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LSIS SV-iS7 series, User Manual

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LSIS SV-iS7 series User Manual Download Page 248

Using a Single Phase Power Source

237

Singl

e

Phase

12.5

Other Considerations

The following lists other precautions that need to be considered when using a three-phase VFD
using single-phase power source.

•

Depending on the increased DC ripple, sensorless mode may result in poor performance
when operating a three-phase inverter using single-phase power supply.

•

If a phase open trip occurs, cancel the input phase open protection bit setting (PRT-05:
Phase Loss Chk).

•

Do not allow the current to exceed the single-phase rating. Motor capacity, motor overload
trip, and E-thermal functions must be set to protect motor.

•

A reactor is always required. Use a model type that comes with built-in DC reactor. The iS7
200 V 30

–

75kW and 400 V 280

–

375 kW products do not have built-in DC reactors. Install an

external AC reactor separately for these model types (Do not install DC reactors externally).

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Summary of Contents for SV-iS7 series

Page 1: ......

Page 2: ...e product for future reference whenever setting change maintenance or service is required Ensure that the field operators and service engineers can easily access this manual For detailed information about the optional extension boards including the specifications and the requirements for installation and operation refer to the instruction manuals that are supplied with the products ...

Page 3: ...erate the inverter while the cover is open Exposure of the high voltage terminals or the charging area to the external environment may result in an electric shock Do not remove any covers or touch the internal circuit boards PCBs or electrical contacts on the product when the power is on or during operation Doing so may result in serious injury death or serious property damage Do not open the cove...

Page 4: ...unction or result in a fire Do not operate the inverter with wet hands Doing so may result in electric shock Do not modify the interior workings of the inverter Doing so will void the warranty Do not use cables with damages or cracks on the protective insulation when wiring the inverter Damaged insulation may cause misoperation an electric shock or a fire Do not place heavy objects on top of elect...

Page 5: ......

Page 6: ...Class 0 75 22 kW 7 2 2 Input and Output Specifications 200 V Class 30 75 kW 8 2 3 Input and Output Specifications 400 V Class 0 75 22 kW 9 2 4 Input and Output Specifications 400 V Class 30 160 kW 10 2 5 Input and Output Specifications 400 V Class 185 375 kW 11 2 6 Product Specification Details 12 2 6 1 Control 12 2 6 2 Operation 12 2 6 3 Protection Function 14 2 6 4 Structure and Operating Enviro...

Page 7: ... kW Inverters 58 4 5 2 11 22 kW Inverters 58 4 5 3 30 75 kW Inverters 58 4 5 4 90 160 kW Inverters 58 4 5 5 185 220 kW Inverters 59 4 5 6 280 375 kW Inverters 59 4 6 Connecting Cables to the Power Terminal Block 60 4 6 1 0 75 22 kW 200 V 400 V 60 4 6 2 30 75 kW 200 V 400 V 61 4 6 3 90 160 kW 400 V 62 4 6 4 185 220 kW 400 V 63 4 6 5 280 375 kW 200 V 400 V 64 4 7 Specifications of the Power Terminal...

Page 8: ...5 3 1 Mode Navigation at the Factory Default 90 5 3 2 Mode Navigation with User Macro Mode and Trip Mode 91 5 4 Navigating Modes and Parameters 93 5 4 1 Group Navigation in Parameter mode 93 5 4 2 Group Shift in User Macro Mode 95 5 5 Navigating through Codes Function Items 96 5 5 1 Code Navigation in Monitor Mode 96 5 5 2 Code Navigation function items in Other Modes and Groups 97 5 5 3 Code Navi...

Page 9: ...Input Device 130 6 5 2 The Terminal Block as a Command Input Device Fwd Rev run commands 131 6 5 3 The Terminal Block as a Command Input Device Run and Rotation Direction Commands 132 6 5 4 RS 485 Communication as a Command Input Device 133 6 6 Forward or Reverse Run Prevention 133 6 7 Power on Run 134 6 8 Setting Acceleration and Deceleration Times 135 6 8 1 Acc Dec Time Based on Maximum Frequenc...

Page 10: ...equence Operation Group AUT 186 8 10 Parameter Mode Option Module Function Group APO 189 8 11 Parameter Mode Protective Function Group PRT 192 8 12 Parameter Mode 2nd Motor Function Group M2 195 8 13 Trip Mode TRP Current or Last x 196 8 14 Config Mode CNF 196 8 15 User Macro Mode Draw Operation Function Group MC1 199 8 16 User Macro mode Traverse Operation Function Group MC2 200 9 Peripheral Devi...

Page 11: ...et Norske Veritas Marine Certification Details 228 11 2 Bureau Veritas Marine Offshore Division Marine Certification Details 228 11 3 ABS Marine Certification Details 228 11 4 Marine Certification Models for SV iS7 Products 229 12 Using a Single Phase Power Source 231 12 1 Single Phase Rating 231 12 2 Power HP Input Current and Output Current 232 12 3 Input Frequency and Voltage Tolerance 233 12 4...

Page 12: ... the Product Check the product name open the packaging and then confirm that the product is free from defects Contact your supplier if you have any issues or questions about your product The iS7 inverter is manufactured in a range of product groups based on drive capacity and power source specifications The product name and specifications are detailed on the rating plate Check the rating plate bef...

Page 13: ...ication models 0 75 375 kW type 2 4 products Note3 To use safety function please buy 0 75 160kW product including safety option However 185 375kW product users have to buy safety option and apply to standard products because safety option is not included Note The iS7 75 90 kW 400 V inverters satisfy the EMC standard EN61800 3 without the installation of optional EMC filters ...

Page 14: ...er to the manual and prepare the product accordingly 1 1 4 Installing the Product Refer to the installation section of this manual and install the product correctly considering the installation and operating conditions at the installation location such as installation clearances to prevent premature deterioration or performance loss 1 1 5 Connecting the Cables Connect the power input output and si...

Page 15: ...ut the Product 1 2 Part Names The illustration below displays part names Details may vary between product groups 1 2 1 Interior and Exterior View IP 21 Model Types Less than 22 kW 200 V Less than 75 kW 400 V ...

Page 16: ...About the Product About the Product 5 1 2 2 Interior and Exterior View IP 54 Model Types Less than 22 kW 200 400 V ...

Page 17: ... 1 2 3 Interior and Exterior View Model Types 30 kW and up 200 V 90 kW and up 400 V Note Refer to the installation manual provided with the optional module products before installing communication modules in the inverter ...

Page 18: ...Hz Sensorless 1 0 300 Hz Sensorless 2 Vector 0 1 120 Hz Output Voltage V 3 Phase 200 230 V Rated input Working Voltage V 3 Phase 200 230 VAC 15 10 Input Frequency 50 60 Hz 5 Rated Current A Normal load 6 8 10 6 14 9 21 3 28 6 41 2 54 7 69 7 82 9 116 1 Heavy load 4 3 6 9 11 2 14 9 22 1 28 6 44 3 55 9 70 8 85 3 Only the heavy duty ratings apply to model types without a built in DC resistor NON DCR T...

Page 19: ...Output Voltage V 3 Phase 200 230 V Rated input Working Voltage V 3 Phase 200 230 VAC 15 10 Input Frequency 50 60 Hz 5 Rated Current A Normal load 152 190 231 302 362 Heavy load 121 154 191 233 305 The standard motor capacity is based on a standard 4 pole motor The standard used for 200 V inverters is based on a 200 V supply voltage The rated output current is limited based on the carrier frequency...

Page 20: ...0 1 120Hz Output Voltage V 3 Phase 380 480 V Rated input Working Voltage V 3 Phase 380 480 VAC 15 10 Input Frequency 50 60 Hz 5 Rated Current A Normal load 3 7 5 7 7 7 11 1 14 7 21 9 26 4 35 5 41 1 55 7 Heavy load 2 2 3 6 5 5 7 5 11 0 14 4 22 0 26 6 35 6 41 6 Only the heavy duty ratings apply to model types without a built in DC resistor NON DCR The standard motor capacity is based on a standard 4...

Page 21: ...y 0 400 Hz Sensorless 1 0 300 Hz Sensorless 2 Vector 0 1 120 Hz Output Voltage V 3 Phase 380 480 V Rated input Working Voltage V 3 Phase 380 480 VAC 15 10 Input Frequency 50 60 Hz 5 Rated Current A Normal load 67 5 81 7 101 8 143 6 173 4 212 9 254 2 315 3 359 3 Heavy load 55 5 67 9 82 4 102 6 143 4 174 7 213 5 255 6 316 3 The standard used for 400 V inverters is based on a 440 V supply voltage The...

Page 22: ...ncy 50 60 Hz 5 Rated Current A Normal load 463 590 673 796 948 Heavy load 404 466 605 674 798 The standard motor capacity is based on a standard 4 pole motor The standard used for 400 V inverters is based on a 440 V supply voltage The rated output current is limited based on the carrier frequency set at CON 04 The output frequency is limited to 0 300 Hz if DRV 09 control mode is set to 3 Sensorles...

Page 23: ... 150 for 1 min Rated current for normal duty operation 110 for 1 min Torque boost Manual torque boost automatic torque boost Only the heavy load ratings apply to 0 75 22 kW model types without a built in DC resistor NON DCR 2 6 2 Operation Items Description Operation Operation types Select from keypad terminal strip or network communication operation Frequency settings Analog type 10 10 V 0 10 V 0...

Page 24: ...rse direction operation External trip Jog operation Multi step acc dec high med low Second motor selection Frequency reduction Transition from PID to general operation Analog command frequency fix Output Multi function open collector terminal Fault output and inverter operation status output Less than DC 26 V 100 mA Multi function relay terminal N O Less than AC 250 V 1A DC 30 V 3A N C Less than A...

Page 25: ...Continue operation must be within the rated input voltage and rated output range Over 15 ms CT Over 8 ms VT Automatically restart 2 6 4 Structure and Operating Environment Control Items Description Structure operating environment Cooling type Forced cooling 0 75 15 kW 200 400 V class 22 kW 400 V class Inhalation cooling 22 75 kW 200 V class 30 375 kW 400 V class Protection structure 0 75 22 kW 200...

Page 26: ...mum 1000m above sea level for standard operation From 1000 to 4000m the rated input voltage and rated output current of the drive must be derated by 1 for every 100m Oscillation Less than 5 9 m sec2 0 6 G Surrounding environment Prevent contact with corrosive gases inflammable gases oil stains dust and other pollutants Pollution Degree 2 Environment UL Enclosed type 1 when an optional conduit box ...

Page 27: ...wer than 3 280 ft 1 000 m above sea level less than 0 6 G 5 9 m sec2 Air Pressure 70 106 kPa The ambient temperature is the temperature measured at a point 2 5 cm from the surface of the inverter No ice or frost should be present Do not transport the inverter by lifting with the inverter s covers or plastic surfaces The inverter may tip over if covers break causing injuries or damage to the produc...

Page 28: ...requirements The inverter must be installed on a wall that can support the inverter s weight The location must be free from vibration Vibrations can adversely affect the operation of the inverter The inverter can become very hot during operation Install the inverter on a surface that is fire resistant or flame retardant with sufficient clearance around the inverter to allow for air circulation The...

Page 29: ...all the inverter on a non flammable surface and do not place flammable material near the inverter Otherwise a fire may result Note Model types with capacities of 30 kW or more require a minimum of 8 clearance above and below the unit ...

Page 30: ...talled If the inverter is to be installed inside a panel enclosure or cabinet rack carefully consider the position of the inverter s cooling fan and vents The cooling fan must be positioned to efficiently dissipate the heat generated by the operation of the inverter Note In order to meet EMC standards 200 V 30 75 kW model types and model types with capacities of 90 kW or more should be installed i...

Page 31: ... 20 If you are installing multiple inverters of different ratings provide sufficient clearance to meet the clearance specifications of the larger inverter The iS7 inverters rated for up to 30 kW may be installed side by side ...

Page 32: ... Inverter 21 3 3 Exterior and Dimensions UL Enclosed Type 1 IP21 Type SV0008 0037iS7 200 V 400 V Units mm inch Inverter Capacity W1 W2 H1 H2 H3 D1 A B SV0008 0037 iS7 2 4 150 5 90 127 5 00 284 11 18 257 10 11 18 0 70 200 7 87 5 0 19 5 0 19 ...

Page 33: ...Installing the Inverter 22 SV0055 0075iS7 200 V 400 V Units mm inch Inverter Capacity W1 W2 H1 H2 H3 D1 A B SV0055 0075 iS7 2 4 200 7 87 176 6 92 355 13 97 327 12 87 19 0 74 225 8 85 5 0 19 5 0 19 ...

Page 34: ... Inverter Installing the Inverter 23 SV0110 0150iS7 200 V 400 V Units mm inch Inverter Capacity W1 W2 H1 H2 H3 D1 A B SV0110 0150 iS7 2 4 250 9 84 214 6 8 44 385 15 15 355 13 97 23 6 0 92 284 11 18 6 5 0 25 6 5 0 25 ...

