PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13)

PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) 1 Quick Start PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) Introduction This document is designed to guide you through the basic steps needed to install, start-up, and program PowerFlex 700S AC drives with Phase II Control and frame sizes 9-13. The information provided does not replace the user manual and is intended for qualified personnel only. For detailed PowerFlex 700S information refer to the appropriate publications: Title Publication Available User Manual - PowerFlex 700S Drive with Phase II Control 20D-UM006 Installation Instructions - PowerFlex 700S and PFLEX-IN006 700H High Power Drives Reference Manual - PowerFlex 700S Drive PFLEX-RM003 www.rockwellautomation.com/literature with Phase II Control Wiring and Grounding Guidelines for Pulse DRIVES-IN001 Width Modulated Drives

2 PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13)

PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) 3 Table of Contents Step 1: Read General Information.................................... 5 Class 1 LED Product................................................... 5 General Precautions.................................................... 5 CE Conformity........................................................ 6 Essential Requirements for CE Compliance.................................. 6 Step 2: Identifying the Frame Size of the Drive......................... 7 Step 3: Lifting the Drive............................................ 8 Frame 9 Size Drives.................................................... 8 Frame 10-13 Size Drives................................................ 9 Step 4: Mounting the Drive......................................... 13 Operating Temperatures................................................ 13 Minimum Mounting Clearances and Dimensions............................. 14 Floor and Wall Mounting for Frame 10-13 Size Drives......................... 23 Step 5: Removing Protective Covers................................. 24 Removing the Covers from Frame 9 Size Drives............................. 24 Removing the Covers from Frame 10-13 Size Drives......................... 25 Step 6: Configuring Drive for Ground System......................... 27 Frame 9 Size Drives................................................... 27 Frame 10-13 Size Drives............................................... 28 Step 7: Power Wiring.............................................. 34 Wire Recommendations................................................ 34 General Grounding Requirements........................................ 36 DC Input Precharge Wiring.............................................. 37 Power Wiring Instructions............................................... 39 Step 8: Control Wiring............................................. 50 Wiring Recommendations.............................................. 50 DIP Switch Settings................................................... 51 Auxiliary Power Supply................................................. 52 I/O Terminal Blocks.................................................... 52 I/O Wiring Examples................................................... 55 Step 9: Verifying the Start-up Check List............................. 59 Before Applying Power to the Drive....................................... 59 Applying Power to the Drive............................................. 60 Step 10: Performing Assisted Start.................................. 63 Step 11: Running Drive from HIM (Optional).......................... 64 Additional Information............................................ 65 Parameter Files & Groups.............................................. 65 Frequently Used Parameters............................................ 65 Fault & Alarm Clearing................................................. 69 HIM Indication........................................................ 69 Manually Clearing Faults............................................... 69 ATEX Approved PowerFlex 700S Phase II Drives in Group II Category (2) Applications with ATEX Approved Motors............................................. 70 Technical Support..................................................... 73 Drive Options........................................................ 74

4 PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13)

PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) 5 Step 1: Read General Information Class 1 LED Product! ATTENTION: Hazard of permanent eye damage exists when using optical transmission equipment. This product emits intense light and invisible radiation. Do not look into module ports or fiber optic cable connectors. General Precautions!!!!!!!! ATTENTION: This drive contains ESD (Electrostatic Discharge) sensitive parts and assemblies. Static control precautions are required when installing, testing, servicing or repairing this assembly. 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. ATTENTION: An incorrectly applied or installed drive can result in component damage or a reduction in product life. Wiring or application errors such as under sizing the motor, incorrect or inadequate AC supply, or excessive surrounding air temperatures may result in malfunction of the system. ATTENTION: Only qualified personnel familiar with the PowerFlex 700S Drive and associated machinery should plan or implement the installation, start-up and subsequent maintenance of the system. Failure to comply may result in personal injury and/or equipment damage. ATTENTION: To avoid an electric shock hazard, verify that the voltage on the bus capacitors has discharged completely before servicing. Check the DC bus voltage at the Power Terminal Block by measuring between the +DC and -DC terminals, between the +DC terminal and the chassis, and between the -DC terminal and the chassis. The voltage must be zero for all three measurements. ATTENTION: Risk of injury or equipment damage exists. DPI or SCANport host products must not be directly connected together via 1202 cables. Unpredictable behavior can result if two or more devices are connected in this manner. ATTENTION: Risk of injury or equipment damage exists. Parameters 365 [Encdr0 Loss Cnfg] - 394 [VoltFdbkLossCnfg] let you determine the action of the drive in response to operating anomalies. Precautions should be taken to ensure that the settings of these parameters do not create hazards of injury or equipment damage ATTENTION: Risk of injury or equipment damage exists. Parameters 383 [SL CommLoss Data] - 392 [NetLoss DPI Cnfg] let you determine the action of the drive if communications are disrupted. You can set these parameters so the drive continues to run. Precautions should be taken to ensure the settings of these parameters do not create hazards of injury or equipment damage. ATTENTION: The sheet metal cover and mounting screws on the ASIC Board located on the power structure are energized at (-) DC bus potential high voltage. Risk of electrical shock, injury, or death exists if someone comes in contact with the assembly.

6 PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) CE Conformity Conformity with the Low Voltage (LV) Directive and Electromagnetic Compatibility (EMC) Directive has been demonstrated using harmonized European Norm (EN) standards published in the Official Journal of the European Communities. PowerFlex Drives comply with the EN standards listed below when installed according to the PowerFlex 700S AC Drives with Phase II Control User Manual, publication 20D-UM006 and the PowerFlex 700S AC Drives with Phase II Control Reference Manual, publication PFLEX-RM003. CE Declarations of Conformity are available online at: http://www.ab.com/certification/ce/docs. Low Voltage Directive (73/23/EEC) EN50178 Electronic equipment for use in power installations. EMC Directive (89/336/EEC) EN61800-3 Adjustable speed electrical power drive systems Part 3: EMC product standard including specific test methods. General Notes The motor cable should be kept as short as possible in order to avoid electromagnetic emission as well as capacitive currents. Use of line filters in ungrounded systems is not recommended. PowerFlex drives may cause radio frequency interference if used in a residential or domestic environment. The user is required to take measures to prevent interference, in addition to the essential requirements for CE compliance listed below, if necessary. Conformity of the drive with CE EMC requirements does not guarantee an entire machine or installation complies with CE EMC requirements. Many factors can influence total machine/installation compliance. PowerFlex drives can generate conducted low frequency disturbances (harmonic emissions) on the AC supply system. More information regarding harmonic emissions can be found in the PowerFlex Reference Manual. Essential Requirements for CE Compliance Conditions 1-6 listed below must be satisfied for PowerFlex drives to meet the requirements of EN61800-3.

