Page 1 The right choice for the ultimate yield! LS ELECTRIC strives to maximize your profits in gratitude for choosing us as your partner. AC Variable Speed Drive LSLV-S300 Series User’s Manual 0.4~75 kW[200V] 0.4~220 kW[400V] Safety Instructions • Read this manual carefully before installing,...
Page 3 This operation manual is intended for users with basic knowledge of electricity and electric devices. * S300 is the series name of the LSLV-S300. * The software of this product may be revised for better functionality or performance. If you find any deviation from this user manual, check out the latest version on our website below.
Page 4: Safety Information
Safety Information Safety Information Read and follow all safety instructions in this manual precisely to avoid unsafe operating conditions, property damage, personal injury, or even death. Safety symbols in this manual Hazard Indicates an imminently hazardous situation that, if not avoided, will result in severe injury or even death.
Page 5 Safety Information Warning • Make sure to install a ground connection between the equipment and the motor for safe use. Otherwise, it may cause an electrical shock and result in personal injury or even death. • Do not turn on the power if the product is damaged or faulty. If you find that the product is faulty, disconnect the power supply and have the product professionally repaired.
Page 6 Safety Information Note Maximum allowed prospective short-circuit current at the input power connection is defined in IEC 60439-1 as 100 kA. LSLV-S300 is suitable for use in a circuit capable of delivering not more than 100kA RMS at the drive’s maximum rated voltage, depending on the selected MCCB.
Page 7: Quick Reference Table
Quick Reference Table Quick Reference Table The table below is a summary of situations that users encounter frequently while using the product. Refer to the following to search for information more easily and quickly: Situation Ref. p.36 What are the recommended wiring lengths? What are the factory default settings for multi-function terminals p.40 DI1 to DI8?
Page 8: Table Of Contents
Contents Contents 1 Preparing the Installation ................1 Product Identification ....................1 Check the Part Names .................... 3 Installation Considerations ..................13 Selecting the Installation Location ................. 15 Wire Selection ......................16 1.5.1 Ground Wire Specifications .............. 16 1.5.2 Power I/O Cable Specifications ............17 1.5.3 Signal (Control) Cable Specifications ..........
Page 9 Contents Auto Tuning ......................57 Basic No-Load Test ....................61 4 Learning to Perform Basic Operations ............63 Description of the Inverter Status Indicator LED ..........63 Description of the Smart Operator's Composition and Functions ......64 4.2.1 Description of Operation Key Functions ........... 67 4.2.2 Description of the Status Indicator LED ..........
Page 10 Contents 6 Using the Advanced Functions of the Motor ..........92 Induction Motor V/F Control .................. 92 Vector Control for Induction Motors ..............92 Torque Control for Induction Motors ..............92 V/F Control for Synchronous Motors ..............92 Vector Control for Synchronous Motors ..............92 Common Functions of Vector Control ..............
Page 11 Contents 7.18 Input Power Frequency Settings and Voltage Monitoring ........95 7.19 Second Operation Mode Settings ................. 95 7.20 Regeneration Avoidance ..................95 7.21 Load Speed ......................95 7.22 Output Power Display .................... 95 7.23 Motor Pre-Heating ....................95 7.24 DC Injection by Terminal Block................96 7.25 Brake Control ......................
Page 12 Contents Operation Settings related to Trip Occurrence ............. 98 Trip/Warning List ....................98 10 Using Built-in Communication Features ............ 99 10.1 Communication Standards ..................99 10.2 Communication System Configuration ..............99 10.3 Communication Parameter Address Operation ............ 99 10.4 Built-in Communication Protocol ................99 11 Using USB Communication Functions ............
Page 13 Contents 13.10 Application Function Group (APP) ..............126 13.11 Digital Input Terminal Block Group (DIN) ............126 13.12 Analog Input Terminal Block Group (AIN) ............126 13.13 Output Terminal Block Group (OUT) ..............127 13.14 Process PID Group (PPID) ................. 127 13.15 Protection Function Group (PRT) ...............
Page 14 Contents 14 Troubleshooting ..................130 14.1 Trip and Warning ....................130 14.1.1 Fault Trips ..................130 14.1.2 Warning Messages ................. 137 14.2 Troubleshooting Fault Trips ................. 140 14.3 Actions on Other Faults ..................143 15 Maintenance ....................150 15.1 Regular Inspection Lists ..................150 15.1.1 Daily Inspections ................
Page 15 Contents 16.4 Peripheral Devices ....................177 16.4.1 Standards of Molded Case Circuit Breaker (MCCB), Earth Leakage Circuit Breaker (ELCB), and Magnetic Contactor (MC) ... 177 16.4.2 AC Input Fuse and Reactor Specifications ........179 16.5 Terminal Screw Specifications ................181 16.5.1 Input/output Terminal Screw Specification ........
Page 16 Image Contents Image Contents 1 Preparing the Installation Image 1. Product Rating Plate ....................2 Image 2. 200 V class 0.4-4 kW / 400 V class 0.4-4 kW Assembly Diagram ...... 3 Image 3. 200 V class 5.5-7.5 kW / 400 V class 5.5-7.5 kW Assembly Diagram ....
Page 17 Image Contents Image 19. 200V Class 30-45kW / 400V Class 45-75kW Power Terminals ...... 34 Image 20. 400V Class 90-110kW Power Terminals ............34 Image 21. 200V Class 55-75kW / 400V Class 132-160kW Power Terminals ....34 Image 22. 400V Class 185-220kW Power Terminals ............
Page 18 Image Contents Image 16. Setting mode screen ..................79 Image 17. Wizard mode screen ..................80 Image 18. Menu screen ...................... 81 Image 19. Parameter configuration group screen] .............. 82 Image 20. Drive Set tab screen in Setting mode] ..............82 Image 21.
Page 19 Image Contents 14 Troubleshooting 15 Maintenance 16 Technical Specifications Image 1. 200 V class 0.4-4 kW/400 V class 0.4-4 kW Exterior Diagram ....... 167 Image 2. 200 V class 5.5-7.5 kW/400 V class 5.5-7.5 kW Exterior Diagram ....168 Image 3. 200 V Class 11 kW/400 V Class 11-15 kW Exterior Diagram ......
Page 20 Table Contents Table Contents 1 Preparing the Installation Table 1. Inverter Installation Environment ................13 Table 2. Maximum Allowed Carrier Frequency per Wiring Length ........13 Table 3. Ground Wire Specifications per Model ..............16 Table 4. I/O Wiring Specifications per Model ..............17 Table 5.
Page 21 Table Contents 5 Learning Basic Functions 6 Using the Advanced Functions of the Motor 7 Learning Advanced Features 8 Functions of Terminal Block 9 Learning Protection Functions 10 Using Built-in Communication Features 11 Using USB Communication Functions 12 Inverter Setting Mode 13 Table of Functions Table 1.
Page 22 Table Contents 15 Maintenance Table 1. Regular Inspection List ..................150 Table 2. Regular (Yearly) Inspection List ................152 Table 3. Regular (Biennial) Inspection List ................ 154 16 Technical Specifications Table 1. Input/Output Specifications (200 V Class 0.4-18.5 kW) ........156 Table 2.
Page 23: Preparing The Installation
Preparing the Installation 1 Preparing the Installation This chapter provides details on product identification, part names, correct installation, and cable specifications. To install the inverter correctly and safely, carefully read and follow the instructions. Product Identification The S300 inverter is manufactured in a range of product groups based on motor capacity and power source specifications.
Page 24: Preparing The Installation [ Image 1. Product Rating Plate ]
Preparing the Installation Model LSLV0220S300-2COFD Input Power Specifications Output Power Specifications Maximum Applicable Motor Capacity (based on HD) 0004 - 0.4 kW 0008 - 0.75 kW 0015 - 1.5 kW 0022 - 2.2 kW 0040 - 4 kW 0055 - 5.5 kW 0075 - 7.5 kW 0110 - 11 kW 0150 - 15 kW...
Page 25: Check The Part Names
Preparing the Installation Check the Part Names See the assembly diagram below for the part names. Refer to the following images, as detailed images may vary according to product groups. Refer to 4.1 Description of the Inverter Status Indicator LED for instructions on the LED status light in the front of the inverter.
Page 26: [ Image 3. 200 V Class 5.5-7.5 Kw / 400 V Class 5.5-7.5 Kw Assembly Diagram ]
Preparing the Installation 200 V Class 5.5-7.5 kW / 400 V Class 5.5-7.5 kW LSLV0055S300-2 / LSLV0075S300-2 LSLV0055S300-4 / LSLV0075S300-4 Cooling Top Cover Smart Operator LED Status Light Main Unit Control Terminal Block Front Cover Wire Bracket : Front Cover Bolted Joint [ Image 3.
Page 27: [ Image 4. 200 V Class 11 Kw / 400 V Class 11-15 Kw Assembly Diagram ]
Preparing the Installation 200 V Class 11 kW / 400 V Class 11-15 kW LSLV0110S300-2 LSLV0110S300-4 / LSLV0150S300-4 Cooling Top Cover Smart Operator LED Status Light Control Terminal Block Main Unit Front Cover Wire Bracket : Front Cover Bolted Joint [ Image 4.
Page 28: [ Image 5. 200 V Class 15-18.5 Kw / 400 V Class 18.5-22 Kw Assembly Diagram ]
Preparing the Installation 200 V Class 15-18.5 kW / 400 V Class 18.5-22 kW LSLV0150S300-2 / LSLV0185S300-2 LSLV0185S300-4 / LSLV0220S300-4 Top Cover Smart Operator LED Status Light Control Terminal Block Front Main Unit Cover Cooling Wire Bracket : Front Cover Bolted Joint [ Image 5.
Page 29: [ Image 6. 200 V Class 22 Kw / 400 V Class 30-37 Kw Assembly Diagram ]
Preparing the Installation 200 V Class 22 kW / 400 V Class 30~37 kW LSLV0220S300-2 LSLV0300S300-4 / LSLV0370S300-4 Top Cover Smart Operator LED Status Light Control Terminal Block Main Unit Front Cover Cooling Wire Bracket : Front Cover Bolted Joint [ Image 6.
Page 30: [ Image 7. 200 V Class 30 Kw / 400 V Class 45 Kw Assembly Diagram ]
Preparing the Installation 200 V Class 30 kW / 400 V Class 45 kW LSLV0300S300-2 LSLV0450S300-4 Top Cover Smart Operator LED Status Light Control Terminal Block Main Unit Cooling Front Wire Cover Bracket : Front Cover Bolted Joint [ Image 7. 200 V Class 30 kW / 400 V Class 45 kW Assembly Diagram ]...
