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LS ELECTRIC LSLV-H100 Series, User Manual

The LS Electric LSLV-H100 Series User Manual is a comprehensive guide to maximize your experience with this innovative product. Packed with all the essential instructions and helpful tips, you can easily download this manual for free from our website, ensuring a seamless and hassle-free user experience.

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304 

Learning Advanced Features 

 

Code 

Description 

Monitor[%] 

percentage. If -10 V, 0 V, +10 V is measured, 
  -100%, 0%, 100% will be displayed. 

13 

V2 Monitor[V] 

Displays input voltage terminal V2 value (V). 

14 

V2 
Monitor[%] 

Displays input voltage terminal V2 value as a 
percentage. 

15 

I2 
Monitor[mA] 

Displays input current terminal I2 value (A). 

16 

I2 Monitor[%] 

Displays input current terminal I2 value as a 
percentage. 

17 

PID Output 

Displays the PID controller output. 

18 

PID Ref Value  Displays the scale of the reference value and sets 

the value of PID reference. 

19 

PID Fdb 
Value 

Displays the PID controller feedback volume. 

20 

EPID1 Mode 

Displays the External PID1 mode. 

21 

EPID1 Output  Displays the External PID1output value. 

23 

EPID1 Ref 
Val 

Displays the External PID1 reference value. 

 

CNF-21

–23 

Monitor Line-x 

Select the items to be displayed in monitor mode. Monitor mode is the first 
mode displayed when the inverter is powered on. A total of three items, from 
monitor line-1 to monitor line- 3, can be displayed simultaneously. 

CNF-24 Mon 
Mode Init 

Selecting ‘1 (Yes)’ initializes CNF-20–23. 

 

5.50  Operation Time Monitor   

This feature is used to monitor the inverter and fan operation times. 

Note

 

Inverter power consumption 

Values are calculated using voltage and current. Electric power is calculated every second and the 
results are accumulated. Setting CNF-

62 (WH Count Reset) value to ‘1 (Yes)’ will reset cumulated 

electric energy consumption. Power consumption is displayed as shown below:   

 

Less than 1,000 kW: Units are in kW, displayed in 999.9 kW format. 

 

1

–99 MW: Units are in MW, displayed in 99.99 MWh format. 

 

100

–999 MW: Units are in MW, displayed in 999.9 MWh format. 

 

More than 1,000 MW: Units are in MW, displayed in 9,999 MWh format and can be displayed 
up to 65,535 MW. (Values exceeding 65,535 MW will reset the value to 0, and units will return 
to kW. It will be displayed in 999.9 kW format). 

Summary of Contents for LSLV-H100 Series

Page 1: ...LS ELECTRIC strives to maximize your profits in gratitude for choosing us as your partner AC Variable Speed Drive 0 75 18 5kW 200V 0 75 500kW 400V LSLV H100 series ...

Page 2: ...edge of electricity and electric devices LSLV H100 is the official name for the H100 series inverters The H100 series software may be updated without prior notice for better performance To check the latest software visit our website at http www lselectric co kr ...

Page 3: ... touch the internal circuit boards PCBs or electrical contacts on the product when the power is on or during operation Doing so may result in serious injury death or serious property damage Do not open the cover of the equipment even when the power supply to the inverter has been turned off unless it is necessary for maintenance or regular inspection Opening the cover may result in an electric sho...

Page 4: ...in a circuit capable of delivering not more than 100kA RMS at the drive s maximum rated voltage depending on the selected MCCB RMS symmetrical amperes for recommended MCCB are the following table Remarque Le courant maximum de court circuit présumé autorisé au connecteur d alimentation électrique est défini dans la norme IEC 60439 1 comme égal à 100 kA Selon le MCCB sélectionné la série LSLV H100 ...

Page 5: ... p 40 The motor is too noisy p 240 I want to apply PID control on my system p 158 What are the factory default settings for P1 P7 multi function terminals p 38 I want to view all of the parameters I have modified p 249 I want to review recent fault trip and warning histories p 58 I want to change the inverter s operation frequency using a potentiometer p 88 I want to install a frequency meter usin...

Page 6: ... Use the Keypad 61 3 2 1 Display Mode Selection 61 3 2 2 Operation Modes 62 3 2 3 Switching between Groups in Parameter Display Mode 64 3 2 4 Switching between Groups in User Macro Mode 65 3 2 5 Navigating through the Codes Functions 66 3 2 6 Navigating Directly to Different Codes 68 3 2 7 Parameter Settings available in Monitor Mode 70 3 2 8 Setting the Monitor Display Items 72 3 2 9 Selecting th...

Page 7: ...mand Input Device 106 4 7 Forward or Reverse Run Prevention 107 4 8 Power on Run 108 4 9 Reset and Restart 110 4 10 Setting Acceleration and Deceleration Times 111 4 10 1 Acc Dec Time Based on Maximum Frequency 111 4 10 2 Acc Dec Time Based on Operation Frequency 113 4 10 3 Multi step Acc Dec Time Configuration 113 4 10 4 Configuring Acc Dec Time Switch Frequency 115 4 11 Acc Dec Pattern Configura...

Page 8: ... 1 Operating with Auxiliary References 143 5 2 Jog Operation 148 5 2 1 Jog Operation 1 Forward Jog by Multi function Terminal 148 5 2 2 Jog Operation 2 Forward Reverse Jog by Multi function Terminal 149 5 3 Up down Operation 150 5 4 3 Wire Operation 152 5 5 Safe Operation Mode 153 5 6 Dwell Operation 155 5 7 Slip Compensation Operation 157 5 8 PID Control 158 5 8 1 PID Basic Operation 159 5 8 2 So...

Page 9: ...or Operation 241 5 31 Supply Power Transition 243 5 32 Cooling Fan Control 244 5 33 Input Power Frequency and Voltage Settings 245 5 34 Read Write and Save Parameters 246 5 35 Parameter Initialization 246 5 36 Parameter View Lock 247 5 37 Parameter Lock 248 5 38 Changed Parameter Display 249 5 39 User Group 250 5 40 Easy Start On 251 5 41 Config CNF Mode 252 5 42 Macro Selection 254 5 43 Timer Set...

Page 10: ...Sensor 309 6 1 3 Overload Early Warning and Trip 311 6 1 4 Stall Prevention and Flux Braking 314 6 2 Inverter and Sequence Protection 318 6 2 1 Open phase Protection 318 6 2 2 External Trip Signal 319 6 2 3 Inverter Overload Protection IOLT 320 6 2 4 Speed Command Loss 320 6 2 5 Dynamic Braking DB Resistor Configuration 324 6 2 6 Low Battery Voltage Warning 325 6 3 Under load Fault Trip and Warnin...

Page 11: ...ameter 362 7 4 BACnet Communication 377 7 4 1 What is BACnet Communication 377 7 4 2 BACnet Communication Standards 377 7 4 3 BACnet Quick Communication Start 377 7 4 4 Protocol Implementation 379 7 4 5 Object Map 380 7 5 Metasys N2 Communication 388 7 5 1 Metasys N2 Quick Communication Start 388 7 5 2 Metasys N2 Communication Standard 388 7 5 3 Metasys N2 Protocol I O Point Map 389 8 Table of Fun...

Page 12: ...9 2 Troubleshooting Fault Trips 528 9 3 Troubleshooting Other Faults 531 10 Maintenance 537 10 1 Regular Inspection Lists 537 10 1 1 Daily Inspection 537 10 1 2 Annual Inspection 538 10 1 3 Bi annual Inspection 540 10 2 Real Time Clock RTC Battery Replacement 541 10 3 Storage and Disposal 545 10 3 1 Storage 545 10 3 2 Disposal 545 11 Technical Specification 546 11 1 Input and Output Specifications...

Page 13: ...d Current Derating 578 12 Applying Drives to Single phase Input Application 581 12 1 Introduction 581 12 2 Power HP Input Current and Output Current 582 12 3 Input Frequency and Voltage Tolerance 583 12 4 Wiring 584 12 5 Precautions for 1 phase input to 3 phase drive 584 Product Warranty 585 UL mark 587 EAC mark 587 Index 591 ...

Page 14: ...nge of product groups based on drive capacity and power source specifications Product name and specifications are detailed on the rating plate Check the rating plate before installing the product and make sure that the product meets your requirements For more detailed product specifications refer to 11 1 Input and Output Specifications on page 546 Note Check the product name open the packaging and...

Page 15: ...Preparing the Installation 2 Note The H100 75 90 kW 400 V inverters satisfy the EMC standard EN61800 3 without installation of optional EMC filters ...

Page 16: ...Preparing the Installation 3 1 2 Part Names The illustration below displays part names Details may vary between product groups 0 75 30 kW 3 Phase ...

Page 17: ...Preparing the Installation 4 37 90 kW 3 Phase ...

Page 18: ...Preparing the Installation 5 110 132 kW 3 Phase ...

Page 19: ...Preparing the Installation 6 160 185 kW 3 Phase ...

Page 20: ...Preparing the Installation 7 220 250 kW 3 Phase ...

Page 21: ...Preparing the Installation 8 315 400 kW 3 Phase ...

Page 22: ...Preparing the Installation 9 500 kW 3 Phase ...

Page 23: ... possible Ambient Humidity 95 relative humidity no condensation Storage Temperature 4 149 F 20 65 Environmental Factors An environment free from corrosive or flammable gases oil residue or dust Altitude Maximum 3 280 ft 1 000m above sea level for standard operation After that the driver rated voltage and the rated output current derating by 1 for every extra 328 ft 100m up to 13 123 ft 4 000m Vibr...

Page 24: ... support the inverter s weight The location must be free from vibration Vibration can adversely affect the operation of the inverter The inverter can become very hot during operation Install the inverter on a surface that is fire resistant or flame retardant and with sufficient clearance around the inverter to allow air to circulate The illustrations below detail the required installation clearanc...

Page 25: ...sition 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 If you are installing multiple inverters in one location arrange them side by side and remove the vent covers Use a flat head screwdriver to remove the vent covers Only the H100 inverters rated for up to 30 kW may be installe...

Page 26: ...f the installation site satisfies the UL Open Type requirements and there is no danger of foreign objects getting inside the inverter and causing trouble the vent cover may be removed to improve cooling efficiency If you are installing multiple inverters of different ratings provide sufficient clearance to meet the clearance specifications of the larger inverter The H100 inverters rated for up to ...

Page 27: ...verters in the range between 15 and 90 kW must be grounded conveniently with fixed connections The inverters in the range between 5 5kW and 11kW must be grounded with and industrial connector according to IEC 60309 The minimum size of the protective earthing conductor shall comply with the local safety regulations for high protective earthing conductor current equipment Only one conductor per term...

Page 28: ...0 70 1 0 1 0 110 50X2 1X2 70X2 70X2 1 0 x2 300 1 0 x2 300 132 95X2 95X2 2 0 x2 400 2 0 x2 400 160 50X2 70X2 1 0 x2 95X2 95X2 4 0 x2 4 0 x2 185 70x2 95x2 3 0 x2 120X2 120X2 250 x2 250 x2 220 95x2 250x2 150X2 150X2 300 x2 300 x2 250 300 x2 185X2 185X2 350 x2 350 x2 315 60X4 150X2 2 0 x4 120X4 400X2 120X4 400X2 250 x4 800 x2 250 x4 800 x2 355 70X4 150X2 3 0 x4 400 95X4 200X2 4 0 x4 500 120X4 350X2 4 ...

Page 29: ...Cable Specifications 1 Use STP shielded twisted pair cables for signal wiring Terminals Wire thickness 1 mm2 AWG P1 P7 CM VR V1 I2 24 TI 0 33 1 25 16 22 AO1 AO2 CM Q1 EG 0 33 2 0 14 22 A1 B1 C1 A2 C2 A3 C3 A4 C4 A5 C5 0 33 2 0 14 22 S S SG 0 75 18 ...

Page 30: ...to be followed to install the product correctly Installation Flowchart The following flowchart lists the sequence to be followed during installation The steps cover equipment installation and testing of the product More information on each step is referenced in the steps Power and Signal Wiring p 29 Post Installation Checks p 48 Turning on the Inverter Parameter Configuration p 60 Testing p 50 Mou...

Page 31: ...or 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 For more details on peripheral devices refer to 11 4 Peripheral Devices on page 561 200 V 0 75 18 5kW 400 V 0 75 30kW 400 V 37 500kW ...

Page 32: ...e power source if the input power exceeds 600 kVA Refer to 11 5 Fuse and Reactors Specifications on page 563 and carefully select a reactor that meets the requirements 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 ob...

Page 33: ...e Inverter 20 400 V 220 500kW 4 Install the two lower 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 34: ... damage to the product Always support the inverter using the metal frames when moving it Hi capacity inverters are very heavy and bulky Use an appropriate transport method that is suitable for the weight Do not install the inverter on the floor or mount it sideways against a wall The inverter must be installed vertically on a wall or inside a panel with its rear flat on the mounting surface ...

Page 35: ...Installing the Inverter 22 ...

Page 36: ...s on the PCB Therefore be extremely careful not to touch the PCB or the components on the PCB with bare hands while you work on the I O PCB To prevent damage to the PCB from ESD touch a metal object with your hands to discharge any electricity before working on the PCB or wear an anti static wrist strap and ground it on a metal object Follow the instructions below to remove the protective insulati...

Page 37: ...ling the Inverter 24 3 Remove the keypad from the inverter body 0 75 30 kW Models 37 90 kW Models 4 Loosen the screws securing the front cover and remove the front cover by lifting it The main PCB is exposed ...

Page 38: ...y pulling it 6 Reattach the front cover the power cover and the keypad back onto the inverter body 7 For detailed information on the RTC battery refer to the battery specifications on page 541 Ensure that the inverter is turned off and DC link voltage has dropped to a safe level before opening the terminal cover and installing the RTC battery 2 3 Cable Wiring ...

Page 39: ...00 V 75 for power terminal wiring Use copper cables rated at 300 V 75 for control terminal wiring If you need to re wire the terminals due to wiring related faults ensure that the inverter keypad display is turned off and the charge lamp under the terminal cover is off before working on wiring connections The inverter may hold a high voltage electric charge long after the power supply has been tur...

Page 40: ...able guide and then remove the cable guide by pulling it directly away from the front of the inverter In some models 37 90kW where the cable guide is secured by a bolt remove the bolt first 0 75 30 110 185 kW Models 3 Connect the cables to the power terminals and the control terminals For cable specifications refer to 1 5 Cable Selection on page 14 Step 2 Ground Connection Remove the terminal cove...

Page 41: ...erminal and connect an appropriately rated ground cable to the terminals Refer to 1 5 Cable Selection on page 14 to find the appropriate cable specification for your installation 0 75 30 kW 3 Phase 37 90 kW 3 Phase 110 185kW 3 Phase 220 250kW 3 Phase ...

Page 42: ...nding connections may result in electric shock This product can cause a D C current in the protective earthing conductor If a RCD or monitoring RCM device is used for protection only RCD or RCM of Type B is allowed on supply side of this product Step 3 Power Terminal Wiring The following illustration shows the terminal layout on the power terminal block Refer to the detailed descriptions to unders...

Page 43: ...lectric operating areas Attention Appliquer des couples de marche aux vis des bornes Des vis desserrées peuvent provoquer des courts circuits et des dysfonctionnements Ne pas trop serrer la vis car cela risque d endommager les bornes et de provoquer des courts circuits et des dysfonctionnements Utiliser uniquement des fils de cuivre avec une valeur nominale de 600 V 90 pour le câblage de la borne ...

Page 44: ...power input terminal Mains supply AC power connections P2 N DC link terminal DC voltage terminals P1 P2 DC Reactor terminal DC Reactor wiring connection When you use the DC Reactor must remove short bar P2 B Brake resistor terminals Brake resistor wiring connection U V W Motor output terminals 3 phase induction motor wiring connections ...

Page 45: ...ions 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 U V W Motor output terminals 3 phase induction motor wiring connections ...

Page 46: ...iption R L1 S L2 T L3 AC power input terminal Mains supply AC power connections B It can not be used because it does not provide a braking module P N DC link terminal or Brake unit terminals DC voltage terminals or Brake unit wiring connection U V W Motor output terminals 3 phase induction motor wiring connections ...

Page 47: ...els Name Description R L1 S L2 T L3 AC power input terminal Mains supply AC power connections P N DC link terminal or Brake unit terminals DC voltage terminals or Brake unit wiring connection U V W Motor output terminals 3 phase induction motor wiring connections ...

Page 48: ...ng cable runs Lowering the carrier frequency and installing a micro surge filter may also help to reduce voltage drop Distance 165 ft 50 m 330 ft 100 m 330 ft 100 m Allowed Carrier Frequency 15 kHz 5 kHz 2 5 kHz Do not connect power to the inverter until installation has been fully completed and the inverter is ready to be operated Doing so may result in electric shock Power supply cables must be ...

Page 49: ...d ensure that the cables used meet the required specifications Switch Symbols and Description Switch Description Factory Default SW1 Terminating Resistor selection switch Left On Right Off Right OFF SW2 NPN PNP mode selection switch Left PNP Right NPN Right NPN SW3 V1 T1 PTC mode selection switch Left V1 Right T1 Left V1 SW4 analog voltage current input terminal selection switch Left I2 Right V2 L...

Page 50: ...37 Installing the Inverter Input and Output Control Terminal Block Wiring Diagram ...

Page 51: ... Common Sequence Common terminal for contact input and analog input output terminals All three CM terminals are the same circuit Please use it where wiring is easy Analog input configuration VR Potentiometer power supply Used to setup or modify a frequency reference via analog voltage or current input Maximum Voltage Output 12 V Maximum Current Output 12 mA Potentiometer 1 10k Ω V1 Voltage input f...

Page 52: ...me Description Analog output AO Voltage Current Output Used to send inverter output information to external devices output frequency output current output voltage or a DC voltage Operate switch SW5 to select the signal output type voltage or current at theAO terminal Output Signal Specifications Output voltage 0 10 V Maximum output voltage current 12 V 10 mA Output current 0 20 mA Maximum output c...

Page 53: ...ed in the inverter signal features such as output via the multi function output terminal AC 250 V 5 A DC 30 V 5 A S S SG RS 485 signal line Used to send or receive RS 485 signals Refer to 7RS 485 Communication Features on page 339 for more details Note While making wiring connections at the control terminals ensure that the total cable length does not exceed 165 ft 50 m Ensure that the length of a...

Page 54: ...tion switch SW2 on the control board Refer to the following information for detailed applications PNP Mode Source Select PNP using the PNP NPN selection switch SW2 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 24 V internal source If you are using an external 24 V source build a circuit that connects the external...

Page 55: ...er 42 NPN Mode Sink Select NPN using the PNP NPN selection switch SW2 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 24 V internal source ...

Page 56: ...rmediate grounding point on one phase of a delta connection TN Systems The end of a single phase is grounded TN Systems A 3 phase connection without grounding TN Systems Do not activate the EMC filter if the inverter uses a power source with an asymmetrical grounding structure corner earthed systems for example a grounded delta connection Personal injury or death by electric shock may result Wait ...

Page 57: ...ter 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 If the EMC filter is required in the future reverse the steps and replace the plastic bolt with the metal bolt to enable the EMC filter ...

Page 58: ...5 kW 1 Remove the EMC ground cover located at the bottom of the inverter 2 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 If the EMC filter is required in the future reverse the steps and connect the EMC ground cable to the right terminal to enable the EMC filter ...

Page 59: ...10 500 kW 3 Phase Inverters Follow the instructions listed below to disable the EMC filters for the H100 inverters rated for 110 500 kW 1 Remove the front cover located at the top of the inverter 2 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 110 132 kW 3 Phase 160 ...

Page 60: ...bling the Covers and Routing Bracket Re assemble the cable routing bracket and the covers after completing the wiring and basic configurations Note that the assembly procedure may vary according to the product group or frame size of the product ...

Page 61: ...ker installed on the input side of the inverter p 18 Is the circuit breaker correctly rated p 561 Are the power source cables correctly connected to the R S T terminals of the inverter Caution connecting the power source to the U V W terminals may damage the inverter p 29 Are the motor output cables connected in the correct phase rotation U V W Caution motors will rotate in reverse direction if th...

Page 62: ...l screws tightened to their specified torques p 21 Is the total cable length of all control wiring 165 ft 100 m p 40 Is the total length of safety wiring 100 ft 30 m p 40 Miscellaneous Are optional cards connected correctly Is there any debris left inside the inverter p 21 Are any cables contacting adjacent terminals creating a potential short circuit risk Are the control terminal connections sepa...