Cat No. 20D J 300 N 0 NNNBNNNN UL Open Type/IP00 540V 650V Normal Duty Power 160 kw Heavy Duty Power 132 kw Input: DC, DC Voltage Range 462-594 250 kw 200 kw 583-713 Amps 350 350 Output: 3 Phase, 0-320Hz AC Voltage Range 0-400 0-460 Base Hz (default) 50 Hz 60 Hz Continuous Amps 300/245 300/245 330/368 1 Min Overload Amps 330/368 2 Sec Overload Amps 450/490 450/490 MFD. in 1989 on Nov 9 Frame #: 9 Serial Number: 2622381652 MADE IN THE USA (FAC 1B) Series: A Standard I/O: NONE Original Firmware No. 2.04 C U Æ L US LISTED IND CONT EQ 9D42 2622381652 PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) 7 1. Standard PowerFlex High Power CE compatible Drive. For Frame 10, the drive must also be installed in a suitable Rittal TS 8 (or equivalent) enclosure. 2. Review important precautions/attention statements throughout this manual before installing the drive. 3. Grounding as described on page 36. 4. Output power, control (I/O) and signal wiring must be braided, shielded cable with a coverage of 75% or better, metal conduit or equivalent attenuation. 5. All shielded cables should terminate with the proper shielded connector. 6. Conditions in Table A. Table A PowerFlex High Power EN61800-3 EMC Compatibility Second Environment Restrict Motor Cable to 30 m (98 ft.) Any Drive and Option 9 10 11 12 13 Frame Step 2: Identifying the Frame Size of the Drive Determine the frame size of your drive by checking the data nameplate on the Control Frame. The frame number is printed just above the serial number. L1 L2 L3 L1 L2 L3 U/T1 V/T2 W/T3 U/T1 V/T2 W/T3 X50 Cat No. 20D J 300 N 0 NNNBNNNN UL Open Type/IP00 540V 650V Series: A Normal Duty Power 160 kw 250 kw Standard I/O: NONE Original Firmware No. 2.04 Heavy Duty Power Input: DC, 132 kw 200 kw C U Æ L US 350 350 IND CONT EQ DC Voltage Range Amps 462-594 583-713 LISTED Output: 3 Phase, 0-320Hz 9D42 AC Voltage Range 0-400 0-460 Base Hz (default) 50 Hz 60 Hz Continuous Amps 300/245 300/245 1 Min Overload Amps 330/368 330/368 2 Sec Overload Amps 450/490 450/490 MFD. in 2006 on Nov 9 Frame #: 9 Serial Number: 2622381652 MADE IN THE USA (FAC 1B) 2622381652 Frame Number

8 PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) Step 3: Lifting the Drive For lifting instructions for frame 9 size drives, see Frame 9 Size Drives below. For lifting instructions for frame 10-13 size drives, see "Frame 10-13 Size Drives" on page 9. Frame 9 Size Drives Important: When lifting a frame 9 size drive, a rod must be placed between the lifting holes as shown in Table B.! ATTENTION: To guard against possible personal injury and/or equipment damage... Remove any wiring access covers at the top of the drive. Do Not allow any part of the drive or lifting mechanism to make contact with electrically charged conductors or components. At no time should a person or their limbs be directly underneath the items being lifted. Do not subject the load to high rates of acceleration or deceleration. Inspect all lifting hardware for proper attachment before lifting drive unit. Table B Frame 9 - Approximate Drive and Enclosure Weights Voltage Class 400/480V AC (540/650V DC) 400/480V AC (540/650V DC) 600/690V AC (810/932V DC) 600/690V AC (810/932V DC) AC Input Drive Drive Rating & Enclosure AC Input Drive & Packaging DC Input Drive & Enclosure DC Input Drive & Packaging Amps Weight kg (lbs.) Weight kg (lbs.) Weight kg (lbs.) Weight kg (lbs.) 261 143 (315) 143 (315) 109 (240) 109 (240) 300 151 (333) 151 (333) 117 (258) 117 (258) 170 143 (315) 143 (315) 109 (240) 109 (240) 208 143 (315) 143 (315) 109 (240) 109 (240)

PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) 9 Frame 10-13 Size Drives When lifting frame 10-13 size drives you must: attach the lifting hardware. remove the skid and shipping feet.! ATTENTION: To guard against possible personal injury and/or equipment damage... Do Not allow any part of the drive or lifting mechanism to make contact with electrically charged conductors or components. At no time should a person or their limbs be directly underneath the items being lifted. Do not subject the load to high rates of acceleration or deceleration. Inspect all lifting hardware for proper attachment before lifting drive unit. Table C Frame 10-13 - Approximate Drive and Enclosure Weights Frame Size Voltage Class 10 400/480V AC (540/650V DC) 600/690V AC (810/932V DC) 11 400/480V AC (540/650V DC) 600/690V AC (810/932V DC) 12 400/480V AC (540/650V DC) 600/690V AC (810/932V DC) 13 400/480V AC (540/650V DC) 600/690V AC (810/932V DC) Drive Rating Amps AC Input Drive & Enclosure Weight kg (lbs.) AC Input Drive & Packaging Weight kg (lbs.) DC Input Drive & Enclosure Weight kg (lbs.) DC Input Drive & Packaging Weight kg (lbs.) 385 382 (842) 432 (952) 267 (589) 317 (699) 460 382 (842) 432 (952) 267 (589) 317 (699) 520 382 (842) 432 (952) 267 (589) 317 (699) 261 320 (705) 370 (816) 267 (589) 317 (699) 325 351 (774) 401 (884) 267 (589) 317 (699) 385 351 (774) 401 (884) 267 (589) 317 (699) 416 351 (774) 401 (884) 267 (589) 317 (699) 590 564 (1243) 614 (1354) 396 (873) 446 (983) 650 564 (1243) 614 (1354) 396 (873) 446 (983) 730 564 (1243) 614 (1354) 396 (873) 446 (983) 460 511 (1127) 561 (1237) 396 (873) 446 (983) 502 511 (1127) 561 (1237) 396 (873) 446 (983) 590 626 (1380) 676 (1490) 396 (873) 446 (983) 820 814 (1795) 864 (1905) 584 (1287) 634 (1398) 920 814 (1795) 864 (1905) 584 (1287) 634 (1398) 1030 814 (1795) 864 (1905) 584 (1287) 634 (1398) 650 752 (1658) 802 (1768) 584 (1287) 634 (1398) 750 752 (1658) 802 (1768) 584 (1287) 634 (1398) 820 752 (1658) 802 (1768) 584 (1287) 634 (1398) 1150 1348 (2972) 1468 (3236) 600 (1323) 720 (1587) 1300 1400 (3086) 1520 (3351) 600 (1323) 720 (1587) 1450 1400 (3086) 1520 (3351) 600 (1323) 720 (1587) 920 1248 (2751) 1368 (3016) 600 (1323) 720 (1587) 1030 1248 (2751) 1368 (3016) 600 (1323) 720 (1587) 1180 1248 (2751) 1368 (3016) 600 (1323) 720 (1587)