Page 31: [ Image 8. 200 V Class 37-45 Kw / 400 V Class 55-75 Kw Assembly Diagram ]
Preparing the Installation 200 V Class 37-45 kW / 400 V Class 55-75 kW LSLV0370S300-2 / LSLV0450S300-2 LSLV0550S300-4 / LSLV0750S300-4 Top Cover Smart Operator LED Status Light Control Terminal Block Main Unit Cooling Wire Front Bracket Cover : Front Cover Bolted Joint [ Image 8.
Page 32: [ Image 9. 400 V Class 90-110 Kw Assembly Diagram ]
Preparing the Installation 400 V Class 90-110 kW LSLV0900S300-4 / LSLV1100S300-4 Smart Operator LED Status Light Control Terminal Block Main Unit Wire Bracket Cooling Front Cover : Front Cover Bolted Joint [ Image 9. 400 V Class 90-110 kW Assembly diagram ]...
Page 33: [ Image 10. 200 V Class 55-75 Kw / 400 V Class 132-160 Kw Assembly Diagram ]
Preparing the Installation 200 V Class 55-75 kW / 400 V Class 132-160 kW LSLV0550S300-2 / LSLV0750S300-2 LSLV1320S300-4 / LSLV1600S300-4 Smart Operator LED Status Light Control Terminal Block Main Unit Wire Bracket Cooling Front Cover : Front Cover Bolted Joint [ Image 10.
Page 34: [ Image 11. 400 V Class 185-220 Kw Assembly Diagram ]
Preparing the Installation 400 V Class 185-220 kW LSLV1850S300-4 / LSLV2200S300-4 Top Cover Internal Cooling Front Cover Smart Operator Main Unit USB Port Status Control Light Terminal Block Front Terminal Cover Cooling Power Cover : Front Cover Bolted Joint [ Image 11. 400 V Class 185-220 kW Assembly diagram ]...
Page 35: Installation Considerations
Preparing the Installation Installation Considerations Inverters are composed of various precise electronic parts, and therefore the installation environment can significantly impact the lifespan and reliability of the product. The table below details the ideal operation and installation conditions for the inverter.
Page 36: [ Image 12. Measurement Criteria For Ambient Temperature For Installation ]
Preparing the Installation 5 cm 5 cm [ Image 12. Measurement Criteria for Ambient Temperature for Installation ] Caution Do not allow the ambient temperature to exceed the allowable range while operating the inverter.
Page 37: Selecting The Installation Location
Preparing the Installation Selecting the Installation Location When selecting an installation location, consider the following points: • The location must be free from vibration, and the inverter must be installed on a wall that can support the inverter’s weight. • The inverter can become very hot during operation. Install the inverter on a surface that is fire-resistant or flame-retardant and with sufficient clearance around the inverter to allow air to circulate.
Page 38: Wire Selection
Preparing the Installation Wire Selection Make sure to use wires that are appropriate for the use and specifications of each I/O and control circuit for safe and reliable operation of the product. Refer to the following information to assist you with cable selection: Caution •...
Page 39: Power I/O Cable Specifications
Preparing the Installation Ground Ground Model Model LSLV□□□□ LSLV□□□□ mm² Bolt mm² Bolt 1320S300-4 1600S300-4 1850S300-4 2200S300-4 1.5.2 Power I/O Cable Specifications Table 4. I/O Wiring Specifications per Model Power Terminal Wiring mm² (AWG) Bolt Specifications Model LSLV□□□□ 0004S300-2 20.0 18.0 18.0 0102-xx04 0102-xx04 M3.5 M3.5 0008S300-2 16.0 14.0 14.0 0102-xx04 0102-xx04 M3.5 M3.5 0015S300-2 14.0 12.0 12.0 0102-xx04 0102-xx04 M3.5 M3.5...
Page 40 Preparing the Installation Power Terminal Wiring mm² (AWG) Bolt Specifications Model LSLV□□□□ 0750S300-2 120x2 180x2 120x2 250x2 350x2 250x2 0114-xx08 0114-xx08 M12 0004S300-4 22.0 22.0 20.0 0102-xx04 0102-xx04 M3.5 M3.5 0008S300-4 20.0 18.0 18.0 0102-xx04 0102-xx04 M3.5 M3.5 0015S300-4 18.0 14.0 14.0 0102-xx04 0102-xx04 M3.5 M3.5 0022S300-4 16.0 14.0 14.0 0102-xx04 0102-xx04 M3.5 M3.5 0040S300-4...
Page 41: Signal (Control) Cable Specifications
Preparing the Installation 1.5.3 Signal (Control) Cable Specifications Table 5. Control Wiring Specifications by Terminal Wire gauge Terminals VR+, VR-, AI1, AI2, AI3, TI, TO, AO1, AO2, EPI, 5G 0.33~1.25 16~22 DI1~DI8, CM, DP, DG 0.33~2.0 14~22 DA1, DB1, DC1, DA2, DC2, DQ3, EG 0.33~2.0 14~22 SP, SA, SB 0.33~2.0 14~22 S+, S-, 5G...
Page 42: Installing The Product
Installing the Product 2 Installing the Product This chapter describes the physical and electrical installation methods, including mounting and wiring the product. Refer to the flowchart and basic configuration diagram provided below to understand the procedures and installation methods to be followed to install the product correctly.
Page 43: Installing The Product [ Image 1. System Configuration ]
Installing the Product Basic configuration diagram The following illustration shows the basic system configuration. Use the diagram as a reference when configuring the system by connecting the product with peripheral devices. Ensure that the product has a suitable rating for the configuration and that all the required peripherals and optional devices (brake units, reactors, noise filters, etc.) are available.
Page 44: Mounting On The Wall Or Within The Panel
Installing the Product Mounting on the Wall or within the Panel Mount the inverter on a wall or inside a panel following the procedures provided below. Before installation, ensure that there is sufficient space to meet the clearance specifications and that there are no obstacles impeding the cooling fan’s air flow. Select a wall or panel capable of supporting the installation, and check the inverter’s mounting bracket dimensions (refer to 16.3.1 External Dimensions).
Page 45: [ Image 3. Fixing Mounting Bolts (Bottom) ]
Installing the Product 3 Mount the inverter on a wall or inside a panel using two mounting bolts. Tighten the upper mounting bolts, then install two lower mounting bolts and tighten them to mount the inverter. Ensure that the inverter is placed flat on the mounting surface and that the installation surface can securely support the weight of the inverter.
Page 46: [ Image 4. Example Of Incorrect Mounting ]
Installing the Product Caution • Always support the inverter by using the metal frames when moving it. Do not transport the inverter by lifting it with the inverter’s covers or plastic surfaces. The inverter may tip over if the covers break, resulting in injury or damage to the product. •...
Page 47: Wiring
Installing the Product Wiring Open the front cover, remove the wiring brackets and control terminal cover, and then install the ground connection as specified. Complete the cable connections by connecting an appropriately rated cable to the terminals on the power and control terminal blocks.
Page 48: Step 1 Front Cover Disassembly
Installing the Product 2.2.1 Step 1 Front Cover Disassembly For power terminal and control terminal wiring, the front cover and the wiring bracket must be disassembled in order. Disassemble each front cover and wiring bracket in the following order. Note Depending on the product family, the number of bolts on the front cover and the location and shape of the wiring bracket may vary.
Page 49: [ Image 6. Wiring Bracket Disassembly ]
Installing the Product 2 While holding both ends of the wiring bracket pressed inward, disassemble the wiring bracket. [ Image 6. Wiring bracket disassembly ] • Disassemble the bolts of the Power Cover on 400 V products with a capacity of 185 - 220 kW.
Page 50: Step 2 Ground Connection
Installing the Product 2.2.2 Step 2 Ground Connection Disassemble the front cover(s) and the wiring bracket. Then, follow the instructions below to install the ground connection for the inverter. 1 Connect the prepared ground wire to the ground ( ) terminal on the bottom of the inverter.
Page 51: Step 3 Power Terminal Wiring
Installing the Product 2.2.3 Step 3 Power Terminal Wiring The following illustration shows the terminal layout and connection configuration on the power terminal block. Refer to the detailed descriptions to understand the function and location of each terminal before making wiring connections. Ensure that the selected cables meet or exceed the specifications in 1.5 Wire Selection before installing them.
Page 52: [ Image 9. Power Terminal ]
Installing the Product Power Terminal Labels and Descriptions ❶ ❶ ❷ ❷ ❸ ❸ ❹ ❹ [ Image 9. Power terminal ] Table 1. Power terminal configuration Terminal Labels Name Description AC power input Mains supply AC power ❶ ❶ R(L1), S(L2), T(L3) terminal connections.
Page 53: [ Image 10. 200V Class 0.4-4Kw / 400V Class 0.4-4Kw Power Terminals ]
Installing the Product 200 V Class 0.4-4kW / 400V Class 0.4-4kW LSLV0004S300-4 / LSLV0008S300-4 / LSLV0015S300-4 / LSLV0022S300-4 / LSLV0040S300-4 LSLV0004S300-2 / LSLV0008S300-2 / LSLV0015S300-2 / LSLV0022S300-2 / LSLV0040S300-2 [ Image 10. 200V Class 0.4-4kW / 400V Class 0.4-4kW Power Terminals ] 200V Class 5.5-7.5kW LSLV0055S300-2 / LSLV0075S300-2 [ Image 11.
Page 54: [ Image 13. 200V Class 11Kw Power Terminals ]
Installing the Product 200V Class 11kW LSLV0110S300-2 [ Image 13. 200V Class 11kW Power Terminals ] 400V Class 11-15kW LSLV0110S300-4 / LSLV0150S300-4 [ Image 14. 400V Class 11-15kW Power Terminals ] 200V Class 15-18.5kW LSLV0150S300-2 / LSLV0185S300-2 [ Image 15. 200V Class 15-18.5kW Power Terminals ]...
Page 55: [ Image 16. 400V Class 18.5-22Kw Power Terminals ]
Installing the Product 400V Class 18.5-22kW LSLV0185S300-4 / LSLV0220S300-4 [ Image 16. 400V Class 18.5-22kW Power Terminals ] 200V Class 22kW / 400V Class 30-37kW LSLV0220S300-2 [ Image 17. 200V Class 22kW / 400V Class 30-37kW Power Terminals ] 400V Class 30-37kW LSLV0300S300-4 / LSLV0370S300-4 [ Image 18.
