1 2
COLINTDC+
TS2TS1
Mounting Screw
Shunt Module, front view
Shunt Module, top view
External Shunt Resistor(RC) Connector
External Thermal Switch(TS) Connector
Motor CableShield Clamp
Shunt Fault LEDOver-Temp Fault LEDBus Status LED
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Understand LIM Connectors and Indicators
Use the tables below and figures 1.4 and 1.5 to locate the Line Interface Module connectors.
Line Interface Module Connectors
The following table describes the Line Interface Module connectors used with catalog numbers 2094-AL75S, -BL75S, and -XL75S-Cx.
1 Auxiliary Power Input (APL) connector is only present on the 2094-XL75S-Cx model.
The following table describes the Line Interface Module connectors used with catalog numbers 2094-AL09 and -BL02.
Designator Description Connector
IOL Status I/O (LIM) 21-pin (plugable) terminal block
IPL VAC LINE Input Power (LIM) 4-position plug/header
OPL VAC LOAD Output Power 4-position plug/header
P1L Brake and I/O Power Output (24V dc) 6-position plug/header
P2L Auxiliary Power Output (230V ac) 4-position plug/header
CPL Control Power Output (LIM) 2-position plug/header
APL 1 Auxiliary Power Input (LIM) 2-position plug/header
Designator Description Connector
IOL Status I/O (LIM) 26-pin high-density D-shell
IPL VAC LINE Input Power (LIM) 4-position terminals
OPL VAC LOAD Output Power 4-position terminals
PSL Brake and I/O Power Output (24V dc) 4-position plug/header
CPL Control Power Output (LIM) 2-position plug/header
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Use the figure below to locate the Line Interface Module connectors and indicators.
Figure 1.4Kinetix 6000 Line Interface Modules (2094-AL09 and -BL02)
MAIN VAC AUX VAC BRAKE - I/O VAC
195-
264
VAC
LIN
E50
/60
Hz
PE
L3
L2
L1
195-264 VAC LOAD50/60 Hz
PE
L3
L2
L1
1
1
1
1
MBRK PWRMBRK COMMBRK PWRMBRK COM
230 VAC LOAD
L1L2/N
24 VDC BRAKE SUPPLY
Line Interface Module 2094-AL09200/230V AC 20A Output
1 2 3 4 4 3
2 1
1 2
3
41
2
VAC Load(OPL) Connector
VAC Line(IPL) Connector
24 VDC Brake Power (PSL) Connector
Control Power Load(CPL) Connector
Brake Power Status LED
I/O Power Status LED
I/O (IOL) ConnectorMainVAC
Brake - I/OVAC
CB3CB1 CB2
Control/AUXVAC
Line Interface Module,top view(2094-AL09 is shown)
Line Interface Module,front view(2094-AL09 is shown)
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Use the figure below to locate the Line Interface Module connectors and indicators.
Figure 1.5Kinetix 6000 Line Interface Modules (2094-AL75S, -BL75S, and -XL75S-Cx)
1 Auxiliary Power Input (APL) connector is only present on the 2094-XL75S-Cx model.
195-
265
VAC
LIN
E, 5
0/60
Hz
L3
L2
L1
230 VAC SUPPLY
CTRL2
CTRL1
195-
265
VAC
LOAD
, 50/
60 H
z
L3'
L2'
L1'
CONTROL VAC
AUX2
AUX2
AUX1
AUX1
I/O_COM
I/O_PWR
I/O_COM
I/O_PWR
I/O_COM
I/O_PWR
24 VDC SUPPLY
MAIN VAC
1 2
CB1ON
OFF
L1
L2N
1 21 2 3 4
1 2 3 4
1 2
3
41
2 3
4 5
6
Line Interface Module, top view(2094-XL75S-Cx is shown)
Line Interface Module, front view(2094-XL75S-Cx is shown)
Control/AUXVAC
FuseBlock
VAC Load(OPL) Connector
VAC Line(IPL) Connector
I/O (IOL) Connector
Control Power Output (CPL) Connector
I/O Power Status LED
Main VAC
230V ac Auxiliary Power Output (P2L) Connector
24V dc Brake Power Output (P1L) Connector
IOL Connector(as viewed from side)
Auxiliary Power Input(APL) Connector 1
Brake-I/OVAC
CB2CB3
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Locate SERCOS Interface Fiber-Optic Connectors
Use the figure below to locate the SERCOS interface fiber-optic connectors. The fiber-optic ring is connected using the SERCOS Receive and Transmit connectors.
Note: Plastic cable is available in lengths up to 32 m (105.0 ft). Glass cable is available in lengths up to 200 m (656.7 ft).
Figure 1.6ControlLogix and SoftLogix SERCOS Connector Locations
Configure Your Kinetix 6000 These procedures assume you have completed mounting, wiring, and connecting your SERCOS interface module and Kinetix 6000 drive as described in the Kinetix 6000 Multi-Axis Servo Drive Installation Manual (publication 2094-IN001).
The procedures in this section apply to Kinetix 6000 drive components and describe how to:
• Configure your Kinetix 6000 IAM and AM(s)
• Configure your SERCOS interface module using RSLogix 5000 software
• Download your program to your Logix controller
• Apply power to your Kinetix 6000 drive components
• Test and tune your motor using RSLogix 5000 software
These procedures assume you have connected the fiber optic cables between your IAM (2094-xCxx-Mxx, inverter section), axis modules (2094-xMxx), and the ControlLogix chassis with 1756-MxxSE interface module or personal computer with 1784-PM16SE PCI card.
SERCOS interfaceTM
Tx (rear)
Rx (front)
OKCP
0
8
4
C 675
321
9AB
ED F
TX
RX
OK
CP
ControlLogix1756-MxxSE SERCOSinterface Module
SERCOS Receive Connector, Rx (front)
SERCOS Transmit Connector, Tx (rear)
Front View
Bottom View
SERCOS Receive Connector, Rx
SERCOS Transmit Connector, Tx
SoftLogix1784-PM16SE SERCOS interface PCI Card(as viewed from the back of your PC)
RSLogix 5000
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Configure Your Integrated Axis Module
To configure your IAM:
1. Verify that there is no power applied to the IAM and that the SERCOS fiber-optic cables are plugged into the Tx and Rx connectors. To verify your fiber-optic cable connections, refer to the Kinetix 6000 Multi-Axis Servo Drive Installation Manual (publication 2094-IN001).
2. Set the base node address for the IAM by setting the SERCOS Node Address switch. Valid node addresses are 01-99. The left hand switch sets the most significant digit (MSD) and the right hand switch sets the least significant digit (LSD). Refer to the table below for switch operation. Refer to for switch location.
Figure 1.7Setting the Base Address Switches
Setting the base node address on the IAM determines the node address for the IAM inverter. Node addressing for all slot locations on the same power rail increment (from the IAM inverter) left to right.
To Press
Increment the (MSD/LSD) node address The plus (+) switch.
Decrement the (MSD/LSD) node address The minus (-) switch.
LSD
Increments LSD
Decrements LSD
MSD
Increments MSD
Decrements MSD
IMPORTANT After setting the base node address, always cycle control power to initialize the IAM.
IMPORTANT When two or more IAMs are connected to the same SERCOS interface module, each node address must be unique.
Refer to figures 1.9, 1.10, and 1.11 for examples of how node addresses are assigned.
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Refer to Figure 1.8 for an example of the fiber-optic ring connections between the Kinetix 6000 drive(s) and the SoftLogix PCI card. Although Figure 1.8 only illustrates the SERCOS fiber-optic ring with the SoftLogix PCI card, node addressing for SoftLogix is done the same way as shown in the three ControlLogix examples.
Figure 1.8Fiber-Optic Ring Connection
Figure 1.9Node Addressing Example 1
In the example above, Kinetix 6000 (6-axis) System 1 power rail contains one IAM, three AMs, one SM, and one slot filler module. The shunt module and slot filler slots are assigned a node address, but they do not use it.
Kinetix 6000 (2-axis) System 2 power rail contains one IAM and one AM. The base node address of the IAM (system 2) must be set for an address of ≥16 or ≤ 8.
0
8
4
C 675
3
219AB
ED
F
TX
RX
OK
CP
ReceiveTransmit
SoftLogix1784-PM16SE SERCOSinterface PCI Card
Kinetix 6000
Receive Transmit
SERCOS fiber-optic ring
Kinetix 6000
TransmitReceive
SERCOS interfaceTM
Tx (rear)
Rx (front)
OKCP
Kinetix 6000System 2(2-axis power rail)
15 = Slot Filler node address14 = Shunt Module node address13 = AM (axis 4) node address12 = AM (axis 3) node address11 = AM (axis 2) node address10 = IAM (axis 1) base node address
ControlLogix Chassis
SERCOS Fiber-Optic ring
1756-MxxSE SERCOSinterface Module
17 = AM (axis 2) node address16 = IAM (axis 1) base node address
Kinetix 6000System 1
(6-axis power rail)
Receive
Receive
Transmit
Transmit
Transmit
Receive
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Figure 1.10Node Addressing Example 2
In the example above, SERCOS interface module 1 controls axes 1 to 4 and module 2 controls axes 5 to 7. The slot filler module is assigned a node address, but does not use it.
Note: You can mount the two SERCOS interface modules in two separate ControlLogix chassis (as shown above) or you can mount them in the same chassis.
Utilizing two SERCOS interface modules to control axes from a single Kinetix 6000 power rail allows you to reduce the cycle times.
IMPORTANT Do not position axis modules to the right of shunt or slot filler modules. The added distance between non-adjacent axes can increase electrical noise and impedance, and requires longer fiber-optic cable lengths.
SERCOS interfaceTM
Tx (rear)
Rx (front)
OKCP
SERCOS interfaceTM
Tx (rear)
Rx (front)
OKCP
08 = Slot Filler node address07 = AM (axis 7) node address06 = AM (axis 6) node address05 = AM (axis 5) node address04 = AM (axis 4) node address03 = AM (axis 3) node address02 = AM (axis 2) node address01 = IAM (axis 1) base node address
ControlLogix Chassis
SERCOS Fiber-Optic rings
1756-MxxSE SERCOSinterface Module 1
Kinetix 6000(8-axis power rail)
ReceiveReceive
Transmit
TransmitTransmit
Receive
ControlLogix Chassis
1756-MxxSE SERCOSinterface Module 2
Transmit Receive
IMPORTANT Slot Filler modules must be used to fill any unoccupied slot on the power rail. However, the slot fillers may also be removed and replaced by an axis or shunt module in the future.
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Figure 1.11Node Addressing Example 3
In the example above, the Kinetix 6000 (8-axis) power rail contains a double-wide IAM, two double-wide AMs, one single-wide AM, and one slot filler module. The slot filler module is assigned a node address, but does not use it.
The left-most slot of a double-wide module determines the node address. So, in the example above, node addresses 02, 04, and 06 (the right-most slots of the double-wide modules) are not used.
SERCOS interfaceTM
Tx (rear)
Rx (front)
OKCP
08 = Slot Filler node address07 = AM (axis 4) node address06 = Not Used (AM right most slot)05 = AM (axis 3) node address04 = Not Used (AM right most slot)03 = AM (axis 2) node address02 = Not Used (IAM right most slot)01 = IAM (axis 1) base node address
ControlLogix Chassis
SERCOS Fiber-Optic ring
1756-MxxSE SERCOSinterface Module
Kinetix 6000(8-axis power rail)
Receive
Transmit
Transmit
Receive
IMPORTANT Slot Filler modules must be used to fill any unoccupied slot on the power rail. However, the slot fillers may also be removed and replaced by an axis or shunt module in the future.
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3. Set the SERCOS baud rate using DIP switches 2 and 3, as shown in Figure 1.12. Refer to the table below for baud rate switch settings.
4. Set the SERCOS optical power level to High using DIP switch 1, as shown in Figure 1.12. Refer to the table below for optical power level switch setting.
Figure 1.12SERCOS Baud Rate and Optical Power DIP Switches
For this baud rate Set switch 2 Set switch 3
4M baud OFF ON
8M baud ON OFF
For this optical power level Set switch 1
Low OFF
High ON
Note: Switch numbers as seen on the IAM are upside down in this orientation.
Switch numbers shown above are turned around for clarity.
1 2 3 1 2 3
DIP switches set for4M baud applications(high power setting)
DIP switches set for8M baud applications(high power setting)
ON
OFF
SERCOS Baud Rateand Optical Power Switches
Integrated Axis Module, top view(2094-ACxx-Mxx)
ON
OFF
Switch in ON position
Switch in OFF position
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Configure Your Axis Module(s)
This procedure assumes you have configured your IAM. Use the following procedure to configure your axis module(s). In this procedure you will set the baud rate and optical power level switches for your IAM and each AM.
To configure your Axis Module(s):
1. Verify that there is no power applied to the IAM and that the SERCOS fiber-optic cables are plugged into the Tx and Rx connectors. To verify your fiber-optic cable connections, refer to the Kinetix 6000 Multi-Axis Servo Drive Installation Manual (publication 2094-IN001).
2. Set the SERCOS baud rate using DIP switches 2 and 3, as shown in Figure 1.12 (page 1-14). Refer to the table below for the baud rate switch settings.
3. Set the optical power level to High using DIP switch 1, as shown in Figure 1.12. Refer to the table below for optical power level switch setting.
IMPORTANT The node address for each axis module is determined by the base node address switch setting on the IAM. Refer to Figure 1.9.
For this baud rate Set switch 2 Set switch 3
4M baud OFF ON
8M baud ON OFF
For this optical power level Set switch 1
Low OFF
High ON
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Configure Your Logix SERCOS interface Module
This procedure assumes that you have wired your Kinetix 6000 system and have configured the Kinetix 6000 baud rate and optical power switches.
For greater detail on the RSLogix 5000 software as it applies to ControlLogix and SoftLogix modules, refer to the table below for the appropriate publication.
If you have already configured your Logix module using one of the setup and configuration manuals listed above, go directly to Apply Power to Your Kinetix 6000 (page 1-26). If not, go to Configure Your Logix Controller beginning below.
Configure Your Logix Controller
To configure your Logix controller:
1. Apply power to your Logix chassis/PC containing the SERCOS interface module and open your RSLogix 5000 software.
2. Select New in the File menu. The New Controller window opens.
• Select controller type
• Select RSLogix 5000 revision
• Name the file
• Select the Logix chassis size
• Select the Logix processor slot
3. Select OK.
4. Select Controller Properties in the edit menu. The Controller Properties window opens.
IMPORTANT In order for the Kinetix 6000 to communicate with the SERCOS interface module (indicated by the three LEDs on the module going solid green), your RSLogix 5000 software must be version 11.0 or above.
For Refer to this Document Publication Number
Detailed information on configuring and troubleshooting your ControlLogix motion module
Logix5000 Motion Modules User Manual 1756-UM006
Detailed information on configuring and troubleshooting your SoftLogix PCI card
SoftLogix Motion Card Setup and Configuration Manual 1784-UM003
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5. Select the Date and Time tab.
6. Check the box Make this controller the Coordinated System Time master.
7. Select OK.
Configure Your Logix Module
To configure your Logix module:
1. Right-click on I/O Configuration in the explorer window and select New Module. The Select Module window opens.
2. Expand the Motion category and select 1756-MxxSE, -L60M03SE, or 1784-PM16SE as appropriate for your actual hardware configuration.
IMPORTANT Only one ControlLogix processor can be assigned as the Coordinated System Time master.
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3. Select OK. The New Module window opens. Your new module appears under the I/O Configuration folder in the explorer window.
• Name the module
• Select the slot where your module resides (left most slot = 0)
• Select an Electronic Keying option (select Disable Keying if unsure)
• Check the box Open Module Properties.
4. Select OK. The Module Properties window opens.
5. Select the SERCOS Interface tab and reference the table below.
Logix SERCOS Module Number of Axes Data Rate
1756-M03SE or 1756-L60M03SE up to 3
4 or 8 Mbits/s1756-M08SE up to 8
1756-M16SE or 1784-PM16SE up to 16
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6. Select Data Rate, Cycle Time and Optical Power settings.
• Ensure the Data Rate setting matches DIP switches 2 and 3 (baud rate) as set on the IAM and AM(s), or use the Auto Detect setting.
• Set the Cycle Time according to the table below.
Note: The number of axes/module is limited to the number of axes as shown in step 5.
• Ensure the Optical Power setting (high or low) matches DIP switch 1 as set on the IAM and AM(s).
• Transition to Phase default setting is 4 (phase 4). The Transition to Phase setting will stop the ring in the phase specified.
7. Select OK.
8. Repeat steps 1-7 for each Logix module.
Configure Your Kinetix 6000 Modules
To configure your Kinetix 6000 modules:
1. Right-click on the new Logix module you just created and select New Module. The Select Module window opens.
2. Select your 2094-xCxx-Mxx (IAM) or 2094-xMxx (AM) as appropriate for your actual hardware configuration.
Data Rate Number of Axes Cycle Time
4 Mbits/s
up to 2 0.5 ms
up to 4 1 ms
up to 8 2 ms
No support for axes 9 to 16
8 Mbits/s
up to 4 0.5 ms
up to 8 1 ms
up to 16 2 ms
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3. Select OK. The Module Properties window opens.
• Name the module
• Set the Node address
Note: Set node address in the software to match the node setting on the drive. Refer to Configure Your Integrated Axis Module, step 2, on page 1-10.
• Select an Electronic Keying option
• Check the box Open Module Properties
4. Select OK.
5. Select the Associated Axes tab.
6. Select the New Axis button. The New Tag window opens.
• Name the axis
• Select AXIS_SERVO_DRIVE as the Data Type
7. Select OK. The axis appears under the Ungrouped Axes folder in the explorer window.
8. Assign your axis to the node address (as shown in the window below).
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With drive firmware version 1.80 (or above) and RSLogix 5000 software version 13 (or above), it is possible to configure the auxiliary axis feedback port as a Feedback Only axis. With this feature, each IAM (inverter) or AM can be configured to appear as two axes/nodes on the SERCOS ring. The base node is the servo axis utilizing the motor feedback, and the base node (plus 128) is a feedback only axis utilizing the auxiliary feedback port (as shown below).
If an axis is associated to the auxiliary axis node, then the Axis Configuration on the General tab of the Axis Properties page is set to Feedback Only (as shown below).
9. Select OK.
10. Select the Power tab.
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11. Select the Bus Regulator Catalog Number or other as appropriate for your actual hardware configuration.
1 Drive will not accept Internal, <none>, 2094-BSP2, or 1394-SRxxxx selection if DC Bus voltage is present without having three-phase power applied.
2 Drive will not accept CommonBus Follow selection if three-phase power is applied.
12. Select OK.
13. Repeat steps 1-9 for each 2094-xMxx Axis Module (AM).
If your IAM is And your hardware configuration includes this shunt option
Then select
Configured as an IAM orLeader IAM (common bus) 1
Internal shunts only Internal or <none>
Bulletin 2094 (rail mounted) shunt module 2094-BSP2
Bulletin 1394 passive shunt module (connected to the 2094-BSP2) 1394-SRxxxx
Bulletin 1336 active shunt module Internal or <none>
Configured as a Follower IAM 2 N/A. Shunts are disabled on Follower IAM CommonBus Follow
ATTENTION To avoid damage to your Bulletin 1394 external shunt module, verify that the proper 230V or 460V fuse is installed prior to applying power. Refer to the Kinetix 6000 Multi-Axis Servo Drive Installation Instructions (publication 2094-IN001) for fuse specifications.
IMPORTANT When configured to use the Bulletin 1394 or 2094 shunt modules, the IAM bus regulator capacity attribute displays the shunt module or passive shunt module utilization instead of the IAM internal shunt resistor utilization.
IMPORTANT DC Common Bus applications must calculate Total Bus Capacitance and Additional Bus Capacitance and set the Add Bus Cap parameter (x:x:x599) using DriveExplorer software. Refer to Appendix D for the procedures.
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Configure the Motion Group
To configure the motion group:
1. Right-click Motion Groups in the explorer window and select New Motion Group. The New Tag window opens.
2. Name the new motion group.
3. Select OK. New group appears under the Motion Groups folder.
4. Right-click on the new motion group and select Properties. The Motion Group Properties window opens.
5. Select the Axis Assignment tab and move your axes (created earlier) from Unassigned to Assigned.
6. Select the Attribute tab and edit the default values as appropriate for your application.
7. Select OK.
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Configure Axis Properties
To configure axis properties:
1. Right-click on an axis in the explorer window and select Properties. The Axis Properties window opens.
2. Select the Drive/Motor tab.
• Set the Kinetix 6000 Amplifier (2094-xCxx-Mxx)
• Set the Motor Catalog Number
• Set Loop Configuration to Position Servo
• Drive Enable Input Checking, when checked (default), means a hard drive enable input signal is required. Uncheck to remove that requirement.
Note: For amplifier and motor catalog numbers refer to the amplifier and motor name plate.
3. Select the Motor Feedback tab and verify the Feedback Type shown is appropriate for your actual hardware configuration.
4. Select the Units tab and edit default values as appropriate for your application.
5. Select the Conversion tab and edit default values as appropriate for your application.
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6. Select the Fault Actions tab and click on the Set Custom Stop Action... tab. The Custom Stop Action Attributes window opens.
The Custom Stop Action Attributes window allows you to set delay times for servo motors and resistive brake modules. For recommended motor brake delay times, refer to the Kinetix Motion Control Selection Guide (publication GMC-SG001).
• Set the Brake Engage Delay Time
• Set the Brake Release Delay Time
• Set the Resistive Brake Contact Delay time (0 - 1000 ms range)
Note: The recommended delay time for 2090-XB33-xx and -XB120-xx resistive brake modules is 71 ms.
Note: If you are using RSLogix 5000 v12 or lower, refer to Set the RBM Delay Time Using DriveExplorer on page C-14.
• Select Close
7. Select OK.
8. Repeat steps 1-7 for each axis module.
9. Verify your Logix program and save the file.
Download Your Program
After completing the Logix configuration you must download your program to the Logix processor.
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Apply Power to Your Kinetix 6000
Use the table below to determine where to begin applying power to your Kinetix 6000.
Apply Power to Your Kinetix 6000 (with LIM)
This procedure assumes that you have wired and configured your Kinetix 6000 (including the LIM) and your SERCOS interface module.
To apply power to your Kinetix 6000 system:
1. Ensure CB1, CB2, and CB3 on the LIM are in the OFF position (refer to figures 1.4 and 1.5 for the location of the CB1, CB2, and CB3).
2. Disconnect the load to the motor(s).
3. Apply three-phase input power to the LIM VAC Line connector.
4. Set CB3 on the LIM to the ON position.
If your Kinetix 6000 system Then
Includes a (2094-xLxx or -xLxxS-xx) LIM Go to Apply Power to Your Kinetix 6000 (with LIM)
Does not include a (2094-xLxx or -xLxxS-xx) LIM Go to Apply Power to Your Kinetix 6000 (without LIM)
ATTENTION To avoid hazard of electrical shock, perform all mounting and wiring of IAM, AM, SM, LIM, RBM, or power rail prior to applying power. Once power is applied, connector terminals may have voltage present even when not in use.
IMPORTANT Follow this procedure if your Kinetix 6000 system includes a Line Interface Module (LIM).
ATTENTION To avoid personal injury or damage to equipment, disconnect the load to the motor(s). Ensure each motor is free of all linkages when initially applying power to the system.
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5. Observe the Brake Power Status LED on the LIM (2094-xLxx only). Refer to Figure 1.4 for the location of the Brake Power Status LED.
6. Observe the I/O Power Status LED on the LIM. Refer to Figure 1.4 (2094-xLxx) or Figure 1.5 (2094-xLxxS-xx) for the location of the I/O Power Status LED.
7. Set CB2 on the LIM to the ON position.
8. Set CB1 on the LIM to the ON position.
9. Verify the Hardware Enable Input signal (IOD pin 2) for each axis is at 0 volts.
If the Brake Power Status LED is
Status Do This
Solid green Brake power is ready Go to step 6.
Not solid green Brake power fault Go to Troubleshoot LIM Status LEDs on page 2-12.
If the I/O Power Status LED is
Status Do This
Solid green I/O power is ready Go to step 7.
Not solid green I/O power fault Go to Troubleshoot LIM Status LEDs on page 2-12.
If the Hardware Enable Input signal is
Then
0 volts Go to step 10.
24 volts1. Remove connection
between IOD-1 and IOD-2.
2. Go to step 10.
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10. Observe the IAM/AM front panel logic power LED as shown in the figure below.
Figure 1.13Logic Power and Status LED Display
11. Observe the IAM/AM front panel seven segment status LED display as shown in Figure 1.13.
Note: The seven segment LED will first flash the SERCOS node address, then cycle through phases until final configuration (phase 4) is reached.
1 You can get diagnostic information from the module by highlighting the module name in RSLogix 5000. A Pseudo Key Failure often indicates that the motor selection does not match the motor installed.
Logic Power LED
Seven Segment Fault Status LED
If the Logic Power LED is
Then
ON Go to step 11.
Not ON1. Check your control power
connections.
2. Repeat step 10.
If Is Status Do This
The seven segment status LED on your 2094-xCxx-Mxx IAMor2094-xMxx AM
Actively cycling (phase 0)
The drive is looking for a closed SERCOS ring. Wait for phase 1 or take corrective action until you reach phase 1.
Check fiber-optic connections.
Displaying a fixed 1 (phase 1)
The drive is looking for active nodes. Wait for phase 2 or take corrective action until you reach phase 2.
Check node addressing.
Displaying a fixed 2 (phase 2)
The drive is configuring nodes for communication. Wait for phase 3 or take corrective action until you reach phase 3.
Check program motor and drive configuration against installed hardware.
Displaying a fixed 3 (phase 3)
The drive is configuring device specific parameters. Wait for phase 4 or take corrective action until you reach phase 4.
Check motor catalog number against selection.1
Displaying a fixed 4 (phase 4) The drive is configured and active. Go to step 12.
Flashing an E followed by two numbers
Drive is faulted. Go to Error Codes on page 2-3.
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12. Observe the Drive Status LED.
13. Observe the Comm Status LED.
14. Observe the Bus Status LED.
1 The Follower IAM has a 2.5 second delay after DC Bus voltage is applied before the Bus Status LED begins flashing. This provides the common bus leader time to complete pre-charge.
15. Observe the three SERCOS LEDs on the SERCOS module.
If the Drive Status LED is Status Do This
Off Normal condition Go to step 13.
Steady red Drive is faulted Go to Troubleshoot IAM/AM Status LEDs on page 2-8.
If the Comm Status LED is Status Do This
Flashing green Establishing communication with network Wait for steady green.
Steady green Communication is ready Go to step 14.
Off No ring present Go to Troubleshoot IAM/AM Status LEDs on page 2-8.
If the Bus Status LED is Status Do This
Steady green Axis is enabled when status should be disabled
1. Verify Hardware Enable Input (IOD-2) is open.
2. Verify MSO instruction is not commanded in RSLogix 5000.
3. Return to Apply Power to Your Kinetix 6000 (with LIM) on page 1-26.
Flashing green 1Bus is up, axis is disabled (normal status) Go to step 15.
Off DC bus is not present Go to Troubleshoot IAM/AM Status LEDs on page 2-8.
If the three SERCOS LEDs are Status Do This
Flashing green and red Establishing communication Wait for steady green on all three LEDs.
Steady green Communication ready Go to Test and Tune Your Axes.
Not flashing green and red/ not steady green SERCOS module is faulted
Go to the appropriate Logix motion module setup and configuration manual for specific instructions and troubleshooting.
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Apply Power to Your Kinetix 6000 (without LIM)
This procedure assumes that you have wired and configured your Kinetix 6000 and SERCOS interface module.
To apply power to your Kinetix 6000 system:
1. Disconnect the load to the motor(s).
2. Apply (95-264V ac) control power to the IAM (CPD connector) and observe the logic power LED as shown in the figure below.
Figure 1.14Logic Power and Status LED Display
Note: The seven segment LED will first flash the SERCOS node address, then cycle through phases until final configuration (phase 4) is reached.