Page 63: ...e and does the reference change according to the input voltage If I2 is selected as the frequency reference source is the voltage current selector switch SW4 set to current and does the reference change according to the input current 4 Set the acceleration and deceleration time 5 Start the motor and check the following Ensure that the motor rotates in the correct direction refer to the note below ...

Page 64: ...ng in AUTO mode press the AUTO key once on the keypad to operate the inverter in the forward Fx direction 5 Observe the motor s rotation from the load side and ensure that the motor rotates counterclockwise forward Check the parameter settings before running the inverter Parameter settings may have to be adjusted depending on the load To avoid damaging the inverter do not supply the inverter with ...

Page 65: ...ct operation of the inverter before advancing to more complex applications Examples are provided to demonstrate how the inverter actually operates 3 1 About the Keypad The keypad is composed of two main components the display and the operation input keys Refer to the following illustration to identify part names and functions 3 1 1 Operation Keys The following table lists the names and functions o...

Page 66: ...e registration ESC Key Used to cancel an input during parameter setup Pressing the ESC key before pressing the PROG ENT key reverts the parameter value to the previously set value Pressing the ESC key while editing the codes in any function group makes the keypad display the first code of the function group Pressing the ESC key while moving through the modes makes the keypad display Monitor mode H...

Page 67: ...rotational direction Fx or Rx 3 Command Source Frequency reference Displays a combination of a command source and a frequency reference Command source K Keypad O Optional Fieldbus module A Application option E Time event R Built in RS 485 communication T Terminal block Frequency reference source K Keypad V V1 terminal X I2 terminal P Pulse terminal U Up operation frequency Up down operation D Down...

Page 68: ...n Forward command given Reverse command given DC DC output WAN Warning STL Stall SPS Speed search OSS S W over current protection is on OSH H W overcurrent protection TUN Auto tuning PHT Pre heat FIR Fire mode operation SLP Sleep mode operation LTS Load tuning CAP Capacity diagnostics PCL Pump clean 6 Status display item Status bar display item 7 Monitor mode item 1 Monitor mode display item 1 8 M...

Page 69: ...ys the motor s rotational direction Fx or Rx 3 Parameter group Displays one of the following parameter group names DRV Drive group BAS Basic group ADV Advanced group CON Control group IN Input terminal group OUT Output terminal group COM Communication group PID PID group EPI External PID group AP1 Application 1 group AP2 Application 2 group AP3 Application 3 group PRT Protection function group M2 ...

Page 70: ... PHT Pre heat FIR Fire mode operation SLP Sleep mode operation LTS Load tuning CAP Capacity diagnostics PCL Pump clean 6 Display item Displays the value of a monitor display item selected at CNF 20 Anytime Para 7 Parameter value Displays the parameter value of currently selected code 8 Setting range Displays the value range for the selected parameter 9 Set value Displays the currently set value fo...

Page 71: ...Operations 58 3 1 3 Display Modes The H100 inverter uses 5 modes to monitor or configure different functions The parameters in Parameter mode and User Macro mode are divided into smaller groups of relevant functions ...

Page 72: ...erter to be grouped and managed in separate groups This mode is not displayed when you navigate through the modes if no user groups or Macro groups have been defined Trip mode TRP Used to monitor the inverter s fault trip information including the previous fault trip history When a fault trip occurs during inverter operation the operation frequency output current and output voltage of the inverter...

Page 73: ...nd analog inputs Output Terminal OUT Configures output terminal related features including digital multi functional outputs and analog outputs Communication COM Configures the USB related features and communication features for the RS 485 Modbus RTU LS Bus Metasys N2 and BACnet Optional communication module related features may be configured as well if one is installed PID process PID Configures t...

Page 74: ...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 specific functions on or off or decide how the functions will be used For detailed information on the codes in each function group refer to 8 Table of Functions on page 392 Confirm the correct values or the correct range of t...

Page 75: ...ol via communication On the other hand the inverter stops operating when it is in OFF mode Select one of the modes HAND AUTO OFF to operate the inverter or stop the operation Follow the examples below to learn how to switch between operation modes Operating the Inverter in HAND mode 1 Turn on the inverter The inverter enters OFF mode and the OFF LED turns on 2 Move to Parameter mode and set DRV 07...

Page 76: ... pressed 3 Press the Auto key again to stop the inverter operation using the keypad In AUTO mode the inverter begins or stops operating when the AUTO key is pressed Note You can stop the inverter operation by pressing the OFF key when the command source is set to Keypad In this case however the inverter enters OFF mode from AUTO mode If the network communication is set as the command source the in...

Page 77: ...ft key to go back to the previous code The keypad OFF LED is turned OFF and the keypad displays Monitor mode Press the Mode key to change the mode Parameter mode is displayed The Drive group is currently selected Press the Right key The Basic group is selected Press the Right key TheAdvanced group is selected Press the Right key 9 times The Protection group is selected Press the Right key ...

Page 78: ...on page 494 for details about user code registration or macro group selection After registering the user codes or selecting a macro group follow the examples below to access the User Macro group Monitor mode is displayed on the keypad Press the MODE key twice User USR group in User Macro mode is displayed Press the Right key The Macro MC2 group in User Macro mode is displayed Press the Right key U...

Page 79: ...he cursor appears to the left of the frequency information Press the Down key Information about the second item in Monitor mode Output Current is displayed Wait for 2 seconds until the information on the display disappears Information about the second item in Monitor mode Output Current disappears and the cursor reappears to the left of the second item Press the Down key Information about the thir...

Page 80: ...ency is displayed Wait for 2 seconds until the information on the display disappears Information about the first item in Monitor mode Frequency disappears and the cursor appears to the left of the first item Press the Up or Down key to move to a desired item and view the information ...

Page 81: ...If any other group is displayed press the MODE key until the Drive group is displayed or press the ESC key Press the Down key to move to the second code DRV 01 of the Drive group Press the Right key to move to the next function group The Basic group BAS is displayed Press the Up or Down key to move to the desired codes and configure the inverter functions 3 2 6 Navigating Directly to Different Cod...

Page 82: ...ode input screen is displayed and the cursor flashes A flashing cursor indicates that it is waiting for user input Press the Up key to increase the number to 16 and then press the PROG ENT key to jump to code DRV 16 DRV 16 Fwd boost is displayed Press the MODE key to view the options available and use the Up or Down key to move to a desired option Press the PROG ENT key to save the selection The s...

Page 83: ... key to access the input screen for a frequency reference Parameter setting in HAND OFF mode Ensure that the cursor is at the frequency reference item If not move the cursor to the frequency reference item When the cursor is at the frequency reference item detailed information is displayed and the cursor flashes at the input line A flashing cursor indicates that it is waiting for user input Press ...

Page 84: ...PROG ENT key to edit the frequency reference Detailed information is displayed and the cursor flashes at the input line A flashing cursor indicates that it is waiting for user input Press the Left or Right key to move the cursor Press the Up or Down key to increase or decrease the numbers When you are done changing the frequency reference press PROG ENT key to finish setting the parameters The new...

Page 85: ...quency when the inverter is operating The following example shows how to configure the display items in HAND mode Monitor mode is displayed on the keypad The output frequency output current and output voltage are displayed factory default Go to the Config CNF mode In the Config mode codes CNF 21 23 are used to select the three monitoring display items The currently selected display item and its se...

Page 86: ...the inverter is turned on regardless of the mode the inverter is operating in Configure this monitoring item to display the type of information that suits your needs This item can be configured only when the inverter is operating in AUTO mode In HAND or OFF mode this monitoring item displays frequency reference only The following example shows how to configure this monitoring item in AUTO mode Mon...

Page 87: ...G ENT key The currently selected item is highlighted Press the Down key twice to move to 2 Output Current and then press the PROG ENT key to select it The currently selected item is highlighted at CNF 20 the display item is changed from Frequency to Output Current Press the MODE key to return to Monitor mode ...

Page 88: ... and displays the type of fault trip that occurred Press the Down key to view the information on the inverter at the time of fault including the output frequency output current and operation type If there were any fault trips that occurred previously press the Right key to display the fault trip information at the times of previous fault trips When the inverter is reset and the fault trip is relea...

Page 89: ...curred is displayed on the right side of the fault trip type Press the PROG ENT key to view the list of all the fault trips The list of all the fault trips is displayed Press the Down key to view the types of fault trips that occurred Press the Right key to display the fault trip information When the inverter is reset and the fault trip is released the keypad display returns to the screen it was a...

Page 90: ...arate groups in Parameter mode as well Monitor mode is displayed Press the MODE key to move to the Config CNF mode Press the Down key to go to CNF 40 Parameter Init Press the PROG ENT key to configure the parameter initialization options In the list of options select 1 All Grp and then press the PROG ENT key to perform parameter initialization The parameter initialization option is displayed again...

Page 91: ...ency reference p 93 Frequency reference source configuration for the terminal block input pulse Configures the inverter to allow input pulse at the terminal block TI and to setup or modify a frequency reference p 97 Frequency reference source configuration for RS 485 communication Configures the inverter to allow communication signals from upper level controllers such as PLCs or PCs and to setup o...

Page 92: ...d terminals at the terminal block must be turned on p 110 Acc Dec time configuration based on the Max Frequency Configures the acceleration and deceleration times for a motor based on a defined maximum frequency p 111 Acc Dec time configuration based on the frequency reference Configures acceleration and deceleration times for a motor based on a defined frequency reference p 113 Multi stage Acc De...

Page 93: ...s or lifts p 126 Output voltage adjustment Adjusts the output voltage to the motor when the power supply to the inverter differs from the motor s rated input voltage p 127 Accelerating start Accelerating start is the general way to start motor operation The typical application configures the motor to accelerate to a target frequency in response to a run command however there may be other start or ...

Page 94: ...ch between operation modes according to your requirements p 137 Multi function input terminal control configuration Enables the user to improve the responsiveness of the multi function input terminals p 138 4 1 Switching between the Operation Modes HAND AUTO OFF The H100 series inverters have two operation modes the HAND and AUTO modes HAND mode is used for local control using the keypad AUTO mode...

Page 95: ...o enter the HAND operation mode Used to enter the OFF mode standby mode or to reset fault trips Used to enter the AUTO operation mode or to start or stop inverter operation inAUTO mode HAND LED Turns on green steady during HAND mode operation OFF LED Turns on red steady while the inverter is in OFF mode standby and flashes then a fault trip occurs The LED turns on red steady again when the fault t...

Page 96: ...features are not available PID EPID control Flow compensation Pump clean Load tuning Motor preheating Time scheduling PowerOn resume Multiple motor control Inverter monitoring and protection features are available in HAND mode OFF Mode Standby In OFF mode the inverter operation stops Pressing the OFF key during HAND AUTO mode operations will cause the OFF LED to turn on Then the inverter stops ope...

Page 97: ...abled DRV 25 HAND Cmd Freq Frequency displayed at the monitor display item Monitor Line 1 when the HAND key is pressed in other modes default frequency reference for HAND mode OUT 31 36 Relay 1 5 Set AUTO State 36 to ensure that the inverter is in AUTO mode OUT 31 36 Relay 1 5 Set HAND State 37 to ensure that the inverter is in HAND mode Switching between the HAND AUTO OFF Modes Mode Description A...

Page 98: ... the operation direction set at DRV 02 Keypad Run Dir and the frequency reference set at DRV 25 HAND Cmd Freq Operation Mode at Power Recovery If a power interruption occurs during inverter operation in the OFF or HAND mode the inverter halts the operation with low voltage fault trip Then when the power is recovered the inverter turns on in OFF mode If the inverter was operating in AUTO mode at th...

Page 99: ...nd modify a frequency reference for an operation The keypad analog inputs for example voltage V1 V2 and current I2 signals or RS 485 digital signals from higher level controllers such as PC or PLC can be used Group Code Name LCD Display Parameter Setting Setting Range Unit DRV 7 Frequency reference source Freq Ref Src 0 KeyPad 1 0 11 1 KeyPad 2 2 V1 4 V2 5 I2 6 Int 485 7 Field Bus 9 Pulse 10 V3 11...

Page 100: ...not set a frequency reference that exceeds the Max Frequency as configured with DRV 20 4 2 2 Keypad as the Source KeyPad 2 setting You can use the UP and DOWN cursor keys to modify a frequency reference To use this as a second option set the keypad as the source of the frequency reference by going to DRV 07 Frequency reference source and change the parameter value to 1 Keypad 2 This allows frequen...

Page 101: ...1 Refer to the diagrams below for the wiring required for each application External source application Internal source VR application Group Code Name LCD Display Parameter Setting Setting Range Unit DRV 07 Frequency reference source Freq Ref Src 2 V1 0 11 IN 01 Frequency at maximum analog input Freq at 100 Maximum frequency 0 00 Max Frequency Hz 05 V1 input monitor V1 Monitor V 0 00 0 00 12 00 V 0...

Page 102: ...N 02 IN 16 Motor will run at 40 00 Hz when a 10 V input is provided at V1 Set code IN 11 to 50 00 and use default values for codes IN 01 IN 16 Motor will run at 30 00 Hz 50 of the default maximum frequency 60 Hz when a 10 V input is provided at V1 IN 05 V1 Monitor V Configures the inverter to monitor the input voltage at V1 IN 07 V1 Filter V1 Filter may be used when there are large variations betw...

Page 103: ...de IN 07 to reduce the noise but increasing the value will reduce responsiveness and may cause pulsations ripples in the output frequency Parameter values for quantizing refer to a percentage based on the maximum input Therefore if the value is set to 1 of the analog maximum input 60 Hz the output frequency will increase or decrease by 0 6 Hz per 0 1 V difference When the analog input is increased...

Page 104: ...91 Learning Basic Features 0 10 V Input Voltage Setting Details V1 Quantizing ...

Page 105: ...d output frequency Group Code Name LCD Display Parameter Setting Setting Range Unit DRV 07 Frequency reference source Freq Ref Src 2 V1 0 11 IN 01 Frequency at maximum analog input Freq at 100 60 00 0 Max Frequency Hz 05 V1 input monitor V1 Monitor 0 00 12 00 12 00 V V 06 V1 polarity options V1 Polarity 1 Bipolar 0 1 12 V1 minimum input voltage V1 volt x1 0 00 10 00 0 00 V V 13 V1 output at minimu...

Page 106: ...Code Description IN 12 V1 volt x1 IN 15 V1 Perc y2 Sets the gradient level and off set value of the output frequency in relation to the input voltage These codes are displayed only when IN 06 is set to 1 bipolar As an example if the minimum input voltage at V1 is set to 2 V with 10 output ratio and the maximum voltage is set to 8 V with 80 output ratio respectively the output frequency will vary w...

Page 107: ...req Ref Src 5 I2 0 11 IN 01 Frequency at maximum analog input Freq at 100 60 00 0 Maximum Frequency Hz 50 I2 input monitor I2 Monitor 0 00 0 00 24 00 mA 52 I2 input filter time constant I2 Filter 10 0 10000 ms 53 I2 minimum input current I2 Curr x1 4 00 0 00 20 00 mA 54 I2 output at minimum current I2 Perc y1 0 00 0 100 55 I2 maximum input current I2 Curr x2 20 00 0 00 24 00 mA 56 I2 output at max...

Page 108: ...40 00 Hz If IN 56 is set to 50 00 and default settings are used for IN 01 60 Hz and IN 53 55 20 mA input current max to I2 will produce a frequency reference of 30 00 Hz 50 of 60 Hz IN 50 I2 Monitor Used to monitor input current at I2 IN 52 I2 Filter Configures the time for the operation frequency to reach 63 of target frequency based on the input current at I2 IN 53 I2 Curr x1 IN 56 I2 Perc y2 Co...

Page 109: ...p Code Name LCD Display Parameter Setting Setting Range Unit DRV 07 Frequency reference source Freq Ref Src 4 V2 0 11 IN 35 V2 input display V2 Monitor 0 00 0 00 12 00 V 37 V2 input filter time constant V2 Filter 10 0 10000 msec 38 Minimum V2 input voltage V2 Volt x1 0 00 0 00 10 00 V 39 Output at minimum V2 voltage V2 Perc y1 0 00 0 00 100 00 40 Maximum V2 input voltage V2 Volt x2 10 00 0 00 10 0...

Page 110: ...quency at maximum analog input Freq at 100 60 00 0 00 Maximum frequency Hz 91 Pulse input display TI Monitor 0 00 0 00 50 00 kHz 92 TI input filter time constant TI Filter 10 0 9999 mse c 93 TI input minimum pulse TI Pls x1 0 00 0 00 32 00 kHz 94 Output at TI minimum pulse TI Perc y1 0 00 0 00 100 00 95 TI Input maximum pulse TI Pls x2 32 00 0 00 32 00 kHz 96 Output at TI maximum pulse TI Perc y2 ...

Page 111: ...t to 50 00 and codes IN 01 IN 93 95 are set at default 32 kHz input to the TI terminal yields a frequency reference of 30 00 Hz IN 91 TI Monitor Displays the pulse frequency supplied at TI IN 92 TI Filter Sets the time for the pulse input at TI to reach 63 of its nominal frequency when the pulse frequency is supplied in multiple steps IN 93 TI Pls x1 IN 96 TI Perc y2 Configures the gradient level ...

Page 112: ...ComID is 127 Otherwise MaxComID is 250 COM 02 is automatically set to 6 Modbus Master when AP1 40 is set to 2 or 3 Otherwise a user can set the parameter value at user s choice Group Code Name LCD Display Parameter Setting Setting Range Unit DRV 07 Frequency reference source Freq Ref Src 6 Int 485 0 11 COM 01 Integrated RS 485 communication inverter ID Int485 St ID 1 1 MaxComID 02 Integrated commu...

Page 113: ...he operation frequency will be fixed upon an analog input signal Group Code Name LCD Display Parameter Setting Setting Range Unit DRV 07 Frequency reference source Freq Ref Src 0 Keypad 1 0 11 1 Keypad 2 2 V1 4 V2 5 I2 6 Int 485 7 Fied Bus 9 Pulse 10 V3 11 I3 IN 65 71 Px terminal configuration Px Define Px P1 P7 23 Analog Hold 0 55 10 V3 11 I3 of DRV 07 are available when Extension IO option is eq...

Page 114: ... or frequencies to the Px terminals Step 0 uses the frequency reference source set at DRV 07 Px terminal parameter values 7 Speed L 8 Speed M and 9 Speed H are recognized as binary commands and work in combination with Fx or Rx run commands The inverter operates according to the frequencies set with BAS 50 56 multi step frequency 1 7 and the binary command combinations Group Code Name LCD Display ...

Page 115: ...en set to Speed L Speed M and Speed H respectively the following multi step operation will be available An example of a multi step operation Speed Fx Rx P7 P6 P5 0 1 2 3 4 5 6 7 IN 89 InCheck Time Set a time interval for the inverter to check for additional terminal block inputs after receiving an input signal After adjusting IN 89 to 100 ms and an input signal is received at P6 the inverter will ...

Page 116: ... Time Event 4 6 1 The Keypad as a Command Input Device To use the keypad as the command source press the AUTO key to enter AUTO mode Set DRV 06 to 0 Keypad to select the keypad as the command source and set the operation direction at DRV 02 Keypad Run Dir Since the keypad is now the command source operation starts when the AUTO key is pressed and it stops when the AUTO key is pressed again The OFF...

Page 117: ...This application enables both terminals to be turned on or off at the same time constituting a stop command that will cause the inverter to stop operation Group Code Name LCD Display Parameter Setting Setting Range Unit IN 02 Operation direction for Keypad Keypad Run Dir 0 Reverse 0 1 1 Forward DRV 06 Command source Cmd Source 1 Fx Rx 1 0 5 IN 65 71 Px terminal configuration Px Define Px P1 P7 1 F...

Page 118: ...s IN 65 71 for P1 P7 to 1 Fx and 2 Rx respectively This application uses an Fx input as a run command and an Rx input to change a motor s rotation direction On Rx Off Fx Group Code Name LCD Display Parameter Setting Setting Range Unit DRV 06 Command source Cmd Source 2 Fx Rx 2 0 5 IN 65 71 Px terminal configuration Px Define Px P1 P7 1 Fx 0 55 2 Rx Run Command and Fwd Rev Change Command Using Mult...

