Allen-Bradley 6000G Installation Manual

Allen-Bradley 6000G Installation Manual

Medium voltage variable frequency drive

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Installation Instructions
PowerFlex 6000 Medium Voltage Variable Frequency Drive
Installation Manual
Catalog Number 6000G

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Summary of Contents for Allen-Bradley 6000G

  • Page 1 Installation Instructions PowerFlex 6000 Medium Voltage Variable Frequency Drive Installation Manual Catalog Number 6000G...
  • Page 2 Important User Information Read this document and the documents listed in the additional resources section about installation, configuration, and operation of this equipment before you install, configure, operate, or maintain this product. Users are required to familiarize themselves with installation and wiring instructions in addition to requirements of all applicable codes, laws, and standards.
  • Page 3 Table of Contents Important User Information ........2 Preface Introduction.
  • Page 4: Table Of Contents

    Table of Contents Connect Incoming Line and Outgoing Motor Power Cables ..46 Connect Cables for A-Frame Drives......46 Connect Cables for H-Frame and B-Frame Drives.
  • Page 5 Table of Contents Appendix E Line and Load Cable Sizes ..............79 Index .
  • Page 6 Table of Contents Notes: Rockwell Automation Publication 6000-IN006G-EN-P - September 2019...
  • Page 7 Preface Introduction This document provides procedural information for physically unloading, moving, and installing PowerFlex® 6000 medium voltage drives. Who Should Use This Manual This manual is intended for use by professional riggers, general contractors, electrical contractors, or plant operations personnel familiar with moving and siting heavy equipment.
  • Page 8 Component damage may result if ESD control procedures are not followed. If you are not familiar with static control procedures, reference Allen-Bradley publication 8000-4.5.2, “Guarding Against Electrostatic Damage” or any other applicable ESD protection handbook.
  • Page 9 You can view or download publications at https:/www.rockwellautomation.com/literature/. To order paper copies of technical documentation, contact your local Allen-Bradley distributor or Rockwell Automation sales representative. Contractor Scope of Work Typical scope of work by the freight company, third-party contractor and/or customer (based on ex-works INCO terms) •...
  • Page 10 Preface • Connect incoming line and outgoing motor power cables • Connect control power wiring • Connect all external customer required control signal wiring • Connect electrical safety interlock control signal wiring circuit to input circuit breaker • Connecting the power cables and control wiring between cabinets that are shipped separately •...
  • Page 11 Chapter Drive Mechanical Installation Introduction The installation process is divided into three principal activities. The mechanical installation process described in this chapter, the electrical installation process described in Drive Electrical Installation on page 39, and the electrical interconnection process described in Drive Electrical Interconnection on page Mechanical Installation...
  • Page 12 Chapter 1 Drive Mechanical Installation 1. Align the cabinet side sheets together at the holes f r the hardware. Figure 1 - Align the Cabinets, A-Frame Isolation Transformer Cabinet DV/DT Filter Cabinet Front Front Side View 2. Secure the cabinets together using two L-shaped brackets and four M12 hexagon socket bolts, D12 washers, and D12 lock washers at the front and rear side.
  • Page 13 Drive Mechanical Installation Chapter 1 Figure 2 - Secure the Cabinets, A-Frame LV cover M16x16 countersunk head screw (x4) Grounding cover M16x16 countersunk head screw (x2) M12 hexagon socket screw (x4) D12 lock washers (x4) D12 washers (x4) L-shaped bracket (x2) Connect Cabinets for H-Frame and B-Frame Drives The H-Frame and B-Frame for PowerFlex 6000 drives are shipped in two sections, the Isolation Transformer Cabinet and Power Module/LV Control...
