Page 2 This operation manual is intended for users with basic knowledge of electricity and electric devices. * LSLV-S100 is the official name for S100.
Page 3 Safety Information Safety Information Read and follow all safety instructions in this manual precisely to avoid unsafe operating conditions, property damage, personal injury, or death. Safety symbols in this manual Indicates an imminently hazardous situation which, if not avoided, will result in severe injury or death.
Page 4 Safety Information • This equipment must be grounded for safe and proper operation. • Do not supply power to a faulty inverter. If you find that the inverter is faulty, disconnect the power supply and have the inverter professionally repaired. •...
Page 5 Maximum allowed prospective short-circuit current at the input power connection is defined in IEC 60439-1 as 100 kA. Depending on the selected MCCB, the LSLV-S100 Series is suitable for use in circuits capable of delivering a maximum of 100 kA RMS symmetrical amperes at the drive's maximum rated voltage.
Page 6: Table Of Contents
Table of Contens Table of Contents Preparing the Installation .................. 1 Product Identification ................. 1 Part Names ....................3 0.4-22kW Models ................3 30-75kW Models ................5 IP66 Models .................. 6 Installation Considerations ................ 8 Selecting and Preparing a Site for Installation ......... 9 Cable Selection ..................
Page 7 Table of Contents Initializing All Parameters ............88 Frequency Setting (Keypad) and Operation (via Terminal Input) ....................90 Frequency Setting (Potentiometer) and Operation (Terminal Input)................... 91 Frequency Setting (Potentiometer) and Operation (Keypad) .. 92 Monitoring the Operation ................ 94 0.4-22kW Models ................ 94 30-75kW Models .................
Page 8 Table of Contens Regular Inspection Lists ................ 197 Daily Inspections ............... 197 Annual Inspections ..............198 Bi-annual Inspections ............... 200 Replacing Major Components .............. 201 Exchange Cycle for Major Components ......... 201 Storage and Disposal ................201 Storage ..................201 Disposal ..................
Page 9 Table of Contents Dynamic Braking Unit Resistors ..........239 Continuous Rated Current Derating............. 240 Heat Emission ..................243 7.10 Remote Option ..................244 Applying Drives to Single-Phase Input Application ......... 245 Introduction .................... 245 Power(HP), Input Current and Output Current ........246 Input Frequency and Voltage Tolerance ..........
Page 10: 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. 1.1 Product Identification The S100 Inverter is manufactured in a range of product groups based on drive capacity and power source specifications.
Page 11 Preparing the Installation...
Page 12: Part Names
Preparing the Installation 1.2 Part Names The illustration below displays part names. Details may vary between product groups. 0.4-22kW Models 0.4-2.2kW (Single Phase) and 0.4-4.0kW (3–Phase)
Page 13 Preparing the Installation 5.5–22kW(3–Phase)
Page 14: 30-75Kw Models
Preparing the Installation 30-75kW Models Note The grounding terminal cover of EMC is not existed in the 55-75kW inverters.
Page 15: Ip66 Models
Preparing the Installation IP66 Models Do not operate Disconnect Switch when motor is operating. The installation location for cooling fan varies according to product capacity. Inside the product: 0.4-4.0kW; bottom of the product: 5.5-7.5kW; inside and top of the product: 11-22kW. NP(Non-PDS) type have not the Power Disconnect Switch.
Page 16 Preparing the Installation Front cover removed...
Page 17: Installation Considerations
Preparing the Installation 1.3 Installation Considerations Inverters are composed of various precision, electronic devices, 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. Items Description Ambient Temperature* Heavy Duty: 14–104F (-10–50℃) Normal Duty: 14–122F (-10–...
Page 18: Selecting And Preparing A Site For Installation
Preparing the Installation 1.4 Selecting and Preparing a Site for Installation 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. •...
Page 19 Preparing the Installation • Ensure sufficient air circulation is provided around the inverter when it is installed. 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 the ventilation louver. The cooling fan must be positioned to efficiently transfer the heat generated by the operation of the inverter.
Page 20 Preparing the Installation • If you are installing multiple inverters in one location, arrange them side-by-side and remove the top covers. The top covers MUST be removed for side-by-side installations. Use a flat head screwdriver to remove the top covers. •...
Page 21 Preparing the Installation • If you are installing multiple inverters, of different ratings, provide sufficient clearance to meet the clearance specifications of the larger inverter.
Page 22: Cable Selection
Preparing the Installation 1.5 Cable Selection When you install power and signal cables in the terminal blocks, only use cables that meet the required specification for the safe and reliable operation of the product. Refer to the following information to assist you with cable selection. •...
Page 23 Preparing the Installation Ground Cable and Power Cable Specifications (30-75kW) Ground Power I/O Load (kW) R/S/T U/V/W R/S/T U/V/W 3–Phase 400V Signal (Control) Cable Specifications Signal Cable Without Crimp Terminal With Crimp Terminal Connectors Terminals Connectors (Bootlace Ferrule) (Bare wire) P1~P7*/CM/VR/V1/I2 /AO1,AO2/Q1/EG/24/TI/ 0.75...
Page 24: Installing The Inverter
Installing the Inverter 2 Installing the Inverter This chapter describes the physical and electrical installation methods, including mounting and wiring of 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 25 Installing the Inverter Basic Configuration Diagram The reference diagram below shows a typical system configuration showing the inverter and peripheral devices. Prior to installing the inverter, ensure that the product is suitable for the application (power rating, capacity, etc). Ensure that all of the required peripherals and optional devices (resistor brakes, contactors, noise filters, etc.) are available.
Page 26: Mounting The Inverter
Installing the Inverter 2.1 Mounting the Inverter 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 suitable to support the installation.
Page 27 Installing the Inverter Mount the inverter on the wall or inside a panel using the two upper bolts, and then fully tighten the mounting bolts. 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 28 Installing the Inverter Note The quantity and dimensions of the mounting brackets vary based on frame size. Refer to 7.3 External Dimensions on page 213 for detailed information about your model. 0.4kW (Single Phase) and 0.4-0.8kW (3-phase) inverters have only two mounting brackets.
Page 29 Installing the Inverter • 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 product. Always support the inverter using the metal frames when moving it. •...
Page 30: Cable Wiring
Installing the Inverter 2.2 Cable Wiring Open the front cover, remove the cable guides 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. Read the following information carefully before carrying out wiring connections to the inverter.
Page 31 Installing the Inverter Step 1 Front Cover, Control Terminal Cover and Cable Guide The front cover, control terminal cover and cable guide must be removed to install cables. Refer to the following procedures to remove the covers and cable guide. The steps to remove these parts may vary depending on the inverter model.
Page 32 Installing the Inverter Remove the bolt that secures the front cover (left side) (❶). Push and hold the latch on the left side of the cover. Then remove the cover by lifting it from the bottom and moving it away from the front of the inverter (❷). Connect the cables to the power terminals and the control terminals.
Page 33 Installing the Inverter 5.5–22kW (3-phase) Loosen the bolt that secures the front cover. Then remove the cover by lifting it from the bottom and away from the front. Push and hold the levers on both sides of the cable guide (❶) and then remove the cable guide by pulling it directly away from the front of the inverter (❷).
Page 34 Installing the Inverter Push and hold the tab on the right side of the control terminal cover. Then remove the cover by lifting it from the bottom and moving it away from the front of the inverter. Connect the cables to the power terminals and the control terminals. For cable specifications, refer to 1.5 Cable Selection on page 13.
Page 35 Installing the Inverter 30-75kW(3-phase 4type) Loosen the bolt that secures the terminal cover (). Push and hold the latch on the right side of the cover (). Then remove the cover by lifting it from the bottom and moving it away from the front of the inverter. Connect the cables to the power terminals and the control terminals.
Page 36 Installing the Inverter IP66 0.4-15kW (3-phase 2type), 0.4-22kW (3-phase 4type) Loosen the bolt that secures the front cover. Then remove the cover by lifting it from the bottom and moving it away from the front of the inverter.
Page 37 Installing the Inverter Set the bushing to every wiring hole before installing to power and I/O board terminals. Use the bushing that is NEMA 4X (IP66) or more. Connect the cables to the power terminals and the control terminals. For cable specifications, refer to 1.5 Cable Selection on page 13.
Page 38 Installing the Inverter Step 2 Ground Connection Remove the front cover(s), cable guide, and the control terminal cover. Then follow the instructions below to install the ground connection for the inverter. Note • 200 V products require Class 3 grounding. Resistance to ground must be < 100Ω. •...
Page 39 Installing the Inverter 30-75kW Locate the ground terminal and connect an appropriately rated ground cable to the terminals. Refer to 1.5 Cable Selection on page 13 to find the appropriate cable specification for your installation. Connect the other ends of the ground cables to the supply earth (ground) terminal.