Page 35: ...talling the Inverter 24 SV0185 0220iS7 200 V 400 V Units mm inch Inverter Capacity W1 W2 H1 H2 H3 D1 A B SV0185 0220iS7 2 4 280 11 02 243 5 9 58 461 6 18 17 445 17 51 10 1 0 39 298 11 73 6 5 0 25 6 5 0 25 ...

Page 36: ...verter Installing the Inverter 25 SV0300 iS7 200 V IP00 Type Units mm inch Inverter Capacity W1 W2 W3 H1 H2 H3 D1 A B C SV0300 iS7 2 300 11 81 190 7 48 190 7 48 570 22 44 552 21 73 10 0 39 265 2 10 44 10 0 39 10 0 39 M8 ...

Page 37: ...the Inverter 26 SV0370 0450iS7 200 V IP00 Type Units mm inch Inverter Capacity W1 W2 W3 H1 H2 H3 D1 A B C SV0370 0450 iS7 2 370 14 56 270 10 63 270 10 63 630 24 8 609 23 97 11 0 43 281 2 11 07 10 0 39 10 0 39 M10 ...

Page 38: ...verter 27 SV0300 0450iS7 400 V Units mm inch Inverter Capacity W1 W2 H1 H2 H3 D1 D2 A B C SV300 450 iS7 4 300 1 11 81 242 8 9 55 594 1 23 38 562 22 12 24 1 0 94 DCR type 10 0 39 10 0 39 M8 303 2 11 93 161 6 33 Non DCR type 271 2 10 67 129 5 78 ...

Page 39: ...the Inverter 28 SV0550 0750iS7 200 V IP00 Type Units mm inch Inverter Capacity W1 W2 W3 H1 H2 H3 D1 A B C SV0550 0750 iS7 2 465 18 3 381 15 0 381 15 0 750 29 52 723 5 28 48 15 5 0 61 355 6 14 0 11 0 43 11 0 43 M16 ...

Page 40: ...r 29 SV0550 0750iS7 400 V Units mm inch Inverter Capacity W1 W2 H1 H2 H3 D1 D2 A B C SV0550 0750 iS7 4 370 1 14 57 312 8 12 31 663 5 26 12 631 4 24 85 24 1 0 94 DCR type 10 0 39 10 0 39 M8 373 3 14 69 211 5 8 32 Non DCR type 312 4 12 29 150 6 5 92 ...

Page 41: ...e Inverter 30 SV0900 1100iS7 400 V IP00 Type Units mm inch Inverter Capacity W1 W2 W3 H1 H2 H3 D1 A B C SV0900 1100 iS7 4 510 20 07 381 15 0 350 13 77 783 5 30 84 759 29 88 15 5 0 61 422 6 16 63 11 0 43 11 0 43 M16 ...

Page 42: ...nstalling the Inverter 31 SV1320 1600iS7 400 V IP00 Type Units mm inch Inverter Capacity W1 W2 W3 H1 H2 H3 D1 A B C SV1320 1600 iS7 4 510 20 07 381 15 0 350 13 77 861 33 89 836 5 32 93 15 5 0 61 422 6 16 63 11 0 43 11 0 43 M16 ...

Page 43: ...he Inverter 32 SV1850 2200iS7 400 V IP00 Type Units mm inch InverterCapacity W1 W2 W3 H1 H2 H3 D1 A B C SV1850 2200iS7 4 690 27 16 581 22 87 528 20 79 1078 42 44 1043 5 41 08 25 5 1 00 450 17 72 14 0 55 15 0 59 M20 ...

Page 44: ...33 SV2800iS7 400 V IP00 Type Units mm inch InverterCapacity W1 W2 W3 H1 H2 H3 D1 A B C SV2800iS7 4 771 30 35 500 19 69 500 19 69 1138 44 80 1110 43 70 15 0 59 440 17 32 13 0 51 13 0 51 M16 For 280 kW model types I volts are supplied with the product ...

Page 45: ... V IP00 Type Units mm inch InverterCapacity W1 W2 W3 H1 H2 H3 D1 A B C SV3150 3750iS7 4 922 36 30 580 22 83 580 22 83 1302 5 51 28 1271 5 50 06 15 0 59 495 19 49 14 0 55 14 0 55 M16 For 315 375 kW model types I volts are supplied with the product ...

Page 46: ...nverter 35 3 4 Exterior and Dimensions UL Enclosed Type 12 IP54 Type SV0008 0037iS7 200 V 400 V Units mm inch Inverter Capacity W1 W2 H1 H2 H3 D1 A B SV0008 0037 iS7 2 4 204 2 8 03 127 5 0 419 16 49 257 10 11 95 1 3 74 208 8 18 5 0 19 5 0 19 ...

Page 47: ...Installing the Inverter 36 SV0055 0075iS7 200 V 400 V Units mm inch Inverter Capacity W1 W2 H1 H2 H3 D1 A B SV0055 0075 iS7 2 4 254 10 0 176 6 92 460 6 18 13 327 12 87 88 1 3 46 232 3 9 14 5 0 19 5 0 19 ...

Page 48: ...verter Installing the Inverter 37 SV0110 0150iS7 200 V 400 V Units mm inch Inverter Capacity W1 W2 H1 H2 H3 D1 A B SV0110 0150 iS7 2 4 313 1 12 32 214 6 8 44 590 8 23 25 355 13 97 101 7 4 0 294 4 11 59 6 5 0 25 6 5 0 25 ...

Page 49: ...lling the Inverter 38 SV0185 0220iS7 200 V 400 V Units mm inch Inverter Capacity W1 W2 H1 H2 H3 D1 A B SV0185 0220 iS7 2 4 343 2 13 51 243 5 9 58 750 8 29 55 445 17 51 91 6 3 60 315 5 12 42 6 5 0 25 6 5 0 25 ...

Page 50: ...0 355 225 10 8 4 9 3 7 7 SV0110iS7 2 4 250 385 284 20 17 2 16 8 14 SV0150iS7 2 4 250 385 284 20 17 2 16 8 14 SV0185iS7 2 280 461 6 298 30 27 25 9 22 9 SV0220iS7 2 280 461 6 298 30 25 8 25 9 22 9 SV0185iS7 4 280 461 6 298 27 4 23 5 23 3 19 7 SV0220iS7 4 280 461 6 298 27 4 23 5 23 5 20 1 SV0300iS7 2 300 570 265 2 29 5 SV0370iS7 2 370 630 281 2 44 SV0450iS7 2 370 630 281 2 44 SV0550iS7 2 465 750 355 ...

Page 51: ... 4 510 784 423 101 SV1100iS7 4 510 784 423 101 SV1320iS7 4 510 861 423 114 SV1600iS7 4 510 861 423 114 SV1850iS7 4 690 1078 450 200 SV2200iS7 4 690 1078 450 200 SV2800iS7 4 771 1138 440 252 SV3150iS7 4 922 1302 5 495 352 SV3750iS7 4 922 1302 5 495 352 Note The weight specified in the table indicates the total weight of the product without packaging which includes built in parts such as the EMC fil...

Page 52: ... 208 8 2 7 2 7 7 6 7 SV0055iS7 2 4 254 461 232 12 8 10 2 12 1 9 5 SV0075iS7 2 4 254 461 232 12 9 10 3 12 2 9 6 SV0110iS7 2 4 313 591 294 25 6 22 8 22 4 19 6 SV0150iS7 2 4 313 591 294 25 9 23 1 22 7 19 9 SV0185iS7 2 343 751 316 38 3 34 2 34 1 29 9 SV0220iS7 2 34 751 316 38 3 34 2 34 1 29 9 SV0185iS7 4 343 751 316 34 9 31 31 27 1 SV0220iS7 4 343 751 316 34 9 31 31 27 1 Note The weight specified in t...

Page 53: ...P54 Type Products 3 7 1 Disassembling the Keypad Cover and Keypad 1 Loosen the screws that secure the keypad cover and remove the keypad cover 2 Depress the tab at the top of the keypad and gently lift the keypad from the inverter to remove it Be careful not to damage the keypad cable ...

Page 54: ...ss the tab on the keypad cable connector and disconnect the cable from the back of the keypad 3 7 2 Disassembling the IP54 Front Cover 1 Loosen the screws that secure the front cover to the chassis There are 9 13 screws on the cover depending on the model type ...

Page 55: ...Installing the Inverter 44 2 Remove the cover by lifting it upwards from the bottom 3 7 3 Mounting the Inverter 1 Remove the 4 rubber feet from the corners ...

Page 56: ... in a cabinet and use 4 screws or bolts to securely fix the inverter to the surface 3 7 4 Connecting the Power Cables Connect the power cables to the input R S T and output U V W terminals Then tighten the terminal screws Refer to 4 Connecting the Cables on page 48 for detailed information ...

Page 57: ... 3 7 5 Reassembling the IP54 Front Cover and the Keypad 1 Place the front cover on the chassis and align the screw holes on each side 2 Insert and tighten the screws There are 9 13 screws on the cover depending on the model type ...

Page 58: ...signal cable to the keypad align the lower part of the keypad to the bottom of the keypad receptacle and then push the top part of the keypad into the chassis until the keypad snaps into place 4 Place the keypad cover on top of the keypad and secure it using 2 screws ...

Page 59: ...o discharge any electricity before working on the PCB or wear an anti static wrist strap and ground it on a metal object 4 1 Removing the Front Cover for Cable Connection Wait at least 10 minutes before opening the covers and exposing the terminal connections Before working on the inverter test the connections to ensure the DC voltage has been fully discharged Personal injury or death by electric ...

Page 60: ...les Connecting the Cables 49 2 Depress the tab on the keypad cable connector and disconnect the cable from the back of the keypad 3 Loosen the screw from the bottom part of the front cover and then remove the front cover ...

Page 61: ...keypad cover and then remove the keypad cover 2 Depress the tab at the top of the keypad and gently lift the keypad from the inverter to remove it Be careful not to damage the keypad cable 3 Depress the tab on the keypad cable connector and disconnect the cable from the back of the keypad ...

Page 62: ...s 51 4 Remove the screws from each side of the front cover and then remove the front cover 4 1 3 90 375 kW 400 V and 30 75 kW 200 V Products 1 Loosen the two screws on the front cover 2 Slide the cover downwards and remove it from the inverter ...

Page 63: ...ilt in EMC filter refer to the following instructions to activate or deactivate it Do not activate the EMC filter if the inverter uses a power source with an asymmetrical grounding structure for example a grounded delta connection Personal injury or death by electric shock may result if the power source is not grounded properly 4 2 1 Up to 7 5 kW Inverters 1 Locate the plastic knockout cap that co...

Page 64: ...ns using a short circuit connector to activate the EMC filter 4 To remove the short circuit connector and deactivate the EMC filter pull the connector while pressing the latch on the side of the connector Use pliers or tweezers if you cannot reach the latch with your fingers ...

Page 65: ...o the ground terminal metal to activate the EMC filter EMC filter is turned ON An EMC filter prevents electromagnetic interference by reducing radio emissions from the inverter Using an EMC filter is not always recommended as it increases current leakage If an inverter uses a power source with an asymmetrical grounding connection the EMC filter must be turned off Before using the inverter confirm ...

Page 66: ... the Cables 55 Asymmetrical Grounding Connection One phase of a delta connection is grounded Intermediate grounding point on one phase of a delta connection The end of a single phase is grounded A 3 phase connection without grounding ...

Page 67: ...s not exceed 495 ft 150 m For inverters 3 7 kW capacity ensure that the total cable length does not exceed 165 ft 50 m Long cable runs can cause reduced motor torque in low frequency applications due to voltage drop Long cable runs also increase a circuit s susceptibility to stray capacitance and may trigger over current protection devices or result in the malfunction of equipment connected to the...

Page 68: ...verter is a high frequency switching device leakage current may occur during operation To avoid the danger of electrocution due to current leakage the inverter must be properly grounded Ground connection must be made to the specified ground terminal on the inverter Do not connect ground cables to chassis screws Note 200 V products require Class 3 grounding Resistance to ground must be 100 Ω 400 V ...

Page 69: ...1 Up to 7 5 kW Inverters R L1 S L2 T L3 3 phase AC input P B N U V W Dynamic brake resistor To motor 4 5 2 11 22 kW Inverters R L1 S L2 T L3 P B N U V W 4 5 3 30 75 kW Inverters R L1 S L2 T L3 P1 P2 N U V W 4 5 4 90 160 kW Inverters R L1 S L2 T L3 P2 N U V W ...

Page 70: ...DC reactor is not necessary for these inverters The inverter must be properly grounded using the ground terminal Note If the forward command Fx is turned on the motor should rotate counterclockwise when viewed from the load side of the motor If the motor rotates in the reverse direction switch the cables at the U and V terminals Remarque Si la commande avant Fx est activée le moteur doit tourner d...