Page 56: [ Image 19. 200V Class 30-45Kw / 400V Class 45-75Kw Power Terminals ]
Installing the Product 200V Class 30-45kW / 400V Class 45-75kW LSLV0300S300-2/LSLV0370S300-2/LSLV0450S300-2 LSLV0450S300-4/LSLV0550S300-4 / LSLV0750S300-4 [ Image 19. 200V Class 30-45kW / 400V Class 45-75kW Power Terminals ] 400V Class 90-110kW LSLV0900S300-4 / LSLV1100S300-4 [ Image 20. 400V Class 90-110kW Power Terminals ] 200V Class 55-75kW / 400V Class 132-160kW LSLV0550S300-2 / LSLV0750S300-2 LSLV1320S300-4 / LSLV1600S300-4...
Page 57: [ Image 22. 400V Class 185-220Kw Power Terminals ]
Installing the Product 400V Class 185-220kW LSLV1850S300-4 / LSLV2200S300-4 [ Image 22. 400V Class 185-220kW Power Terminals ] Note The location of the power terminal labels may vary according to the product family. Warning Do not connect power to the inverter until the installation has been fully completed and the inverter is ready to be operated.
Page 58 Installing the Product Caution • Connect the input power wiring of the inverter to the R/S/T terminals and the output wiring to the motor to the U/V/W terminals. The product may be damaged if it is connected in reverse. • To use DC input to operate the inverter, connect the DC input terminals to P (+) and N (-).
Page 59: Step 4 Control Terminal Wiring
Installing the Product 2.2.4 Step 4 Control Terminal Wiring Below is a diagram showing the layout and connection configuration of the control circuit. Refer to the detailed information and install the control circuit wiring. Ensure that the cables selected meet or exceed the specifications in 1.5 Wire Selection before installing them.
Page 60: [ Image 24. Input/Output Control Terminal Wiring ]
Installing the Product Input/Output control terminal wiring diagram Multi-Function Input RS-485 Signal Input Safety Signal Input Analog Output 1 Analog Voltage / Current Output 1 Analog Voltage / Current Output 2 Analog Output 2 Relay Output1 (DO1) External Power (24 V) Output Relay Output2 (DO2) Analog Voltage / Current Input 1...
Page 61: [ Image 25. Io Board Switch ]
Installing the Product [ Image 25. IO board switch ] Table 3. Dip switch configuration Switch Factory value Description labels (Default) NPN/PNP setting switch (Left: NPN, Right: PNP) Left: NPN IO1/VO1 terminal setting switch (Left: IO1, Right: VO1) Right: VO1 IO2/VO2 terminal setting switch (Left: IO2, Right: VO2) Right: VO2 I1, I2, I3, PTC ON/V1, V2, V3 Right:...
Page 62 Installing the Product • VR+, VR-: Analog ± Voltage Reference, output voltage ±10 V, Maximum current output 20 mA • TO: Pulse Train Output • TI: Pulse Train Input Table 4. Input/communication terminal configuration Terminal Category Name Description Labels Configurable for digital input terminals. The factory default is as follows: •...
Page 63: [ Image 26. Factory Default Setting For Analog Input Terminal (Sw4 Switch) ]
Installing the Product Terminal Category Name Description Labels Depending on the setting of the switch (SW4), it can be used as either a voltage or current input. AI3 can be used as PTC sensor input. Factory default is V1, 2, and 3. PTC OFF PTC ON I1, I2, I3...
Page 64: [ Image 27. Remove Sw4 Switch Seal Tape ]
Installing the Product Terminal Category Name Description Labels [Note] Remove SW4 dip switch seal tape It is shipped with seal tape attached for SW4 dip switch protection (factory default: Analog voltage input). Remove the seal tape to change the switch settings, as shown in the following Analog illustration.
Page 65: [ Image 28. Factory Default Setting For Analog Output Terminal (Sw2, 3 Switch) ]
Installing the Product Output Terminal Labels and Descriptions Terminal Category Name Description Labels Depending on the selection of the switch (SW2, SW3), it can be used as either a voltage or current output. Factory default is VO1, VO2. [ Image 28. Factory default setting for analog output terminal (SW2, 3 switch) ] Analog [When voltage is selected]...
Page 66 Installing the Product Terminal Category Name Description Labels Digital service power. DC 24 V (21.6 - 26.4 V), 150 mA or less Digital power output terminal Digital • Precautions: Do not connect with the CM power (digital common terminal). Digital External 24 V common terminal.
Page 67: Step 5 Pnp/ Npn Mode Selection
Installing the Product 2.2.5 Step 5 PNP/ NPN Mode Selection The product supports both NPN (Sink) and PNP (Source) modes for sequence inputs at the terminal. Select an appropriate mode to suit requirements using the NPN/PNP selection switch (SW1) on the control board. The NPN/PNP selection switch (SW1) is set to NPN mode when shipped from the factory.
Page 68: [ Image 30. Pnp Mode (Internal Power) ]
Installing the Product PNP mode (Source) Select PNP using the PNP/NPN selection switch (SW1). The CM terminal is an input signal common terminal, and DP/DG is an internal power supply terminal. If you are using the internal power supply in PNP mode, connect the external circuit to DI and DP.
Page 69: Step 6 Enabling And Disabling Emc Filter And Varistor (Var) Ground
Installing the Product 2.2.6 Step 6 Enabling and Disabling EMC filter and Varistor (VAR) Ground The EMC filter and varistor (VAR) ground of the product can be enabled or disabled. EMC filter and VAR ground feature are set to On by factory default. The use of an EMC filter may increase leakage current at the expense of reducing airborne noise generated by the product.
Page 70: Var Ground ]
Installing the Product Enabling and disabling the EMC filter and VAR ground varies depending on the inverter capacity. Refer to the following description of inverter capacity. 200 V level 0.4 - 22 kW / 400 V level 0.4 - 37 kW The EMC filter and VAR ground terminal are located on the terminal block in models with corresponding capacities.
Page 71: Step 7 Reassembling The Wiring Bracket And The
Installing the Product 200 V level 30 - 75 kW / 400 V level 45 - 220 kW The EMC filter and VAR ground terminal are located on the upper-left side of the inverter, not on the terminal block in models with corresponding capacities. Each screw is used to enable and disable the EMC filter and VAR ground.
Page 72: Post-Installation Checklist
Installing the Product Post-Installation Checklist After completing the installation, check the items in the following table to make sure that the inverter has been safely and correctly installed. Table 7. Installation check Situation Details Ref. Check Is the installation location appropriate? p.13 Installation Is the inverter’s rated output sufficient to supply the...
Page 73 Installing the Product Situation Details Ref. Check Are shielded twisted pair (STP) cables used for control terminal wiring? Is the shielding of the STP wiring properly grounded? If 3-wire operation is required, are the multifunction p.37 input terminals defined prior to the installation of the control wiring connections? Is the shielding of the STP wiring properly grounded?
Page 74: Operation Sequence And Testing
Operation Sequence and Testing 3 Operation Sequence and Testing In order to maximize motor performance and operate the normal protection function, various motor information must be set. Set in the following sequence based on the motor control mode you want to use: Start Testing Motor rating plate information settings...
Page 75: Setting Up Motor Rating Plate Information
Operation Sequence and Testing Setting Up Motor Rating Plate Information Enter the information displayed on the motor rating plate. Motor rating plate information is used for motor control, protective operation, and others. Enter the motor type in MOT1 and MOT2-04 (Motor Type) and the motor capacity in MOT1 and MOT2-21 (Motor Capacity).
Page 76 Operation Sequence and Testing Details of motor rating plate information settings Code and Description Functions Set the type of the motor connected to the inverter. The following motors can be selected: MOT1, MOT2-04 Item Functionality Motor Type Induction Motor Induction motor Perm Magnet Motor Permanent magnet motor Set the capacity of the motor connected to the inverter.
Page 77: Setting Control And Operation Method
Operation Sequence and Testing Setting Control and Operation Method Select the appropriate operating mode for your system. Example of setting control and operation method Initial Group Code LCD Display Set Value Setting Range Unit value Control Mode MOT1, MOT2 Torque Control En Details of setting the control and operation method Code and Description...
Page 78: Setting The Encoder
Operation Sequence and Testing Code and Description Functions Set the operation method when operating in vector control mode (Sensorless, Vector). It is disabled when V/F control mode (V/F, Slip Comp., V/F PG) is selected. Item Functionality Set to speed control mode. The speed control function controls the motor to maintain the set speed.
Page 79: Auto Tuning
Operation Sequence and Testing Details of encoder settings Code and Description Functions ENC-2 Enc Monitor[Hz], The encoder output is converted into motor rotation speed and displayed in Hz or rpm. ENC-3 Enc Monitor[rpm] If set to 1 (Yes), the motor will start from the current motor speed without going through the starting sequence (dwell, brake, Start Mode, etc.) if the motor is rotating when the operation starts, and it ENC-10 Auto...
Page 80 Operation Sequence and Testing Example of auto tuning settings Initial Group Code LCD Display Set Value Setting Range Unit value None Auto Tuning 0~10 Auto Tuning Rs Tuning Lsigma Tuning Ls/If Tuning Tr Tuning Ls/If/Tr Tuning IM Sat Model Est. Adv Dead- time Est.
Page 81 Operation Sequence and Testing Auto tuning results – Induction motor Group Code LCD Display Result value No-load Current Stator Resistance Leakage MOT1, Inductance The auto tuning result value is displayed. MOT2 Stator Inductance Rotor TimeConstance Auto tuning results – Synchronous motor Group Code LCD Display...
Page 82 Operation Sequence and Testing Code and Description Functions This displays the status of the automatic tuning operation. Item Functionality Stator Resistance parameter value is being Rs Tuning tuned. Leakage Inductance parameter value is being Lsigma Tuning tuned. Ls/If Tunig The Rotor Time Constance parameter value is Tr Tuning being tuned.
Page 83: Basic No-Load Test
Operation Sequence and Testing Basic No-Load Test After installing the product and checking the checklist, follow the instructions below to test the inverter. Refer to 4.3 How to Use the Smart Operator and 5 Learning Basic Functions in the comprehensive user’s manual for basic information regarding parameter changes, such as setting the operation command source, setting the target frequency, and setting the acceleration/deceleration time.