Page 40 Installing the Inverter IP66 Locate the ground terminal and connect an appropriately rated ground cable to the terminals. Refer to 1.5 Cable Selection on page 13 to find the appropriate cable specification for your installation. Connect the other ends of the ground cables to the supply earth (ground) terminal.
Page 41 Installing the Inverter Step 3 Power Terminal Wiring The following illustration shows the terminal layout 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 cables selected meet or exceed the specifications in 1.5 Cable Selection on page 13 before installing them.
Page 42 Installing the Inverter 0.4-22kW 0.4kW (single phase), 0.4-0.8kW (3-phase) 0.8–1.5kW (single phase), 1.5–2.2kW (3-phase)
Page 43 Installing the Inverter 2.2kW (single phase), 3.7-4.0kW (3-phase) 5.5–22kW (3-phase) Power Terminal Labels and Descriptions (0.4-22kW) Terminal Labels Name Description R(L1)/S(L2)/T(L3) AC power input terminal Mains supply AC power connections. P1(+)/N(-) DC link terminal DC voltage terminals. DC reactor wiring connection. (When P1(+)/P2(+) DC reactor terminal you use the DC reactor, must remove...
Page 44 Installing the Inverter 30-75kW (3-phase) Power Terminal Labels and Descriptions (30-75kW) Terminal Labels Name Description R(L1)/S(L2)/T(L3) AC power input terminal Mains supply AC power connections. P2(+)/N(-) DC link terminal DC voltage terminals. P3(+)/N(-) Brake unit terminals Brake unit wiring connection. 3-phase induction motor wiring U/V/W Motor output terminals...
Page 45 Installing the Inverter IP66 0.4-0.8kW (3-phase) 1.5-2.2kW (3-phase)
Page 46 Installing the Inverter 3.7-4.0kW (3-phase) 5.5–22kW (3-phase) Power Terminal Labels and Descriptions (IP66) Terminal Labels Name Description R(L1)/S(L2)/T(L3) AC power input terminal Mains supply AC power connections. P1(+)/N(-) DC link terminal DC voltage terminals. DC reactor wiring connection. P1(+)/P2(+) DC reactor terminal (Remove the short-bar when you use the DC reactor.) P2(+)/B...
Page 47 Installing the Inverter Note • Do not use 3 core cables to connect a remotely located motor with the inverter. • When you operating Brake resistor, the motor may vibrate under the Flux braking operation. In this case, please turn off the Flux braking(Pr.50). •...
Page 48 Installing the Inverter Step 4 Control Terminal Wiring The illustrations below show the detailed layout of control wiring terminals, and control board switches. Refer to the detailed information provided below and 1.5 Cable Selection on page 13 before installing control terminal wiring and ensure that the cables used meet the required specifications.
Page 49 Installing the Inverter 30-75kW <30-75kW I/O> Control Board Switches Switch Description NPN/PNP mode selection switch analog voltage/current input terminal selection switch analog voltage/current output terminal selection switch Terminating Resistor selection switch Connector (0.4-22kW models only) Name Description Connector Connect to iS7 Loader or Smart Copier...
Page 50 Installing the Inverter 0.4-22kW <Standard I/O> <Multiple I/O>...
Page 51 Installing the Inverter 30-75kW Input Terminal Labels and Descriptions Function Label Name Description Multi- Multi-function Configurable for multi-function input terminals. P1–P7 function Input 1-7 (Standard I/O is only provided for P5.) terminal Common Common terminal for analog terminal inputs and configuration Sequence outputs.
Page 52 Installing the Inverter Function Label Name Description frequency Switch between voltage (V2) and current (I2) reference input modes using a control board switch (SW2). V2 Mode: • Unipolar: 0–10V (12V Max.) I2 Mode • Input current: 4–20mA • Maximum Input current: 24mA •...
Page 53 Installing the Inverter Output/Communication Terminal Labels and Descriptions Function Label Name Description Used to send inverter output information to external devices: output frequency, output current, output voltage, or a DC voltage. Operate switch (SW3) to select the signal output type (voltage or current) at the AO terminal.
Page 54 Installing the Inverter Function Label Name Description power source Sends out alarm signals when the inverter’s safety features are activated (AC 250V <1A, DC 30V < 1A). Fault signal A1/C1/B1 • Fault condition: A1 and C1 contacts are output connected (B1 and C1 open connection) •...
Page 55 Installing the Inverter To connect cables to the control terminals without using crimp terminals, refer to the following illustration detailing the correct length of exposed conductor at the end of the control cable. Note • While making wiring connections at the control terminals, ensure that the total cable length does not exceed 165ft (50m).
Page 56 Installing the Inverter Step 5 PNP/NPN Mode Selection The S100 inverter supports both PNP (Source) and NPN (Sink) modes for sequence inputs at the terminal. Select an appropriate mode to suit requirements using the PNP/NPN selection switch (SW1) on the control board. Refer to the following information for detailed applications.
Page 57 Installing the Inverter NPN Mode (Sink) Select NPN using the PNP/NPN selection switch (SW1). Note that the factory default setting is NPN mode. CM is the common ground terminal for all analog inputs at the terminal, and P24 is 24V internal source.
Page 58 Installing the Inverter Step 6 Disabling the EMC Filter for Power Sources with Asymmetrical Grounding S100 built-in EMC filter prevents electromagnetic interference by reducing radio emissions from the inverter. EMC filter is activated as a factory default design. If an inverter uses a power source with an asymmetrical grounding connection or non-grounding, the EMC filter MUST be turned off.
Page 59 Installing the Inverter Disabling the Built-in EMC Filter 0.4-22kW Before using the inverter, confirm the power supply’s grounding system. Disable the EMC filter if the power source has an asymmetrical grounding connection. Refer to the figures below to locate the EMC filter on/off terminal and replace the metal bolt with the plastic bolt. If the EMC filter is required in the future, reverse the steps and replace the plastic bolt with the metal bolt to reconnect the EMC filter.
Page 60 Installing the Inverter 30-75kW Follow the instructions listed below to disable the EMC filters. Remove the EMC ground cover located at the bottom of the inverter. Remove the EMC ground cable from the right terminal (EMC filter-ON / factory default), and connect it to the left terminal (EMC filter-OFF / for power sources with asymmetrical grounding).
Page 61 Installing the Inverter Note The terminal on the right is used to ENABLE the EMC filter (factory default). The terminal on the left is used to DISABLE the EMC filter (for power sources with asymmetrical grounding).
Page 62 Installing the Inverter Step 7 Selecting the brake unit (30-75kW models only) Select the brake unit as following: UL form Capacity of applied motor Braking unit 30-37kW SV037DBH-4 Non UL type 45-55kW (A type) SV075DBH-4, SV075DB-4 75kW LSLV0370DBU-4LN Non UL type 30-37kW LSLV0370DBU-4HN (B type)
Page 63: Post-Installation Checklist
Installing the Inverter 2.3 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. Items Check Point Ref. Result Is the installation location appropriate? Does the environment meet the inverter’s operating conditions? Installation Does the power source match the inverter’s rated input?
Page 64 Installing the Inverter Items Check Point Ref. Result Are the control cables properly wired? Are the control terminal screws tightened to their p.21 specified torques? Is the total cable length of all control wiring < 165ft p.46 (100m)? Is the total length of safety wiring < 100ft (30m)? p.46 Are optional cards connected correctly? Is there any debris left inside the inverter?
Page 65: Test Run
Installing the Inverter 2.4 Test Run After the post-installation checklist has been completed, follow the instructions below to test the inverter. Turn on the power supply to the inverter. Ensure that the keypad display light is on. Select the command source. Set a frequency reference, and then check the following: •...
Page 66 Installing the Inverter Note If the forward command (Fx) is 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 dans le sens anti-horaire si on le regarde côté...
Page 67 Installing the Inverter...
Page 68: Learning To Perform Basic Operations
Learning to Perform Basic Operations 3 Learning to Perform Basic Operations This chapter describes the keypad layout and functions. It also introduces parameter groups and codes, required to perform basic operations. The chapter also outlines the correct operation of the inverter before advancing to more complex applications. Examples are provided to demonstrate how the inverter actually operates.
Page 69: 30-75Kw Models
Learning to Perform Basic Operations 30-75kW Models...
Page 70: About The Display
Learning to Perform Basic Operations About the Display The following table lists display part names and their functions. 3.1.3.1 0.4-22kW Models Name Function Displays current operational status and parameter ❶ 7-Segment Display information. LED flashes during parameter configuration and when ❷...
Page 71 Learning to Perform Basic Operations 3.1.3.2 30-75kW Models Monitor mode display Parameter settings display...
Page 72 Learning to Perform Basic Operations Names displayed in monitor mode and parameter settings No. Names displayed in monitor mode No. Names displayed in parameter settings 1 Mode Mode 2 Operating/frequency command Group 3 Multi-functional key settings Multi-functional key settings 4 Inverter operation status Inverter operation status 5 Items displayed in the status window Items displayed in the status window...
Page 73 Learning to Perform Basic Operations Name Display Description Jog frequency command Int 485 frequency command 1 ~9, A~F Multi-step frequency command JOG Key Keypad JOG operation mode Multi- Local/Remote Able to select either local or remote operation functional key settings Register or delete user group parameters in UserGrpSelKey parameter mode...