Page 71: ...00 V 400 V Cable connection for utilizing the built in dynamic braking unit Connect the cables from the dynamic braking unit to the P and B terminals to utilize the built in dynamic braking unit Terminal Symbol Terminal Name Description R L1 S L2 T L3 AC power supply input terminals AC input terminals P DC voltage terminal DC link voltage terminal N DC voltage terminal DC link voltage terminal P B...

Page 72: ...rminals AC input terminals P DC voltage terminal DC link voltage terminal N DC voltage terminal DC link voltage terminal P B Dynamic brake resistor terminals Dynamic brake resistor terminals U V W Inverter output terminals Output terminals to a 3 phase induction motor 4 6 2 30 75 kW 200 V 400 V Connect the cables from the dynamic braking unit to the P and B terminals to utilize the built in dynami...

Page 73: ...urchase a 30 75 kW inverter that has a built in DC reactor When a built in DCR unit is present the P1 and P terminals are connected to the reactor s input and output terminals respectively If your product does not have a built in DCR unit the P2 and N terminals may be used as the common DC source Do not use the P1 terminal as the common DC source as this may result in product damage Use the P2 and...

Page 74: ...rminals Output terminals to a 3 phase induction motor 4 6 4 185 220 kW 400 V Connect the cables from the dynamic braking unit to the P2 and N terminals to utilize an external dynamic braking unit Terminal Symbol Terminal Name Description R L1 S L2 T L3 AC power supply input terminals AC input terminals N DC voltage terminal DC link voltage terminal P2 N Dynamic brake resistor terminal Dynamic brak...

Page 75: ...tomer Support before configuring the P2 and N terminals as the DC common source There are a few factors that require special attention for this application Apply rated torques to the terminal screws Loose screws may cause the terminals to short circuit and malfunction Tightening the screws too much may damage the terminals and cause them to short circuit and malfunction Only use copper wires with ...

Page 76: ...8 95 95 2 0 2 0 350 A 500 V 55 kW M10 89 7 122 0 120 120 3 0 3 0 400 A 500 V 75 kW M10 89 7 122 0 150 150 4 0 4 0 450 A 500 V 400V 0 75 1 5kW M4 7 1 12 2 5 2 5 14 14 10 A 500 V 2 2 kW M4 7 1 12 2 5 2 5 14 14 15 A 500 V 3 7 kW M4 7 1 12 2 5 2 5 14 14 20 A 500 V 5 5 kW M4 7 1 12 4 2 5 12 14 32 A 500 V 7 5 kW M4 7 1 12 4 4 12 12 35 A 500 V 11 kW M5 24 5 31 8 6 6 10 10 50 A 500 V 15 kW M5 24 5 31 8 10...

Page 77: ...able length does not exceed 495 ft 150 m For inverters with a capacity of less than 3 7 kW ensure that the total cable length does not exceed 165 ft 50 m Long cable runs can cause reduced motor torque in low frequency applications due to voltage drop Long cable runs also increase a circuit s susceptibility to stray capacitance and may trigger over current protection devices or result in the malfun...

Page 78: ...2 8 times the main power voltage If a switching device a magnetic contactor or relay is connected to the output side of the inverter high voltage surges may result whenever a switch is made regardless of the length of the motor cable Such high voltage surges can damage the inverter s output components such as the current sensor motor cables and the motor itself To protect the inverter and the moto...

Page 79: ...joncteurs UL Se reporter au tableau ci dessus pour la tension et le courant nominal des fusibless et des disjoncteurs 4 8 Control Terminal Wiring for iS7 Inverters Rated for Up To 22 kW The iS7 inverter supports both PNP Source and NPN Sink modes for sequence inputs at the terminal Select an appropriate mode to suit your requirements using the PNP NPN selection switch above the control terminal bl...

Page 80: ...ound terminal for all terminal inputs 4 8 2 PNP Mode Source Select PNP using the PNP NPN selection switch The factory default setting is NPN mode CM 24 V GND is the common ground terminal for all terminal inputs and 24 is the 24 V internal source If you are using an external 24 V source select PNP sink mode and build a circuit that connects the external source and the CM terminal ...

Page 81: ...n Terminals P1 P2 P3 P4 P5 P6 P7 P8 FX RX BX RST Sp L Sp M Sp H JOG Note The TR termination resistor switch is used to terminate the RS485 network connection 120 Ω For analog voltage input use a potentiometer rated at 0 5W 1kOhm Refer to 8 Table of Functions on page 154 for the multi function terminal configurations ...

Page 82: ...Connecting the Cables Connecting the Cables 71 4 9 Control Terminal Wiring for iS7 Inverters Rated for 30 kW or More 30 375 kW control terminal block ...

Page 83: ...quency reference using the analog voltage V input and no voltage input is received at the terminal an offset voltage may be applied to keep the frequency reference at approximately 4 5 Hz 4 10 Terminal Inputs for Inverter Operation Input Type Symbol Name Description Input signal Terminal input P1 P8 Multi function input1 8 Configurable for multi function input terminals Refer to 8 Table of Functio...

Page 84: ...O2 Multi function analog current output terminal Used to send inverter output information to external devices Output current 4 20 mA 0 20 mA Maximum output current 20 mA Terminal output Q1 Multi function terminal open collector DC 26 V below 100 mA EG Common terminal for open collector Common ground contact for an open collector with external power source 24 External 24 V power source Maximum outp...

Page 85: ...ency setting common terminal CM common terminal is used for terminal inputs only Common terminal of analog frequency setting signal and analog current and voltage terminals Q1 Multi function terminal open collector DC 26 V below 100 mA EG Ground terminal for external power Common terminal for an open collector external power source 24 External 24 V power supply 0 33 1 25 16 22 Maximum output curre...

Page 86: ...table for details on how to prevent damage to specific power systems Power supply system and ground type Varistors and Y CAP connection Effect Directly grounded system 2 pin connector on Reduced voltage stress and noise Non grounded or impedance ground system 2 pin connector off Reduced risk of inverter damage if ground fault occurs Note The 0 75 22 KW 400 V and 0 75 75 KW 200 V products do not su...

Page 87: ...front cover and then remove the front cover Be careful not to open the front cover with the keypad attached as this can damage the keypad cable Refer to the figure below and locate the SCR snubber board On the circuit board activate or deactivate the surge filter by connecting the two jumper pins or breaking the connection between the two pins using a jumper plug The filter is turned on when the j...

Page 88: ...les 77 Refer to the following figures to locate the jumper switch on the SCR snubber board and install or remove the jumper cap to activate or deactivate the built in surge filter SV900 1600iS7 400 V SV1850 2200iS7 400 V SV2800 3750iS7 400 V ...

Page 89: ...damage the inverter Are the motor output cables connected in the correct phase rotation U V W Caution motors will rotate in the reverse direction if three phase cables are not wired in the correct phase rotation Are the cables used in the power terminal connections correctly rated Is the inverter grounded correctly Are the power terminal screws and the ground terminal screws tightened to their spe...

Page 90: ...ial short circuit risk Are the control terminal connections separated from the power terminal connections Have the capacitors been replaced if they have been in use for 2 years Has a fuse been installed for the power source Are the connections to the motor separated from other connections Note STP Shielded Twisted Pair cables have a highly conductive shielded screen around twisted pair cables STP ...

Page 91: ...Start Easy Set Select Yes to start the inverter in Easy Start mode select No to start the inverter in Monitor mode CNF 01 Language Sel Select the keypad display language only English is available at the moment DRV 14 Motor Capacity Set the motor capacity Ex 0 75 kW 1 5 kW BAS 11 Pole Number Set the number of poles in the motor BAS 15 Rated Volt Set the rated motor voltage Set this value to 0 V if ...

Page 92: ...djust the settings if required 1 Set DRV 06 CMD source to 0 KEYPAD 2 Set DRV 07 Freq Ref Src to 0 Keypad 1 3 Set DRV 01 CMD Frequency to a temporary speed Ex 60 Hz 4 Press the FWD key on the keypad and ensure that the motor is rotating in the correct direction When the forward command Fx is on the motor should rotate counterclockwise when viewed from the load side of the motor If the motor rotates...

Page 93: ...Using the Keypad 82 5 Using the Keypad 5 1 About the Keypad A keypad is used to set inverter parameters monitor the inverter s status and operate the inverter 5 1 1 Dimensions ...

Page 94: ...r values Down key Left key Switch between groups or move the cursor during parameter setup or modification Right key MULTI key Used to register jog or user codes ESC key If you press this key before pressing the PROG ENT key it will revert the parameter value to the previous value If you press this key while editing the codes in any function group the keypad will display the first code of the func...

Page 95: ...s Monitor Mode Parameter Mode 5 1 4 Display Item List The following table lists the items in the display Item Description Mode display items Displays the current mode s display items For more details refer to 5 3 Navigating Modes on page 90 ...

Page 96: ...ing table lists display icons and their names and functions No Function Display Description 1 Operation mode MON Monitor mode PAR Parameter mode U M User defined and Macro mode TRP Trip mode CNF Configuration mode 2 Command source K Keypad operation command O FieldBus communication option operation command A Application option operation command R Built in 485 operation command T Terminal block ope...

Page 97: ...Motor stopped FWD Operating in the forward direction REV Operating in the reverse direction DC DC output WAN Warning STL Stalling SPS Speed Search OSS Software over current controlled OSH Hardware over current controlled TUN Auto tuning OSS OSH may cause overcurrent when the load is too large or when the acceleration deceleration time is short The inverter monitors the output current so that an ov...

Page 98: ...V iS7 series inverter uses 5 modes to monitor or configure different functions Each mode has its own function items suitable for the desired properties The parameters in Parameter mode and User Macro mode are divided into smaller groups of relevant functions ...

Page 99: ...at the time of the fault can be monitored This mode will not be displayed if the inverter is not at fault and a fault trip history does not exist Configuration mode CNF Used to configure the inverter features that are not directly related to the operation of the inverter The settings you can configure in Configuration mode include keypad display language options monitor mode environment settings c...

Page 100: ...pplication option group APO Configures the encoder and PLC option module related features if they are installed Protection group PRT Configures motor and inverter protection features Motor 2 function group Motor 2 M2 Configures the secondary motor related features This group will be displayed when Motor 2 is selected from the multi function input terminal functions 5 2 2 User Macro Mode Group Disp...

Page 101: ...isplay to navigate modes by using the MODE key The User Macro Mode and Trip Mode are not displayed when the inverter is set to the factory default settings Displays when the inverter is powered on This is the display of Monitor mode MON Press the MODE key You are now in Parameter mode PAR Press the MODE key ...

Page 102: ...de will be displayed unlike the factory default settings during mode navigation In addition when a trip occurs during operation Trip mode will be displayed The trip information will also be saved in the trip mode history if you release the trip using the RESET function The two modes for mode navigation are as follows Displays when the inverter is powered on This is the display of Monitor mode MON ...

Page 103: ...ing the Keypad 92 You are now in User Macro mode U M Press the MODE key You are now in Trip mode TRP Press the MODE key You are now in Config mode CNF Press the MODE key You are now in Monitor mode again ...

Page 104: ...g to the Parameter Mode or User Macro Mode via the Mode key 5 4 1 Group Navigation in Parameter mode If you press the Right key in Parameter mode the display will change as shown below If you press the Left key the display order will be reversed Displays when the inverter is powered on This is the display of Monitor mode MON Press the MODE key ...

Page 105: ...ight key You are now in the Basic Function Group BAS Press the Right key You are now in the Advanced Function Group ADV Press the Right key 7 times The group sequence will change and the Protection Function Group PRT will be displayed Press the Right key You are now in the Drive group DRV of the Parameter group again ...

Page 106: ...r code is registered and the macro function is selected you can navigate to the group as shown below Displays when the inverter is powered on This is the display of Monitor mode MON Press the MODE key twice You are now in the User Macro mode U M The User Group USR is displayed Press the Right key You are now in the Macro group MC1 Press the Right key You are now in the User Group USR again ...

Page 107: ...wered on This display is in Monitor mode The cursor is located at the frequency item Press the Down key The second display item displays the output current Do not press any key for approximately 2 seconds after navigation The output current text has disappeared and the cursor has moved to the second display item Press the Down key The third display item displays the output voltage Do not press any...

Page 108: ...ed and the cursor has moved to the first display item 5 5 2 Code Navigation function items in Other Modes and Groups Using the Up and Down keys The following example demonstrates how to navigate through the codes in the Drive DRV group and the Basic BAS group of Parameter mode Code navigation in other modes is the same as follows Displays when the inverter is powered on This display is in Monitor ...

Page 109: ...r mode You can navigate through the codes using the Up or Down keys 5 5 3 Code Navigation Using Jump Code In the Parameter mode and User Macro mode groups you can use the Jump Code Entry item to move to a desired code It is quicker to move to a large code number using the Jump Code Entry item rather than the Up and Down keys The following example demonstrates how to move to code No 09 of the Drive...

Page 110: ... the Keypad The cursor flashes and you can enter the code number Press the Up key to enter 9 and then press the PROG ENT key You have moved to code No 09 of the DRV group Press the ESC key to move to code No 00 of the DRV group ...