IMPORTANT Follow this procedure if your Kinetix 6000 system does not include a Line Interface Module (LIM).
ATTENTION To avoid personal injury or damage to equipment, disconnect the load to the motor(s). Ensure each motor is free of all linkages when initially applying power to the system.
Logic Power LED
Seven Segment Fault Status LED
If the Logic Power LED is
Then
ON Go to main step 3.
Not ON1. Check your control power
connections.
2. Repeat main step 2.
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3. Apply 195-265V ac (230V) or 324-528V ac (460V) input power to the IAM (IPD connector) and observe the front panel seven segment Status LED display as shown in Figure 1.14.
1 You can get diagnostic information from the module by highlighting the module name in RSLogix 5000. A Pseudo Key Failure often indicates that the motor selection does not match the motor installed.
4. Observe the Drive Status LED.
5. Observe the Comm Status LED.
If Is Status Do This
The seven segment status LED on your 2094-xCxx-Mxx IAMor2094-xMxx AM
Actively cycling (phase 0)
The drive is looking for a closed SERCOS ring. Wait for phase 1 or take corrective action until you reach phase 1.
Check fiber-optic connections.
Displaying a fixed 1 (phase 1)
The drive is looking for active nodes. Wait for phase 2 or take corrective action until you reach phase 2.
Check node addressing.
Displaying a fixed 2 (phase 2)
The drive is configuring nodes for communication. Wait for phase 3 or take corrective action until you reach phase 3.
Check program motor and drive configuration against installed hardware.
Displaying a fixed 3 (phase 3)
The drive is configuring device specific parameters. Wait for phase 4 or take corrective action until you reach phase 4.
Check motor catalog number against selection.1
Displaying a fixed 4 (phase 4) The drive is configured and active Go to step 4.
Flashing an E followed by two numbers
Drive is faulted Go to Error Codes on page 2-3.
If the Drive Status LED is Status Do This
Off Normal condition Go to step 5.
Steady red Drive is faulted Go to Troubleshoot IAM/AM Status LEDs on page 2-8.
If the Comm Status LED is Status Do This
Flashing green Establishing communication with network Wait for steady green.
Steady green Communication is ready Go to step 6.
Off No ring present Go to Troubleshoot IAM/AM Status LEDs on page 2-8.
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6. Observe the Bus Status LED.
1 The Follower IAM has a 2.5 second delay after DC Bus voltage is applied before the Bus Status LED begins flashing. This provides the common bus leader time to complete pre-charge.
7. Observe the three SERCOS LEDs on the SERCOS module.
If the Bus Status LED is Status Do This
Steady greenDC bus is present. Axis is enabled when status should be disabled.
1. Verify Hardware Enable Input (IOD-2) is open.
2. Verify MSO instruction is not commanded in RSLogix 5000.
3. Return to Apply Power to Your Kinetix 6000 (without LIM) on page 1-30.
Flashing green 1Bus is up, axis is disabled (normal status) Go to step 7.
Off DC bus is not present Go to Troubleshoot IAM/AM Status LEDs on page 2-8.
If the three SERCOS LEDs are Status Do This
Flashing green and red Establishing communication Wait for steady green on all three LEDs.
Steady green Communication ready Go to Test and Tune Your Axes.
Not flashing green and red/ not steady green SERCOS module is faulted
Go to the appropriate Logix motion module setup and configuration manual for specific instructions and troubleshooting.
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Test and Tune Your Axes This procedure assumes that you have configured your Kinetix 6000, your SERCOS interface module, and applied power to the system.
For greater detail on the RSLogix 5000 software as it applies to ControlLogix and SoftLogix modules, refer to the table below for the appropriate publication.
If you have already tested and tuned your Logix module using one of the setup and configuration manuals listed above, you are finished commissioning your Kinetix 6000 system. If not, go to Test Your Axes beginning below.
Test Your Axes
To test your axes:
1. Verify the load was removed from each axis.
2. Right-click on an axis in your Motion Group folder in the explorer window and select Axis Properties. The Axis Properties window appears.
IMPORTANT Before proceeding with testing and tuning your axes, verify that the IAM and AM status LEDs are as described in the table below.
Status LED Must be Status
Drive Off Normal condition
Comm Steady green Communication is ready
Bus Flashing green Bus is up, axis is disabled (normal status)
Seven Segment Displaying a fixed 4 (phase 4) The drive is configured and active.
For Refer to this Document Publication Number
Detailed information on configuring and troubleshooting your ControlLogix motion module
Logix5000 Motion Modules User Manual 1756-UM006
Detailed information on configuring and troubleshooting your SoftLogix PCI card
SoftLogix Motion Card Setup and Configuration Manual 1784-UM003
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1-34 Commission Your Kinetix 6000
3. Select the Hookup tab.
4. Select 2.0 as the number of revolutions for the test (or another number more appropriate for your application).
5. Apply Hardware Enable Input signal (IOD-2) for the axis you are testing.
This Test Performs this Test
Test Marker Verifies marker detection capability as you rotate the motor shaft.
Test FeedbackVerifies feedback connections are wired correctly as you rotate the motor shaft.
Test Command & Feedback
Verifies motor power and feedback connections are wired correctly as you command the motor to rotate. Also, allows you to define polarity.
ATTENTION To avoid personal injury or damage to equipment, apply 24V ENABLE signal (IOD-2) only to the axis you are testing.
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6. Select the Test (Marker/Feedback/Command & Feedback) button to verify connections. The Online Command window opens. Follow the on-screen test instructions. When the test completes, the Command Status changes from Executing to Command Complete.
7. Select OK.
8. The Online Command - Apply Test window opens (Feedback and Command & Feedback tests only). When the test completes, the Command Status changes from Executing to Command Complete.
9. Select OK.
If Then
Your test completes successfully, this window appears:
1. Select OK.
2. Remove Hardware Enable Input signal (IOD-2).
3. Go to Tune Your Axes.
Your test failed, this widow appears:
1. Select OK.
2. Verify the Bus Status LED turned solid green during the test.
3. Verify that the Hardware Enable Input signal (IOD-2) is applied to the axis you are testing.
4. Verify conversion constant entered in the Conversion tab.
5. Return to step 6 and run the test again.
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Tune Your Axes
To tune your axes:
1. Verify the load is still removed from the axis being tuned.
2. Select the Tune tab.
3. Enter values for Travel Limit and Speed. In this example, Travel Limit = 5 and Speed = 10.
Note: Actual value of programmed units depend on your application.
4. Select setting for Direction (Forward Uni-directional is default).
5. Check Tune boxes as appropriate for your application.
6. Apply Hardware Enable Input signal (IOD-2) for the axis you are tuning.
ATTENTION To reduce the possibility of unpredictable motor response, tune your motor with the load removed first, then re-attach the load and perform the tuning procedure again to provide an accurate operational response.
ATTENTION To avoid personal injury or damage to equipment, apply 24V ENABLE signal (IOD-2) only to the axis you are tuning.
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7. Select the Start Tuning button to auto-tune your axis. The Online Command - Tune Servo window opens. When the test completes, the Command Status changes from Executing to Command Complete.
8. Select OK. The Tune Bandwidth window opens.
Note: Actual bandwidth values (Hz) depend on your application and may require adjustment once motor and load are connected.
Record your bandwidth data for future reference.
9. Select OK.
10. The Online Command - Apply Tune window opens. When the test completes, the Command Status changes from Executing to Command Complete.
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11. Select OK.
12. Repeat Test and Tune Your Axes for each axis.
If Then
Your test completes successfully, this window appears:
1. Select OK.
2. Remove the Hardware Enable Input signal (IOD-2) applied earlier.
3. Go to step 12.
Your test failed, this widow appears: 1. Select OK.
2. Make an adjustment to motor velocity.
3. Refer to appropriate Logix motion module setup and configuration manual for more information.
4. Return to step 7 and run the test again.
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Chapter 2
Troubleshoot Your Kinetix 6000
Chapter Objectives This chapter provides a description of maintenance and troubleshooting activities for the Kinetix 6000. This chapter includes:
• Safety Precautions
• General Troubleshooting
• Troubleshoot IAM/AM Status LEDs
• Troubleshoot SM Status LEDs
• Troubleshoot LIM Status LEDs
• Troubleshoot RBM Status LEDs
• Troubleshoot General System Problems
• Understand Logix/Drive Fault Behavior
• Supplemental Troubleshooting Information
• Replace Kinetix 6000 System Components
1 Publication 2094-IN002E-EN-P — September 2005
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Safety Precautions Observe the following safety precautions when troubleshooting your Kinetix 6000 drive.
General Troubleshooting Refer to the Error Codes section to identify problems, potential causes, and appropriate actions to resolve the problems. If problems persist after attempting to troubleshoot the system, please contact your Allen-Bradley representative for further assistance. To determine if your Kinetix 6000 drive has an error, refer to the table below.
ATTENTION DC bus capacitors may retain hazardous voltages after input power has been removed, but will normally discharge in several seconds. Before working on the drive, measure the DC bus voltage to verify it has reached a safe level or wait the full time interval listed on the warning on the front of the drive. Failure to observe this precaution could result in severe bodily injury or loss of life.
Do not attempt to defeat or override the drive fault circuits. You must determine the cause of a fault and correct it before you attempt to operate the system. If you do not correct a drive or system malfunction, it could result in personal injury and/or damage to equipment as a result of uncontrolled machine system operation.
If you use an oscilloscope (or chart recorder) for troubleshooting, you must properly ground it. The oscilloscope chassis can be at a potentially fatal voltage if you do not properly ground it. Always connect the oscilloscope chassis to an earth ground.
If the Logic Power LED is ON and the Status LED display on your Is Then
2094-xCxx-Mxx-x IAMActively cycling segments in a full circle Your Kinetix 6000 drive is ready, but SERCOS
communications is not available.
Displaying a fixed 4 Your Kinetix 6000 drive is ready.
All drives Flashing an E followed by two numbers Your Kinetix 6000 drive has an error. Proceed to the section Error Codes.
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Error Codes
The following list of problematic symptoms (no error code shown) and problems with assigned error codes is designed to help you resolve problems.
When a fault is detected, the 7-segment LED will display an E followed by the flashing of the two-digit error code, one digit at a time. This is repeated until the problem is cleared.
ErrorCode
Fault Message RSLogix (HIM) Problem or Symptom is Potential Cause is Possible Resolution is
Power (PWR) indicator not ON
No AC power or auxiliary logic power. Verify AC control power is applied to the Kinetix 6000.
Internal power supply malfunction. Call your Allen-Bradley representative to return module for repair.
Motor jumps when first enabled
Motor wiring error.• Check motor wiring.
• Run Hookup test in RSLogix 5000.
Incorrect motor chosen. Verify the proper motor is selected.
Digital I/O not working correctly I/O power supply disconnected. Verify connections and I/O power source.
E00BusUndervoltageFault(Blown fuse)
A blown fuse was detected on the inverter PCB Blown fuse. Call your Allen-Bradley representative to
return module for repair.
E04MotorOvertempFault(Motor Overtemp)
Motor thermal switch tripped
• High motor ambient temperatureand/or
• Excessive current
• Operate within (not above) the continuous torque rating for the ambient temperature 40 °C (104 °F) maximum.
• Lower ambient temperature, increase motor cooling.
Motor wiring error. Check motor wiring at MF connector on the IAM/AM.
Incorrect motor selection. Verify the proper motor has been selected.
E05DriveOvercurrentFault(Power Fault)
Self-protection of the Intelligent Power Module (IPM) is indicating a major power related fault condition.
Motor cables shorted. Verify continuity of motor power cable and connector.
Motor winding shorted internally.Disconnect motor power cables from the motor. If the motor is difficult to turn by hand, it may need to be replaced.
Kinetix 6000 temperature too high.
• Check for clogged vents or defective fan.
• Ensure cooling is not restricted by insufficient space around the unit.
Operation above continuous power rating and/or product environmental ratings.
• Verify ambient temperature is not too high.
• Operate within the continuous power rating.
• Reduce acceleration rates.
Kinetix 6000 has a short circuit, overcurrent, or failed component.
Remove all power and motor connections, and preform a continuity check from the DC bus to the U, V, and W motor outputs. If a continuity exists, check for wire fibers between terminals, or send drive in for repair.
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E06HardOvertravelFault(+/- Hard Overtravel)
Axis moved beyond the physical travel limits in the positive/negative direction.
Dedicated overtravel input is inactive.
• Check wiring.
• Verify motion profile.
• Verify axis configuration in software.
E07MotFeedbackFault(Motor Feedback Loss)
The feedback wiring is open, shorted, or missing.• Check motor encoder wiring.
• Run Hookup test in RSLogix 5000.
E09BusUndervoltageFault(Bus Undervoltage)
With three-phase power present, the DC bus voltage is below limits. • DC bus voltage for 460V system is
below 275V
• DC bus voltage for 230V system is below 137V
• Verify voltage level of the incoming AC power.
• Check AC power source for glitches or line drop.
• Install an uninterruptible power supply (UPS) on your AC input.
DC bus voltage fell below the undervoltage limit while an axis on the follower power rail was enabled.
Disable follower axis before removing power.
E10DriveOvervoltageFault(Bus Overvoltage)
The DC bus voltage is above limits.
Excessive regeneration of power.
When the motor is driven by an external mechanical power source, it may regenerate too much peak energy through the Kinetix 6000’s power supply. The system faults to save itself from an overload.
• Change the deceleration or motion profile.
• Use a larger system (motor and Kinetix 6000).
• Install shunt module.
• DC bus voltage for 460V system is over 820V
• DC bus voltage for 230V system is over 410V
Verify input is within specifications.
E11MotFeedbackFault(Illegal Hall State)
State of Hall feedback inputs is incorrect. Bad connections.
• Verify the Hall wiring at the MF connector on the IAM/AM.
• Verify 5V power supply to the encoder.
E16
SoftovertravelFault(+/- Software Overtravel)
Axis position exceeded maximum software setting.• Verify motion profile.
• Verify overtravel settings are appropriate.
E18OverSpeedFault(Overspeed Fault)
Motor speed has exceeded 150% of maximum rated speed. The 100% trip point is dictated by the lesser of the user velocity limits or the motor rated base speed.
• Check cables for noise.
• Check tuning.
E19PositionErrorFault(Follow Error)
Position error limit was exceeded.
• Increase the feed forward gain.
• Increase following error limit or time.
• Check position loop tuning.
• Verify sizing of system.
• Verify mechanical integrity of system within specification limits.
E20MotFeedbackFault(Mtr Fdbk AQB)
Motor Encoder State Error The motor encoder encountered an illegal transition.
• Use shielded cables with twisted pair wires.
• Route the feedback away from potential noise sources.
• Check the system grounds.
• Replace the motor/encoder.
E21AuxFeedbackFault(Aux Feedback Comm)
Communication was not established with an intelligent encoder. Verify auxiliary encoder wiring.
ErrorCode
Fault Message RSLogix (HIM) Problem or Symptom is Potential Cause is Possible Resolution is
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E30MotFeedbackFault(Motor Feedback Comm)
Communication was not established with an intelligent encoder.
• Verify motor selection.
• Verify the motor supports automatic identification.
• Verify motor encoder wiring.
E34GroundShortFault(Ground Fault)
Excessive ground current in the converter was detected.
Wiring error.
• Check motor power wiring.
• Check input power wiring (refer to Kinetix 6000 Installation Manual, publication 2094-IN001).
Motor internal ground short. Replace motor.
Internal malfunction.
Disconnect motor power cable from drive and enable drive with current limit set to 0. If fault clears, then a wiring error or motor internal problem exists. If fault remains, call your A-B representative.
Grounded control power terminal(applies to 230V systems only)
• Remove ground from control power input.
• Wire control power to use main power as shown in Figure A.3.
• Add isolation transformer for control power.
E35DriveUndervoltageFault(Pre-charge Fault)
Converter pre-charge cycle failed.
Low AC input voltage. Check input AC voltage on all phases.
Internal malfunction. Call your A-B representative.
E36
DriveOvertempFault(System Overtemperature)
Converter thermal switch tripped.
Excessive heat exists in the power circuitry.
• Reduce acceleration rates.
• Reduce duty cycle (ON/OFF) of commanded motion.
• Increase time permitted for motion.
• Use larger Kinetix 6000 converter.
• Check for clogged vents or defective fan.
• Ensure cooling is not restricted by insufficient space around the unit.
E37PowerPhaseLossFault(Phase Loss Flt)
• One or more phases of the input AC power is missing.
• Axis was enabled when main (3-phase) power was removed.
• Common bus follower axis was enabled when DC bus power was removed.
• Check input AC voltage on all phases.
• Disable axis before removing power.
E38SERCOSFault(SERCOS Ring Flt)
The SERCOS ring is not active after being active and operational.
Cable disconnected. Check that fiber-optic cable is present and connected properly.
E39DriveHardFault(Self Sense Flt)
Self-sensing Commutation Startup Error
Motion required for self-sensing startup commutation was obstructed.
• Verify that there are no impediments to motion at startup, such as hard limits.
• Increase self-sensing current if high friction or load conditions exist.
• Check motor or encoder wiring using wiring diagnostics.
E43DriveEnableInputFault(Drive Enable Flt)
Missing Drive Enable Input Signal
• An attempt was made to enable the axis through software while the Drive Enable hardware input was inactive.
• The Drive Enable input transitioned from active to inactive while the axis was enabled.
• Disable the Drive Enable Input fault.
• Verify that Drive Enable hardware input is active whenever the drive is enabled through software.
ErrorCode
Fault Message RSLogix (HIM) Problem or Symptom is Potential Cause is Possible Resolution is
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E49DriveHardFault(Safe-Off HW Flt)
For symptom, cause, and resolution of this error code, refer to the Kinetix Safe-Off Feature Safety Reference Manual (publication GMC-RM002). Applies to IAM (2094-xCxx-Mxx-S) and AM (2094-xMxx-S) with Safe-Off feature.
E50SERCOSFault(SERCOS Same ADDR)
Duplicate node address detected on SERCOS ring. Verify that each SERCOS drive is assigned a unique node address.
E54DriveHardFault(Ifbk HW Fault)
Current feedback hardware fault detected. Replace the module
E60DriveHardFault(Unknown Axis)
Illegal ID bits detected Replace the module
E61AuxFeedbackFault(Aux Fdbk AQB)
Auxiliary Encoder State Error
The auxiliary encoder encountered an illegal transition.
• Use shielded cables with twisted pair wires.
• Route the feedback away from potential noise sources.
• Check the system grounds.
• Replace the motor/encoder.
E62AuxFeedbackFault(Aux Fdbk Loss)
The feedback wiring is open, shorted, or missing. Check the motor feedback cable connectors/wiring to the IAM/AM and motor.
E63AuxFeedbackNoise(Aux Fdbk Noise)
Noise on auxiliary feedback cable.
Recommended grounding, per installation instructions, has not been followed.
• Verify grounding.
• Route feedback cable away from noise sources.
• Refer to System Design for Control of Electrical Noise Reference Manual (publication GMC-RM001).
E64MotorFeedbackNoise(Mtr Fdbk Noise)
Noise on motor feedback cable.
E65
No Fault Message(condition indicated by on-screen message)(Hookup Fault)
Hookup procedure failed Motor or feedback device malfunction.• Check motor power/feedback wiring.
• Refer to on-screen message for resolution.
E66
No Fault Message(condition indicated by on-screen message)(Atune Flt)
Autotune procedure failed Motor or feedback device malfunction.
• Check motor power/feedback wiring.
• Refer to on-screen message for resolution.
• Perform Hookup in RSLogix 5000.
• Consult RSLogix 5000 help screen.
E67DriveHardFault(Task init)
Operating system failed Software initialization fault detected due to hardware failure.
• Cycle power.
• If fault persists, replace module.
E68DriveHardFault(SCANport Comm)
DPI communication failed The DPI device or cable is faulty. Check DPI connections.
E69DriveHardFault(Objects Init)
Non-volatile memory is corrupt due to control board hardware failure.Load default parameters, save to non-volatile memory, and recycle power or reset the drive.
E70DriveHardFault(NV Mem Init)
Non-volatile memory is corrupt due to control board software error.Load default parameters, save to non-volatile memory, and recycle power or reset the drive.
E71DriveHardFault(Memory Init)
RAM or Flash memory validation failure• Cycle power.
• If fault persists, replace module.
ErrorCode
Fault Message RSLogix (HIM) Problem or Symptom is Potential Cause is Possible Resolution is
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Troubleshoot Your Kinetix 6000 2-7
E72DriveOvertempFault(Drive Overtemp)
Inverter thermal switch tripped
The fan on the IAM or an AM failed. Replace the failed module.
The cabinet ambient temperature is above rating. Check the cabinet temperature.
The machine duty cycle requires an RMS current exceeding the continuous rating of the controller.
Change the command profile to reduce speed or increase time.
The airflow access to the Kinetix 6000 is limited or blocked.
Check airflow and re-route cables away from the Kinetix 6000.
E73Communicate(Backplane Comm)
Power rail CAN communications failed. Check module for proper mount.
Power rail connection shorted or open. Check power rail and module for foreign objects.
E74DriveOvercurrentFault(Bus OverCurrent)
DC link current exceeds rating.
Motor or transmission malfunction.
• Check for proper motor sizing.
• Check/replace transmission device.
• Check/replace motor.
IAM not properly sized.• Check for proper IAM sizing.
• Install larger kW rated IAM.
E75DriveOvervoltageFault(Shunt Time Out)
The IAM, AM, or SM has exceeded its shunt resistor continuous rating.
• Use a properly sized shunt or modify duty cycle of the application.
• System uses internal shunt and requires external shunt for additional capacity.
E76DriveHardFault(Can Init)
DPI hardware initialization fault detected. Control board hardware failure.
• Reset System.• If fault persists, replace system
module.
E77DriveHardFault(Module Mismatch)
Either 230V AM is installed on power rail with 460V IAM, or 460V AM is installed on power rail with 230V IAM. Replace mismatched module.
E78DriveHardFault(SERCOS Init)
Control hardware fault detected.• Cycle power.
• If fault persists, replace module.
E79DriveOvervoltageFault(Shunt Module Flt)
SM Temperature Fault LED status is Steady Red Refer to Temperature Fault LED on page 2-11.
SM Shunt Fault LED status is Steady Red Refer to Shunt Fault LED on page 2-11.
Module missing from power rail.• Install missing module on power rail.• Fill empty slot with slot filler module.
E80DriveHardFault(CPLD FLT)
Control hardware fault detected. Replace module.
E81DriveHardFault(Common Bus FLT)
Follower IAM detected AC input power being applied. Remove AC input power connections from Follower IAM.
E90DriveHardFault(Pre-charge Timeout FLT)
Pre-charge resistor power exceeds the resistor rating. Allow resistor to cool.
All others RESERVED Call your local Allen-Bradley
representative.
ErrorCode
Fault Message RSLogix (HIM) Problem or Symptom is Potential Cause is Possible Resolution is
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Troubleshoot IAM/AM Status LEDs
Drive Status LED
Use the table below for troubleshooting the Drive Status LED on your Kinetix 6000 IAM (2094-xCxx-Mxx) or AM (2094-xMxx).
Comm Status LED
Use the table below for troubleshooting the Comm Status LED on your Kinetix 6000 IAM (2094-xCxx-Mxx) or AM (2094-xMxx).
1 Refer to Fiber Optic Cable Installation and Handling Instructions (publication 2090-IN010) for more information.
If the Drive Status LED is Status is Potential Cause is Possible Resolution is
Off Normal, no faults N/A N/A
Steady Red Drive faulted Seven-segment LED displays error code Refer to the section Error Codes and continue troubleshooting.
If the Comm Status LED is Status is Potential Cause is Possible Resolution is
Steady Green Communication ready No faults or failures. N/A
Flashing Green Establishingcommunication
System is still in the process of establishing SERCOS communication. Wait for steady green LED status.
Node address setting on the drive module does not match SERCOS controller configuration.
Verify proper node switch setting.
Off No communication 1
Loose fiber-optic connection. Verify proper fiber-optic cable connections.
Broken fiber-optic cable. Replace fiber-optic cable.
Receive fiber-optic cable connected to SERCOS transmit connector and vice versa.
Check proper SERCOS fiber-optic cable connections.
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Troubleshoot Your Kinetix 6000 2-9
Bus Status LED
Use the table below for troubleshooting the Bus Status LED on your Kinetix 6000 IAM (2094-xCxx-Mxx) or AM (2094-xMxx).
If the Bus Status LED is Status is Condition
Steady Green Bus power is present, axis enabled.No faults or failures.
Normal when:• 24V is applied to Hardware Enable Input (IOD-2).
• MSO instruction is commanded in RSLogix 5000 software.
Flashing Green Bus power is present, axis disabled.No faults or failures.
Normal when:• 24V is not applied to Hardware Enable Input (IOD-2).
• MSO instruction is not commanded in RSLogix 5000 software.
Off
Bus power not present.• Normal when bus power is not applied.
• Fault exists, refer to seven segment Error Code and General Troubleshooting beginning on page 2-2.
Bus power is present in Follower IAM.
• Follower IAM is not configured as Common Bus Follower in RSLogix 5000.
• After DC bus voltage is applied, a 2.5 second delay before the LED begins flashing green is normal operation to provide common bus leader time to complete pre-charge.
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2-10 Troubleshoot Your Kinetix 6000
Troubleshoot SM Status LEDs
Each of the shunt module LEDs provide specific troubleshooting information, as described in Bus Status LED, Temperature Fault LED, and Shunt Fault LED.
General Shunt Module Troubleshooting
The following table applies when all three SM LEDs are flashing.
IMPORTANT Use of the Kinetix 6000 (rail mounted) shunt module (catalog number 2094-BSP2), requires IAM/AM firmware revision 1.068 or above.
Shunt Module Faults are Under these Conditions
Latched Until fault condition is corrected and cleared.
Cleared
• Using RSLogix MASR, MAFR, MGSR commands or the HIM (red stop button).
• Only after the DC bus is discharged (SM Bus Status LED is flashing).
• Drive must be configured with 2094-BSP2 or Bulletin 1394 external shunt module.
IAM/AM Internal Shunts are Under these Conditions
Disabled (for DC Bus regulation)
• When the 2094-BSP2 shunt module is used on a 230V system.
• When either 230V or 460V system is configured with a Bulletin 1394 external shunt module.
• When configured in common bus follower mode.
Enabled to discharge the DC Bus Drive (IAM or IAM Leader) three-phase power is removed.
Disabled from discharging the DC bus When configured in common bus follower mode.
IMPORTANT Under some fault conditions, two reset commands may be required to clear drive and SM faults.
Status is Potential Cause is Possible Resolution is
All three SM status LEDs flash simultaneously Shunt module hardware failure
• Cycle power• If problem persists, replace shunt module
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Troubleshoot Your Kinetix 6000 2-11
Bus Status LED
Use the table below for troubleshooting the Bus Status LED on your Kinetix 6000 SM (2094-BSP2).
Temperature Fault LED
Use the table below for troubleshooting the Temperature Fault LED on your Kinetix 6000 SM (2094-BSP2).
Shunt Fault LED
Use the table below for troubleshooting the Shunt Fault LED on your Kinetix 6000 SM (2094-BSP2).
If the Bus Status LED is Status is Potential Cause is Possible Resolution is
Flashing Normal condition when control power is applied and bus voltage is less than 60V dc. N/A
Steady Green Normal condition when control power is applied and bus voltage is greater than 60V dc. N/A
Off Control power is not present Internal power supply failure Replace shunt module.
If the Temp FaultLED is Status is Potential Cause is Possible Resolution is
Off Normal condition N/A
Steady Red
SM internal temperature exceeds operating temperature specification
Shunt module fan failed Replace shunt module.
Shunt module temperature exceeds rating• Allow shunt module to cool.• Reset faults.• Verify IAM bus regulator configuration.
External over temperature condition
External temperature switch is open• Allow shunt module to cool.• Reset faults.• Verify IAM bus regulator configuration.
TS jumper is not present Install jumper.