Page 119: ...ls at the terminal block For more details refer to 7 RS 485 Communication Features on page 339 Group Code Name LCD Display Parameter Setting Setting Range Unit DRV 06 Command source Cmd Source 3 Int 485 0 5 COM 01 Integrated communication inverter ID Int485 St ID 1 1 MaxComID 02 Integrated communication protocol Int485 Proto 0 ModBus RTU 0 6 03 Integrated communication speed Int485 BaudR 3 9600 bp...

Page 120: ...or to decelerate to 0 Hz and stop The inverter will remain on Group Code Name LCD Display Parameter Setting Setting Range Unit ADV 09 Run prevention options Run Prevent 0 None 0 2 1 Forward Prev 2 Reverse Prev Forward Reverse Run Prevention Setting Details Code Description ADV 09 Run Prevent Choose a direction to prevent Setting Description 0 None Do not set run prevention 1 Forward Prev Set forwa...

Page 121: ...r starts operating at power on when the following conditions are met Terminal block input as the command source If they have been configured To enable power on run set DRV 06 command source to 1 Fx Rx 1 or 2 Fx Rx 2 in the Drive group and ADV 10 to 1 in the Advanced group Group Code Name LCD Display Parameter Setting Setting Range Unit DRV 06 Command source Cmd Source 1 2 Fx Rx 1 or Fx Rx 2 0 5 AD...

Page 122: ...ng Range Unit DRV 06 Command source Cmd Source 3 Int 485 0 5 4 Field Bus COM 96 Power on resume PowerOn Resume 0 No 0 1 1 Yes Note To prevent a repeat fault trip from occurring set CON 71 speed search options bit 4 the same as bit 1 The inverter will perform a speed search at the beginning of the operation If the speed search is not enabled the inverter will start its operation in a normal V F pat...

Page 123: ...t restarts The number of auto restarts PRT 09 refers to the number of times the inverter will try restarting its operation If fault trips occur again after restart the retry number counts down each time the inverter restarts until the number becomes 0 Once the inverter restarts successfully after the initial fault trip the inverter does not restart until the next fault trip occurs The number of au...

Page 124: ...uency To set Acc Dec time values based on maximum frequency set BAS 08 Acc Dec reference in the Basic group to 0 Max Freq Acceleration time set at DRV 03 Acceleration time refers to the time required for the inverter to reach the maximum frequency from a stopped 0 Hz state Likewise the value set at the DRV 04 Deceleration time refers to the time required to return to a stopped state 0 Hz from the ...

Page 125: ...erence for operation is set at 30 Hz half of 60 Hz the time required to reach 30 Hz therefore is 2 5 seconds half of 5 seconds BAS 09 Time scale Use the time scale for all time related values It is particularly useful when a more accurate Acc Dec times are required because of load characteristics or when the maximum time range needs to be extended Configuration Description 0 0 01 sec Sets 0 01 sec...

Page 126: ...on time Dec Time 30 0 0 75 90KW 0 0 600 0 sec 90 0 110 250KW 150 0 315 500KW BAS 08 Acc Dec reference Ramp T Mode 1 Delta Freq 0 1 Acc Dec Time Based on Operation Frequency Setting Details Code Description BAS 08 Ramp T Mode Set the parameter value to 1 Delta Freq to set Acc Dec times based on Maximum frequency Configuration Description 0 Max Freq Set the Acc Dec time based on Maximum frequency 1 ...

Page 127: ...03 Acceleration time Acc Time 20 0 0 75 90KW 0 0 600 0 sec 60 0 110 250KW 100 0 315 500KW 04 Deceleration time Dec Time 30 0 0 75 90KW 0 0 600 0 sec 90 0 110 250KW 150 0 315 500KW BAS 70 83 Multi step acceleration D eceleration time1 7 Acc Time 1 7 x xx 0 0 600 0 sec Dec Time 1 7 x xx 0 0 600 0 sec IN 65 71 Px terminal configuration Px Define Px P1 P7 11 XCEL L 0 55 12 XCEL M 13 XCEL H 89 Multi st...

Page 128: ...inary code inputs and will control the acceleration and deceleration based on parameter values set with BAS 70 82 and BAS 71 83 If for example the P6 and P7 terminals are set as XCEL L and XCEL M respectively the following operation will be available Acc Dec time P7 P6 0 1 2 3 Multi function terminal P6 P7 configuration IN 89 In Check Time Set the time for the inverter to check for other terminal ...

Page 129: ...y Xcel Change Fr 30 00 0 Maximum frequency Hz Acc Dec Time Switch Frequency Setting Details Code Description ADV 60 Xcel Change Fr After the Acc Dec switch frequency has been set Acc Dec gradients configured at BAS 70 and 71 will be used when the inverter s operation frequency is at or below the switch frequency If the operation frequency exceeds the switch frequency the gradient level configured ...

Page 130: ...requency ideal for lift type loads or elevator doors etc S curve gradient level can be adjusted using codes ADV 03 06 in the advanced group Group Code Name LCD Display Parameter Setting Setting Range Unit BAS 08 Acc Dec reference Ramp T mode 0 Max Freq 0 1 ADV 01 Acceleration pattern Acc Pattern 0 Linear 0 1 02 Deceleration pattern Dec Pattern 1 S curve 03 S curve Acc start gradient Acc S Start 40...

Page 131: ... End Sets the gradient level as acceleration ends when using an S curve Acc Dec pattern ADV 03 defines S curve gradient level as a percentage above half of total acceleration If the frequency reference and the maximum frequency are set at 60 Hz andADV 04 is set to 50 setting ADV 04 configures acceleration to increase from 30 Hz half of 60 Hz to 60 Hz end of acceleration Linear acceleration will be...

Page 132: ...n time x starting gradient level 2 user configured acceleration time x ending gradient level 2 Actual deceleration time user configured deceleration time user configured deceleration time x starting gradient level 2 user configured deceleration time x ending gradient level 2 Note that actual Acc Dec times become greater than user defined Acc Dec times when S curve Acc Dec patterns are in use 4 12 ...

Page 133: ...ti function input terminals to stop acceleration or deceleration and operate the inverter at a fixed frequency Group Code Name LCD Display Parameter Setting Setting Range Unit IN 65 71 Px terminal configuration Px Define Px P1 P7 14 XCEL Stop 0 55 ...

Page 134: ...ge Unit IN 09 Control mode Control Mode 0 V F 0 1 18 Base frequency Base Freq 60 00 30 00 400 00 Hz 19 Start frequency Start Freq 0 50 0 01 10 00 Hz BAS 07 V F pattern V F Pattern 0 Linear 0 3 Linear V F Pattern Setting Details Code Description DRV 18 Base Freq Sets the base frequency A base frequency is the inverter s output frequency when running at its rated voltage Refer to the motor s rating ...

Page 135: ...t BAS 07 V F pattern V F Pattern 1 Square 0 3 3 Square2 Square Reduction V F pattern Operation Setting Details Code Description BAS 07 V F Pattern Sets the parameter value to 1 Square or 2 Square2 according to the load s start characteristics Setting Function 1 Square The inverter produces output voltage proportional to 1 5 square of the operation frequency 3 Square2 The inverter produces output v...

Page 136: ...olt 2 50 0 100 45 User Frequency 3 User Freq 3 45 00 0 Maximum frequency Hz 46 User Voltage 3 User Volt 3 75 0 100 47 User Frequency 4 User Freq 4 Maximum frequency 0 Maximum frequency Hz 48 User Voltage 4 User Volt 4 100 0 100 User V F pattern Setting Details Code Description BAS 41 User Freq 1 BAS 48 User Volt 4 Set the parameter values to assign arbitrary frequencies User Freq x for start and m...

Page 137: ...aken not to configure the output pattern away from a linear V F pattern Non linear V F patterns may cause insufficient motor torque or motor overheating due to over excitation When a user V F pattern is in use forward torque boost DRV 16 and reverse torque boost DRV 17 do not operate ...

Page 138: ...h starting torque such as lift type loads Group Code Name LCD Display Parameter Setting Setting Range Unit DRV 15 Torque boost options Torque Boost 0 Manual 0 2 16 Forward torque boost Fwd Boost 2 0 0 75 90kW 0 0 15 0 1 0 110 500kW 17 Reverse torque boost Rev Boost 2 0 0 75 90kW 0 0 15 0 1 0 110 500kW Manual Torque Boost Setting Details Code Description DRV 16 Fwd Boost Set torque boost for forwar...

Page 139: ...a load that requires high starting torque such as lift type loads Refer to 5 21 Auto Tuning on page 210 4 14 3 Auto Torque Boost 2 No Motor Parameter Tuning Required By adjusting the auto torque boost voltage gain set at DRV 15 ATB Volt Gain automatic torque boost may be operated without tuning the motor related parameter values The DRV 15 ATB Volt Gain value is used to adjust the amount of compen...

Page 140: ...er adjusts the voltage and supplies the motor with the voltage set at BAS 15 motor rated voltage If the motor s rated voltage is higher than the input voltage at the inverter the inverter will supply the inverter input voltage to the motor If BAS 15 motor rated voltage is set to 0 the inverter corrects the output voltage based on the input voltage in the stopped condition If the frequency is highe...

Page 141: ...aking This start mode supplies a DC voltage for a set amount of time to provide DC braking before an inverter starts to accelerate a motor If the motor continues to rotate due to its inertia DC braking will stop the motor allowing the motor to accelerate from a stopped condition DC braking can also be used with a mechanical brake connected to a motor shaft when a constant torque load is applied if...

Page 142: ...stance is too high or brake time is too long the motor may overheat or be damaged 4 17 Stop Mode Setting Select a stop mode to stop the inverter operation 4 17 1 Deceleration Stop Deceleration stop is a general stop mode If there are no extra settings applied the motor decelerates down to 0 Hz and stops as shown in the figure below Group Code Name LCD Display Parameter Setting Setting Range Unit A...

Page 143: ...g frequency DC Brake Freq 5 00 0 00 60 00 Hz DC Braking After Stop Setting Details Code Description ADV 14 DC Block Time Set the time to block the inverter output before DC braking If the inertia of the load is great or if DC braking frequency ADV 17 is set too high a fault trip may occur due to overcurrent conditions when the inverter supplies DC voltage to the motor Prevent overcurrent fault tri...

Page 144: ...urrent value higher than the inverter s rated current 4 17 3 Free Run Stop When the Operation command is off the inverter output turns off and the load stops due to residual inertia Group Code Name LCD Display Parameter Setting Setting Range Unit ADV 08 Stop Method Stop mode 2 Free Run 0 4 Note that when there is high inertia on the output side and the motor is operating at high speed the load s i...

Page 145: ...do not apply power braking to the loads that require frequent deceleration Stall prevention and power braking only operate during deceleration and power braking takes priority over stall prevention In other words when both bit 3 of PRT 50 stall prevention and flux braking and ADV 08 braking options are set power braking will take precedence and operate Note that if deceleration time is too short o...

Page 146: ...Maximum Frequency and Start Frequency Setting Details Code Description DRV 19 Start Freq Set the lower limit value for speed unit parameters that are expressed in Hz or rpm If an input frequency is lower than the start frequency the parameter value will be 0 00 DRV 20 Max Freq Set upper and lower frequency limits All frequency selections are restricted to frequencies from within the upper and lowe...

Page 147: ...ency Values Group Code Name LCD Display Parameter Setting Setting Range Unit ADV 24 Frequency limit Freq Limit 0 No 0 1 25 Frequency lower limit value Freq Limit Lo 0 50 0 0 maximum frequency Hz 26 Frequency upper limit value Freq Limit Hi Maximum frequency minimum maximum frequency Hz ...

Page 148: ...frequency to all speed unit parameters that are expressed in Hz or rpm except for the base frequency DRV 18 Frequency cannot be set higher WhenADV 24 Freq Limit is set to Yes the frequency set at ADV 25 Freq Limit Lo is the minimum frequency Low Freq If ADV 24 Freq Limit is set to No the frequency set at DRV 19 Start Freq becomes the minimum frequency WhenADV 24 Freq Limit is set to Yes the freque...

Page 149: ...en the frequency parameter setting exceeds the range of frequencies used by the frequency jump band Group Code Name LCD Display Parameter Setting Setting Range Unit ADV 27 Frequency jump Jump Freq 00 1 0 1 28 Jump frequency lower limit1 Jump Lo 1 10 00 0 00 Jump frequency upper limit 1 Hz 29 Jump frequency upper limit1 Jump Hi 1 15 00 Jump frequency lower limit 1 Maximum frequency Hz 30 Jump frequ...

Page 150: ... to 15 2nd Source Group Code Name LCD Display Parameter Setting Setting Range Unit DRV 06 Command source Cmd Source 1 Fx Rx 1 0 5 07 Frequency reference source Freq Ref Src 2 V1 0 11 BAS 04 2nd Command source Cmd 2nd Src 0 Keypad 0 5 05 2nd Frequency reference source Freq 2nd Src 0 KeyPad 1 0 11 IN 65 71 Px terminal configuration Px Define Px P1 P7 17 2nd Source 0 55 2nd Operation Mode Setting Det...

Page 151: ...he inverter may stop operating when you switch the command modes 4 20 Multi function Input Terminal Control Filter time constants and the type of multi function input terminals can be configured to improve the response of input terminals Group Code Name LCD Display Parameter Setting Setting Range Unit IN 85 Multi function input terminal On filter DI On Delay 10 0 10000 mse c 86 Multi function inpu...

Page 152: ...figured as a A terminal Normally Open contact With the top segment on it indicates that the terminal is configured as a B terminal Normally Closed contact Terminals are numbered P1 P7 from right to left Type B terminal status Normally Closed A terminal status Normally Open Keypad IN 90 DI Status Display the configuration of each contact When a segment is configured as A terminal using DRV 87 the O...

Page 153: ...0 0000 111 1111 84 Availability of applying DI Off Delay DI Off DelayEn 111 1111 000 0000 111 1111 Multi function Input Terminal On Off Delay Control Setting Details Code Description IN 83 DI On Delay En IN 84 DI Off Delay En Every Input Terminal it is possible to set availability of using On Off Delay of Input Terminal From right Availability of using On Off Delay about Multi function Input Termi...

Page 154: ...e is needed in operating the inverter using the multi purpose terminals p 153 Dwell operation Use this feature for the lift type loads such as elevators when the torque needs to be maintained while the brakes are applied or released p 155 Slip compensation This feature ensures that the motor rotates at a constant speed by compensating for the motor slip as a load increases p 157 PID control PID co...

Page 155: ...ricant to the machinery before starting the inverter and the mechanical system connected to it p 189 Flow compensation Compensates for pressure loss in a system with long pipelines p 187 Energy savings display Displays the amount of energy saved by the use of the inverter compared to when a commercial power source is used without an inverter p 191 Pump clean operation Cleans the pumps by removing ...

Page 156: ... calculation type Aux Calc Type 0 M G A 0 7 03 Auxiliary frequency reference gain Aux Ref Gain 100 0 100 0 200 0 200 0 IN 65 71 Px terminal configuration Px Define 36 disAux Ref 0 55 The table above lists the available calculated conditions for the main and auxiliary frequency references Refer to the table to see how the calculations apply to an example where the DRV 06 Frq Src code has been set t...

Page 157: ...flected when calculating the main reference Note that items 4 7 below may result in either plus or minus references forward or reverse operation even when unipolar analog inputs are used Configuration Formula for frequency reference 0 M G A Main reference BAS 03x BAS 01xIN 01 1 M G A Main reference x BAS 03x BAS 01 2 M G A Main reference BAS 03x BAS 01 3 M M G A Main reference Main reference x BAS...

Page 158: ...to 10 V is 60 Hz The table below shows the auxiliary frequencyA as 36 Hz 60 Hz X 6 V 10 V or 60 100 X 6 V 10 V Setting Calculating final command frequency 0 M Hz G A Hz 30 Hz M 50 G x36 Hz A 48 Hz 1 M Hz G A 30 Hz M x 50 G x60 A 9 Hz 2 M Hz G A 30 Hz M 50 G x60 A 100 Hz 3 M Hz M Hz G A 30 Hz M 30 Hz x 50 G x60 A 39 Hz 4 M Hz G 2 A 50 Hz 30 Hz M 50 G x2x 60 A 50 x60 Hz 36 Hz 5 M HZ G 2 A 50 30 Hz M...

Page 159: ...f 60 Hz The table below shows auxiliary frequency as 24 Hz 60 Hz X 10 4 mA 4 mA 20 mA 4 mA or 40 100 X 10 4 mA 4 mA 20 mA 4 mA Setting Calculating final command frequency 0 M Hz G A Hz 30Hz M 50 G x24Hz A 42Hz 1 M Hz G A 30Hz M x 50 G x40 A 6Hz 2 M Hz G A 30Hz M 50 G x40 A 150Hz 3 M Hz M Hz G A 30Hz M 30 Hz x 50 G x40 A 36Hz 4 M Hz G 2 A 50 Hz 30Hz M 50 G x2x 40 A 50 x60Hz 24Hz 5 M HZ G 2 A 50 30H...

Page 160: ... to I2 with the frequency corresponding to 20 mA of 60 Hz The table below shows auxiliary frequencyAas 24 Hz 60 Hz x 10 4 mA 4 mA 20 mA 4 mA or 40 100 x 10 4 mA 4 mA 20 mA 4 mA Setting Calculating final command frequency 0 M Hz G A Hz 30 Hz M 50 G x24 Hz A 42 Hz 1 M Hz G A 30 Hz M x 50 G x40 A 6 Hz 2 M Hz G A 30 Hz M 50 G x40 A 150 Hz 3 M Hz M Hz G A 30 Hz M 30 Hz x 50 G x40 A 36 Hz 4 M Hz G 2 A 5...

Page 161: ...er forward or reverse direction using the keypad or multi function terminal inputs The table below lists parameter setting for a forward jog operation using the multi function terminal inputs Group Code LCD Display LCD Display Parameter Setting Setting Range Unit DRV 11 Jog frequency JOG Frequency 10 00 0 00 Low Freq High Freq Hz 12 Jog operation acceleration time JOG Acc Time 20 00 0 00 600 00 se...

Page 162: ...r a forward or reverse jog also starts an operation The priorities for frequency Acc Dec time and terminal block input during operation in relation to other operating modes Dwell 3 wire up down etc are identical to jog operation 1 If a different operation command is entered during a jog operation it is ignored and the operation maintains the jog frequency Group Code Name LCD Display Parameter sett...

Page 163: ... a flowmeter the up down operation can be applied easily to a system that uses the upper lower limit switch signals for Acc Dec commands Group Code Name LCD Display Parameter Setting Setting Range Unit ADV 65 Up down operation frequency save U D Save Mode 1 Yes 0 1 IN 65 71 Px terminal configuration Px Define Px P1 P7 19 Up 0 55 20 Down 22 U D Clear ...

Page 164: ... Down signals are entered at the same time ADV 65 U D Save Mode During a constant speed operation the operating frequency is saved automatically in the following conditions the operation command Fx or Rx is off a fault trip occurs or the power is off When the operation command is turned on again or when the inverter regains the power source or resumes to a normal operation from a fault trip it res...

Page 165: ...ge Unit DRV 07 Command source Cmd Source 1 Fx Rx 1 0 11 IN 65 71 Px terminal configuration Px Define Px P1 P7 16 3 Wire 0 55 To enable the 3 wire operation the following circuit sequence is necessary The minimum input time t for 3 wire operation is 2 ms and the operation stops when both forward and reverse operation commands are entered at the same time P1 P5 CM 1 FX 6 JOG P7 16 3 Wire Terminal co...

Page 166: ... select a terminal to operate in safe operation mode and set it to 15 RUN Enable ADV 70 Run En Mode Setting Function 0 Always Enable Enables safe operation mode 1 DI Dependent Recognizes the operation command from a multi function input terminal ADV 71 Run Dis Stop Set the operation of the inverter when the multi function input terminal in safe operation mode is off When the safety operation mode ...

Page 167: ... the deceleration time Q Stop Time in safe operation mode It stops after deceleration Then if the multi function terminal is on the operation resumes as soon as the operation command is entered again ADV 72 Q Stop Time Sets the deceleration time when ADV 71 Run Dis Stop is set to 1 Q Stop or 2 Q Stop Resume ...

Page 168: ...ginally set Deceleration Dwell Operation When a stop command is run deceleration continues until the deceleration dwell frequency and constant speed are reached within the deceleration dwell operation time Dec Dwell Freq After the set time has passed deceleration is carried out based on the deceleration time that was originally set then the operation stops Group Code Name LCD Display Parameter Set...