Page 111: ...at the cursor is at the frequency item Also ensure that the frequency can be set to 09 in the Drive DRV group using the keypad Press the PROG ENT key Detailed information of the item is displayed and the cursor flashes Press the Left or Right keys to move the cursor to the desired location to set the frequency Press the Up key to set the frequency to 10 Hz Press the PROG ENT key The frequency refe...

Page 112: ...ps can be set as follows This is the initial display in Parameter mode Press the Down key You have moved to the 01 frequency setting code Press the PROG ENT key The cursor flashes and you can enter the desired frequency If the frequency reference is set to 10 Hz press the Left or Right keys to move the cursor to the desired place Press the Up key to enter 10 Hz and then press the PROG ENT key The ...

Page 113: ...equency current and voltage are set as the default monitor items The frequency reference is displayed when the inverter operation has stopped and the operating frequency is displayed when the inverter is operating You can set the items to display in Monitor mode in sequence from 21 to 23 in Configuration CNF mode Press the Down key to move to code No 23 Change the code No 23 item in Monitor mode t...

Page 114: ... 2 2 Output Current 2 Output Current 23 Monitor Line 3 3 Output Voltage 3 Output Voltage 4 Output Power 5 WHour Counter 6 DCLink Voltage 7 DI Status 8 DO Status 9 V1 Monitor V 10 V1 Monitor 11 I1 Monitor mA 12 I1 Monitor 13 V2 Monitor V 14 V2 Monitor 15 I2 Monitor mA 16 I2 Monitor 17 PID Output 18 PID Ref Value 19 PID Fdb Value 20 Torque 21 Torque Limit 22 Trq Bias Ref 23 Speed Limit 24 Load Speed...

Page 115: ...or change This is the initial display of Monitor mode When the inverter settings are set to the factory default the status item displays the frequency Select the item to display in the status display in code 20 of Configuration CNF mode Press the PROG ENT key to change the item to the output current The unit at the top of the display is changed from hertz frequency to amps current Ensure that the ...

Page 116: ...Trip mode automatically and displays the type of fault trip that has occurred Press the Down key to view the information on the inverter at the time of the fault including the output frequency current and operating status When the inverter is reset and the fault trip is released the keypad display returns to the screen that was displayed before the fault trip occurred ...

Page 117: ...ayed Press the PROG ENT key The display mode that was shown before you checked the fault information is displayed 5 8 3 Saving and Monitoring the Fault Trip History Previous fault trips can be saved in Trip mode You can save up to 5 previous fault trips Fault trips caused by resetting the inverter as well as low voltage faults caused by the inverter being switched off are also saved If there are m...

Page 118: ...entered on the terminal the fault trip is automatically saved and the display status that was displayed before the fault trip occurred is displayed Press the MODE key to move to Trip mode The most recent fault trip is saved in the Last 1 code Press the Right key The previous fault trips are saved in the Last 2 code If another fault trip occurs the previous fault trips saved in the Last 2 code move...

Page 119: ... the entire parameter you can also select the individual parameter mode to be initialized Monitor mode is displayed Press the MODE key to move to Configuration CNF mode Press the Down key to move to code No 40 Press the PROG ENT key Of the parameter items to initialize select All Groups and then press the PROG ENT key ...

Page 120: ...Using the Keypad 109 Using the Keypad The Parameter Initialization option is displayed again when the initialization is complete ...

Page 121: ...peration The keypad analog inputs for example voltage V1 and current I1 signals or RS 485 digital signals from higher level controllers such as PCs or PLCs can be used Group Code Name LCD Display Parameter Setting Setting Range Unit DRV 07 Frequency reference source Freq Ref Src 0 KeyPad 1 0 9 1 KeyPad 2 2 V1 3 I1 4 V2 5 I2 6 Int 485 7 Encoder 8 Field Bus 9 Pulse ...

Page 122: ...DOWN cursor keys to modify a frequency reference To use this as a second option set the keypad as the source of the frequency reference by going to DRV 07 Frequency reference source and changing the parameter value to 1 Keypad 2 This allows frequency reference values to be increased or decreased by pressing the UP and DOWN cursor keys Group Code Name LCD Display Parameter Setting Setting Range Uni...

Page 123: ...rce Freq Ref Src 2 V1 0 9 IN 01 Frequency at maximum analog input Freq at 100 Maximum frequency 0 00 max frequency Hz 05 V1 input monitor V1 Monitor V 0 00 0 00 10 00 V 06 V1 polarity options V1 Polarity 0 Unipolar 0 1 07 V1 input filter time constant V1 Filter 10 0 10000 ms 08 V1 minimum input voltage V1 volt x1 0 00 0 00 10 00 V 09 V1 output at minimum voltage V1 Perc y1 0 00 0 00 100 00 10 V1 m...

Page 124: ... codes IN 01 IN 16 The motor will run at 30 00 Hz 50 of the default maximum frequency 60 Hz when a 10 V input is provided at V1 IN 05 V1 Monitor V Configures the inverter to monitor the input voltage at V1 IN 07 V1 Filter The V1 filter may be used when there are large variations between reference frequencies Variations can be mitigated by increasing the time constant but this requires an increased...

Page 125: ...sing the value will reduce responsiveness and may cause pulsations ripples in the output frequency Parameter values for quantizing refer to a percentage based on the maximum input Therefore if the value is set to 1 of the maximum analog input 60 Hz the output frequency will increase or decrease by 0 6 Hz for every 0 1 V change in voltage When the analog input is increased an increase in the input ...

Page 126: ...Basic Functions 115 Basic Functions Code Description V1 Quantizing ...

Page 127: ...ut voltage from an external source to provide an input to V1 External source application Internal source VR application V1 terminal wiring Bipolar input voltage and output frequency Group Code Name LCD Display Parameter Setting Setting Range Unit DRV 07 Frequency reference source Freq Ref Src 2 V1 0 9 IN 01 Frequency at maximum analog input Freq at 100 60 00 0 max frequency Hz ...

Page 128: ...rc y2 100 00 100 00 0 00 Rotational Directions for Different Voltage Inputs Command Voltage Input Input voltage 0 10 V 10 0 V FWD Forward Reverse REV Reverse Forward 10 10 V Voltage Input Setting Details Code Description IN 12 V1 volt x1 IN 15 V1 Perc y2 Sets the gradient level and offset value of the output frequency in relation to the input voltage These codes are displayed only when IN 06 is se...

Page 129: ...Basic Functions 118 Code Description For details about the 0 10 V analog inputs refer to the code descriptions IN 08 V1 volt x1 IN 11 V1 Perc y2 on page 113 ...

Page 130: ...rc 3 I1 0 9 IN 01 Frequency at maximum analog input Freq at 100 60 00 0 max frequency Hz 20 I1 input monitor I1 Monitor 0 00 0 00 20 00 mA 22 I1 input filter time constant I1 Filter 10 0 10000 ms 23 I1 minimum input current I1 Curr x1 4 00 0 00 20 00 mA 24 I1 output at minimum current I1 Perc y1 0 00 0 100 25 I1 maximum input current I1 Curr x2 20 00 4 00 20 00 mA 26 I1 output at maximum current I...

Page 131: ...60 Hz and IN 23 26 an input current of 20 mA max to I1 will produce a frequency reference of 30 00 Hz 50 of 60 Hz IN 20 I1 Monitor Used to monitor the input current at I1 IN 22 I1 Filter Configures the time for the operation frequency to reach 63 of the target frequency based on the input current at I1 IN 23 I1 Curr x1 IN 26 I1 Perc y2 Configures the gradient level and offset value of the output f...

Page 132: ...minal Group Code Name LCD Display Parameter Setting Setting Range Unit DRV 07 Frequency reference source Freq Ref Src 4 V2 0 9 IN 35 V2 input display V2 Monitor 0 00 10 00 10 00 V 37 V2 input filter time constant V2 Filter 10 0 10000 ms 38 Minimum V2 input voltage V2 Volt x1 0 00 0 00 10 00 V 39 Output at minimum V2 voltage V2 Perc y1 0 00 0 00 100 00 40 Maximum V2 input voltage V2 Volt x2 10 00 0...

Page 133: ...e I2 terminal Group Code Name LCD Display Parameter Setting Setting Range Unit DRV 07 Frequency reference source Freq Ref Src 5 I2 0 9 50 I2 input monitor I2 Monitor 0 00 0 00 20 00 mA 52 I2 input filter time constant I2 Filter 10 0 10000 ms 53 I2 minimum input current I2 Curr x1 4 00 0 00 20 00 mA 54 I2 output at minimum current I2 Perc y1 0 00 0 100 55 I2 maximum input current I2 Curr x2 20 00 4...

Page 134: ...Src 7 Encoder 0 9 IN 01 Frequency at maximum analog input Freq at 100 60 00 0 00 max frequency Hz APO 01 Encoder option mode Enc Opt Mode 2 Reference 0 2 04 Encoder type selection Enc Type Sel 0 0 2 05 Encoder pulse selection Enc Pulse Sel 2 A 0 2 06 Encoder pulse number Enc Pulse Num 10 4096 09 Pulse input display Pulse Monitor kHz 10 Encoder filter time constant Enc Filter 10 0 10000 ms 93 Minim...

Page 135: ...e to use APO 06 Enc Pulse Num Sets the number of pulses that is appropriate for the encoder specification APO 09 Pulse Monitor Displays the pulse frequency supplied at the encoder option module when APO 1 is set to 2 Reference APO 10 Enc Filter Sets the time for the pulse input to reach 63 of its nominal frequency when the pulse frequency is supplied in multiple steps APO 11 Enc Pulse x1 IN 96 Enc...

Page 136: ... for communication Group Code Name LCD Display Parameter Setting Setting Range Unit DRV 07 Frequency reference source Freq Ref Src 6 Int 485 0 9 COM 01 Integrated RS 485 communication inverter ID Int485 St ID 1 1 250 02 Integrated communication protocol Int485 Proto 0 ModBus RTU 0 2 1 ModBus ASCII 2 LS Inv 485 04 Integrated communication speed Int485 BaudR 3 9600 bps 1200 38400 bps 04 Integrated c...

Page 137: ...ction input as the analog frequency hold terminal The operation frequency will be linked to the analog input signal Group Code Name LCD Display Parameter Setting Setting Range Unit DRV 07 Frequency reference source Freq Ref Src 0 Keypad 1 0 9 1 Keypad 2 2 V1 3 I1 4 V2 5 I2 6 Int 485 7 Encoder 8 Field Bus 9 PLC IN 65 75 Px terminal configuration Px Define Px P1 P8 optional P9 P11 Optional P9 11 21 ...

Page 138: ...s Step 0 uses the frequency reference source set at DRV 07 Px terminal parameter values 7 Speed L 8 Speed M 9 Speed H and 10 Speed X are recognized as binary commands and work in combination with Fx or Rx run commands The inverter operates according to the frequencies set at BAS 50 64 multi step frequency 1 15 and the binary command combinations Group Code Name LCD Display Parameter Setting Settin...

Page 139: ... inputs and then set the relevant codes IN 65 75 to 7 Speed L 8 Speed M 9 Speed H or 10 Speed X Provided that terminals P6 P7 and P8 have been set to Speed L Speed M and Speed H respectively the following multi step operation will be available An example of a multi step operation Speed Fx Rx P8 P7 P6 0 1 2 3 4 5 6 7 By setting the Speed X you can configure up to 16 multi step speeds where ...

Page 140: ...N 89 InCheck Time Set a time interval for the inverter to check for additional terminal block inputs after receiving an input signal After IN 89 is set to 100 ms and an input signal is received at P6 the inverter will search for inputs at other terminals for 100 ms before proceeding to accelerate or decelerate based on the configuration at P6 ...

Page 141: ...Setting Range Unit DRV 06 Command Source Cmd Source 0 Keypad 0 5 1 Fx Rx 1 2 Fx Rx 2 3 Int 485 4 Field Bus 5 PLC 6 5 1 The Keypad as a Command Input Device Set DRV 06 to 0 Keypad to select the keypad as the command source Since the keypad is now the command source forward or reverse operation starts when the FWD or REV key is pressed and it stops when the STOP RESET key is pressed Group Code Name ...

Page 142: ...a stop command that will cause the inverter to stop operating Group Code Name LCD Display Parameter Setting Setting Range Unit DRV 06 Command source Cmd Source 1 Fx Rx 1 0 5 IN 65 75 Px terminal configuration Px Define Px P1 P8 optional P9 P11 1 Fx 0 51 2 Rx 88 Delay time setting Run On Delay 1 00 0 00 100 00 Sec Fwd Rev Command by Multi function Terminal Setting Details Code Description DRV 06 Cm...