If the Shunt FaultLED is Status is Potential Cause is Possible Resolution is
Off Normal condition N/A
Steady Red Shorted internal or external shunt resistor
Mis-wired shunt jumper or other short on RC connector • Correct mis-wire (shorted) condition
• If problem persists, replace shunt moduleMis-wired (shorted) external shunt wiring
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2-12 Troubleshoot Your Kinetix 6000
Troubleshoot LIM Status LEDs
The following troubleshooting table applies to the following Line Interface Module status LEDs:
• 24V Power status LED (2094-AL75S, -BL75S, and -XL75S-Cx)
• Brake Power status LED (2094-AL09 and -BL02)
• I/O Power status LED (2094-AL09 and -BL02)
Troubleshoot RBM Status LEDs
The Resistive Brake Module (RBM) contactor status LED is visible from the front of the RBM. Use the table below for troubleshooting the RBM status LEDs.
24V dc Status LED
The 24V dc Status LED is on when 24V is applied between COIL_A1 and COIL_A2 (e.g. a Brake Enable signal is received from the drive).
If the Status LED is Status is Potential Cause is Possible Resolution is
Steady Green Normal, 24V power enabled N/A N/A
Off
• 24V power disabled (2094-AL75S, -BL75S, and XL75S-Cx)
• Brake power disabled (2094-AL09, and -BL02)
• I/O power disabled (2094-AL09, and -BL02)
CB3 is open• Set breaker to on position.
• If breaker continues to trip, call your Allen-Bradley representative to return module for repair.
24V polarity is reversed at the load
• Correct polarity.
• If polarity is correct and LED is not steady green, call your Allen-Bradley representative to return module for repair.
If the Status LED is RBM Contactor Status is Potential Cause is Possible Resolution is
Steady Green
Contactor engaged(direct connection between drive and motor)
No faults or failures N/A
Contactor disengaged(no connection between drive and motor)
Contactor failure • Monitor CONSTAT_41/42 status to verify lack of
drive/motor power (output is NC).
• Contact A-B representative.
Blinking Green (audible clicking)
Contactor rapidly engaging/disengaging
Recommended grounding not followed
• Verify ground wiring.
• Route wires away from noise sources.
• Refer to System Design for Control of Electrical Noise Reference Manual (publication GMC-RM001).
Control circuit improperly wired Verify control wiring and programming.
Off (intended)
Contactor disengaged(connection open between drive and motor)
No faults or failures N/A
Off (unintended)
+24V not applied between COIL_A1 and COIL_A2
• +24V supply is off.
• Verify wiring.
• Drive not enabled.
• Contact A-B representative.
T1 (Fault) thermostat open Duty cycle exceeded, allow RBM to cool.
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Troubleshoot Your Kinetix 6000 2-13
230V ac Auxiliary Power Status LED
Note: The 230V ac Auxiliary Power Status LED only applies to 2090-XB120-xx RBMs.
The 230V ac Status LED is on when 230V ac is applied to L1 and L2 (TB4) and the contactor is engaged by applying 24V dc across COIL_A1 and COIL_A2 (e.g. a Brake Enable signal is received from the drive).
If 230V Status LED is Contactor Status is Potential Cause is Possible Resolution is
Steady Green
Contactor Engaged(direct connection between drive and motor) No faults or failures N/A
Contactor Disengaged(no connection between drive and motor) Contactor failure
• Monitor CONSTAT_41/42 status to verify lack of drive/motor power (output is NC).
• Contact A-B representative.
Blinking Green (audible clicking) Contactor rapidly engaging/disengaging
Grounding
• Verify ground wiring.
• Route wires away from noise sources.
• Refer to System Design for Control of Electrical Noise Reference Manual (publication GMC-RM001).
230V ac is varying
• Check VAC loading.
• Check VAC source.
• Verify wiring.
Control circuit improperly wired Verify control wiring and programming.
Off (intended)
Contactor Engaged Contactor failure(contacts welded together)
• Monitor CONSTAT_41/42 status to verify lack of drive/motor power (output is NC).
• Contact A-B representative.
Contactor Disengaged No faults or failures N/A
Off (unintended)
Contactor EngagedContactor failure(contacts welded together)
• Monitor CONSTAT_41/42 status to verify lack of drive/motor power (output is NC).
• Contact A-B representative.
LED failure • Contact A-B representative.
Contactor Disengaged
+24V signal not functioning properly Refer to 24V dc Status LED troubleshooting table on page 2-12.
Contactor failure (coil damaged) Contact A-B representative.
No 230V ac signal• Verify wiring.
• Verify 230V ac source.
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2-14 Troubleshoot Your Kinetix 6000
Troubleshoot General System Problems
Use the tables below for troubleshooting general system faults. For a list of Bulletin 1756 product manuals, refer to Related Documentation in the Preface.
Condition Potential Cause is Possible Resolution is
Axis or System is unstable
The position feedback device is incorrect or open. Check wiring.
Unintentionally in torque mode. Check to see what primary operation mode was programmed.
Motor tuning limits are set too high. Run Tune in RSLogix 5000.
Position loop gain or position controller accel/decel rate is improperly set. Run Tune in RSLogix 5000.
Improper grounding or shielding techniques are causing noise to be transmitted into the position feedback or velocity command lines, causing erratic axis movement.
Check wiring and ground.
Motor Select limit is incorrectly set (servo motor is not matched to axis module).
• Check setups.
• Run Tune in RSLogix 5000.
Mechanical resonanceNotch filter or output filter may be required (refer to Axis Properties window, Output tab in RSLogix 5000).
You cannot obtain the motor acceleration/deceleration that you want
Torque Limit limits are set too low. Verify that current limits are set properly.
Incorrect motor selected in configuration. Select the correct motor and run Tune in RSLogix 5000 again.
The system inertia is excessive.• Check motor size vs. application need.
• Review servo system sizing.
The system friction torque is excessive. Check motor size vs. application need.
Available current is insufficient to supply the correct accel/decel rate.
• Check motor size vs. application need.
• Review servo system sizing.
Acceleration limit is incorrect. Verify limit settings and correct them, as necessary.
Velocity Limit limits are incorrect. Verify limit settings and correct them, as necessary.
Motor does not respond to a Velocity Command
The axis cannot be enabled for 1.5 seconds after disabling. Disable the axis, wait for 1.5 seconds, and enable the axis.
Enable signal has not been applied or the enable wiring is incorrect.
• Check the controller.
• Check the wiring.
The motor wiring is open. Check the wiring.
The motor thermal switch has tripped.• Check for a fault.
• Check the wiring.
The motor has malfunctioned. Repair or replace the motor.
The coupling between motor and machine has broken (i.e., the motor moves, but the load/machine doesn’t). Check and correct the mechanics.
Primary operation mode is set incorrectly. Check and properly set the limit.
Velocity or current limits are set incorrectly. Check and properly set the limit(s).
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Troubleshoot Your Kinetix 6000 2-15
Presence of noise on Command or motor feedback signal wires
Recommended grounding per installation instructions have not been followed.
• Verify grounding.
• Route wire away from noise sources.
• Refer to System Design for Control of Electrical Noise (publication GMC-RM001).
Line frequency may be present.• Verify grounding.
• Route wire away from noise sources.
Variable frequency may be velocity feedback ripple or a disturbance caused by gear teeth or ballscrew balls etc. The frequency may be a multiple of the motor power transmission components or ballscrew speeds resulting in velocity disturbance.
• Decouple the motor for verification.
• Check and improve mechanical performance of the gearbox, ballscrew, etc.
No Rotation
The motor connections are loose or open. Check motor wiring and connections.
Foreign matter is lodged in the motor. Remove foreign matter.
The motor load is excessive. Verify the servo system sizing.
The bearings are worn. Return the motor for repair.
The motor brake is engaged (if supplied).• Check brake wiring and function.
• Return the motor for repair.
The motor is not connect to the load. Check coupling.
Motor OverheatingThe duty cycle is excessive. Change the command profile to reduce accel/
decel or increase time.
The rotor is partially demagnetized causing excessive motor current. Return the motor for repair.
Abnormal Noise
Motor tuning limits are set too high. Run Tune in RSLogix 5000 again.
Loose parts are present in the motor.
• Remove the loose parts.
• Return motor for repair.
• Replace motor.
Through bolts or coupling is loose. Tighten bolts.
The bearings are worn. Return motor for repair.
Mechanical resonanceNotch filter may be required (refer to Axis Properties window, Output tab in RSLogix 5000).
Erratic Operation - Motorlocks into position, runswithout control or withreduced torque
Motor power phases U and V, U and W, or V and W reversed. Check and correct motor power wiring.
Sine, Cosine or Rotor leads are reversed in the feedback cable connector. Check and correct motor feedback wiring.
Sine, Cosine, Rotor lead sets of resolver feedback are reversed. Check and correct motor feedback wiring.
Condition Potential Cause is Possible Resolution is
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2-16 Troubleshoot Your Kinetix 6000
Understand Logix/Drive Fault Behavior
This section provides the drive fault actions and indicates whether the fault action is programmable.
The following drive fault action definitions apply:
Drive Fault Action Definition
Shutdown The drive disables and the contactor enable relay opens. Uncontrolled stop, motor coasts to a stop.
Disable Drive The drive is disabled. Uncontrolled Stop, motor coasts to a stop.
Stop Motion
Logix configuration for velocity loop Kp/Ki is followed. When zero speed is reached or stopping time is exceeded, the drive is disabled. Note: Stopping time and stopping torque are configurable parameters in
RSLogix 5000.
Status Only Drive continues to operate. Status is provided by 7-Segment Fault Status LED, Drive Status LED, and DPI (if used).
Fault Message RSLogix (HIM)
ErrorCode Description Drive Fault
ActionRSLogix Programmable Fault Action?
BusUndervoltageFault(Blown fuse)
E00 A blown fuse was detected in the inverter pcb. SHUTDOWN N
MotorOvertempFault(Motor Overtemp)
E04
The motor thermal switch was tripped.
Note: Firmware I2t protection does not generate a fault, rather it dynamically folds back current when 110% of motor rating is reached. Setting the Motor Thermal fault action to Status Only will bypass this function.
STOP Y
DriveOvercurrentFault(Power Fault)
E05 An instantaneous over-current was detected in the inverter power section. SHUTDOWN N
HardOvertravelFault(+/- Hard Overtravel)
E06 Axis moved beyond the physical travel limits in the positive/negative direction. This fault can be configured for status only. STOP Y
MotFeedbackFault(Motor Feedback Loss)
E07 The feedback wiring is open, shorted or missing. DISABLE N
BusUndervoltageFault(Bus Under Voltage)
E09
With 3 phase present, the DC bus voltage is below limits. The trip point is 275V and 137V DC for 460V/230V drives respectively.
SHUTDOWN NDC bus voltage is below limits when any axis on common bus follower power rail was enabled.
DriveOvervoltageFault(Bus Overvoltage)
E10 The DC bus voltage is above limits. The trip point is 820V and 410V DC for 460V/230V drives respectively. SHUTDOWN N
MotFeedbackFault(Illegal Hall State)
E11 State of Hall feedback inputs in incorrect. DISABLE N
SoftovertravelFault(+/- Software Overtravel)
E16 Axis position exceeded maximum software setting in the positive/negative direction. This fault can be configured for status only. STOP Y
OverSpeedFault(Overspeed Fault)
E18Axis speed has reached 150% of the maximum rated setting. The 100% trip point is dictated by the lesser of the user velocity limits or the motor rated base speed.
DISABLE N
PositionErrorFault(Follow Error)
E19 Axis position error limit has been exceeded. This fault can be configured for status only. STOP Y
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Troubleshoot Your Kinetix 6000 2-17
MotFeedbackFault(Mtr Fdbk AQB)
E20 Motor encoder has encountered an illegal state transition. DISABLE N
AuxFeedbackFault(Aux Feedback Comm)
E21 Communication was not established with an intelligent (i.e. Stegmann) encoder on the Auxiliary feedback port. STOP N
MotFeedbackFault(Motor Feedback Comm)
E30 Communication was not established with an intelligent (i.e. Stegmann) encoder on the Motor feedback port. STOP N
GroundShortFault(Ground Fault)
E34 Excessive ground current in the converter was detected. SHUTDOWN N
DriveUndervoltageFault(Precharge Fault)
E35 The converter pre-charge cycle has failed. SHUTDOWN N
DriveOvertempFault(System Overtemperature)
E36 Converter internal temperature limit exceeded. SHUTDOWN N
PowerPhaseLossFault(Phase Loss Flt)
E37
• One or more phases of the input AC power is missing.
• Axis was enabled when main (3-phase) power was removed.
• Common bus follower axis was enabled when DC bus power was removed.
SHUTDOWN/ STOP N
SERCOSFault(SERCOS Ring Flt)
E38 The SERCOS ring is not active after being active and operational. STOP N
DriveHardFault(Self Sense Flt)
E39 Self-sensing commutation fault detected DISABLE N
DriveEnableInputFault(Drive Enable Flt)
E43 Generated when Enable input switches off when drive is enabled. STOP Y
DriveHardFault(Safe-Off HW Flt)
E49
Safe-off function mismatch. Drive will not allow motion. Refer to the Kinetix Safe-Off Feature Safety Reference Manual (publication GMC-RM002) for more information. Applies to IAM (2094-xCxx-Mxx-S) and AM (2094-xMxx-S) with Safe-Off feature.
SHUTDOWN N
SERCOSFault(SERCOS Same ADDR)
E50 Duplicate node address detected on SERCOS ring. STOP N
DriveHardFault(Ifbk HW Fault)
E54 Current feedback hardware fault detected. SHUTDOWN N
DriveHardFault(Unknown Axis)
E60 Invalid module type identified by firmware during power on SHUTDOWN N
AuxFeedbackFault(Aux Fdbk AQB)
E61 Auxiliary encoder has encountered an illegal state transition. DISABLE N
AuxFeedbackFault(Aux Fdbk Loss)
E62 The feedback wiring is open, shorted or missing. DISABLE N
AuxFeedbackNoise(Aux Fdbk Noise)
E63 Presence of noise on auxiliary feedback cable.
DISABLE YMotorFeedbackNoise(Mtr Fdbk Noise)
E64 Presence of noise on motor feedback cable.
No Fault Message(condition indicated by on-screen message)(Hookup Fault)
E65 Hookup procedure failed DISABLE N
Fault Message RSLogix (HIM)
ErrorCode Description Drive Fault
ActionRSLogix Programmable Fault Action?
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2-18 Troubleshoot Your Kinetix 6000
No Fault Message(condition indicated by on-screen message)(Atune Flt)
E66 Autotune procedure failed DISABLE N
DriveHardFault(Task init)
E67 Operating System Failed SHUTDOWN N
DriveHardFault(SCANport Comm)
E68 DPI Communication Failed STOP N
DriveHardFault(Objects Init)
E69 Non-Volatile Memory attribute out of range SHUTDOWN N
DriveHardFault(NV Mem Init)
E70 Non-Volatile Memory Corrupted SHUTDOWN N
DriveHardFault(Memory Init)
E71 RAM or Flash memory validation failure. SHUTDOWN N
DriveOvertempFault(Drive Overtemp)
E72
Inverter temperature limit exceeded.
Note: Firmware I2t protection does not generate a fault, rather it dynamically folds back current when 110% of drive rating is reached.
SHUTDOWN Y
Communicate(Backplane Comm)
E73 Power Rail Backplane CAN communications failed STOP N
DriveOvercurrentFault(Bus OverCurrent)
E74 The converter has exceeded its converter rating. SHUTDOWN N
DriveOvervoltageFault(Shunt Time Out)
E75
The IAM, AM, or SM has exceeded its shunt resistor continuous rating.Note: SHUTDOWN for IAM, DISABLE for AM. IAM also provides
fault handling for Shunt Module.
SHUTDOWN N
DriveHardFault(Can Init)
E76 Either DPI or Backplane CAN initialization failure SHUTDOWN N
DriveHardFault(Module Mismatch)
E77 Generated by IAM if the power rating of one of the AM’s on the power rail does not match with IAM input power rating SHUTDOWN N
DriveHardFaultSERCOS Init
E78 Control hardware fault detected SHUTDOWN N
DriveOvervoltageFault(Shunt Module Flt)
E79 Power Rail mounted Shunt Module Fault. Displayed on IAM 7-segment fault status LED. SHUTDOWN N
HardwareFault(CPLD FLT)
E80 Control hardware fault detected SHUTDOWN N
HardwareFault(Common Bus FLT)
E81 Common Bus Follower IAM detected AC input power being applied. SHUTDOWN N
HardwareFault(Pre-charge Timeout FLT)
E90 Pre-charge resistor power exceeds the resistor rating. SHUTDOWN N
RESERVED All Others
Fault Message RSLogix (HIM)
ErrorCode Description Drive Fault
ActionRSLogix Programmable Fault Action?
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Troubleshoot Your Kinetix 6000 2-19
Supplemental Troubleshooting Information
This section provides information for accessing and changing parameters not accessible through RSLogix 5000 software.
Tools for Changing Parameters
Most parameters are accessible through RSLogix 5000 software. Alternatives to RSLogix 5000 software for changing parameters include the DPI compatible Human Interface Module (HIM) and DriveExplorer software. Refer to the table below for catalog numbers.
1 Refer to DriveExplorer Getting Results Manual (publication 9306-GR001) for instructions.2 Compatible catalog numbers include all 20-HIM-Ax.
Changing Parameters Using DriveExplorer
To navigate using DriveExplorer, refer to the figure below. In this example, the I/O Interface group folder is open, the Analog Outputs parameter is selected, and the parameter elements are displayed in the box to the right.
Figure 2.1DriveExplorer Example
Method Description Catalog Number Firmware Revision
DriveExplorerDriveExplorer Software 1 9306-4EXP02ENE 2.01 or later
Serial to SCANport Adapter 1203-SSS (Series B) 3.004 or later
HIM Full Numeric LCD HIM 20-HIM-A3 2 N/A
IMPORTANT Parameters are read-only when SERCOS ring is active. You must break SERCOS ring to change parameters.
To save changes, perform a non-volatile save (NVS) prior to cycling power.
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2-20 Troubleshoot Your Kinetix 6000
Changing Parameters Using the HIM
When using the HIM to monitor or change parameters, use the up and down arrows (∧ and ∨ ) to arrive at selections. Refer to the instructions that came with your HIM for more information.
To monitor or change parameters using the HIM:
1. Select parameter. Press ↵ .
2. Select I/O AM1 Group (for IAM). Press ↵ .
3. Select Analog Outputs. Press ↵ .
• Analog Output 1 is displayed. Press ↵ .
• For Analog Output 2 use arrows to select. Press ↵ .
4. Press Sel.
5. Enter parameter number. Press ↵ .
Using Analog Test Points to Monitor System Variables
There are two analog output test points accessible from the IOD 26-pin connector on each IAM and AM (refer to figures and 1.2 for connector locations).
Figure 2.2Pin Orientation for 26-pin I/O (IOD) Connector
Refer to the Kinetix 6000 Multi-Axis Servo Drive Installation Manual (publication 2094-IN001) for analog output specifications.
IOD Pin Description Signal
23 Analog Output 0 DAC0
24 Analog Output Common DAC_COM
25 Analog Output 1 DAC1
26 Analog Output Common DAC_COM
Pin 18
Pin 26
Pin 1
Pin 9
Pin 10
Pin 19
26-pin IAM/AMI/O Connector
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Troubleshoot Your Kinetix 6000 2-21
Parameters begin with a variable to identify a specific axis by slot number, as follows:
• IAM = 0 for parameters 0-999
• 1st AM = 1 for parameters 1000-1999
• 2nd AM = 2 for parameters 2000-2999 and so on...
• 7th AM = 7 for parameter 7000-7999
Use the two analog output test points to monitor system variables, as shown in the table below.
1 x = slot number
The value entered in Scale Parameter will scale the analog output so that you can get a full scale reading of the specific parameter for the dynamic range or values you are testing.
To monitor dynamic system variables on analog outputs, use the values shown in the table below.
1 Velocity Command and Feedback scaling value is 0.25V = 1000 rpm (using default scaling).2 Torque Command and Feedback scaling value is 0.25V = 100% rated motor current or amplifier rating (whichever
is less) using default scaling.3 Output scaling is dependant on feedback device and drive resolution.4 x = slot number
Analog Output
Controlling Parameter Scale Parameter
Parameter Number1 Default Value1 Parameter Number1 Default Value
1 x681 xx40 x682 0.0060
2 x683 xx84 x684 0.1000
Attribute Parameter Number4
Velocity Feedback1 xx40
Velocity Commanded1 xx36
Torque Feedback2 xx84
Torque Commanded2 xx80
Following Error3 x189
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Replace Kinetix 6000 System Components
Use these procedures to:
• Determine what you need to replace modules
• Remove a module from the Power Rail
• Install a replacement Power Rail module
• Remove the Power Rail
• Install a replacement Power Rail
• Remove the Line Interface Module
• Install a replacement Line Interface Module
Before You Begin
Before you replace modules, be sure to have the following:
• A flat blade screw driver
• A small flat blade screw driver, 3.5 mm (0.14 in.)
• Voltmeter
ATTENTION This drive contains ESD (Electrostatic Discharge) sensitive parts and assemblies. You are required to follow static control precautions when you install, test, service, or repair this assembly. If you do not follow ESD control procedures, components can be damaged. If you are not familiar with static control procedures, refer to Allen-Bradley publication 8000-4.5.2, Guarding Against Electrostatic Damage or any other applicable ESD Protection Handbook.
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Troubleshoot Your Kinetix 6000 2-23
Remove Modules from the Power Rail
To remove module(s) from the power rail:
1. Verify that all control and input power has been removed from the system.
2. Allow five minutes for the DC bus to completely discharge before proceeding.
3. Label and remove all connectors from the module (IAM, AM, or SM) you are removing. To identify each connector, refer to Commission Your Kinetix 6000 (pages 1-3 to 1-5).
Note: The Slot Filler module has no connectors aside from the connections to the power rail.
4. Remove the motor cable from the cable shield clamp, as shown in the figure below.
Figure 2.3
Depressing the Spring Clamp
ATTENTION To avoid shock hazard or personal injury, assure that all power has been removed before proceeding. This system may have multiple sources of power. More than one disconnect switch may be required to de-energize the system.
ATTENTION This product contains stored energy devices. To avoid hazard of electrical shock, verify that all voltage on capacitors has been discharged before attempting to service, repair, or remove this unit. You should only attempt the procedures in this document if you are qualified to do so and are familiar with solid-state control equipment and the safety procedures in publication NFPA 70E.
Use flat blade screwdriver with3.5 mm (0.14 in.) tip to depress
spring and remove cable.
Cable Clamp
Screwdriver tip in slot
Vertical Cable ClampOrientation Example
Cable Clamp
MotorCable
Vent holes on top of IAM/AM
Horizontal Cable ClampOrientation Example
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2-24 Troubleshoot Your Kinetix 6000
5. Loosen the mounting screw (bottom center of each module).
6. Grasp top and bottom of the module with both hands and gently pull the module away from the connectors enough to clear the guide pin(s) (module will pivot on top bracket). Lift the bracket out of the power rail slot and remove module from the power rail.
Figure 2.4Removing Module from Power Rail
Replace Power Rail Modules
To replace the power rail module(s):
1.
2. Prepare to mount your replacement module by removing the protective boots from the power rail connector.
3. Hang the mounting bracket from the slot on the power rail.
4. Align the guide pin(s) on the power rail with the guide pin hole(s) in the back of the module (refer to Figure 2.4).
Note: The IAM can have two or three power rail connectors and guide pins, the AM can have one or two, all other modules have only one connector and one guide pin.
Power Rail(side view)
Guide Pin(s)
Integrated Axis Module(side view)
If you are Then
Replacing a power rail module on the existing power rail Go to step 3.
Replacing a power rail module on a new power rail Go to step 2.
IMPORTANT Power rail must be in vertical orientation before replacing modules or pins may not seat properly.
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Troubleshoot Your Kinetix 6000 2-25
5. Use 2.26 N-m (20 lb-in.) torque to tighten the mounting screw.
6. Re-connect the module connectors.
7. Re-apply power to the system.
8. Verify that the system is operating properly.
Note: Because IAM and AM parameters reside in the RSLogix 5000 software, you do not need to perform any tuning or setup procedures.
Remove the Power Rail This procedure assumes you have disconnected all power from the power rail modules and removed all modules from the power rail.
To remove the power rail:
1. Disconnect the braided grounding strap from the grounding stud on the right side of the power rail, as shown in the figures below.
Figure 2.5Removing Ground Strap (2094-PRx)
Figure 2.6Removing Ground Strap (2094-PRSx)
2. Loosen the mounting bolts (removing the bolts is not necessary).
3. Lift the power rail up and off of the mounting bolts.
Braided Ground Strap100 mm (3.9 in.)
Bonded Cabinet Ground
Braided Ground Strap100 mm (3.9 in.)
Bonded Cabinet Ground
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Replace the Power Rail This procedure assumes you do not need to change the location of the power rail on the panel and you intend to reuse the mounting bolts of the power rail you just removed.
To replace the power rail:
1. Align the replacement power rail over the existing mounting bolts.
2. Tighten the mounting bolts.
3. Re-attach the braided grounding strap to the power rail grounding stud (refer to figures 2.5 and 2.6).
IMPORTANT If you need to change the location of the power rail, or if you are installing a power rail designed for additional or fewer modules than you removed, refer to the Kinetix 6000 Multi-Axis Servo Drive Installation Manual (publication 2094-IN001) for complete installation instructions.
ATTENTION To avoid damage to Power Rail during installation, do not remove the protective boots until the module for each slot is ready for mounting.
IMPORTANT To improve the bond between the power rail and subpanel, construct your subpanel out of zinc plated (paint-free) steel.
Publication 2094-IN002E-EN-P — September 2005
Troubleshoot Your Kinetix 6000 2-27
Remove the Line Interface Module
To remove the Line Interface Module (LIM):
1. Verify that all input power has been removed from the LIM.
2. Allow five minutes for the DC bus to completely discharge before proceeding.
3. Label and remove all connectors and wires from the LIM. To identify each connector, refer to page 1-6.
4. Loosen the mounting bolts (removing the bolts is not necessary).
5. Lift the LIM up and off of the mounting bolts.
ATTENTION To avoid shock hazard or personal injury, assure that all power has been removed before proceeding. This system may have multiple sources of power. More than one disconnect switch may be required to de-energize the system.
ATTENTION To avoid hazard of electrical shock, verify that all voltage on the capacitors has been discharged before attempting to service, repair, or remove this unit. This product contains stored energy devices. You should only attempt the procedures in this document if you are qualified to do so and familiar with solid-state control equipment and the safety procedures in publication NFPA 70E.
Publication 2094-IN002E-EN-P — September 2005
2-28 Troubleshoot Your Kinetix 6000
Replace the Line Interface Module
This procedure assumes you do not need to change the location of the LIM on the panel and you intend to reuse the mounting bolts of the LIM you just removed.
1. Align the replacement LIM over the existing mounting bolts.
2. Tighten the mounting bolts.
3. Re-connect the LIM wires and connectors. To locate wires and connectors, refer to page 1-6.
4. Re-apply power to the LIM.
5. Verify that the LIM is operating properly.
IMPORTANT If you need to change the location of the LIM, refer to the Kinetix 6000 Multi-Axis Servo Drive Installation Manual (publication 2094-IN001) for complete installation instructions.
IMPORTANT To improve the bond between the LIM and subpanel, construct your subpanel out of zinc plated (paint-free) steel.
Publication 2094-IN002E-EN-P — September 2005
Appendix A
Interconnect Diagrams
Chapter Objectives This appendix contains the following interconnect diagrams:
• Power Interconnect Diagrams
• DC Common Bus Interconnect Diagrams
• Shunt Module Interconnect Diagrams
• AM/Motor Interconnect Diagrams
• Controlling a Brake Example
• System Block Diagrams
Kinetix 6000 Interconnect Diagram Notes
This section provides interconnect diagram notes to assist you in wiring the Kinetix 6000 system. The notes apply to the interconnect diagrams on the pages that follow.
ATTENTION The National Electrical Code and local electrical codes take precedence over the values and methods provided. Implementation of these codes is the responsibility of the machine builder.