Page 169: ...eleration dwell operation Although deceleration dwell operation is carried out whenever stop commands are entered and the deceleration dwell frequency is passed through it does not work during a deceleration by simple frequency change which is not a deceleration due to a stop operation or during external brake control applications Deceleration dwell operation ...

Page 170: ... 40 5 5 kW based 0 3000 Rp m 13 Rated motor current Rated Curr 3 6 5 5 kW based 1 0 1000 0 A 14 Motor no load current Noload Curr 1 6 5 5 kW based 0 5 1000 0 A 16 Motor efficiency Efficiency 72 5 5 kW based 70 100 Slip Compensation Operation Setting Details Code Description DRV 09 Control Mode Set DRV 09 to 2 Slip Compen to carry out the slip compensation operation DRV 14 Motor Capacity Set the ca...

Page 171: ...o the inverter operation are as follows Purpose Function Speed Control Controls speed by monitoring the current speed levels of the equipment or machinery being controlled Control maintains consistent speed or operates at the target speed Pressure Control Controls pressure by monitoring the current pressure levels of the equipment or machinery being controlled Control maintains consistent pressure...

Page 172: ... Err Value 10 PID reference source PID Ref1 Source 0 Keypad 0 11 11 PID reference setting PID Ref Set Unit Default Unit Min Unit Max Unit 12 PID reference 1 auxiliary source selection PID Ref1AuxSrc 0 None 0 13 13 PID reference 1 auxiliary mode selection PID Ref1AuxMod 0 M G A 0 13 14 PID reference auxiliary gain PID Ref 1 Aux G 0 0 200 0 200 0 Unit 15 PID reference 2 auxiliary source selection PI...

Page 173: ...5 PID proportional gain 1 PID P Gain 1 50 0 0 0 300 00 Unit 26 PID integral time 1 PID I Time 1 10 0 0 0 200 0 sec 27 PID differential time 1 PID D Time 1 0 00 0 1 00 sec 28 PID feed forward gain PID FF Gain 0 0 0 0 1000 0 Unit 29 PID output filter PID Out LPF 0 00 0 10 00 sec 30 PID output upper limit PID Limit Hi 100 00 PID Limit Lo 100 00 Unit 31 PID output lower limit PID Limit Lo 0 00 100 00 ...

Page 174: ... PID Step Ref 4 Unit Default Unit Min Unit Max Unit 44 PID multi step reference setting 5 PID Step Ref 5 Unit Default Unit Min Unit Max Unit 45 PID multi step reference setting 6 PID Step Ref 6 Unit Default Unit Min Unit Max Unit 46 PID multi step reference setting 7 PID Step Ref 7 Unit Default Unit Min Unit Max Unit 50 PID controller unit selection PID Unit Sel 0 0 40 51 PID control setting scale...

Page 175: ...nit gain and scale that were set in the PID group are applied on the display PID 04 PID Ref Value Displays the existing reference value set for the PID controller The unit gain and scale that were set in the PID group are applied on the display PID 05 PID Fdb Value Displays the latest feedback value of the PID controller The unit gain and scale that were set in the PID group are applied on the dis...

Page 176: ...xMod Setting Function 0 None Not used 1 V1 10 10 V input voltage terminal 3 V2 I2 analog input terminal If the analog voltage current input terminal selection switch SW4 at the terminal block is set to I current input 0 20 mA current If it is set to V voltage input 0 10 V 4 I2 6 Pulse TI Pulse input terminal 0 32 kHz Pulse input 7 Int 485 RS 485 input terminal 8 FieldBus Communication command via ...

Page 177: ...feedback source change the reference source Setting Function 0 V1 10 10 V input voltage terminal 2 V2 I2 analog input terminal If the analog voltage current input terminal selection switch SW4 at the terminal block is set to I current input 0 20 mA current If it is set to V voltage input 0 10 V 3 I2 4 Int 485 RS 485 input terminal 5 FieldBus Communication command via a communication option card 7 ...

Page 178: ... feedback PID 22 PID FDB AuxMod The PID 30 PID FDB AuxMod provides formulas to calculate the final feedback value If PID 31 PID RefAuxSrc is set to any other value than None the final feedback is calculated using the input values at the sources set at PID 31 and PID 32 Setting 0 M G A 1 M G A 2 M G A 3 M M G A 4 M G 2 A 50 5 M G 2 A 50 6 M G 2 A 50 7 M M G 2 A 50 8 M A 2 9 M 2 A 2 10 MAX M A 11 MI...

Page 179: ...hese values when configuring the gains and the Acc Dec times PID 27 PID D Time 1 PID 34 PID D Time 2 Sets the output volume for the rate of change in errors If the differential time PID D Time is set to 1 ms and the rate of change in errors per sec is 100 output occurs at 1 per 10 ms PID 28 PID FF Gain Sets the ratio that adds the target to the PID output Adjusting this value leads to a faster res...

Page 180: ...it for the control variable 0 CUST is a custom unit defined by the user Setting 0 CUST 21 m 3 m m 3 min 1 22 m 3 h m 3 h 2 PSI 23 l s 3 F 24 l m 4 C 25 l h 5 inWC 26 kg s 6 inM 27 kg m 7 Bar 28 kg h 8 mBar 29 gl s 9 Pa 30 gl m 10 kPa 31 gl h 11 Hz 32 ft s 12 Rpm 33 f3 s ft3 min 13 V 34 f3 h ft3 h 14 I 35 lb s 15 kW 36 lb m 16 HP 37 lb m 17 mpm 38 lb h 18 ft 39 ppm 19 m s 40 pps 20 m3 s m 3 S PID 5...

Page 181: ...168 Learning Advanced Features PID Command Block ...

Page 182: ...169 Learning Advanced Features ...

Page 183: ...170 Learning Advanced Features PID Feedback Block ...

Page 184: ...171 Learning Advanced Features PID Output Block ...

Page 185: ...172 Learning Advanced Features PID Output Mode Block ...

Page 186: ... Pr PID operation frequency Pre PID Freq 30 00 Low Freq High Freq Hz 22 Pre PID duration Pre PID Delay 60 0 600 0 sec 23 Soft fill escape value Soft Fill Set 20 00 Unit Min Unit Max 24 Soft fill reference increment Fill Step Set 2 00 0 Unit Band 25 Soft fill reference increment cycle Fill Step Time 20 0 9999 sec 26 Soft fill feedback difference Fill Fdb Diff 0 00 0 Unit Band Soft Fill Operation Se...

Page 187: ...s PID operation begins AP1 24 Fill Step Set AP1 25 Fill Step Time AP1 26 Fill Fdb Diff The Soft Fill PID Reference increases each time the set time at AP1 25 Fill Step Time is elapsed by the amount set at AP1 24 Fill Step Set However note that if the difference between the Soft Fill PID Reference value and the feedback value is greater than the value set at AP1 26 Fill Fdb Diff value the Soft Fill...

Page 188: ...urations are available in PID sleep mode for sleep mode frequency sleep mode delay time wakeup variation and wakeup delay time One of the two configurations may be selected depending on the multi function input terminal configuration and input conditions Group Code Name LCD Displays Parameter Setting Setting Range Unit AP1 05 Sleep boost settings Sleep Bst Set 0 00 0 Unit Max Unit 06 Sleep boost s...

Page 189: ...8 PID Sleep1Freq AP1 12 PID Sleep2Freq If the operating frequency stays below the frequencies set at AP1 08 and AP1 12 for the set times at AP1 07 and AP1 11 the inverter accelerates to the PID sleep boost frequency PID Sleep Bst Freq Then when the feedback reaches the value set at the boost level the inverter enters standby mode AP1 09 PID WakeUp1 DT AP1 13 PID WakeUp2 DT AP1 10 PID WakeUp1Dev AP...

Page 190: ...PID Switching PID Openloop When one of the multi function terminals IN 65 71 is set to 25 PID Openloop and is turned on the PID operation stops and is switched to general operation When the terminal turns off the PID operation starts again ...

Page 191: ... EPID1 command source selection EPID1 Ref Src 0 Keypad 0 10 07 EPID1 keypad command value EPID1 Ref Set Unit Min Unit Min Unit Max 08 EPID1 feedback source selection EPID1 Fdb Src 0 V1 0 9 Purpose Function Speed Control Controls speed by monitoring the current speed levels of the equipment or machinery being controlled Control maintains consistent speed or operates at the target speed Pressure Con...

Page 192: ...mit EPID1 Limit Hi 100 00 EPID1 Limit Lo 100 00 15 EPID1 lower limit EPID1 Limit Lo 0 00 100 00 EPID1 Limit Hi 16 EPID1 output inverse EPID1 Out Inv 0 No 0 1 17 EPID1 unit EPID1 Unit Sel 1 Refer to EPID unit details table 18 EEPID1 unit scale EPID1 Unit Scl 2 X1 0 X100 1 X10 2 X1 3 X0 1 4 X0 01 19 EPID1 unit 0 value EPID1 Unit0 Differs depending on the unit setting X100 32000 Unit 100 X10 3200 0 U...

Page 193: ...f Src 0 Keypad 0 10 37 EPID2 keypad command value EPID2 Ref Set Unit Min Unit Min Unit Max Unit 38 EPID2 feedback source selection EPID2 Fdb Src 0 V1 0 9 39 EPID2 proportional gain EPID2 P Gain 50 0 0 0 300 0 Unit 40 EPID2 integral time EPID2 I Time 10 0 0 0 200 0 Sec 41 EPID2 differentiation time EPID2 D Time 0 00 0 1 00 Sec 42 EPID2 feed forward gain EPID2 FF Gain 0 0 0 0 1000 0 Unit 43 EPID2 ou...

Page 194: ...20 00 Unit 100 X0 1 32 000 Unit 100 X0 01 3 2000 Unit 100 50 EPID2 unit 100 value EPID2 Unit100 Differs depending on the unit setting X100 Unit 0 32000 X10 Unit 0 3200 0 X1 Unit 0 320 00 X0 1 Unit 0 32 000 X0 01 Unit 0 3 2000 Note The EPID1 2 output EPID OUT is bipolar and is limited by the EPI 14 EPID 1 Limit Hi and EPI 15 EPID 1 Limit Lo settings The following are the variables used in PID opera...

Page 195: ... applied on the display EPI 05 EPID1 Err Value Displays the difference between the existing reference and the feedback error value The unit gain and scale that were set in the PID group are applied on the display EPI1 06 EPID1 Ref Src Selects the reference input for the EPID control If the V1 terminal is set to an EPID1 feedback source EPID1 F B Source V1 cannot be set as the EPID1 reference sourc...

Page 196: ...ors When the error is 100 the time taken for 100 output is set When the integral time EPID I Time is set to 1 second 100 output occurs after 1 second of the error remaining at 100 Differences in a normal state can be reduced by EPID I Time All the accumulated errors can be deleted by setting the multi function terminal block to 42 EPID1 ITerm Clr or 48 EPID2 ITerm Clr EPI 11 EPI1 D Time Sets the o...

Page 197: ...m 3 min 1 22 m 3 h m 3 h 2 PSI 23 l s 3 F 24 l m 4 C 25 l h 5 inWC 26 kg s 6 inM 27 kg m 7 Bar 28 kg h 8 mBar 29 gl s 9 Pa 30 gl m 10 kPa 31 gl h 11 Hz 32 ft s 12 Rpm 33 f3 s ft3 min 13 V 34 f3 h ft3 h 14 I 35 lb s 15 kW 36 lb m 16 HP 37 lb m 17 mpm 38 lb h 18 ft 39 ppm 19 m s 40 pps 20 m3 s m 3 S EPI 18 EPID1 Unit Scl Adjusts the scale to fit the unit selected at EPI 17 EPI1 Unit Sel EPI 19 EPID1...

Page 198: ...185 Learning Advanced Features EPID1 Control block ...

Page 199: ...186 Learning Advanced Features EPID2 Control block ...

Page 200: ...r occurs If the damper open relay output and damper control input are set at the same time and if the damper open signal is not received until the time set at AP2 45 Damper DT is elapsed when the inverter is not operating damper error Damper Err occurs Group Code Name LCD Display Parameter Setting Setting Range Unit AP2 45 Damper check time Damper DT 0 1 600 0 sec IN 65 71 P1 7 Px terminal configu...

Page 201: ...188 Learning Advanced Features Note Damper operation is one of the essential system features that are available in both HAND and AUTO modes ...

Page 202: ... relay 1 5 Relay 1 5 33 Damper Control Lubrication Operation Setting Details Code Description AP2 46 Lub Op Time Outputs the lubrication signal for a set time when the inverter run command is turned on The inverter starts operating when the set time has elapsed OUT 31 35 Relay 1 5 Sets one of the output relays OUT 31 35 to 30 Lubrication to enable the Lubrication function Note The lubrication func...

Page 203: ...his function is based on a PID operation The volume is given the same unit used for the PID reference Longer pipes cause the actual pressure to decrease which in turn increases the difference between the pressure reference and the actual pressure When the pipe lengths are equal in two different systems more pressure loss is caused in the system with greater flow This explains the pressure differen...

Page 204: ...level Group Code Name LCD Display Parameter Setting Setting Range Unit AP2 87 1st MOTOR average POWER M1 AVG PWR Inverter capacity 0 1 500 0 kW 88 2nd MOTOR average POWER M2 AVG PWR Inverter capacity 0 1 500 0 kW 89 Cost per kWh Cost per kWh 0 0 0 1000 0 kW 90 Saved kWh Saved kWh 0 999 9 999 9 kWh 91 Saved MWh Saved MWh 0 32000 32000 MWh 92 Saved Cost below 1000 unit Saved Cost1 0 999 9 999 9 93 S...

Page 205: ...vings based on the set value AP2 89 Cost per kWh Sets the cost per 1 kWh Multiply the energy payback counter value with the value set at AP2 89 to calculate the total saved cost This value is displayed in AP2 92 93 AP2 90 Saved kWh AP2 91 Saved MWh Displays the saved energy in kWh AP2 90 and MWh AP2 91 When the value reaches 999 9 kWh and continues to increase AP2 91 becomes 1 MWH AP2 90 resets to...

Page 206: ...0 0 18 Pump clean reference band PC Curve Band 5 0 0 0 100 0 19 Pump clean operation delay time PC Curve DT 60 0 0 6000 0 sec 20 Pump clean start delay time PC Start DT 10 0 0 6000 0 Sec 21 0 speed operating time at Fx Rx switching PC Step DT 5 0 1 0 6000 0 Sec 22 Pump clean Acc time PC Acc Time 10 0 0 600 0 Sec 23 Pump clean Dec time PC Dec Time 10 0 0 600 0 Sec 24 Forward step run time Fwd Stead...

Page 207: ...the delay time set at AP2 19 elapses accelerates by the acceleration time set at AP2 22 and operates at the frequency set at AP2 25 The pump runs for the time set at AP2 24 decelerates by the time set at AP2 23 and then stops This operation repeats in the forward and reverse directions one after another for the number of times set at AP2 28 PC Num of Step Each time the steps Fx Rx switch the inver...

Page 208: ...each time the inverter starts or stops operating AP2 17 PC Curve Rate AP2 18 PC Curve Band AP2 19 PC Curve DT If AP2 15 is set to Power or Current multiply the load characteristic curve set at AP2 2 AP2 10 by the value set at AP2 17 100 AP2 17 and reset the load characteristic curve for the pump clean operation refer to the load tune features for AP2 2 AP2 10 setting values Apply rated inverter cu...

Page 209: ...rates based on the inverter s command status after the pump cleaning If a terminal command is received the inverter performs the operation it was performing before the pump clean operation AP2 29 Repeat Num Mon Displays the number of the current pump cleaning cycle AP2 30 Repeat Num Set Sets the number of cycles for one pump clean operation set at AP2 21 AP2 28 AP2 32 PC Limit Time AP2 33 PC Limit...

Page 210: ... on if the terminal input is kept on after it is initially turned on 1 pump clean cycle is operated 5 15 Start End Ramp Operation This function is used to rapidly accelerate the pump to the normal operating level or to rapidly decelerate the pump and stop it Start End ramp operation is performed when ADV 24 Freq Limit is set to 1 Yes Group Code Name LCD Display Parameter Setting Setting Range Unit...

Page 211: ...different from DRV 03 deceleration gradient Start End Ramp Adjustment In the figure above AP2 41 defines the acceleration time to the minimum operation frequency ADV 25 Freq Limt Lo AP2 42 defines the deceleration time from the minimum operation frequency to a stopped state Time A normal acceleration time set at DRV 03 and Time B normal deceleration time set at DRV 04 in the figure will change acc...

Page 212: ...nt and voltage and creates an ideal load curve for the under load and pump clean operations The two set points to define the section are user definable and are set at 50 and 85 of the base frequency DRV 18 Base Freq by default The load tuning result values are saved at codes AP2 2 AP2 10 These values are user definable as ADV 24 Frequency limit options Limit Mode 0 No 0 No 1 Yes 25 Low Freq minimu...

Page 213: ... Code Name LCD Display Parameter Setting Setting Range Unit AP2 01 Load curve Tuning Load Tune No 0 No 1 Yes 02 Load curve Low Freq Load Fit LFreq 30 00 Base Freq 15 Load Fit HFreq Hz 03 Current for Low Freq Load Fit LCurr 40 0 0 0 200 0 04 Power for Low Freq Load Fit LPwr 30 0 0 0 200 0 08 Load curve High Freq Load Fit HFreq 51 00 Load Fit LFreq High Freq Hz 09 Current for High Freq Load Fit HCur...

Page 214: ... definable AP2 08 Load fit HFreq Defines the second frequency set point for load tuning user definable AP2 09 Load Fit HCurr AP2 10 Load Fit HPwr Displays the current and power measured at the frequency set at AP2 08 as a percentage value based on motor rated current and rated power Values for AP2 09 and AP2 10 are user definable AP2 11 Load Curve Cur AP2 12 Load Curve PWR Monitors the load curve ...

Page 215: ... out of the range of the user defined values If the reset restart feature is turned on the inverter continues to operate based on the run command after the LDT fault trip is released Group Code Name LCD Display Parameter Setting Setting Range Unit PRT 70 Level detection mode LDT Sel Warning None Warning Trip 71 Level detection range LDTArea Sel 1 Above Level 0 1 72 Level detection source LDT Sourc...

Page 216: ...user 2 Above Triggers a level detect fault trip when the inverter operates above the frequency set by the user PRT 72 LDT Source Selects a source for level detection Setting Function 0 Output Current Sets the output current as the source 1 DC Link Voltage Sets the DC link voltage as the source 2 Output Voltage Sets the output voltage as the source 3 kW Sets the output power as the source 4 hp Sets...

Page 217: ...LDT Band Width If the source is detected below the set level it must be adjusted to be above the LDT Level LDT Band Width value to release the level detection fault trip If the source is detected above the set level it must be adjusted to be below the LDT Level LDT Band Width value to release the level detection fault trip The level detection trip bandwidth is 10 of the maximum source value PRT 76...

Page 218: ...etection status An example of PRT 71 set to 1 Above Level As shown in the figure above level detection can be carried out relay output is on as the output frequency is above PRT 76 and the detection value is greater than the value of PRT 74 The LDT operation is released if the value is less than the value subtracted from the value of band of when the value of the feedback is set from PRT 74 to PRT...

Page 219: ... PipeBroken DT 10 0 0 6000 0 Sec OUT 31 36 Relay output 1 5 Relay1 5 28 Pipe Broken Pipe Break Detection Details Code Description PRT 60 PipeBroken Sel Select the operation while detecting Pipe Breaks Setting Function 0 None No operation 1 Warning The inverter displays a warning message 2 Free Run The inverter free runs then stops 3 Dec The inverter decelerates then stops PRT 61 PipeBroken Dev Set...

Page 220: ...207 Learning Advanced Features ...

Page 221: ...me DC Inj Delay T 60 0 0 0 600 0 sec IN 65 71 Terminal block input 1 7 P1 7 Define 44 Pre Heat Initial Heating Setting Details Code Description AP2 48 Pre Heat Curr Sets the current to be used for initial heating Sets the current to motor no load current value AP2 49 Pre Heat Duty Sets the duty time for the current to be used for initial heating from 10 seconds to value AP2 50 DC Inj Delay T Sets ...

Page 222: ... if the inverter operation command is on the inverter maintains acceleration and a fixed frequency If the inverter operation command is off the motor is in Free Run and the Pre Heat operations starts after the time amount set in AP2 50 If the value forAP2 48 Pre Heat Curr is above the rated motor current value it is limited by the rated motor current value If the value forAP2 48 Pre Heat Curr is t...