Page 143: ...tion direction On Rx Off Fx Group Code Name LCD Display Parameter Setting Setting Range Unit DRV 06 Command source Cmd Source 2 Fx Rx 2 0 5 IN 65 75 Px terminal configuration Px Define Px P1 P8 optional P9 P11 1 Fx 2 Rx 88 Delay time setting Run On Delay 1 00 0 00 100 00 Sec Run Command and Fwd Rev Change Command Using Multi function Terminal Setting Details Code Description DRV 06 Cmd Source Set ...

Page 144: ...urce 3 Int 485 0 5 COM 04 Integrated communication inverter ID Int485 St ID 1 1 250 05 Integrated communication protocol Int485 Proto 0 ModBus RTU 06 Integrated communication speed Int485 BaudR 3 9600 bps 1200 38400 bps 07 Integrated communication frame setup Int485 Mode 0 D8 PN S1 6 6 Forward or Reverse Run Prevention The rotation direction of motors can be configured to prevent motors from runni...

Page 145: ...the run commands by terminal inputs if they are configured Use caution when operating the inverter with Power on Run enabled as the motor will begin rotating when the inverter starts up To enable Power on Run set DRV 06 command source to 1 Fx Rx 1 or 2 Fx Rx 2 and ADV 10 to 1 If a run command via a terminal input is on the inverter starts operating according to the terminal input settings as soon ...

Page 146: ...frequency set BAS 08 Acc Dec reference to 0 Max Freq The acceleration time set at DRV 03 Acceleration time refers to the time required for the inverter to reach the maximum frequency from a stopped state 0 Hz Likewise the value set at DRV 04 Deceleration time refers to the time required to return to a stopped state 0 Hz from the maximum frequency Group Code Name LCD Display Parameter Setting Setti...

Page 147: ...elated values It is particularly useful when more accurate acc dec times are required due to load characteristics or when the maximum time range needs to be extended Configuration Description 0 0 01 sec Sets 0 01 second as the minimum unit 1 0 1 sec Sets 0 1 second as the minimum unit 2 1 sec Sets 1 second as the minimum unit Note that the range of maximum time values may change automatically when...

Page 148: ...eration time Dec Time 30 0 0 0 600 0 sec BAS 08 Acc Dec reference Ramp T Mode 1 Delta Freq Max Freq Delta Freq Acc Dec Time Based on Operation Frequency Setting Details Code Description BAS 08 Ramp T Mode Set BAS 08 to 1 Delta Freq to set acc dec times based on operation frequency Configuration Description 0 Max Freq Set the acc dec time based on the maximum frequency 1 Delta Freq Set the acc dec ...

Page 149: ... Acc Time x x xx 0 0 600 0 sec 71 73 75 Multi step deceleration time1 3 Dec Time x x xx 0 0 600 0 sec IN 65 75 Px terminal configuration Px Define Px P1 P8 optional P9 P11 11 XCEL L 12 XCEL M 49 XCEL H 89 Multi step command delay time In Check Time 1 1 5000 ms Acc Dec Time Setup via Multi function Terminals Setting Details Code Description BAS 70 72 74 Acc Time 1 3 Set multi step acceleration time...

Page 150: ...l block inputs If IN 89 is set to 100 ms and a signal is supplied to the P6 terminal the inverter searches for other inputs over the next 100 ms When the time expires the acc dec time will be set based on the input received at P6 6 8 4 Configuring Acc Dec Time Switch Frequency By configuring the switch frequency you can switch between two different sets of acc dec times acc dec gradients without c...

Page 151: ...t the acc dec gradients configured at BAS 70 and 71 will be used when the inverter s operation frequency is at or below the switch frequency If the operation frequency exceeds the switch frequency the gradient level configured for the acceleration and deceleration times set at DRV 03 and DRV 04 will be used If you configure the P1 P8 optional P9 P11 multi function input terminals for multi step ac...

Page 152: ...er adjusts the voltage and supplies the motor with the voltage set at BAS 15 motor rated voltage If the motor s rated voltage is higher than the input voltage at the inverter the inverter will supply the inverter input voltage to the motor If BAS 15 motor rated voltage is set to 0 the inverter corrects the output voltage based on the input voltage in the stopped condition If the frequency is highe...

Page 153: ...perates when PRT 27 is set to any value other than 0 Over Current1 Latch Displayed when the inverter output current exceeds 200 of the rated current Over Voltage Latch Displayed when the internal DC circuit voltage exceeds the specified value Low Voltage Level Displayed when the internal DC circuit voltage is less than the specified value Ground Trip Latch Displayed when a ground fault trip occurs...

Page 154: ...als Type Category Details Remarks Fuse Open Latch Displayed when the inverter DC fuse is exposed to an overcurrent above 30 kW Over Heat Latch Displayed when the temperature of the inverter heat sink exceeds the specified value Over Current2 Latch Displayed when the DC circuit in the inverter detects a specified level of excessive short circuit current External Trip Latch Displayed when an externa...

Page 155: ...terminal block Operates when PRT 34 is set to any value other than 0 ParaWrite Trip Latch Displayed when communication fails during parameter writing Occurs when using an LCD keypad due to a control cable fault or a bad connection Over Speed Trip Latch Displayed when the motor speed exceeds the overspeed detection level Set the detection level at PRT 70 Dev Speed Trip Latch Displayed when the spee...

Page 156: ...and a communication mode Set PRT 12 to any value other than 0 Option Trip 1 Latch Displayed when the extension module is removed from option slot No 1 after it was installed while the inverter was turned on or when communication is not available with the inverter Option Trip 2 Latch Displayed when the extension module is removed from option slot No 2 after it was installed during power supply or w...

Page 157: ... Over Load Displayed when the accumulated overload time is equivalent to 60 of the inverter overheat protection inverter IOLT level Set the digital output terminal or relay OUT31 33 to 5 IOL to receive inverter overload warning output signals Lost Command The Lost Command warning alarm occurs even when PRT 12 is set to 0 The warning alarm occurs based on the condition set at PRT 13 15 Set the digi...

Page 158: ...pacity ratings The set value for the overload trip level PRT 21 is too low Increase the set value for the overload trip level Under Load There is a motor load connection problem Replace the motor and inverter with lower capacity models The set value for the underload level PRT 29 and PRT 30 is less than the system s minimum load Increase the set value for the underload level Over Current1 Acc dec ...

Page 159: ...lt has occurred in the inverter output wiring Check the output wiring The motor insulation is damaged Replace the motor E Thermal The motor has overheated Reduce the load or operation frequency The inverter load is greater than the rated capacity Replace the inverter with a model that has increased capacity Out Phase Open The magnetic contactor on the output side has a connection fault Check the m...

Page 160: ...ow Keep the ambient temperature above 10 There is a fault with the internal temperature sensor Contact the retailer or the LSIS Customer Support FAN Trip There is a foreign object in the inverter vent where the fan is located Remove the foreign object from the air inlet or outlet The cooling fan needs to be replaced Replace the cooling fan IP54 FAN Trip The fan connector is not connected Connect t...

Page 161: ...t on the bottom in the direction of the arrows in the diagram below and then pull it forward Then disconnect the fan connector Below 3 7 kW Below 7 5 kW 7 4 2 Products Rated at 11 15 kW 200 V 400 V and 18 5 22 kW 400 V To replace the cooling fan loosen the screws at the bottom of the input and output terminals and disconnect the fan connector ...

Page 162: ...roducts Rated at more than 30 kW 200 V 90 kW 400 V and 18 5 22 kW 200 V 30 75 kW 200 400 V To replace the cooling fan loosen the screws at the top of the product and disconnect the fan connector Model types 30 kW 200 V Model types 90 kW 400 V 18 5 22 kW 200 V 30 75 kW 400V ...

Page 163: ...ere any abnormal vibrations or noise Visual inspection Noabnormality Power voltage Aretheinput and output voltages normal Measure voltages betweenR S T phasesinthe inverter terminal block Digital multimeter tester Input Out putcircuit Total 1 Meggertest between input output terminalsand and earth terminal 2 Isthere anythingloose inthedevice 3 Isthereany evidenceof overheatingin eachpart 4 Cleaning...

Page 164: ...uberance 3 Checkthe powerfailure capacity 1 2 Visual inspection 3 Measurewith acapacity meter 1 2 No abnormality 3 Rated capacity over85 Capacitymeter Relay 1 Isthereany chatteringnoise during operation 2 Isthereany damagetothe contacts 1 2 Visual inspection 1 2 No abnormality Braking resistor 1 Isthereany damagefrom resistance 2 Checkfor disconnection 1 Visual inspection 2 Disconnect onesideand m...

Page 165: ...abnormal vibration or sound 2 Areanyofthe fanpartsloose 1 Turnitmanually whiletheinverter isturnedoff 2 Checkall connected parts andtightenall screws 1 Itshouldturn smoothly 2 Noabnormality Display Meter Isthedisplay valuenormal Checkthe command value onthedisplay device Specifiedand managedvalues mustmatch Voltmeter ammeter etc Motor Total 1 Arethereany abnormal vibrations or sound 2 Isthereany a...

Page 166: ...w75kW 30 0 O O O O O O Above90kW 90 0 06 0h1106 CmdSource Commandsource 0 Keypad 1 Fx Rx 1 X O O O O O 1 Fx Rx 1 2 Fx Rx 2 3 Int485 4 FieldBus 5 PLC 07 0h1107 FreqRefSrc Frequency referencesource 0 Keypad 1 0 Keypad 1 X O O O X X 1 Keypad 2 2 V1 08 0h1108 TrqRefSrc Torquereference source 3 I1 X X X X O O 4 V2 5 I2 6 Int485 7 Encoder 8 FieldBus 09 Note1 0h1109 ControlMode Controlmode 0 V F 0 V F X ...

Page 167: ... 22 220kW 23 280kW 24 315kW 25 375kW 26 450kW Dependent on inverter capacity X O O O O O 15 0h110F Torque Boost Torque boost method 0 Manual 0 Manual X O X X X X 1 Auto 2 Advanced Auto 16 Not e2 0h1110 Fwd Boost Forward torque boost 0 15 Below 75kW 2 0 X O X X X X Above 90kW 1 0 17 0h1111 Rev Boost Reverse torque boost 0 15 Below 75kW 2 0 X O X X X X Above 90kW 1 0 18 0h1112 Base Freq Base frequen...

Page 168: ...lter Adv ATB Filter 1 1000 msec 100 O X X X O O 27 0h111B Adv ATB M Gain Adv ATB M Gain 0 300 0 50 0 O O O O O O 28 0h111C Adv ATB G Gain Adv ATB G Gain 0 300 0 50 0 O O O O O O 30 0h111E kW HP Select kW HP Select 0 kW 0 kW O O O O X X 1 HP The grey cells indicate a hidden code which is only visible when setting a code Note3 DRV 26 28 code is displayed only when DRV 15 Torque Boost code value is A...

Page 169: ...xiliary command calculation type 0 M G A 0 M G A X O O O X X 1 M G A 2 M G A 3 M M G A 4 M G 2 A 50 5 M G 2 A 50 6 M G 2 A 50 7 M M G 2 A 50 03 0h1203 Aux Ref Gain Auxiliary command gain 200 0 200 0 100 0 O O O O X X 04 0h1204 Cmd 2nd Src Second command source 0 Keypad 1 Fx Rx 1 X O O O O O 1 Fx Rx 1 2 Fx Rx 2 3 Int 485 4 FieldBus 5 PLC 05 0h1205 Freq 2nd Src Second frequency source 0 Keypad 1 0 K...

Page 170: ... sec 10 0h120A 60 50 Hz Sel Input power frequency 0 60 Hz 0 60 Hz X O O O O O 1 50 Hz 11 0h120B Pole Number Number of motor poles 248 Dependent on inverter capacity X O O O O O 12 0h120C Rated Slip Rated slip speed 0 3000 rpm X O O O O O 13 0h120D Rated Curr Motor rated current 1 1000 A X O O O O O 14 0h120E Noload Curr Motor no load current 0 5 1000 A X O O O O O 15 0h120F Rated Volt Motor rated ...

Page 171: ... Hz 60 00 X O X X X X 48 0h1230 User Volt 4 User voltage 4 0 100 100 X O X X X X 50 Note6 0h1232 Step Freq 1 Multi step speed frequency 1 Starting frequency maximum frequency Hz 10 00 O O O O X X 51 0h1233 Step Freq 2 Multi step speed frequency 2 20 00 O O O O X X 52 0h1234 Step Freq 3 Multi step speed frequency 3 30 00 O O O O X X 53 0h1235 Step Freq 4 Multi step speed frequency 4 40 00 O O O O X...

Page 172: ...Time 5 Multi step deceleration time 5 0 600 sec 60 0 O O O O X X 79 0h124F Dec Time 5 Multi step deceleration time 5 0 600 sec 60 0 O O O O X X 80 0h1250 Acc Time 6 Multi step deceleration time 6 0 600 sec 70 0 O O O O X X 81 0h1251 Dec Time 6 Multi step deceleration time 6 0 600 sec 70 0 O O O O X X 82 0h1252 Acc Time 7 Multi step deceleration time 7 0 600 sec 80 0 O O O O X X 83 0h1253 Dec Time ...