1 Publication 2094-IN002E-EN-P — September 2005
A-2 Interconnect Diagrams
Note Information
1 For power wiring specifications, refer to Kinetix 6000 Installation Manual (publication 2094-IN001).
2 For input fuse and circuit breaker sizes, refer to Kinetix 6000 Installation Manual (publication 2094-IN001).
3 For AC line filter specifications, refer to Kinetix 6000 Installation Manual (publication 2094-IN001).
4 Terminal block is required to make connections.
5 2094-BCxx-Mxx (460V) IAM requires step down transformer for single-phase control power input. Source 2094-ACxx-Mxx (230V) IAM control power from the three-phase input power (line-to-line). Supplying 230V control power from any other source requires an isolation transformer. If used, do not ground either leg of the isolation transformer output.
6 LIM models 2094-AL75S and -BL75S can supply a maximum of eight axes. LIM models 2094-XL75S-Cx can supply a maximum of sixteen axes. For common bus systems with more than sixteen axes, multiple LIMs (or control power transformers) are required.
7 Contactor coil (M1) needs integrated surge suppressors for AC coil operation.
8 Drive Enable input must be opened when main power is removed, or a drive fault will occur. A delay of at least 1.0 second must be observed before attempting to enable the drive after main power is restored.
9 Cable shield clamp must be used in order to meet CE requirements. No external connection to ground required.
10 Jumper is factory set, indicating grounded system at user site. Ungrounded sites must jumper the bleeder resistor to prevent high electrostatic buildup. Refer to Kinetix 6000 Installation Manual (publication 2094-IN001) for more information.
11ATTENTION
Implementation of safety circuits and risk assessment is the responsibility of the machine builder. Please reference international standards EN 1050 and EN 954 estimation and safety performance categories. For more information refer to Understanding the Machinery Directive (publication SHB-900).
12ATTENTION
Wiring the Contactor Enable relay is required. To avoid injury or damage to the drive, wire the Contactor Enable relay into your safety control string. The recommended minimum wire size for wiring the safety circuit to the contactor enable connector is 1.5 mm2 (16 AWG).
13 The Kinetix 6000 axis module referenced is either an individual axis module (2094-xMxx) or the same axis module that resides within an integrated axis module (2094-xCxx-Mxx).
14 For motor cable specifications, refer to the Kinetix Motion Control Selection Guide (publication GMC-SG001).
15 Wire colors are for flying lead cable (2090-XXNFxx-Sxx) and may vary from the premolded connector cable (2090-UXNFBxx-Sxx).
16 Y-Series feedback cables have a drain wire that must be folded back under the Low Profile connector clamp.
17 Only the MPG-Bxxx encoder uses the +5V dc supply. MPL-Bxxx encoders use the +9V dc supply.
18 Brake wires on MPF/MPS-A/B5xx motors are labeled plus (+) and minus (-). All other MP-Series Food Grade and Stainless Steel motor brake wires are labeled F and G.
19 Refer to Kinetix 6000 Installation Manual (publication 2094-IN001) for input fuse specifications. Current requirements are for master only shunt applications. For master/slave applications you must multiply the current requirement by the number of shunt units.
20 Refer to Kinetix 6000 Installation Manual (publication 2094-IN001) for fault relay specifications. This normally closed contact (TTL compatible) is closed when 115V ac is applied and opens when a shunt fault or loss of power occurs.
Publication 2094-IN002E-EN-P — September 2005
Interconnect Diagrams A-3
Power Interconnect Diagrams
The interconnect wiring for an IAM is shown beginning below.
In the configuration below the IAM has input power, brake power, and the start/stop string wired from a LIM (2094-AL09 or -BL02). The 2094-xLxx LIM contains an AC line filter, so an external filter is not required.
Figure A.1IAM Power Interconnect Diagram (IAM with LIM)
CONT EN-CONT EN+
WVU
L3
L2
L1
24-26
13
20-22
4
DC-
DC+
L3
L2
L1
L2L1
CTRL 2CTRL 1
L3'
L2'
L1'
1
2
1
2
3
4
5
6
1
2
6
5
4
3
2
1
4
3
2
1
IO_PWR
COIL_A1
IO_COM
COIL_A2
1
2
1
2
3
4
BR+
BR-MBRK -
MBRK +
COM
PWR
DBRK -
DBRK + BR+
BR-
MBRK_PWR
MBRK_COM
MBRK_PWR
MBRK_COM
Control Power(CPD) Connector
* INDICATES USER SUPPLIED COMPONENT
Contactor Enable(CED) ConnectorNote 12
Motor BrakeConnections
Resistive BrakeConnections
24V dc Output(PSL) Connector
Motor/ResistiveBrake (BC) Connector
Three-PhaseMotor PowerConnectionsNote 14
Motor Power(MP) Connector
Cable ShieldClamp
Note 9
Kinetix 6000INTEGRATED AXIS MODULE
2094-ACxx-Mxx or -BCxx-Mxx
Bonded CabinetGround Bus*
VAC LINE Three-Phase (IPL) Input195-264V ac RMS
or 324-528V ac RMSNote 1
Power RailGround Stud
GroundVAC LOAD 3-Phase (OPL) Output
195-264V ac RMSor 324-528V ac RMS
Note 1
STOP *I/O (IOL)Connector
Note 11, 12
Kinetix 6000LINE INTERFACE MODULE
2094-AL09 or -BL02
DC Busand3-PhaseInput (IPD)Connector
Single-Phase (CPL) Output195-264V ac RMS
Notes 1
Publication 2094-IN002E-EN-P — September 2005
A-4 Interconnect Diagrams
In the configuration below two IAMs have input power, brake power, and the start/stop string wired from the same LIM (2094-AL75S, -BL75S, or -XL75S-Cx). The 2094-xL75S-xx LIM does not contain an AC line filter, so an external filter is added between the LIM and IAM.
Figure A.2IAM Power Interconnect Diagram (IAM with LIM)
CONT EN-CONT EN+
WVU
L3
L2
L1
1, 3, 5
7
2, 4, 6
8
DC-
DC+
L3
L2
L1
CTRL 2CTRL 1
L3'
L2'
L1'
1
2
1
2
3
4
5
6
1
2
6
5
4
3
2
1
4
3
2
1
IO_PWR1
COIL_E1
IO_COM1
COIL_E2
1
2
3
4
5
6
L1
L2/N
1
2
3
4
CTRL 2CTRL 1
1
2
1
2
3
4
1
2
BR+
BR-MBRK -
MBRK +
COM
PWR
DBRK -
DBRK + BR+
BR-
IO_PWR2
IO_COM2
IO_PWR2
IO_COM2
IO_PWR2
IO_COM2
To CED connector, IAM_2
To BC connector, IAM_2
To IPD connector,IAM_2
To CPD connector,IAM_2
Control Power(CPD) Connector
* INDICATES USER SUPPLIED COMPONENT
Contactor Enable(CED) ConnectorNote 12
Motor BrakeConnections
Resistive BrakeConnections
24V dc (P1L) Output
Motor/ResistiveBrake (BC) Connector
Three-PhaseMotor PowerConnectionsNote 14
Motor Power(MP) Connector
Cable ShieldClamp
Note 9Bonded CabinetGround Bus*
VAC LINE3-Phase (IPL) Input195-264V ac RMS
or 324-528V ac RMSNote 1
Power RailGround Stud
VAC LOAD3-Phase (OPL) Output
195-264V ac RMSor 324-528V ac RMS
Note 1
STOP *I/O (IOL)Connector
Note 11, 12
Kinetix 6000LINE INTERFACE MODULE
2094-AL75S, -BL75S, or -XL75S-Cx
DC Busand3-PhaseInput (IPD)Connector
Control PowerSingle-Phase (CPL) Output
195-264V ac RMSNote 1
Three-PhaseAC Line Filter
Note 3
Kinetix 6000INTEGRATED AXIS MODULE
2094-ACxx-Mxx or -BCxx-Mxx(IAM_1)
Auxiliary PowerSingle-Phase (APL) Input
93-121V ac RMSor 196-253V ac RMS
(This connector is presentonly on the 2094-XL75S-Cx)
Note 1
Note 4
Note 4
Note 6
Publication 2094-IN002E-EN-P — September 2005
Interconnect Diagrams A-5
CONT EN-CONT EN+
WVU
DC-
DC+
L3
L2
L1
CTRL 2CTRL 1
1
2
1
2
3
4
5
6
1
2
6
5
4
3
2
1
4
3
2
1
BR+
BR-MBRK -
MBRK +
COM
PWR
DBRK -
DBRK + BR+
BR-
From CPL connector, LIM
From OPL connector, LIM
From P1L connector, LIM
From IOL connector, LIMand CED connector, IAM_1
Control Power(CPD) Connector
Contactor Enable(CED) ConnectorNote 12
Motor BrakeConnections
Resistive BrakeConnections
Motor/ResistiveBrake (BC) Connector
Three-PhaseMotor PowerConnectionsNote 14
Motor Power(MP) Connector
Cable ShieldClamp
Note 9
Kinetix 6000INTEGRATED AXIS MODULE
2094-ACxx-Mxx or -BCxx-Mxx(IAM_2)
Power RailGround Stud
DC Busand3-PhaseInput (IPD)Connector
Three-PhaseAC Line Filter
Note 3
Bonded CabinetGround Bus*
Publication 2094-IN002E-EN-P — September 2005
A-6 Interconnect Diagrams
The configuration on this page does not include a LIM. You must supply input power components. The diagram below is preferred because one three-phase line filter is utilized by both control power and main input power connections. The three-phase line filter is wired upstream of fusing and the M1 contactor.
Figure A.3IAM Power Interconnect Diagram (IAM without LIM - Preferred)
ATTENTIONWiring the Contactor Enable relay is required. To avoid injury or damage to the drive, wire the Contactor Enable relay into your safety control string.
DC-
DC+
L3
L2
L1
BR+
BR-
CTRL 2CTRL 1
CONT EN-CONT EN+
MBRK -
MBRK +
COM
PWR
DBRK -
DBRK +
W
V
U
BR+
BR-
4
3
2
1
6
5
4
3
2
1
1
2
3
4
5
6
1
2
1
2Single-Phase Input
95-264V ac RMSNotes 1, 2
IsolationTransformer *
Notes 5, 6
Three-Phase Input195-264V ac RMS
or 324-528V ac RMSNotes 1, 2
Bonded Cabinet Ground Bus *
Control Power(CPD) Connector
Power RailGround Stud
DC Busand3-PhaseInput (IPD)Connector
Three-PhaseAC Line Filter
Note 3
Input Fusing *
Input Fusing * M1 *Notes 7, 8
STOP * START *
CR1 *
CR1 *
CR1 *
M1 *
* INDICATES USER SUPPLIED COMPONENT
Contactor Enable(CED) ConnectorNote 12
Motor BrakeConnections
Resistive BrakeConnections
User Supplied24V dc (1.2A maximum)
Ground JumperNote 10
Motor/ResistiveBrake (BC) Connector
Refer to Attention statement (Note 11)
Notes 7, 12
Three-PhaseMotor PowerConnectionsNote 14
Motor Power(MP) Connector
Cable ShieldClamp
Note 9
Kinetix 6000INTEGRATED AXIS MODULE
2094-ACxx-Mxx or -BCxx-Mxx
24V ac/dcor
120V ac50/60 Hz
Chassis
Publication 2094-IN002E-EN-P — September 2005
Interconnect Diagrams A-7
The configuration on this page does not include a LIM. You must supply input power components. The diagram below is not preferred because two line filters are required. The single-phase and three-phase line filters are wired downstream of fusing and the M1 contactor.
Figure A.4IAM Power Interconnect Diagram (IAM without LIM - Alternate)
ATTENTIONWiring the Contactor Enable relay is required. To avoid injury or damage to the drive, wire the Contactor Enable relay into your safety control string.
DC-
DC+
L3
L2
L1
CTRL 2CTRL 1
1
2
3
4
5
6
1
2
CONT EN-CONT EN+
1
2
BR+
BR-MBRK -
MBRK +
COM
PWR
DBRK -
DBRK +
W
V
U
BR+
BR-
4
3
2
1
6
5
4
3
2
1
Single-Phase Input95-264V ac RMS
Notes 1, 2
IsolationTransformer *
Note 5
Three-Phase Input195-264V ac RMS
or 324-528V ac RMSNotes 1, 2
Bonded Cabinet Ground Bus *
Control Power(CPD) Connector
Power RailGround Stud
DC Busand3-PhaseInput (IPD)Connector
Three-PhaseAC Line Filter
Note 3
Input Fusing *
Input Fusing * M1 *Notes 7, 8
* INDICATES USER SUPPLIED COMPONENT
Kinetix 6000INTEGRATED AXIS MODULE
2094-ACxx-Mxx or -BCxx-Mxx
Chassis
Single-PhaseAC Line Filter
Note 3
Note 4
STOP * START *
CR1 *
CR1 *
CR1 *
M1 *
Contactor Enable(CED) ConnectorNote 12
Ground JumperNote 10
Refer to Attention statement (Note 11)
Notes 7, 12
24V ac/dcor
120V ac50/60 Hz
Motor BrakeConnections
Resistive BrakeConnections
User Supplied24V dc (1.2A maximum)
Motor/ResistiveBrake (BC) Connector
Three-PhaseMotor PowerConnectionsNote 14
Motor Power(MP) Connector
Cable ShieldClamp
Note 9
Publication 2094-IN002E-EN-P — September 2005
A-8 Interconnect Diagrams
DC Common Bus Interconnect Diagrams
The interconnect wiring for common bus configurations is shown beginning below. The example on this page shows a Kinetix 6000 Leader IAM and Follower IAM connected via the DC common bus.
Figure A.5Leader IAM with Single Follower IAM Power Interconnect Diagram
CON
T EN
-CO
NT
EN+
W V U
DC-
DC+
L3 L2 L1CTRL
2CT
RL 1
1 2 1 2 3 4 5 6 1 2
6 5 4 3 2 14 3 2 1
CON
T EN
-CO
NT
EN+
W V U
DC-
DC+
L3 L2 L1CTRL
2CT
RL 1
1 2 1 2 3 4 5 6 1 2
6 5 4 3 2 14 3 2 1
MBR
K -
MBR
K +
COM
PWR
DBRK
-
DBRK
+
N.C
.N
.C.
N.C
.
MBR
K -
MBR
K +
COM
PWR
DBRK
-
DBRK
+
Sing
le-P
hase
Inpu
t95
-264
V ac
RM
SN
otes
1, 2
Thre
e-Ph
ase
Inpu
t fro
m L
IMor
inpu
t pow
er c
onta
ctor
(M1)
195-
264V
ac
RMS
or 3
24-5
28V
ac R
MS
Note
s 1,
2, 7
, 8
Cont
rol P
ower
(CPD
) Con
nect
or
Pow
er R
ail
Grou
nd S
tud
DC B
usan
d3-
Phas
eIn
put (
IPD)
Conn
ecto
r
Cont
acto
r Ena
ble
(CED
) Con
nect
orNo
te 1
2
Mot
or/R
esis
tive
Brak
e (B
C) C
onne
ctor
Thre
e-Ph
ase
Mot
or P
ower
Conn
ectio
nsNo
te 1
4
Cabl
e Sh
ield
Clam
p
Not
e 9
Bond
ed C
abin
etGr
ound
Bus
*
Cont
rol P
ower
(CPD
) Con
nect
or
Pow
er R
ail
Grou
nd S
tud
DC B
usan
d3-
Phas
eIn
put (
IPD)
Conn
ecto
r
Cont
acto
r Ena
ble
(CED
) Con
nect
orN
ote
12
Mot
or/R
esis
tive
Brak
e (B
C) C
onne
ctor
Thre
e-Ph
ase
Mot
or P
ower
Conn
ectio
nsN
ote
14
Cabl
e Sh
ield
Clam
p
Note
9
Bond
ed C
abin
etGr
ound
Bus
*
Mot
or P
ower
(MP)
Con
nect
or
Mot
or P
ower
(MP)
Con
nect
or
* IN
DICA
TES
USER
SUP
PLIE
D CO
MPO
NEN
T
Kine
tix 6
000
COM
MO
N B
US F
OLL
OWER
IAM
2094
-ACx
x-M
xx o
r -B
Cxx-
Mxx
Kine
tix 6
000
COM
MO
N B
US
LEAD
ER IA
M20
94-A
Cxx-
Mxx
or -
BCxx
-Mxx
Wire
the
Lead
er a
nd F
ollo
wer
IAM
cont
acto
r ena
ble
term
inal
s in
ser
ies
with
the
safe
ty co
ntro
l stri
ng o
r LIM
I/O.
Publication 2094-IN002E-EN-P — September 2005
Interconnect Diagrams A-9
In the figure below, the 8720MC-RPS regenerative power supply and Kinetix 6000 (460V) Follower IAM are shown.
Figure A.6Non-Kinetix 6000 Leader Drive with Single Follower IAM Power Diagram
CON
T EN
-CO
NT
EN+
W V U
DC-
DC+
L3 L2 L1CTRL
2CT
RL 1
1 2 1 2 3 4 5 6 1 2
6 5 4 3 2 14 3 2 1
MBR
K -
MBR
K +
COM
PWR
DBRK
-
DBRK
+
N.C
.N
.C.
N.C
.
E/N
L1 L2 L3
G R S T
TB1
Star
t *
CR1*
Stop
*
CR1*
Thre
e-Ph
ase
AC L
ine
Filte
r
L1 A
UX
L2 A
UX
L3 A
UX
PR1
PR2
PR3
MC1
MC2
TB2
R1 S1 T1
MC
Cust
omer
su
pplie
d 12
0V a
c
TB1
DC-
DC+
N P
To M
otor
Fan
Mot
ion
Cont
rol I
/O
TB3
COM
RDY
+24V
dc
PWR
R
S
T
Mot
or F
an F
usin
g*
Line
Reac
tors
Varis
tor
8720
MC
REG
ENER
ATI
VEPO
WER
SU
PPLY
8720
MC-
RPS x
xx
Inpu
t Fus
ing
*
Thre
e-Ph
ase
Inpu
t (+1
0/-1
5%)
380V
ac
RMS,
50
Hzor
460
V ac
RM
S, 6
0 Hz
Bond
ed C
abin
etGr
ound
Bus
*
Harm
onic
Filte
r
+24V
_PW
REN
ABLE
+24V
_COM
1 2 3
I/O (I
OD)
Conn
ecto
r
Kine
tix 6
000
COM
MO
N B
US
FOLL
OW
ER IA
M
2094
-BCx
x-M
xx
Cont
rol P
ower
(CPD
) Con
nect
or
Pow
er R
ail
Grou
nd S
tud
DC B
usan
d3-
Phas
eIn
put (
IPD)
Conn
ecto
r
Cont
acto
r Ena
ble
(CED
) Con
nect
orNo
te 1
2
Mot
or/R
esis
tive
Brak
e (B
C) C
onne
ctor
Thre
e-Ph
ase
Mot
or P
ower
Conn
ectio
nsNo
te 1
4
Cabl
e Sh
ield
Clam
p
Not
e 9
Bond
ed C
abin
etGr
ound
Bus
*
Mot
or P
ower
(MP)
Con
nect
or
Refe
r to
Atte
ntio
n st
atem
ent (
Not
e 11
)
Not
e 12
Sing
le-P
hase
Inpu
t95
-264
V ac
RM
SN
otes
1, 2
M1
*N
ote
7
Note
3
Not
es 1
, 2
IMPO
RTA
NT
Use
a p
ush
-button c
ircu
it (inst
ead o
f a
SPST
togg
le s
witch
) in
ser
ies
with the
conta
ctor
enab
le s
trin
g (b
etw
een the
8720
MC-R
PS
and K
inet
ix 6
000)
to a
llow
a d
rive
fau
lt to
rem
ove
the
DC b
us
pow
er, an
d
to p
reve
nt th
e drive
fro
m a
pply
ing
DC b
us
pow
er w
ithout th
e use
r’s
input af
ter
clea
ring
a drive
fau
lt.
Publication 2094-IN002E-EN-P — September 2005
A-10 Interconnect Diagrams
In the figure below, a Kinetix 6000 Leader IAM is connected to two Follower IAMs via the DC common bus.
Figure A.7Leader IAM with Multiple Follower IAM Diagram
CONT EN-CONT EN+
WVU
DC-
DC+
L3
L2
L1
CTRL 2CTRL 1
1
2
1
2
3
4
5
6
1
2
6
5
4
3
2
1
4
3
2
1
MBRK -
MBRK +
COM
PWR
DBRK -
DBRK +
Note 4
Control Power(CPD) Connector
Contactor Enable(CED) ConnectorNote 12
Motor/ResistiveBrake (BC) Connector
Three-PhaseMotor PowerConnectionsNote 14
Motor Power(MP) Connector
Cable ShieldClamp
Note 9
Kinetix 6000COMMON BUS LEADER IAM
2094-ACxx-Mxx or -BCxx-Mxx
Power RailGround Stud
DC Busand3-PhaseInput (IPD)Connector
Single-Phase Input95-264V ac RMS
Notes 1, 2
Bonded CabinetGround Bus *
To Follower Control Circuit Connections
To Follower Control Power Connections
To Follower DC Bus Connections
Three-Phase Input from LIMor input power contactor (M1)
195-264V ac RMSor 324-528V ac RMS
Notes 1, 2, 7, 8
Wire the Leader and Follower IAMcontactor enable terminals in series
with the safety control string or LIM I/O.
Publication 2094-IN002E-EN-P — September 2005
Interconnect Diagrams A-11
CONT EN-CONT EN+
WVU
DC-
DC+
L3
L2
L1
CTRL 2CTRL 1
1
2
1
2
3
4
5
6
1
2
6
5
4
3
2
1
4
3
2
1
MBRK -
MBRK +
COM
PWR
DBRK -
DBRK +
N.C.N.C.N.C.
CONT EN-CONT EN+
WVU
DC-
DC+
L3
L2
L1
CTRL 2CTRL 1
1
2
1
2
3
4
5
6
1
2
6
5
4
3
2
1
4
3
2
1
MBRK -
MBRK +
COM
PWR
DBRK -
DBRK +
N.C.N.C.N.C.
Note 4
* INDICATES USER SUPPLIED COMPONENT
From LeaderControl Circuit
Connections
From LeaderControl Power
Connections
From LeaderDC Bus Connections
Control Power(CPD) Connector
Contactor Enable(CED) ConnectorNote 12
Motor/ResistiveBrake (BC) Connector
Three-PhaseMotor PowerConnectionsNote 14
Motor Power(MP) Connector
Cable ShieldClamp
Note 9
Kinetix 6000COMMON BUS FOLLOWER IAM2094-ACxx-Mxx or -BCxx-Mxx
Power RailGround Stud
DC Busand3-PhaseInput (IPD)Connector
Bonded CabinetGround Bus *
Note 4
Control Power(CPD) Connector
Contactor Enable(CED) ConnectorNote 12
Motor/ResistiveBrake (BC) Connector
Three-PhaseMotor PowerConnectionsNote 14
Motor Power(MP) Connector
Cable ShieldClamp
Note 9
Kinetix 6000COMMON BUS FOLLOWER IAM2094-ACxx-Mxx or -BCxx-Mxx
Power RailGround Stud
DC Busand3-PhaseInput (IPD)Connector
Bonded CabinetGround Bus *
DC Bus Fusing *Note 2
DC Bus Fusing *Note 2
Publication 2094-IN002E-EN-P — September 2005
A-12 Interconnect Diagrams
In the figure below, a non-Kinetix 6000 leader drive and Kinetix 6000 Follower IAM are shown.
Figure A.8Non-Kinetix 6000 Leader Drive with Single Follower IAM Power Diagram
DRIVE OK-DRIVE OK+
L3
L2
L1
CONT EN-CONT EN+
WVU
DC-
DC+
L3
L2
L1
CTRL 2CTRL 1
1
2
1
2
3
4
5
6
1
2
6
5
4
3
2
1
4
3
2
1
MBRK -
MBRK +
COM
PWR
DBRK -
DBRK +
N.C.N.C.N.C.
DC-
DC+
Contactor Enable
DC BusConnections
Non-Kinetix 6000COMMON BUS LEADER
Ground Stud
Bonded CabinetGround Bus*
DC Bus Fusing*
Pre-chargeCircuitry*
* INDICATES USER -SUPPLIED COMPONENT
Kinetix 6000COMMON BUS FOLLOWER IAM 2094-ACxx-Mxx or -BCxx-Mxx
DC BusConnections
Ground3-PhaseInput (IPD)Connector
Control Power(CPD) Connector
Power RailGround Stud
Contactor Enable(CED) ConnectorNote 12
Motor/ResistiveBrake (BC) Connector
Three-PhaseMotor PowerConnectionsNote 14
Cable ShieldClamp
Note 9
Bonded CabinetGround Bus*
Motor Power(MP) Connector
Single-Phase Input95-264V ac RMS
Notes 1, 2
Three-Phase Inputfrom LIM or input
power contactor (M1)Notes 1, 2, 7, 8
Wire the Leader and Follower IAMcontactor enable terminals in series
with the safety control string or LIM I/O.
Publication 2094-IN002E-EN-P — September 2005
Interconnect Diagrams A-13
Shunt Module Interconnect Diagrams
In the figure below, the Kinetix 6000 Shunt Module is shown wired for internal shunt operation. This is the factory default jumper setting.
Figure A.9Internal Shunt Module Interconnect Diagram
In the figure below, the Kinetix 6000 shunt module is shown wired with an external passive shunt resistor.
Figure A.10External Passive Shunt Module Interconnect Diagram
COLINTDC+
TS2TS1
2
1
3
2
1
Kinetix 6000SHUNT MODULE
2094-BSP2
External Shunt Resistor(RC) Connector
External Thermal Switch(TS) Connector
IMPORTANT Only passive shunts with a thermal switch are wired to the TS connector on the Kinetix 6000 shunt module. If your external passive shunt does not have a thermal switch, leave the factory installed jumper in place on the TS connector.
COLINTDC+
2
1
3
2
1
TS2
TS1
COL
DC+
Kinetix 6000SHUNT MODULE
2094-BSP2
EXTERNAL PASSIVESHUNT RESISTOR
External Shunt Resistor(RC) Connector
External Thermal Switch(TS) Connector
Resistor
ThermalSwitch
Publication 2094-IN002E-EN-P — September 2005
A-14 Interconnect Diagrams
In the figure below, the Kinetix 6000 IAM (without the LIM) is shown wired with a Bulletin 1336 external active shunt.
Figure A.11External Active Shunt Module Interconnect Diagram
1336 Active Shunt Input Fuse Specifications
1336 Active Shunt Fault Relay Specifications
TB1
TB3
1
3
4
2
DC-
DC+
L3
L2
L1
1
2
3
4
5
6
1
2
3
4
5
6
(–) Slave In
(+) Slave In
(+) Master Out
(–) DC Bus
(–) Master Out
(+) DC Bus
CONT EN-CONT EN+
12
Kinetix 6000INTEGRATED AXIS MODULE
2094-xCxx-Mxx
* INDICATES USER SUPPLIED COMPONENT
Refer to Attention statement (Note 11)
STOP*START*
CR1*
CR1*
CR1*
M1*
Notes 7, 12
24V ac/dcor
120V ac50/60 Hz
DC BusConnections
Three-PhaseInput (IPD)
Connections
Single-Phase Input115V ac RMS
50/60 Hz
Input Fusing*Note 19
Contactor Enable(CED) Connector
Note 12
1336 Master
Fault Relay Note 20
Shunt chassisground screw
EXTERNAL ACTIVE SHUNTRESISTOR (1336-MOD-Kxxxx)
Active Shunt Module1336- Description Input Current
Requirements
Kx005 or Kx010 Input current requirement to power logic for fault contact operation. 0.05A
KB050 Input current requirement to power fan and logic for fault contact operation. 0.65A
Parameter Description 120V ac 30V ac
On State Current Current flow when the contact is closed 0.6A 2.0A
On State Resistance Contact resistance (maximum) 50 mOhms 50 mOhms
Off State Voltage Voltage across the contacts when the relay is open 120V ac 30V ac
Publication 2094-IN002E-EN-P — September 2005
Interconnect Diagrams A-15
In the figure below, the Kinetix 6000 IAM is shown (without a LIM) wired with a Bulletin 1336 external active shunt (master) and two slave units.