  • Page 14 Chapter 1 Drive Mechanical Installation 1. Arrange the sections as directed in the Dimensional Drawings and move the sections together. 2. Align the cabinet side sheets together at the holes for the hardware (see Figure 3 Figure Figure 3 - Align the Cabinets, H-Frame (6/6.6 kV shown) Optional Cabinets 1.
  • Page 15 Drive Mechanical Installation Chapter 1 Figure 4 - Align the Cabinets, B-Frame (6 kV shown) Power Module/LV Control Cabinet Isolation Transformer Cabinet Table 2 - Sidesheet Openings ❶ Front Wireway ❶ U Phase Motor Cable ❷ ❷ V Phase Motor Cable ❸...
  • Page 16 Chapter 1 Drive Mechanical Installation 3. Secure the cabinets together using M6 or M8 hardware. See Torque Requirements on page 69 for proper torque requirements. Open the doors to access front edge joining holes (four or five places). Figure 5 - Secure the Cabinets, H-Frame Secure with M8 (or M10) hardware (10 places) Cabinet sidesheets...
  • Page 17 Drive Mechanical Installation Chapter 1 4. Remove all back plates to access rear edge joining holes (five places). Each back plate will have two keyhole screw holes on either side. Remove all other screws first. Loosen the two screws in the keyhole screw holes last and lift the back plate to remove.
  • Page 18 Chapter 1 Drive Mechanical Installation Figure 8 - Typical Floor Drawing, B-Frame Power Module/LV Control Cabinet Isolation Transformer Cabinet Input cable Control signal Output cable Bottom View Secure the cabinet to the channel steel base using M12 bolt (recommended), lock washer, two flat washers, and a nut.
  • Page 19 Drive Mechanical Installation Chapter 1 Optional: The cabinet can also be welded to the steel base once it is securely bolted, if desired. Each weld location should be 100 mm (3.9 in.) for every 1000 mm (39.4 in.). See Mounting Requirements in the PowerFlex 6000 Medium Voltage Variable Frequency Drive Shipping and Handling Manual, publication 6000-IN008) for further information on the steel base and desired trench and mounting customer- specifications.
  • Page 20 Chapter 1 Drive Mechanical Installation Figure 12 - Typical Floor Drawing, A-Frame Non-seismic Seismic Secure the cabinet to the channel steel base using M12 bolt (recommended), lock washer, two flat washers, and a nut. Rockwell Automation Publication 6000-IN006G-EN-P - September 2019...
  • Page 21 Drive Mechanical Installation Chapter 1 Install Seismic Rated This section describes how to install the drive for seismic conditions. Enclosures Figure 13 - Guidance for Seismic Installation 1/2” Anchor bolt 1/2” Anchor bolt Effective embedded depth 5” Condition 1 Condition 2 Anchors braced at front Anchors braced at front and wall-mounted angle...
  • Page 22 Chapter 1 Drive Mechanical Installation 4. Remove the HECS insulation bracket. 5. Remove the grounding terminal of the right side plate at the back side. 6. Remove the right side plate, put the secondary cables close to Tx winding, and disassemble three horizontal baffles. Step 4 Step 5 Step 6...
  • Page 23 Drive Mechanical Installation Chapter 1 10. Install all the parts in reverse order of removal. Step 10 For condition 1, 140 A seismic installation, follow these instructions: 1. Open MV front door and back door. 2. Remove the JC front barrier. 3.
  • Page 24 Chapter 1 Drive Mechanical Installation 6. Install all the removed parts in reverse order of removal. Step 6 For condition 1, 215 A seismic installation, follow these instructions: 1. Open MV front door and back door. 2. Remove the JC front barrier. 3.
  • Page 25 Drive Mechanical Installation Chapter 1 6. Install all the removed parts in reverse order of removal. Step 6 For condition 2 seismic installation, if there is no rear access available, the top of the drive can be mounted to the wall rather than mounted to the floor at the back of the cabinet.
  • Page 26 Chapter 1 Drive Mechanical Installation Install B-Frame Drives For condition 1, installation of power cell cabinets, follow these instructions: 1. Disassemble the grounding busbar at the front of the cabinet. 2. Disassemble the anchor cover at the front of the cabinet. 3.