10 PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) Attaching the Lifting Hardware to Frames 10-13 Size Drives A B C A B > A Min. 60 TIP: To ensure that this angle is greater than 60, make the length of chain or cable between the center and the corners (B) longer than the distance between the opposite corners (A). Table D Frame 10-13 Open Type Drives - Approximate Weights Drive Voltage Class Drive Rating Amps AC Input Drive & Packaging Weight kg Power Structure (1) AC Choke (2) Frame Size Weight kg (lbs.) Weight kg (lbs.) (lbs.) (4) Frame 10 400 385 120 (265) 115 (254) 235 (519) 460 120 (265) 115 (254) 235 (519) 520 120 (265) 115 (254) 235 (519) 600 261 120 (265) 53 (117) 173 (382) 325 120 (265) 84 (185) 204 (450) 385 120 (265) 84 (185) 204 (450) 416 120 (265) 84 (185) 204 (450) Frame 11 400 590 210 (463) 84 (185) (3) 378 (833) 650 210 (463) 84 (185) (3) 378 (833) 730 210 (463) 84 (185) (3) 378 (833) 600 460 210 (463) 115 (254) 325 (717) 502 210 (463) 115 (254) 325 (717) 590 210 (463) 115 (254) (3) 440 (970) Frame 12 400 820 120 (265) 115 (254) 350 (772) 920 120 (265) 115 (254) 350 (772) 1030 120 (265) 115 (254) 350 (772) 600 650 120 (265) 84 (185) 288 (635) 750 120 (265) 84 (185) 288 (635) 820 120 (265) 84 (185) 288 (635) (1) Two power structures are required per Frame 12 Drive (2) Two reactors are required per Frame 12 AC Drive (3) Two reactors are required per Frame 11 AC Drive (4) DC input drive and packaging weight is equal to the weight of the power structure

! DANGER Risk of electric shock and death. Disconnect power, wait 5 minutes and verify DC bus voltage before servicing. Follow instructions in manual before use. Earth ground required. PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) 11 Drive Voltage Drive Rating Weight kg (lbs.) Weight kg (lbs.) Weight kg (lbs.) Frame Size Class Amps AC Choke Power Structure NFE Module Frame 13 400 1150 130 (287) (1) 306 (675) 67 (148) (1) 1300 115 (254) (2) 306 (675) 67 (148) (2) 1450 115 (254) (2) 306 (675) 67 (148) (2) 600 920 130 (287) (1) 306 (675) 67 (148) (1) 1030 130 (287) (1) 306 (675) 67 (148) (1) 1180 130 (287) (1) 306 (675) 67 (148) (1) (1) Two reactors and NFE Modules are required per Frame 13 AC Drive (2) Three reactors and NFE Nodules are required per Frame 13 AC Drive Directions for Open Type Drives A B! DANGER Risk of electric shock and death. Disconnect power, wait 5 minutes and verify DC bus voltage before servicing. Follow instructions in manual before use. Earth ground required. Frame 11 Shown C D Fasten the module symmetrically in at least two (2) holes (Frame 11 shown).

12 PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) Removing the Skid and Shipping Feet! ATTENTION: To guard against personal injury and equipment damage, do not work under the drive unless the drive is securely mounted on appropriate blocks. Task A AB AC ACD Description Using a 15 mm wrench, remove the hardware which secures the drive to the skid. Lift the drive off the skid. Place the drive on proper blocks on a hard, level surface. The blocks should be approximately 10 cm (4 inches) high. Using a 17 mm wrench, remove the hardware which secures the feet to the drive and remove the feet. B A A C D C A D D

PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) 13 Step 4: Mounting the Drive Operating Temperatures Frame Size N/A = Not Available at time of printing Surrounding Air Temperature Required Airflow m 3 /h (cfm) Voltage Class Amp Rating Normal Duty Heavy Duty 9 1300 (765) 400 261, 300 0 to 40 degrees C 0 to 40 degrees C (32 to 104 degrees F) (32 to 104 degrees F) 600 170 0 to 40 degrees C 0 to 40 degrees C (32 to 104 degrees F) (32 to 104 degrees F) 208 0 to 35 degrees C (32 to 95 degrees F) 0 to 40 degrees C (32 to 104 degrees F) 10 2600 (1530) 400 385, 460, 0 to 40 degrees C 0 to 40 degrees C 500 (32 to 104 degrees F) (32 to 104 degrees F) 600 261, 325, 0 to 40 degrees C 0 to 40 degrees C 385 (32 to 104 degrees F) (32 to 104 degrees F) 600 416 0 to 35 degrees C (32 to 95 degrees F) 0 to 40 degrees C (32 to 104 degrees F) 11 3900 (2295) 400 590, 650, 0 to 40 degrees C 0 to 40 degrees C 730 (32 to 104 degrees F) (32 to 104 degrees F) 600 460, 502 0 to 40 degrees C 0 to 40 degrees C (32 to 104 degrees F) (32 to 104 degrees F) 600 590 0 to 35 degrees C (32 to 95 degrees F) 0 to 35 degrees C (32 to 95 degrees F) 12 5200 (3060) 400 820, 920 0 to 40 degrees C 0 to 40 degrees C (32 to 104 degrees F) (32 to 104 degrees F) 1030 0 to 40 degrees C 0 to 35 degrees C (32 to 104 degrees F) (32 to 95 degrees F) 600 650, 750 0 to 40 degrees C 0 to 40 degrees C (32 to 104 degrees F) (32 to 104 degrees F) 820 0 to 35 degrees C (32 to 95 degrees F) 0 to 35 degrees C (32 to 95 degrees F) 13 4200 (2472) Inverter Unit 400 1150, 1300, 0 to 40 degrees C 0 to 40 degrees C 1450 (32 to 104 degrees F) (32 to 104 degrees F) 600 920, 1030 0 to 40 degrees C 0 to 40 degrees C (32 to 104 degrees F) (32 to 104 degrees F) 1150 (677) each Converter Unit 400 1150, 1300, 0 to 40 degrees C 0 to 40 degrees C 1450 (32 to 104 degrees F) (32 to 104 degrees F) 600 1180 0 to 35 degrees C (32 to 95 degrees F) 0 to 35 degrees C (32 to 95 degrees F) For minimum mounting clearances for frame 9 size drives, see Frame 9 Size Drives Mounting Clearances below. For minimum mounting clearances for frame 10 size drives, see page 15. For minimum mounting clearances for frame 11 size drives, see page 17. For minimum mounting clearances for frame 12 size drives, see page 19. For minimum mounting clearances for frame 13 size drives, see page 21. Also: For floor and wall mounting of frame 10-13 size drives, see page 23.

14 PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) Minimum Mounting Clearances and Dimensions Frame 9 Size Drives Mounting Clearances 400.0 mm (15.75 in.) 400.0 mm (15.75 in.) 50.0 mm (1.97 in.) 80.0 mm (3.2 in.) 50.0 mm (1.97 in.) 350.0 mm (13.8 in.) 350.0 mm (13.8 in.) Frame 9 size Drive Dimensions 5.0 (0.20) 14.0 (0.55) 480.0 (18.90) 400.0 (15.75) 240.0 (9.45) 9.0 (0.35) 363.3 (14.32) 339.5 (13.37) 45.0 (1.77) Nameplate Wire Way 1150.0 (45.28) 1120.0 (44.09) Nameplate 9.0 (0.35) Lifting Hole 21.0 (0.83) 62.5 (2.46) 372.5 (14.67) 292.5 (11.52) 142.5 (5.61) 59.0 (2.32) 191.64 (7.54) 100.12 (3.94) 245.53 (9.67) 285.0 (11.22) Detail A Brake Option Top Hat Dimensions are in millimeters and (inches).

PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) 15 Frame 10 Size Drives Mounting Clearances 200 mm (7.87 in.) 800 mm (31.50 in.) 50 mm (2.0 in.) CLEARANCE TO WALL 50 mm (2.0 in.) CLEARANCE TO WALL

16 PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) Frame 10 Size Drive Dimensions (NEMA/UL Type 1, IP21 Enclosure Code A ) 597.0 (23.50) 534.7 (21.05) 32.3 (1.27) 632.5* (24.90) 605.5 (23.84) 498.0 (19.61) 42.0 (1.65) 2275.0 (89.57) 2234.0 (87.95) 2201.8 (86.68) * This dimension is the depth for drives with the optional door-mounted HIM installed Dimensions are in millimeters and (inches).

PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) 17 Frame 11 Size Drives Mounting Clearances 200 mm (7.87 in.) 800 mm (39.3 in.) 50 mm (2.0 in.) CLEARANCE TO WALL 50 mm (2.0 in.) CLEARANCE TO WALL

! DANGER 18 PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) Frame 11 Size Drive Dimensions (NEMA/UL Type 1 - IP21 Enclosure Code A ) 797.0 (31.38) 736.0 (28.98) 32.25 (1.27) 621.74* (24.48) 605.5 (23.84) 498.0 (19.61) 42.0 (1.65) 2275.0 (89.57) 2234.0 (87.95) 2205.0 (86.81) * This dimension is the depth for drives with the optional door-mounted HIM installed Dimensions are in millimeters and (inches).

PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) 19 Frame 12 Size Drives Mounting Clearances 200 mm (7.87 in.) 800 mm (31.50 in.) 50 mm (2.0 in.) CLEARANCE TO WALL 50 mm (2.0 in.) CLEARANCE TO WALL

20 PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) Frame 12 Size Drive Dimensions (NEMA/UL Type 1 - IP12 Enclosure A ) 534.7 (21.05) 1196.05 (47.09) 32.3 (1.27) 632.5* (24.90) 605.5 (23.84) 498.0 (19.61) 42.0 (1.65) 2275.0 (89.57) 2234.0 (87.95) 2201.8 (86.68) * This dimension is the depth for drives with the optional door-mounted HIM installed Dimensions are in millimeters and (inches).

PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) 21 Frame 13 Size Drive Mounting Clearances 200 mm (7.87) 800 mm (31.50 in.) 50 mm (2.0 in.) CLEARANCE TO WALL 50 mm (2.0 in.) CLEARANCE TO WALL 1800 mm Cabinet Shown.

22 PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) Frame 13 Size Drives - Dimensions Voltage Class Amps A B C D E F 400V 1150 1412 (56) 1329 (52) 1264 (50) 535 (21) 735 (29) 1264 (50) 1300 1450 1600 (63) 1529 (60) 1464 (58) 735 (29) 735 (29) 1464 (58) 600V 920 1030 1180 1412 (56) 1329 (52) 1264 (50) 535 (21) 735 (29) 1264 (50) Dimensions are in mm and (in.) A B C 619.2 (24.4) 603 (23.7) 44 (1.73) 2275 (89.6) 2197 (86.5) 2231 (87.8) 1108.25 (43.6) D 65 (2.6) E 535 (21.1) F Dimensions are in millimeters and (inches).

PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) 23 Floor and Wall Mounting for Frame 10-13 Size Drives Floor Only Mounting Secure drive to the floor with anchor bolts in the front corner holes of the enclosure base plate. Additionally secure the drive using the mounting plates as needed (Rittal part no. 8800-210 or equivalent). Do this as close to the choke assembly plate as possible. With this method the holes through base plate must be drilled on-site. Important: If it is important to align the drive cabinet vertically with adjacent Rittal cabinets, you may need to place shims under the drive cabinet or use leveling feet throughout the cabinet line-up. The Allen-Bradley factory may have removed the standard plastic plugs from the bottom of the cabinet when installing the shipping feet. This reduces the height of the cabinet by 2 mm. Wall Mounting Secure drive to the floor with anchor bolts in the front corner holes of the enclosure base plate. Secure the drive by bolting the adjustable lifting rails to the rear wall or supporting structure. wall

24 PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) Enclosed Frame 13 Drives with DC Input Enclosed Frame 13 Drives with DC Input are shipped with the control pan mounted in the motor connection area of the right-hand cabinet. The control pan must be moved from this location to another cabinet, away from the power connections. Step 5: Removing Protective Covers For removing the protective covers from frame 9 size drives, see Removing the Covers from Frame 9 Size Drives below. For removing the protective covers from frame 10-13 size drives, see page 25. Removing the Covers from Frame 9 Size Drives A Removing the Connection Cover L1 L2 L3 L1 L2 L3 U/T1 V/T2 W/T3 U/T1 V/T2 W/T3 (8 Screws) B (8 Screws) Removing the Power Cover L1 L2 L3 L1 L2 L3 U/T1 V/T2 W/T3 U/T1 V/T2 W/T3 X50 (3 Screws) L1 L2 L3 L1 L2 L3 U/T1 V/T2 W/T3 U/T1 V/T2 W/T3 C Removing the Conduit Cover When you have completed removing the covers, continue with Step 6: Configuring Drive for Ground System on page -27.

PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) 25 Removing the Covers from Frame 10-13 Size Drives To remove the protective covers from frame 10-13 size drives, you must first move the Protective Screens (frame 13 only), Control Frame (frames 10-13 only) and the Airflow Plate. Removing Protective Screens (Frame 13 Only) Task A Description For NEMA/UL Type 1 enclosures, remove the screws that secure the protective screens to the right-hand enclosure only and remove the screens. A Moving Control Frame (Frames 10-12 Only) Task A B Description Loosen the two T8 Torx-head screws, which secure the Control Frame to the drive enclosure (Frame 10 drives, from early production runs, have holes instead of slots for these screws. You must completely remove the screws from these drives in order to swing-open the control frame.). Swing the Control Frame out and away from the power structure. A or A B Frame 10 Drive Shown

! 26 PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) Removing the Airflow Plate(s) Removing the Covers from Frame 10-13 Size Drives, Continued Task C D Description Remove the four T8 Torx-head screws which secure the airflow plate to the drive. Slide airflow plate off of the drive. C D C D C C Frame 10 Drive Shown Removing Protective Covers (Frames 10-12) Task E F G Description Remove the four M5 Pozi-drive screws which secure the top and bottom protective covers to the main front protective cover, then remove the top and bottom protective covers. Note: You only need to remove the top and bottom covers to gain access to the power terminals. You can remove the other covers without removing the top and bottom covers. Remove the four M5 Pozi-drive screws which secure the main front protective cover to the drive, then remove the protective cover. Remove side protective covers (Not necessary for frame 11 and 12 size drives). E F E E E Frame 10 Drive Shown G G Removing Protective Covers (Frame 13 Only) Task E Description Remove the four M5 Pozi-drive screws which secure each of the three main and bottom protective covers to the drive, then remove the main and bottom protective covers. Note: You only need to remove the bottom cover to gain access to the power terminals. E DC BUS CONDUCTORS AND CAPACITORS OPERATE AT HIGH VOLTAGE. REMOVE POWER AND WAIT 5 MINUTES BEFORE SERVICING DANGER

PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) 27 Step 6: Configuring Drive for Ground System For configuring frame 9 size drives for a ground system, see Frame 9 Size Drives below. For configuring frame 10-13 size drives for a ground system, see "Frame 10-13 Size Drives" on page 28. Frame 9 Size Drives CE frame 9 size drives are equipped with common mode capacitors that are referenced to ground. Operating a CE frame 9 drive on a resistive ground or ungrounded distribution system could result in drive damage.! ATTENTION: If you intend to operate a Frame 9 drive on a resistive ground or ungrounded distribution system, you must order a non-ce PowerFlex High Power drive. All frame 9 drives (CE and non-ce) are equipped with a Metal Oxide Varistor (MOV) assembly to provide voltage surge protection. The MOV is designed for transient surge suppression only (not continuous operation). With a resistive ground or ungrounded distribution system the phase-to-ground MOV connection could become a continuous current path. Therefore, you should disconnect the MOV ground connection when installing a frame 9 drive on a resistive ground or ungrounded distribution system. Refer to publication PFLEX-RM003, PowerFlex 700S with Phase II Control Reference Manual, for information on resistive ground or ungrounded system installations. L1 L2 L3 Disconnect and insulate this wire on resistive ground or ungrounded distribution systems Ground stud on Cross Plate! ATTENTION: Risk of equipment damage exists if this wire contacts other circuits in the drive while the drive is energized. Insulate the lug on this wire with several turns of electrical tape and anchor the wire so it does not contact other circuits. Continue with Step 7: Power Wiring on page -34.