Page 84: Operation Sequence And Testing [ Image 1. Check Motor's Rotational Direction ]
Operation Sequence and Testing Remarque Si la commande avant (Fx) est activée, le moteur doit tourner dans le sens anti-horaire si on le regarde côté charge du moteur. Si le moteur tourne dans le sens inverse, inverser les câbles aux bornes U et V. Check the motor’s rotational direction 1 Set DRV-10 (1st Command Source) of the drive group (DRV) to 0 (Keypad) with the Smart Operator.
Page 85: Learning To Perform Basic Operations
Learning to Perform Basic Operations 4 Learning to Perform Basic Operations This chapter describes the Smart Operator's composition and operation method, as well as the function groups used for inverter operation and the basic operation method using the Smart Operator. Before proceeding with actual use, familiarize yourself with the various functions of the inverter, such as setting, changing frequency or input voltage, and issuing operating instructions, in order to learn the correct basic operating method.
Page 86: Description Of The Smart Operator's Composition And Functions
Learning to Perform Basic Operations Description of the Smart Operator's Composition and Functions Refer to the following illustration and table to identify the part names and functions of the Smart Operator. ❶ ❶ ❹ ❹ Status ❷ ❷ ❺ ❺ Forward/ ❸...
Page 87: [ Image 4. Battery Cover Removal ]
Learning to Perform Basic Operations Note Installing (replacing) the Smart Operator battery When the Smart Operator is shipped, the battery (CR2032) is already installed. Please follow the steps below when installing (replacing) the battery for the first time or when the battery is low and needs to be replaced. 1 Use the snap hook to separate the Smart Operator from the product.
Page 88: [ Image 6. Battery Replacement ]
Learning to Perform Basic Operations Note 4 Remove the old battery and install the new one in the correct orientation when replacing an old battery. [ Image 6. Battery replacement ] 5 Using a flathead (-) screwdriver or coin, close the battery cover by turning it in the closing direction.
Page 89: Description Of Operation Key Functions
Learning to Perform Basic Operations 4.2.1 Description of Operation Key Functions Refer to the following table for descriptions of the functions for each key. Table 3. Smart Operator operation key Classification Display Function name Functionality MODE key Displays the Menu screen. By pressing once in the parameter code that can be set, Program (ENTER)
Page 90: Description Of The Status Indicator Led
Learning to Perform Basic Operations 4.2.2 Description of the Status Indicator LED Refer to the following table for a detailed description of the Smart Operator's status indicator LED. For a description of the status indicator LED located on the front of the inverter body, refer to 4.1 Description of the Inverter Status Indicator LED.
Page 91: Menu (Mode) And Screen
Learning to Perform Basic Operations status bar Details Bottom status bar [ Image 8. LCD Screen Composition ] 4.2.4 Menu (mode) and Screen The S300 series inverter consists of six modes, as follows: Each mode has function items appropriate for its characteristics, and in the case of parameter mode, functions necessary for the operation of the inverter are displayed as group units.
Page 92: [ Image 10. Monitor Mode Screen ]
Learning to Perform Basic Operations 4.2.4.1 Monitor mode In Monitor mode, information about the inverter's operation is displayed. You can set the frequency, display the operating frequency, monitor the output current and voltage, etc. Enter the main menu screen by pressing the key, select the Monitor mode using the direction keys ( / / ), and press the...
Page 93 Learning to Perform Basic Operations Screen name Display Description Smart Operator Terminal-1 Terminal-2 3-Wire Operation RS-485 built-in communication command Option source Smart Operator jog Terminal jog User Sequence Smart Operator ❷ ❷ A1, A2 , A3 Analog A1, A2, A3 Pulse Up/Down 485 built-in communication...
Page 94 Learning to Perform Basic Operations Screen name Display Description STOP Stopped Forward operation Reverse operation TRIP Trip WARN Warning Stall Speed search Inverter ❹ ❹ operation state S/W overcurrent suppression H/W overcurrent suppression TUNE Tuning FIRE Fire Mode PID Operation Sleep Mode DC Braking KEB operation Continuous...
Page 95 Learning to Perform Basic Operations 4.2.4.2 Monitor mode type You can change the monitor screen type by pressing the key in Monitor mode. In Setting mode, you can select the items to be displayed on each monitor. In Monitor mode, you can navigate directly to Setting mode by pressing the key.
Page 96: [ Image 11. Parameter Mode Screen ]
Learning to Perform Basic Operations Monitor screen Description type This monitor mode is displayed as a graph. You can set the graph display time in Setting mode as well as using key on the Smart Operator. Monitor graph 4.2.4.3 Parameter mode You can set the functions necessary for operation.
Page 97 Learning to Perform Basic Operations Table 7. Parameter mode screen composition Classification Description Parameter group Displays the parameter group name (refer to ❶ ❶ information Description of the Parameter configuration mode) Parameter group Displays selected parameter sub-details ❷ ❷ details (code number + code name + parameter value) Parameter property Displayed when default settings are changed to other ❸...
Page 98 Learning to Perform Basic Operations Group name Display Description Configures functions related to dwell operation, Advanced function group frequency jump, and up/down operation. Configures functions related to application function Application function group activations, speed search, and kinetic energy buffering motion (KEB). Input terminal function Configures the function of the multifunction digital group...
Page 99: [ Image 12. Favorite Mode Screen ]
Learning to Perform Basic Operations 4.2.4.4 Favorite mode A user may group frequently used parameters and edit the parameter values of selected macro functions. Refer to 4.5 Favorites Settings for details. key, select the Favorite mode Enter the main menu screen by pressing the using the direction key ( / / ), and press the key to navigate to the...
Page 100: [ Image 13. Screen When There Is A Previously Occurred Trip ]
Learning to Perform Basic Operations 4.2.4.5 Trip mode When a trip occurs during operation, the type of trip, frequency of operation, current, and voltage at the time of the trip will be displayed. It is also possible to monitor the types of trips that have occurred in the past.
Page 101: [ Image 16. Setting Mode Screen ]
Learning to Perform Basic Operations Table 10. Trip mode screen composition Classification Description The information is displayed according to the type of Trip type/history ❶ ❶ trip or by the history tab, depending on the situation information tab (Fault-1: last occurred trip) Fault trip ❷...
Page 102: [ Image 17. Wizard Mode Screen ]
Learning to Perform Basic Operations Table 11. Setting mode screen composition Classification Description Separates setting items into settings related to ❶ ❶ Tab information operation or Smart Operator operation and displays them in tabs Enter the code number to go directly to the desired ❷...
Page 103: How To Use The Smart Operator
Learning to Perform Basic Operations How to Use the Smart Operator To use the product's functions, it is necessary to select the group and code to which the function belongs with the Smart Operator and set the parameter value for each function.
Page 104: Navigating To Code (Function Item)
Learning to Perform Basic Operations 4.3.2 Navigating to Code (Function Item) On the menu screen, press the direction key ( / / ) to navigate to the desired mode, and press the key to enter it. [Select a parameter group or information tab] You can select the desired parameter group or information tab by pressing the...
Page 105: Navigating Directly To Different Codes (Jump Codes)
Learning to Perform Basic Operations 4.3.3 Navigating Directly to Different Codes (Jump Codes) There is a jump code input item that can be used to navigate to the code of each group in the Parameter mode and Setting mode groups. You can navigate (jump) directly to the desired code by using the Jump Code, which is the first code of a specific group in parameter mode.
Page 106: Parameter Setting
Learning to Perform Basic Operations Parameter Setting You can directly change the parameters required for operation. On the Parameter configuration mode screen, select the parameter group and items to be set, then press the key to change the items. However, items marked as in the list are read-only and cannot be edited.
Page 107: Favorites Settings
Learning to Perform Basic Operations An example of changing the command frequency setting value of code number 01 in the drive group (DRV) is shown in the following illustration. • By pressing the key, navigate to the desired position to enter a value. Then, press the key to enter the desired setting value.
Page 108: [ Image 27. Favorite Registration Screen ]
Learning to Perform Basic Operations Favorite Registration • Navigate to the parameter you want to register as a favorite in the Parameter mode and press the key. Navigate to the Favorite registration screen. • By pressing the key, navigate to the position to enter a value.
Page 109: Editing The Favorite Parameters
Learning to Perform Basic Operations • In the pop-up window asking for deletion, select YES and press the key. The parameter will be deleted from the favorites list. [ Image 30. Confirmation screen for deleting favorites ] 4.5.2 Editing the Favorite Parameters The parameter values registered in the favorite group can be directly edited in Favorite mode.
Page 110: Macro Settings
Learning to Perform Basic Operations Macro settings 4.6.1 Selecting macro Similar to Favorites settings, this function allows you to easily use basic functions in each Parameter mode group by pre-registering them into a group. Setting Initial Mode Group Code Set Value Unit Display Range...
Page 111 Learning to Perform Basic Operations Macro settings Group Code LCD Display Initial Value value Command Frequency 60.00Hz Acc Time 20.00sec Dec Time 30.00sec 1st Command Src Fx/Rx-1 3WIRE 1st Freq Ref Src Keypad DI1 Define DI2 Define DI3 Define 3-Wire Acc Time 20.00sec Dec Time...
Page 112: Edit Macro Parameters
Learning to Perform Basic Operations 4.6.2 Edit macro Parameters The parameter values registered in the favorite group can be directly edited in Macro mode. • Navigate to the parameter you want to delete in Macro mode and press the key. Navigate to the parameter change screen.
Page 113: Learning Basic Functions
Learning Basic Functions 5 Learning Basic Functions For more information about the basic functions of the inverter, refer to the comprehensive user’s manual on the website (https://www.ls-electric.com). Frequency Settings Operation Command Settings Acc/Dec Settings...
Page 114: Using The Advanced Functions Of The Motor
Using the Advanced Functions of the Motor 6 Using the Advanced Functions of the Motor For more information about the advanced functions of the motor, refer to the comprehensive user’s manual on the website (https://www.ls-electric.com). Induction Motor V/F Control Vector Control for Induction Motors Torque Control for Induction Motors V/F Control for Synchronous Motors Vector Control for Synchronous Motors...
Page 115: Learning Advanced Features
Learning Advanced Features 7 Learning Advanced Features For more information about the advanced features of the inverter, refer to the comprehensive user’s manual on the website (https://www.ls-electric.com). Auxiliary Frequency Operation Jog operation 3-Wire Operation Safe Operation Mode Dwell Operation Torque Boost PID Control...