Page 173: ...n 0 None 0 None X O O O X X 1 ForwardPrev 2 ReversePrev 10 0h130A Power onRun Startwithpoweron 0 No 0 No O O O O X X 1 Yes 12 Note8 0h130C Dc StartTime StartingDCbrakingtime 0 60 sec 0 00 X O O O X X 13 0h130D DcInjLevel DCsupply 0 200 50 X O O O X X 14 Note9 0h130E Dc BlockTime Outputblockingtime beforeDCbraking 0 60 sec 0 10 X O O O X X 15 0h130F Dc BrakeTime DCbrakingtime 0 60 sec 1 00 X O O O ...

Page 174: ...ncy upper limit 3 Jump frequency lower limit 3 maximum frequency Hz 35 00 O O O O X X 34 Note10 0h1322 Jog Freq Limit Jog frequency limit 0 No 1 Yes O O O O X X 1 Yes 41 Note12 0h1329 BR Rls Curr Brake release current 0 180 0 50 0 O O O O X X 42 0h132A BR Rls Dly Brake release delay time 0 10 00 sec 1 00 X O O O X X 44 0h132C BR Rls Fwd Fr Brake release forward frequency 0 400 Hz 1 00 X O O O X X ...

Page 175: ...X O O O O O 68 0h1344 Off C Level Output contact point Off level 100 00 output contact point On level 10 00 X O O O O O 70 0h1346 Run En Mode Safe operation selection 0 Always Enable 0 Always Enable X O O O O O 1 DI Dependent 71 Note14 0h1347 Run Dis Stop Safe operation stop method 0 Free Run 0 Free Run X O O O O O 1 Q Stop 2 Q Stop Resume 72 0h1348 Q Stop Time Safe operation deceleration time 0 6...

Page 176: ... frequency 0 maximum frequency Hz 0 00 O O O O X X 92 0h135C SlipGain Mot H slip compensation offsetting gain H 0 200 50 O O X X X X 93 0h135D SlipGain Gen H slip compensation regenerative gain H 0 200 50 O O X X X X 94 0h135E SlipGain Mot L slip compensation offsetting gain L 0 200 50 O O X X X X 95 0h135F SlipGain Gen L slip compensation regenerative gain L 0 200 50 O O X X X X 96 0h1360 Slip Fi...

Page 177: ...ime Continued operation duration 0 60 sec Dependent on control mode X X X O X X 12 0h140C ASR P Gain 1 Speed controller proportional gain 1 10 500 50 0 O X X O X X 13 0h140D ASR I Gain 1 Speed controller integral gain 1 10 9999 msec 300 O X X O X X 15 0h140F ASR P Gain 2 Speed controller proportional gain 2 10 500 50 0 O X X O X X 16 0h1410 ASR I Gain 2 Speed controller integral gain 2 10 9999 ms ...

Page 178: ...10500 O X X X X X 27 0h141B Observer Gain2 Sensorless2 measurer gain 2 1 1000 100 0 O X X X X X 28 0h141C Observer Gain3 Sensorless2 measurer gain 3 0 30000 13000 O X X X X X 29 0h141D S Est P Gain1 Sensorless2 speed estimator proportional gain 1 0 30000 Dependent on motor capacity O X X X X X 30 0h141E S Est I Gain1 Sensorless2 speed estimator integral gain 1 0 30000 Dependent on motor capacity O...

Page 179: ...urrent controller I gain 0 10000 120 O X O O O O 51 0h1433 ASR Ref LPF Speed controller reference filter 0 20000 ms 0 X X O O X X 52 0h1434 Torque Out LPF Torque controller output filter 0 2000 ms 0 X X X X O O 53 0h1435 Torque Lmt Src Torque limit setting options 0 Keypad 1 0 Keypad 1 X X X X O O 1 Keypad 2 2 V1 3 I1 4 V2 5 I2 6 Int 485 7 Encoder 8 FieldBus 9 PLC 10 Synchro 11 Binary Type 54 Note...

Page 180: ... 4 V2 5 I2 6 Int 485 7 FieldBus 8 PLC 63 0h143F FWD Speed Lmt Forward speed limit 0 maximum frequency Hz 60 00 O X X X X O 64 0h1440 REV Speed Lmt Reverse speed limit 0 maximum frequency Hz 60 00 O X X X X O 65 0h1441 Speed Lmt Gain Speed limit operation gain 100 5000 500 O X X X X O 66 0h1442 Droop Perc Droop operation amount 0 100 0 0 O X X X X O 67 Note20 0h1443 Droop St Trq Droop start torque ...

Page 181: ...search integral gain 0 9999 200 O O O X X X 75 0h144B SS Block Time Output block time before speed search 0 60 sec 1 0 X O O X X X 77 0h144D KEB Select Energy buffering selection 0 None 0 None X O O O X X 1 KEB 1 2 KEB 2 78 Note21 0h144E KEB Start Lev Energy buffering start level 110 200 125 0 X O O O X X 79 0h144F KEB Stop Lev Energy buffering stop level 130 210 130 0 X O O O X X 80 0h1450 KEB Ga...

Page 182: ...o 0 No O O X X X X 1 Yes 91 0h145B AHR P Gain Gain from current hunting prevention 0 32767 1000 X O X X X X The grey cells indicate a hidden code which is only visible when setting a code Note21 CON 72 75 are displayed only when CON 71 77 is set as a bit or other than None Note22 CON 82 83 are displayed only when DRV 09 Control Mode is set as Vector Note23 CON 78 79 86 89 are displayed only when C...

Page 183: ...y2 V1 maximum output voltage 0 100 100 00 O O O O O O 12 Note24 0h150C V1 Volt x1 V1 minimum input voltage 10 0 V 0 00 O O O O O O 13 0h150D V1 Perc y1 V1 minimum output voltage 100 0 0 00 O O O O O O 14 0h150E V1 Volt x2 V1 maximum input voltage 10 0 V 10 00 O O O O O O 15 0h150F V1 Perc y2 V1 maximum output voltage 100 0 100 00 O O O O O O 16 0h1510 V1 Inverting Rotation direction change 0 No 0 ...

Page 184: ... 00 O 121 O O O O O 44 0h152C V2 Volt x2 V2 maximum input voltage 10 0 V 10 00 O 121 O O O O O 45 0h152D V2 Perc y2 Output at V2 maximum voltage 100 0 100 00 O 121 O O O O O 46 0h152E V2 Inverting Rotation direction change 0 No 0 No O 121 O O O O O 1 Yes 47 0h152F V2 Quantizing V2 quantization level 0 04 10 0 04 O 121 O O O O O 50 0h1532 I2 Monitor mA I2 input display 0 20 mA 0 00 O 122 O O O O O ...

Page 185: ... O O O O 71 0h1547 P7 Define P7 terminal function setting 7 Speed L 9 Sp H X O O O O O 72 0h1548 P8 Define P8 terminal function setting 8 Speed M 6 JOG X O O O O O 73 Note26 0h1549 P9 Define P9 terminal function setting 9 Speed H 0 NONE X O O O O O 74 0h154A P10 Define P10 terminal function setting 10 Speed X 0 NONE X O O O O O 75 0h154B P11 Define P11 terminal function setting 11 XCEL L 0 NONE X ...

Page 186: ...L H 50 KEB Select 51 Fire Mode 85 0h1555 DI On Delay Multi function input terminal On filter 0 10000 ms 10 O O O O O O 86 0h1556 DI Off Delay Multi function input terminal Off filter 0 10000 ms 3 O O O O O O 87 0h1557 DINC NO Sel Multi function input contact point selection P8 P1 0000 0000 X O O O O O 0 A contact point NO 1 B contact point NC 88 0h1558 RunOn Delay Operating command delay time 0 10...

Page 187: ...Speed Fdb 11 Speed Dev 12 PIDRef Value 13 PIDFdb Value 14 PID Output 15 Constant 02 0h1602 AO1 Gain Analog output1 gain 1000 1000 100 0 O O O O O O 03 0h1603 AO1 Bias Analog output 1 bias 100 100 0 0 O O O O O O 04 0h1604 AO1 Filter Analog output1 filter 0 10000 ms 5 O O O O O O 05 0h1605 AO1 Const Analog constant output 1 0 1000 0 0 O O O O O O 06 0h1606 AO1 Monitor Analog output 1 monitor 0 1000...

Page 188: ...0 Frequency 0 Frequency O O O O O O 1 Current 2 Voltage 3 DC Link Volt 4 Torque 5 Watt 6 Idss 7 Iqss 8 Target Freq 9 Ramp Freq 10 Speed Fdb 11 Speed Dev 12 PID Ref Value 13 PID Fbk Value 14 PID Output 15 Constant 15 0h160F AO3 Gain Analog output 3 gain 1000 1000 100 0 O O O O O O 16 0h1610 AO3 Bias Analog output 3 bias 100 100 0 0 O O O O O O 17 0h1611 AO3 Filter Analog output 3 filter 0 10000 ms ...

Page 189: ...tart 31 0h161F Relay 1 Multi function relay 1 0 NONE 29 Trip O O O O O O 32 0h1620 Relay 2 Multi function relay 2 1 FDT 1 14 Run O O O O O O 33 0h1621 Q1 Define Multi function output 1 2 FDT 2 1 FDT 1 O O O O O O 34 Note28 0h1622 Relay 3 Multi function relay 3 3 FDT 3 2 FDT 2 O O O O O O 35 0h1623 Relay 4 Multi function relay 4 4 FDT 4 3 FDT 3 O O O O O O 36 0h1624 Relay 5 Multi function relay 5 5...

Page 190: ...ulti function output contact point selection Q1 Relay2 Relay1 000 X O O O O O 0 A contact point NO 1 B contact point NC 53 0h1635 TripOut OnDly Failure output On delay 0 100 sec 0 00 O O O O O O 54 0h1636 TripOut OffDly Failure output Off delay 0 100 00 sec 0 00 O O O O O O 55 0h1637 TimerOn Delay Timer On delay 0 100 00 sec 0 00 O O O O O O 56 0h1638 TimerOff Delay Timer Off delay 0 100 00 sec 0 ...

Page 191: ... W version 1 00 O O O O O O 07 0h1707 FBus ID Communication option inverter ID 0 255 1 O O O O O O 08 0h1708 FBUS BaudRate FBus communication speed 12 Mbps O O O O O 09 0h1709 FieldBus LED Communication option LED status O O O O O O 30 0h171E ParaStatus Num Number of output parameters 0 8 3 O O O O O O 31 0h171F Para Stauts 1 Output address 1 0000 FFFF Hex 000A O O O O O O 32 0h1720 Para Stauts 2 ...

Page 192: ...nication multi function input 3 2 RX 0 None O O O O O O 73 0h1749 Virtual DI 4 Communication multi function input 4 3 RST 0 None O O O O O O 74 0h174A Virtual DI 5 Communication multi function input 5 4 External Trip 0 None O O O O O O 75 0h174B Virtual DI 6 Communication multi function input 6 5 BX 0 None O O O O O O 76 0h174C Virtual DI 7 Communication multi function input 7 6 JOG 0 None O O O O...

Page 193: ... SEQ 1 42 SEQ 2 43 Manual 44 Go Step 45 Hold Step 46 FWD JOG 47 REV JOG 48 Trq Bias 49 XCEL H 50 KEB Select 51 Fire Mode 86 0h1756 Virt DI Status Communication multi function input monitoring 0 X O O O O O 90 0h175A Comm Mon Sel Monitor type selection 0 Int 485 0 Int 485 O O O O O O 1 Keypad 91 0h175B RcvFrame Num Number of reception frames 0 O O O O O 92 0h175C Err Frame Num Number of error frame...

Page 194: ...c 3 0 O O O O X X 12 0h180C Trv Offset Hi Traverse offset upper limit 0 20 0 0 0 O O O O X X 13 0h180D Trv Offset lo Traverse offset lower limit 0 20 0 0 0 O O O O X X 16 Note31 0h1810 PID Output PID output monitor 0 00 O O O X X 17 0h1811 PID Ref Value PID reference monitor 50 00 O O O X X 18 0h1812 PID Fdb Value PID feedback monitor 0 00 O O O X X 19 0h1813 PID Ref Set PID reference setting 100 ...

Page 195: ...ID lower limit frequency Hz 300 Hz 60 00 O O O O X X 30 0h181E PID Limit Lo PID lower limit frequency 300 PID upper limit frequency Hz 60 00 O O O O X X 31 0h181F PID Out Inv PID output inverse 0 No 0 No O O O X X 1 Yes 32 0h1820 PID Out Scale PID output scale 0 1 1000 100 0 X O O O X X 34 0h1822 Pre PID Freq PID control period movement frequency 0 maximum frequency Hz 0 00 X O O O X X 35 0h1823 P...