28 PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) Frame 10-13 Size Drives Frame 10-13 size drives are equipped with common mode capacitors that are referenced to ground. To guard against drive damage, these capacitors should be disconnected if the drive is installed on a resistive ground or ungrounded distribution system or on a grounded B phase Delta system. For installations on a resistive ground or ungrounded distribution system, refer to "Installation on a Resistive Ground or Ungrounded Distribution System" on page 29. For installations on a grounded B phase Delta system on a voltage distribution system, refer to "Installation on a Grounded B Phase Delta System" on page 31. Note: Refer to publication PFLEX-RM003, PowerFlex 700S with Phase II Control Reference Manual, for information on a resistive ground or ungrounded distribution system installation. Important: There is one jumper on each Rectifying Module. For drives with multiple Rectifying Modules, all jumpers must be in the same position. Frame Size Number of Rectifying Modules (Number of Jumpers) Location of Rectifying Module(s) 10 1 Upper-right side of the drive s power structure. 11 2 Upper-right side of the center and right hand power stacks of the drive s power structure. 12 2 Upper-right side of the right hand power stacks in each cabinet of the drive s power structure. Note: The jumpers on both Rectifying Modules must be in the same position. 13 2-600V class drives and 400V, 1150A drives 3-400V, 1300A and 1450A drives Upper-right side of the power stacks in the left hand cabinet of the drive s power structure. Note: The jumpers on all of the Rectifying Modules must be in the same position.

PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) 29 Installation on a Resistive Ground or Ungrounded Distribution System The jumper on frame 10-12 size drives is different than the jumper on frame 13 size drives. Refer to Frame 10-12 Size Drives below or to "Frame 13 Size Drives:" on page 30 for the appropriate procedure for your drive frame size. Frame 10-12 Size Drives: 1. To disconnect the capacitors, move the jumper as shown below. Task A B C D Description Loosen the upper screw. Remove the lower screw. Move the jumper to the horizontal position. Install and tighten all screws. Continue with step 2 on page 33. A D C B Rectifying Circuit Board

30 PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) Installation on a Resistive Ground or Ungrounded Distribution System, Continued Frame 13 Size Drives: To disconnect the capacitors, move the jumper as shown below. Task A B C Description Loosen the three screws. Rotate the jumper to the lower position. Tighten the three screws. Continue with Step 7: Power Wiring on page 34. Rectifying Circuit Board B A C

PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) 31 Installation on a Grounded B Phase Delta System The jumper on frame 10-12 size drives is different than the jumper on frame 13 size drives. Refer to Frame 10-12 Size Drives below or to "Frame 13 Size Drives:" on page 32 for the appropriate procedure for your drive frame size. Frame 10-12 Size Drives: 1. To use a grounded B phase delta system, follow the steps below. Task A B C D E F Description Loosen the upper screw on the common mode capacitor jumper. Remove the lower screw. Move the jumper to the horizontal position. Install and tighten all screws. Remove the screw from the X4 connection on the Rectifying circuit board. Insulate the top and bottom of the X4 connection on the Rectifying circuit board. Continue with step 2 on page 33. A D C B Rectifying Circuit Board E F X4 X1 X4 X1 X41 X41 Rectifying Circuit Board

32 PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) Installation on a Grounded B Phase Delta System, Continued Frame 13 Size Drives: Task A B C D E Description Loosen the three screws. Rotate the jumper to the lower position. Tighten the three screws. Remove the screw from the X4 connection on the Rectifying circuit board. Insulate the top and bottom of the X4 connection on the Rectifying circuit board. Continue with Step 7: Power Wiring on page 34. Rectifying Circuit Board B C A Rectifying Circuit Board X41 X41 X1 X4 X1 X4 D Jumper E

PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) 33 2. Insulate the capacitors from the drive s input power terminals. Task A B C Description Remove the screws and lock washers that secure each of the three capacitor supply wires to the input power terminals. Insulate the capacitor leads. Install and tighten the screws and lock washers only. Important: It is not necessary to remove the power wiring from the terminals in order to insulate the capacitor leads. L1 L2 L3 Input power terminal Insulator B A Capacitor Capacitor lead C Continue with Step 7: Power Wiring on page 34.

34 PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) Step 7: Power Wiring Wire Recommendations! ATTENTION: National Codes and standards (NEC, VDE, BSI etc.) and local codes outline provisions for safely installing electrical equipment. Installation must comply with specifications regarding wire types, conductor sizes, branch circuit protection and disconnect devices. Failure to do so may result in personal injury and/or equipment damage. Cable Types Acceptable for 200-690 Volt Installations A variety of cable types are acceptable for drive installations. For many installations, unshielded cable is adequate, provided it can be separated from sensitive circuits. As an approximate guide, allow a spacing of 0.3 meters (1 foot) for every 10 meters (32.8 feet) of length. In all cases, long parallel runs must be avoided. Do not use cable with an insulation thickness less than or equal to 15 mils (0.4mm/0.015 in.). Use Copper wire only. Wire gauge requirements and recommendations are based on 75 degrees C. Do not reduce wire gauge when using higher temperature wire. Important: For detailed information on motor cable length restrictions, refer to Appendix A, Motor Cable Length Restrictions Tables in Wiring and Grounding Guidelines for Pulse Width Modulated (PWM) AC Drives, publication DRIVES-IN001. Unshielded Cable THHN, THWN or similar wire is acceptable for drive installation in dry environments provided adequate free air space and/or conduit fill rates limits are provided. Do not use THHN or similarly coated wire in wet areas. Any wire chosen must have a minimum insulation thickness of 15 Mils and should not have large variations in insulation concentricity. Shielded Cable Shielded cable contains all of the general benefits of multi-conductor cable with the added benefit of a copper braided shield that can contain much of the noise generated by a typical AC Drive. Strong consideration for shielded cable should be given in installations with sensitive equipment such as weigh scales, capacitive proximity switches and other devices that may be affected by electrical noise in the distribution system. Applications with large numbers of drives in a similar location, imposed EMC regulations or a high degree of communications/ networking are also good candidates for shielded cable. Shielded cable may also help reduce shaft voltage and induced bearing currents for some applications. In addition, the increased impedance of shielded cable may help extend the distance that the motor can be located from the drive without the addition of motor protective devices such as terminator networks. Refer to Chapter 5, Reflected Wave in Wiring and Grounding Guidelines for Pulse Width Modulated (PWM) AC Drives, publication DRIVES-IN001. Consideration should be given to all of the general specifications dictated by the environment of the installation, including temperature, flexibility, moisture

PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) 35 characteristics and chemical resistance. In addition, a braided shield should be included and be specified by the cable manufacturer as having coverage of at least 75%. An additional foil shield can greatly improve noise containment. A good example of recommended cable is Belden 295xx (xx determines gauge). This cable has four (4) XLPE insulated conductors with a 100% coverage foil and an 85% coverage copper braided shield (with drain wire) surrounded by a PVC jacket. Other types of shielded cable are available, but the selection of these types may limit the allowable cable length. Particularly, some of the newer cables twist 4 conductors of THHN wire and wrap them tightly with a foil shield. This construction can greatly increase the cable charging current required and reduce the overall drive performance. Unless specified in the individual distance tables as tested with the drive, these cables are not recommended and their performance against the lead length limits supplied is not known. Armored Cable Cable with continuous aluminum armor is often recommended in drive system applications or specific industries. It offers most of the advantages of standard shielded cable and also combines considerable mechanical strength and resistance to moisture. It can be installed in concealed and exposed manners and removes the requirement for conduit (EMT) in the installation. It can also be directly buried or embedded in concrete. Because noise containment can be affected by incidental grounding of the armor to building steel (see Chapter 2. Wire Types, of publication DRIVES-IN001, Wiring and Grounding Guidelines for Pulse Width Modulated (PWM) AC Drives) when the cable is mounted, it is recommended the armored cable have an overall PVC jacket. Interlocked armor is acceptable for shorter cable runs, but continuous welded armor is preferred. Best performance is achieved with 3 spaced ground conductors, but acceptable performance below 200 HP is provided via a single ground conductor. See Table E. Table E Recommended Shielded / Armored Cable Location Rating/Type Description Standard (Option 1) Standard (Option 2) 600V, 90 C (194 F) Four tinned copper conductors with XLPE insulation. XHHW2/RHW-2 Copper braid/aluminum foil combination shield and tinned Anixter B209500-B209507, Belden copper drain wire. 29501-29507, or equivalent PVC jacket. Tray rated 600V, 90 C (194 F) RHH/RHW-2 Anixter OLF-7xxxxx or equivalent Class I & II; Tray rated 600V, 90 C (194 F) Division I & II RHH/RHW-2 Anixter 7V-7xxxx-3G or equivalent Three tinned copper conductors with XLPE insulation. 5 mil single helical copper tape (25% overlap min.) with three bare copper grounds in contact with shield. PVC jacket. Three bare copper conductors with XLPE insulation and impervious corrugated continuously welded aluminum armor. Black sunlight resistant PVC jacket overall. Three copper grounds on #10 AWG and smaller.

36 PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) General Grounding Requirements The drive Safety Ground - PE must be connected to system ground. Ground impedance must conform to the requirements of national and local industrial safety regulations and/or electrical codes. The integrity of all ground connections should be periodically checked. For installations within a cabinet, a single safety ground point or ground bus bar connected directly to building steel should be used. All circuits including the AC input ground conductor should be grounded independently and directly to this point/ bar. Figure 1 Typical Grounding R (L1) S (L2) T (L3) U (T1) V (T2) W (T3) PE SHLD Safety Ground - PE This is the safety ground for the drive that is required by code. This point must be connected to adjacent building steel (girder, joist), a floor ground rod or bus bar (see above). Grounding points must comply with national and local industrial safety regulations and/or electrical codes. Shield Termination - SHLD The Shield terminal provides a grounding point for the motor cable shield. It must be connected to an earth ground by a separate continuous lead. The motor cable shield should be connected to this terminal on the drive (drive end) and the motor frame (motor end). A shield terminating cable gland may also be used. When shielded cable is used for control and signal wiring, the shield should be grounded at the source end only, not at the drive end. RFI Filter Grounding Using an optional RFI filter may result in relatively high ground leakage currents. Therefore, the filter must only be used in installations with grounded AC supply systems and be permanently installed and solidly grounded (bonded) to the building power distribution ground. Ensure that the incoming supply neutral is solidly connected (bonded) to the same building power distribution ground. Grounding must not rely on flexible cables and should not include any form of plug or socket that would permit inadvertent disconnection. Some local codes may require redundant ground connections. The integrity of all connections should be periodically checked. Refer to the instructions supplied with the filter.

PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) 37 DC Input Precharge Wiring If you are installing a DC input drive with a precharge interlock you must make the following connections on the X50 terminal block from the precharge circuit. Important: Precharge circuitry is external to the drive. Figure 2 Sample Precharge Wiring Diagram (Frame 9 Shown) X50 1 2 X1 DC Bus Precharge Control CR1 CR1 Pilot Relay M Main DC Contactor M 5 6 X9 X6 M CR2 Precharge X10 X7 Table F X50 Terminal Block Connections Frame X50 Terminal Description 9 1 Charge Relay Contact 2 Charge Relay Contact 5 Precharge Complete Signal (+24V DC) 6 Precharge Complete Signal (Common) 10, 11, & 13 3 Charge Relay Contact 4 Charge Relay Contact 1 Precharge Complete Signal (+24V DC) 2 Precharge Complete Signal (Common) 12 Power Module 1 3 Charge Relay Contact (Jumper to Power Module 2 Terminal 23) 4 Charge Relay Contact 1 Precharge Complete Signal (+24V DC) 2 Precharge Complete Signal (Common) Power Module 2 3 Charge Relay Contact 4 Charge Relay Contact (Jumper to Power Module 1 Terminal 21) 1 Precharge Complete Signal (+24V DC) 2 Precharge Complete Signal (Common) Table G X50 Terminal Block Specifications Wire Size Range (1) Torque Maximum Minimum Recommended 6.0 mm 2 (10 AWG) 1.0 mm 2 (18 AWG) 0.8 N-m (7.0 lb.-in.) (1) Maximum/minimum sizes that the terminal block will accept - these are not recommendations.