Page 116: External Pid (Epid)
Learning Advanced Features External PID (EPID) Kinetic Energy Buffering Operation 7.10 Current Hunting Prevention (Anti-Hunting Regulator) 7.11 Fire Mode 7.12 Energy Saving Operation 7.13 Speed Search Operation 7.14 Auto Restart Setting 7.15 Operational Noise Settings (Change of Carrier Frequency Settings)
Page 117: Second Motor Operation
Learning Advanced Features 7.16 Second Motor Operation 7.17 Switching Operation to Commercial Power 7.18 Input Power Frequency Settings and Voltage Monitoring 7.19 Second Operation Mode Settings 7.20 Regeneration Avoidance 7.21 Load Speed 7.22 Output Power Display 7.23 Motor Pre-Heating...
Page 118: Dc Injection By Terminal Block
Learning Advanced Features 7.24 DC Injection by Terminal Block 7.25 Brake Control 7.26 Position Control 7.27 Using User Sequence 7.28 Operating Winder/Unwinder 7.29 System Stop (Quick Stop) 7.30 No Restart after a Free-Run Stop 7.31 Timer Settings...
Page 119: Functions Of Terminal Block
Functions of Terminal Block 8 Functions of Terminal Block For more information about the functions of terminal block, refer to the comprehensive user’s manual on the website (https://www.ls-electric.com). Multifunction Digital Inputs Analog Input Multifunction Digital Output Pulse Input Analog Output Pulse Output...
Page 120: Learning Protection Functions
Learning Protection Functions 9 Learning Protection Functions For more information about the protection functions of the inverter, refer to the comprehensive user’s manual on the website (https://www.ls-electric.com). Motor Protection Inverter and Sequence Protection Diagnostic Functions Operation Settings related to Trip Occurrence Trip/Warning List...
Page 121: Using Built-In Communication Features
Using Built-in Communication Features 10 Using Built-in Communication Features For more information about the built-in communication features of the inverter, refer to the comprehensive user’s manual on the website (https://www.ls-electric.com). 10.1 Communication Standards 10.2 Communication System Configuration 10.3 Communication Parameter Address Operation 10.4 Built-in Communication Protocol...
Page 122: Using Usb Communication Functions
Using USB Communication Functions 11 Using USB Communication Functions For more information about the USB communication functions of the inverter, refer to the comprehensive user’s manual on the website (https://www.ls-electric.com). 11.1 Parameter Settings for USB Communication 11.2 Parameter Group for Data Transmission...
Page 123: Inverter Setting Mode
Inverter Setting Mode 12 Inverter Setting Mode For more information about the inverter setting mode, refer to the comprehensive user’s manual on the website (https://www.ls-electric.com). 12.1 Parameter Management 12.2 Monitoring Settings 12.3 Trip Status Monitoring...
Page 124: Table Of Functions
Table of Functions 13 Table of Functions This chapter lists all the function settings for S300 series inverter. Set the parameters required for operation according to the table of functions. The parameter address when accessing the inverter parameter with communication is calculated as follows: 16-bit parameter address = 16 bit group code + code number 32-bit parameter address = 32 bit group code + code number *2...
Page 125: Drive Group (Drv)
Table of Functions - Drive Group (DRV) Group 16-Bit 32-Bit Group 16-Bit 32-Bit 1C00h 9C00h 3900 B900 1D00h 9D00h 3A00 BA00 PPID 2200h A200h 3B00 BB00 2400h A400h 3C00 BC00 DIAG 2500h A500h 3D00 BD00 13.1 Drive Group (DRV) The codes in the gray shaded area are hidden when shipped from the factory and shown only when setting the parameter (refer to the footnote).
Page 126 Table of Functions - Drive Group (DRV) Communication Initial Property address/scale Code LCD Display Setting Range Unit Ref. Value 16-Bit 32-Bit 1206h 920Ch Dec Time 0.00-6000.00 30.00 5.3.1 0.01 Keypad Fx/Rx-1 Fx/Rx-2 3-Wire Command 5.2.1 120ah 9214h △ Internal Comm Source USB Comm.
Page 127 Table of Functions - Drive Group (DRV) Communication Initial Property address/scale Code LCD Display Setting Range Unit Ref. Value 16-Bit 32-Bit Keypad Analog Input 1 Analog Input 2 Analog Input 3 Pulse Input Internal Comm. 1st Torque 120ch 9218h △ Ref Src USB Comm.
Page 128 Table of Functions - Drive Group (DRV) Communication Initial Property address/scale Code LCD Display Setting Range Unit Ref. Value 16-Bit 32-Bit Normal Duty 9.1.3 Load Duty 1219h 9232h △ Select Heavy Duty 9.1.2 Normal PWM PWM Mode 121ah 9234h △ Low Leakage 121bh 9236h Carrier...
Page 129 Table of Functions - Drive Group (DRV) Communication Initial Property address/scale Code LCD Display Setting Range Unit Ref. Value 16-Bit 32-Bit M + (G * A) M * (G * A) M / (G * A) M+(M*(G*A)) M+G*2*(A-50) M*(G*2*(A-50)) Auxiliary M/(G*2*(A-50)) 1225h 924Ah △...
Page 130 Table of Functions - Drive Group (DRV) Communication Initial Property address/scale Code LCD Display Setting Range Unit Ref. Value 16-Bit 32-Bit Keypad Analog Input 1 Analog Input 2 Analog Input 3 Pulse Input Up Down Drive 2nd Freq Internal Comm. 7.18 122ah 9254h Ref Src...
Page 131 Table of Functions - Drive Group (DRV) Communication Initial Property address/scale Code LCD Display Setting Range Unit Ref. Value 16-Bit 32-Bit During Run Fan Control Always Run 9.2.10 1232h 9264h Temp. Control 1255h 92AAh Temperature ℃ 1256h 92ACh Sync Frequency 0.01 0.01...
Page 132: Basic Function Group (Bas)
Table of Functions - Basic Function Group (BAS) 13.2 Basic Function Group (BAS) The codes in the gray shaded area are hidden when shipped from the factory and shown only when setting the parameter (refer to the footnote). Max Frequency and Maximum Speed refer to the setting values at DRV-20 (Max Frequency) and DRV-21 (Maximum Speed) respectively.
Page 133 Table of Functions - Basic Function Group (BAS) Communication Initial Property address/scale Code LCD Display Setting Range Unit Ref. Value 16-Bit 32-Bit 1309h 9312h DC Brake 0-1800 5.2.5.2 △ Speed 130ah 9314h DC Injection 1-200 △ Level 130bh 9316h PwrBrk 0-500 5.2.5.4 △...
Page 134 Table of Functions - Basic Function Group (BAS) Communication Initial Property address/scale Code LCD Display Setting Range Unit Ref. Value 16-Bit 32-Bit None Auto Tuning All (Rotation) All (Standstill) Rs+Lsigma Tr (Rotation) Auto Tuning 130fh 931eh △ Tr (Standstill) IM Sat. Model Est.
Page 135 Table of Functions - Basic Function Group (BAS) Communication Initial Property address/scale Code LCD Display Setting Range Unit Ref. Value 16-Bit 32-Bit 1318h 9330h Ldq Tune 80-150 △ Freq Perc 1319h 9332h Ldq Tune 20-50 △ Curr Perc 131fh 933eh Step 0.00-Max Frequency 10.00...
Page 136 Table of Functions - Basic Function Group (BAS) Communication Initial Property address/scale Code LCD Display Setting Range Unit Ref. Value 16-Bit 32-Bit 132dh 935ah Step 0.00-Max Frequency 5.00 5.1.2.4 Frequency-15 0.01 0.01 132eh 935ch Step 0-Maximum Speed 5.1.2.4 Speed-01 132fh 935eh Step 0-Maximum Speed 5.1.2.4...
Page 137 Table of Functions - Basic Function Group (BAS) Communication Initial Property address/scale Code LCD Display Setting Range Unit Ref. Value 16-Bit 32-Bit 133ch 9378h Step 0-Maximum Speed 5.1.2.4 Speed-15 Linear Acc Pattern 5.3.2.1 1342h 9384h △ S-Curve 1343h 9386h Acc S-Curve 1-100 5.3.2.1 △...
Page 138 Table of Functions - Basic Function Group (BAS) Communication Initial Property address/scale Code LCD Display Setting Range Unit Ref. Value 16-Bit 32-Bit 1352h 93a4h Acc Time-3 0.00-6000.00 40.00 5.3.1.3 0.01 1353h 93a6h Dec Time-3 0.00-6000.00 40.00 5.3.1.3 0.01 1354h 93a8h Acc Time-4 0.00-6000.00 50.00...
Page 139: First Motor Group (Mot1)
Table of Functions - First Motor Group (MOT1) 13.3 First Motor Group (MOT1) The codes in the gray shaded area are hidden when shipped from the factory and shown only when setting the parameter (refer to the footnote). Communication Initial Property address/scale Code LCD Display...
Page 140 Table of Functions - First Motor Group (MOT1) Communication Initial Property address/scale Code LCD Display Setting Range Unit Ref. Value 16-Bit 32-Bit 0.2 kW 0.4 kW 0.75 kW 1.5 kW 2.2 kW 4 kW 5.5 kW 7.5 kW 11 kW 15 kW 18.5 kW 22 kW...
Page 141 Table of Functions - First Motor Group (MOT1) Communication Initial Property address/scale Code LCD Display Setting Range Unit Ref. Value 16-Bit 32-Bit 1418h 9430h 16.8 Rated Speed 900-24000 △ Note 1419h 9432h Number of 2-100 Pole △ Poles 141ah 9434h Rated 16.8 1.0-1000.0...
Page 142 Table of Functions - First Motor Group (MOT1) Communication Initial Property address/scale Code LCD Display Setting Range Unit Ref. Value 16-Bit 32-Bit 1433h 9466h 50-400 Bandwidth 1434h 9468h Active 0-1000 Resistance 1436h 946ch ASR Adjust 1-10 Gain IPPE Enable 143dh 947ah 143eh 947ch IPPE Volt Ref 10-100...
Page 143 Table of Functions - First Motor Group (MOT1) Note Table 1. Parameter with different scales depending on the motor capacity when accessing with a 16-bit parameter data MOT1,2-36 MOT1,2-37 MOT1,2-38 Voltage Motor capacity (Stator (Leakage (Stator category Resistance) Inductance) Inductance) Below 0.4 kW 0.01 200 V 0.75-11 kW 0.001 0.01 0.01...
Page 144: The First Motor V/F Group (Vf1)
Table of Functions - The First Motor V/F Group (VF1) 13.4 The First Motor V/F Group (VF1) This group is activated when the MOT1-05 (Control Mode) value is 0 (V/F) or 1 (Slip Comp.). The codes in the gray shaded area are hidden when shipped from the factory and shown only when setting the parameter (refer to the footnote).