Page 74: Operation Keys
Learning to Perform Basic Operations Operation Keys 3.1.4.1 0.4-22kW Models Install a separate emergency stop switch in the circuit. The [STOP/RESET] key on the keypad works only when the inverter has been configured to accept an input from the keypad. The following table lists the names and functions of the keypad’s operation keys.
Page 75 Learning to Perform Basic Operations 3.1.4.2 30-75kW Models The following table lists the names and functions of the LCD’s operation keys. Name Description [MODE] Key Used to switch between modes. [PROG / Ent] Used to select, confirm, or save a parameter value. [UP] key Switch between codes or increase or decrease parameter [DOWN] key...
Page 76: Control Menu
Learning to Perform Basic Operations Control Menu 0.4-22kW Control Menu The following table lists the functions groups under Parameter mode. Keypad Function Group Description Display Display Name DRV-01 Configures reference frequencies. 0.00 DRV-03 Configures acceleration times. DRV-04 Configures deceleration times. DRV-06 Used to select operation command.
Page 77 Learning to Perform Basic Operations Keypad Function Group Description Display Display Name such as relays and analog outputs. Configures communication features for RS- Communication 485 or other communication options. Application Configures functions related to PID control. Configures motor and inverter protection Protection features.
Page 78 Learning to Perform Basic Operations 30-75kW Control Menu The S100 inverter uses 5 modes to monitor or configure different functions. The parameters in Parameter mode are divided into smaller groups of relevant functions. Press the [Mode] key to change to Parameter mode.
Page 79 Learning to Perform Basic Operations The following table lists the 5 display modes used to control the inverter functions. Mode Name LCD Display Description Displays the inverter’s operation status information. In this mode, information including the inverter’s frequency Monitor mode reference, operation frequency, output current, and voltage may be monitored.
Page 80: Learning To Use The Keypad
Learning to Perform Basic Operations 3.2 Learning to Use the Keypad The keypad enables movement between groups and codes. It also enables users to select and configure functions. At code level, you can set parameter values to turn on or off specific functions, or decide how the functions will be used.
Page 81 Learning to Perform Basic Operations Mode selection in factory default condition • When the power is turned on, Monitor mode is displayed. • Press the [MODE] key. • Parameter mode • Press the [MODE] key. • Config (CNF) mode • Press the [MODE] key. •...
Page 82 Learning to Perform Basic Operations Switching between groups when Trip mode is added Trip mode is accessible only when the inverter has trip fault history. Refer to 3 Learning to Perform Basic Operations on page 59 for information about monitoring faults. •...
Page 83: Group And Code Selection
Learning to Perform Basic Operations Group and Code Selection Follow the examples below to learn how to switch between groups and codes. 3.2.2.1 0.4-22kW Models Step Instruction Keypad Display Move to the group you want using the [◀] and [▶] keys. Move up and down through the codes using the [▲] and [▼] keys until...
Page 84 Learning to Perform Basic Operations Note For some settings, pressing the [▲] or [▼] key will not increase or decrease the code number by 1. Code numbers may be skipped and not be displayed. This is because certain code numbers have been intentionally left blank (or reserved) for new functions to be added in the future.
Page 85 Learning to Perform Basic Operations Switching between Groups in Parameter Display Mode After entering Parameter mode from Monitor mode, press the [ ] key to change the display as shown below. Press the [ ] key to return to the previous mode. •...
Page 86 Learning to Perform Basic Operations 3.2.2.3 30-75kW Models (Code Navigation) Code Navigation in Monitor mode In monitor mode, press the [▲], [▼] key to display frequency, the output current, or voltage according to the cursor position. • When the power is turned on, Monitor mode is displayed.
Page 87 Learning to Perform Basic Operations • Information about the first item in Monitor mode (Frequency) is displayed. • Information about the first item in Monitor mode (Frequency) disappears and the cursor appears to the left of the first item. Code Navigation in Parameter mode The following examples show you how to move through codes in different function groups (Drive group and Basic group) in Parameter mode.
Page 88: Navigating Directly To Different Codes
Learning to Perform Basic Operations Navigating Directly to Different Codes 3.2.3.1 0.4-22kW Models The following example details navigating to code dr. 95, from the initial code in the Drive group (dr. 0). This example applies to all groups whenever you would like to navigate to a specific code number.
Page 89 Learning to Perform Basic Operations 3.2.3.2 30-75kW Models Parameter mode and Config mode allow direct jumps to specific codes. The code used for this feature is called the Jump Code. The Jump Code is the first code of each mode. The Jump Code feature is convenient when navigating for a code in a function group that has many codes.
Page 90: Setting Parameter Values
Learning to Perform Basic Operations Setting Parameter Values 3.2.4.1 0.4-22kW Models Enable or disable features by setting or modifying parameter values for different codes. Directly enter setting values, such as frequency references, supply voltages, and motor speeds. Follow the instructions below to learn to set or modify parameter values. Step Instruction Keypad Display...
Page 91 Learning to Perform Basic Operations 3.2.4.2 30-75kW Models Parameter settings available in Monitor mode The S100 inverter allows basic parameters to be modified in Monitor mode. The following example shows how to set the frequency. • Make sure that the cursor is at the frequency reference item and that the frequency setting is set to ‘Keypad’...
Page 92 Learning to Perform Basic Operations Parameter settings in other modes and groups The following example shows how to change the frequency in the Drive group. This example can also be applied to other modes and groups. • This is the initial display for Parameter mode. •...
Page 93: Configuring The [Esc] Key (0.4-22Kw Models Only)
Learning to Perform Basic Operations Configuring the [ESC] Key (0.4-22kW models only) The [ESC] key is a multi-functional key that can be configured to carry out a number of different functions. The following example shows how to configure the [ESC] key to perform a jog operation.
Page 94: Actual Application Examples
Learning to Perform Basic Operations 3.3 Actual Application Examples Acceleration Time Configuration (0.4-22kW models only) The following is an example demonstrating how to modify the ACC (Acceleration time) code value (from 5.0 to 16.0) from the Operation group. Step Instruction Keypad Display Ensure that the first code of the Operation group is selected, 0.00...
Page 95: Frequency Reference Configuration (0.4-22Kw Models Only)
Learning to Perform Basic Operations Frequency Reference Configuration (0.4-22kW models only) The following is an example to demonstrate configuring a frequency reference of 30.05 (Hz) from the first code in the Operation group (0.00). Step Instruction Keypad Display Ensure that the first code of the Operation group is selected, 0.00 and the code 0.00 (Command Frequency) is displayed.
Page 96: Jog Frequency Configuration (0.4-22Kw Models Only)
Learning to Perform Basic Operations Jog Frequency Configuration (0.4-22kW models only) The following example demonstrates how to configure Jog Frequency by modifying code 11 in the Drive group (Jog Frequency) from 10.00(Hz) to 20.00(Hz). You can configure the parameters for different codes in any other group in exactly the same way. Step Instruction Keypad Display...
Page 97: Initializing All Parameters
Learning to Perform Basic Operations Initializing All Parameters 3.3.4.1 0.4-22kW Models The following example demonstrates parameter initialization using code dr.93 (Parameter Initialization) in the Drive group. Once executed, parameter initialization will delete all modified values for all codes and groups. Step Instruction Keypad Display...
Page 98 Learning to Perform Basic Operations 3.3.4.2 30-75kW Models The following example demonstrates how to revert all the parameter settings back to the factory default (Parameter Initialization). Parameter initialization may be performed for separate groups in Parameter mode as well. • Monitor mode is displayed. •...
Page 99: Frequency Setting (Keypad) And Operation (Via Terminal Input)
Learning to Perform Basic Operations Frequency Setting (Keypad) and Operation (via Terminal Input) Step Instruction Keypad Display Turn on the inverter. Ensure that the first code of the Operation group is selected, and code 0.00 (Command Frequency) is displayed, then 0.0) press the [ENT] key.
Page 100: Frequency Setting (Potentiometer) And Operation (Terminal Input)
Learning to Perform Basic Operations Note The instructions in the table are based on the factory default parameter settings. The inverter may not work correctly if the default parameter settings are changed after the inverter is purchased. In such cases, initialize all parameters to reset the values to factory default parameter settings before following the instructions in the table.
Page 101: Frequency Setting (Potentiometer) And Operation (Keypad)
Learning to Perform Basic Operations [Wiring Diagram] [Operation Pattern] Note The instructions in the table are based on the factory default parameter settings. The inverter may not work correctly if the default parameter settings are changed after the inverter is purchased.
Page 102 Learning to Perform Basic Operations Step Instruction Keypad Display Press the [▲] key to change it to 2 (Potentiometer), and then press the [ENT] key. The new parameter value will flash. Press the [ENT] key once again. The Frq code is displayed again. The frequency input has been configured for potentiometer.