38 PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) Figure 3 Frame 9 X50 Terminal Block Location X50 Terminal Block X50 Figure 4 Frame 10-13 X50 Terminal Block Location Control Frame X50 Terminal Block Note: 700S control mounting plate and HIM not shown for clarity only

PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) 39 Power Wiring Instructions For power wiring instructions for frame 9 size drives, see Frame 9 Size Drives below. For power wiring instructions for frame 10 size drives, see page 40. For power wiring instructions for frame 11 size drives, see page 41. For power wiring instructions for frame 12 size drives, see page 44. For power wiring instructions for frame 13 size drives, see page 47. Note: If you are installing an ATEX approved drive and motor, refer to "ATEX Approved PowerFlex 700S Phase II Drives in Group II Category (2) Applications with ATEX Approved Motors" on page 70 for more information on power wiring. Frame 9 Size Drives Wire Size Range (1) Torque No. Name Description Maximum Minimum Recommended ➊ Input Power Terminal Block (2) Input power 185.0 mm 2 95.0 mm 2 40 N-m L1, L2, L3 (350 MCM) (4/0 AWG) (354 lb.-in.) ➋ Output Power Terminal Block(2) Motor connections 185.0 mm 2 95.0 mm 2 40 N-m U/T1, V/T2, W/T3 (350 MCM) (4/0 AWG) (354 lb.-in.) ➌ SHLD Terminal, PE, Motor Ground Terminating point for wiring shields 95.0 mm 2 (4/0 AWG) 5.0 mm2 (10 AWG) 22 N-m (195 lb.-in.) ➍ DC Bus(3) (2 Terminals; DC, DC+) DC Bus w/brake (3) (3 Terminals; DC, DC+/R+, R ) DC input or external brake (Internal Brake option not ordered) DC input/internal brake (Internal Brake option is ordered) 185.0 mm 2 (350 MCM) 185.0 mm 2 (350 MCM) 95.0 mm 2 (4/0 AWG) 95.0 mm 2 (4/0 AWG) 40 N-m (354 lb.-in.) 40 N-m (354 lb.-in.) ➎ Cable Clamp for Shield (1) Maximum/minimum sizes that the terminal block will accept - these are not recommendations. (2) Do Not exceed maximum wire size. Parallel connections may be required. (3) DC terminal and brake lugs can be removed. ➌ ➍ DC DC+/R+ R ➊ ➋ ➌ Power Terminal Block (2) ➎ L1 L2 L3 L1 L2 L3 U/T1 V/T2 W/T3 U/T1 V/T2 W/T3 AC Line Input Power To Motor Leads

40 PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) Frame 10 Size Drives Wire Size Range (1)(2) Torque Terminal Bolt No. Name Description Maximum Minimum Recommended Size (3) (4) ➊ Input Power Terminal Block Input power 300 mm 2 2.1 mm 2 40 N-m M12 L1, L2, L3 (3) (600 MCM) (14 AWG) (354 lb.-in.) ➋ Output Power Terminal Block ((3) U/T1, V/T2, W/T3 Motor connections 300 mm 2 (600 MCM) 2.1 mm 2 (14 AWG) 40 N-m (354 lb.-in.) M12 ➌ SHLD Terminal, PE, Motor Terminating point for wiring shields 300 mm 2 Ground (3) (600 MCM) 2.1 mm 2 (14 AWG) 40 N-m (354 lb.-in.) M10 ➍ DC Bus (3) (2 Terminals; DC, DC+) DC Bus w/brake (3) (3 Terminals; DC, DC+/R+, R ) DC input or external brake (Internal Brake option not ordered) DC input/internal brake (Internal Brake option is ordered) 300 mm 2 (600 MCM) 300 mm 2 (600 MCM) 2.1 mm 2 (14 AWG) 2.1 mm 2 (14 AWG) 40 N-m (354 lb.-in.) 40 N-m (354 lb.-in.) M12 M12 ➎ Cable Clamp for Shield (1) Maximum/minimum sizes that the terminal block will accept - these are not recommendations. (2) Do Not exceed maximum wire size. Parallel connections may be required. (3) These connections are bus bar type terminations and require the use of lug type connectors. (4) Apply counter torque to the nut on the other side of terminations when tightening or loosening the terminal bolt in order to avoid damage to the terminal. ➍ DC+/R+ DC- R- V/T2 ➋ U/T1 W/T3 ➊ L1 L2 L3 ➌ ➎

PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) 41 Frame 11 Size Drives AC Input Wiring for Frame 11 Drives 600V class - 460 and 502 amp frame 11 drives contain only one rectifying module and therefore only one set of input power terminals. 400V class and 600V class - 590 amp frame 11 size drives utilize two parallel input rectifying modules, and therefore have two sets of input power terminals. You must supply power to both sets of input terminals. There are several methods for accomplishing this. Each of these methods is shown below. Important: Parallel wiring must have the same cable dimensions, type and routing. Non-symmetrical wiring may cause unequal loading between the converters and reduce the drive s ability to deliver current to the motor. Figure 5 Frame 11 AC Wiring Example: Two Fuses per Phase AC Input Power Wiring, Fuses, and L1 L2 L3 Disconnect Device Provided by Customer AC Input Power Terminals Inside Drive 1L1 1L2 1L3 2L1 2L2 2L3

42 PowerFlex 700S Drives - Phase II Control (Frame Sizes 9-13) Figure 6 Frame 11 AC Wiring Example: One Fuse per Phase L1 L2 L3 1L1 1L2 1L3 2L1 2L2 2L3 Figure 7 Frame 11 AC Wiring Example: Circuit Breaker L1 L2 L3 1L1 1L2 1L3 2L1 2L2 2L3 Table H Frame 11 Power Terminal Specifications Wire Size Range (1)(2) Torque Terminal Bolt No. Name Description Maximum Minimum Recommended (3) (4) Size ➊ Input Power Terminal Block AC Input power 300 mm 2 2.1 mm 2 40 N-m M12 1L1, 1L2, 1L3, 2L1, 2L2, 2L3 (3) (600 MCM) (14 AWG) (354 lb.-in.) ➋ Output Power Terminal Block ((3) U/T1, V/T2, W/T3 Motor connections 300 mm 2 (600 MCM) 2.1 mm 2 (14 AWG) 40 N-m (354 lb.-in.) M12 ➌ SHLD Terminal, PE, Motor Terminating point for wiring shields 300 mm 2 Ground (3) (600 MCM) 2.1 mm 2 (14 AWG) 40 N-m (354 lb.-in.) M10 ➍ DC Bus (3) (2 Terminals; DC, DC+) DC input or external brake (Internal Brake option not ordered) 300 mm 2 (600 MCM) 2.1 mm 2 (14 AWG) 40 N-m (354 lb.-in.) M12 ➎ Cable Clamp for Shield (1) Maximum/minimum sizes that the terminal block will accept - these are not recommendations. (2) Do Not exceed maximum wire size. Parallel connections may be required.