Page 145 Table of Functions - The First Motor V/F Group (VF1) Communication Initial Property address/scale Code LCD Display Setting Range Unit Ref. Value 16-Bit 32-Bit 150ah 9514h User 0-100 △ Voltage-3 150bh 9516h User User Frequency-3- 60.00 △ Frequency-4 Max Frequency 0.01 0.01 150ch 9518h...
Page 146 Table of Functions - The First Motor V/F Group (VF1) Communication Initial Property address/scale Code LCD Display Setting Range Unit Ref. Value 16-Bit 32-Bit 1521h 9542h Reverse 0-15.0 △ Boost 1522h 9544h ATB Mot- 0.0-300.0 100.0 7.6.2 Gain 1523h 9546h ATB Gen- 0.0-300.0 100.0...
Page 147 Table of Functions - The First Motor V/F Group (VF1) Communication Initial Property address/scale Code LCD Display Setting Range Unit Ref. Value 16-Bit 32-Bit 154fh 959eh Stall 0.00- 15.00 9.1.4 Frequency-1 Stall Frequency-2 0.01 0.01 1550h 95a0h Stall Speed-1 0-Stall Speed-2 1800 9.1.4 1551h 95a2h...
Page 148: First Motor Control Group (Vec1)
Table of Functions - First Motor Control Group (VEC1) 13.5 First Motor Control Group (VEC1) For more information about the first motor control group (VEC1) and other function groups, refer to the comprehensive user’s manual on the website (https://www.ls- electric.com). 13.6 Second Motor Group (MOT2) 13.7...
Page 149: Output Terminal Block Group (Out)
Table of Functions - Output Terminal Block Group (OUT) 13.13 Output Terminal Block Group (OUT) 13.14 Process PID Group (PPID) 13.15 Protection Function Group (PRT) 13.16 Diagnosis Function Group (DIAG) 13.17 Internal Communication Group (INTC) 13.18 Modbus Master Group (INTM) 13.19 USB Communication Group (USBC) 13.20 Virtual Terminal Block Group (VIRT)
Page 150: Encoder Group (Enc)
Table of Functions - Encoder Group (ENC) 13.21 Encoder Group (ENC) 13.22 External PID 1 Group (EPI1) 13.23 External PID 2 Group (EPI2) 13.24 Position Control Group 1 (POS1) 13.25 Position Control Group 2 (POS2) 13.26 WEB1 Group (WEB1) 13.27 WEB2 Group (WEB2) 13.28 User Sequence Group (US)
Page 151: User Sequence Logical Operation Group (Usl)
Table of Functions - User Sequence Logical Operation Group (USL) 13.29 User Sequence Logical Operation Group (USL) 13.30 User Sequence Arithmetic Operation Group (USV) 13.31 User Sequence Parameter Operation Group (USP) 13.32 User Sequence Special Function Group (USM)
Page 152: Troubleshooting
Troubleshooting 14 Troubleshooting 14.1 Trip and Warning When the inverter detects an abnormal condition, it will stop (trip) the operation or display a warning to protect the internal circuit. When a trip or warning occurs, detailed trip information and warning information will be displayed on the Smart Operator.
Page 153 Troubleshooting Trip LCD Display Details condition Displayed when the internal DC circuit voltage is Over Voltage Latch greater than the specified value. Displayed when internal DC circuit voltage is less than Latch/ the specified value during operation. It is possible to Low Voltage Level set the trip type (Latch/Level) in the PRT-02 (LV Trip...
Page 154 Troubleshooting 14.1.1.2 Protection Functions Using Abnormal Internal Circuit Conditions and External Signals Table 2. Trip related to internal circuit/external signal Trip LCD Display Details condition Displayed when there is an error in reading/writing Data Storage Error Fatal parameters due to damage to the inverter's internal storage device.
Page 155 Troubleshooting Trip LCD Display Details condition Displayed when there is an error in the power circuit Gate Power Loss Latch of the power unit in the inverter. Displayed when there is an error in the capacity Power Index Error Level recognition circuit of the power unit in the inverter.
Page 156 Troubleshooting Trip LCD Display Details condition Displayed if a trip signal is provided when communication is not performed through the USB Lost USB Level connector. Operates when PRT-19 (Lost USB Mode) is set to a value other than 0. Lost Ext Ana In- Displayed if a trip signal is provided when the analog Level 1, 2, 3, 4...
Page 157 Troubleshooting 14.1.1.4 Advanced Functions Table 4. Trip related to application functions Trip LCD Display Details condition Displayed when there is an error with the mechanical Mechanical Brake Latch brake sequence. Displayed when the restart function is activated Reset Restart Fail Latch after more than the set number of resets has been performed.
Page 158 Troubleshooting Trip LCD Display Details condition Displayed when an input signal is input into the Pos HW Limit High Latch multifunction terminal whose DI1-DI8 Define code is set to 59 (POS HW Lmt H). Displayed when an input signal is input into the Pos HW Limit Low Latch multifunction terminal whose DI1-DI8 Define code is...
Page 159: Warning Messages
Troubleshooting 14.1.2 Warning Messages 14.1.2.1 Fault status Table 7. Fault status warning LCD Display Details Displayed when the motor becomes overloaded. Operates when PRT-35 (OL Warn Select) code is set to 1 (Yes). Over Load Warn To receive a warning output signal, set the OUT-50, 52, 54 (DO1-DO3 Status) codes to 5 (Over Load Warn).
Page 160 Troubleshooting LCD Display Details Displayed when the DB resistor warning level is greater than the APP-37 (DB Warn %ED) set value. Operates when the APP-36 DB Warn %ED (DB Warn %ED Enable) code is set to 1 (Yes). To receive a warning output signal, set the OUT-50, 52, 54 (DO1-DO3 Status) codes to 26 (DB Warn %ED).
Page 161 Troubleshooting 14.1.2.2 Status display according to advanced tasks Table 8. Status display warning according to advanced tasks LCD Display Details Displayed when converting to speed control mode during a Torque->Speed torque control mode operation in torque control mode. Displayed when converting to torque control mode during a Speed->Torque speed control mode operation in torque control mode.
Page 162: Troubleshooting Fault Trips
Troubleshooting 14.2 Troubleshooting Fault Trips When a fault trip or warning occurs due to a protection function, refer to the following table for possible causes and remedies. Table 10. Troubleshooting Fault Trips Items Cause Remedy Replace the motor and inverter The load is greater than the with models that have a larger rated motor capacity.
Page 163 Troubleshooting Items Cause Remedy Set the deceleration time Deceleration time is too short (PRT-01 Trip Dec Time) to a for the load inertia (GD2). longer value. Use the braking unit. Refer to 16.6 Braking Unit and Braking Resistor Over Voltage A generative load occurs at the Specifications for more inverter output.
Page 164 Troubleshooting Items Cause Remedy The magnetic contactor (MC) Check the magnetic contactor on the output side has a on the output side. Out Phase Open connection fault. The output wiring is faulty. Check the output wiring. The magnetic contactor Check the magnetic contactor (MC) on the input side has a on the input side.
Page 165: Actions On Other Faults
Troubleshooting 14.3 Actions on Other Faults When a fault other than those identified as fault trips or warnings occurs, refer to the following table for possible causes and remedies. Table 11. Actions on Other Faults Items Cause Remedy Stop the inverter to change to program mode and set the The inverter is in operation parameter.
Page 166 Troubleshooting Items Cause Remedy The load is too high. Operate the motor independently. An emergency stop signal is Reset the emergency stop signal. input. The wiring for the control Check the wiring for the control circuit terminal is incorrect. circuit terminal. Check the input voltage or current for the frequency command.
Page 167 Troubleshooting Items Cause Remedy Reverse rotation prevention Remove the reverse rotation is selected. prevention. Check the input signal associated The motor with the 3-wire operation and only rotates in one The reverse rotation signal adjust as necessary. Refer to direction. is not provided, even when a 7.3 3-Wire Operation in the 3-wire sequence is selected.
Page 168 Troubleshooting Items Cause Remedy Reduce the load. Manually increase the amount of torque boost to operate. Refer to 7.6.1 Manual Torque Boost in the comprehensive user's manual The load is too high. for details. Replace the motor and the The motor stops when inverter with models with accelerating.
Page 169 Troubleshooting Items Cause Remedy Replace the motor and inverter There is a high variance in with models that have a larger load. capacity. Motor revolutions per Stabilize the power supply minute varies during The input voltage varies. voltage. operation. Adjust the output frequency (DRV- Motor speed variations occur 01 Command Frequency) to avoid at a specific frequency.
Page 170 Troubleshooting Items Cause Remedy Check the input voltage and The motor vibrates balance the voltage. The voltage between phases severely and does not is badly balanced. Check and test the motor’s rotate normally. insulation. Resonance occurs between Increase or decrease the carrier the motor’s natural frequency frequency (DRV-27 Carrier and the carrier frequency.
Page 171 Troubleshooting Items Cause Remedy The frequency reference is Set the frequency reference within the jump frequency higher than the jump frequency range. range. The output frequency The frequency reference is Set the upper limit of the does not increase exceeding the upper limit of frequency command higher than to the frequency the frequency command.
Page 172: Maintenance
Maintenance 15 Maintenance 15.1 Regular Inspection Lists 15.1.1 Daily Inspections Table 1. Regular Inspection List Inspection Inspection Inspection Inspection Judgment Inspection Area Item Details Method Standard Equipment Is the There must ambient be no danger temperature of freezing and humidity Refer to 2.1 with ambient within the...
Page 173 Maintenance Inspection Inspection Inspection Inspection Judgment Inspection Area Item Details Method Standard Equipment Turn off Is there any the system Cooling abnormal and check Fan rotates Cooling Fan system vibration or operation by smoothly noise? rotating the fan manually. Check the Check and Is the reading of...
Page 174: Annual Inspections
Maintenance 15.1.2 annual Inspections Table 2. Regular (Yearly) Inspection List Inspection Inspection Inspection Inspection Judgment Inspection Area Item Details Method Standard Equipment Remove wiring from the inverter and short R/S/T/U/V/W Megger test terminals, and (between then measure Must be above 5 input/output from each MΩ...
Page 175 Maintenance Inspection Inspection Inspection Inspection Judgment Inspection Area Item Details Method Standard Equipment Is there any chattering Visual noise inspection during Relay No abnormality operation? Is there any Visual damage to the Input/ inspection contacts? Output circuit Is there any Visual damage from No abnormality...