  • Page 27 Drive Mechanical Installation Chapter 1 3. Drill an anchor hole. Barrier bracket Grounding busbar Anchor cover Wire duct Left cabinet Step 1 Step 2 Step 3 Barrier bracket Grounding busbar Anchor cover Wire duct Right cabinet Step 1 Step 2 Step 3 For condition 1, installation of standard cabinets and filter cabinets, follow these instructions:...
  • Page 28 Chapter 1 Drive Mechanical Installation For condition 2 seismic installation, if there is no rear access available, the top of the drive can be mounted to the wall rather than mounted to the floor at the back of the cabinet. Wall bracket B Wall bracket A M12xL35...
  • Page 29 Drive Mechanical Installation Chapter 1 Install Main Cooling Fans Main cooling fans are shipped in separate crates. The fans are shipped assembled in the fan housing, but must be installed after siting the drive. See Mounting Clearance Distance in the PowerFlex 6000 Medium Voltage IMPORTANT Variable Frequency Drive Shipping and Handling Manual, publication 6000-...
  • Page 30 Chapter 1 Drive Mechanical Installation Figure 16 - Main Cooling Fan Housing, B-Frame Main Cooling Fan housing Socket Aviation plug Rear View Install the Cooling Fan and Noise Reduction Barrier for A-Frame Drives To install the cooling fan for A-Frame drives, follow these instructions. 1.
  • Page 31 Drive Mechanical Installation Chapter 1 If your application uses noise reduction barriers for the fans, follow these instructions. 1. Remove the four M6 screws on the left and right sides of the front fan housing. 2. Place the noise reduction barrier in front of the fan housing. 3.
  • Page 32 Chapter 1 Drive Mechanical Installation Figure 19 - Install a Mixing Hood with Redundant Fan M16x16 hexagon combination screw (16) Eyebolt (4) M16x16 hexagon combination screw (12) Install Power Modules (if Power Modules are available in a wide variety of amperage ratings relating to the required motor current.
  • Page 33 Drive Mechanical Installation Chapter 1 Figure 20 - Lift Cart Procedure 1. Check the lift tray before use to ensure the tray can be raised and lowered smoothly. 2. Rotate the Pressure Release Knob counterclockwise to ensure that the tray is in Hand Crank the lowest position.
  • Page 34 Chapter 1 Drive Mechanical Installation Install Power Modules The Power Module should be handled carefully. After removing the packaging, IMPORTANT inspect the Power Module to confirm there is no damage and moisture. 1. You can use the lift cart to move and position the Power Module to the appropriate location in the cabinet.
  • Page 35 Drive Mechanical Installation Chapter 1 a. For 140/215 A rating – use the mounting brackets and M6x16 large flat pad galvanized nickel screws to secure the two bottom corners. Power Module Guide rail Mounting brackets b. For 70 A rating – use M16x16 large flat pad galvanized nickel screws to secure two bottom corners directly.
  • Page 36 Chapter 1 Drive Mechanical Installation External Ducting The PowerFlex 6000 design can accommodate ducting exhaust air outside of the control room. ATTENTION: The Isolation Transformer Cabinet and the Power Module/LV Control Cabinet must be ducted separately. The following requirements are mandatory design requirements for systems that will externally duct the exhaust air and draw cleansed outside air: •...
  • Page 37 Drive Mechanical Installation Chapter 1 Figure 21 - Cabinet Airflow, A-Frame Figure 22 - Cabinet Airflow, H-Frame (1) Top ducting shown by contractor. Rockwell Automation Publication 6000-IN006G-EN-P - September 2019...
  • Page 38 Chapter 1 Drive Mechanical Installation Figure 23 - Cabinet Airflow, B-Frame Air Conditioning Sizing If the drive is located in an enclosed space, install air conditioners for each drive. A general formula to calculate air conditioner power required: × DriveRating kW 1 DriveEfficiency –...
  • Page 39 Chapter Drive Electrical Installation Introduction The installation of all external power cables and control signal wiring is covered in this chapter. General electrical safety and installation guideline topics are also included. The basic activities include connecting the system ground cable, line and motor cables, control power, and all control signal wiring from the sources to the drive.