Page 103: Monitoring The Operation
Learning to Perform Basic Operations 3.4 Monitoring the Operation 0.4-22kW Models 3.4.1.1 Output Current Monitoring The following example demonstrates how to monitor the output current in the Operation group using the keypad. Step Instruction Keypad Display Ensure that the first code of the Operation group is 0.00 selected, and the code 0.00 (Command Frequency) is displayed.
Page 104 Learning to Perform Basic Operations 3.4.1.2 Fault Trip Monitoring The following example demonstrates how to monitor fault trip conditions in the Operation group using the keypad. Step Instruction Keypad Display Refer to the example keypad display. An over current trip fault has occurred. Press the [ENT] key, and then the [▲] key.
Page 105 Learning to Perform Basic Operations Note • If multiple fault trips occur at the same time, a maximum of 3 fault trip records can be retrieved as shown in the following example. • If a warning condition occurs while running at a specified frequency, the current frequency warn and the signal will be displayed alternately, at 1 second intervals.
Page 106: 30-75Kw Models
Learning to Perform Basic Operations 30-75kW Models How to use Monitor mode There are 3 types of items that may be monitored in Monitor mode. Some items, including frequency, may be modified. Users can select the items to be displayed in Config mode (CNF).
Page 107 Learning to Perform Basic Operations Items available for monitoring Mode Number Display Setting Range Initial value Anytime Para 0 Frequency 0: Frequency Monitor Line-1 1 Speed 0: Frequency Monitor Line-2 2 Output Current 2:Output Current 3 Output Voltage 4 Output Power 5 WHour Counter 6 DCLink Voltage 7 DI State...
Page 108 Learning to Perform Basic Operations How to use the status bar On the top-right corner of the display, there is a display item. This item is displayed as long as the inverter is on, regardless of the mode the inverter is operating in. •...
Page 109 Learning to Perform Basic Operations Monitoring Faults during Inverter Operation The following example shows how to monitor faults that occurred during inverter operation. • If a fault trip occurs during inverter operation, the inverter enters Trip mode automatically and displays the type of fault trip that occurred.
Page 110 Learning to Perform Basic Operations Monitoring Multiple Fault Trips The following example shows how to monitor multiple faults that occur at the same time. • If multiple fault trips occur at the same time, the number of fault trips occurred is displayed on the right side of the fault trip type.
Page 111 Learning to Perform Basic Operations • The most recent fault trip is saved in Last-1 code. • Press the [▶] key. • The fault trip changes position and is saved in Last-2 code. • When a fault trip occurs again, the content in Last-2 is moved to Last-3.
Page 112: Table Of Functions
Table of Functions 4 Table of Functions This chapter lists all the function settings for S100 series inverter. Set the parameters required according to the following references. If a set value input is out of range, the following messages will be displayed on the keyboard. In these cases, the inverter will not operate with the [ENT] key.
Page 113 Table of Functions Comm. Keypad Initial Code Name Setting Range Property* V/F SL Address Display Value speed frequency(Hz) frequency 1 Multi-step 0.00-Maximum 0h1F06 speed 20.00 frequency(Hz) frequency 2 Multi-step 0.00-Maximum 0h1F07 speed 30.00 frequency(Hz) frequency 3 Output 0h1F08 current Motor 0h1F09 revolutions per minute...
Page 114: Drive Group (Par→Dr)
Table of Functions 4.2 Drive group (PAR→dr) In the following table, data shaded in grey will be displayed when the related code has been selected. SL: Sensorless vector control (dr.09) , I – IM Sensorless, P – PM Sensorless *O/X: Write-enabled during operation, 7/L/A: Keypad/LCD keypad/Common Comm.
Page 115 Table of Functions Comm. Initial Code Name LCD Display Setting Range Property* V/F SL Address value Pulse Slip Compen Control Control 0h1109 0: V/F mode Mode Sensorless PM S/L Torque Torque 0h110A 0: No Control Control 0.00, Start frequency- 0h110B 10.00 frequency Frequency...
Page 116 Table of Functions Comm. Initial Code Name LCD Display Setting Range Property* V/F SL Address value Auto2 Forward 0h1110 Fwd Boost 0.0-15.0(%) Torque boost Reverse 0h1111 Rev Boost 0.0-15.0(%) Torque boost 30.00~400.00(Hz) [V/F, Slip Compen] Base 40.00~120.00(Hz) 0h1112 Base Freq 60.00 [IM Sensorless] frequency...
Page 117 Table of Functions Comm. Initial Code Name LCD Display Setting Range Property* V/F SL Address value source Frequency reference source Multi-step speed frequency1 Multi-step speed frequency2 Multi-step speed frequency3 Output current Motor RPM Inverter DC voltage User select signal (dr.81) Currently out of order Select run...
Page 118 Table of Functions Comm. Initial Code Name LCD Display Setting Range Property* V/F SL Address value Write View All Display 0h03E3 changed View View All parameter Changed Move to initial position [ESC] key 0h115A JOG Key None functions Local/Remote None SmartDownlo 0h115B Smart copy SmartCopy...
Page 119: Basic Function Group (Par→Ba)
Table of Functions 4.3 Basic Function group (PAR→bA) In the following table, the data shaded in grey will be displayed when a related code has been selected. SL: Sensorless vector control function (dr.09) , I – IM Sensorless, P – PM Sensorless *O/X: Write-enabled during operation, 7/L/A: Keypad/LCD keypad/Common Comm.
Page 120 Table of Functions Comm. Initial Code Name LCD Display Setting Range Property* V/F SL Address Value Keypad-1 Keypad-2 2nd Torque 0h1206 command Trq 2nd Src Keypad-1 source Int 485 FieldBus UserSeqLink 12 Pulse 0 Linear V/F pattern 1 Square 0h1207 V/F Pattern options 2 User V/F...
Page 121 Table of Functions Comm. Initial Code Name LCD Display Setting Range Property* V/F SL Address Value type) Tr (Static type) 7 All PM Stator resistance Dependent Leakage Dependent on Lsigma on motor inductance motor setting setting Stator inductance Rotor time 25-5000(ms) constant Stator...
Page 122 Table of Functions Comm. Initial Code Name LCD Display Setting Range Property* V/F SL Address Value 0.00-0.00- User 0h122B User Freq 2 Maximum 30.00 frequency2 frequency(Hz) User 0h122C User Volt 2 0-100(%) voltage2 User 0.00-Maximum 0h122D User Freq 3 45.00 frequency3 frequency(Hz) User...
Page 123 Table of Functions Comm. Initial Code Name LCD Display Setting Range Property* V/F SL Address Value acceleration time2 Multi-step 0h1249 deceleration Dec Time-2 0.0-600.0(s) 30.0 time2 Multi-step 0h124A acceleration Acc Time-3 0.0-600.0(s) 40.0 time3 Multi-step 0h124B deceleration Dec Time-3 0.0-600.0(s) 40.0 time3 Multi-step...
Page 124: Expanded Function Group (Par→Ad)
Table of Functions 4.4 Expanded Function group (PAR→Ad) In the following table, the data shaded in grey will be displayed when a related code has been selected. SL: Sensorless vector control (dr.09) , I – IM Sensorless, P – PM Sensorless *O/X: Write-enabled during operation, 7/L/A: Keypad/LCD keypad/Common Comm.
Page 125 Table of Functions Comm. Initial Code Name LCD Display Setting Range Property* V/F SL Address Value direction Reverse Prev Starting with Power-on 0h130A 0:No power on DC braking DC-Start 0h130C time at 0.00-60.00(s) 0.00 Time startup Amount of 0h130D DC Inj Level 0-200(%) applied DC Output blocking time...
Page 126 Table of Functions Comm. Initial Code Name LCD Display Setting Range Property* V/F SL Address Value upper limit frequency- frequency value Maximum frequency(Hz) Frequency 0h131B Jump Freq 0:No jump Jump 0.00-Jump frequency 0h131C Jump Lo 1 frequency upper 10.00 limit1(Hz) lower limit1 Jump frequency Jump...
Page 127 Table of Functions Comm. Initial Code Name LCD Display Setting Range Property* V/F SL Address Value time Brake 0.00-Maximum 0h132F engage BR Eng Fr 2.00 frequency(Hz) frequency None Energy E-Save 0h1332 saving Manual 0:None X /A Mode operation Auto Energy Energy 0h1333 0-30(%)
Page 128 Table of Functions Comm. Initial Code Name LCD Display Setting Range Property* V/F SL Address Value selection Enable Dependent Free-Run Safe Run Dis Q-Stop 0:Free- 0h1347 operation Stop Q-Stop stop options Resume Safe operation 0h1348 Q-Stop Time 0.0-600.0(s) deceleration time Selection of regeneration RegenAvd...
Page 129 Table of Functions Comm. Initial Code Name LCD Display Setting Range Property* V/F SL Address Value Test Fire mode Fire Mode 0.00~60.00(Hz] 0h1351 60.00 frequency Freq Forward Fire mode Fire Mode 0h1352 direction Reverse Forward Fire Mode Fire Mode Cannot be Count modified U/D Normal...
Page 130: Control Function Group (Par→Cn)
Table of Functions 4.5 Control Function group (PAR→Cn) In the following table, the data shaded in grey will be displayed when a related code has been selected. SL: Sensorless vector control (dr.09) , I – IM Sensorless, P – PM Sensorless *O/X: Write-enabled during operation, 7/L/A: Keypad/LCD keypad/Common Comm.
Page 131 Table of Functions Comm. Initial Code Name LCD Display Setting Range Property* V/F SL Address Value Continued operation 0h140B Hold Time 0.00-60.00(s) 0.00 duration PM S/L speed ASR P Gain controller 0h140D 0~5000 proportional gain1 PM S/L speed ASR P Gain controller 0h140F 0~5000...
Page 132 Table of Functions Comm. Initial Code Name LCD Display Setting Range Property* V/F SL Address Value controller proportional gain2 Sensorless speed ASR-SL I 0h1418 controller 1.0-1000.0(%) Gain2 integral gain2 Sensorless speed ASR-SL I 0h1419 controller 10~9999(ms) Gain0 integral gain Flux estimator 0h141A Flux P Gain 10-200(%)
Page 133 Table of Functions Comm. Initial Code Name LCD Display Setting Range Property* V/F SL Address Value estimation gain [%] PM Q-axis back-EMF PM EqGain 0~300.0[%] 100.0 0h1422 estimation Perc gain [%] Initial pole position PD Repeat 0~10 0h1423 detection retry number Initial pole position 1~100...
Page 134 Table of Functions Comm. Initial Code Name LCD Display Setting Range Property* V/F SL Address Value rate [%] Initial pole None position Angle 0h142E Init Angle Sel detection Align options Current controller P ACR P Gain 0-10000 1200 gain Current controller I ACR I Gain 0-10000...