Figure A.12External Active Shunt Module Interconnect Diagram
1
3
4
2
DC-
DC+
L3
L2
L1
1
2
3
4
5
6
5
6
(–) Slave In
(+) Slave In
(+) Master Out
(–) DC Bus
(–) Master Out
(+) DC Bus
CONT EN-CONT EN+
TB1
TB3
1
3
4
2TB3
1
3
4
2TB3
1
2
3
4
(–) Slave In
(+) Slave In
(+) Master Out
(–) DC Bus
(–) Master Out
(+) DC BusTB1
(–) Slave In
(+) Slave In
(+) Master Out
(–) DC Bus
(–) Master Out
(+) DC BusTB1
5
6
1
2
3
4
1
2
3
4
5
6
1
2
EXTERNAL ACTIVE SHUNTRESISTOR (1336-MOD-Kxxxx)
Kinetix 6000INTEGRATED AXIS MODULE
2094-xCxx-Mxx
EXTERNAL ACTIVE SHUNTRESISTOR (1336-MOD-Kxxxx)
EXTERNAL ACTIVE SHUNTRESISTOR (1336-MOD-Kxxxx)
* INDICATES USER SUPPLIED COMPONENT
Refer to Attention statement (Note 11)
STOP* START*
CR1*CR1*
CR1*
M1*
Notes 7, 12
24V ac/dcor
120V ac50/60 Hz
DC BusConnections
Three-PhaseInput (IPD)
Connections
Single-Phase Input115V ac RMS
50/60 Hz
Contactor Enable(CED) Connector
Note 12
1336 Master
1336 Slave
1336 Slave
Input Fusing*Note 19
Fault Relay Note 20
Shunt chassisground screw
Fault Relay Note 20
Shunt chassisground screw
Fault Relay Note 20
Shunt chassisground screw
Note 4
Note 4
Note 4
Publication 2094-IN002E-EN-P — September 2005
A-16 Interconnect Diagrams
AM/Motor Interconnect Diagrams
This section contains the motor power, brake, and feedback signal interconnect diagrams between an Axis Module and MP-Series, 1326AB, or F-, H-, N-, and Y-Series servo motors.
In the figure below, the Kinetix 6000 axis module (460V) is shown connected to MP-Series Low Inertia and Integrated Gear (460V) motors.
Figure A.13Axis Module to MP-Series (460V) Motor Interconnect Diagram
D
CB
A
BR+
BR-
A
C
D
CB
A
BR+
BR-
A
C
W
V
U
W
V
U
0123456789101112131415
S2S4
S1S3
R1R2
TS+
TS-
BLUE
WHT/BLUE
YELLOWWHT/YELLOW
BLACKWHT/BLACK
REDWHT/RED
R
S
12
34
510
11
6
AB
CD
GH
SIN+SIN-COS+COS-
DATA+DATA-
+5VDCECOM
GREENWHT/GREEN
GRAYWHT/GRAY
BLACKWHT/BLACK
REDWHT/RED
CDEF
AB
KL
12
34
510146
S
P
+9VDCTS+
ORANGEWHT/ORANGE
NR
711
4321
6
5
4
3
2
1
Green/Yellow
1/Blue
2/Black
3/Brown
Black
White
GND
GNDWVU
MBRK -
MBRK +
COM
PWR
DBRK -
DBRK + BR+
BR-
Motor Brake
Resistive BrakeConnections
Motor/ResistiveBrake (BC) Connector
Motor Power(MP) Connector
Cable ShieldClampNote 9
Kinetix 6000IAM (inverter) or AM
Note 13
MPL-B and MPG-B (460V)SERVO MOTORS WITH
HIGH RESOLUTION FEEDBACK
Motor Feedback(MF) Connector 2090-XXNPMP-xxSxx
Motor Power CableNote 14
Three-PhaseMotor Power
Motor Feedback
Thermostat
2090-UXNBMP-18Sxx Brake CableNote 14
User Supplied24V dc (1.2A max.)
2090-XXNFMP-Sxx(flying-lead) Feedback Cable
Notes 14, 15, 17
Motor Feedback(MF) Connector
(IAM/AM)
Motor Feedback(MF) Connector
(IAM/AM)
Motor Brake
Three-PhaseMotor Power
Motor Feedback
Thermostat
MPL-B (460V) SERVO MOTORSWITH RESOLVER FEEDBACK
2090-CDNFDMP-Sxx(flying-lead) Feedback Cable
Notes 14, 15
Refer to Low Profile Connectorillustration (lower left)
for proper grounding technique.
Refer to Low Profile Connectorillustration (lower left)
for proper grounding technique.
Low Profile Connector(2090-K6CK-D15M shown)
Grounding Technique forFeedback Cable Shield
Turn clamp over to holdsmall cables secure.
Exposed shield securedunder clamp.
Clamp screws (2)
Clamp
Publication 2094-IN002E-EN-P — September 2005
Interconnect Diagrams A-17
In the figure below, the Kinetix 6000 axis module (230V) is shown connected to MP-Series Low Inertia (MPL) and Integrated Gear (MPG) 230V servo motors.
Figure A.14Axis Module to MP-Series (230V) Motor Interconnect Diagram
D
CB
A
BR+
BR-
A
C
D
CB
A
BR+
BR-
A
C
W
V
U
W
V
U
0123456789
101112131415
SIN+SIN-COS+COS-
DATA+DATA-+5VDCECOM
GREENWHT/GREEN
GRAYWHT/GRAY
BLACKWHT/BLACK
REDWHT/RED
CDEF
AB
KL
12
34
510146
S
P
–TS+
ORANGEWHT/ORANGE
NR
711
AM+AM-BM+BM-
IM+IM-
+5VDCECOM
BLUEWHT/BLUE
GREENWHT/GREEN
GRAYWHT/GRAY
BLACKWHT/BLACK
REDWHT/RED
CDEF
AB
KL
12
34
510146
12ST
–S1
P
–TS+
ORANGEWHT/ORANGE
NR
711
S2S3
YELLOWWHT/YELLOW
UV
138
4321
6
5
4
3
2
1
Green/Yellow
1/Blue
2/Black
3/Brown
Black
White
GND
GNDWVU
MBRK -
MBRK +
COM
PWR
DBRK -
DBRK + BR+
BR-
Motor Brake
Resistive BrakeConnections
Motor/ResistiveBrake (BC) Connector
Motor Power(MP) Connector
Cable ShieldClamp
Note 9
Kinetix 6000IAM (inverter) or AM
Note 13
MPL-A and MPG-A (230V)SERVO MOTORS WITH
HIGH RESOLUTION FEEDBACK
Motor Feedback(MF) Connector
2090-XXNPMP-xxSxxMotor Power Cable
Note 14
Three-PhaseMotor Power
Motor Feedback
Thermostat
2090-UXNBMP-18Sxx Brake CableNote 14
User Supplied24V dc (1.2A max.)
2090-XXNFMP-Sxx(flying-lead) Feedback Cable
Notes 14, 15
Motor Brake
Three-PhaseMotor Power
Motor Feedback
Thermostat
MPL-A (230V) SERVO MOTORSWITH INCREMENTAL FEEDBACK
Motor Feedback(MF) Connector
(IAM/AM)
Motor Feedback(MF) Connector
(IAM/AM)
2090-XXNFMP-Sxx(flying-lead) Feedback Cable
Notes 14, 15
Refer to Low Profile Connectorillustration (lower left)
for proper grounding technique.
Refer to Low Profile Connectorillustration (lower left)
for proper grounding technique.
Low Profile Connector(2090-K6CK-D15M shown)
Grounding Technique forFeedback Cable Shield
Turn clamp over to holdsmall cables secure.
Exposed shield securedunder clamp.
Clamp screws (2)
Clamp
Publication 2094-IN002E-EN-P — September 2005
A-18 Interconnect Diagrams
In the figure below, the Kinetix 6000 axis module is shown connected to MP-Series Food Grade (MPF) and MP-Series Stainless Steel (MPS) servo motors.
Figure A.15Axis Module to MP-Series Food Grade and Stainless Steel Motors
D/
C/WB/V
A/U
BR+
BR-
F/+
G/-
W
V
U
0123456789101112131415
SIN+SIN-COS+COS-
DATA+DATA-+5VDCECOM
GREENWHT/GREEN
GRAYWHT/GRAY
BLACKWHT/BLACK
REDWHT/RED
34
56
12
910
12
34
510146
14
12
–TS+
ORANGEWHT/ORANGE
1113 11
4321
6
5
4
3
2
1
Green/Yellow
Blue
Black
Brown
Black
White
GND
BR+
BR-
F/+
G/-
W
V
U
GND
Shield
WVU
MBRK -
MBRK +
COM
PWR
DBRK -
DBRK + BR+
BR-
D/
C/WB/V
A/U
SIN+SIN-COS+COS-
DATA+DATA-
GREENWHT/GREEN
BLACKWHT/BLACK
REDWHT/RED
34
56
12
12
34
510
14
12
+9VDCTS+
ORANGEWHT/ORANGE
1113
711
–ECOM
GRAYWHT/GRAY
910 6
TS-
COM
BLUE
COM
BLUE TS-
Motor BrakeNote 18
Resistive BrakeConnections
Motor/ResistiveBrake (BC) Connector
Motor Power(MP) Connector
Cable ShieldClamp
Note 9
Kinetix 6000IAM (inverter) or AM
Note 13
MPF-A or MPS-A (230V)SERVO MOTORS WITH
HIGH RESOLUTION FEEDBACK
Motor Feedback(MF) Connector
2090-XXNPMF-xxSxxMotor Power Cable
Note 14
Three-PhaseMotor Power
MotorFeedback
Thermostat
User Supplied24V dc (1.2A max.)
2090-XXNFMF-Sxx(flying-lead) Feedback Cable
Notes 14, 15
Three-PhaseMotor Power
MotorFeedback
Thermostat
MPF-B or MPS-B (460V)SERVO MOTORS WITH
HIGH RESOLUTION FEEDBACKMotor Feedback(MF) Connector
(IAM/AM)
Motor Feedback(MF) Connector
(IAM/AM)
2090-XXNFMF-Sxx(flying-lead) Feedback Cable
Notes 14, 15
Motor BrakeNote 18
Refer to Low Profile Connectorillustration (lower left)
for proper grounding technique.
Refer to Low Profile Connectorillustration (lower left)
for proper grounding technique.
Low Profile Connector(2090-K6CK-D15M shown)
Grounding Technique forFeedback Cable Shield
Turn clamp over to holdsmall cables secure.
Exposed shield securedunder clamp.
Clamp screws (2)
Clamp
Publication 2094-IN002E-EN-P — September 2005
Interconnect Diagrams A-19
In the figure below, the Kinetix 6000 axis module (230V) is shown connected to TL-Series (230V) servo motors.
Figure A.16Axis Module to TL-Series (230V) Motor Interconnect Diagram
4
32
1
BR+
BR-
1
2
W
V
U
AM+AM-BM+BM-
IM+IM-
+5VDCECOM
BLUEWHT/BLUE
GREENWHT/GREEN
GRAYWHT/GRAY
BLACKWHT/BLACK
REDWHT/RED
78
12
34
510146
126 S1
9
S2S3
YELLOWWHT/YELLOW
1115
138
GND
12
34
510
0123456789
101112131415
4321
6
5
4
3
2
1
Green/Yellow
Blue
Black
Brown
Black
White
WVU
MBRK -
MBRK +
COM
PWR
DBRK -
DBRK + BR+
BR-
Motor Brake
Three-PhaseMotor Power
Motor Feedback
TL-Series (230V) MOTORSWITH INCREMENTAL FEEDBACK
Motor Feedback(MF) Connector
(IAM/AM)
2090-XXNFT-Sxx Feedback Cablewith pre-molded connector
Note 14Resistive BrakeConnections
Motor/ResistiveBrake (BC) Connector
Motor Power(MP) Connector
Cable ShieldClamp
Note 9
Kinetix 6000IAM (inverter) or AM
Note 13
Motor Feedback(MF) Connector
2090-XXNPT-16SxxMotor Power Cable
Note 14
User Supplied24V dc (1.2A max.)
2090-DANBT-18SxxMotor Brake Cable
Note 14
Publication 2094-IN002E-EN-P — September 2005
A-20 Interconnect Diagrams
In the figure below, the Kinetix 6000 axis module (460V) is shown connected to 1326AB-Bxxxx (460V) servo motors.
Figure A.17Axis Module to 1326AB Motor Interconnect Diagram
1 Wiring the thermal switch on 1326AB (resolver-based) motors requires the use of the Low Profile connector kit (2090-K6CK-D15MF) and wire extension to the power connector. Pins 16, 17, and S are filtered to prevent noise transmission back to the drive. Refer to the Kinetix 6000 Installation Manual (publication 2094-IN001) for wiring instructions and a diagram.
D
CB
A
BR+
BR-
A
C
W
V
U
0123456789101112131415
B2
B1
87
4
6
3
21
W
V
U
K2
K1
9
5
T3
T2
T1
Black
Black
MBRK -
MBRK +
COM
PWR
DBRK -
DBRK + BR+
BR-
0123456789101112131415
S2S4S1S3
R1R2
BLACKRED
12
34
510
BLACKWHITE
AB
DE
GREENBLACK
GH
SIN+SIN-COS+COS-
DATA+DATA-
–ECOM
GREENWHT/GREEN
GRAYWHT/GRAY
BLACKWHT/BLACK
REDWHT/RED
CDEF
AB
KL
12
34
510146
S
P
+9VDC–TS+
ORANGEWHT/ORANGE
NR
711
1617S
TS+TS-
4321
6
5
4
3
2
1
4321
6
5
4
3
2
1
Green/Yellow
1/Blue
2/Black
3/Brown
Black
White
Green/Yellow
Braided Shield
Black
Black
Black
GND
GND
WVU
BR+
BR-
MBRK -
MBRK +
COM
PWR
DBRK -
DBRK +
Motor Brake
Resistive BrakeConnections
Motor/ResistiveBrake (BC) Connector
Motor Power(MP) Connector
Note 9
Note 13
1326AB (M2L/S2L)SERVO MOTORS WITH
HIGH RESOLUTION FEEDBACK
Motor Feedback(MF) Connector
2090-XXNPMP-xxSxxMotor Power Cable
Note 14
Three-PhaseMotor Power
Motor Feedback
Thermostat
2090-UXNBMP-18Sxx Brake CableNote 14
User Supplied24V dc (1.2A max.)
2090-XXNFMP-Sxx(flying-lead) Feedback Cable
Note 14, 15
Motor Brake
Three-PhaseMotor Power
Motor Feedback
Thermostat 1
1326AB SERVO MOTORSWITH RESOLVER FEEDBACK
1326-CCU-xxx(flying-lead) Feedback Cable
Note 14
Kinetix 6000IAM (inverter) or AM
Cable ShieldClamp
Motor Feedback(MF) Connector
(IAM/AM)
Motor Feedback(MF) Connector
(IAM/AM)
Resistive BrakeConnections
Motor/ResistiveBrake (BC) Connector
Motor Power(MP) Connector
Note 9
Note 13
Motor Feedback(MF) Connector
1326-CPx1-xxx Motor Power CableNote 14
Shielded Cable
User Supplied24V dc (1.2A max.)
Kinetix 6000IAM (inverter) or AM
Cable ShieldClamp
Refer to theKinetix 6000 Installation Manual
(publication 2094-IN001) for proper
Publication 2094-IN002E-EN-P — September 2005
Interconnect Diagrams A-21
In the figure below, the Kinetix 6000 axis module (230V) is shown connected to H- and F-Series (230V) servo motors.
Figure A.18Axis Module to H/F-Series Motor Interconnect Diagram
D
CB
A
GND
BR+
BR-
A
B
W
V
U
0123456789
101112131415
WVU
MBRK -
MBRK +
COM
PWR
DBRK -
DBRK + BR+
BR-
AM+AM-BM+BM-
IM+IM-TS+S3
GREENWHT/GREEN
GRAY
WHT/GRAY
BLACKWHT/BLACK
REDWHT/RED
CDEF
AB
RP
12
34
510118
KJLM
+5VDC
ECOM
14
6
NTH
S
BLUEWHT/BLUE
VIOLET
WHT/VIOLET
S2S1
1312
6
–
TS-
6
5
4
3
2
1
4321
Green/Yellow
1/Blue
2/Black
3/Brown
Black
White
WHT/BROWNBROWN
Resistive BrakeConnections
Motor/ResistiveBrake (BC) Connector
Motor Power(MP) Connector
Note 9
Note 13
Motor Feedback(MF) Connector
User Supplied24V dc (1.2A max.)
Kinetix 6000IAM (inverter) or AM
Cable ShieldClamp
Motor Brake
Three-PhaseMotor Power
Motor Feedback
Thermostat
H/F-Series (230V)SERVO MOTORS WITH
INCREMENTAL FEEDBACK
Motor Feedback(MF) Connector
(IAM/AM)
2090-XXNFHF-Sxx(flying-lead) Feedback Cable
Note 14, 15
2090-XXNPH/HF-xxSxxMotor Power Cable
Note 14
9101-0330 Brake Cable Connector KitNote 14
Refer to Low Profile Connectorillustration (below)
for proper grounding technique.
Low Profile Connector(2090-K6CK-D15M shown)
Grounding Technique forFeedback Cable Shield
Turn clamp over to holdsmall cables secure.
Exposed shield securedunder clamp.
Clamp screws (2)
Clamp
Publication 2094-IN002E-EN-P — September 2005
A-22 Interconnect Diagrams
In the figure below, the Kinetix 6000 axis module (230V) is shown connected to N-Series (230V) servo motors.
Figure A.19Axis Module to N-Series Motor Interconnect Diagram
CB
A
GND
BR+
BR-
A
B
W
V
U
0123456789101112131415
WVU
MBRK -
MBRK +
COM
PWR
DBRK -
DBRK + BR+
BR-
AM+AM-BM+BM-
IM+IM-TS+S3
GREENWHT/GREEN
GRAY
WHT/GRAY
BLACKWHT/BLACK
REDWHT/RED
CDEF
AB
RV
12
34
510118
KJLM
+5VDC
ECOM
14
6
UTH
S
WHT/BROWNBROWN
VIOLET
WHT/VIOLET
S2S1
1312
6
–
TS-
6
5
4
3
2
1
4321
Green/Yellow
1/Blue
2/Black
3/Brown
Black
White
DE N/C
C N/C
BLUEWHT/BLUE
Resistive BrakeConnections
Motor/ResistiveBrake (BC) Connector
Motor Power(MP) Connector
Note 9
Note 13
Motor Feedback(MF) Connector
User Supplied24V dc (1.2A max.)
Kinetix 6000IAM (inverter) or AM
Cable ShieldClamp
Motor Brake
Three-PhaseMotor Power
Motor Feedback
Thermostat
N-Series (230V)SERVO MOTORS WITH
INCREMENTAL FEEDBACK
Motor Feedback(MF) Connector
(IAM/AM)
2090-XXNFN-Sxx(flying-lead) Feedback Cable
Note 14, 15
2090-XXNPN-xxSxxMotor Power Cable
Note 14
9101-1698 Brake Cable Connector KitNote 14
Refer to Low Profile Connectorillustration (below)
for proper grounding technique.
Low Profile Connector(2090-K6CK-D15M shown)
Grounding Technique forFeedback Cable Shield
Turn clamp over to holdsmall cables secure.
Exposed shield securedunder clamp.
Clamp screws (2)
Clamp
Publication 2094-IN002E-EN-P — September 2005
Interconnect Diagrams A-23
In the figure below, the Kinetix 6000 axis module (230V) is shown connected to Y-Series (230V) servo motors.
Figure A.20Axis Module to Y-Series Motor Interconnect Diagram
4
32
1
BR+
BR-
7
9
W
V
U
0123456789
101112131415
WVU
MBRK -
MBRK +
COM
PWR
DBRK -
DBRK + BR+
BR-
AM+AM-
BM+BM-
IM+IM-S1S2
GREENWHT/GREEN
BLACKWHT/BLACK
REDWHT/RED
12
34
146
510
GRAYWHT/GRAY
1213
8S3–
BROWNWHT/BROWN
WHT/BLUEBLUE
222324
9101112
1314151719–
+5VDCECOMDRAIN
6
5
4
3
2
1
4321
GND
Green/Yellow
3/Black
2/Black
1/Black
Black
Black
Resistive BrakeConnections
Motor/ResistiveBrake (BC) Connector
Motor Power(MP) Connector
Note 9
Note 13
Motor Feedback(MF) Connector
User Supplied24V dc (1.2A max.)
Kinetix 6000IAM (inverter) or AM
Cable ShieldClamp
MotorBrake
Three-PhaseMotor Power
MotorFeedback
Y-Series (230V)SERVO MOTORS WITH
INCREMENTAL FEEDBACK
2090-XXNFY-Sxx(flying-lead) Feedback Cable
Notes 14, 15, 16
2090-XXNPY-xxSxxMotor Power and Brake Cable
Note 14
Motor Feedback(MF) Connector
(IAM/AM)
Pigtail
Pigtail
Refer to Low Profile Connectorillustration (below)
for proper grounding technique.
Low Profile Connector(2090-K6CK-D15M shown)
Grounding Technique forFeedback Cable Shield
Turn clamp over to holdsmall cables secure.
Exposed shield and drain wiresecured under clamp.
Clamp screws (2)
Clamp
Publication 2094-IN002E-EN-P — September 2005
A-24 Interconnect Diagrams
Controlling a Brake Example
The relay output of the Kinetix 6000 (MBRK± BC-5 and -6) is suitable for directly controlling a motor brake, subject to the relay voltage limit of 30V dc, and the relay current limit as shown in the table below.
The following tables list Allen-Bradley motors and brake coil current ratings.
1Applies to 230V and 460V motors.
Kinetix 6000 IAM/AM Maximum Brake Current Rating
2094-AC05-Mxx, -AC09-Mxx,2094-AMP5, -AM01, -AM02
1.0A2094-BC01-Mxx, -BC02-Mxx,2094-BMP5, -BM01, -BM02
2094-AC16-Mxx, -AC32-Mxx,2094-AM03, -AM05 1.3A
2094-BC04-Mxx, -BC07-Mxx,2094-BM03, -BM05 3.0A
IMPORTANT For brake requirements outside of these limits, an external relay must be used (refer to Figure A.21 for an example).
Coil Currents Rated at < 1.0A Coil Currents Rated at < 1.0A
Compatible Brake Motors Coil Current Compatible Brake Motors Coil Current
F-4030, -4050, and -4075 0.69A MPL/MPF/MPS-x310, -x320, -x330 1 0.50A
H-3007 and -3016 0.60A MPL-x420, -x430, -x4520, -x4530, -x4540 10.64A
H-4030, -4050, and -4075 0.69A MPF-x430, -x4530, -x4540 1
N-2302, and -2304 0.28A MPG-x004 1 0.33A
N-3406, -3412, -4214, and -4220 0.36A MPG-x010 10.45A
N-5630, -5637, and -5647 0.71A MPG-x025 1
Y-1002 and -1003 0.26A MPG-x050 1 0.50A
Y-2006 and -2012 0.31A MPG-x110 1 1.0A
Y-3023 0.37A
1326AB-B4xxx 0.88A
TL-A110P-H, -A120P-H, and -A130P-H 0.208A
TL-A220P-H and -A230P-H 0.375A
TL-A2530P-H and -A2540P-H 0.396A
TL-A410P-H 0.746A
Publication 2094-IN002E-EN-P — September 2005
Interconnect Diagrams A-25
1Applies to 230V and 460V motors.
Figure A.21 shows an example configuration using MBRK± and an external relay to control a motor brake which exceeds the drive (IAM/AM) internal relay rating.
Figure A.21Example Configuration Controlling a Motor Brake
1 For Motor/Resistive Brake (BC) connector specifications, refer to the Kinetix 6000 Installation Manual (publication 2094-IN001).
Coil Currents Rated > 1.0A and ≤ 1.3A Coil Currents Rated > 1.0A and ≤ 1.3A
Compatible Brake Motors Coil Current Compatible Brake Motors Coil Current
F-6100, -6200, and -6300 1.30A MPL-x520, -x540, -x560, -x580 11.05 to 1.28A
H-6100, -6200, and -6300 1.13AMPF-B540
1326AB-B5xxx, and -B7xxx 1.20A
Coil Currents Rated > 1.3A and ≤ 3.0A Coil Currents Rated > 1.3A and ≤ 3.0A
Compatible Brake Motors Coil Current Compatible Brake Motors Coil Current
H-8350 and -8500 2.20AMPL-B640, -B660, -B680, -B860, -B880, -B960, -B980
1.91 to 2.19A
MBRK -
MBRK +
COM
PWR
DBRK -
DBRK +
6
5
4
3
2
1
Brake
Feedback
Power
BR-
BR+
CR1
CR1Motor/Resistive 1
Brake (BC) Connector
Note 13
User Supplied24V dc (3.0A max.)
Kinetix 6000IAM (inverter) or AM
SERVO MOTOR
ATTENTIONTo avoid damage to the brake contactor, surge suppression (flyback diode or MOV, rated at appropriate voltage), must be used when controlling a brake coil.
Publication 2094-IN002E-EN-P — September 2005
A-26 Interconnect Diagrams
System Block Diagrams This section provides block diagrams of the Kinetix 6000 modules.
IAM/AM Inverter Block Diagram
Figure A.22Inverter Block Diagram
POW
ERRA
IL
DC+
DC-
WV
U
CTRL
1
CTRL
2
SYSO
K
CON
V_ID
(5)
GSHU
NT
(2)
CAN
(2)
DBRK
MBR
K
FUSE
_OK
SMPS
PWR
Thre
e-Ph
ase
Mot
or O
utpu
tM
otor
/Res
istiv
e Br
ake
Conn
ectio
ns
Shun
t Circ
uit
(460
V on
ly)
Inve
rter S
ectio
n
Mot
or S
hiel
d
Com
mon
Mod
eCh
oke
(460
V on
ly) +/
-12V
(Con
trol)
+24V
(Cus
tom
er I/
O)+9
V, +
5V (M
otor
Fee
dbac
k)
Publication 2094-IN002E-EN-P — September 2005
Interconnect Diagrams A-27
IAM Converter Block Diagram
Figure A.23Converter Block Diagram
L1 L2 L3
L1
L2
120K
CON
T_EN
2
CON
T_EN
1
GSHU
NT
SYS_
OK
DC+
DC-
CHAS
SIS
CTRL
2
CTRL
1
DC+
DC-
CTRL
-
CTRL
+
DC+
DC-
Vsns
DCL1
DCL2
Vcc
CON
V_OT
95C
Shun
t Circ
uit 2
Com
mon
Bus
Pow
er C
onne
ctio
ns
POW
ERRA
IL
Cont
rol P
ower
Loss
Det
ecto
r
Rect
ifier
Circ
uit 2
EMC
Filte
r1
DC L
ink
Indu
ctor
3
Grou
nd J
umpe
r 4
Gnd
Flt C
T
Chas
sis
Thre
e-Ph
ase
AC In
put
Cont
rol P
ower
AC In
put
DROK
/CO
NT_
EN
1EM
C fil
ter p
rese
nt o
nly
on 4
60V
conv
erte
rs.
2Re
ctifi
er a
nd s
hunt
circ
uits
pre
sent
onl
y on
230
V co
nver
ters
.3
Inte
rnal
DC
link
indu
ctor
pre
sent
on
460V
con
verte
rs.
Conn
ecto
rs fo
r ext
erna
l DC
link
indu
ctor
pre
sent
on
230V
co
nver
ters
.4
Grou
nd ju
mpe
r sho
wn
in fa
ctor
y de
faul
t pos
ition
(gro
unde
d fa
cilit
y po
wer
).