Page 176: Bi-Annual Inspections
Maintenance 15.1.3 bi-annual Inspections Table 3. Regular (Biennial) Inspection List Inspection Inspection Inspection Inspection Judgment Inspection Area Item Details Method Standard Equipment Remove the Megger test DC 500 V wires from class megger (between Insulation terminals Must be above 5 Motor (insulation- the output...
Page 177: Storage And Disposal
Maintenance 15.2 Storage and Disposal 15.2.1 Proper Product Storage If you are not using the product for an extended period, store it in the following way: • Store the product in the environmental suitable for operation (refer to 1.3 Installation Considerations). •...
Page 178: Technical Specifications
Technical Specifications 16 Technical Specifications 16.1 Input and Output Specifications 16.1.1 200 V Class 0.4-18.5 kW (LSLV0004 - 0185S300-2) Table 1. Input/Output Specifications (200 V Class 0.4-18.5 kW) Model: LSLV□□□□S300-2 0004 0008 0015 0022 0040 0055 0075 0110 0150 0185 [HP] Heavy Duty (HD) [kW] 0.4 0.75 1.5 18.5 Applied Motor [HP] Normal Duty (ND)
Page 179: Class 22-75 Kw (Lslv0220 - 0750S300-2)
Technical Specifications Model: LSLV□□□□S300-2 0004 0008 0015 0022 0040 0055 0075 0110 0150 0185 Input 3-phase 200-240, -15% - +10% Voltage Input [Hz] 50/60 ±5% frequency Input Rating 9.6 15.5 22.1 29.6 42.6 54.8 68.4 Rated Current 6.8 10.5 14.1 19.5 26.9 38.1 51.1 63.9 75.8 Weight (lb /kg) 7.2 12.9 13.2 16.1.2 200 V Class 22-75 kW (LSLV0220 - 0750S300-2)
Page 180: Class 0.4-22 Kw (Lslv0004 - 0220S300-4)
Technical Specifications Model: LSLV□□□□S300-2 0220 0300 0370 0450 0550 0750 V/F, V/F-SC 0.01~590 Output V/F-PG 0~400 [Hz] frequency Output SLVC-IM , SLVC-PM 0~400 Rating SVC-IM , SVC-PM Output 3-phase 200-240 voltage Input 3-phase 200-240, -15% - +10% Voltage Input [Hz] 50/60 ±5% frequency Input Rating...
Page 181 Technical Specifications Model: LSLV□□□□S300-4 0004 0008 0015 0022 0040 0055 0075 0110 0150 0185 0220 1.4 2.6 3.7 4.2 7.0 11.3 12.6 18.3 23.6 29.7 34.3 [kVA] Rated capacity 1.9 3.1 4.6 6.1 9.2 13.3 18.3 23.6 29.0 34.3 46.5 [kVA] 1.8 3.4 4.8 5.5 9.2 14.8 16.5 24 Rated Current...
Page 182: Class 30-75 Kw (Lslv0300 - 0750S300-4)
Technical Specifications 16.1.4 400 V Class 30-75 kW (LSLV0300 - 0750S300-4) Table 4. Input/Output Specifications (400 V Class 30-75 kW) Model: LSLV□□□□S300-4 0300 0370 0450 0550 0750 [HP] Heavy Duty (HD) [kW] Applied Motor [HP] Normal Duty (ND) [kW] 46.5 57.2 69.4 83.8 115.8 [kVA] Rated capacity 57.2 69.4 81.5...
Page 183: Class 90-220 Kw (Lslv0900 - 2200S300-4)
Technical Specifications Model: LSLV□□□□S300-4 0300 0370 0450 0550 0750 Input 3-phase 380-480, -15% - +10% Voltage Input [Hz] 50/60 ±5% frequency Input Rating 56.7 70.1 85.1 103.5 146.5 Rated current 70.1 85.1 100.7 136.8 162.9 Weight (lb /kg) 18.6 18.7 28.3 41.2 41.9 16.1.5 400 V Class 90-220 kW (LSLV0900 - 2200S300-4)
Page 184 Technical Specifications Model: LSLV□□□□S300-4 0900 1100 1320 1600 1850 2200 [kVA] Rated capacity [kVA] Rated Current (380 - 460 V) Output Rated Rating Current (460-480 V) V/F, V/F-SC 0.01~590 Output V/F-PG 0~400 [Hz] frequency SLVC-IM , SLVC-PM 0~400 SVC-IM , SVC-PM Output 3-phase 380-480 voltage...
Page 185: Product Specification Details
Technical Specifications 16.2 Product Specification Details 16.2.1 Product Specification Details Table 6. Product Specifications Items Description V/F control, slip compensation, V/F PG Control method sensorless vector, sensored vector Digital command 0.01Hz Frequency settings power resolution Analog command 0.06 Hz(60 Hz standard) Frequency accuracy 1% of maximum output frequency Control V/F pattern Linear, square reduction, user V/F...
Page 186 Technical Specifications Items Description Forward operation, reverse operation Reset Emergency stop External trip 1, 2, 3, 4 Jog operation Multi-stage frequency: L/M/H/X Multi-stage acceleration and deceleration: high/medium/ Acceleration or deceleration stop Safe operation (Run Enable) 3-wire Second operation (2nd Source) Switching to commercial power (Exchange) Multifunction Increase/reduce/delete/save up-down operation Terminal...
Page 187 Technical Specifications Items Description Multifunction Open Less than DC 26V, 50mA Collector Terminal Trip output and inverter Less than AC 250 V, 2 A, N.O. operation less than DC 30 V, 3 A Trip Relay status Terminal Less than AC 250 V, 1 A, Output output N.C.
Page 188: Structure And Usage Environment
Technical Specifications 16.2.2 Structure and Usage Environment Table 7. Product Structure/Usage Environment Items Description Cooling type Forced fan cooling structure Protection IP 20 (default), UL Open & Enclosed Type 1 (optional) structure Installing Conduit option fulfills UL Enclosed Type 1 Where there is no ice or frost, •...
Page 189: External Dimensions (Ip20 Type)
Technical Specifications 16.3 External Dimensions (IP20 Type) 16.3.1 External Dimensions 200 V Class 0.4-4 kW / 400 V Class 0.4-4 kW Mounting Hole [ Image 1. 200 V class 0.4-4 kW/400 V class 0.4-4 kW Exterior Diagram ] Table 8. External Dimensions (200 V Class 0.4-4 kW/400 V Class 0.4-4 kW) 모델명...
Page 190 Technical Specifications 200 V Class 5.5-7.5 kW / 400 V Class 5.5-7.5 kW Mounting Hole [ Image 2. 200 V class 5.5-7.5 kW/400 V class 5.5-7.5 kW Exterior Diagram ] Table 9. External Dimensions (200 V Class 5.5-7.5 kW/400 V Class 5.5-7.5 kW) 모델명...
Page 191 Technical Specifications 200 V Class 11 kW / 400 V Class 11-15 kW Mounting Hole [ Image 3. 200 V Class 11 kW/400 V Class 11-15 kW Exterior Diagram ] Table 10. External Dimensions (200 V Class 11 kW/400 V Class 11-15 kW) 모델명...
Page 192 Technical Specifications 200 V Class 15-18.5 kW / 400 V Class 18.5-22 kW Mounting Hole [ Image 4. 200 V class 15-18 kW/400 V class 18.5-22 kW Exterior Diagram ] Table 11. External Dimensions (200 V Class 15-18.5 kW/400 V Class 18.5-22 kW) 모델명...
Page 193 Technical Specifications 200 V Class 22 kW / 400 V Class 30-37 kW Mounting Hole [ Image 5. 200 V Class 22 kW/400 V Class 30-37 kW Exterior Diagram ] Table 12. External Dimensions (200 V Class 22 kW/400 V Class 30-37 kW) 모델명...
Page 194 Technical Specifications 200 V Class 30 kW / 400 V Class 45 kW Mounting Hole [ Image 6. 200 V Class 30 kW/400 V Class 45 kW Exterior Diagram ] Table 13. External Dimensions (200 V Class 30 kW/400 V Class 45 kW) 모델명...
Page 195 Technical Specifications 200 V Class 37-45 kW / 400 V Class 55-75 kW Mounting Hole [ Image 7. 200 V class 37-45 kW/400 V class 55-75 kW Exterior Diagram ] Table 14. External Dimensions (200 V Class 37-45 kW/400 V Class 55-75 kW) 모델명...
Page 196 Technical Specifications 400 V Class 90-110 kW Mounting Hole [ Image 8. 400 V Class 90-110 kW Exterior diagram ] Table 15. External Dimensions (400 V Class 90-110 kW) 모델명 LSLV0900S300-4 306.4 725.0 391.0 200.0 53.2 240.0 33.2 688.5 27.0 19.0 LSLV1100S300-4 (12.06) (28.54)
Page 197 Technical Specifications 200 V Class 55-75 kW / 400 V Class 132-160 kW Mounting Hole [ Image 9. 200 V class 55-75 kW/400 V class 132-160 kW Exterior Diagram ] Table 16. External Dimensions (200 V Class 55-75 kW/400 V Class 132-160 kW) 모델명...
Page 198 Technical Specifications 400 V Class 185-220 kW Mounting Hole [ Image 10. 400 V Class 185-220 kW Exterior diagram ] Table 17. External Dimensions (400 V Class 185-220 kW) 모델명 LSLV1850S300-4 426.0 920.0 440.9 160.0 53.0 895.5 11.0 24.0 11.0 LSLV2200S300-4 (16.77) (36.22) (17.36)
Page 199: Peripheral Devices
Technical Specifications 16.4 Peripheral Devices 16.4.1 Standards of Molded Case Circuit Breaker (MCCB), Earth Leakage Circuit Breaker (ELCB), and Magnetic Contactor (MC) You may use molded case circuit breakers (MCCB), earth leakage circuit breakers (ELCB), and magnetic contactors (MC) in the following table: Table 18.
Page 200 Technical Specifications Earth Leakage Molded Case Circuit Breaker Magnetic Contactor Circuit (MCCB) (MC) Model Breaker LSLV□□□□ (ELCB) Rating Rating Rating Model Model Model 0022S300-4 UTS150·L·MCP·12·3P·UL EBS33c MC-12a 0040S300-4 UTS150·L·MCP·20·3P·UL EBS33c MC-18a 0055S300-4 UTS150·L·MCP·32·3P·UL EBS33c MC-32a 0075S300-4 UTS150·L·MCP·32·3P·UL EBS33c MC-32a 0110S300-4 UTS150·L·FTU·40·3P·UL EBS53c MC-50a 0150S300-4...