Page 223: ...y Motor Capacity 9 5 5 kW 7 20 BAS 11 Motor pole number Pole Number 4 2 48 12 Rated slip speed Rated Slip 45 0 3000 Rpm 13 Rated motor current Rated Curr 21 0 1 0 1000 0 A 14 Motor no load current Noload curr 7 1 0 5 1000 0 A 15 Motor rated voltage Rated Volt 220 170 480 V 16 Motor efficiency Efficiency 85 70 100 20 Auto tuning Auto Tuning 0 None 21 Stator resistance Rs 0 314 Depends on the motor ...

Page 224: ...0 12 4 1 00 0 120 1 488 15 53 6 15 5 1 00 0 084 1 118 18 5 65 6 19 0 1 00 0 0676 0 819 400 V 0 75 2 0 1 0 3 00 7 81 53 9 1 5 3 7 1 5 2 67 3 52 27 9 2 2 5 0 1 9 2 3 2 52 19 95 3 7 8 0 2 9 2 3 1 50 13 45 5 5 12 1 4 1 1 50 0 940 9 62 7 5 16 3 5 4 1 33 0 520 8 53 11 23 2 7 2 1 00 0 360 4 48 15 31 0 9 0 1 00 0 250 3 38 18 5 38 0 11 0 1 00 0 168 2 457 22 44 5 12 5 1 00 0 168 2 844 30 60 5 16 9 1 00 0 12...

Page 225: ...apacity and the keypad only displays the inverter capacity BAS 20 Auto Tuning Select an auto tuning type and run it Select one of the options and then press the ENT key to run the auto tuning Setting Function 0 None Auto tuning function is disabled Also if you select one of the auto tuning options and run it the parameter value will revert back to 0 when the auto tuning is complete 1 All rotating ...

Page 226: ... mode is off Before you run auto tuning check the motor pole number rated slip rated current rated voltage and efficiency on the motor s rating plate and enter the data The default parameter setting is used for values that are not entered When measuring all parameters after selecting 2 All static type at BAS 20 compared with rotation type auto tuning where parameters are measured while the motor i...

Page 227: ...es 8 Time Event Module types and 8 Exception day types can be used to configure time events The Time Event function works based on a series of configuration using the modules listed in the table above Group Code Name LCD Display Parameter Setting Setting Range Unit AP3 01 Current date Now Date 01 01 2000 01 01 2000 12 31 2099 Date Hz 02 Current time Now Time 0 00 0 00 23 59 Sec 03 Current day of t...

Page 228: ...0 00 24 00 Min 21 Time Period 4 End time Period4 Stop T 24 00 Period4 StartT 24 00 Min Min 22 Time Period 4 Day of the week Period4 Day 0000000 0000000 1111111 30 Except1 Date Start time Except1 StartT 24 00 00 00 24 00 Min 31 Except1 Date End time Except1 Stop T 24 00 Except1 StartT 24 00 Min Min 32 Except1 Date Except1 Date 01 01 01 01 12 31 Day 33 53 Exception Date 2 Exception Date 8 Parameter ...

Page 229: ...2 Rx 3 Speed L 4 Speed M 5 Speed H 7 Xcel L 8 Xcel M 9 Xcel H 10 Xcel Stop 11 Run Enable 12 2nd Source 13 Exchange 14 Analog Hold 15 I Term Clear 16 PID Openloop 17 PID Gain 2 18 PID Ref Change 19 2nd Motor 20 Timer In 21 DiasAux Ref 22 EPID1 Run 23 EPID1 ITerm Clr 24 Pre Heat 25 EPID2 Run 26 EPID2 iTerm Clr 27 Sleep Wake Chg ...

Page 230: ...t will be 3 00 on December 25 instead of 2 00 a minute later Summer time is different for each country The parameter is based on 2 o clock If there is no charge on the RTC battery it is initialized to 00 00 on January 1 2000 when the inverter power is off on AP3 04 Summer T Start AP3 05 Summer T Stop Set the Summer time start and finish date AP3 06 Date format Select the desired date format Config...

Page 231: ...r disables the Time Event Setting Function 0 No Time Event is not used 1 Yes Time Event is used AP3 71 T Event Status It shows which T Event from 1 8 is being performed 7 6 5 4 3 2 1 0 T Event 8 T Event 7 T Event 6 T Event 5 T Event 4 T Event 3 T Event 2 T Event 1 AP3 72 86 T Event1 8 Period Select the desired module of the Time Module and Exception Day set in AP3 11 AP3 53 for the relevant events...

Page 232: ...15 None Time Period Parameter Setting There are 4 Time Period Sets in the Time Event Each Time Period Set has period 1 4 Start Start time Period 1 4 Stop T End time and Period 1 4 Day Operation day for which they can be set Time Period Schedule Time Period 1 Every Sunday Monday Wednesday Thursday and Friday at 06 00 On and 18 00 Off Time Schedule Code Function Setting AP3 11 Period1 StartT 06 00 A...

Page 233: ...n on particular days public holidays etc The settings for the start time and the end time are the same as the settings for the modules and can be set for particular days The Exception dates can be set redundantly with the Time periods If the Time Periods and the Exception Dates are set redundantly the inverter operates on the Exception Dates set Title Setting Range Description Except1 8 Start T 00...

Page 234: ...Except1 Day 12 25 Exception Date 2 Every Sunday and Saturday for 24 hours On Time Schedule Code Function Setting AP3 33 Except2 StartT 00 00 AP3 34 Except2 StopT 24 00 AP3 35 Except2 Day 01 01 Exception Date 3 Every Sunday Thursday Friday and Saturday at 10 00 On and 14 00 Off Time Schedule Code Function Setting AP3 36 Except3 StartT 10 00 AP3 37 Except3 StopT 14 00 AP3 38 Except3 Day 01 01 Title ...

Page 235: ...222 Learning Advanced Features The Time Chart for the Exception Day ...

Page 236: ...he parameters for Events 1 8 The diagram below shows the connections between the Time event modules and the time period modules The Time Event 1 is connected to Time Period 4 The Time Event 8 is connected to Time Periods 1 4 and the Exception Dates 2 Time Event Module Function Settings The functions to be performed in the Time Event for T Events 1 8 can be set 30 functions can be set refer to page...

Page 237: ...time Period1 Stop T 20 00 00 00 24 00 Min 13 Time Period 1 Day of the week Period1 Day 0110000 0000000 1111111 14 Time Period 2 Start time Period2 StartT 12 00 00 00 24 00 Min 15 Time Period 2 End time Period2 Stop T 17 00 00 00 24 00 Min 16 Time Period 2 Day of the week Period2 Day 00100000 0000000 1111111 70 Time Event configuration Time Event En 1 YES 0 No 1 Yes 72 Time Event 1 connection confi...

Page 238: ...PID Ref Change 19 2nd Motor 20 Timer In 21 DiasAux Ref 22 EPID1 Run 23 EPID1 ITerm Clr 24 Pre Heat 25 EPID2 Run 26 EPID2 ITerm Clr 27 Sleep Wake Chg 28 PID Step Ref L 29 PID Step Ref M 30 PID Step Ref H 74 Time Event 2 connection T Event1Period 00000000010 000000000001 111111111111 75 Time Event 2 functions T Event2Define 3 Speed L Refer to AP3 73 ...

Page 239: ...d L for the time set at Time Period module 2 On Mondays the inverter operates in the forward direction based on the frequency input on the keypad from 10AM to 8PM Time Event 1 On Tuesdays it operates again in the forward direction based on the keypad frequency input from 10AM to 12PM Time Event 1 and then operates at Speed L from 12PM to 5PM Time Event 2 When the operation assigned by Time Event 2...

Page 240: ...age trip to occur after an instantaneous power interruption If a fault trip occurs during a time event operation the inverter stops the operation and stays in a trip state When this happens there are two options to resume the stopped operation Set PRT 08 RST Restart to YES to allow the inverter to automatically restart after the trip condition is released Refresh the setting at AP3 70 Time Event E...

Page 241: ...r is disconnected Setting Function 0 No General deceleration is carried out until a low voltage trip occurs 1 Yes The inverter power frequency is controlled and the regeneration energy from the motor is charged by the inverter CON 78 KEB Start Lev CON 79 KEB Stop Lev Sets the start and stop points of the kinetic energy buffering operation The set values must be based on the low voltage trip level ...

Page 242: ...motor vibration or torque variation occurs during the KEB function operation after power interruptions the KEB functions can be performed better by increasing the KEB P Gain or decreasing the KEB I Gain 5 24 Anti hunting Regulation Resonance Prevention This function is used to prevent the hunting of a V F controlled fan or motor caused by current distortion or oscillation due to mechanical resonan...

Page 243: ...gulation CON 14 AHR P Gain Increasing AHR proportional gain improves responsiveness of the anti hunting regulation However current oscillation may result if AHR proportional gain is set too high CON 15 AHR Low Freq CON 16 AHR High Freq Sets the lower limit frequency CON 15 and the maxim limit frequency CON 16 for anti hunting regulation 5 25 Fire Mode Operation This function is used to allow the i...

Page 244: ...re Mode 0 41 When the multi function terminal configured for Fire mode is turned on the inverter ignores all other commands and operates in the direction set at PRT 46 Fire mode run direction at the speed set at PRT 47 Fire mode run frequency In Fire mode the inverter ignores any faults other than ASHT Over Current 1 Over Voltage Ground F and continues to operate If any of the faults that can stop...

Page 245: ...operations The number increases only when PRT 45 Fire Mode Sel is set to Fire Mode The count increases up to 99 then it does not increase any more If damper or lubrication operations are set for the inverter Fire mode operation is performed after the delay times set in the relevant operations Note that Fire mode operation voids the product warranty In Fire mode test mode the inverter does not igno...

Page 246: ...6 2 Automatic Energy Saving Operation The inverter finds the optimal energy saving point for the time set at ADV 52 based on the rated motor current and the voltage output The Energy saving operation is effective for the normal duty operations It does operate when the load level is more than 80 of the rated motor current Group Code Name LCD Display Parameter Setting Setting Range Unit ADV 50 Energ...

Page 247: ...Code Name LCD Display Parameter Setting Setting Range Unit CON 70 Speed search mode selection SS Mode 0 Flying Start 1 71 Speed search operation selection Speed Search 0000 bit 72 Speed search reference current SS Sup Current 90 0 75 90kW 50 120 80 110 500kW 73 Speed search proportional gain SS P Gain 100 0 9999 74 Speed search integral gain SS I Gain 200 0 9999 75 Output block time before speed s...

Page 248: ...uring no load rotation Because this mode establishes the direction of the idling motor forward reverse the speed search function is stable regardless of the direction of the idling motor and direction of operation command However because the ripple current is used which is generated by the counter electromotive force at idle the counter electromotive force is proportional to the idle speed the idl...

Page 249: ...ic restart after a power interruption If bit 3 is set to 1 and if a low voltage trip occurs due to a power interruption but the power is restored before the internal power shuts down the speed search operation accelerates the motor back to its frequency reference before the low voltage trip If an instantaneous power interruption occurs and the input power is disconnected the inverter generates a l...

Page 250: ...N 70 SS Mode is set to 1 Flying Start 2 different factory defaults based on motor capacity are used and defined in DRV 14 Motor Capacity CON 75 SS Block Time The block time parameter prevents overvoltage trips due to counter electromotive force Note If operated within the rated output the H100 series inverter is designed to withstand instantaneous power interruptions within 8 ms and maintain norma...

Page 251: ...1 60 0 sec CON 71 Select speed search operation Speed Search 0000 1111 bit 72 Speed search startup current SS Sup Current 90 70 120 73 Speed search proportional gain SS P Gain 100 0 9999 74 Speed search integral gain SS I Gain 200 0 9999 75 Output block time before speed search SS Block Time 1 0 0 0 60 0 sec Auto Restart Setting Details Code Description PRT 08 RST Restart The Reset restart functio...

Page 252: ...racts it from the number set at PRT 09 until the retry number count reaches 0 After an auto restart if a fault trip does not occur within 60 sec it will increase the restart count number The maximum count number is limited by the number set at PRT 09 If the inverter stops due to over current or hardware diagnosis an auto restart is not activated At auto restart the acceleration options are identic...

Page 253: ... 1 PWM Pulse width modulation Operational Noise Setting Details Code Description CON 04 Carrier Freq Adjusts motor operational noise by changing carrier frequency settings Power transistors IGBT in the inverter generate and supply high frequency switching voltage to the motor The switching speed in this process refers to the carrier frequency If the carrier frequency is set high it reduces operati...

Page 254: ...duration The overload capacity on the H100 series inverter is 120 1 min for normal loads The current rating differs from the load rating as it also has an ambient temperature limit For derating specifications refer to 11 8 Inverter Continuous Rated Current Derating on page 578 Current rating for ambient temperature at normal load operation 5 30 2nd Motor Operation The 2nd motor operation is used w...

Page 255: ...0 ETH Trip Sel must be set first before M2 29 M2 ETH 1 min and M2 30 M2 ETH Cont settings Parameter Setting at Multi function Terminal Input on a 2nd Motor Code Description Code Description M2 04 Acc Time Acceleration time M2 15 M2 Efficiency Motor efficiency M2 05 M2 Dec Time Deceleration time M2 17 M2 Rs Stator resistance M2 06 M2 Capacity Motor capacity M2 18 M2 Lsigma Leakage inductance M2 07 ...

Page 256: ...is used to switch the power source for the motor connected to the inverter from the inverter output power to the main supply power source commercial power source or vice versa Group Code Name LCD Display Parameter Setting Setting Range Unit IN 65 71 Px terminal configuration Px Define Px P1 P7 18 Exchange 0 55 OUT 31 Multi function relay 1 items Relay1 17 Inverter Line 0 41 33 Multi function outpu...

Page 257: ... Setting Range Unit ADV 64 Cooling fan control Fan Control 0 During Run 0 2 Cooling Fan Control Detail Settings Code Description ADV 64 Fan Control Settings Description 0 During Run The cooling fan runs when the power is supplied to the inverter and the operation command is on The cooling fan stops when the power is supplied to the inverter and the operation command is off When the reverse the tra...

Page 258: ...e internal temperature The internal fan controls on off in conjunction with the operation command of the inverter main control fan 5 33 Input Power Frequency and Voltage Settings Select the frequency for inverter input power If the frequency changes from 60 Hz to 50 Hz all other frequency or RPM settings including the maximum frequency base frequency etc will change to 50 Hz Likewise changing the ...

Page 259: ...ers from the keypad to the inverter Saved parameters on the inverter will be deleted and replaced with the copied parameters If an error occurs during parameter writing the previously saved data will be used If there is no saved data on the Keypad EEP Rom Empty will be displayed CNF 48 Parameter Save As parameters set during communication transmission are saved to RAM the setting values will be lo...

Page 260: ... Initialize ADV group ADV Grp 5 Initialize CON group CON Grp 6 Initialize IN group IN Grp 7 Initialize OUT group OUT Grp 8 Initialize COM group COM Grp 9 Initialize PID group PID Grp 10 Initialize EPI group EPI Grp 11 Initialize AP1 group AP1 Grp 12 Initialize AP2 group AP2 Grp 13 Initialize AP3 group AP3 Grp 14 Initialize PRT group PRT Grp 15 Initialize M2 group M2 Grp 5 36 Parameter View Lock Us...

Page 261: ...he next stage until the user enters a valid password 4 Register a new password 5 After registration code CNF 51 will be displayed CNF 50 View Lock Set To enable parameter view lock enter a registered password The Locked sign will be displayed on the screen to indicate that parameter view lock is enabled To disable parameter view lock re enter the password The locked sign will disappear 5 37 Parame...

Page 262: ...able parameter lock enter the registered password The Locked sign will be displayed on the screen to indicate that prohibition is enabled Once enabled pressing the PROG ENT key at once function code will not allow the display edit mode to run To disable parameter modification prohibition re enter the password The Locked sign will disappear If parameter view lock and parameter lock functions are en...

Page 263: ...ting options If user group parameters are not registered setting the multi function key to the user group select key UserGrp SelKey will not display user group USR Grp items on the Keypad Follow the procedures below to register parameters to a user group No Procedure 1 Set CNF 42 to 3 UserGrp SelKey A icon will be displayed at the top of the LCD display 2 In the parameter mode PAR Mode move to the...

Page 264: ...cedures below to delete parameters in the user group No Settings 1 Set CNF 42 to 3 UserGrp SelKey A icon will be displayed at the top of the LCD display 2 In the USR group in U M mode move the cursor to the code that is to be deleted 3 Press the MULTI key 4 Move to YES on the deletion confirmation screen and press the PROG ENT key 5 Deletion completed CNF 25 UserGrp AllDel Set to 1 Yes to delete a...

Page 265: ...press the ESC key Start Easy Set Select Yes CNF 43 Select a macro BAS 10 60 50 Hz Sel Set motor rated frequency DRV 14 Motor Capacity Set motor capacity BAS 13 Rated Curr Set motor rated current BAS 15 Rated Volt Set motor rated voltage BAS 11 Pole Number Set motor pole number BAS 19 AC Input Volt Set input voltage PRT 08 Select start at trip reset PRT 09 Retry Number Sets the number of restart tr...

Page 266: ...e Unit CNF 2 LCD brightness contrast adjustment LCD Contrast 10 Inverter S W version Inv S W Ver x xx 11 Keypad S W version Keypad S W Ver x xx 12 Keypad title version KPD Title Ver x xx 30 32 Power slot type Option x Type None 44 Erase trip history Erase All Trip No 60 Add title update Add Title Up No 62 Initialize accumulated electric energy WH Count Reset No ...

Page 267: ... more code is added CNF 60 settings will add display and operate the added codes Set CNF 60 to 1 Yes and disconnect the keypad from the inverter Reconnecting the keypad to the inverter updates titles CNF 62 WH Count Reset Initialize the accumulated electric energy consumption count 5 42 Macro Selection The Macro selection function is used to put various application functions together in a group Fo...

Page 268: ...ter Setting Setting Range Unit IN 65 71 Px terminal configuration Px Define Px P1 P7 35 Timer In 0 55 OUT 31 Multi function relay 1 Relay 1 22 Timer Out 0 41 33 Multi function output 1 Q1 Define 55 Timer on delay TimerOn Delay 3 00 0 00 100 00 sec 56 Timer off delay TimerOff Delay 1 00 0 00 100 00 sec Timer Setting Details Code Description IN 65 71 Px Define Choose one of the multi function input ...

Page 269: ...play Parameter Setting Setting Range Unit AP1 40 MMC function selection MMC Sel 0 None 0 None 1 Single Ctrl 2 Multi Follower 3 Multi Master 41 Serve Drv 41 Bypass selection Regul Bypass 0 No 0 No 1 Yes 42 Number of auxiliary motors Num of Aux 5 1 AuxMaxMotor2 433 Auxiliary Starting Aux 1 1 5 1 AP1 47 87 and AP1 91 98 are not displayed when AP1 40 is set to 4 Serve Drv 2 If Extension IO option is e...

Page 270: ...rder for auxiliary motors FIFO FILO 0 FILO 0 FILO 1 FIFO 2 Op Time Order 50 Auxiliary motor pressure difference Actual Start Diff 2 0 100 Unit 51 Main motor acceleration time when auxiliary motor is reduced AuxAcc Time 2 0 600 0 Sec 52 Main motor deceleration time when auxiliary motor is added Aux Dec Time 2 0 600 0 Sec 53 Auxiliary motor start delay time Aux Start DT 5 0 0 999 9 Sec 54 Auxiliary ...

Page 271: ... while Multi Master is operating Follower Freq 60 00 Low Freq High Freq Hz 61 1 auxiliary motor start frequency Start Freq 1 45 Low Freq High Freq Hz 62 2 auxiliary motor start frequency Start Freq 2 45 Low Freq High Freq Hz 63 3 auxiliary motor start frequency Start Freq 3 45 Low Freq High Freq Hz 64 4 auxiliary motor start frequency Start Freq 4 45 Low Freq High Freq Hz 65 5 auxiliary motor star...

Page 272: ...q High Freq Hz 72 3 auxiliary motor stop frequency Stop Freq 3 20 Low Freq High Freq Hz 73 4 auxiliary motor stop frequency Stop Freq 4 20 Low Freq High Freq Hz 74 5 auxiliary motor stop frequency Stop Freq 5 20 Low Freq High Freq Hz 75 6 auxiliary motor stop frequency Stop Freq 6 20 Low Freq High Freq Hz 76 7 auxiliary motor stop frequency Stop Freq 7 20 Low Freq High Freq Hz 77 8 auxiliary motor...