Publication 2094-IN002E-EN-P — September 2005
A-28 Interconnect Diagrams
Safe-Off Feature Block Diagram
The Kinetix 6000 Safe-Off drives ship with the wiring header and motion allowed jumper installed, as shown in the figure below. With the motion allowed jumper installed, the safe-off feature is not used.
Figure A.24Safe-Off Feature Block Diagram
SM Block Diagram
Figure A.25Shunt Module Block Diagram
K1
K2
K1-A
K2-A
K2-C
K1-C
+24V
M
Safe-Off Option
6
5
7
34
12
89
Wiring Header(2090-XNSS-WP)
Motion Allowed Jumper(2090-XNSS-MA)
Gate ControlPower Supply
Safety MonitoruC
Gate ControlEnable Signal
+24V_COM
FDBK1+FDBK1-
ENABLE-
ENABLE1+
ENABLE2+
FDBK2+FDBK2-
Gate ControlCircuit (CCP)
+24V
Safe-Off (SO)9-pin Connector
DRIVE ENABLE+24V_COM
POWERRAIL
DC+
DC-
CTRL 2
SYSOK
GSHUNT (2)SMPSCTRL 1
Shunt Circuit
Internalor External Shunt Resistor
+5V (Control)+/-15V (IGBT)24V (Control)
Chassis
Publication 2094-IN002E-EN-P — September 2005
Interconnect Diagrams A-29
LIM Block Diagrams
Figure A.26LIM Block Diagram (2094-AL75S)
CB2
11
1412
1 3
2 4
1 3
2 4
CB3
FB1
1 3
2 4
12
34
56
1112
2122
3132
4142
A1A2
5354
N/C
N/C
LF2
IOL
LF1
100-
JEE2 E1 A1
IPL
Pin
1Pi
n 2
Pin
3Pi
n 4
PE L3 L2 L1
IPL:
VAC
LIN
E
OPL
OPL:
VAC
LOA
D
Pin
1Pi
n 2
Pin
3Pi
n 4
PE L3'
L2'
L1'
1 2 3 4 1 2 3 4
IPL
OPLIn
terfa
ce P
CB
L3L2L1 ALRM
_COM
1 3
2 4 6
AL1cB M
5
CB1
140U
L3'
L2'
L1'
CR1
CON
STAT
_12
CON
STAT
_22
CON
STAT
_32
CON
STAT
_54
COIL
_A2
CON
STAT
_53
CON
STAT
_31
CON
STAT
_21
CON
STAT
_11
CON
STAT
_54
CON
STAT
_32
CON
STAT
_22
CON
STAT
_12
ALRM
_COM
ALRM
_BCO
IL_E
1CO
NST
AT_5
3CO
NST
AT_3
1CO
NST
AT_2
1CO
NST
AT_1
1
ALRM
_MCO
IL_E
2
Pin
14Pi
n 13
Pin
12Pi
n 11
Pin
1Pi
n 2
Pin
3Pi
n 4
Pin
6Pi
n 7
Pin
17
Pin
8
Pin
18
Pin
10
Pin
20Pi
n 19
Pin
15Pi
n 16
Pin
5
Pin
9
Pin
21
IO_P
WR1
IO_C
OM1
IO_P
WR1
IO_C
OM1
IO_P
WR1
IO_C
OM1
COIL
_E1
COIL
_E2
ALRM
_MSH
IELD
ALRM
_BAL
RM_C
OMCO
NST
AT_1
1CO
NST
AT_1
2CO
NST
AT_2
1CO
NST
AT_2
2CO
NST
AT_3
1CO
NST
AT_3
2CO
NST
AT_5
3CO
NST
AT_5
4SH
IELD
IOL:
STA
TUS
I/O
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21
12
2120
IOL
24V
Stat
us L
ED
ALRM
_B
ALRM
_M
ALRM
_MAL
RM_C
OMAL
RM_B
L1 L2
PEL1'
L2'
6 7 8 9 10
L3 N
1 2 3 4L3
'N
'
Thre
e Ph
ase,
1-S
tage
Line
Filt
er (4
60VA
C)IO
_PW
R1IO
_COM
1IO
_PW
R2IO
_COM
2
L1 L2 PE24
+
24+
20A
Pow
er S
uppl
y
PS1
24-
24-
COIL
_A2
L1 L2PEL1
'L2
'1 2
3 4
Sing
le P
hase
, 1-S
tage
Line
Filt
er (2
30VA
C)
5
Pin
6Pi
n 5
Pin
4Pi
n 3
Pin
2Pi
n 1
P2L
P2L:
AUX
ILIA
RY P
WR
OUTP
UT
AUX1
_L2
AUX1
_L1
AUX2
_L2
AUX2
_L1
Pin
1
CPL:
CON
TROL
PW
R OU
TPUT
CPL
CTRL
2CT
RL 1
Pin
1
P1L:
BRA
KE A
ND
I/O O
UTPU
TP1
L
Pin
2
Pin
4Pi
n 3
Pin
2
6 5 4 3 2 12 14 3 2 1
IO_P
WR2
IO_C
OM2
IO_P
WR2
IO_C
OM2
IO_P
WR2
IO_C
OM2
4 3 2 1 2 1 6 5 4 3 2 1
CTRL
1CT
RL2
AUX1
_L2
and
AUX2
_L2
AUX1
_L1
and
AUX2
_L1
Inte
rface
PCB
P2L
CPL
P1L
COIL
_E2
COIL
_E1
L1 L1 L2 L2
1 2 3 41 2 3 4
Publication 2094-IN002E-EN-P — September 2005
A-30 Interconnect Diagrams
Figure A.27LIM Block Diagram (2094-BL75S)
CB2
11
1412
1 3
2 4
1 3
2 4
CB3
FB1
1 3
2 4
12
34
56
1112
2122
3132
4142
A1A2
5354
N/C
N/C
LF2
IOL
LF1
100-
JEE2 E1 A1
IPL
Pin
1Pi
n 2
Pin
3Pi
n 4
PE L3 L2 L1
IPL:
VAC
LIN
E
OPL
OPL:
VAC
LOA
D
Pin
1Pi
n 2
Pin
3Pi
n 4
PE L3'
L2'
L1'
1 2 3 4 1 2 3 4
IPL
OPL
Inte
rface
PCB
L3L2L1 ALRM
_COM
1 3
2 4 6
AL1cB M
5
CB1
140U
L3'
L2'
L1'
CR1
CON
STAT
_12
CON
STAT
_22
CON
STAT
_32
CON
STAT
_54
COIL
_A2
CON
STAT
_53
CON
STAT
_31
CON
STAT
_21
CON
STAT
_11
CON
STAT
_54
CON
STAT
_32
CON
STAT
_22
CON
STAT
_12
ALRM
_COM
ALRM
_BCO
IL_E
1CO
NST
AT_5
3CO
NST
AT_3
1CO
NST
AT_2
1CO
NST
AT_1
1
ALRM
_MCO
IL_E
2
Pin
14Pi
n 13
Pin
12Pi
n 11
Pin
1Pi
n 2
Pin
3Pi
n 4
Pin
6Pi
n 7
Pin
17
Pin
8
Pin
18
Pin
10
Pin
20Pi
n 19
Pin
15Pi
n 16
Pin
5
Pin
9
Pin
21
IO_P
WR1
IO_C
OM1
IO_P
WR1
IO_C
OM1
IO_P
WR1
IO_C
OM1
COIL
_E1
COIL
_E2
ALRM
_MSH
IELD
ALRM
_BAL
RM_C
OMCO
NST
AT_1
1CO
NST
AT_1
2CO
NST
AT_2
1CO
NST
AT_2
2CO
NST
AT_3
1CO
NST
AT_3
2CO
NST
AT_5
3CO
NST
AT_5
4SH
IELD
IOL:
STA
TUS
I/O
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21
12
2120
IOL
24V
Stat
us L
ED
ALRM
_B
ALRM
_M
ALRM
_MAL
RM_C
OMAL
RM_B
65
L1 L2
PEL1'
L2'
6 7 8 9 10
L3 N
1 2 3 4L3
'N
'
Thre
e Ph
ase,
1-S
tage
Line
Filt
er (4
60VA
C)IO
_PW
R1IO
_COM
1IO
_PW
R2IO
_COM
2
L1 L2 PE24
+
24+
20A
Pow
er S
uppl
y
PS1
24-
24-
COIL
_A2
L1 L2PEL1
'L2
'1 2
3 4
Sing
le P
hase
, 1-S
tage
Line
Filt
er (2
30VA
C)
5
Pin
6Pi
n 5
Pin
4Pi
n 3
Pin
2Pi
n 1
P2L
P2L:
AUX
ILIA
RY P
WR
OUTP
UT
AUX1
_L2
AUX1
_L1
AUX2
_L2
AUX2
_L1
Pin
1
CPL:
CON
TROL
PW
R OU
TPUT
CPL
CTRL
2CT
RL 1
Pin
1
P1L:
BRA
KE A
ND
I/O O
UTPU
TP1
L
Pin
2
Pin
4Pi
n 3
Pin
2
6 5 4 3 2 12 14 3 2 1
IO_P
WR2
IO_C
OM2
IO_P
WR2
IO_C
OM2
IO_P
WR2
IO_C
OM2
4 3 2 1 2 1 6 5 4 3 2 1
CTRL
1CT
RL2
Inte
rface
PCB
P2L
CPL
P1L
COIL
_E2
COIL
_E1
L3
TX1
460V
:: 2
30V
750
VA
L3 L1 L1 L2 L2
AUX1
_L2
and
AUX2
_L2
AUX1
_L1
and
AUX2
_L1
1 2 3 41 2 3 4
Publication 2094-IN002E-EN-P — September 2005
Interconnect Diagrams A-31
Figure A.28LIM Block Diagram (2094-XL75S-Cx)
CB2
11
1412
1 3
2 4
1 3
2 4
CB3
FB1
1 3
2 4
12
34
56
1112
2122
3132
4142
A1A2
5354
N/C
N/C
LF2
IOL
LF1
100-
JEE2 E1 A1
IPL
Pin
1Pi
n 2
Pin
3Pi
n 4
PE L3 L2 L1
IPL:
VAC
LIN
E
OPL
OPL:
VAC
LOA
D
Pin
1Pi
n 2
Pin
3Pi
n 4
PE L3'
L2'
L1'
1 2 3 4 1 2 3 4
IPL AP
L: A
UXIL
IARY
PW
R IN
PUT
APL
L2/N
L1Pi
n 1
Pin
2
2 1
APL
OPL
Inte
rface
PCB
L3L2L1 ALRM
_COM
1 3
2 4 6
AL1cB M
5
CB1
140U
L3'
L2'
L1'
CR1
CON
STAT
_12
CON
STAT
_22
CON
STAT
_32
CON
STAT
_54
COIL
_A2
CON
STAT
_53
CON
STAT
_31
CON
STAT
_21
CON
STAT
_11
CON
STAT
_54
CON
STAT
_32
CON
STAT
_22
CON
STAT
_12
ALRM
_COM
ALRM
_BCO
IL_E
1CO
NST
AT_5
3CO
NST
AT_3
1CO
NST
AT_2
1CO
NST
AT_1
1
ALRM
_MCO
IL_E
2
Pin
14Pi
n 13
Pin
12Pi
n 11
Pin
1Pi
n 2
Pin
3Pi
n 4
Pin
6Pi
n 7
Pin
17
Pin
8
Pin
18
Pin
10
Pin
20Pi
n 19
Pin
15Pi
n 16
Pin
5
Pin
9
Pin
21
IO_P
WR1
IO_C
OM1
IO_P
WR1
IO_C
OM1
IO_P
WR1
IO_C
OM1
COIL
_E1
COIL
_E2
ALRM
_MSH
IELD
ALRM
_BAL
RM_C
OMCO
NST
AT_1
1CO
NST
AT_1
2CO
NST
AT_2
1CO
NST
AT_2
2CO
NST
AT_3
1CO
NST
AT_3
2CO
NST
AT_5
3CO
NST
AT_5
4SH
IELD
IOL:
STA
TUS
I/O
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21
12
2120
IOL
24V
Stat
us L
ED
ALRM
_B
ALRM
_M
ALRM
_MAL
RM_C
OMAL
RM_B
65
L1 L2
PEL1'
L2'
6 7 8 9 10
L3 N
1 2 3 4L3
'N
'
Thre
e Ph
ase,
1-S
tage
Line
Filt
er (4
60VA
C)IO
_PW
R1IO
_COM
1IO
_PW
R2IO
_COM
2
L1 L2 PE24
+
24+
20A
Pow
er S
uppl
y
PS1
24-
24-
COIL
_A2
L1 L2PEL1
'L2
'1 2
3 4
Sing
le P
hase
, 1-S
tage
Line
Filt
er (2
30VA
C)
5
Pin
6Pi
n 5
Pin
4Pi
n 3
Pin
2Pi
n 1
P2L
P2L:
AUX
ILIA
RY P
WR
OUTP
UT
AUX1
_L2
AUX1
_L1
AUX2
_L2
AUX2
_L1
Pin
1
CPL:
CON
TROL
PW
R OU
TPUT
CPL
CTRL
2CT
RL 1
Pin
1
P1L:
BRA
KE A
ND
I/O O
UTPU
TP1
L
Pin
2
Pin
4Pi
n 3
Pin
2
6 5 4 3 2 12 14 3 2 1
IO_P
WR2
IO_C
OM2
IO_P
WR2
IO_C
OM2
IO_P
WR2
IO_C
OM2
4 3 2 1 2 1 6 5 4 3 2 1
CTRL
1CT
RL2
Inte
rface
PCB
P2L
CPL
P1L
COIL
_E2
COIL
_E1
L1 L1 L2/N
L2/N
AUX1
_L2
and
AUX2
_L2
AUX1
_L1
and
AUX2
_L1
1 2 3 41 2 3 4 2 1
Publication 2094-IN002E-EN-P — September 2005
A-32 Interconnect Diagrams
Figure A.29LIM Block Diagram (2094-AL09)
CB2_
AUX
12
1 3
2 4
CB3
LF2
L2/N L1
CB2
1 3
2 4
L1 L2
PEL1'
L2'
L3L3
'
Thre
e Ph
ase,
1-S
tage
Line
Filt
er (4
60VA
C)
L1 L2
PEL1'
L2'
Sing
le-P
hase
, 1-S
tage
Line
Filt
er (2
30VA
C)
L1 L2 PE
24+
2A P
ower
Sup
ply
PS1
24-
IOL:
STA
TUS
I/O
Pin
1Pi
n 2
Pin
3Pi
n 4
CPL:
CON
TROL
POW
ERCP
L
L2/N
L1Pi
n 2
PSL:
I/O
24V
DC
OUTP
UT
PSL
Pin
11 21 2 3 4
MBR
K_PW
RM
BRK_
COM
MBR
K_PW
RM
BRK_
COM
24V
Stat
us L
EDs
IOL 9 1
10
1918
26
Pin
14Pi
n 13
Pin
12Pi
n 11
Pin
1Pi
n 2
Pin
3Pi
n 4
Pin
6Pi
n 7
Pin
17
Pin
8
Pin
18
Pin
10
Pin
20Pi
n 19
Pin
15Pi
n 16
Pin
5
Pin
9
Pin
21Pi
n 22
Pin
23Pi
n 24
Pin
25Pi
n 26
N/C
N/C
N/C
COIL
_A2
N/C
CON
STAT
_12
CON
STAT
_22
CON
STAT
_32
CON
STAT
_42
N/C
N/C
N/C
COIL
_A1
N/C
CON
STAT
_11
CON
STAT
_21
CON
STAT
_31
CON
STAT
_41
N/C
IO_C
OMIO
_COM
IO_C
OMN
/CIO
_PW
RIO
_PW
RIO
_PW
R
L3_O
UT
L2_O
UT
L1_O
UT
IPL
Pin
1Pi
n 2
Pin
3Pi
n 4
PE L3 L2 L1
IPL:
VAC
LIN
E IN
PUT
OPL
OPL:
VAC
LOA
D OU
TPUT
4 3 2 1 4 3 2 1
Pin
4Pi
n 3
Pin
2Pi
n 1
PE L3'
L2'
L1'
L3_I
N
L2_I
N
L1_I
N
CR1
1112
2122
3132
A1A2
4142
13
5
24
6
1 3
2 4 65
CON
STAT
_12
CON
STAT
_22
CON
STAT
_32
CON
STAT
_42
COIL
_A2
CON
STAT
_41
CON
STAT
_31
CON
STAT
_21
CON
STAT
_11
CON
STAT
_42
CON
STAT
_41
CON
STAT
_32
CON
STAT
_31
CON
STAT
_22
CON
STAT
_21
CON
STAT
_12
CON
STAT
_11
COIL
_A2
COIL
_A1
IO_P
WR
IO_C
OM
IO_P
WR
IO_C
OM
L1 L2 PE
24+
6A P
ower
Sup
ply
PS2
24-
CB1
LF1
MBR
K_PW
R
MBR
K_CO
M
D1
COIL
_A1
Publication 2094-IN002E-EN-P — September 2005
Interconnect Diagrams A-33
Figure A.30LIM Block Diagram (2094-BL02)
CB2_
AUX
12
1 3
2 4
CB3
LF2
L2/N L1
CB2
1 3
2 4
L1 L2
PEL1'
L2'
L3L3
'
Thre
e Ph
ase,
1-S
tage
Line
Filt
er (4
60VA
C)
L1 L2
PEL1'
L2'
Sing
le-P
hase
, 1-S
tage
Line
Filt
er (2
30VA
C)
L1 L2 PE
24+
2A P
ower
Sup
ply
PS1
24-
IOL:
STA
TUS
I/O
Pin
1Pi
n 2
Pin
3Pi
n 4
CPL:
CON
TROL
POW
ERCP
L
L2/N
L1Pi
n 2
PSL:
I/O
24V
DC
OUTP
UT
PSL
Pin
11 21 2 3 4
MBR
K_PW
RM
BRK_
COM
MBR
K_PW
RM
BRK_
COM
24V
Stat
us L
EDs
IOL 9 1
10
1918
26
Pin
14Pi
n 13
Pin
12Pi
n 11
Pin
1Pi
n 2
Pin
3Pi
n 4
Pin
6Pi
n 7
Pin
17
Pin
8
Pin
18
Pin
10
Pin
20Pi
n 19
Pin
15Pi
n 16
Pin
5
Pin
9
Pin
21Pi
n 22
Pin
23Pi
n 24
Pin
25Pi
n 26
N/C
N/C
N/C
COIL
_A2
N/C
CON
STAT
_12
CON
STAT
_22
CON
STAT
_32
CON
STAT
_42
N/C
N/C
N/C
COIL
_A1
N/C
CON
STAT
_11
CON
STAT
_21
CON
STAT
_31
CON
STAT
_41
N/C
IO_C
OMIO
_COM
IO_C
OMN
/CIO
_PW
RIO
_PW
RIO
_PW
R
TX1
460V
to 2
30V
750
VA X
FMR
L3_O
UT
L2_O
UT
L1_O
UT
IPL
Pin
4Pi
n 3
Pin
2Pi
n 1
PE L3 L2 L1
IPL:
VAC
LIN
E IN
PUT
OPL
OPL:
VAC
LOA
D OU
TPUT
1 2 3 4 1 2 3 4
Pin
1Pi
n 2
Pin
3Pi
n 4
PE L3'
L2'
L1'
L3_I
N
L2_I
N
L1_I
N
CR1
100S
-C85
1112
2122
3132
A1A2
4142
13
5
24
6
1 3
2 4 65
CON
STAT
_12
CON
STAT
_22
CON
STAT
_32
CON
STAT
_42
COIL
_A2
CON
STAT
_41
CON
STAT
_31
CON
STAT
_21
CON
STAT
_11
CON
STAT
_42
CON
STAT
_41
CON
STAT
_32
CON
STAT
_31
CON
STAT
_22
CON
STAT
_21
CON
STAT
_12
CON
STAT
_11
COIL
_A2
COIL
_A1
IO_P
WR
IO_C
OM
IO_P
WR
IO_C
OM
L1 L2 PE
24+
6A P
ower
Sup
ply
PS2
24-
CB1
LF1
MBR
K_PW
R
MBR
K_CO
M
D1
COIL
_A1
Publication 2094-IN002E-EN-P — September 2005
A-34 Interconnect Diagrams
RBM Block Diagrams
Figure A.31RBM Block Diagram (2090-XB33-xx)
R3R2
R1
A1A2
D1
GROU
ND
W D
RIVE
V DR
IVE
U DR
IVE
GROU
ND
W M
TRV
MTR
U M
TR
Driv
e Co
nnec
tions
(TB1
) Con
nect
or
Mot
or C
onne
ctio
ns(T
B2) C
onne
ctor
I/O C
onne
ctio
ns(T
B3) C
onne
ctor
TS_2
1TS
_22
CON
STAT
_41
CON
STAT
_42
SHIE
LDCO
IL_A
1CO
IL_A
2SH
IELD
24V
Stat
us L
ED
T2 (w
arni
ng)
T1 (f
ault)
W B
RAKE
V BR
AKE
U BR
AKE
2 4 6
1 3 5 11 21 31 41
12 22 32 42
RBM
Enc
losu
re
4 3 2 1 1 2 3 4 5 6 7 8
4 3 2 1
Inte
rface
PCB
CR1
Publication 2094-IN002E-EN-P — September 2005
Interconnect Diagrams A-35
Figure A.32RBM Block Diagram (2090-XB120-xx)
DC
Inte
rface
Mod
ule E2E1
A1R3
R2R1
GROU
ND
W D
RIVE
V DR
IVE
U DR
IVE
GROU
ND
W M
TRV
MTR
U M
TR
Driv
e Co
nnec
tions
(TB1
) Con
nect
or
Mot
or C
onne
ctio
ns(T
B2) C
onne
ctor
I/O C
onne
ctio
ns(T
B3) C
onne
ctor
TS_2
1TS
_22
CON
STAT
_41
CON
STAT
_42
SHIE
LDCO
IL_A
1CO
IL_A
2SH
IELD
24V
Stat
us L
ED
T2 (w
arni
ng)
T1 (f
ault)
W B
RAKE
V BR
AKE
U BR
AKE
2 4 6
1 3 5 11 21 31 41
12 22 32 42
RBM
Enc
losu
re
4 3 2 1 1 2 3 4 5 6 7 8
4 3 2 1
Inte
rface
PCB
CR1
A1A2
5354
N/C
N/C
230V
Sta
tus
LED
Publication 2094-IN002E-EN-P — September 2005
A-36 Interconnect Diagrams
Publication 2094-IN002E-EN-P — September 2005
Appendix B
Upgrade Your Kinetix 6000 Firmware
Chapter Objectives This appendix provides a procedure for upgrading the Kinetix 6000
firmware using DriveExplorer.
Upgrade Drive Firmware Using DriveExplorer
Upgrading axis module firmware using DriveExplorer (via the DPI port) involves setting the Axes to Flash parameter, configuring a HyperTerminal session, and flashing the firmware.
Before You Begin
Before you begin this procedure, make sure you have the following:
1 Refer to DriveExplorer Getting Results Manual (publication 9306-GR001) for instructions.2 Contact Rockwell Automation Technical Support at (440) 646-5800 for firmware upgrade file.
Select Axis Modules to Upgrade
In this procedure you will use DriveExplorer software to set the Axes to Flash parameter (x708) and allow selective axis module upgrading.
Note: You will save time by selecting only the axis module(s) that require a firmware upgrade.
Description Catalog Numbers Minimum Firmware Revision
DriveExplorer Software 1 9306-4EXP02ENE 2.01
Smart Self-Powered (DPI) Serial Converter 1203-SSS (Series B) 3.004
Firmware upgrade file for Kinetix 6000 N/A 2 N/A 2
Personal computer with HyperTerminal N/A N/A
1 Publication 2094-IN002E-EN-P — September 2005
B-2 Upgrade Your Kinetix 6000 Firmware
To set the Axes to Flash parameter:
1. Apply 95-264V AC to the IAM control power (CPD) connector.
2. Connect the 1203-SSS serial cable to the appropriate COM port on your personal computer.
3. Connect the 1203-SSS DPI cable to the DPI connector on your IAM.
4. Verify that the 1203-SSS has power by observing the LED indicated in Figure B.1.
Figure B.11203-SSS DPI Adapter
5. Start the DriveExplorer software. Click on Explore\Connect. DriveExplorer proceeds to read your system.
ATTENTION To avoid injury or damage to equipment due to unpredictable motor activity, do not apply AC input (three-phase) power or establish communications with the 1756-MxxSE SERCOS interface module.
DPI communication
Publication 2094-IN002E-EN-P — September 2005
Upgrade Your Kinetix 6000 Firmware B-3
6. Double-click on 2094D SERVO Config 0000. The linear list of parameters appears, as shown in the window below.
7. Scroll down to parameter x:x.30 (Version Data) and record the version (VERS: xx.xxx) of each axis module.
8. Double-click on Configuration. The following window opens.
9. Double-click on Axes to Flash. The Axis to Flash window opens.
10. Check each axis to flash (example above shows two axes to flash).
11. Select OK. The Axes to Flash parameter is set.
12. Close DriveExplorer.
N: P. x xxx
Network Node Number
DPI Port Number
Parameter Number30 = Version Data
Linear List Legend
Axis Number0 = IAM (axis 1)1 = AM (axis 2)2 = AM (axis 3)3 = AM (axis 4)
Publication 2094-IN002E-EN-P — September 2005
B-4 Upgrade Your Kinetix 6000 Firmware
HyperTerminal Configuration
To open and begin a new HyperTerminal session:
1. From the Windows Start menu, select Programs\Accessories\ HyperTerminal\HyperTerminal. The New Connection window opens.
• Name the new HyperTerminal file
• Choose an icon for the connection
2. Select OK. The following window opens.
Select the appropriate COM port
3. Select OK. The following window opens. Select the following properties as shown or as appropriate for your 1203-SSS DPI adapter.
IMPORTANT Bits per second of HyperTerminal must match the 1203-SSS DPI adapter setting for connection to occur.
Publication 2094-IN002E-EN-P — September 2005
Upgrade Your Kinetix 6000 Firmware B-5
4. Select OK. HyperTerminal configuration is complete.
Flash Your Firmware
This procedure assumes you have identified which axis module(s) require flashing, have set the Axes to Flash parameter, and have configured a HyperTerminal session.
1. Press ENTER. The HyperTerminal main menu opens.
IMPORTANT You must also know where to find your firmware upgrade file.
Publication 2094-IN002E-EN-P — September 2005
B-6 Upgrade Your Kinetix 6000 Firmware
2. Enter 3. The following window opens.
3. Enter 0. The following window opens.
4. Enter Y. As indicated in the text, the program begins displaying the character C.
Note: Program times-out after 60 seconds. If program times-out before you complete steps 5 - 7, return to step 1.
5. Go to the Transfer menu and select Send File. The Send File window opens. Browse for your firmware upgrade file.
Firmware upgrade file, as provided by RockwellAutomation Technical Support at (440) 646-5800.
Publication 2094-IN002E-EN-P — September 2005
Upgrade Your Kinetix 6000 Firmware B-7
6. Select Xmodem protocol.
7. Select Send. The flash upgrade operation begins and the following window opens.
8. The flash operation completes and the following window opens.
9. Close the HyperTerminal session.
10. Verify that parameter 30 for each axis module is now upgraded to the new firmware revision. Return to DriveExplorer (refer to Select Axis Modules to Upgrade, step 6) to see the linear list of parameters.
ATTENTION To avoid unrecoverable fault to modules, do not interrupt control power to IAM, power to the 1203-SSS DPI adapter, or power to your PC while the flash upgrade operation is in progress.
Publication 2094-IN002E-EN-P — September 2005
B-8 Upgrade Your Kinetix 6000 Firmware
Publication 2094-IN002E-EN-P — September 2005
Appendix C
Integrate Resistive Brake Moduleswith Kinetix 6000 Drives
Chapter Objectives This appendix provides Bulletin 2090 Resistive Brake Module (RBM) integration procedures specific to the Allen-Bradley Kinetix 6000 multi-axis servo drive systems using drive firmware v1.071 (or above). The procedure involves setting the time delay parameter using RSLogix 5000.