  • Page 40 Chapter 2 Drive Electrical Installation Electrical Drawings Before connecting any power cables or control signal wiring, review and understand the information that is contained in the project-specific Electrical Drawings. They contain critical information such as: • Minimum power cable insulation ratings and sizes •...
  • Page 41 Drive Electrical Installation Chapter 2 Attach an external ground cable to the main ground bus, in compliance with applicable national and local electrical codes. The primary grounding cable must have a diameter of at least 50 mm IMPORTANT meet all applicable national and local electrical codes. Run the system ground cable separately from power and signal wiring so that faults: •...
  • Page 42 Chapter 2 Drive Electrical Installation Power Cable Design Use fire retardant cables for the drive input/output connections. Considerations Shielded or unshielded cable can be used based on the criteria that are considered by the distribution system designer and national and local electrical codes. If shielded power cables are used, connect the shield of the main input/output power cables with the general grounding point of the drive.
  • Page 43 Drive Electrical Installation Chapter 2 Control Signal Wiring Design Use shielded cables for all analog and digital control cables. Considerations Steel conduit or a cable tray can be used for all PowerFlex 6000 drive power or control wiring; however, use only steel conduit for all signal wiring. ATTENTION: Steel conduit is required for all control and signal circuits when the drive is installed in European Union countries.
  • Page 44 Chapter 2 Drive Electrical Installation Grounding provisions for control signal wiring is shown in Figure Figure 24 - Vertical Ground Bus in LV Cabinet A-Frame Ground Bus Provisions for Grounding Control Signal Wiring Shields, and so on. H-Frame B-Frame Vertical Ground Bus Provisions for Grounding Control Signal Wiring Shields, and so on.
  • Page 45 Drive Electrical Installation Chapter 2 Connect the System Ground The drive ground bus runs along the bottom of the drive at the front. The ground bus is accessible at the bottom of the front of each drive cabinet when the cabinet Cable door is opened.
  • Page 46 Chapter 2 Drive Electrical Installation If an optional cabinet is supplied, the system ground cable connection is in the IMPORTANT optional cabinet. See the PowerFlex 6000 Medium Voltage Variable Frequency Drive User Manual, publication 6000-UM002. Before connecting the incoming line and outgoing motor power cables, follow Insulation Resistance (IR) standard industry practice to verify the integrity of the power cable insulation Test of Power Cables...
  • Page 47 Drive Electrical Installation Chapter 2 Remove Barrier for Bottom Entry Connections If you choose to connect the cables through the bottom entry of the A-Frame drive, you have to remove the insulation barrier before you proceed. 1. Remove the three plastic M6x25 bolts that secure the removable insulation barrier.
  • Page 48 Chapter 2 Drive Electrical Installation Figure 28 - Isolation Transformer Cabinet, A-Frame (DV/DT cabinet not applied) Top entry Top entry Incoming line power cable connections Outgoing motor power cable connections Bottom entry Incoming line power cable connections Outgoing motor power cable connections Cable clamp Bottom entry...
  • Page 49 Drive Electrical Installation Chapter 2 Connect Cables for H-Frame and B-Frame Drives B-Frame drives, Figure Figure 31, and Figure 32 show typical H-Frame and connection points for the primary entrance/exit cable. If an optional cabinet is supplied, the incoming line and outgoing motor cable IMPORTANT connections are in the Bypass cabinet.
  • Page 50 Chapter 2 Drive Electrical Installation Figure 31 - Isolation Transformer Cabinet, B-Frame (Junction cabinet not applied) Door position limit switches Voltage Sensing Board Incoming line power cable connections Outgoing motor power cable connections Power cable connections to Power Modules Isolation Transformer Cable clamp Figure 32 - Isolation Transformer Cabinet, B-Frame (Junction cabinet applied for cable connection)
  • Page 51: Wiring Routing And Connection