Page 201: Ac Input Fuse And Reactor Specifications
Technical Specifications 16.4.2 AC Input Fuse and Reactor Specifications This product has a built-in DC reactor. To additionally install an AC reactor, contact our customer service center. Table 19. Input Fuse and Reactor Specifications AC Input Fuse AC Reactor* Model LSLV□□□□ Voltage [V] Current [A] Inductance [mH] Current [A] 0004S300-2 2.02 0008S300-2 1.12...
Page 202 Technical Specifications AC Input Fuse AC Reactor* Model LSLV□□□□ Voltage [V] Current [A] Inductance [mH] Current [A] 0110S300-4 0.59 0150S300-4 0.47 0185S300-4 0.37 0220S300-4 0.29 0300S300-4 0.24 0370S300-4 0.19 0450S300-4 0.16 0550S300-4 0.12 0750S300-4 0.09 0900S300-4 0.08 1100S300-4 0.07 1320S300-4 0.05 1600S300-4 0.05 1850S300-4...
Page 203: Terminal Screw Specifications
Technical Specifications 16.5 Terminal Screw Specifications 16.5.1 Input/output Terminal Screw Specification Table 20. Input/output Terminal Screw Specification Model Terminal Block Screw Size Screw Torque [Kgf·cm (N·m)] LSLV□□□□ 0004S300-2 12.2~14.3(1.2~1.4) 0008S300-2 12.2~14.3(1.2~1.4) 0015S300-2 12.2~14.3(1.2~1.4) 0022S300-2 12.2~14.3(1.2~1.4) 0040S300-2 12.2~14.3(1.2~1.4) 0055S300-2 12.2~14.3(1.2~1.4) 0075S300-2 12.2~14.3(1.2~1.4) 0110S300-2 20.4~24.5(2.0~2.4) 0150S300-2 20.4~24.5(2.0~2.4) 0185S300-2 20.4~24.5(2.0~2.4) 0220S300-2 30.6~38.2(3~3.74) 0300S300-2 61.2~91.8(6~9) 0370S300-2...
Page 204: Control Circuit Terminal Screw Specifications
Technical Specifications Model Terminal Block Screw Size Screw Torque [Kgf·cm (N·m)] LSLV□□□□ 0110S300-4 12.2~14.3(1.2~1.4) 0150S300-4 12.2~14.3(1.2~1.4) 0185S300-4 20.4~24.5(2.0~2.4) 0220S300-4 20.4~24.5(2.0~2.4) 0300S300-4 M5 / M6 24.5~31.8(2.4~3.1)/30.6~38.2(3~3.74) 0370S300-4 M5 / M6 24.5~31.8(2.4~3.1)/30.6~38.2(3~3.74) 0450S300-4 61.2~91.8(6~9) 0550S300-4 61.2~91.8(6~9) 0750S300-4 61.2~91.8(6~9) 0900S300-4 61.2~91.8(6~9) 1100S300-4 61.2~91.8(6~9) 1320S300-4 182.4~215.0(18~21.2) 1600S300-4 182.4~215.0(18~21.2)
Page 205 Technical Specifications Caution Apply rated torques to the terminal screws. Loose screws may cause short circuits and malfunctions. Tightening the screw too much may damage the terminals and cause short circuits and malfunctions. Use copper wires only with 600V, 90 rating for the ℃...
Page 206: Braking Unit And Braking Resistor Specifications
Technical Specifications 16.6 Braking Unit and Braking Resistor Specifications 16.6.1 Type of Braking Units Table 22. Type of Braking Units Exterior and Product Type Voltage Brake unit Terminal Type Capacity Arrangement Type A 22kW SV220DBU-2U (Refer to the 200 V 37kW SV370DBU-2U table 16.6.5...
Page 207: Terminal Arrangement In The Braking Unit
Technical Specifications Note • Make sure to check the changes in the user manual of the relevant braking unit before use. • Refer to 16.6.5 Braking Resistor Specifications, or check the user manual of each braking unit for the resistance values of Type A. •...
Page 208 Technical Specifications The terminal arrangement of the braking unit is as the following groups: Group 1 [ Image 11. Terminal Arrangement in the Braking Unit - Group 1 ] Group 2 [ Image 12. Terminal Arrangement in the Braking Unit - Group 2 ] Group 3 [ Image 13.
Page 209 Technical Specifications Group 5 [ Image 15. Terminal Arrangement in the Braking Unit - Group 5: A Frame (200 V Class 37 kW, 400 V Class 37 kW/75 kW) [ Image 16. Terminal Arrangement in the Braking Unit - Group 5: B/C Frame (200 V Class 75 kW) ]...
Page 210: Braking Unit And Braking Resistor Wiring Diagram By Capacity
Technical Specifications 16.6.3 Braking unit and braking resistor wiring diagram by capacity 200 V class 0.4-22 kW / 400 V class 0.4-37 kW When using the built-in braking unit Connect the braking resistor to B (1) and B (2) terminals when using the built-in braking unit.
Page 211 Technical Specifications 200 V class 30-45 kW / 400 V class 45-75kW Connect the braking unit to P (+) and N (-) terminals when using the separate braking unit. R (L1) S (L2) T (L3) P (+) N (-) Brake unit N B1 B2 Motor 3-phase AC...
Page 212: Exterior Diagram Of Braking Unit
Technical Specifications Table 24. Braking Resistor Terminal Braking Resistor Terminal Terminal Description Wire correctly referring to the wiring diagram. Wire braking B1, B2 (DB) resistor to B1 and B2 terminals in the braking unit. Do not use it. 16.6.4 Exterior Diagram of Braking Unit It shows the exterior diagram of the braking unit and product size.
Page 213 Technical Specifications Group 2 WIRING RESISTOR INVERTER UNIT (P2) MOTOR DYNAMIC BRAKING UNIT MAX 5m POWER Right Side Front Rear [ Image 22. Exterior Diagram of Braking Unit - Group 2 ]...
Page 214 Technical Specifications Group 3 Right Side Front Rear [ Image 23. Exterior Diagram of Braking Unit - Group 3 ]...
Page 215 Technical Specifications Group 4 Right Side Front Rear [ Image 24. Exterior Diagram of Braking Unit - Group 4 ]...
Page 216 Technical Specifications Group 5 Right Side Front Rear [ Image 25. Exterior Diagram of Braking Unit - Group 5: A Frame ]...
Page 217 Technical Specifications Right Side Front Rear [ Image 26. Exterior Diagram of Braking Unit - Group 5: B Frame ]...
Page 218 Technical Specifications Right Side Front Rear [ Image 27. Exterior Diagram of Braking Unit - Group 5: C Frame ]...
Page 219: Braking Resistor Specifications
Technical Specifications Table 25. Exterior Dimensions of Braking Unit (Group 5) Installation Hole Size Duty Voltage Product Size (mm) Location Weight Capacity Cycle Frame Used (mm) Installation (kW) (%ED) (Kg) ( f ) 3.77 219 190 160 208.5 Frame 165.2 3.84 3.98 8.48 340 311...
Page 220 Technical Specifications Braking resistance 100% Torque 150% Torque Model Reference Braking LSLV□□□□ Unit Capacity (kW) Resistance Capacity (kW) Resistance (Ω) (Ω) ED 5% ED 10% ED 5% ED 10% 0185S300-2 0220S300-2 LSLV0220DBU-2LN 0300S300-2 LSLV0370DBU-2HN 0370S300-2 LSLV0370DBU-2HN 0450S300-2 LSLV0750DBU-2HN 0550S300-2 LSLV0750DBU-2HN 0750S300-2 LSLV0750DBU-2HN 12.8 19.2...
Page 221 Technical Specifications Braking resistance 100% Torque 150% Torque Model Reference Braking LSLV□□□□ Unit Capacity (kW) Resistance Capacity (kW) Resistance (Ω) (Ω) ED 5% ED 10% ED 5% ED 10% 1320S300-4 LSLV1320DBU-4HN 1600S300-4 LSLV1600DBU-4HN 1850S300-4 LSLV2200DBU-4HN 2200S300-4 LSLV2200DBU-4HN Note • Products that are less than 18.5 kW-200 V or 37 kW-400 V have a built-in braking unit by default and do not require separate installation.
Page 222: Derating
Technical Specifications 16.7 Derating For more information about the derating, refer to the comprehensive user’s manual on the website (https://www.ls-electric.com). 16.8 Parameter Default Values Based on the Motor Capacity For more information about the parameter default values based on the motor capacity, refer to the comprehensive user’s manual on the website (https://www.ls-electric.com).
Page 223: Product Warranty
• power supply problems or from other appliances being connected to the product • acts of nature (fire, flood, earthquake, gas accidents etc.) • modifications or repair by unauthorized persons • If the LS ELECTRIC nameplate is not attached to the product. • expired warranty period Visit Our Website Visit us at the LS ELECTRIC website (https://www.ls-electric.com) for useful information...
Page 224 EC DECLARATION OF CONFORMITY We, the undersigned, Representative: LS ELECTRIC Co., Ltd. Address: LS Tower, 127, LS-ro, Dongan-gu, Anyang-si, Gyeonggi-do, Korea Manufacturer: LS ELECTRIC Co., Ltd. Address: 56, Samseong 4-gil, Mokcheon-eup, Dongnam-gu, Cheonan-si, Chungcheongnam-do, Korea Certify and declare under our sole responsibility that the following apparatus:...
Page 225 UL mark The UL mark applies to products in the United States and Canada. This mark indicates that UL has tested and evaluated the products and determined that the products satisfy the UL standards for product safety. If a product received UL certification, this means that all components inside the product had been certified for UL standards as well.
Page 226: Manual Revision History
Manual Revision History Revision History Date Version Changes 2023/7/7 First Issue 2024/1/26 Contents Improved 2024/5/8 Macro Setting/Winder Operation added...
Page 227 Tel: 1-949-333-3140 • LS ELECTRIC Türkiye Co., Ltd. • LS ELECTRIC Italy Office (Italy) E-Mail: Türkiye @ls-electric.com E-Mail: italia @ls-electric.com Tel: 90-212-806-1225 Tel: 39-030-8081-833 ⓒ 2024. 06 LS ELECTRIC Co.,Ltd. All rights reserved. / (01) 2024. 06 Human Power 2024. 06...

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