Page 135 Table of Functions Comm. Initial Code Name LCD Display Setting Range Property* V/F SL Address Value Negative- direction REV –Trq 0h1439 0.0-200.0(%) reverse torque limit Keypad-1 Keypad-2 Speed limit Speed Lmt 0h143E Setting Keypad-1 Int 485 FieldBus UserSeqLink Positive- FWD Speed 0.00~ Maximum 0h143F direction...
Page 136 Table of Functions Comm. Initial Code Name LCD Display Setting Range Property* V/F SL Address Value initialization after fault trip When restarting after 0100 instantaneo us power interruption When 1000 starting with power on Speed search SS Sup- 0h1448 80-200(%) reference Current current...
Page 137 Table of Functions Comm. Initial Code Name LCD Display Setting Range Property* V/F SL Address Value selection KEB-2 Energy KEB Start 0h144E buffering 110.0-200.0(%) 130.0 start level Energy KEB Stop 0h144F buffering Cn78~210.0(%) 135.0 stop level Energy 0h1450 buffering P KEB P Gain 0-20000 1500 gain...
Page 138 Table of Functions Comm. Initial Code Name LCD Display Setting Range Property* V/F SL Address Value gain3 Sensorless SL Volt voltage 0h145B 0-60 compensati Comp1 Sensorless Depende voltage SL Volt nt on 0h145C 0-60 compensati Comp2 motor setting Sensorless voltage SL Volt 0h145D 0-60...
Page 139: Input Terminal Block Function Group (Par→In)
Table of Functions 4.6 Input Terminal Block Function group (PAR→In) In the following table, the data shaded in grey will be displayed when a related code has been selected. SL: Sensorless vector control (dr.09) , I – IM Sensorless, P – PM Sensorless *O/X: Write-enabled during operation, 7/L/A: Keypad/LCD keypad/Common Comm.
Page 140 Table of Functions Comm. Initial Code Name LCD Display Setting Range Property* V/F SL Address Value Maximum input voltage V1 output at V1 –Perc 0h150F Maximum -100.00-0.00(%) -100.00 y2’ voltage (%) V1 rotation 0h1510 direction V1 Inverting 0: No change 0.00 , 0.04- 0h1511...
Page 141 Table of Functions Comm. Initial Code Name LCD Display Setting Range Property* V/F SL Address Value constant I2 minimum 0h1535 I2 Curr x1 0.00-20.00(mA) 4.00 input current I2 output at 0h1536 Minimum I2 Perc y1 0.00-100.00(%) 0.00 current (%) I2 maximum 0h1537 I2 Curr x2 0.00-24.00(mA) 20.00...
Page 142 Table of Functions Comm. Initial Code Name LCD Display Setting Range Property* V/F SL Address Value Enable 3-Wire Source Exchange Down U/D Clear Analog Hold I-Term Clear Openloop P Gain2 XCEL Stop 2nd Motor Pre Excite Timer In dis Aux FWD JOG REV JOG XCEL-H...
Page 143 Table of Functions Comm. Initial Code Name LCD Display Setting Range Property* V/F SL Address Value Multi- function 0h1556 input DI Off Delay 0-10000(ms) terminal Off filter P7 – P1 Multi- function A contact DI NC/NO input (NO) 0h1557 0 0000 contact B contact selection...
Page 144 Table of Functions Comm. Initial Code Name LCD Display Setting Range Property* V/F SL Address Value 10 I2, NPN [I2]) status 11 I2, PNP...
Page 145: Output Terminal Block Function Group (Par→Ou)
Table of Functions 4.7 Output Terminal Block Function group (PAR→OU) In the following table, the data shaded in grey will be displayed when a related code has been selected. SL: Sensorless vector control (dr.09) , I – IM Sensorless, P – PM Sensorless *O/X: Write-enabled during operation, 7/L/A: Keypad/LCD keypad/Common Comm.
Page 146 Table of Functions Comm. Initial Code Name Setting Range Property* V/F SL Address Display Value 4 Torque 5 Output Power Idse Iqse Target Freq Ramp Freq 10 Speed Fdb 12 PID Ref Value 13 PID Fdb Value 14 PID Output 15 Constant Analog 0h1608...
Page 147 Table of Functions Comm. Initial Code Name Setting Range Property* V/F SL Address Display Value Stall 10 Over Voltage 11 Low Voltage 12 Over Heat Lost Command 14 Run 15 Stop 16 Steady 17 Inverter Line 18 Comm Line 19 Speed Search 22 Ready 28 Timer Out 29 Trip...
Page 148 Table of Functions Comm. Initial Code Name Setting Range Property* V/F SL Address Display Value 31 DB Warn%ED 34 On/Off Control 35 BR Control 38 Fire Mode 39 TO Operating Multi- function 0h1629 DO Status - output monitor Multi- function DO On 0h1632 0.00-100.00(s)
Page 149 Table of Functions Comm. Initial Code Name Setting Range Property* V/F SL Address Display Value DCLink Voltage Torque Output Power Idse Iqse Target Freq Ramp Freq 10 Speed Fdb 12 PID Ref Value PID Fdb Value 14 PID Output 15 Constant Pulse output -1000.0- 0h163E...
Page 150: Communication Function Group (Par→Cm)
Table of Functions 4.8 Communication Function group (PAR→CM) In the following table, the data shaded in grey will be displayed when a related code has been selected. SL: Sensorless vector control (dr.09) , I – IM Sensorless, P – PM Sensorless *O/X: Write-enabled during operation, 7/L/A: Keypad/LCD keypad/Common Comm.
Page 151 Table of Functions Comm. Initial Code Name Setting Range Property* V/F SL Address Display Value FIELD BUS FBUS 0h1708 communication 12Mbps -/A BaudRate speed Communication FieldBus 0h1709 option LED status Number of ParaStatus 0h171E output parameters Output Para 0h171F Communication 0000-FFFF Hex 000A Stauts-1 address1...
Page 152 Table of Functions Comm. Initial Code Name Setting Range Property* V/F SL Address Display Value address2 Input Para 0h1735 Communication 0000-FFFF Hex 0000 Control-3 address3 Input Para 0h1736 Communication 0000-FFFF Hex 0000 Control-4 address4 Input Para Communication 0h1737 0000-FFFF Hex 0000 Control-5 address5 Input...
Page 153 Table of Functions Comm. Initial Code Name Setting Range Property* V/F SL Address Display Value 12 XCEL-M Enable 14 3-Wire 15 2nd Source 16 Exchange 17 Up 18 Down 20 U/D Clear 21 Analog Hold I-Term Clear Openloop 24 P Gain2 25 XCEL Stop 26 2nd Motor 34 Pre Excite...
Page 154 Table of Functions Comm. Initial Code Name Setting Range Property* V/F SL Address Display Value data upload Update Disable All Int 485 Master 0h1760 communication Disable Func P2P Slave selection M-KPD Ready 000~111 Analog output Multi- DO setting P2P OUT function 0:No selection...
Page 155: Application Function Group (Par→Ap)
Table of Functions 4.9 Application Function group (PAR→AP) In the following table, the data shaded in grey will be displayed when a related code has been selected. SL: Sensorless vector control (dr.09) , I – IM Sensorless, P – PM Sensorless *O/X: Write-enabled during operation, 7/L/A: Keypad/LCD keypad/Common Comm.
Page 156 Table of Functions Comm. Initial Code Name LCD Display Setting Range Property* V/F SL Address Value integral time PID controller 0h1818 differentiation PID D-Time 0-1000(ms) time PID controller feed-forward 0h1819 PID F-Gain 0.0-1000.0(%) 0.0 compensation gain Proportional 0h181A P Gain Scale 0.0-100.0(%) 100.0 gain scale PID output...
Page 157 Table of Functions Comm. Initial Code Name LCD Display Setting Range Property* V/F SL Address Value Beyond Level mBar PID controller 0h182A PID Unit Sel unit selection 10 HP 11 ℃ 12 ℉ 13 CUST 14 PSI 15 inWC 16 gl/m 0.00- 0h182B PID unit gain PID Unit Gain...
Page 158: Protection Function Group (Par→Pr)
Table of Functions 4.10 Protection Function group (PAR→Pr) In the following table, the data shaded in grey will be displayed when a related code has been selected. SL: Sensorless vector control (dr.09) , I – IM Sensorless, P – PM Sensorless *O/X: Write-enabled during operation, 7/L/A: Keypad/LCD keypad/Common Comm.
Page 159 Table of Functions Comm. Initial Code Name LCD Display Setting Range Property* V/F SL Address Value Automatic 0h1B0A restart Retry Delay 0.0-60.0(s) delay time None Free-Run Motion at speed Lost Cmd 0h1B0C 0:None command Mode Hold Input loss Hold Output Lost Preset Time to decide...
Page 160 Table of Functions Comm. Initial Code Name LCD Display Setting Range Property* V/F SL Address Value warning selection Underload UL Warn 0h1B1A 0.0-600.0(s) 10.0 warning time Time None Underload 0h1B1B UL Trip Sel Free-Run 0:None fault selection Underload 0h1B1C UL Trip Time 0.0-600.0(s) 30.0 fault time Underload...
Page 161 Table of Functions Comm. Initial Code Name LCD Display Setting Range Property* V/F SL Address Value motion and Accel e rati n g 00001 flux braking (Mode 1) Accel e rati n g 10001 (Mode 2) At constant 00010 speed (Mode 1) At constant 10010...
Page 162 Table of Functions Comm. Initial Code Name LCD Display Setting Range Property* V/F SL Address Value band Speed Speed Dev 0h1B24 0 ~ 120 deviation time Time Trip Cooling fan FAN Trip 0h1B4F 1:Warning O/A fault selection Mode Warning None Motion Opt Trip 1:Free-...
Page 163: 2Nd Motor Function Group (Par→M2)
Table of Functions 4.11 2nd Motor Function group (PAR→M2) The 2nd Motor function group will be displayed if any of In.65-71 are set to 26 (2nd MOTOR). In the following table, the data shaded in grey will be displayed when a related code has been selected.
Page 164 Table of Functions Comm. Initial Code Name LCD Display Setting Range Property* V/F SL Address Value Number of M2-Pole 0h1C0A 2-48 motor poles Rated slip M2-Rated 0h1C0B 0-3000(rpm) speed Slip Motor rated M2-Rated 0h1C0C 1.0-1000.0(A) current Curr Motor no-load M2-Noload 0h1C0D 0.5-1000.0(A) current...
Page 165 Table of Functions Comm. Initial Code Name LCD Display Setting Range Property* V/F SL Address Value speed gain Gain x 0.1 Rotation count Load Spd 0h1C29 x 0.01 0: x 1 speed scale Scale x 0.001 x 0.0001 Rotation count Load Spd 0h1C2A 0: rpm...
Page 166: User Sequence Group (Us)
Table of Functions 4.12 User Sequence group (US) This group appears when AP.02 is set to 1 (Yes) or CM.95 is set to 2 (P2P Master). The parameter cannot be changed while the user sequence is running. SL: Sensorless vector control function (dr.09) , I – IM Sensorless, P – PM Sensorless *O/X: Write-enabled during operation, 7/L/A: keypad/LCD keypad/common Comm.
Page 167 Table of Functions Comm. Setting Initial Code Name LCD Display Property* V/F SL Address Range Value Output address Link 0h1D18 0-0xFFFF link14 UserOut14 Output address Link 0h1D19 0-0xFFFF link15 UserOut15 Output address Link 0h1D1A 0-0xFFFF link16 UserOut16 Output address Link 0h1D1B 0-0xFFFF link17...