Before You Begin These procedures assume you have mounted and wired your RBM with your Kinetix 6000 drive system. The following publications are available to assist you with RBM installation:
Title Publication Number
Kinetix 6000 Installation Manual 2094-IN001
Resistive Brake Module Installation Instructions 2090-IN009
1 Publication 2094-IN002E-EN-P — September 2005
C-2 Integrate Resistive Brake Modules with Kinetix 6000 Drives
Understand Safety Precautions
The following precautions apply to resistive brake module installation as shown in the interconnect diagrams. Be sure to read and thoroughly understand them before proceeding.
Safety Standards for Reference
• EN 1050 Safety of Machinery - Principles for Risk Assessment
• EN 60204-1 Safety of Machinery - Electrical Equipment of Machines
• EN 292-1/2 Safety of Machinery - Basic Concepts, General Principles for Design
• EN 954-1 Safety of Machinery - Safety Related Parts of Control Systems
• NFPA 79 Electrical Standard for Industrial Machinery
• ANSI B11.TR3 Risk Assessment and Risk Reduction. A guide to estimate, evaluate, and reduce risks associated with machine tools.
ATTENTION The interconnection diagrams should be used as a general recommendation on how the safety control circuit may be implemented. Actual applications may vary due to requirements based on the machine builders risk assessment. The machine builder must perform a risk assessment and determine a category level of safety that must be applied to the machine.
Publication 2094-IN002E-EN-P — September 2005
Integrate Resistive Brake Modules with Kinetix 6000 Drives C-3
Background on Safety Design
There are numerous safety standards regarding machine design including OSHA, NFPA, AMT, CENELEC and ISO. In Europe, CENELEC and ISO coordinate the development of standards to which products can satisfy the laws of the Machinery Directive. In the United States, Standard Development Organizations (SDO) like the NFPA and AMT sponsor the development of standards to help companies meet OSHA requirements.
Stop Categories
One of the most basic safety functions is stopping the machine. The stopping function of a machine must fall into one of three categories (EN60204-1 and NFPA79). The categories are as follows:
• Stop Category 0: Stopping by immediate removal of power to the machine actuators.
• Stop Category 1: A controlled stop with power to the machine actuators to achieve the stop and then removal of power when the stop is achieved.
• Stop Category 2: A controlled stop with power left available to the machine actuators.
E-Stops are a special case of stops, and have additional requirements to those stated above. This appendix is intended to show how a light curtain or gate interlock might interface with one axis of motion control to achieve a machine stop and this stop may not be the same as the E-stop function of a machine.
Publication 2094-IN002E-EN-P — September 2005
C-4 Integrate Resistive Brake Modules with Kinetix 6000 Drives
Risk Assessment
The European safety standard (EN 1050) and U.S. technical report (ANSI B11.TR3) explain the process of risk assessment, which must be conducted by the machine builder. This is done by analyzing the tasks that people perform on and around the machine. This includes functions such as operation, set up, and maintenance. For the purpose of this appendix, the light curtain or gate interlock is intended to focus on the operation and perhaps loading/unloading of a machine. Additional protective measures must be identified by the risk assessment.
Machinery Directive EN 954-1 Safety Related Parts of Control Systems defines how to determine the safety requirements by categorizing the risk. This standard outlines the design of fail-safe control circuits by categorizing five levels of risk. It is deemed the machine designers responsibility to objectively identify a risk level for a particular machine and design all safety related systems to that level. The five categories are as follows:
Category B: Safety devices and control systems, as a minimum, must be designed, selected, and assembled to meet the operational requirements of design limits and influence of the processed materials and other external influences listed as: effects of vibration, loss of power supply, and external fields.
Category 1: All conditions of Category B apply, but the safety related part of the control system must use well tried principles and components (refer to 7.2.2: prEN951-1). The use of single electronic components, electronic logic or software is not considered adequate, even at this level.
Category 2: All conditions of Category B apply, but in addition, the machine shall be prevented from starting if a fault is detected upon power up. This suggests the use of an interface relay with redundancy and self-checking on energization. Single channel operation is permitted providing that the input devices (E-Stop buttons, gate switches, etc.) are tested for operation on a regular basis. If regular testing cannot be guaranteed, then the designer has little choice but to opt for two channel control.
Category 3: All conditions of Category B apply, but the complete safety control system shall be designed so that any single fault shall not lead to the loss of the safety function and, where practical, the single fault shall be detected. This now calls for not only redundancy in the interface relay but also in the input devices pointing to dual channel systems.
Publication 2094-IN002E-EN-P — September 2005
Integrate Resistive Brake Modules with Kinetix 6000 Drives C-5
Category 4: All the conditions of Category B apply and, in addition, any single fault must be detected at or before the next call on the safety system, or an accumulation of three faults shall not lead to the loss of the safety function.
Control Reliability
In the United States the AMT has promoted a concept called Control Reliability as part of the ANSI B11.TR3 standard. This standard has similar requirements to those in the Machinery Directive EN954-1 Category 3 risk standard.
Control Reliability is defined as the ability of a safety system to go into a safe state in the event of a failure. In other words, the safety system must bring the machine to a safe state in the event of a single fault.
Resistive Brake Module Interconnect Diagram Notes
This section provides interconnect diagrams to assist you in wiring a Kinetix 6000 system which includes an RBM. The notes in the table below apply to the following example RBM interconnect diagrams.
ATTENTION The National Electrical Code and local electrical codes take precedence over the values and methods provided. Implementation of these codes is the responsibility of the machine builder.
Note Information
1 Cable shield clamp must be used in order to meet CE requirements. No external connection to ground required.
2 For motor cable specifications, refer to the Kinetix Motion Control Selection Guide (publication GMC-SG001).
3 The BRKTMP0 signal can be wired to a ControlLogix input as overtemp warning in user program.
4 Firmware version 1.071 (or higher) is required to use the DBRK outputs on the Kinetix 6000 IAM or AM.
5 The safety relay time delay should be set beyond the time required to stop and disable the axis when running at full speed.
6 Drive Enable Input Checking must be selected in Axis Properties.
Publication 2094-IN002E-EN-P — September 2005
C-6 Integrate Resistive Brake Modules with Kinetix 6000 Drives
Resistive Brake Module Interconnect Diagrams
The example diagram below shows Kinetix 6000 IAM, AM, and LIM (2094-AL75S, -BL75S, and -XL75S) wired with the Bulletin 2090 RBM.
Figure C.1Example RBM Interconnection Diagram (Category 2 Configuration per EN954-1)
T2T1
K
4 3 2 1
4 3 2 1
D C B A
IO_P
WR1
BRKT
MP0
CON
T EN
-CO
NT
EN+
W V U
L3 L2 L1
2, 4
, 6
8 1, 3
, 5
7
DC-
DC+
L3 L2 L1CTRL
2CT
RL 1
L3'
L2'
L1'
1 2 1 2 3 4 5 6 1 2
6 5 4 3 2 14 3 2 1
W_D
RIVE
V_DR
IVE
U_DR
IVE
W_M
TR
V_M
TR
U_M
TR
SHIE
LD
COIL
_A2
COIL
_A1
SHIE
LD
CON
STAT
_42
CON
STAT
_41
TS_2
2
TS_2
1
MBR
K -
MBR
K +
COM
PWR
DBRK
-
DBRK
+
8 7 6 5 4 3 2 1K
IO_C
OM1
COIL
_E2
IO_P
WR1
COIL
_E1
BRKS
TAT0
IO_P
WR1
L1 L2 L3
AUX3
AUX2
AUX1
R3 R2 R1
W V U
GND M
AUX4
1 2 3 4 5 6
D
1 2
2 1L2 L1
IO_P
WR2
IO_C
OM2
IO_P
WR2
IO_C
OM2
IO_P
WR2
IO_C
OM2
1 2 3 4
AUX1
_L1
AUX1
_L2
AUX2
_L1
AUX2
_L2
B
B
A
CTRL
2CT
RL 1
1 2 3 4
C
L1 L2/N
1 21 2 3 4
Not
e 1
Note
4
Not
e 1
Auxil
iary
230
V ac
Inpu
t (TB
4) C
onne
ctor
(209
0-XB
120-
xx o
nly)
Kine
tix 6
000
INTE
GRAT
ED A
XIS
MO
DULE
2094
-ACx
x-M
xx o
r -B
Cxx-
Mxx
(Axi
s_0)
Cabl
e Sh
ield
Clam
p
2090
-XXN
RB-1
4F0P
7RB
M to
Driv
e In
terfa
ce C
able
Not
e 2
Mot
or C
onne
ctio
ns(T
B2) C
onne
ctor
Driv
e Co
nnec
tions
(TB1
) Con
nect
or
I/O C
onne
ctio
ns(T
B3) C
onne
ctor
Refe
r to
the
Kine
tix 6
000
Inst
alla
tion M
anua
l (pub
licat
ion
2094
-IN00
1) fo
r mot
or p
ower
ca
ble
cata
log
num
bers
.N
ote
2
Mot
or/R
esis
tive
Brak
e (B
C) C
onne
ctor
Mot
or P
ower
(MP)
Con
nect
or
Cabl
e Sh
ield
Clam
pCa
ble
Shie
ld
Clam
p
Mot
or P
ower
Conn
ectio
ns
Bul
letin
209
0RE
SIST
IVE
BRA
KE M
ODU
LE20
90-X
Bxx-
xx(R
BM_0
)
Cont
acto
r Ena
ble
(CED
) Con
nect
or
Note
1
Not
e 3
Cont
rol P
ower
(CPD
) Con
nect
or
Pow
er R
ail
Grou
nd S
tud
DC B
usan
d3-
Phas
eIn
put (
IPD)
Conn
ecto
r
24V
dc O
utpu
t(P
1L) C
onne
ctor
Thre
e-Ph
ase
Inpu
t(IP
L) C
onne
ctor
I/O (I
OL)
Conn
ecto
r
230V
ac
Outp
ut(P
2L) C
onne
ctor
Thre
e-Ph
ase
Outp
ut(O
PL) C
onne
ctor
Sing
le-P
hase
Out
put
(CPL
) Con
nect
or
Bond
ed C
abin
etGr
ound
Bus
*
* IN
DICA
TES
USER
SUP
PLIE
D CO
MPO
NEN
T
Kine
tix 6
000
LIN
E IN
TERF
ACE
MO
DULE
2094
-AL7
5S, -
BL75
S, o
r -X
L75S
-C2
230V
ac
Auxi
liary
Inpu
t Pow
er(A
PL) C
onne
ctor
Publication 2094-IN002E-EN-P — September 2005
Integrate Resistive Brake Modules with Kinetix 6000 Drives C-7
T2T1
K
4 3 2 1
4 3 2 1
D C B A
IO_P
WR1
BRKT
MP1
W V U
6 5 4 3 2 14 3 2 1
W_D
RIVE
V_DR
IVE
U_DR
IVE
W_M
TR
V_M
TR
U_M
TR
SHIE
LD
COIL
_A2
COIL
_A1
SHIE
LD
CON
STAT
_42
CON
STAT
_41
TS_2
2
TS_2
1
MBR
K -
MBR
K +
COM
PWR
DBRK
-
DBRK
+
8 7 6 5 4 3 2 1
BRKS
TAT1
L1 L2 L3
AUX3
AUX2
AUX1
R3 R2 R1
W V U
GND M
AUX4
GND-
0GN
D-1
GND-
2GN
D-3
GND-
4GN
D-5
GND-
6GN
D-7
GND-
8GN
D-9
GND-
10GN
D-11
GND-
12GN
D-13
GND-
14GN
D-15
GND-
15N
OT U
SED
IN-0
IN-1
IN-2
IN-3
IN-4
IN-5
IN-6
IN-7
IN-8
IN-9
IN-1
0IN
-11
IN-1
2IN
-13
IN-1
4IN
-15
NOT
USE
DN
OT U
SED
2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36
1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35
IO_C
OM
BRKS
TAT0
BRKS
TAT1
BRKT
MP0
BRKT
MP1
D
2 1L2 L1
C
A
Not
e 3
Not
e 1
Note
4
Not
e 1
Auxil
iary
230
V ac
Inpu
t (TB
4) C
onne
ctor
(209
0-XB
120-
xx o
nly)
Kine
tix 6
000
AXIS
MO
DUL
E20
94-A
Mxx
or -
BMxx
(Axi
s_1)
Cabl
e Sh
ield
Clam
p
2090
-XXN
RB-1
4F0P
7RB
M to
Driv
e In
terfa
ce C
able
Not
e 2
Mot
or C
onne
ctio
ns(T
B2) C
onne
ctor
Driv
e Co
nnec
tions
(TB1
) Con
nect
or
I/O C
onne
ctio
ns(T
B3) C
onne
ctor
Refe
r to
the
Kine
tix 6
000
Inst
alla
tion M
anua
l (pub
licat
ion
2094
-IN00
1) fo
r mot
or p
ower
ca
ble
cata
log
num
bers
.N
ote
2
Mot
or/R
esist
ive
Brak
e (B
C) C
onne
ctor
Mot
or P
ower
(MP)
Con
nect
or
Cabl
e Sh
ield
Clam
pCa
ble
Shie
ld
Clam
p
Mot
or P
ower
Conn
ectio
ns
Bul
letin
209
0RE
SIST
IVE
BRA
KE M
ODU
LE20
90-X
Bxx
-xx
(RBM
_1)
Note
1
Note
3
* IN
DICA
TES
USER
SUP
PLIE
D CO
MPO
NEN
T
Latc
hing
Push
butto
n *
Cont
rolL
ogix
Inpu
t Dev
ice
1756
-IB16
Publication 2094-IN002E-EN-P — September 2005
C-8 Integrate Resistive Brake Modules with Kinetix 6000 Drives
The example diagram below shows Kinetix 6000 IAM, AM, and LIM (2094-AL09 and -BL02) wired with the Bulletin 2090 RBM.
Figure C.2Example RBM Interconnection Diagram (Category 2 Configuration per EN954-1)
T2T1
K
4 3 2 1
4 3 2 1
D C B A
IO_P
WR
BRKT
MP0
CON
T EN
-CO
NT
EN+
W V U
L3 L2 L1
DC-
DC+
L3 L2 L1CTRL
2CT
RL 1
L3'
L2'
L1'
1 2 1 2 3 4 5 6 1 2
6 5 4 3 2 14 3 2 1
W_D
RIVE
V_DR
IVE
U_DR
IVE
W_M
TR
V_M
TR
U_M
TR
SHIE
LD
COIL
_A2
COIL
_A1
SHIE
LD
CON
STAT
_42
CON
STAT
_41
TS_2
2
TS_2
1
MBR
K -
MBR
K +
COM
PWR
DBRK
-
DBRK
+
8 7 6 5 4 3 2 1K
BRKS
TAT0
IO_P
WR
L1 L2 L3
AUX3
AUX2
AUX1
R3 R2 R1
W V U
GND M
AUX4
1 2 3 4
B
2 1
2 1L2 L1
24-2
6
20-2
2
13 4
L1 L2
MBR
K_PW
R
MBR
K_CO
M
MBR
K_PW
R
MBR
K_CO
M
IO_P
WR
IO_C
OM
COIL
_A1
COIL
_A2
A
Not
e 1
Note
4
Not
e 1
Auxil
iary
230
V ac
Inpu
t (TB
4) C
onne
ctor
(209
0-XB
120-
xx o
nly)
Kine
tix 6
000
INTE
GRAT
ED A
XIS
MO
DULE
2094
-ACx
x-M
xx o
r -B
Cxx-
Mxx
(Axi
s_0)
Cabl
e Sh
ield
Clam
p
2090
-XXN
RB-1
4F0P
7RB
M to
Driv
e In
terfa
ce C
able
Not
e 2
Mot
or C
onne
ctio
ns(T
B2) C
onne
ctor
Driv
e Co
nnec
tions
(TB1
) Con
nect
or
I/O C
onne
ctio
ns(T
B3) C
onne
ctor
Refe
r to
the
Kine
tix 6
000
Inst
alla
tion M
anua
l (pub
licat
ion
2094
-IN00
1) fo
r mot
or p
ower
ca
ble
cata
log
num
bers
.N
ote
2
Mot
or/R
esis
tive
Brak
e (B
C) C
onne
ctor
Mot
or P
ower
(MP)
Con
nect
or
Cabl
e Sh
ield
Clam
pCa
ble
Shie
ld
Clam
p
Mot
or P
ower
Conn
ectio
ns
Bul
letin
209
0RE
SIST
IVE
BRA
KE M
ODU
LE20
90-X
Bxx-
xx(R
BM_0
)
Cont
acto
r Ena
ble
(CED
) Con
nect
or
Note
1
Not
e 3
Cont
rol P
ower
(CPD
) Con
nect
or
Pow
er R
ail
Grou
nd S
tud
DC B
usan
dTh
ree-
Phas
eIn
put (
IPD)
Conn
ecto
r
24V
dc O
utpu
t(P
SL) C
onne
ctor
Thre
e-Ph
ase
Inpu
t(IP
L) C
onne
ctor
I/O (I
OL)
Conn
ecto
r
Thre
e-Ph
ase
Outp
ut(O
PL) C
onne
ctor
Sing
le-P
hase
Out
put
(CPL
) Con
nect
or
Bond
ed C
abin
etGr
ound
Bus
*
* IN
DICA
TES
USER
SUP
PLIE
D CO
MPO
NEN
T
Kine
tix 6
000
LIN
E IN
TERF
ACE
MO
DULE
2094
-AL0
9 an
d -B
L02
Publication 2094-IN002E-EN-P — September 2005
Integrate Resistive Brake Modules with Kinetix 6000 Drives C-9
T2T1
K
4 3 2 1
4 3 2 1
D C B A
IO_P
WR
BRKT
MP1
W V U
6 5 4 3 2 14 3 2 1
W_D
RIVE
V_DR
IVE
U_DR
IVE
W_M
TR
V_M
TR
U_M
TR
SHIE
LD
COIL
_A2
COIL
_A1
SHIE
LD
CON
STAT
_42
CON
STAT
_41
TS_2
2
TS_2
1
MBR
K -
MBR
K +
COM
PWR
DBRK
-
DBRK
+
8 7 6 5 4 3 2 1
BRKS
TAT1
L1 L2 L3
AUX3
AUX2
AUX1
R3 R2 R1
W V U
GND M
AUX4
GND-
0GN
D-1
GND-
2GN
D-3
GND-
4GN
D-5
GND-
6GN
D-7
GND-
8GN
D-9
GND-
10GN
D-11
GND-
12GN
D-13
GND-
14GN
D-15
GND-
15N
OT U
SED
IN-0
IN-1
IN-2
IN-3
IN-4
IN-5
IN-6
IN-7
IN-8
IN-9
IN-1
0IN
-11
IN-1
2IN
-13
IN-1
4IN
-15
NOT
USE
DN
OT U
SED
2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36
1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35
IO_C
OM
BRKS
TAT0
BRKS
TAT1
BRKT
MP0
BRKT
MP1
B
2 1L2 L1
A
Not
e 3
Not
e 1
Note
4
Not
e 1
Auxil
iary
230
V ac
Inpu
t (TB
4) C
onne
ctor
(209
0-XB
120-
xx o
nly)
Kine
tix 6
000
AXIS
MO
DUL
E20
94-A
Mxx
or -
BMxx
(Axi
s_1)
Cabl
e Sh
ield
Clam
p
2090
-XXN
RB-1
4F0P
7RB
M to
Driv
e In
terfa
ce C
able
Not
e 2
Mot
or C
onne
ctio
ns(T
B2) C
onne
ctor
Driv
e Co
nnec
tions
(TB1
) Con
nect
or
I/O C
onne
ctio
ns(T
B3) C
onne
ctor
Refe
r to
the
Kine
tix 6
000
Inst
alla
tion M
anua
l (pub
licat
ion
2094
-IN00
1) fo
r mot
or p
ower
ca
ble
cata
log
num
bers
.N
ote
2
Mot
or/R
esist
ive
Brak
e (B
C) C
onne
ctor
Mot
or P
ower
(MP)
Con
nect
or
Cabl
e Sh
ield
Clam
pCa
ble
Shie
ld
Clam
p
Mot
or P
ower
Conn
ectio
ns
Bul
letin
209
0RE
SIST
IVE
BRA
KE M
ODU
LE20
90-X
Bxx
-xx
(RBM
_1)
Note
1
Note
3
* IN
DICA
TES
USER
SUP
PLIE
D CO
MPO
NEN
T
Latc
hing
Push
butto
n *
Cont
rolL
ogix
Inpu
t Dev
ice
1756
-IB16
Publication 2094-IN002E-EN-P — September 2005
C-10 Integrate Resistive Brake Modules with Kinetix 6000 Drives
The example diagram below shows Kinetix 6000 IAM and LIM (2094-AL75S, -BL75S, and -XL75S) wired with the Bulletin 2090 RBM.
Figure C.3Example RBM Interconnection Diagram (Category 3 Configuration per EN954-1)
T2T1
K
4 3 2 1
4 3 2 1
D C B A
IO_P
WR1
BRKT
MP0
CON
T EN
-CO
NT
EN+
W V U
L3 L2 L1
DC-
DC+
L3 L2 L1CTRL
1CT
RL 2
L3'
L2'
L1'
1 2 1 2 3 4 5 6 1 2
6 5 4 3 2 14 3 2 1
W_D
RIVE
V_DR
IVE
U_DR
IVE
W_M
TR
V_M
TR
U_M
TR
SHIE
LD
COIL
_A2
COIL
_A1
SHIE
LD
CON
STAN
T_42
CON
STAN
T_41
TS_2
2
TS_2
1
MBR
K -
MBR
K +
COM
PWR
DBRK
-
DBRK
+
8 7 6 5 4 3 2 1
K
BRKS
TAT0
IO_P
WR1
L1 L2 L3
AUX3
AUX2
AUX1
R3 R2 R1
W V U
GND M
AUX4
1 2 3
+24V
_PW
R
ENAB
LE
+24V
_COM
BC
D
E
2 1L2 L1
1, 3
, 5
2, 4
, 6
7 8
IO_P
WR1
IO_C
OM1
COIL
_E1
COIL
_E2
1 2 3 4 5 61 2
IO_P
WR2
IO_C
OM2
IO_P
WR2
IO_C
OM2
IO_P
WR2
IO_C
OM2
1 2 3 4
AUX1
_L1
AUX1
_L2
AUX2
_L1
AUX2
_L2
A
CTRL
2CT
RL 1
A
L1 L2/N
1 2
1 2 3 4
1 2 3 4
Not
e 1
Not
e 4
Note
1
Auxi
liary
230
V ac
Inpu
t (TB
4) C
onne
ctor
(209
0-XB
120-
xx o
nly)
Kine
tix 6
000
INTE
GRA
TED
AXI
S M
OD
ULE
2094
-ACx
x-M
xx o
r -BC
xx-M
xx(A
xis_
0)
Cabl
e Sh
ield
Clam
p
2090
-XXN
RB-1
4F0P
7RB
M to
Driv
e In
terfa
ce C
able
Not
e 2
Mot
or C
onne
ctio
ns(T
B2) C
onne
ctor
Driv
e Co
nnec
tions
(TB1
) Con
nect
or
I/O C
onne
ctio
ns(T
B3) C
onne
ctor
Refe
r to
the
Kine
tix 6
000
Inst
alla
tion M
anua
l (pub
licat
ion
2094
-IN00
1) fo
r mot
or p
ower
ca
ble
cata
log
num
bers
.No
te 2
Mot
or/R
esist
ive
Brak
e (B
C) C
onne
ctor
Mot
or P
ower
(MP)
Con
nect
or
Cabl
e Sh
ield
Clam
pCa
ble
Shie
ld
Clam
p
Mot
or P
ower
Conn
ectio
ns
Bul
letin
209
0RE
SIST
IVE
BRA
KE M
ODU
LE20
90-X
Bxx-
xx(R
BM_0
)
Cont
acto
r Ena
ble
(CED
) Con
nect
or
Not
e 1
Note
3
Cont
rol P
ower
(CPD
) Con
nect
or
Pow
er R
ail
Grou
nd S
tud
DC B
usan
dTh
ree-
Phas
eIn
put (
IPD)
Conn
ecto
r
Thre
e-Ph
ase
Inpu
t(IP
L) Co
nnec
tor
I/O (I
OL)
Conn
ecto
r
Thre
e-Ph
ase
Outp
ut(O
PL) C
onne
ctor
Sing
le-P
hase
Out
put
(CPL
) Con
nect
or
Bond
ed C
abin
etGr
ound
Bus
*
* IN
DICA
TES
USER
SUP
PLIE
D CO
MPO
NEN
T
Kine
tix 6
000
LIN
E IN
TERF
ACE
MO
DULE
2094
-AL7
5S, -
BL75
S, o
r -X
L75S
-C2
I/O (I
OD)
Conn
ecto
rNo
te 6
24V
dc O
utpu
t(P
1L) C
onne
ctor
230V
ac
Outp
ut(P
2L) C
onne
ctor
230V
ac
Auxi
liary
Inpu
t Pow
er(A
PL) C
onne
ctor
Publication 2094-IN002E-EN-P — September 2005
Integrate Resistive Brake Modules with Kinetix 6000 Drives C-11
COM
A1S3
3S5
2S1
1S1
2S2
1S2
2S3
413
4757
2337
A2Y2
X1X2
X3X4
Y39
Y40
Y114
4858
2438
Out2
Out1
COM
PWR
COM
COM
GND-
0GN
D-0
GND-
0GN
D-0
GND-
1GN
D-1
GND-
1GN
D-1
GND-
2GN
D-2
GND-
2GN
D-2
GND-
3GN
D-3
GND-
3GN
D-3
NOT
USE
DN
OT U
SED
IN-0
IN-1
IN-2
IN-3
IN-4
IN-5
IN-6
IN-7
IN-8
IN-9
IN-1
0IN
-11
IN-1
2IN
-13
IN-1
4IN
-15
NOT
USE
DN
OT U
SED
2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36
1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35
IO_P
WR1
IO_P
WR1
IO_P
WR1
E-ST
OP *
BC
DE
BRKT
MP0
STOP
STAT
STOP
STAT
ENAB
LE0 CO
IL0
BRKS
TAT0
Rese
t *
Safe
ty R
elay
*A
llen-
Brad
ley/
Gua
rdm
aste
r MSR
138D
PNo
te 5
* IN
DICA
TES
USER
SUP
PLIE
D CO
MPO
NEN
T
Cont
rolL
ogix
Inpu
t Dev
ice
1756
-IB
16Li
ght C
urta
in *
Publication 2094-IN002E-EN-P — September 2005
C-12 Integrate Resistive Brake Modules with Kinetix 6000 Drives
The example diagram below shows Kinetix 6000 IAM and LIM (2094-AL09 and -BL02) wired with the Bulletin 2090 RBM.