Page 273: ... Aux6 Ref Comp 0 0 Unit Band Unit 86 7 auxiliary motor reference compensation Aux7 Ref Comp 0 0 Unit Band Unit 87 8 auxiliary motor reference compensation Aux8 Ref Comp 0 0 Unit Band Unit 90 Interlock selection Interlock 0 No 0 No 1 Yes 91 Delay time before an operation for the next motor when an interlock or an auto change on the main motor occur Interlock DT 5 0 0 360 0 Sec 955 Selecting auxilia...

Page 274: ...xRunTim e Day 0 0 65535 97 Operating time of auxiliary motor chosen in AP1 95 AuxRunTim e Min 00 00 00 00 23 59 98 Deleting operating time of auxiliary motor AuxRunTim e Clr 0 None 1 All 2 Aux 1 3 Aux 2 4 Aux 3 5 Aux 4 6 Aux 5 7 Aux 6 8 Aux 7 9 Aux 8 6 5 Aux6 7 Aux8 of AP1 95 and 7 Aux6 9 Aux8 of AP1 98 and displayed when Extension IO option is equipped or AP1 40 is set to 2 or 3 ...

Page 275: ...ight number of AP1 45 Aux Priority1 indicates the priority of Auxiliary motor 1 and the second number from the right of AP1 45 Aux Priority1 indicates the priority of Auxiliary motor 2 AP1 45 Aux Priority1 x x x x The Priority of the Aux motor1 The Priority of the Aux motor4 AP1 46 Aux Priority2 x x x x The Priority of the Aux motor5 The Priority of the Aux motor8 AP1 48 Aux All Stop When AP1 48 A...

Page 276: ...AP1 70 74 Stop Freq 1 5 based on the deceleration time set at AP1 52 Dec Time When the auxiliary motor stops the main motor accelerates up to the auxiliary motor restart frequency set at AP1 61 65 Start Freq 1 5 based on the acceleration time set at AP1 51 Acc Time AP1 53 Aux Start DT AP1 54 Aux Stop DT The auxiliary motors turns on or off after the auxiliary motor stop delay time or the auxiliary...

Page 277: ... 5 auxiliary motor start frequency Start Freq 1 5 Frequency value within the range Low Freq High Freq Hz 50 Auxiliary motors pressure difference Actual Pr Diff Percentage value within the range 0 100 70 74 1 5 auxiliary motor stop frequency Stop Freq 1 5 Frequency value within the range Low Freq High Freq Hz ...

Page 278: ...LO and FIFO settings AP1 61 AP1 62 AP1 63 AP1 64 AP1 65 Max Freq Frequency Output frequency Aux Motor 1 Off On PID Feedback AP1 71 AP1 70 AP1 72 AP1 73 AP1 74 AP1 74 AP1 71 AP1 72 AP1 73 AP1 70 Aux Motor 2 Aux Motor 3 Aux Motor 4 Aux Motor 5 PID Reference AP1 50 AP1 59 Time MMC Basic operation FILO ...

Page 279: ... PID Feedback Aux Motor 1 Aux Motor 2 Aux Motor 3 Aux Motor 4 Aux Motor 5 PID Reference AP1 50 AP1 59 AP1 61 AP1 62 AP1 63 AP1 64 AP1 65 AP1 71 AP1 72 AP1 73 AP1 74 AP1 70 AP1 70 AP1 71 AP1 72 AP1 73 AP1 74 AP1 65 AP1 64 AP1 63 AP1 62 AP1 61 MMC Basic operation FIFO ...

Page 280: ...nt M3 M2 M1 M4 M5 Priority at the moment M3 M2 M1 M4 M5 5min 10min AP1 61 30min Operation time M1 30min M2 25min M3 20min Supposing its operating in less than 1 minute Output frequency MMC Basic operation OP Time Order The following diagram is an operation graph based on the start and stop delay times set at AP1 53 Aux start DT and AP1 54 Aux stop DT When the start or stop frequencies are reached ...

Page 281: ...at Replay1 2 3 and 4 and 5 are set to MMC and the number of Num of Aux is 3 Relay1 Relay2 Relay3 Relay4 Relay5 Operable Operable Operable Standby Standby In this case though only Relay1 2 3 operate MMC function and the output of Relay is set to MMC it doesn t work as long as the order is not changed by Interlock and Auto Change Standby auxiliary motor becomes operable when there is Interlock or Au...

Page 282: ...e time Auto Ch Mode Time value within the range 00 00 99 00 Sec 57 Auto change frequency Auto Ch Level Frequency value within the range Low Freq High Freq Hz 58 Auto change operation time Auto Op Time Time value within the range Sec Auto Change Setting Details Code Description AP1 55 Auto Ch Mode Select the motors to apply the auto change function Setting Description 0 None 1 Aux Exchange 2 Main E...

Page 283: ...change is operated only when all the auxiliary motors are stopped and if all the conditions set for the auto change are met When the inverter stops all motors stop operating and the auxiliary motor with the highest priority becomes the starting auxiliary motor If the inverter power is turned off then turned back on the auxiliary motor set at AP1 43 StartingAux becomes the starting auxiliary motor ...

Page 284: ...65 AP1 62 AP1 63 AP1 64 AP1 65 AP1 72 AP1 73 AP1 74 Option 2 All auxiliary motors are off Aux Auto Change operation FILO AP1 57 100 AP1 70 AP1 70 AP1 61 Option 1 AP1 58 Auto Op Time AP1 56 Auto Ch Time AP1 70 Aux Auto Change operation FIFO option 1 AP1 58 Auto Op Time AP1 56 Auto Ch Time Max Freq Output frequency Feedback 0 Fx Off On Aux Motor 1 Aux Motor 2 Aux Motor 3 Aux Motor 4 Aux Motor 5 AP1 ...

Page 285: ...r to operate MMC M3 M4 M5 Standby motor M1 M2 Supposing its operation in less than 1 minute AP1 74 AP1 72 AP1 65 AuxAuto Changeoperation OpTimeOrder when operable motor and standbymotor are set to 3 and 2 each Option 1 AP1 58 Auto Op Time AP1 56 Auto Ch Time When AP1 55 Auto Ch Mode is set to 2 Main Exchange the system uses all the motors main and auxiliary motors regardless of the types The auxil...

Page 286: ...en AP1 55 Auto Ch Mode is set to 2 Main when the inverter operation time exceeds the auto change interval set at AP1 58 If the inverter operation frequency is below the frequency set at AP1 57 all the auxiliary motors including the start auxiliary motor are turned off After the delay time set at AP1 91 Interlock DT elapses the Main auto change is operated After the Main auto change the auxiliary m...

Page 287: ... Option 3 AP1 91 Interlock DT AP1 70 Off Stop On Run Main Auto Change operation FILO Max Freq Freqency Fx Inv State Max Freq Frequency Main_Exch occurs AP1 70 Output frequency Main Motor Option 3 AP1 91 Interlock DT AP1 70 Fx Off Stop Inv State On Run Main Auto Change operation FIFO ...

Page 288: ...is motor trouble the interlock feature is used to stop the affected motor and replace it with another that is not currently operating off state To activate the interlock feature connect the cables for abnormal motor signal to the inverter input terminal and configure the terminals as interlock 1 5 inputs Then the inverter decides the motor s availability based on the signal inputs The order in whi...

Page 289: ...nables or disables the Interlock AP1 91 Interlock DT Sets the delay time before the Interlock occurs Note IN 65 71 PxDefine Select the terminal from the input terminal function group IN 65 71 and set Interlock 1 5 respectively with the correct motor order When auto change mode selection AP1 55 is set to 0 None or 1 Aux and if 5 motors are operated including the main motor the interlock numbers 1 2...

Page 290: ...frequency set at AP1 71 and rises again Then the interlock occurs at auxiliary motor 1 The auxiliary motor stops and falls to the frequency set at AP1 71 and then rises again Interlock 2 should be released first then release interlock 1 to let the auxiliary motor operate When interlocks are released they will have the lowest priority of the operating motors If the auxiliary motor turns off by a ri...

Page 291: ...auxiliary motor 3 the priority is number 1 3 4 5 2 When it occurs at auxiliary motor 1 the priority is number 3 4 5 2 1 The figure below shows the order of the auxiliary motors activating depending on the priority of Interlock occurring and releasing In the figure the order is the same for FILO FIFO because the auxiliary motor turns on M a x F r e q O f f On AP1 62 AP1 61 AP1 74 AP1 73 AP1 72 AP1 ...

Page 292: ... 5 01 50 Operating Set 3 Aux2of AP1 98 AuxRunTime Clr 2 Aux Motor2 00 00 Operating Aux Motor3 00 30 Operating Aux Motor1 00 50 Operating Aux Motor4 01 30 Operating Aux Motor 5 01 50 Operating Set time of Aux2to 2 00 through AP1 97 AuxRunTime Min 3 Aux Motor3 00 30 Operating Aux Motor1 00 50 Operating Aux Motor2 02 00 Operating Aux Motor4 01 30 Stopping Aux Motor 5 01 50 Stopping The table below sh...

Page 293: ...1 Regular Bypass Sets the regular bypass mode Mode Setting 0 No 1 Yes AP1 61 65 Start Freq 1 5 Sets the auxiliary motor start frequency AP1 70 74 Stop Freq 1 5 Sets the auxiliary motor stop frequency OUT 31 35 Relay 1 5 OUT 36 Q1 Define Set OUT31 35 to 21 MMC to use the out terminal for auxiliary motor operation The number of configured output terminals determines the total number of auxiliary mot...

Page 294: ...PID functions Only FILO operates between the AP1 49 FIFO FILO in a regular bypass function Out Freq 10 20 30 40 50 60 70 80 90 100 16 6 33 3 49 9 66 6 83 3 0 area 6 Off On Aux Motor 1 Max Freq AP1 61 AP1 62 AP1 63 AP1 64 AP1 65 AP1 71 AP1 72 AP1 73 AP1 74 AP1 70 Regular ByPass area 5 area 4 area 3 area 2 area 1 Aux Motor 2 Aux Motor 3 Aux Motor 4 Aux Motor 5 5 44 7 Aux Motor PID Compensation When ...

Page 295: ...e Description AP1 80 84 Aux 1 5 Ref Comp Set the relevant PID reference compensation rate whenever the auxiliary motor is turned on The PID reference can be set over 100 but when it exceeds 100 the maximum value of the PID reference is limited to 100 Unit band value is the value between unit 100 0 Auxiliary motor PID compensation NOTE When the aux reference value is set to 100 the final PID refere...

Page 296: ...ve Drive It is an inverter to operate motors with Leader Drive Each inverter and motor has the same number ID COM 01 Int485 St ID Among the operating motors the motor with the lowest priority is called Main Motor and the rest of motors are called as Aux Motor In case that every motor is stopped the motor with the highest priority is called as Main Motor This is Main Motor and Aux Motor are changed...

Page 297: ...frequency reaches the frequency set in Start Freq belonging to the next priority number and the time set in AP1 53 Aux Start DT passes AP1 44 Aux Motor Run increases 1 and it becomes Aux Motor accelerating based on time of DRV 03 Acc Time DRV 04 Dec Time until AP1 60 Follower Freq At the same time as an inverter corresponding to the next priority is turned on the motor becomes Main Motor available...

Page 298: ...requency reaches the frequency set in Start Freq belonging to the next priority number and the time set in AP1 53 Aux Start DT passes AP1 44 Aux Motor Run increases 1 In addition Aux Motor with the next priority of Main Motor is turned on and the new operating Aux Motor becomes Main Motor Operating motors can be controlled together by PID It is possible to check the priority in AP1 45 46 Aux Prior...

Page 299: ...p Freq 3 Stop Freq 1 Follower Freq Follower Freq PID Ctrl Main Motor Aux Motor Aux Motor Aux Motor PID Ctrl Main Motor M1 M2 M3 M2 M3 The picture below shows the operating time of M1 is the longest during Multi Follower Mode Start Freq 1 Start Freq 3 Out Freq High Freq M1 OutFreq M2 OutFreq Start Freq 2 M3 OutFreq M2 M3 M1 Run Cmd FeedBack PID Reference M1 Cmd Freq PID Ctrl M2 Cmd Freq M3 Cmd Freq...

Page 300: ...ster Follower keeps performing the function except Leader Drive if there is another Trip Leader Drive executes PID control and overall system control consistently In this operating priority M1 M2 M3 M4 M5 M6 M7 M8 if interlock3 or any trip and HAND OFF State are caused the motor is activated in this order M1 M2 M4 M5 M6 M7 M8 Interlock1 Interlock2 Interlock3 Interlock4 Interlock8 Leader Drive ID 1...

Page 301: ...eeRun M1 M2 M1 M2 M3 M3 Time to sort the priority according to the operation time Aux Motor Main Motor PID Ctrl PID Ctrl Main Motor Aux Motor 5 45 Multi function Output On Off Control Set reference values on off level for analog input and control output relay or multi function output terminal on off status accordingly Group Code Name LCD Display Parameter Setting Setting Range Unit ADV 66 Output t...

Page 302: ...during a press operation motor operation speed automatically goes up to avoid the regeneration zone Group Code Name LCD Display Parameter Setting Setting Range Unit ADV 74 Select press regeneration prevention for press RegenAvd Sel 0 No 0 1 75 Press regeneration prevention operation voltage level RegenAvd Level 350 V 200 V class 300 400 V V 700 V 400 V class 600 800 V 76 Press regeneration prevent...

Page 303: ...tion prevention level voltage when the DC link voltage goes up due to regeneration ADV 76 CompFreq Limit Set an alternative frequency width that can replace actual operation frequency during regeneration prevention ADV 77 RegenAvd Pgain ADV 78 RegenAvd Igain To prevent regeneration zone set P Gain I gain in the DC link voltage suppress PI controller 5 47 Analog Output Note Press regeneration preve...

Page 304: ...witch SW5 to change the output type voltage current Group Code Name LCD Display Parameter Setting Setting Range Unit OUT 01 Analog output1 AO1 Mode 0 Frequency 0 15 02 Analog output1 gain AO1 Gain 100 0 1000 0 1000 0 03 Analog output1 bias AO1 Bias 0 0 100 0 100 0 04 Analog output1 filter AO1 Filter 5 0 10000 ms 05 Analog constant output1 AO1 Const 0 0 0 0 100 0 06 Analog output1 monitor AO1 Monit...

Page 305: ...y with actual output frequency Outputs 10 V 9 PID Ref Value Outputs command value of a PID controller as a standard Outputs approximately 6 6 V at 100 10 PID Fdk Value Outputs feedback volume of a PID controller as a standard Outputs approximately 6 6 V at 100 11 PID Output Outputs output value of a PID controller as a standard Outputs approximately 10 V at 100 12 Constant Outputs OUT 05 AO1 Const...

Page 306: ... Max Freq is 60 Hz and the present output frequency is 30 Hz then the x axis value on the next graph is 50 OUT 04 AO1 Filter Set filter time constant on analog output OUT 05 A01 Const If the analog output at OUT 01 AO1 Mode is set to 12 Constant the analog voltage output is dependent on the set parameter values 0 100 OUT 06 AO1 Monitor Monitors the analog output value Displays the maximum output v...

Page 307: ... 1000 0 Analog Pulse Output Setting Details Code Description OUT 62 TO Gain OUT 63 TO Bias Adjusts output value and offset If frequency is selected as an output it will operate as shown below 𝑇𝑂 𝐹𝑟𝑒𝑞𝑢𝑒𝑛𝑐𝑦 𝑀𝑎𝑥𝐹𝑟𝑒𝑞 𝑇𝑂 𝐺𝑎𝑖𝑛 𝑇𝑂 𝐵𝑖𝑎𝑠 The following graph illustrates that the pulse output TO changes depend on OUT 62 TO Gain and OUT 63 TO Bias values The Y axis is an analog output current 0 32 kHz and X a...

Page 308: ...st to 0 0 2 Set OUT 09 AO2 Bias to 20 0 and then check the current output 4 mA output should be displayed If the value is less than 4 mA gradually increase OUT 09 AO2 Bias until 4 mA is measured If the value is more than 4 mA gradually decrease OUT 09 AO2 Bias until 4 mA is measured 3 Set OUT 11 AO2 Const to 100 0 4 Set OUT 08 AO2 Gain to 80 0 and measure the current output at 20 mA If the value i...

Page 309: ...function relay 5 setting Relay 5 0 None 36 Multi function output setting Q1 define 0 None 41 Multi function output monitor DO Status 00 11 bit 57 Detection frequency FDT Frequency 30 00 0 00 Maximum frequency Hz 58 Detection frequency band FDT Band 10 00 IN 65 71 Px terminal configuration Px Define 18 Exchange 0 55 Multi function Output Terminal and Relay Setting Details Code Description OUT 31 35...

Page 310: ...qual and fulfills FDT 1 condition at the same time Absolute value set frequency detected frequency detected frequency width 2 FDT 1 Detected frequency width is 10 Hz When the detected frequency is set to 30 Hz FDT 2 output is as shown in the graph below 3 FDT 3 Outputs a signal when the Absolute value output frequency operation frequency detected frequency width 2 Detected frequency width is 10 Hz...

Page 311: ...nal at load fault warning 8 Fan Warning Outputs a signal at fan fault warning 9 Stall Outputs a signal when a motor is overloaded and stalled 10 Over Voltage Outputs a signal when the inverter DC link voltage rises above the protective operation voltage 11 Low Voltage Outputs a signal when the inverter DC link voltage drops below the low voltage protective level 12 Over Heat Outputs signal when th...

Page 312: ...tion output to MMC and configuring the AP1 40 AP1 92 it can conduct the necessary operations for multi motor control function 22 Timer Out A timer function to operate terminal output after a certain time by using multi function terminal block input For details refer to 5 43Timer Settings on page 255 23 Trip Outputs a signal after a fault trip Refer to 5 45 Multi function Output On Off Control on p...

Page 313: ...utputs a signal when an LDT trip occurs 33 Damper Control Outputs a signal when a damper open signal is set at IN 65 71 multi function terminals and run command is on 34 CAP Warning Outputs a signal when value of the PRT 85 is lower than the value of the PRT 86 CAP life cycle examination do not operate properly 35 Fan Exchange Outputs a signal when fan needs to be replaced 36 AUTO State Outputs a ...

Page 314: ...utput on delay TripOut OnDly 0 00 0 00 100 00 sec 54 Fault trip output off delay TripOut OffDly 0 00 0 00 100 00 sec Code Description OUT 30 Trip Out Mode Fault trip relay operates based on the fault trip output settings Item bit on bit off Keypad display Select a fault trip output terminal relay and select 29 Trip Mode at codes OUT 31 33 When a fault trip occurs in the inverter the relevant termi...

Page 315: ...he number increases to the left Output Terminal Delay Time Setting Details 5 49 Operation State Monitor Code Description OUT 50 DO On Delay When a relay operation signal operation set in OUT 31 35 36 occurs the relay turns on or the multi function output operates after the time delay set at OUT 50 OUT 51 DO Off Delay When relay or multi function output is initialized off signal occurs the relay tu...

Page 316: ... items to display on the top right side of the keypad screen Choose the parameter settings based on the information to be displayed Codes CNF 20 23 share the same setting options as listed below Setting Function 0 Frequency On stop displays the set frequency During operation displays the actual output frequency Hz 1 Speed On stop displays the set speed rpm During operation displays the actual oper...

Page 317: ...r mode Monitor mode is the first mode displayed when the inverter is powered on A total of three items from monitor line 1 to monitor line 3 can be displayed simultaneously CNF 24 Mon Mode Init Selecting 1 Yes initializes CNF 20 23 5 50 Operation Time Monitor This feature is used to monitor the inverter and fan operation times Note Inverter power consumption Values are calculated using voltage and...

Page 318: ...0000DAY 00 00 format CNF 71 Run time Displays accumulated time of voltage output by operation command input Information is displayed in Day Hr Min 00000DAY 00 00 format CNF 72 Time Reset Setting 1 Yes will delete the power supply accumulated time On time and operation accumulated time Run time CNF 74 Fan time Displays accumulated time of the inverter cooling fan operation Information will be displ...

Page 319: ...r recovery 5 52 Display current date time day using Multi key The current date time and day of the week are displayed on the monitoring screen using the Multi key on the keypad Group Code Name LCD Display Parameter Setting Setting Range Unit CNF 42 Multi key item Multi key sel 2 Now Time 0 2 The current date is AP3 01 Now Date the current time is AP3 02 Now Time and the current day is the paramete...