Page 168 Table of Functions Comm. Setting Initial Code Name LCD Display Property* V/F SL Address Range Value setting18 Input constant 0h1D31 Void Para19 -9999-9999 0 setting19 Input constant 0h1D32 Void Para20 -9999-9999 0 setting20 Input constant 0h1D33 Void Para21 -9999-9999 0 setting21 Input constant 0h1D34...
Page 169: User Sequence Function Group(Uf)
Table of Functions 4.13 User Sequence Function group(UF) This group appears when AP.02 is set to 1 (Yes) or CM.95 is set to 2 (P2P Master). The parameter cannot be changed while the user sequence is running. SL: Sensorless vector control function (dr.09) , I – IM Sensorless, P – PM Sensorless *O/X: Write-enabled during operation, 7/L/A: keypad/LCD keypad/common Comm.
Page 170 Table of Functions Comm. Initial Code Name Setting Range Property* V/F SL Address Display Value 27 UPCOUNT 28 DOWNCOUNT User User function 0h1E02 Input1- 0-0xFFFF input1-A User User function 0h1E03 Input1- 0-0xFFFF input1-B User User function 0h1E04 Input1- 0-0xFFFF input1-C User function User 0h1E05...
Page 171 Table of Functions Comm. Initial Code Name Setting Range Property* V/F SL Address Display Value 24 LOWPASSFILTER 25 PI_CONTORL 26 PI_PROCESS 27 UPCOUNT 28 DOWNCOUNT User User function 0h1E07 Input2- 0-0xFFFF input2-A User User function 0h1E08 Input2- 0-0xFFFF input2-B User User function 0h1E09 Input2-...
Page 172 Table of Functions Comm. Initial Code Name Setting Range Property* V/F SL Address Display Value 21 BITTEST 22 BITSET 23 BITCLEAR 24 LOWPASSFILTER 25 PI_CONTORL 26 PI_PROCESS 27 UPCOUNT 28 DOWNCOUNT User User function 12 0h1E0C Input3- 0-0xFFFF input3-A User User function 13 0h1E0D Input3-...
Page 173 Table of Functions Comm. Initial Code Name Setting Range Property* V/F SL Address Display Value 17 OR 18 XOR 19 ANDOR 20 SWITCH 21 BITTEST 22 BITSET 23 BITCLEAR 24 LOWPASSFILTER 25 PI_CONTORL 26 PI_PROCESS 27 UPCOUNT 28 DOWNCOUNT User User function 0h1E11 Input4-...
Page 174 Table of Functions Comm. Initial Code Name Setting Range Property* V/F SL Address Display Value 15 LIMIT 16 AND 17 OR 18 XOR 19 ANDOR 20 SWITCH 21 BITTEST 22 BITSET 23 BITCLEAR 24 LOWPASSFILTER 25 PI_CONTORL 26 PI_PROCESS 27 UPCOUNT 28 DOWNCOUNT User function User...
Page 175 Table of Functions Comm. Initial Code Name Setting Range Property* V/F SL Address Display Value NEQUAL 14 TIMER 15 LIMIT 16 AND 17 OR 18 XOR 19 ANDOR 20 SWITCH 21 BITTEST 22 BITSET 23 BITCLEAR 24 LOWPASSFILTER 25 PI_CONTORL 26 PI_PROCESS 27 UPCOUNT 28 DOWNCOUNT...
Page 176 Table of Functions Comm. Initial Code Name Setting Range Property* V/F SL Address Display Value COMPARE- EQUAL COMPARE- NEQUAL 14 TIMER 15 LIMIT 16 AND 17 OR 18 XOR 19 ANDOR 20 SWITCH 21 BITTEST 22 BITSET 23 BITCLEAR 24 LOWPASSFILTER 25 PI_CONTORL 26 PI_PROCESS 27 UPCOUNT...
Page 177 Table of Functions Comm. Initial Code Name Setting Range Property* V/F SL Address Display Value 10 COMPARE-GT 11 COMPARE-GEQ COMPARE- EQUAL COMPARE- NEQUAL 14 TIMER 15 LIMIT 16 AND 17 OR 18 XOR 19 ANDOR 20 SWITCH 21 BITTEST 22 BITSET 23 BITCLEAR LOWPASSFILTE 25 PI_CONTORL...
Page 178 Table of Functions Comm. Initial Code Name Setting Range Property* V/F SL Address Display Value MPYDIV REMAINDER 10 COMPARE-GT 11 COMPARE-GEQ COMPARE- EQUAL COMPARE- NEQUAL 14 TIMER 15 LIMIT 16 AND 17 OR 18 XOR 19 ANDOR 20 SWITCH 21 BITTEST 22 BITSET 23 BITCLEAR 24 LOWPASSFILTER...
Page 179 Table of Functions Comm. Initial Code Name Setting Range Property* V/F SL Address Display Value NEGATE MPYDIV REMAINDER 10 COMPARE-GT 11 COMPARE-GEQ COMPARE- EQUAL COMPARE- NEQUAL 14 TIMER 15 LIMIT 16 AND 17 OR 18 XOR 19 ANDOR 20 SWITCH 21 BITTEST 22 BITSET 23 BITCLEAR...
Page 180 Table of Functions Comm. Initial Code Name Setting Range Property* V/F SL Address Display Value ADDSUB NEGATE MPYDIV REMAINDER 10 COMPARE-GT 11 COMPARE-GEQ COMPARE- EQUAL COMPARE- NEQUAL 14 TIMER 15 LIMIT 16 AND 17 OR 18 XOR 19 ANDOR 20 SWITCH 21 BITTEST 22 BITSET 23 BITCLEAR...
Page 181 Table of Functions Comm. Initial Code Name Setting Range Property* V/F SL Address Display Value ADDSUB NEGATE MPYDIV REMAINDER 10 COMPARE-GT 11 COMPARE-GEQ COMPARE- EQUAL COMPARE- User User NEQUAL 0h1E38 0:NOP X/A function12 Func12 14 TIMER 15 LIMIT 16 AND 17 OR 18 XOR 19 ANDOR...
Page 182 Table of Functions Comm. Initial Code Name Setting Range Property* V/F SL Address Display Value User User function 0h1E3B Input12- 0-0xFFFF input12-C User User function 60 0h1E3C Output -32767-32767 output12 ADDSUB NEGATE MPYDIV REMAINDER 10 COMPARE-GT 11 COMPARE-GEQ COMPARE- EQUAL COMPARE- User User...
Page 183 Table of Functions Comm. Initial Code Name Setting Range Property* V/F SL Address Display Value 28 DOWNCOUNT User User function 0h1E3E Input13- 0-0xFFFF input13-A User User function 0h1E3F Input13- 0-0xFFFF input13-B User User function 0h1E40 Input13- 0-0xFFFF input13-C User User function 0h1E41 Output -32767-32767...
Page 184 Table of Functions Comm. Initial Code Name Setting Range Property* V/F SL Address Display Value 24 LOWPASSFILTER 25 PI_CONTORL 26 PI_PROCESS 27 UPCOUNT 28 DOWNCOUNT User User function 0h1E43 Input14- 0-0xFFFF input14-A User User function 0h1E44 Input14- 0-0xFFFF input14-B User User function 0h1E45 Input14-...
Page 185 Table of Functions Comm. Initial Code Name Setting Range Property* V/F SL Address Display Value 20 SWITCH 21 BITTEST 22 BITSET 23 BITCLEAR 24 LOWPASSFILTER 25 PI_CONTORL 26 PI_PROCESS 27 UPCOUNT 28 DOWNCOUNT User User function 0h1E48 Input15- 0-0xFFFF input15-A User User function 0h1E49...
Page 186 Table of Functions Comm. Initial Code Name Setting Range Property* V/F SL Address Display Value 16 AND 17 OR 18 XOR 19 ANDOR 20 SWITCH 21 BITTEST 22 BITSET 23 BITCLEAR 24 LOWPASSFILTER 25 PI_CONTORL 26 PI_PROCESS 27 UPCOUNT 28 DOWNCOUNT User User function 77 0h1E4D...
Page 187 Table of Functions Comm. Initial Code Name Setting Range Property* V/F SL Address Display Value COMPARE- NEQUAL 14 TIMER 15 LIMIT 16 AND 17 OR 18 XOR 19 ANDOR 20 SWITCH 21 BITTEST 22 BITSET 23 BITCLEAR 24 LOWPASSFILTER 25 PI_CONTORL 26 PI_PROCESS 27 UPCOUNT 28 DOWNCOUNT...
Page 188 Table of Functions Comm. Initial Code Name Setting Range Property* V/F SL Address Display Value 10 COMPARE-GT 11 COMPARE-GEQ COMPARE- EQUAL COMPARE- NEQUAL 14 TIMER 15 LIMIT 16 AND 17 OR 18 XOR 19 ANDOR 20 SWITCH 21 BITTEST 22 BITSET 23 BITCLEAR LOWPASSFILTE 25 PI_CONTORL...
Page 189: Groups For Lcd Keypad Only
Table of Functions 4.14 Groups for LCD Keypad Only Trip Mode (TRP Last-x) Code Name LCD Display Setting Range Initial Value Trip type display Trip Name(x) Frequency reference at Output Freq trip Output current at trip Output Current Acceleration/Deceleration Inverter State state at trip DC section state DCLink Voltage...
Page 190 Table of Functions Code Name LCD Display Setting Range Initial Value Monitor mode display Monitor Line-1 1 Speed 0: Frequency item1 Monitor mode display 2:Output Monitor Line-2 2 Output Current item2 Current 3 Output Voltage 4 Output Power WHour Counter DCLink Voltage 7 DI State...
Page 191 Table of Functions Code Name LCD Display Setting Range Initial Value 5 CON Grp 6 IN Grp 7 OUT Grp 8 COM Grp 9 APP Grp 11 APO Grp 12 PRT Grp 13 M2 Grp 14 US Grp 15 UF Grp 0 View All Display changed Changed Para...
Page 192 Table of Functions Code Name LCD Display Setting Range Initial Value 1 Yes 0 No 61 Simple parameter setting Easy Start On 1:Yes 1 Yes 0 No Power consumption WHCount Reset 0:No initialization 1 Yes Accumulated inverter On-time 00000DAY 00:00 motion time Accumulated inverter Run-time...
Page 193 Table of Functions...
Page 194: Troubleshooting
This chapter explains how to troubleshoot a problem when inverter protective functions, fault trips, warning signals, or a fault occurs. If the inverter does not work normally after following the suggested troubleshooting steps, please contact the LS ELECTRIC customer service center.
Page 195: Fault Trips
Troubleshooting Fault Trips Protection Functions for Output Current and Input Voltage Keypad Type Description Display Display Displayed when the motor overload trip is activated and Over Load Latch the actual load level exceeds the set level. Operates when Pr.20 is set to a value other than 0. Displayed when the motor underload trip is activated Under Latch...
Page 196 Troubleshooting Protection Functions Using Abnormal Internal Circuit Conditions and External Signals Keypad LCD Display Type Description Display Displayed when the temperature of the inverter heat Over Heat Latch sink exceeds the specified value. Over Displayed when the DC circuit in the inverter detects a Latch Current2 specified level of excessive, short circuit current.
Page 197 Troubleshooting Protection Functions for Communication Options Keypad LCD Display Type Description Display Displayed when a frequency or operation command error is detected during inverter operation by controllers Lost Level other than the keypad (e.g., using a terminal block and Command a communication mode).
Page 198: Warning Messages
Troubleshooting Warning Messages Keypad LCD Display Description Display Displayed when the motor is overloaded. Operates when Pr.17 is set to 1. To operate, select 5. Set the digital output terminal or Over Load relay (OU.31 or OU.33) to 5 (Over Load) to receive overload warning output signals.
Page 199: Troubleshooting Fault Trips
Troubleshooting 5.2 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. Type Cause Remedy The load is greater than the motor’s Ensure that the motor and inverter rated capacity.
Page 200 Check the output wiring. Over Do not operate the inverter. Contact There is a fault with the electronic Current2 the retailer or the LS ELECTRIC semiconductor (IGBT). customer service center. Keep the ambient temperature above The ambient temperature is too low.
Page 201: Troubleshooting Other Faults
Troubleshooting 5.3 Troubleshooting 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. Type Cause Remedy Stop the inverter to change to The inverter is in operation (driving program mode and set the mode).
Page 202 Troubleshooting Type Cause Remedy model with increased capacity. Determine if the cable on the output The wiring for the motor output cable is side is wired correctly to the phase incorrect. The motor (U/V/W) of the motor. rotates in the The signal connection between the opposite control circuit terminal (forward/reverse...