Figure C.4Example RBM Interconnection Diagram (Category 3 Configuration per EN954-1)
T2T1
K
4 3 2 1
4 3 2 1
D C B A
IO_P
WR
BRKT
MP0
CON
T EN
-CO
NT
EN+
W V U
L3 L2 L1
24-2
6
20-2
2
13 4
DC-
DC+
L3 L2 L1
L1 L2CT
RL 1
CTRL
2
L3'
L2'
L1'
1 2 1 2 3 4 5 6 1 2
6 5 4 3 2 14 3 2 1
MBR
K_PW
R
MBR
K_CO
M
MBR
K_PW
R
MBR
K_CO
M
W_D
RIVE
V_DR
IVE
U_DR
IVE
W_M
TR
V_M
TR
U_M
TR
SHIE
LD
COIL
_A2
COIL
_A1
SHIE
LD
CON
STAN
T_42
CON
STAN
T_41
TS_2
2
TS_2
1
MBR
K -
MBR
K +
COM
PWR
DBRK
-
DBRK
+
8 7 6 5 4 3 2 1
K
IO_P
WR
IO_C
OM
COIL
_A1
COIL
_A2
BRKS
TAT0
IO_P
WR
L1 L2 L3
AUX3
AUX2
AUX1
R3 R2 R1
W V U
GND M
AUX4
1 2 3 42 1
1 2 3
+24V
_PW
R
ENAB
LE
+24V
_COM
AB
C
D
2 1L2 L1
Note
1
Note
4
Note
1
Auxi
liary
230
V ac
Inpu
t (TB
4) C
onne
ctor
(209
0-XB
120-
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Kine
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AXI
S M
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2094
-ACx
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r -B
Cxx-
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(Axi
s_0)
Cabl
e Sh
ield
Clam
p
2090
-XXN
RB-1
4F0P
7RB
M to
Driv
e In
terfa
ce C
able
Note
2
Mot
or C
onne
ctio
ns(T
B2) C
onne
ctor
Driv
e Co
nnec
tions
(TB1
) Con
nect
or
I/O C
onne
ctio
ns(T
B3) C
onne
ctor
Refe
r to
the
Kine
tix 6
000
Inst
alla
tion M
anua
l (pub
licat
ion
2094
-IN00
1) fo
r mot
or p
ower
ca
ble
cata
log
num
bers
.N
ote
2
Mot
or/R
esist
ive
Brak
e (B
C) C
onne
ctor
Mot
or P
ower
(MP)
Con
nect
or
Cabl
e Sh
ield
Clam
pCa
ble
Shie
ld
Clam
p
Mot
or P
ower
Conn
ectio
ns
Bul
letin
209
0RE
SIST
IVE
BRA
KE M
ODU
LE20
90-X
Bxx-
xx(R
BM_0
)
Cont
acto
r Ena
ble
(CED
) Con
nect
or
Not
e 1
Not
e 3
Cont
rol P
ower
(CPD
) Con
nect
or
Pow
er R
ail
Grou
nd S
tud
DC B
usan
dTh
ree-
Phas
eIn
put (
IPD)
Conn
ecto
r
24V
dc O
utpu
t(P
SL) C
onne
ctor
Thre
e-Ph
ase
Inpu
t(IP
L) Co
nnec
tor
I/O (I
OL)
Conn
ecto
r
Thre
e-Ph
ase
Outp
ut(O
PL) C
onne
ctor
Sing
le-P
hase
Out
put
(CPL
) Con
nect
or
Bond
ed C
abin
etGr
ound
Bus
*
* IN
DICA
TES
USER
SUP
PLIE
D CO
MPO
NEN
T
Kine
tix 6
000
LIN
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TERF
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2094
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d -B
L02
I/O (I
OD)
Conn
ecto
rN
ote
6
Publication 2094-IN002E-EN-P — September 2005
Integrate Resistive Brake Modules with Kinetix 6000 Drives C-13
COM
A1S3
3S5
2S1
1S1
2S2
1S2
2S3
413
4757
2337
A2Y2
X1X2
X3X4
Y39
Y40
Y114
4858
2438
Out2
Out1
COM
PWR
COM
COM
GND-
0GN
D-0
GND-
0GN
D-0
GND-
1GN
D-1
GND-
1GN
D-1
GND-
2GN
D-2
GND-
2GN
D-2
GND-
3GN
D-3
GND-
3GN
D-3
NOT
USE
DN
OT U
SED
IN-0
IN-1
IN-2
IN-3
IN-4
IN-5
IN-6
IN-7
IN-8
IN-9
IN-1
0IN
-11
IN-1
2IN
-13
IN-1
4IN
-15
NOT
USE
DN
OT U
SED
2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36
1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35
IO_P
WR
IO_P
WR
IO_P
WR
E-ST
OP *
AB
CD
BRKT
MP0
STOP
STAT
STOP
STAT
ENAB
LE0 CO
IL0
BRKS
TAT0
Rese
t *
Safe
ty R
elay
*A
llen-
Brad
ley/
Gua
rdm
aste
r MSR
138D
PNo
te 5
* IN
DICA
TES
USER
SUP
PLIE
D CO
MPO
NEN
T
Cont
rolL
ogix
Inpu
t Dev
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1756
-IB
16Li
ght C
urta
in *
Publication 2094-IN002E-EN-P — September 2005
C-14 Integrate Resistive Brake Modules with Kinetix 6000 Drives
Set the RBM Delay Time Using DriveExplorer
In this procedure you will break SERCOS ring communications, set the delay time parameter using DriveExplorer software, and re-establish SERCOS communication.
The following hardware and software tools are required to provide the necessary communication link between your PC and the Kinetix 6000 drive system running RSLogix 5000.
1 Refer to DriveExplorer Getting Results Manual (publication 9306-GR001) for instructions.2 Refer to 1203-SSS (Series B) FRN 3.xxx User Manual (publication 20COMM-UM001) for instructions.3 Additional information regarding these communication and software tools is available at www.ab.com/
support/abdrives.
Remove SERCOS Communication
To remove (break) SERCOS communications:
1. Remove three-phase and control power from the Kinetix 6000 drive system.
2. Remove one of the SERCOS fiber-optic cables. Fiber-optic cable connections (Tx and Rx) are located on the top of each IAM/AM.
3. Re-apply three-phase and control power.
If you are using this version of RSLogix 5000 software Then
v11 or v12 Proceed with these instructions using DriveExplorer to set the RBM delay time parameter.
v13 or above Go to Configure Axis Properties on page 1-24 and use RSLogix 5000 to set the RBM delay time parameter.
Description Catalog Numbers Version
DriveExplorer Software 1, 3 9306-4EXP02ENE 2.01 or above
Serial to SCANport Adapter 2, 3 1203-SSS (Series B) 3.004 or above
RSLogix 5000 Software 9324-RLD300NE 11.0 or 12.0
Personal computer with HyperTerminal N/A N/A
ATTENTION To avoid personal injury or equipment damage, at least one end of a SERCOS fiber-optic cable must be disconnected from the drive. This ensures that motion will not occur while changes are made to the time delay parameter.
Publication 2094-IN002E-EN-P — September 2005
Integrate Resistive Brake Modules with Kinetix 6000 Drives C-15
Set the RBM Delay Time Parameter
To set the RBM delay time parameter:
1. Start the DriveExplorer software.
2. Click on Explore\Connect\Local in the menu bar or enter Ctrl-L from the keyboard. DriveExplorer will read your system.
3. Observe the Linear List of parameters as grouped by Node, Port, and Axis hierarchy as shown below.
4. Click on Devices\Node\Product\Axis x Group\Config and navigate to the Config parameters as shown below.
N: P. x xxx
Network Node Number
DPI Port Number
Parameter Number30 = Version Data
Linear List Legend
Axis Number0 = IAM (axis 1)1 = AM (axis 2)2 = AM (axis 3)3 = AM (axis 4)
Publication 2094-IN002E-EN-P — September 2005
C-16 Integrate Resistive Brake Modules with Kinetix 6000 Drives
5. Double-click on the x:x:x641 RBM Delay parameter. The command window for parameter x641 - RBM Delay opens.
6. Click on the Value Edit tab and enter the delay time Value (ms). The recommended RBM delay time is 71 ms.
7. Select OK. The RBM delay time is changed, but not saved in non-volatile memory.
Save the Delay Time Parameter to Non-Volatile Memory
To save the delay time parameter to non-volatile memory:
1. Click on Actions\Non-Volatile Memory in the menu bar. The following message window opens.
2. Click on Save. The changes are saved to non-volatile memory and the following cautionary message window opens.
Publication 2094-IN002E-EN-P — September 2005
Integrate Resistive Brake Modules with Kinetix 6000 Drives C-17
3. Click on Yes to complete saving changes to non-volatile memory. The following confirmation message window opens.
4. Click OK.
5.
Reconnect SERCOS Communication
To reconnect SERCOS communication:
1. Remove three-phase and control power from the Kinetix 6000 drive system.
2. Replace the SERCOS fiber-optic cable(s) removed earlier. Fiber-optic cable connections (Tx and Rx) are located on the top of each IAM/AM.
3. Re-apply three-phase and control power.
If you Then
Have another RBM in the Kinetix 6000 system
Go to Set the RBM Delay Time Parameter (step 4).
Do not have another RBM in the Kinetix 6000 system
1. Close DriveExplorer.
2. Go to Reconnect SERCOS Communication.
Publication 2094-IN002E-EN-P — September 2005
C-18 Integrate Resistive Brake Modules with Kinetix 6000 Drives
Publication 2094-IN002E-EN-P — September 2005
Appendix D
DC Common Bus Applications
Chapter Objectives This appendix provides integration procedures specific to the Kinetix 6000 multi-axis servo drive systems configured for DC common bus and using drive firmware v1.85 (or above). The procedure involves calculating capacitance values and setting the Add Bus Cap parameter using DriveExplorer software.
Before You Begin These procedures assume you have mounted and wired your Kinetix 6000 DC common bus system. Refer to the Kinetix 6000 Installation Manual (publication 2094-IN001) for mounting and wiring information.
Before you set the Additional Bus Capacitance (Add Bus Cap) parameter in DriveExplorer, you need to calculate the following values using the tables provided:
• Total Bus Capacitance
• Additional Bus Capacitance
1 Publication 2094-IN002E-EN-P — September 2005
D-2 DC Common Bus Applications
Calculate Total Bus Capacitance
Total bus capacitance is the sum of all capacitance values for your Kinetix 6000 common bus modules. Specifically, this includes the capacitance values for the following modules:
• Leader IAM (converter and inverter)
• Each AM and SM (if present) on the Leader IAM power rail
• Each Follower IAM (converter and inverter)
• Each AM on the Follower IAM power rails
Refer to Kinetix 6000 Capacitance Values on page D-3 for IAM/AM/SM capacitance values.
IMPORTANT When total bus capacitance exceeds the Leader IAM maximum value given in the table below, the IAM seven-segment LED displays error code E90 (pre-charge timeout fault) and the drive is disabled.
Leader IAM (230V)2094-
Maximum Bus CapacitanceµF
Leader IAM (460V)2094-
Maximum Bus CapacitanceµF
AC05-MP57145
BC01-MP54585
AC05-M01 BC01-M01
AC09-M02 15295 BC02-M02 8955
AC16-M03 34400 BC04-M03 8955
AC32-M05 62825 BC07-M05 17915
IMPORTANT If your total bus capacitance value exceeds the value in the table above, you must increase the size of the Leader IAM or decrease the total bus capacitance by removing axis modules.
Publication 2094-IN002E-EN-P — September 2005
DC Common Bus Applications D-3
Calculate Additional Bus Capacitance
Additional bus capacitance is the sum of all Follower IAM and AM capacitance values for your Kinetix 6000 common bus modules. Specifically, this includes the capacitance values for the following modules:
• Each Follower IAM (converter and inverter)
• Each AM on the Follower IAM power rails
Enter the additional bus capacitance value in step 6 of Set the Additional Bus Capacitance Parameter.
Kinetix 6000 Capacitance Values
Use the tables below when calculating total bus capacitance and additional bus capacitance for your Kinetix 6000 common bus application.
IAM/AM (230V) Modules
IAM/AM (460V) Modules
SM (230/460V) Module
IAM Converter (230V)2094-
CapacitanceµF
AM Inverter (230V)2094-
CapacitanceµF
AC05-MP5270
AMP5 390
AC05-M01 AM01 660
AC09-M02 540 AM02 780
AC16-M03 1320 AM03 1320
AC32-M05 1980 AM05 2640
IAM Converter (460V)2094-
CapacitanceµF
AM Inverter (460V)2094-
CapacitanceµF
BC01-MP5110
BMP5 75
BC01-M01 BM01 150
BC02-M02 220 BM02 270
BC04-M03 940 BM03 840
BC07-M05 1410 BM05 1175
SM (230-460V)2094-
CapacitanceµF
BSP2 470
Publication 2094-IN002E-EN-P — September 2005
D-4 DC Common Bus Applications
Common Bus Capacitance Example
In the figure below, the sum of the Leader IAM power rail modules capacitance (6530 µF) and the Follower IAM power rail modules capacitance (5280 µF) equals 11810 µF Total Bus Capacitance.
The sum of the Follower IAM power rail modules equal 5280 µF Additional Bus Capacitance.
Figure D.1Calculating Common Bus Capacitance
PRF (2094-PRF) N/ASM (2094-BSP2) 470 µF AM (2094-AM02) 780 µFAM (2094-AM03) 1320 µFAM (2094-AM03) 1320 µFIAM (2094-AC16-M03) Converter 1320 µFIAM (2094-AC16-M03) Inverter 1320 µF
PRF (2094-PRF) N/AAM (2094-AM03) 1320 µFAM (2094-AM03) 1320 µFIAM (2094-AC16-M03) Converter 1320 µFIAM (2094-AC16-M03) Inverter 1320 µF
MAIN VAC
Line InterfaceModule
(optionalcomponent)
Three-PhaseInput Power
Kinetix 6000 (230V)Leader IAM
AC LineFilter
Kinetix 6000 (230V)Follower IAM
5280 µF Additional Bus Capacitance
11810 µF Total Bus Capacitance
DC Common Bus
Publication 2094-IN002E-EN-P — September 2005
DC Common Bus Applications D-5
Set the Additional Bus Capacitance Parameter
In this procedure you will set the Add Bus Cap parameter using DriveExplorer software.
The following hardware and software tools are required to provide the necessary communication link between your PC and the Kinetix 6000 drive system running DriveExplorer.
1 Refer to DriveExplorer Getting Results Manual (publication 9306-GR001) for instructions.2 Refer to 1203-SSS (Series B) FRN 3.xxx User Manual (publication 20COMM-UM001) for instructions.3 Additional information regarding these communication and software tools is available at www.ab.com/
support/abdrives.
Remove SERCOS Communication
To remove (break) SERCOS communications:
1. Remove three-phase and control power from the Kinetix 6000 drive system.
2. Remove one of the SERCOS fiber-optic cables. Fiber-optic cable connections (Tx and Rx) are located on the top of each IAM/AM.
3. Re-apply three-phase and control power.
Description Catalog Numbers Version
DriveExplorer Software 1, 3 9306-4EXP02ENE 2.01 or above
Serial to SCANport Adapter 2, 3 1203-SSS (Series B) 3.004 or above
RSLogix 5000 Software 9324-RLD300NE 15.0 or above
ATTENTION To avoid personal injury or equipment damage, at least one end of a SERCOS fiber-optic cable must be disconnected from the drive. This ensures that motion will not occur while changes are made to the Add Bus Cap parameter.
Publication 2094-IN002E-EN-P — September 2005
D-6 DC Common Bus Applications
Set the Additional Bus Capacitance Parameter
To set the Additional Bus Capacitance parameter:
1. Start the DriveExplorer software.
2. Click on Explore\Connect\Local in the menu bar or enter Ctrl-L from the keyboard. DriveExplorer will read your system.
3. Observe the Linear List of parameters as grouped by Node, Port, and Axis hierarchy as shown below.
4. Click on Devices\Node\Product\ and navigate to the parameter x:x:x599 as shown below.
N: P. x xxx
Network Node Number
DPI Port Number
Parameter Number30 = Version Data
Linear List Legend
Axis Number0 = IAM (axis 1)1 = AM (axis 2)2 = AM (axis 3)3 = AM (axis 4)
Publication 2094-IN002E-EN-P — September 2005
DC Common Bus Applications D-7
5. Double-click on the x:x:x599 Add Bus Cap parameter. The command window for parameter x599 - Add Bus Cap opens.
6. Click on the Value Edit tab and enter the Add Bus Cap Value (µF).
7. Select OK. The Add Bus Cap parameter is changed, but not saved in non-volatile memory.
8. Go to Save the Add Bus Cap Parameter to Non-Volatile Memory.
Save the Add Bus Cap Parameter to Non-Volatile Memory
To save the Add Bus Cap parameter to non-volatile memory:
1. Click on Actions\Non-Volatile Memory in the menu bar. The following message window opens.
Publication 2094-IN002E-EN-P — September 2005
D-8 DC Common Bus Applications
2. Click on Save. The changes are saved to non-volatile memory and the following cautionary message window opens.
3. Click on Yes to complete saving changes to non-volatile memory. The following confirmation message window opens.
4. Click OK. Close DriveExplorer.
5. Go to Reconnect SERCOS Communication.
Reconnect SERCOS Communication
To reconnect SERCOS communication:
1. Remove three-phase and control power from the Kinetix 6000 drive system.
2. Replace the SERCOS fiber-optic cable(s) removed earlier. Fiber-optic cable connections (Tx and Rx) are located on the top of each IAM/AM.
3. Re-apply three-phase and control power.
Publication 2094-IN002E-EN-P — September 2005
Index
Numerics1203-SSS serial cable B-2, B-416 axis SERCOS interface PCI
card installation instructions P-3
1756 module properties 1-181756-MxxSE interface module
1-9, 1-161784-PM16SE PCI card 1-924V power LED 2-1226-pin I/O connector 2-20
Aacronyms P-4additional bus capacitance
calculating D-3example D-4
analog test pointsDAC0 2-20DAC1 2-20
applying power 1-26with LIM 1-26without LIM 1-30
atune fault 2-6aux fdbk noise fault 2-6aux feedback AQB 2-6aux feedback loss 2-6auxiliary encoder error,
see troubleshootingaxis module
connector designators 1-2connector locations 1-4
axis properties 1-24axis unstable 2-14
Bbackplane comm 2-7bandwidth 1-37base node address 1-10
example with two ControlLogix chassis 1-12, 1-13
example with two power rails 1-11
baud rate 1-14, 1-15block diagrams
converter A-27inverter A-26LIM A-29, A-30, A-31, A-32,
A-33RBM A-34, A-35safe-off feature A-28shunt module A-28
blown fuse 2-3brake A-24brake power LED 1-27, 2-12bus
overvoltage 2-4undervoltage 2-4
bus overcurrent 2-7bus regulator 1-22bus status LED 1-29, 1-32, 2-9,
2-11
Ccables
fiber optic cable length 1-9CAD files P-3can init 2-7CB1, CB2, CB3 1-26certifications
Rockwell Automation Product Certification P-3
changing parametersDriveExplorer 2-19HIM 2-20
circuit breakers 1-26comm status LED 1-29, 1-31, 2-8commissioning your Kinetix 6000
1-1common bus (see DC common
bus)Common Bus FLT 2-7component removal and
replacement 2-22configuring
AM 1-15base node address 1-10baud rate, AM 1-15baud rate, IAM 1-14feedback only axis 1-21IAM 1-10Kinetix 6000 1-9optical power level 1-14, 1-15SERCOS module 1-16
connector designatorsaxis module 1-2integrated axis module 1-2line interface module 1-6
1 Publication 2094-IN002E-EN-P — September 2005
I-2 Index
shunt module 1-5connector locations
axis module 1-4integrated axis module 1-3line interface module 1-6, 1-8shunt module 1-5
contents of manual P-2control reliability C-5controller properties 1-16controlling a brake A-24Controllogix Motion Module
Programming Manual P-3conventions used in this manual
P-4conversion tab 1-24converter A-27coordinated system time master
1-17CPLD FLT 2-7cycle time 1-19
DDAC0 2-20DAC1 2-20data rate 1-19data type 1-20date and time tab 1-17DC common bus
configuring 1-22interconnect diagram A-8, A-9,
A-10, A-12setting the add bus cap
parameter D-5digital I/O not working correctly
2-3dip switches 1-19disable drive 2-16documentation files P-3download program 1-25drive enable fault 2-5drive overcurrent 2-3drive overtemp 2-5, 2-7drive status LED 1-29, 1-31, 2-8drive tab 1-24drive undervoltage 2-5DriveExplorer 2-19, B-1, C-14,
D-5
Eencoder communication fault 2-5
erratic operation 2-15error codes 2-3establishing communications 2-8
Ffault action 2-16fault action, programmable 2-16fault actions tab 1-25feedback only axis 1-21feedback tab 1-24fiber optic cables
receive and transmit connectors 1-9
Fiber-Optic Cable Installation Instructions P-3
firmwareupgrade file B-6
flyback diodes A-25follow error 2-4
Gground fault 2-5
Hhardware overtravel 2-4HIM 2-19hookup fault 2-6hookup tab 1-34human interface module (HIM)
2-19hyperterminal B-4
II/O connector 2-20I/O power LED 1-27, 2-12Ifbk HW Fault 2-6illegal hall state 2-4integrated axis module
configuring 1-10connector designators 1-2connector locations 1-3interconnect diagram A-3, A-4,
A-6, A-7, A-8, A-9, A-10, A-12
interconnect diagrams2094 with H-Series motor A-212094 with MPG-A motor A-17,
A-18, A-19
Publication 2094-IN002E-EN-P — September 2005
Index I-3
2094 with MPG-B motor A-162094 with MPL-A motor A-17,
A-18, A-192094 with MPL-B motor A-162094 with N-Series motor A-222094 with Y-Series motor A-232094 with1326AB motor A-20controlling a brake example
A-25notes A-1, C-5power, DC common bus A-8,
A-9, A-10, A-12power, IAM with LIM A-3, A-4power, IAM without LIM A-6,
A-7RBM C-6shunt module A-13, A-14, A-15
introduction P-1inverter A-26IPM fault, see troubleshooting
KKinetix 6000
axis properties 1-24configuring 1-9Installation Manual P-3Line Interface Module
Installation Instructions P-3module properties 1-20troubleshooting 2-1user documentation and CAD
files CD P-3Kinetix Motion Control Selection
Guide P-3Kinetix Safe-Off Feature
Reference Manual P-3
LLED
24V power, LIM 2-12brake power, LIM 1-27, 2-12bus status 1-29, 1-32, 2-9, 2-11comm status 1-29, 1-31, 2-8drive status 1-29, 1-31, 2-8I/O power, LIM 1-27, 2-12logic power 1-28, 1-30, 2-2RBM 230V status 2-13RBM 24V status 2-12SERCOS 1756 module 1-32SERCOS interface module 1-29
seven segment 1-28shunt fault 2-11status 1-28, 1-31, 1-33, 2-2temperature fault 2-11
LIM 1-26line interface module
brake power LED 1-27connector designators 1-6connector locations 1-6, 1-8I/O power LED 1-27interconnect diagram A-3, A-4,
A-6, A-7removing 2-27replacing 2-28system block diagram A-29,
A-30, A-31, A-32, A-33Literature Library P-3logic power 1-30, 2-2logic power LED 1-28Logix5000 Controllers Motion
Instructions Reference Manual P-3
Logix5000 Motion Modules User Manual P-3, 1-16, 1-33
loop configuration 1-24
Mmaintenance 2-2memory init 2-6module mismatch 2-7module properties
1756 SERCOS interface 1-18IAM 1-20
Motion Analyzer CD P-3Motion Control Selection Guide
P-3motion group properties 1-23motor accel/decel problems 2-14motor and feedback tab 1-24motor encoder error 2-4motor feedback loss 2-4motor jumps when first enabled
2-3motor overheating 2-15motor overtemp 2-3motor velocity 2-14motors
interconnect diagram1326AB A-20H-Series A-21
Publication 2094-IN002E-EN-P — September 2005
I-4 Index
MPG-A A-17, A-18, A-19MPG-B A-16MPL-A A-17, A-18, A-19MPL-B A-16N-Series A-22Y-Series A-23
testing 1-33tuning 1-33
MOV A-25mtr fdbk noise fault 2-6
NNational Electrical Code P-3no communication 2-8no rotation 2-15node address 1-20noise
abnormal 2-15feedback 2-15
NV mem init 2-6
Oobjects init 2-6optical power level 1-14, 1-15,
1-19overspeed fault 2-4
Pparameters, changing 2-19power indicator not on 2-3power phase loss 2-5power rail
removing 2-25removing modules 2-23replacing 2-26
power up 1-26precautions
general startup 1-1precharge fault 2-5purpose of this manual P-1
Rrelated documentation P-3relay output A-24removing
components 2-22LIM 2-27modules 2-23
replacingcomponents 2-22LIM 2-28power rail modules 2-24
resistive brake moduleinterconnect diagrams C-6setting the RBM delay time
C-14system block diagram A-34,
A-35Resistive Brake Module
Installation Instructions P-3risk assessment C-4Rockwell Automation Product
Certification P-3RSLogix 5000 software 1-16, 2-19,
C-14, D-5
Ssafe-off
block diagram A-28safe-off HW fault 2-6safety
control reliability C-5risk assessment C-4standards C-2stop categories C-3
safety reference manual P-3SCANport comm 2-6SCANport/DPI adapter C-14, D-5self sense fault 2-5SERCOS init 2-7SERCOS interface module
installation instructions P-3SERCOS ring fault 2-5SERCOS same addr 2-6setting the add bus cap parameter
D-5seven segment status LED 1-28,
1-30shunt fault LED 2-11shunt module A-28
connector designators 1-5connector locations 1-5interconnect diagram A-13,
A-14, A-15shunt module troubleshooting
2-10shunt time fault 2-7shunt time out 2-7
Publication 2094-IN002E-EN-P — September 2005
Index I-5
shutdown 2-16SoftLogix Motion Card Setup and
Configuration Manual P-3, 1-16, 1-33
softwareRSLogix 5000 1-16, 2-19
software overtravel 2-4start-up procedure 1-1status LEDs 1-28, 1-31, 1-33, 2-2status only 2-16stop categories C-3stop motion 2-16storage P-2supplemental troubleshooting
information 2-19surge suppression A-25switches
base node address 1-10baud rate 1-14, 1-15optical power level 1-14, 1-15
system block diagramsconverter A-27inverter A-26LIM A-29, A-30, A-31, A-32,
A-33RBM A-34, A-35safe-off feature A-28shunt module A-28
System Design for Control of Electrical Noise P-3
Ttask init 2-6temperature fault LED 2-11testing axes
hookup tab 1-34total bus capacitance
calculating D-2example D-4
troubleshooting 2-224V power LED 2-12brake power LED 2-12bus status LED 2-9, 2-11comm status 2-8disable drive 2-16drive status LED 2-8error codes 2-3fault action 2-16general
atune fault 2-6
aux fdbk noise fault 2-6aux feedback AQB 2-6aux feedback loss 2-6auxiliary encoder error 2-4backplane comm 2-7blown fuse 2-3bus overcurrent 2-7bus undervoltage 2-4can init 2-7Common Bus FLT 2-7CPLD FLT 2-7digital I/O not working correctly 2-3drive enable fault 2-5drive overcurrent 2-3drive overtemp 2-5, 2-7drive undervoltage 2-5encoder communication fault 2-5follow error 2-4ground fault 2-5hardware overtravel 2-4hookup fault 2-6Ifbk HW Fault 2-6illegal hall state 2-4IPM fault 2-3memory init 2-6module mismatch 2-7motor encoder error 2-4motor feedback loss 2-4motor jumps when first enabled 2-3motor overtemp 2-3mtr fdbk noise fault 2-6NV mem init 2-6objects init 2-6overspeed fault 2-4power indicator not on 2-3power phase loss 2-5precharge fault 2-5safe-off HW fault 2-6SCANport comm 2-6self sense fault 2-5SERCOS init 2-7SERCOS ring fault 2-5SERCOS same addr 2-6shunt module fault 2-7shunt time out 2-7software overtravel 2-4
Publication 2094-IN002E-EN-P — September 2005
I-6 Index
task init 2-6unknown axis 2-6
general system problems 2-14abnormal noise 2-15axis unstable 2-14erratic operation 2-15feedback noise 2-15motor accel/decel problems 2-14motor overheating 2-15motor velocity 2-14no rotation 2-15
I/O power LED 2-12Logix/drive fault behavior 2-16programmable fault action
2-16RBM 230V status LED 2-13RBM 24V status LED 2-12shunt fault LED 2-11shunt module 2-10shutdown 2-16status only 2-16stop motion 2-16supplemental troubleshooting
information 2-19changing parameters 2-19using analog test points 2-20
temperature fault LED 2-11troubleshooting your Kinetix
6000 2-1tuning axes
bandwidth 1-37tune tab 1-36
Uunits tab 1-24unknown axis 2-6user manuals P-3
Wwho should use this manual P-1
XXmodem B-7
Publication 2094-IN002E-EN-P — September 2005
Publication 2094-IN002E-EN-P — September 2005 Supersedes Publication 2094-IN002D-EN-P — July 2005 Copyright © 2005 Rockwell Automation. All rights reserved. Printed in USA.
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