Page 196: ...10 HP 11 12 43 0h182B PID Unit Gain PID unit gain 0 300 100 00 O O O O X X 44 0h182C PID Unit Scale PID unit scale 0 X 0 01 2 x 1 O O O O X X 1 X 0 1 2 X 1 3 X 0 1 4 X 0 01 45 0h182D PID P2 Gain PID 2nd proportional gain 0 1000 100 0 X O O O X X Note31 APP 16 45 codes are displayed only when APP 01 App Mode is set as Proc PID or APP 01 App Mode is set as MMC and Requl Bypass APO 34 is set as No ...

Page 197: ...um frequency Hz 21 00 O O O O X X 15 0h190F Seq 1 2 XcelT 1 2 Acc Dec time 0 1 600 0 sec 5 0 O O O O X X 16 0h1910 Seq 1 2 SteadT 1 2 steady speed operation time 0 1 600 0 sec 5 0 O O O O X X 17 0h1911 Seq 1 2 Dir 1 2 operation direction 0 Reverse 1 Forward O O O O X X 1 Forward 18 0h190E Seq 1 3 Freq 1 3 step frequency 0 01 maximum frequency Hz 31 00 O O O O X X 19 0h190F Seq 1 3 XcelT 1 3 Acc De...

Page 198: ... Seq 2 1 Freq 2 1 step frequency 0 01 maximum frequency Hz 12 00 O O O O X X 44 0h192C Seq 2 1 XcelT 2 1 Acc Dec time 0 1 600 0 sec 5 0 O O O O X X 45 0h192D Seq 2 1 SteadT 2 1 steady speed operation time 0 1 600 0 sec 5 0 O O O O X X 46 0h192E Seq 2 1 Dir 2 1 operation direction 0 Reverse 1 Forward O O O O X X 1 Forward 47 0h192F Seq 2 2 Freq 2 2 step frequency 0 01 maximum frequency Hz 22 00 O O...

Page 199: ...1944 Seq 2 7 XcelT 2 7 Acc Dec time 0 1 600 0 sec 5 0 O O O O X X 69 0h1945 Seq 2 7 SteadT 2 7 steady speed operation time 0 1 600 0 sec 5 0 O O O O X X 70 0h1946 Seq 2 7 Dir 2 8 operation direction 0 Reverse 1 Forward O O O O X X 1 Forward 71 0h1947 Seq 2 8 Freq 2 8 step frequency 0 01 maximum frequency Hz 22 00 O O O O X X 72 0h1948 Seq 2 8 XcelT 2 8 Acc Dec time 0 1 600 0 sec 5 0 O O O O X X 73...

Page 200: ...O O O 10 0h1A0A Enc Filter Encoder input filter 0 10000 ms 3 O O O O O O 11 0h1A0B Enc Pulse x1 Encoder minimum input pulse 0 100 kHz 0 0 O O X O X O 12 0h1A0C Enc Perc y1 Output at encoder minimum pulse 0 100 0 00 O O X O X O 13 0h1A0D Enc Pulse x2 Encoder maximum input pulse 0 200 kHz 100 O O X O X O 14 0h1A0E Enc Perc y2 Encoder maximum pulse output 0 100 100 O O X O X O 20 Note38 0h1A14 Aux Mo...

Page 201: ...in 36 0h1A24 Auto Ch Time Auto change time 0 99 00 min 72 00 O O O O X X 38 0h1A26 Interlock Interlock selection 0 No 0 No O O O O X X 1 Yes 39 0h1A27 Interlock DT Interlock movement delay time 0 1 360 0 sec 5 0 O O O O X X 40 0h1A28 Actual Pr Diff Auxiliary motor movement pressure difference 0 100 2 O O O O X X 41 0h1A29 Aux Acc Time Main motor acceleration time when number of pumps decreases 0 6...

Page 202: ...FFFF Hex 0000 O O O O O O 79 0h1A4F PLC Rd Data 4 PLC read data 4 0 FFFF Hex 0000 O O O O O O 80 0h1A50 PLC Rd Data 5 PLC read data 5 0 FFFF Hex 0000 O O O O O O 81 0h1A51 PLC Rd Data 6 PLC read data 6 0 FFFF Hex 0000 O O O O O O 82 0h1A52 PLC Rd Data 7 PLC read data 7 0 FFFF Hex 0000 O O O O O O 83 0h1A53 PLC Rd Data 8 PLC read data 8 0 FFFF Hex 0000 O O O O O O The grey cells indicate a hidden c...

Page 203: ...ts 0 10 0 O O O O O O 10 Note40 0h1B0A Retry Delay Automatic restart delay time 0 60 0 sec 1 0 O O O O O O 11 0h1B0B Lost KPD Mode Keypad command loss operation mode 0 None 0 None O O O O O O 1 Warning 2 Free Run 3 Dec 12 0h1B0C Lost Cmd Mode Speed command loss operation mode 0 None 0 None O O O O O O 1 Free Run 2 Dec 3 Hold Input 4 Hold Output 5 Lost Preset 13 Note41 0h1B0D Lost Cmd Time Speed co...

Page 204: ...p 0 None 0 None O O O O O O 1 Free Run 32 Note42 0h1B20 No Motor Level No motor detection current level 1 100 5 O O O O O O 33 0h1B21 No Motor Time No motor detection delay 0 1 10 0 sec 3 0 O O O O O O 34 0h1B22 Thermal T Sel Operation at motor overheat detection 0 None 0 None O O O O O 1 Free Run 2 Dec 35 0h1B23 Thermal In Src Thermal sensor input 0 None 0 None O O O O O 1 V1 2 I1 3 V2 4 I2 36 0h...

Page 205: ...n frequency 20 130 120 0 O X X O X O 72 0h1B48 Over SPD Time Overspeed judgment time 0 01 10 00 sec 0 01 O X X O X O 73 0h1B49 Speed Dev Trip Speed error failure 0 No 0 No O X X O X X 1 Yes 74 0h1B4A Speed Dev Band Speed error width 2 maximum frequency Hz 20 00 O X X O X X 75 0h1B4B Speed Dev Time Speed error judgment time 0 1 1000 0 sec 1 0 O X X O X X 77 0h1B4D Enc Wire Check Encoder option conn...

Page 206: ...oload Curr Motor no load current 0 5 1000 0 A X O O X O X 14 0h1C0E M2 Rated Volt Motor rated voltage 180 480 V X O O X O X 15 0h1C0F M2 Efficiency Motor efficiency 70 100 X O O X O X 16 0h1C10 M2 Inertia Rt Load inertia ratio 0 8 X 17 M2 Rs Stator resistance 0 9 999 X 18 M2 Lsigma Leak inductance 0 99 99 mH X 19 M2 Ls Stator inductance 0 999 9 mH X O O X O X 20 M2 Tr Rotor time constant 25 5000 m...

Page 207: ...peration start 0 00 00 00 00 10 Trip Delete Delete trip history 0 No 0 No 1 Yes 8 14 Config Mode CNF Config Mode CNF No LCD Display Name Setting Range Initial Value 00 Jump Code Jump code 0 99 1 01 Language Sel Keypad language selection 0 English 0 English 1 Russian 2 Español 3 Polski 4 Turkish 02 LCD Contrast LCD contrast adjustment 10 Inv S W Ver Inverter S W version 1 XX 11 KeypadS W Ver Keypad...

Page 208: ...Load Speed 25 Temperature 24 Mon Mode Init Monitor mode initialization 0 No 0 No 1 Yes 30 Option 1 Type Option slot 1 type display 0 None 0 None 31 Option 2 Type Option slot 2 type display 1 PLC 0 None 32 Option 3 Type Option slot 3 type display 2 Profi 0 None 3 Ext I O 4 Encoder 40 Parameter Init Parameter initialization 0 No 1 All Grp 2 DRV Grp 3 BAS Grp 4 ADV Grp 5 CON Grp 6 IN Grp 7 OUT Grp 8 ...

Page 209: ...iding parameter mode 0 9999 Password 52 Key Lock Set Lock parameter edit 0 9999 Unlocked 53 Key Lock Pw Password for locking parameter edit 0 9999 Password 60 Add Title Del Additional title update 0 No 0 No 1 Yes 61 Easy Start On Simple parameter setting 0 No 0 No 1 Yes 62 WHCount Reset Power consumption initialization 0 No 0 No 1 Yes 70 On time Accumulated inverter motion time mm dd yy hh mm 71 R...

Page 210: ... Output at V1 maximum voltage 0 100 100 00 15 V1 Volt x1 V1 minimum input voltage 10 0 V 0 00 16 V1 Perc y1 Output at V1 minimum voltage 100 0 0 00 17 V1 Volt x2 V1 maximum input voltage 10 0 V 10 00 18 V1 Perc y2 Output at V1 maximum voltage 100 0 100 00 19 V1 Inverting Rotation direction change 0 1 0 No 20 I1 Monitor mA I1 input amount display 0 20 mA 0 00 21 I1 Polarity I1 polarity display 0 1 ...

Page 211: ...ntrol mode 0 5 0 V F 06 App Mode Applied function selection 0 4 1 Traverse 07 Trv Apmlit Traverse operating range 0 20 0 0 08 Trv Scramb Traverse scramble magnitude 0 50 0 0 09 Trv Acc Time Traverse acceleration time 0 1 600 sec 2 0 10 Trv Dec Time Traverse deceleration time 0 1 600 sec 2 0 11 Trv Offset Hi Traverse offset upper limit 0 20 0 0 12 Trv Offset lo Traverse offset lower limit 0 20 0 0 ...

Page 212: ...ns in this manual Supply input power within the voltage range approved for the inverter s rating Do not start or stop the inverter using a magnetic contactor installed in the input power supply If the inverter is damaged and loses control the machine may cause a dangerous situation Install an additional safety device such as an emergency brake to prevent these situations High levels of current dra...

Page 213: ...2 ABS203c 225 UTS250 225 EBS203c 225 MC 150a 150 0370iS7 2 ABS403c 300 UTS400 300 EBS403c 300 MC 225a 225 0450iS7 2 ABS403c 350 UTS400 350 EBS403c 350 MC 330a 330 0550iS7 2 ABS603c 500 UTS600 500 EBS603c 500 MC 400a 400 0750iS7 2 ABS603c 630 UTS600 600 EBS603c 630 MC 630a 630 0008iS7 4 ABS33c 15 UTE100 15 EBS33c 15 MC 9b 9 0015iS7 4 ABS33c 15 UTE100 15 EBS33c 15 MC 9b 9 0022iS7 4 ABS33c 15 UTE100 ...

Page 214: ...nd breakers Utiliser UNIQUEMENT des fusibles d entrée homologués de Classe H ou RK5 UL et des disjoncteurs UL Se reporter au tableau ci dessus pour la tension et le courant nominal des fusibless et des disjoncteurs Note If you install the recommended reactors you can maintain the power factor above 85 and keep the THD below 40 for operations at the rated load Improvements are reduced at lighter lo...

Page 215: ...0370iS7 2 0 2 240 0450iS7 2 0 17 280 0550iS7 2 0 12 360 0750iS7 2 0 1 500 400V 30 75kW For Non DCR products remove the P1 and P2 shorting pins to install the DC reactor Inverter capacity DC reactor specifications mH A 0300iS7 4 0 98 75 0370iS7 4 0 87 90 0450iS7 4 0 55 110 0550iS7 4 0 47 150 0750iS7 4 0 48 180 400V 280 375 kW Inverter capacity DC reactor specifications mH A 2800iS7 4 0 09 836 3150i...

Page 216: ...omer Support to ensure that your model type and application requires the installation of an AC reactor Refer to the following specifications tables to choose an appropriate AC reactor for your application Inverter capacity AC reactor specifications Heavy duty Normal duty mH A mH A 0008iS7 2 2 13 5 7 1 20 10 0015iS7 2 1 20 10 0 88 14 0022iS7 2 0 88 14 0 56 20 0037iS7 2 0 56 20 0 39 30 0055iS7 2 0 3...

Page 217: ... 0 45 50 0185iS7 4 0 45 50 0 39 58 0220iS7 4 0 39 58 0 287 80 0300iS7 4 0 287 80 0 232 98 0370iS7 4 0 232 98 0 195 118 0450iS7 4 0 195 118 0 157 142 0550iS7 4 0 157 142 0 122 196 0750iS7 4 0 122 196 0 096 237 0900iS7 4 0 096 237 0 081 289 1100iS7 4 0 081 289 0 069 341 1320iS7 4 0 069 341 0 057 420 1600iS7 4 0 057 420 0 042 558 1850iS7 4 0 042 558 0 042 558 2200iS7 4 0 042 558 0 029 799 2800iS7 4 0...

Page 218: ...BU 4U 90 kW SV550DBU 4U 2Set 110 132 kW SV750DBU 4U 2Set 160 kW SV750DBU 4U 3Set Non UL type Type B For resistance of DB resistors refer to the DB Unit manual 200 V 30 37 kW SV037DBH 2 Group 2 400 V 30 37 kW SV037DBH 4 45 55 kW 75 kW SV075DBH 4 SV075DB 4 Group 3 185 220 kW SV2200DB 4 Note 1 Group 4 280 375 Kw SV2200DB 4 2Set Type C For resistance of DB resistors refer to the DB Unit manual 200 V 3...