Page 203 Troubleshooting Type Cause Remedy The combined values of the motor Change the motor related properties and the inverter parameter parameters. are incorrect. The stall prevention level during Change the stall prevention level. acceleration is low. The stall prevention level during Change the stall prevention level.
Page 204 Troubleshooting Type Cause Remedy Check the capacity of the earth leakage breaker and make the appropriate connection, based on the rated current of the inverter. Lower the carrier frequency. Make the cable length between the inverter and the motor as short as possible.
Page 205 Troubleshooting...
Page 206: Maintenance
Maintenance 6 Maintenance This chapter explains how to replace the cooling fan, the regular inspections to complete, and how to store and dispose of the product. An inverter is vulnerable to environmental conditions and faults also occur due to component wear and tear. To prevent breakdowns, please follow the maintenance recommendations in this section.
Page 207: Annual Inspections
Maintenance Inspection Inspection Inspection Judgment Inspection Inspection details area item method standard equipment Is the capacitor swollen? Turn off the system and Is there any Cooling check Fan rotates Cooling fan abnormal system operation by smoothly vibration or noise? rotating the fan manually.
Page 208 Maintenance Inspection Inspection Inspection Inspection Judgment Inspection area item details method standard equipment cables? Is there any damage to cable insulation? Visual Is there any Terminal block inspection damage? abnormality Measure Measure with Rated Smoothing electrostatic capacity capacity over Capacity meter condenser capacity.
Page 209: Bi-Annual Inspections
Maintenance Inspection Inspection Inspection Inspection Judgment Inspection area item details method standard equipment loose? parts and tighten all screws. Check the Specified and command Is the display managed Voltmeter, Display Display device value on the value normal? values must Ammeter, etc. display match.
Page 210: Replacing Major Components
Maintenance 6.2 Replacing Major Components Refer to following for information on replacing major components. Exchange Cycle for Major Components Following table shows the cycles and information for major components. Components Exchange standard Symptom Action Make inquiries to the A/S center Cooling fan 3 years Spinning failure...
Page 211: Disposal
Maintenance Disposal When disposing of the product, categorize it as general industrial waste. Recyclable materials are included in the product, so recycle them whenever possible. The packing materials and all metal parts can be recycled. Although plastic can also be recycled, it can be incinerated under controlled conditions in some regions.
Page 212: Technical Specification
Technical Specification 7 Technical Specification 7.1 Input and Output Specification 0.4-22kW Models Single Phase 200V (0.4-2.2 kW) Model □□□□S100–1□□□□□ 0004 0008 0015 0022 Heavy load 0.75 Applied motor Normal load 0.75 Heavy load Rated capacity Normal (kVA) load Heavy load 11.0 Rated Rated...
Page 213 Technical Specification 3 Phase 200V (0.4-4 kW) Model □□□□S100–2□□□□□ 0004 0008 0015 0022 0037 0040 Heavy load 0.75 Applied motor Normal load 0.75 Heavy load Rated capacity (kVA) Normal load Heavy 11.0 16.0 17.0 Rated current load [3-Phase Normal input] (A) 12.0 18.0 18.0...
Page 214 Technical Specification 3 Phase 200V (5.5-15 kW) Model □□□□S100–2□□□□□ 0055 0075 0110 0150 Heavy load Applied motor Normal load 18.5 Heavy 12.2 17.5 22.9 Rated load capacity Normal (kVA) 11.4 15.2 21.3 26.3 load Heavy Rated 24.0 32.0 46.0 60.0 load current [3- Phase input]...
Page 215 Technical Specification 3-Phase 400V (0.4-4 kW) Model □□□□S100–4□□□□□ 0004 0008 0015 0022 0037 0040 Heavy load 0.75 Applied motor Normal load 0.75 Heavy Rated load capacity Normal (kVA) load Heavy Rated load current [3- Phase input] Normal 10.0 10.0 Rated load output Rated...
Page 216 Technical Specification 3-Phase 400V (5.5-22 kW) Model □□□□S100–4□□□□□ 0055 0075 0110 0150 0185 0220 Heavy load 18.5 Applied motor Normal load 18.5 Heavy 12.2 18.3 22.9 29.7 34.3 Rated load capacity Normal (kVA) 12.2 17.5 22.9 29.0 33.5 44.2 load Heavy Rated 12.0...
Page 217 Technical Specification Note Precautions for 1–phase input to 3-phase drive • Please connect single-phase input to R(L1) and T(L3). • AC or DC reactor is necessary to reduce DC ripple. Please select built-in reactor type for 30-75kW. For 0.4-22kW, external AC or DC reactor should be installed. •...
Page 218: 30-75Kw Models
Technical Specification 30-75kW Models 3-Phase 400 V (30–75 kW) Model □□□□S100–4□□□ 0300 0370 0450 0550 0750 Applied motor Rated Heavy load capacity (kVA) Normal load Rated current Heavy load [3-Phase input] (A) Rated Normal load output Rated current Heavy load [Single- Phase input] Normal load...
Page 219: Product Specification Details
Technical Specification 7.2 Product Specification Details Items Description Control method V/F control, slip compensation, sensorless vector Frequency settings Digital command: 0.01 Hz power resolution Analog command: 0.06 Hz (60 Hz standard) Frequency 1% of maximum output frequency accuracy Control V/F pattern Linear, square reduction, user V/F Heavy load rated current: 150% 1 min, normal load rated Overload capacity...
Page 220 Technical Specification Items Description open collector terminal Multi Less than (N.O., N.C.) AC250V function relay Less than DC 30V, 1A terminal Analog output, 0-12Vdc (0-24mA): Select frequency, output current, output Analog voltage, DC terminal voltage and others output 1 Analog 0-12Vdc: Select frequency, output current, output voltage, output 2 DC terminal voltage and others...
Page 221 Technical Specification Items Description option.) • IP66(NEMA 4X Indoor Only) • 0.4-22kW: Keypad (LCD loader: Installation available Input Mode but sold separately.) • 30-75kW: LCD loader Heavy load: -10-50℃ (14–122F), normal load: -10-40℃ (14–104F) Ambient No ice or frost should be present. temperature Working under normal load at 50℃...
Page 222: External Dimensions
Technical Specification 7.3 External Dimensions 0.4-22kW Models 0.4 kW (Single Phase), 0.4-0.8 kW (3-Phase)
Page 223 Technical Specification 0.8kW-1.5kW(Single Phase 200V), 1.5kW-2.2kW(3-Phase 400V) EMC filter Type Items Φ 0004S100-1, 61.1 0008S100-2, (2.41) (5.04) (4.69) (0.20) (5.04) (0.14) (0.16) (0.16) (2.68) 0008S100-4 0004S100-2, 61.1 0004S100-4 (2.41) (5.04) (4.69) (0.20) (4.84) (0.14) (0.16) (0.17) (2.68) 004S100-1, 63.5 170.5 004S100-4, (2.50) (7.09)
Page 224 Technical Specification 0.8-1.5 kW (Single Phase), 1.5-2.2 kW(3-Phase) 0.8kW-1.5kW(Single Phase 200V), 1.5kW-2.2kW(3-Phase 400V) EMC filter Type...
Page 225 Technical Specification Items Φ 0008S100-1, 0015S100-2, (3.94) (3.58) (5.04) (4.72) (0.18) (5.12) (0.18) (0.18) (0.18) 0015S100-4 0015S100-1, 0022S100-2, (3.94) (3.58) (5.04) (4.72) (0.18) (5.71) (0.18) (0.18) (0.18) 0022S100-4 0008S100-1, 0015S100-1, 0015S100-4, (3.94) (3.58) (7.09) (6.69) (0.20) (5.51) (0.18) (0.18) (0.17) 0022S100-4 EMC Type Units: mm (inches)
Page 226 Technical Specification 2.2kW(Single Phase 200V), 3.7-4.0kW(3-Phase 400V) EMC filter Type Items Φ 0022S100-1 0037S100-2 132.2 120.7 0040S100-2 (5.20) (5.04) (4.75) (0.15) (5.71) (0.15) (0.17) (0.18) (5.51) 0037S100-4 0040S100-4 0022S100-1, 0037S100-4, 0040S100-4 (5.20) (7.09) (6.69) (0.20) (5.51) (0.16) (0.16) (0.17) (5.51) EMC Type Units: mm (inches)
Page 227 Technical Specification 5.5-22 kW (3-Phase) Items Φ 0055S100-2 216.5 10.5 (6.30) (5.39) (9.13) (8.52) (0.41) (5.51) (0.20) (0.20) 0075S100-2 273.7 11.3 phase 0110S100-2 (7.09) (6.18) (11.4) (10.8) (0.44) (6.42) (0.20) (0.20) 200V 193.8 0150S100-2 (8.66) (7.63) (13.8) (13.0) (0.51) (7.36) (0.24) (0.24) 0055S100-4...
Page 228: 30-75Kw Models
Technical Specification 30-75kW Models 30 kW (3-Phase) 37–45 kW (3-Phase)
Page 229 Technical Specification 55–75 kW (3-Phase) Items 0300S100-4 428.5 (10.8) (17.7) (11.2) (0.28) (0.28) 0370S100-4 486.5 (20.1) 0450S100-4 (12.8) 0550S100-4 524.5 (21.7) 0750S100-4 (12.2) Units: mm (inches)
Page 230: Ip66 Models
Technical Specification IP66 Models 0.4-4.0kW – NP (Non PDS) type...
Page 231 Technical Specification 0.4-4.0kW –PDS type...
Page 232 Technical Specification Items Φ 0004S100-1 Non-PDS : 0004S100-2 256.6 174.1 177.1 (6.97) 22.3 0008S100-2 PDS : (7.09) (6.69) (1010) (9.65) (0.32) (6.85) (0.18) (0.18) (0.88) 0004S100-4 188.2 (7.41) 0008S100-4 0008S100-1 0015S100-1 0022S100-1 0015S100-2 Non-PDS : 0022S100-2 258.8 11.8 204 (8.03) 22.3 28.6 0037S100-2...
Page 233 Technical Specification 5.5-7.5kW – NP (Non PDS) type...
Page 234 Technical Specification 5.5-7.5kW – PDS type Items Φ 0055S100-2 Non-PDS : 230.1 0075S100-2 227.2 22.3 28.6 (9.06) 0055S100-4 PDS: (9.84) (9.13) (12.91) (12.13) (0.43) (8.94) (0.24) (0.24) (0.88) (1.13) 241.2 0075S100-4 (9.50) Units: mm (inches)
Page 235 Technical Specification 11.0-22.0kW – NP (Non PDS) type...
Page 236 Technical Specification 11.0-22.0kW –PDS type Items 0110S100-2 Non-PDS : 0150S100-2 229.2 399.6 14.6 245.4 22.3 34.9 248.5 (9.78) PDS : (10.24) (9.02) (15.73) (14.84) (0.57) (9.66) (0.26) (0.88) (1.37) 0110S100-4 259.6 (10.22) 0150S100-4 Non-PDS : 0185S100-4 270.8 436.5 15.5 22.3 44.5 253.1 (9.96) PDS :...
Page 237: Peripheral Devices
Technical Specification 7.4 Peripheral Devices 0.4-22kW Models Compatible Circuit Breaker, Leakage Breaker and Magnetic Contactor Models (manufactured by LS ELECTRIC) Circuit Breaker Leakage Breaker Magnetic Contactor Product Current Current Current Current (kW) Model Model Model Model MC-6a MC-9a, 0.75 Single...
Page 238: 30-75Kw Models
Magnetic Contactor Product (kW) ABS63c EBS63c MC-65a 18.5 MC-75a ABS103c EBS103c MC-85a 30-75kW Models Compatible Circuit Breaker, Leakage Breaker and Magnetic Contactor Models (manufactured by LS ELECTRIC) Magnetic Circuit Breaker Leakage Breaker Contactor Product(kW) Current Current Current Current Model Model Model...
Page 239: 30-75Kw Models
Technical Specification Product (kW) AC Input Fuse AC Reactor DC Reactor 1.20 8.67 0.75 0.88 13.05 0.56 18.45 1.33 3-phase 0.39 26.35 200V 0.30 1.60 0.22 1.25 0.16 0.95 0.13 0.70 4.81 4.27 0.75 3.23 6.41 2.34 1.22 13.2 3-phase 400V 1.12 3.20...