    Drive Electrical Installation Chapter 2 Connect Control Power Introduction Wiring Externally supplied control power is required to operate the drive. The standard voltage that is supported is 220V AC/50 Hz. The other typical phase voltages of 230V AC, 110V AC, and 120V AC are also supported (50/60 Hz), but need to be specified at the time of order.
  • Page 52 Chapter 2 Drive Electrical Installation Figure 35 - Control Power Wiring Opening, B-Frame Cable entrance in top or bottom front of LV Control Cabinet The control power wiring terminates to the DTB1 terminal block strip on the left side of the LV Control cabinet (Figure 36).
  • Page 53: Analog And Digital I/O Overview

    Drive Electrical Installation Chapter 2 Connect External Control Introduction Signal Wiring This section summarizes the control signal wiring from the remote DCS/PLC or discrete control to the drive. General connections are detailed in Power Cabling and Control Signal Wiring Details on page 73.
  • Page 54: Connect Electrical Safety Interlock Circuit To Input Circuit Breaker

    • indicate to the drive when the input circuit breaker is closed. MV Door Safety Interlock If the MV cabinet door is opened, the Allen-Bradley Guardmaster Limit Switch (440P-CRPS11D4B) on the cabinet door will actuate. The drive will send a trip signal to the input circuit breaker to disconnect the medium voltage power supply to the drive.
  • Page 55 Drive Electrical Installation Chapter 2 When the doors of the Power Module/LV Control Cabinet or Isolation Transformer Cabinet are not closed, when the drive is being maintained or when the control power switch is not closed, the drive will not send a signal allowing the input circuit breaker to close;...
  • Page 56 Chapter 2 Drive Electrical Installation Notes: Rockwell Automation Publication 6000-IN006G-EN-P - September 2019...
  • Page 57: Introduction

    Chapter Drive Electrical Interconnection Introduction The drive is shipped in two sections, the Isolation Transformer cabinet and the Power Module/LV Control cabinet. An optional cabinet may also be supplied. Drive Mechanical Installation on page 11 describes mechanically joining these cabinets together. This chapter describes the activities that are required to electrically connect these drive cabinets’...
  • Page 58: Connect Isolation Transformer Secondary Power Cables

    Chapter 3 Drive Electrical Interconnection See the Electrical Drawing for actual wire number designations. Figure 38 - Power Cabling Overview (3.3 kV shown) Motor Isolation Transformer Voltage Sensing Board PC A1 PC A2 PC A3 PC B1 Input power 3-phase AC PC B2 any voltage PC B3...
  • Page 59 Drive Electrical Interconnection Chapter 3 Figure 39 - Isolation Transformer Primary and Secondary Winding Orientation PRIMARY WINDING INPUT A (L1) B (L2) C (L3) The secondary windings are brought out to corresponding vertical isolated stand- offs on the body of the transformer (orientated U, V, and W from left to right as viewed from the front).
  • Page 60: Cable Routing And Connection

    Chapter 3 Drive Electrical Interconnection Each three-phase secondary winding set of the isolation transformer has three individual single-phase power cables connecting its output to the three-phase power input of its corresponding power module. Drives are shipped split with an Isolation Transformer cabinet and a Power Module cabinet, and connection at the site is needed.
  • Page 61: Connect Motor And Voltage Sensing Board Cables

    Drive Electrical Interconnection Chapter 3 Connect Motor and Voltage Introduction Sensing Board Cables The Voltage Sensing Board cables and the motor cables both connect to the same output point of each motor phase array (Figure 38). The voltage sensing cables need to be connected on site.
  • Page 62: Connect Lv Control And Fan Wiring Bundles

    Chapter 3 Drive Electrical Interconnection Figure 42 - 6.6/6.9 kV Power Module Configuration – H-Frame and B-Frame Hex bolt VSB cable Motor cable Hex nut Lock washer U Phase Flat washer V Phase W Phase Front View Connect LV Control and Fan Introduction Wiring Bundles There are control wiring bundles that must be reconnected after the drive...
  • Page 63: Complete The Installation