Page 320: ...re categorized into two types protection from overheating damage to the motor and protection against the inverter malfunction 6 1 Motor Protection 6 1 1 Electronic Thermal Motor Overheating Prevention ETH ETH is a protective function that uses the output current of the inverter without a separate temperature sensor to predict a rise in motor temperature to protect the motor based on its heat chara...

Page 321: ...un 2 Dec The inverter decelerates the motor to a stop PRT 41 Motor Cooling Select the drive mode of the cooling fan attached to the motor Setting Function 0 Self cool As the cooling fan is connected to the motor axis the cooling effect varies based on motor speed Most universal induction motors have this design 1 Forced cool Additional power is supplied to operate the cooling fan This provides ext...

Page 322: ...tion sensor Thermal T Sel 0 None 0 1 35 Selecting the input of the motor overheat detection sensor Thermal In Src 0 Thermal In 0 1 36 Fault level of the motor overheat detection sensor Thermal T Lev 50 0 0 0 100 0 37 Fault area of the motor overheat detection sensor Thermal T Area 0 Low 0 1 OUT 07 Analog output 2 item AO2 Mode 14 Constant 0 18 08 Analog output 2 gain AO2 Gain 100 0 100 Motor Overh...

Page 323: ...ct sensor connection to terminal block V1 1 V2 Configure the motor overheat protect sensor connection to terminal block I2 PRT 36 Thermal T Lev Configure the fault level of the motor overheat detect sensor PRT 37 Thermal TArea Setting Function 0 Low Operates when the motor overheat sensor input is smaller than PRT 36 1 High Operates when the motor overheat sensor input is bigger that PRT 36 OUT 07...

Page 324: ...put terminal set PRT 35 Thermal InSrc to 1 V2 and set SW 4 Analog2 input selection switch to V2 The sensor does not operate if SW4 is set to I2 When the inverter detects a motor overheat motor overheat trip occurs with internal delay time The trip delay time is not reset instantly when the trip condition is released but it only decreases as time passes 6 1 3 Overload Early Warning and Trip Group C...

Page 325: ...continues at that level during the overload warning time OL Warn Time the multi function output Relay 1 Q1 sends a warning signal When Over Load is selected at OUT 31 OUT 33 the multi function output terminal or relay outputs a signal The signal output does not block the inverter output PRT 20 OL Trip Select Select the inverter protective action in the event of an overload fault trip Setting Funct...

Page 326: ...overload fault trip occurs The overload warning signal may not work in an overload fault trip situation if the overload warning level OL Warn Level and the overload warning time OL Warn Time are set higher than the overload trip level OL Trip Level and the overload trip time OL Trip Time ...

Page 327: ...gy therefore optimum deceleration is available without over voltage fault trip To protect the motor from overload faults the inverter output frequency is adjusted automatically based on the size of load Group Code Name LCD Display Parameter Setting Setting range Unit PRT 50 Stall prevention and flux braking Stall Prevent 0100 bit 51 Stall frequency 1 Stall Freq 1 60 00 Start Freq Stall Freq 1 Hz 5...

Page 328: ...ng If current level stays above the stall level the motor decelerates to the start frequency DRV 19 If the current level causes deceleration below the preset level while operating the stall protection function the motor resumes acceleration 0010 Stall protection while operating at constant speed Similar to stall protection function during acceleration the output frequency automatically decelerates...

Page 329: ...Freq 1 PRT 58 Stall Leve l4 Additional stall protection levels can be configured for different frequencies based on the load type As shown in the graph below the stall level can be set above the base frequency The lower and upper limits are set using numbers that correspond in ascending order For example the range for Stall Frequency 2 Stall Freq 2 becomes the lower limit for Stall Frequency 1 Sta...

Page 330: ...es the operation of stall protection If the input voltage exceeds the nominal voltage there is a possibility that the deceleration stall does not work properly Note Stall protection and flux braking operate together only during deceleration Turn on the third and fourth bits of PRT 50 Stall Prevention to achieve the shortest and most stable deceleration performance without triggering an over voltag...

Page 331: ...k of torque Group Code Name LCD Display Parameter Setting Setting range Unit PRT 05 Input output open phase protection Phase Loss Chk 00 bit 06 Open phase input voltage band IPO V Band 40 1 100 V V Input and Output Open phase Protection Setting Details Code Description PRT 05 Phase Loss Chk PRT 06 IPO V Band When open phase protection is operating input and output configurations are displayed diff...

Page 332: ...inal setting options Px Define Px P1 P7 4 External Trip 0 55 87 Multi function input contact selection DI NC NO Sel bit External Trip Signal Setting Details Code Description IN 87 DI NC NO Sel Selects the type of input contact If the mark of the switch is at the bottom 0 it operates as an A contact Normally Open If the mark is at the top 1 it operates as a B contact Normally Closed The correspondi...

Page 333: ...CD Display Parameter Setting Setting range Unit OUT 31 35 Multi function relay 1 5 Relay 1 5 6 IOL 36 Multi function output 1 Q1 Define 6 2 4 Speed Command Loss Note A warning signal output can be provided in advance by the multi function output terminal before the inverter overload protection function IOLT operates When the overcurrent time reaches 60 of the allowed overcurrent 120 1 min 140 5 se...

Page 334: ...ay Parameter Setting Setting range Unit PRT 11 Keypad command loss operation mode Lost KPD Mode 0 None 0 None 1 Warning 2 Free Run 3 Dec 12 Speed command loss operation mode Lost Cmd Mode 1 Free Run 13 Time to determine speed command loss Lost Cmd Time 1 0 0 1 120 0 sec 14 Operation frequency at speed command loss Lost Preset F 0 00 Start frequency Max frequency Hz 15 Analog input loss decision le...

Page 335: ...diately becomes the operation frequency without any protection function 1 Free Run The inverter blocks output The motor performs in free run condition 2 Dec The motor decelerates and then stops at the time set at PRT 07 Trip Dec Time 3 Hold Input The inverter calculates the average input value for 10 seconds before the loss of the speed command and uses it as the speed reference 4 Hold Output The ...

Page 336: ...the IN 08 and IN 12 is 0 the LostCmd function does not operate PRT 14 Lost Preset F In situations where speed commands are lost set the operation mode PRT 12 Lost Cmd Mode to 5 Lost Preset This operates the protection function and sets the frequency so that the operation can continue Set IN 06 V1 Polarity to Unipolar and IN 08 to 5 V Set PRT 15 AI Lost Level to 1 Below x1 and PRT 12 Lost Cmd Mode ...

Page 337: ... Dynamic Breaking Resistor Setting Details Code Description PRT 66 DB Warn ED Set the braking resistor configuration ED Enable Duty The braking resistor configuration sets the rate at which the braking resistor operates for one operation cycle The maximum time for continuous braking is 15 sec and the braking resistor signal is not output from the inverter after the 15 sec period elapses An example...

Page 338: ...oltage warning feature If the low battery voltage warning function is set to Yes a low battery voltage warning occurs when the battery voltage is lower than 2 V normal voltage is 3 V Replace the battery when the low battery warning is displayed Group Code Name LCD Display Parameter Setting Setting Range Unit PRT 90 Low battery voltage detection Low Battery 0 None 0 None 1 Warning Low Battery Volta...

Page 339: ... using output current or output power PRT 24 UL Band Make a standard value for the under load fault occurrence using system load UL Band value set in each frequency of the load characteristics curve made by the AP2 01 Load Tune PRT 25 ULWarn Sel Select the under load warning options Set the multi function output terminals at OUT 31 35 and 36 to 7 Under load The warning signals are output when unde...

Page 340: ... selected by selection of PRT 79 Fan Fault Detection Setting Details Code Description PRT 79 Fan Trip Mode Set the cooling fan fault mode Setting Function 0 Trip The inverter output is blocked and the fan trip is displayed when a cooling fan error is detected 1 Warning When OUT 36 Q1 Define and OUT 31 35 Relay1 5 are set to 8 FAN Warning the fan error signal is output and the operation continues O...

Page 341: ... a relay However the low voltage trip delay time LVT Delay time does not apply to warning signals 6 3 3 Selecting Low Voltage 2 Fault During Operation Group Code Name LCD Display Setting Setting range Unit PRT 82 Low voltage trip decision during operation LV2 Trip Sel 0 No 0 1 If input power is disconnected during inverter operation and internal DC voltage decreases lower than a certain voltage th...

Page 342: ...erminal turns off and operation command is input 6 3 5 Trip Status Reset Restart the inverter using the keypad or analog input terminal to reset the trip status Group Code Name LCD Display Parameter Setting Setting range Unit IN 65 71 Px terminal setting options Px Define Px P1 P7 3 RST 0 55 Trip Status Reset Setting Details Code Description IN 65 71 Px Define Press the Stop Reset key on the keypa...

Page 343: ...ion command is run when the motor is disconnected from the inverter output terminal a no motor trip occurs and a protective operation is performed by the system Group Code Name LCD Display Parameter Setting Setting range Unit PRT 31 Operation for no motor trip No Motor Trip 0 None 0 1 32 No motor trip current level No Motor Level 5 1 100 33 No motor detection time No Motor Time 3 0 0 1 10 sec No M...

Page 344: ...ures 331 If BAS 07 V F Pattern is set to 1 Square set PRT 32 No Motor Level to a value lower than the factory default Otherwise a no motor trip due to a lack of output current will occur when the no motor trip operation is set ...

Page 345: ...ent Trq 0 100 0 94 Function torque current of broken belt BrokenBelt Trq 10 0 0 100 0 95 Function Delay time of broken belt BrokenBelt Dly 10 0 0 0 600 0 sec Current output torque value compared to motor rated torque Broken belt operation torque compared to motor rated torque After inverter is operating in the frequency over PRT 92 and current torque reaches the limit set at PRT 94 and then it mee...

Page 346: ...e predicted by looking at the changes in the capacitance value Group Code Name LCD Display Parameter Setting Setting Range Unit PRT 83 Estimated current level of the capacitance CAP Diag Perc 0 0 10 0 100 0 84 CAP estimating mode CAP Diag 0 None 0 None 1 CAP Diag 1 2 CAP Diag 2 3 CAP Init 85 CAP deterioration level CAP Level1 0 0 0 100 0 86 CAP detected level CAP Level2 0 0 0 100 0 OUT 31 35 Outpu...

Page 347: ...inverter 3 CAP Init Initialize the estimated value of the capacitance to 0 PRT 85 CAP Level 1 Set the standard level for the capacitance replacement PRT 86 CAP Level 2 Display estimated capacitance value according to the mode in PRT 84 If this value is lower than the value set in PRT 85 the warning message CAP Warning appears on the display Be careful when replacing the battery Remaining voltage i...

Page 348: ... PRT 87 Fan Time Perc Displays the time the fan is used in percentage based on 50 000 hours If this value is bigger than the value in PRT 88 the warning message Fan Exchange appears on the display PRT 88 Fan Exchange Displays the life replacement standard of the fan in percentage CNF 75 Fan Time Rst Initializes the accumulation time of the fan operation Setting Function 0 No Do not initialize the ...

Page 349: ...at Over heat fault trip Out Phase Open Output open phase fault trip In Phase Open Input open phase fault trip Ground Trip Ground fault trip Fan Trip Fan fault trip E Thermal Motor overheat fault trip IO Board Trip IO Board connection fault trip No Motor Trip No motor fault trip Low Voltage2 Low voltage fault trip during operation ParaWrite Trip Write parameter fault trip Pipe Broken Pipe Break fau...

Page 350: ...Watch Dog 2 Warning Lost Command Command loss fault trip warning Over Load Overload warning Under Load Under load warning Inv Over Load Inverter overload warning Fan Warning Fan operation warning DB Warn ED Braking resistor braking rate warning Low Battery Low battery warning Fire Mode Fire mode warning Pipe Broken Pipe Break warning Level Detect Level detect warning CAP Warning Capacitor lifetime...

Page 351: ...en if the trip state is released after the trip occurs In level type trip the inverter can unlock the fault by itself if the trip state is unlocked after the trip occurs In a fetal type trip there is no way to unlock the fault other than turning the inverter off then back on after the trip occurs InFAN Warning Inner Fan Warning 110 500kW ...

Page 352: ...oise Please refer to the following table for details about the communication standards Item Standard Communication method Transmission type RS 485 Bus type Multi drop Link System Inverter type name H100 Number of connected inverters Transmission distance Maximum of 16 inverters Maximum1 200 m recommended distance within 700 m Recommended cable size 0 75 mm 18 AWG Shielded Type Twisted Pair STP Wir...

Page 353: ...ation system configuration 7 2 1 Communication Line Connection Make sure that the inverter is turned off completely and then connect the RS 485 communication line to the S S SG terminals of the terminal block The maximum number of inverters you can connect is 16 For communication lines use shielded twisted pair STP cables The maximum length of the communication line is 1 200 meters but it is recom...

Page 354: ...lay after reception Resp Delay 5 0 1000 msec Communication Parameters Setting Details Code Description COM 01 Int485 St ID Sets the inverter station ID between 1 and MaxComID COM 02 Int485 Proto Select one of the four built in protocols Modbus RTU LS INV 485 BACnet or Metasys N2 Setting Function 0 Modbus RTU Modbus RTU compatible protocol 2 LS INV 485 Dedicated protocol for the LS inverter 4 BACne...

Page 355: ...ethod and the number of stop bits Setting Function 0 D8 PN S1 8 bit data no parity check 1 stop bit 1 D8 PN S2 8 bit data no parity check 2 stop bits 2 D8 PE S1 8 bit data even parity 1 stop bit 3 D8 PO S1 8 bit data odd parity 1 stop bit If the COM 02 Int485 Proto setting is Metasys N2 the communication frame composition is fixed to D8 PN S1 and COM 04 Int485 Mode is not visible COM 05 Resp Delay...

Page 356: ... source of command set DRV 07 to 6 Int485 on the keypad Then set common area parameters for the operation command and frequency via communication Group Code Name LCD Display Parameter Setting Setting range Unit DRV 06 Command source Cmd Source 3 Int 485 0 5 07 Frequency setting method Freq Ref Src 6 Int 485 0 11 7 2 4 Command Loss Protective Operation Configure the command loss decision standards ...

Page 357: ...rforms in free run condition 2 Dec The motor decelerates and then stops 3 Hold Input Operates continuously with the speed of the inputted speed command until the loss of the speed command The inverter calculates the average input value for 10 seconds before the loss of the speed command and uses it as the speed reference 4 Hold Output Operates continuously with the operate frequency before the spe...

Page 358: ... 0000 0000 0000 0000 1111 1111 bit Example When sending an Fx command by controlling virtual multi function input in the common area via Int485 set COM 70 to FX and set address 0h0385 to 0h0001 7 3 2 Saving Parameters Defined by Communication If you turn off the inverter after setting the common area parameters or keypad parameters via communication and operate the inverter the changes are lost an...

Page 359: ... for User Group 0h0240 0h027F Area registered for Macro Group 0h0280 0h02FF Reserved Communication common area 0h0300 0h037F Inverter monitoring area 0h0380 0h03DF Inverter control area 0h03E0 0h03FF Inverter memory control area 0h0400 0h0FFF Reserved 0h1100 DRV Group 0h1200 BAS Group 0h1300 ADVGroup 0h1400 CON Group 0h1500 IN Group 0h1600 OUT Group 0h1700 COM Group 0h1800 PID Group 0h1900 EPI Gro...

Page 360: ...1 8 0000 FFFF Hex Currently Registered CM Group Parameter Note When registering control parameters register the operation speed 0h0005 0h0380 0h0381 and operation command 0h0006 0h0382 parameters at the end of a parameter control frame For example when the parameter control frame has 5 parameter control items Para Control x register the operation speed at Para Control 4 and the operation command t...

Page 361: ...tered at U M USR 1 Read Write access 0h0201 User Grp Code 2 Parameter value registered at U M USR 2 Read Write access 0h023E User Grp Code 63 Parameter value registered at U M USR 63 Read Write Read Write access 0h023F User Grp Code 64 Parameter value registered at U M USR 64 Read Write Read Write access Currently Registered Macro Group Parameters Address Parameter Assigned Content by Bit 0h0240 M...

Page 362: ...Q and ends with EOT A normal response starts with ACK and ends with EOT An error response starts with NAK and ends with EOT A station ID indicates the inverter number and is displayed as a two byte ASCII HEX string that uses characters 0 9 and A F CMD Uses uppercase characters returns an IF error if lowercase characters are encountered please refer to the following table Character ASCII HEX Comman...

Page 363: ...the control value is not included ENQ ACK NAK etc ENQ Station ID CMD Address Number of Addresses SUM EOT 05h 01 R 3000 1 A7 04h 1 byte 2 bytes 1 byte 4 bytes 1 byte 2 bytes 1 byte Note Broadcasting Broadcasting sends commands to all inverters connected to the network simultaneously When commands are sent from station ID 255 each inverter acts on the command regardless of the station ID However no ...

Page 364: ...n ID CMD Data SUM EOT 06h 01 FA R XXXX XX 04h 1 byte 2 bytes 1 byte n x 4 bytes 2 bytes 1 byte NAK Station ID CMD Error code SUM EOT 15h 01 FA R XX 04h 1 byte 2 bytes 1 byte 2 bytes 2 bytes 1 byte ENQ Station ID CMD Address Number of Addresses Data SUM EOT 05h 01 FA W XXXX 1 8 n XXXX XX 04h 1 byte 2 bytes 1 byte 4 bytes 1 byte n x 4 bytes 2 bytes 1 byte ACK Station ID CMD Data SUM EOT 06h 01 FA W ...

Page 365: ...Monitor Registration Error Response Total bytes 9 Monitor Registration Perform Request A data read request for a registered address received from a monitor registration request Total bytes 7 ENQ Station ID CMD Number of Addresses Address SUM EOT 05h 01 FA X 1 8 n XXXX XX 04h 1 byte 2 bytes 1 byte 1 byte n x 4 bytes 2 bytes 1 byte ACK Station ID CMD SUM EOT 06h 01 FA X XX 04h 1 byte 2 bytes 1 byte ...

Page 366: ... corresponding function does not exist ILLEGAL DATA ADDRESS IA The received parameter address is invalid at the slave ILLEGAL DATA VALUE ID The received parameter data is invalid at the slave WRITE MODE ERROR WM Tried writing W to a parameter that does not allow writing read only parameters or when writing is prohibited during operation FRAME ERROR FE The frame size does not match 7 3 6 5 ASCII Co...

Page 367: ...68 69 6A 6B 6C 6D 6E 6F 70 v w x y z 0 1 2 3 4 5 6 7 8 9 space 76 77 78 79 7A 30 31 32 33 34 35 36 37 38 39 20 21 22 23 24 25 26 27 28 29 2A 2B 2C 2D 2E 2F 3A 3B 3C 3D 3E 3F BEL BS CAN CR DC1 DC2 DC3 DC4 DEL DLE EM ACK ENQ EOT ESC ETB ETX FF FS GS HT LF NAK NUL RS S1 SO SOH STX SUB SYN US VT 5F 60 7B 7C 7D 7E 07 08 18 0D 11 12 13 14 7F 10 19 06 05 04 1B 17 03 0C 1C 1D 09 0A 15 00 1E 0F 0E 01 02 1A...

Page 368: ...ter Codes Description Start Addr Starting address 1 of the inverter parameters common area or keypad to be read from No of Reg Number of the inverter parameters common area or keypad to be read Byte Count Byte number of normal response values based on the number of registers No of Reg Except Code Error codes Request Slave Station ID Func Code Start Addr Hi Start Addr Lo No of Reg Hi No of Reg Lo C...

Page 369: ...RC Lo CRC Hi 1 byte 1 byte 1 byte 1 byte 1 byte 1 byte 1 byte 1 byte Normal Response Slave Station ID Func Code Addr Hi Addr Lo Value Hi Value Lo CRC Lo CRC Hi 1 byte 1 byte 1 byte 1 byte 1 byte 1 byte 1 byte 1 byte Error Response Slave Station ID Func Code Except Code CRC Lo CRC Hi 1 byte 1 byte 1 byte 1 byte 1 byte Func Code of the error response is Request Func Code 0x80 Writing Multiple Regist...