Page 240: Terminal Screw Specification
Technical Specification Only use Class H or RK5, UL listed input fuses and UL listed circuit breakers. See the table above for the voltage and current ratings for fuses and circuit breakers. Utiliser UNIQUEMENT des fusibles d’entrée homologués de Classe H ou RK5 UL et des disjoncteurs UL.
Page 241: Control Circuit Terminal Screw Specification
Technical Specification Product (kW) Terminal Screw Size Screw Torque (Kgfcm/Nm) 20.4~24.5 / 2.0~2.4 18.5 30-75kW Models 7.6.1.2 Product (kW) Terminal Screw Size Screw Torque (Kgfcm/Nm) 30-75 kW 56.1~67.3 / 5.5~6.6 Control Circuit Terminal Screw Specification 0.4-22kW Models 7.6.2.1 Terminal Terminal Screw Size Screw Torque (Kgfcm/Nm) P1-P7/ CM/VR/V1/I2/AO/Q1/EG/24/TI...
Page 242 Technical Specification Apply the rated torque when tightening terminal screws. Loose screws may cause short circuits and malfunctions. Overtightening terminal screws may damage the terminals and cause short circuits and malfunctions. Use copper conductors only, rated at 600V, 75℃ for power terminal wiring, and rated at 300V, 75℃...
Page 243: Dynamic Braking Unit(Dbu) And Resistors
Technical Specification 7.7 Dynamic Braking Unit(DBU) and Resistors Braking Resistor Specification (0.4-22kW) Product (kW) Resistance (Ω) Rated Capacity (W) 0.75 Single phase 200V 0.75 3-phase 200V 1,200 2,400 2,400 1,200 0.75 3-phase 400V 1,000 1,200 2,000 2,400 18.5 3,600 3,600 •...
Page 244: Dynamic Braking Unit (30-75Kw)
Technical Specification Dynamic Braking Unit (30-75kW) Capacity of applied Terminal arrangement & UL form Braking unit motor Dimensions 30-37kW SV370DBU-4U UL type 45-55kW SV550DBU-4U Refer to Group 1. (A type) 75kW SV750DBU-4U 30-37kW SV037DBH-4 Non UL Refer to Group 2. SV075DBH-4 type 45-75kW...
Page 245 Technical Specification Group 3: Terminals Functions Ground Terminal Terminal for connection with B2 of DBU Terminal for connection with B1 of DBU Terminal for connection with N of Inverter Terminal for connection with P1 of Inverter Group 4,5: P(+) N(-) Terminals Functions P(+)
Page 246: Dynamic Braking Unit Dimensions
Technical Specification Dynamic Braking Unit Dimensions Group1 Group 2 Dynamic ynamic raking RESE POWE WIRING (P2)     166. Group 3 Group 5 WIRING (P2) WIRING (P2) 적 용 제 품...
Page 247 Technical Specification Hole position Hole size for Capacity of Dimension (mm) for installation Voltage Weight applied installation (mm) (kg) motor(kW) () 30~37 1.56 227.4 192 76.4 215.4 45~75 1.85 Group 4 Hole position Hole size for Capacity Weig Dimension (mm) for installation Voltage installation...
Page 248: Display Functions
Technical Specification Display Functions DB Resistors connect with B1, B2 of DB Unit. DBU has 3 LEDs. Red LED which is located in middle displays supplying main power, one Green LED which is right side displays under breaking and another green LED which is left side displays Over Heat Trip(OHT). Displays Function description POWER LED is turned On when main power is supplied.
Page 249: Continuous Rated Current Derating
Technical Specification 7.8 Continuous Rated Current Derating Carrier Frequency Setting Range and Default Values (by product capacity) Refer to the following graphs for carrier frequency ranges and default values by product capacity. Heavy Duty Normal Duty Setting Range Setting Range Capacity Default Default...
Page 250 Technical Specification Continuous Rated Current Graph (30-75kW Heavy Duty) Carrier frequency (kHz) Continuous Rated Current Graph (0.4-75kW Normal Duty) Carrier frequency (kHz) Capacity (kW) DR (%) Capacity (kW) DR (%) Capacity (kW) DR (%) 0.4kW-2 15kW-2 11kW-4 0.8kW-2 0.4kW-4 15kW-4 1.5kW-2 0.8kW-4 18.5kW-4...
Page 251 Technical Specification Continuous Rated Current Derating by Input Voltage The continuous rated current of the inverter is limited based on the input voltage. Refer to the following graph. Input Voltage Continuous Rated Current Derating by Ambient Temperature and Installation Type The constant-rated current of the inverter is limited based on the ambient temperature and installation type.
Page 252: Heat Emission
Technical Specification 7.9 Heat Emission The following graph shows the inverters’ heat emission characteristics (by product capacity). Single Phase 3-Phase Heat Heat Heat Capacity Capacity Capacity Emission(Kcal) Emission(Kcal) Emission(Kcal) 0.4kW-1 7.5kW-2 11kW-4 0.8kW-1 11kW-2 15kW-4 1.5kW-1 15kW-2 18.5kW-4 2.2kW-1 0.4kW-4 22kW-4 0.4kW-2 0.8kW-4...
Page 253: Remote Option
Technical Specification 7.10 Remote Option The composition consists of a remote control loader and cables(1m,2m,3m,5m). Scale : mm Installation. Take off the top cover of the I/O board kit and remove the hole cover to connect remote cable on the side. Connect the other side of the remote cable to the remote keypad as shown below.
Page 254: Applying Drives To Single-Phase Input Application
Applying Drives to Single-Phase Input Application 8 Applying Drives to Single-Phase Input Application 8.1 Introduction LSLV-S100 is a three-phase standard variable frequency drive(VFD). When applying single-phase power to a three-phase VFD, there are several constraints that need to be considered. Standard Pulse-Width-Modulated (PWM) VFDs use a 6-pulse diode rectifier. The 6-pulse rectification results in 360 Hz DC bus ripple when used with a three-phase 60 Hz supply.
Page 255: Power(Hp), Input Current And Output Current
Applying Drives to Single-Phase Input Application Figure-2 Typical Single-Phase Configuration 8.2 Power(HP), Input Current and Output Current When using a three-phase VFD with single-phase input, derating the drive’s output current and horsepower will be necessary because of the increase in DC bus ripple voltage and current.
Page 256: Input Frequency And Voltage Tolerance
Applying Drives to Single-Phase Input Application 8.3 Input Frequency and Voltage Tolerance The single-phase current ratings are valid for 60Hz input only. The AC supply voltage must be within the required voltage range of 240/480Vac +10% to –5% to maximize motor power production.
Page 257: Product Warranty
Warranty Service Information During the product warranty period, warranty service (free of charge) is provided for product malfunctions caused under normal operating conditions. For warranty service, contact an official LS ELECTRIC agent or service center.
Page 258 • 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 • missing authentic LS ELECTRIC rating plates • expired warranty period Visit Our Website for detailed service information.
Page 260 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 262 Footprint Filters EN 55011 CLASS B IEC/EN 61800-3 C2 Leakage Current Voltage Current[mA] Dimension Mounting Weight Output Inverter Power Code Fig. [Vac] [L,W,H] [Y,X] [Kg] Choke Nom. Max. LSLV0004S100-1 0.4kW FFS100-M010-2 176x71.5x45 162x50 FS-1 LSLV0008S100-1 0.75kW FFS100-M011-2 176x103.5x45 162x82 FS-1 LSLV0015S100-1 1.5kW FFS100-M020-2...
Page 264 Manual Revision History Revision History Date Edition Changes First 2013.12 Release 2014.11 Edition S/W Version up(V2.0) 2015.06 Edition S/W Version up(V2.3) 2016.09 Edition S/W Version up(V2.5) 2019.05 Edition Three manuals are unified 2020.05 Edition S/W Version up(V2.8)
Page 265: Index
Index Index advanced features group .........68 Advanced function group .. Refer to ADV (advanced) [DOWN] key ............. 66 function group [ESC] key ..............66 analog input ..........42, 67, 68 [HAND] key ............... 66 analog input selection switch(SW2) ......40 [LEFT] key ..............66 analog output ............44 [MODE] key ..............
Page 266 Cn (Control Function group) ......... 121 0.4kW(Single Phase), 0.4~0.8kW(3 Phase) . 221 CNF (configuration mode) ........70 External Trip ............187 EG terminal common terminal ....Refer to Ｆ Communication function group ... Refer to COM (communication function group) Considerations for the installation factory default .............
Page 267 Index [OFF] key ..............66 Ｉ [PROG / Ent] key ..........66 [STOP/RESET] key ..........66 I2 42 configuration mode ..........70 analog input selection switch(SW2) ....43 cursor keys ............66 frequency setting(current/voltage) terminal ..42 display ..............59 In Phase Open ............186 monitor mode ............70 In(Input Terminal Block Function group) ....
Page 268 Px terminal function setting ......132 Over Voltage ............186 multi function input terminal Px Define ............132 Ｐ Multi-function (open collector) output terminal Multi-function output item1(Q1 Define) ... 138 P1+ terminals(+ DC link terminals) .... 34, 35, 37 Multi-function relay 1 item(Relay 1) ....137 parameter ..............81 multi-function input terminal ........
Page 269 Index S+/S-/SG TO terminal ..............44 RS-485 signal input terminal ..Refer to torque .................38 terminal trip................185 trip condition monitor ...........95 Ｓ trip mode...............70 Trip S+/S-/SG terminal ............ 45 troubleshooting ..........190 SA terminal ............... 43 troubleshooting ............185 safety information ............ii other faults ............
Page 270 cover disassembly ..........22 wiring length ..........38, 46 ferrite ..............46 ground ..............29 ㅈ power terminal board wiring ....... 32 re-assembling the covers ........53 중량(kg) ..............203 signal wiring ............45 torque ..............21...

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Lslv0004s100-1 series Lslv0008s100-1 series Lslv0015s100-1 series Lslv0022s100-1 series Lslv0004s100-2 series Lslv0008s100-2 series ... Show all

LS ELECTRIC LSLV-S100 Series User Manual

1 Preparing the Installation

2 Installing the Inverter

3 Learning to Perform Basic Operations

4 Table of Functions

5 Troubleshooting

6 Maintenance

7 Technical Specification

8 Applying Drives to Single-Phase Input Application

Product Warranty

Index

Quick Links

Troubleshooting

Need help?

Questions and answers

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Summary of Contents for LS ELECTRIC LSLV-S100 Series

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Table of Contents