Page 219: ...fer to the instruction manual provided by the manufacturer before installing a dynamic braking unit There may be specification changes that are not reflected in the table provided with this manual For detailed specifications of type A DB units such as resistance wattage braking torque ED refer to the table in 9 1 6 DB Resistors on page 217 For type B and type C DB units refer to the instruction ma...

Page 220: ...onnect to the B1 terminal of a braking resistor N Connect to the N terminal of an inverter P Connect to the P terminal of an inverter Group 5 Terminal Description P Connect to the P terminal of an inverter N Connect to the N terminal of an inverter B1 Connect to the B1 terminal of a braking resistor B2 Connect to the B2 terminal of a braking resistor N C Not used E Ground terminal ...

Page 221: ...e N terminal of an inverter DC bus B1 Connect to the B1 terminal of an external braking resistor B2 Connect to the B2 terminal of an external braking resistor N C Not used E Ground terminal Note Refer to the instruction manual that is supplied with the DB unit to choose appropriate DB resistors for installation Basic Wiring Connection for the DB Unit and DB Resistor ...

Page 222: ...Peripheral Devices Peripheral Devices 211 DB Unit Terminal Description B1 Connect to the B1 terminal of a DB resistor B2 Connect to the B2 terminal of a DB resistor 9 1 4 DB Unit Dimensions Group 1 ...

Page 223: ...212 Peripheral Devices Group 2 ...

Page 224: ...Peripheral Devices Peripheral Devices 213 Group 3 ...

Page 225: ...214 Peripheral Devices Group 4 ...

Page 226: ...ipheral Devices 215 Group 5 Voltage Motor capacity Dimensions mm Hole position Weight Hole size V kW W H H2 D W1 H1 kg φ 220 15 140 227 4 192 76 4 125 215 4 1 50 M4 22 1 55 37 1 57 75 1 84 440 15 1 53 22 1 55 37 1 56 75 1 85 ...

Page 227: ...nsions mm Hole position Weight Hole size V kW W H H2 D W1 H1 kg φ A 220 37 50 200 219 190 165 2 160 208 5 3 77 M6 440 37 50 3 84 75 50 3 98 B 220 75 50 215 340 311 175 329 5 8 26 90 50 8 48 440 90 50 8 30 132 50 8 40 C 440 160 50 240 380 351 200 369 5 9 40 220 50 9 70 ...

Page 228: ...rns on when the overheating protection function is enabled If the DB unit temperature exceeds the maximum allowed operating temperature the overheating protection function is activated to cut off the input to the DB unit the power indicator on the DB unit is turned off 9 1 6 DB Resistors The following table lists type A DB unit specifications for your reference For type B and type C DB unit specif...

Page 229: ...3 22 MCRM3600W5 5 3600 TYPE 3 13 3 30 5 5000 100 braking torque 10 ED 37 SV370DBU 2U 4 5 7000 45 3 5 10000 55 SV550DBU 2U 3 0 15000 75 2 5 20000 4 0 0 V C l a s s 0 75 600 150 TYPE 1 150 braking torque 5 ED 1 25 1 5 300 300 TYPE 1 2 2 2 MCRB400W200 200 400 TYPE 1 2 3 7 MCRB600W130 130 600 TYPE 2 2 5 5 MCRM1000W85 85 1000 TYPE 3 2 62 7 5 MCRM1200W60 60 1200 TYPE 3 2 62 11 MCRM2000W40 40 2000 TYPE 3...

Page 230: ...you install multiple DB units in parallel the combined resistance value must match the resistance value in the table above If an appropriate braking resistor type is not listed in the table find a braking resistor with equivalent resistance and wattage values that are suggested in the table above 9 1 7 DB Resistor Dimensions TYPE Size mm W H D A B C 1 64 410 30 392 6 2 128 390 43 65 373 6 3 220 34...

Page 231: ...220 Peripheral Devices TYPE 1 Maximum 400 Watts TYPE 2 Maximum 600 Watts ...

Page 232: ...Peripheral Devices Peripheral Devices 221 TYPE 3 4 and 5 9 1 8 Keypad Extension Cable for Remote Control Optional Included items Items Keypad bracket Remote cable 2 m 3 m ...

Page 233: ...222 Peripheral Devices Keypad Bracket Dimensions Remote Cable Specifications Model type Part name 64110009 INV iS7 REMOTE CABLE 2 M 64110010 INV iS7 REMOTE CABLE 3 M ...

Page 234: ...ble check the cable connection on both sides Do not extend the keypad cable using a third party extension cable The keypad may not operate correctly due to voltage drop and electromagnetic interference Note Ensure that the cable length between the keypad and the inverter does not exceed 10 ft 3 04 m Cable connections longer than 10 ft 3 04 m may cause signal errors Install a ferrite clamp to prote...

Page 235: ...ff The safety function is not used to block the power supply to the motor or insulate the inverter electrically 10 2 About the Safety Function The safety function is a safety torque off STO function used to prevent a torque and to block the power supply to the motor by interrupting the gate using hard wires STO Safety Torque Off IEC61800 5 2 The STO function is independently connected to each inpu...

Page 236: ...Safety Funtion STO Safe Torque Off Safety Funtion STO Safe Torque Off 225 10 2 1 Safety Function Wiring Diagram ...

Page 237: ... use this product with safety option Safety options are not available for general products 10 2 3 Installing the Safety Board to 185 375 kW Product Please buy safety option and apply to standard products because there is no safety product for 185 375kW Refer to the following figure and install the safety board to the main SMPS board of the inverter using cable connectors ...

Page 238: ... Signal Terminal Block Wiring Terminal Wire Thickness Electrical Standard Variety Name mm2 AWG 24S Safety Input power 0 33 1 25mm2 16 22 AWG Shield type twisted pair wire 24 VDC Max 10 mA SE Safety Input 1 SFT1 Short Safety function stop 24S SE or SP Open Safety function operation 24S SP or SP SP Safety Input 2 SFT2 SR SR Safety function completion output relay DC 24 V 5 A below B contact The leng...

Page 239: ...ange 0 75 kW 375 kW 200 400 VAC supply Compliance Det Norske Veritas Rules for Classification of Ships High Speed Light Craft Det Norske Veritas Offshore Standards 11 2 Bureau Veritas Marine Offshore Division Marine Certification Details Certification Institute Bureau Veritas Marine Off shore Division Certificate Number 40183 AO BV Certified Model Types SV iS7 series Range 0 75 kW 75 kW 200V 0 75 ...

Page 240: ...V O O O SV0110iS7 2 V O O O SV0150iS7 2 V O O O SV0185iS7 2 V O O O SV0220iS7 2 V O O O SV0300iS7 2 V O O O SV0370iS7 2 V O O O SV0450iS7 2 V O O O SV0550iS7 2 V O O O SV0750iS7 2 V O O O 3 Phase 400V SV0008iS7 4 V O O O SV0015iS7 4 V O O O SV0022iS7 4 V O O O SV0037iS7 4 V O O O SV0055iS7 4 V O O O SV0075IS7 4 V O O O SV0110iS7 4 V O O O SV0150iS7 4 V O O O SV0185iS7 4 V O O O SV0220iS7 4 V O O O...

Page 241: ...S SV0450iS7 4 V O O O SV0550iS7 4 V O O O SV0750iS7 4 V O O O SV0900iS7 4 V O O O SV1100iS7 4 V O O X SV1320iS7 4 V O O X SV1600iS7 4 V O O X SV1850iS7 4 V O O X SV2200iS7 4 V O O X SV2800iS7 4 V O O X SV3150iS7 4 V O O X SV3750iS7 4 V O O X ...

Page 242: ...e when using a three phase 60 Hz power supply However when using a single phase power source the DC bus ripple becomes 120 Hz The input current and harmonics increase and the VFDs DC bus circuit is subject to higher stress in order to deliver equivalent power Input current distortion of 90 THD and greater can be expected under single phase input compared to approximately 40 with three phase input ...

Page 243: ...armonic distortion will increase making the overall input power factor low Input current distortion over 100 is likely under single phase conditions without a reactor Therefore the reactor is always required for such applications Using a motor that is selected by the three phase drive ratings with single phase input may result in poor performance and premature drive failure The selected drive of s...

Page 244: ...A stricter input voltage tolerance of 10 to 5 applies when using the drive with a single phase supply The average bus voltage with single phase input is lower than the equivalent of a three phase input Therefore the maximum output voltage motor voltage will be lower with a single phase input The minimum input voltage must be no less than 228 VAC for 240 volt models and 456 VAC for 480 V models to ...

Page 245: ... phase input current rating indicated in Table 1 2 The single phase input current after derating differs from the three phase input indicated on the VFD nameplate Refer to the following figure and connect the single phase AC input wiring to the inverter s R L1 and T L3 terminals Figure 3 Terminal Wiring Diagram Note The drive ratings in Table 1 are valid for 60 Hz input only ...

Page 246: ...0 50A MC 40a 7 5kW 10 16 23 28 6 41 2 8 8 63 UTS150 60A MC 50a 11kW 15 24 31 44 3 54 7 6 6 80 UTS150 100A MC 65a 15kW 20 31 38 55 9 69 7 4 4 100 UTS150 125A MC 100a 18 5kW 25 38 45 70 8 82 9 2 2 125 UTS150 150A MC 130a 22kW 30 45 64 85 3 116 1 1 1 160 UTS250 175A MC 150a 30kW 40 60 75 121 0 152 0 1 0 1 0 200 0 24 200 UTS250 225A MC 150a 37kW 50 75 93 154 0 190 0 2 0 2 0 250 0 2 240 UTS400 300A MC ...

Page 247: ...11kW 15 12 16 22 0 26 4 10 10 50 UTS150 50A MC 40a 15kW 20 16 20 26 6 35 5 8 8 63 UTS150 60A MC 50a 18 5kW 25 20 23 35 6 41 1 6 6 70 UTS150 80A MC 65a 22kW 30 23 31 41 6 55 7 4 4 100 UTS150 100A MC 65a 30kW 40 32 39 55 5 67 5 4 4 125 UTS150 125A MC 100a 37kW 50 39 47 67 9 81 7 4 2 125 UTS150 150A MC 130a 45kW 60 47 57 82 4 101 8 1 1 160 UTS250 175A MC 150a 55kW 75 57 78 102 6 143 6 1 0 1 0 200 UTS...

Page 248: ...e phase power supply If a phase open trip occurs cancel the input phase open protection bit setting PRT 05 Phase Loss Chk Do not allow the current to exceed the single phase rating Motor capacity motor overload trip and E thermal functions must be set to protect motor A reactor is always required Use a model type that comes with built in DC reactor The iS7 200 V 30 75kW and 400 V 280 375 kW produc...

Page 249: ...he date of installation If the date of installation is unknown the product warranty is valid for 18 months from the date of manufacturing Please note that the product warranty terms may vary depending on purchase or installation contracts Warranty Service Information During the product warranty period warranty service free of charge is provided for product malfunctions caused under normal operatin...

Page 250: ...ure fire flood earthquake gas accidents etc modifications or repair by unauthorized persons missing authentic LSIS rating plates expired warranty period Visit Our Website Visit us at http www lsis biz for detailed service information ...

Page 251: ...tage Directive for electronics manufacturers and the EMC guidelines for safe noise control Low Voltage Directive We have confirmed that our products comply with the Low Voltage Directive EN 61800 5 1 EMC Directive The Directive defines the requirements for immunity and emissions of electrical equipment used within the European Union The EMC product standard EN 61800 3 covers requirements stated fo...

Page 252: ... terminl block 60 0 75 22 kW 200 V 400 V 60 185 220 kW 400 V 63 280 375 kW 200 V 400 V 64 30 75 kW 200 V 400 V 61 90 160 kW 400 V 62 connecting the cables 48 considerations for installation 16 air pressure 16 altitude vibration 16 ambient humidity 16 ambient temperature 16 environmental factors 16 storing temperature 16 contactors 200 cursor keys UP key 83 DB resistor dimensions 218 DB unit dimens...

Page 253: ...nput and output specifications 7 200 V Class 0 75 22 kW 7 200 V Class 30 75 kW 8 400 V Class 0 75 22 kW 9 400 V Class 185 375 kW 11 400 V Class 30 160 kW 10 installation 16 basic configuration diagram 200 location 17 installation conditions 16 keypad ESC key 83 Mode key 83 PROG Ent key 83 navigating between groups 87 magnetic contactor 56 maximum allowed prospective short circuit current iii 11 14...

Page 254: ...un 134 surge killer 56 technical specifications 7 terminal wiring diagram 58 test run 79 time scale setting 135 0 01sec 136 0 1sec 136 1sec 136 torque 56 U V W terminal 56 Unipolar 73 User Macro mode 87 V2 terminal 121 voltage drop 56 wiring copper cable 56 wiring length 56 ...

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