    Drive Electrical Interconnection Chapter 3 Figure 43 - Interconnection Ground M8 Hex Nut Lock Washer Grounding Bus Connector Flat Washer Grounding M8x30 Hex Bolt 1. Inspect the interior of all cabinets carefully for hardware or tools that may Complete the Installation have been misplaced.
  • Page 64 Chapter 3 Drive Electrical Interconnection Notes: Rockwell Automation Publication 6000-IN006G-EN-P - September 2019...
  • Page 65: Pre-Commissioning Responsibilities

    Appendix Pre-Commissioning Pre-Commissioning Rockwell Automation manages the startup service for each installed drive at the customer’s site, but there are a number of tasks the customer or its representatives Responsibilities must complete before scheduling Rockwell Automation personnel for drive commissioning. Review this information before commissioning the drive as a reference for drive line-up commissioning.
  • Page 66: Pre-Commissioning Checklist

    Appendix A Pre-Commissioning Pre-Commissioning Checklist Once all points of the checklist are complete, initial each checkbox and provide the date. Photocopy the checklist and fax the copy to the Rockwell Automation Start-up Manager, along with the planned startup date. Upon receiving this checklist, the Project Manager will contact the site to finalize arrangements for a startup engineer to travel to the site at your convenience.
  • Page 67 Pre-Commissioning Appendix A Table 10 - Control Wiring: Initials Date Check All low voltage wiring entering the drive is labeled, appropriate wiring diagrams are available, and all customer interconnections are complete. All AC and DC circuits are run in separate conduits. All wire sizes that are used are selected by observing all applicable safety and national and local electrical codes.
  • Page 68 Appendix A Pre-Commissioning Table 13 - Drive Line-up Status Initials Date Check The medium voltage and low voltage power is available for startup activities. The motor is uncoupled from the driven load. The load is available for full load testing. Rockwell Automation Publication 6000-IN006G-EN-P - September 2019...
  • Page 69: Torque Requirements

    Appendix Torque Requirements Torque Requirements Proper tightening torque must be used for installation and wiring. Table 14 - Torque Requirements Torque Thread Size Class 8.8 N•m lb•ft 10.5 26.0 19.2 51.0 37.6 89.0 65.7 141.0 104.1 215.0 158.7 420.0 310.0 Rockwell Automation Publication 6000-IN006G-EN-P - September 2019...
  • Page 70 Appendix B Torque Requirements Notes: Rockwell Automation Publication 6000-IN006G-EN-P - September 2019...
  • Page 71: General Wire Categories

    Appendix General Wire Categories General Wire Categories Conductors Conductors Machine With Signal Examples Recommended Conductors Power Control To PLC Category Group Cable Group Supplies mm (in.) mm (in.) Power Supplies AC power supply 220V, 1Ø Per IEC / NEC, Tray All signal wiring must be run 228.6 (9.00) 152.4 (6.00)
  • Page 72 Appendix C General Wire Categories Notes: Rockwell Automation Publication 6000-IN006G-EN-P - September 2019...
  • Page 73: Schematic Diagrams

    Appendix Power Cabling and Control Signal Wiring Details Schematic Diagrams Figure 44 - Schematic Diagram of the Drive System without a Bypass Cabinet, A-Frame (1) Wiring locations are for design reference only; actual wiring must comply with the drawings that are provided with the drive. Rockwell Automation Publication 6000-IN006G-EN-P - September 2019...
  • Page 74 Appendix D Power Cabling and Control Signal Wiring Details Figure 45 - Schematic Diagram of the Drive System without a Bypass Cabinet, H-Frame (1) Wiring locations are for design reference only; actual wiring must comply with the drawings that are provided with the drive. Rockwell Automation Publication 6000-IN006G-EN-P - September 2019...
  • Page 75 Power Cabling and Control Signal Wiring Details Appendix D Figure 46 - Terminal Strip Wiring Diagram for Drive System without a Bypass Cabinet Rockwell Automation Publication 6000-IN006G-EN-P - September 2019...
  • Page 76: Standard Input/Output Connection Points

    Appendix D Power Cabling and Control Signal Wiring Details Standard Input/Output Connection Points Table 15 - Standard I/O Connections Points Serial Number Name of I/O Connection Note Input circuit breaker closing node is allowed Serially connected into the input circuit breaker's closing circuit (917, 918) (the VFD provides passive normally open points, valid when closed) Input circuit breaker closing node is allowed...
  • Page 77 Power Cabling and Control Signal Wiring Details Appendix D Table 16 - I/O Connections related to Remote Distributed Control System (Continued) Serial Number Name of I/O Connection Note Alternate reset command (412, 401) User-provided normally open passive dry contact Emergency stop button command User-provided normally closed passive dry contact (1101, 1102) (voltage class higher than 220V AC, 5 A, switch quantity)
  • Page 78 Appendix D Power Cabling and Control Signal Wiring Details Notes: Rockwell Automation Publication 6000-IN006G-EN-P - September 2019...
  • Page 79 Appendix Line and Load Cable Sizes The data in the following tables are informative only; do not base final design criteria solely on this data. Follow national and local installation codes, industry best practices, and cable manufacturer recommendations. As cabling methods can vary widely, maximum cables sizes do not account for the size of the conduit hub.
  • Page 80 Appendix E Line and Load Cable Sizes Table 18 - Line and Load Cable Sizes for A-Frame Drives (UL) Description Drive Enclosure Max. Size and No. Incoming (1) (2) (3) (Motor V/Freq.) Cables: IEC Entry Opening mm (in.) Maximum Line 2300/2400V, 60 Hz 435 x 300 (17.1 x 11.8) 203 mm²...
  • Page 81 Line and Load Cable Sizes Appendix E (2) Minimum cable bend radius recommendations vary by national codes, cable type, and cable size. Consult local codes for guidelines and requirements. General relationship of cable diameter to bend radius is typically between 7x...12x (for example, if the cable diameter is 1 in.
  • Page 82 Appendix E Line and Load Cable Sizes Table 21 - Line and Load Cable Sizes for B-Frame Drives (IEC and UL) Description Drive Enclosure Max. Size and No. Incoming (1) (2) (3) (Motor V/Freq.) Opening mm (in.) Cables Maximum Line 2400V, 50/60 Hz 138 x 138 (5.4 x 5.4) 608 mm²...
  • Page 83 Index Cooling Fans Dimensions 29 Additional Resources 9 Hardware 29 Air Conditioning Installation 29 Calculation 38 Model 29 Sizing 38 Orientation 29 Anchor bolts 17 Weight 29 Wiring Bundles 62 ASHRAE Standard 52.2 MERV 11 36 Aviation Plug 29 Design Considerations 43 Documentation box Back Plates Electrical Drawings 40...
  • Page 84 Index Electrial Safety Interlock 54 Junction Cabinet Electrical Drawings 40 Location 50 Contents 40 Electrical Safety Interlock Location 54 Wire Routing 55 Lift Cart 32 EU EN779 Class F6 36 Lifting capacity 32 External Control Signal Wiring 53 Operation 32 Lifting Angles Analog I/O 53 Digital I/O 53...
  • Page 85 Index Power Module/LV Control Cabinet Shielded Cables 42 Control Power Wiring Location 51 Shipping and Handling Electrical Safety Interlock Wire Entry 55 Checklist 66 Ground Bus 62 Shipping Splits 11 Motor cables 61 Align the Cabinets 15 Power Module Installation 32 Aligning Cabinets 14 Power Module Interconnections 60 Connection 11...
  • Page 86 Index Notes: Rockwell Automation Publication 6000-IN006G-EN-P - September 2019...
  • Page 88 Medium Voltage Products, 135 Dundas Street, Cambridge, ON, N1R 5X1 Canada, Tel: (1) 519.740.4100, Fax: (1) 519.623.8930 Online: www.ab.com/mvb Allen-Bradley, PowerFlex, Rockwell Automation, Rockwell Software, and TechConnect are trademarks of Rockwell Automation, Inc. EtherNet/IP is a trademark of ODVA, Inc.

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