Page 370: ...ount Reg Value Hi Reg Value Lo CRC Lo CRC Hi 1 byte 1 byte 1 byte 1 byte 1 byte 1 byte 1 byte 1 byte 1 byte 1 byte 1 byte Normal Response Slave Station ID Func Code Start Addr Hi Start Addr Lo No of Reg Hi No of Reg Lo CRC Lo CRC Hi 1 byte 1 byte 1 byte 1 byte 1 byte 1 byte 1 byte 1 byte Error Response Slave Station ID Func Code Except Code CRC Lo CRC Hi 1 byte 1 byte 1 byte 1 byte 1 byte Func Cod...

Page 371: ...nsmission from Master to Slave Item Station ID Function Starting Address of Register Byte Count Data 1 Data 2 CRC Hex 0x01 0x10 0x1102 0x0002 0x04 0x0032 0x0064 0x1202 Des cript ion COM 01 Int485 St ID Preset Multiple Register Start Address 1 0x1103 1 50 Acc time 5 0 sec 100 Dec time 10 0 sec Frame Transmission from Slave to Master Item Station Id Function Starting Address of Register CRC Hex 0x01...

Page 372: ...5kW 9 22kW 10 30kW 11 37kW 12 45kW 13 55kW 14 75kW 15 90kW 16 110kW 17 132kW 18 160kW 19 185kW 20 220kW 21 250kW 22 315kW 23 355kW 24 400kW 25 500kW 0h0002 Inverter input voltage R 0 220 V product 1 440 V product 0h0003 Version R Example 0h0064 Version 1 00 Example 0h0065 Version 1 01 0h0004 Reserved R 0h0005 Command frequency 0 01 Hz R W 0h0006 Operation command option R B15 Reserved B14 0 Keypad...

Page 373: ...R 0h000C DC link voltage 1 V R 0h000D Output power 0 1 kW R 0h000E Operation status R B15 0 HAND 1 AUTO B14 1 Frequency command source by communication built in option B13 1 Operation command source by communication built in option B12 Reverse operation command B11 Forward operation command B10 Reserved B9 Jog mode B8 Drive stopping B7 DC Braking B6 Speed reached B5 Decelerating B4 Accelerating B3...

Page 374: ... B10 H W Diag B9 Reserved B8 Reserved B7 Reserved B6 Reserved B5 Reserved B4 Reserved B3 Level Type trip B2 Reserved B1 Reserved B0 Latch Type trip 0h0010 Input terminal information R B15 B7 Reserved B6 P7 B5 P6 B4 P5 B3 P4 B2 P3 B1 P2 B0 P1 0h0011 Output terminal information R B15 Reserved B14 Reserved B13 Reserved B12 Reserved B11 Reserved ...

Page 375: ...elay 3 B1 Relay 2 B0 Relay 1 0h0012 V1 0 1 R V1 input voltage 0h0013 Thermal 0 1 R Input Thermal 0h0014 V2 0 1 R V2 input voltage 0h0015 I2 0 1 R I2 input Current 0h0016 Motor rotation speed 1 Rpm R Displays existing motor rotation speed 0h0017 0h0019 Reserved 0h001A Select Hz rpm R 0 Hz unit 1 rpm unit 0h001B Display the number of poles for the selected motor R Display the number of poles for the...

Page 376: ...0h 132 kW 4840h 160 kW 4A00h 185kW 4B90h 220 kW 4DC0h 250 kW 4FA0h 315 kW 53B0h 355 kW 5630h 400 kW 5900h 500 kW 5F40h 0h0302 Inverter input voltage power Single phase 3 phase cooling method 200 V 3 phase forced cooling 0231h 400 V 3 phase forced cooling 0431h 0h0303 Inverter S W version ex 0h0064 Version 1 00 0h0065 Version 1 01 0h0304 Reserved 0h0305 Inverter operation state B15 0 Normal state 4...

Page 377: ...erminal block B14 B13 B12 B11 B10 B9 B8 B7 Frequency command source 0 Keypad speed 1 Keypad torque 2 4 Up Down operation speed 5 V1 7 V2 8 I2 9 Pulse 10 Built in RS 485 11 Communication option 13 Jog 14 PID 25 31 Multi step speed frequency B6 B5 B4 B3 B2 B1 B0 0h0307 Keypad S W version Ex 0h0064 Version 1 00 0h0308 Keypad title version Ex 0h0065 Version 1 01 0h0309 IO Board Version Ex 0h0064 Versi...

Page 378: ... for the first motor 0h031B Display the number of poles for the 2nd motor Displays the number of poles for the 2nd motor 0h031C Display the number of poles for the selected motor Displays the number of poles for the selected motor 0h031D Select Hz rpm 0 Hz 1 rpm 0h031E 0h031F Reserved 0h0320 Digital input information B15 B7 Reserved B6 P7 I O board B5 P6 I O board B4 P5 I O board B3 P4 I O board B...

Page 379: ...d motor 0h0324 AI1 0 01 Analog input V1 or Thermal I O board 0h0325 AI2 0 01 Analog input V2 or I2 I O board 0h0326 Reserved Reserved 0h0327 Reserved Reserved 0h0328 AO1 0 01 Analog output 1 I O board 0h0329 AO2 0 01 Analog output 2 I O board 0h032A Reserved 0 01 Reserved 0h032B Reserved 0 01 Reserved 0h032C Reserved Reserved 0h032D Reserved Reserved 0h032E Consumption energy kWh 0 1 kWh Consumpti...

Page 380: ...E Thermal B2 Inverter OLT B1 Under Load B0 Over Load 0h0331 Latch type trip information 2 B15 Reserved B14 MMC Interlock B13 Reserved B12 Reserved B11 Reserved B10 Option Trip 1 B9 No Motor Trip B8 Reserved B7 IO Board Trip B6 Broken Belt B5 ParaWrite Trip B4 TB Trip B3 Fan Trip B2 Thermal Trip B1 Level Detect B0 Reserved 0h0332 Level type trip information B15 B4 Reserved ...

Page 381: ...B0 ADC Offset 0h0334 Warning information 1 B15 Broken Belt B14 Low Battery B13 Load Tune B12 Fan Exchange B11 CAP Warning B10 Level Detect B9 Reserved B8 Lost Keypad B7 Pipe Break B6 Fire Mode B5 DB Warn ED B4 Fan Warning B3 Lost Command B2 Inv Over Load B1 Under Load B0 Over Load 0h0335 Latch type trip information 3 B15 Reserved Reserved B4 Reserved B3 Overcurrent2 Trip ...

Page 382: ... Unit Proc Unit Unit Scaled Process PID feedback value 0h0340 On Time date 0 Day Total number of days the inverter has been powered on 0h0341 On Time Minute 0 Min Total number of minutes excluding the total number of On Time days 0h0342 Run Time date 0 Day Total number of days the inverter has driven the motor 0h0343 Run Time minute 0 Min Total number of minutes excluding the total number of Run T...

Page 383: ... PID 1 Reference 0h0354 E PID 1 Unit Scale Fdb Proc Unit Proc Unit Unit Scale External PID 1 feedback 0h0355 Reserved Reserved 0h0356 Reserved Reserved 0h0357 E PID 2 Output 0 01 External PID 2 output 0h0358 E PID 2 Ref 0 1 External PID 2 Reference 0h0359 E PID 2 Fdb 0 1 External PID 2 feedback 0h035A E PID 2 Unit Scale Ref Proc Unit Proc Unit Unit Scale External PID 2 Reference 0h035B E PID 2 Uni...

Page 384: ...ctor 0 1 Output power factor 0h035F Inv Fan Time INV Fan running time 0h0360 Multi motor control terminal output B15 Reserved Reserved B5 Reserved B4 5th motor running B3 4th motor running B2 3rd motor running B1 2nd motor running B0 1st motor running ...

Page 385: ...op command 1 Run command Example Forward operation command 0003h Reverse operation command 0001h 0h0383 Acceleration time 0 1 sec Acceleration time setting 0h0384 Deceleration time 0 1 sec Deceleration time setting 0h0385 Virtual digital input control 0 Off 1 On B15 B8 Reserved B7 Virtual DI 8 COM 77 B6 Virtual DI 7 COM 76 B5 Virtual DI 6 COM 75 B4 Virtual DI 5 COM 74 B3 Virtual DI 4 COM 73 B2 Vir...

Page 386: ... Anytime Para Set the CNF 20 value refer to 5 49Operation State Monitor on page 302 0h039B Monitor Line 1 Set the CNF 21 value refer to 5 49Operation State Monitor on page 302 0h039C Monitor Line 2 Set the CNF 22 value refer to 5 49Operation State Monitor on page 302 0h039D Monitor Line 3 Set the CNF 23 value refer to 5 49Operation State Monitor on page 302 0h039E 0h039F Reserved Reserved 0h03A0 P...

Page 387: ...efore turning off the power is displayed 0h03A5 Proc PID Fdb Aux Unit Scale Proc Unit Proc Unit Unit Scale PID Aux feedback 0h03A6 0h03AF Reserved Reserved 0h03B0 E PID 1 Ref 0 1 External PID 1 reference 0h03B1 E PID 1 Fdb 0 1 External PID 1 reference 0h03B2 E PID 1 Unit Scale Ref Proc Unit Proc Unit Unit Scale External PID 1 reference 0h03B3 E PID 1 Unit Scale Fdb Proc Unit Proc Unit Unit Scale E...

Page 388: ...p Setting is prohibited during fault trip interruptions 0h03E3 Display changed O 0 No 1 Yes 0h03E4 Macro Function Setting X 0 Basic 1 Compressor 2 Supply Fan 3 Exhaust Fan 4 Cooling Tower 5 Circul Pump 6 Vacuum Pump 7 Constant Torq 0h03E5 Delete all fault history O 0 No 1 Yes 0h03E6 Delete user registrated codes O 0 No 1 Yes 0h03E7 Hide parameter mode 0 Hex O Write 0 9999 Read 0 Unlock 1 Lock 0h03...

Page 389: ...it in the following order 244 0 244 If the communication parameter settings are initialized by setting the address 0h03E2 to 1 All Grp or 8 COM Grp or if any Macro function item is modified by setting the address 0h03E4 all the communication parameter settings are reverted to the factory default If this happens the inverter may not be able to properly receive responses from the upper level devices...

Page 390: ...x Cable Twisted pair 1 pair and shield Communication BACnet MS TP Stated in ANSI ASHRAE Standards 135 2004 Baud Rate Supports 9600 19200 38400 76800 bps MAC Address 1 127 Start Stop bit Start 1 bit Stop bit Parity check None Even Odd 7 4 3 BACnet Quick Communication Start Follow the instructions below to configure the BACnet network for a quick start 1 Set five multi function input terminals IN 65...

Page 391: ...rty of different Master for MS TP token passing 4 Test the network and make sure the BACnet communication is working properly Group Code Name LCD display Parameter Setting Setting Range Unit COM 03 Communication Speed Baudrate 9600 bps 0 12001 1 24001 2 48001 3 9600 4 19200 5 38400 6 56Kbps1 7 76 8Kbps 8 115 2Kbps1 04 Communication Mode Int485 Mode D8 PN S1 0 D8 PN S1 1 D8 PN S2 2 D8 PE S1 3 D8 PO...

Page 392: ...ce Instance value COM 21 takes the thousands and higher places fourth digit and over and COM 22 takes the hundreds and lower places third digit and below COM 21 and COM 22 have the ranges of 0 4194 and 0 999 respectively because Device Instance can have the value within 0 4 194 302 COM 23 BAC Password Refers to the password used for Warm Cold Start COM 23 Password parameter can be set within 0 327...

Page 393: ...tore services are NOT available Data Link Layer BACnet communication card supports an MS TP Master Data Link Layer Supported Standards MS TP Available speed 9600 19200 38400 and 76800 bps MAC ID Device Object Instance configuration Set at COM 01 Int485 ST ID MAC ID The Device Object Instances are set at COM 21 and COM 22 MAX Master Property Set at COM 20 MAX Master Value 7 4 5 Object Map Property ...

Page 394: ...PDU Timeout O NumberAPDU Retries O Max Master O Max Info Frames O Device Address Binding O Database Revision O Preset Value O O O O O O Description O O O O O O O Status Flags O O O O O O Event State O O O O O O Reliability O O O O O O Out of Service O O O O O O Number of states O O State text O O Units O O Polarity O Active Text O O Inactive Text O O BI Binary Input BV Binary Value AI Analog Input...

Page 395: ...D feedback setting 0 100 0 R W 7 4 5 2 Multi state Value Object Instance Instance ID Object Name Description Setting Range Units R W MSV1 LostCommand Command lost operation setting 0 None 1 FreeRun 2 Dec 3 HoldInput 4 HoldOutput MSG R W When PowerOn Resume COM 96 is set to yes value is saved even if the power of the inverter is disconnected When PowerOn Resume COM 96 is set to no value is not save...

Page 396: ...and False True R W BV5 FreeRunStopCmd Free run stop command False True R W BV6 Relay1Cmd Relay 1 On Off command False True R W BV7 Relay2Cmd Relay 2 On Off command False True R W BV8 Relay3Cmd Relay 3 On Off command False True R W BV9 Relay4Cmd Relay 4 On Off command False True R W BV10 Relay5Cmd Relay 5 On Off command False True R W BV11 Q1Cmd Q 1 On Off command False True R W 7 4 5 4 Analog Inpu...

Page 397: ... common area Note1 R AI14 LatchTripInfo1 Latch type trip information1 Refer to address 0h0330 in the common area Note1 R AI15 LatchTripInfo2 Latch type trip information2 Refer to address 0h0331 in the common area Note1 R AI16 LatchTripInfo3 Latch type trip information3 Refer to address 0h0335 in the common area Note1 R AI17 LevelTripInfo Level type trip information Refer to address 0h0332 in the c...

Page 398: ...3 8 communication compatible common area parameters Instance ID Object Name Description R W BI1 Stopped Stop state R BI2 RunningForward Running forward R BI3 RunningReverse Running reverse R BI4 Tripped Trip occurred R BI5 Accelerating Accelerating R BI6 Decelerating Decelerating R BI7 SteadySpeed Operating at steady speed R BI8 RunningDC Operating at a 0 step speed R BI9 Stopping Stopping R BI10 ...

Page 399: ...ing 1 Hz 2 RPM R 7 4 5 7 Error Message BI15 P4 P4 state R BI16 P5 P5 state R BI17 P6 P6 state R BI18 P7 P7 state R BI19 Relay1 Relay1 state R BI20 Relay2 Relay2 state R BI21 Relay3 Relay3 state R BI22 Relay4 Relay4 state R BI23 Relay5 Relay5 state R BI24 Q1 Q1 state R BI25 SpeedSearch Speed search operating R BI26 HWOCS H W OCS occurred R BI27 SWOCS S W OCS occurred R BI28 RunningDwell Dwell opera...

Page 400: ...rror 31 Unknown object propertyerror 0 Property other propertyerror 27 Read access denied propertyerror 32 Unknown property propertyerror 37 Value out of range propertyerror 40 Write access denied propertyerror 42 Invalid array index clienterror 31 Unknown device resourceserror 0 Resources other clienterror 30 Time out abortreason 4 Segmentation not supported rejectreason 4 Invalid tag clienterror...

Page 401: ... Data Bit 8 No Parity Bit Start Bit 1 Stop Bit 1 4 Test the network and make sure Metasys N2 communication is working properly 7 5 2 Metasys N2 Communication Standard Item Standards Communication speed 9600 bps Control procedure Asynchronous communications system Communication system Half duplex system Cable Twisted pair 1 pair and shield Character system LS485 ASCII 8bit Modbus RTU Binary 7 8 bit...

Page 402: ... Description AO1 Command Frequency 0 0 Max Freq Hz Command frequency setting AO2 Accel Time 0 0 600 0 Sec ACC time setting AO3 Decel Time 0 0 600 0 Sec DEC time setting AO4 Drive mode 0 KeyPad Drive mode setting 1 Fx Rx 1 2 Fx Rx 2 3 Int 485 4 FieldBus 5 Time Event AO5 Freq mode 0 KeyPad 1 Frequency mode setting 1 KeyPad 2 2 V1 3 Reversed 4 V2 5 I2 6 Int485 7 FieldBus 8 Reversed 9 Pulse ...

Page 403: ...aster No Name Range Description BO1 Stop Command 1 Stop Stop command BO2 Run Forward Command 1 Forward Run Forward run command BO3 Run Reverse Command 1 Reverse Run Reverse run command BO4 Reset Fault 1 Reset Fault reset command BO5 Free Run Stop 1 Bx Free run stop command 7 5 3 3 Analog Input Metasys N2 master monitors inverter state No Name Unit Description AI1 Output Current Amps Output current...

Page 404: ...s 0h0334 1 Refer to 7 3 8Compatible Common Area Parameteron page 358 7 5 3 4 Binary Input Metasys N2 master unit monitors the inverter input and output status in binary codes The following table lists the binary codes used and their meanings No Name Description BI1 Stopped 1 Stopped BI2 Running Forward 1 Forward operation is running BI3 Running Reverse 1 Reverse operation is running BI4 Tripped 1 ...

Page 405: ...ty Yourself command 01 Undefined command 02 Checksum error has occurred 03 Data size exceeded the input buffer message is bigger than the device buffer size 05 Data field error input message size does not fit the command type 10 Invalid data message value is out of the range 11 Invalid command for data type command does not fit the message frame 12 Command is not accepted device has ignored a comm...

Page 406: ...ting Range Initial value Prope rty Ref 00 Jump Code Jump Code 1 99 9 O p 68 01 0h1101 Target frequency Cmd Frequency 0 00 Low Freq High Freq 0 00 O p 86 02 0h1102 Keypad run direction Keypad Run Dir 0 Reverse 1 O p 84 1 Forward 03 0h1103 Accelerati on time Acc Time 0 0 600 0 sec 20 0 0 75 90kW O p 111 60 0 110 250kW 100 0 315 500kW 04 0h1104 Decelerat ion time Dec Time 0 0 600 0 sec 30 0 0 75 90kW...

Page 407: ... 0h1109 Control mode Control Mode 0 V F 0 V F Δ p 121 p 157 1 Slip Compen 11 0h110B Jog frequency Jog Frequency 0 00 Low Freq High Freq 10 00 O p 148 12 0h110C Jog run accelerati on time Jog Acc Time 0 0 600 0 sec 20 0 O p 148 13 0h110D Jog run decelerati on time Jog Dec Time 0 0 600 0 sec 30 0 O p 148 14 0h110E Motor Motor 0 0 2 Kw Dependent on Δ p 210 8 10 V3 11 I3 of DRV 07 are available when E...

Page 408: ...pe rty Ref capacity Capacity 0 3HP motor setting 1 0 4 kW 0 5HP 2 0 75 kW 1 0HP 3 1 1 kW 1 5HP 4 1 5 kW 2 0HP 5 2 2 kW 3 0HP 6 3 0 kW 4 0HP 7 3 7 kW 5 0HP 8 4 0 kW 5 5HP 9 5 5 kW 7 5HP 10 7 5 kW 10 0HP 11 11 0 kW 15 0HP 12 15 0 kW 20 0HP 13 18 5 kW 25 0HP 14 22 0 kW 30 0HP 15 30 0 kW 40 0HP ...

Page 409: ...0HP 17 45 0 kW 60 0HP 18 55 0 kW 75 0HP 19 75 0kW 100 0HP 20 90 0kW 125 0HP 21 110 0kW 150 0HP 22 132 0kW 220 0HP 23 160 0kW 250 0HP 24 185 0kW 300 0HP 25 220 0kW 350 0HP 26 250 0kW 400 0HP 27 315 0kW 500 0HP 28 355 0kW 550 0HP 29 400 0kW 650 0HP 30 500 0kW 800 0HP 15 0h110F Torque Torque 0 Manual 0 Manual Δ p 125 ...

Page 410: ... 00 Δ p 121 19 0h1113 Start frequency Start Freq 0 01 10 00 Hz 0 50 Δ p 121 20 0h1114 Maximum frequency Max Freq 40 00 400 00 Hz 60 00 Δ p 133 21 0h1115 Select speed unit Hz Rpm Sel 0 Hz Display 0 Hz Display O p 101 1 RPM Display 25 0h1119 Hand mode operation frequency HAND Cmd Freq 0 00 Low Freq High Freq 0 00 O p 81 26 0h111A Hand mode operation Frequenc y reference source HAND Ref Mode 0 HAND P...

Page 411: ...roup BAS Data in the following table will be displayed only when the related code has been selected O Write enabled during operation Δ Write enabled when operation stops X Write disabled Code Comm Address Name LCD Display Setting Range Initial value Prope rty Ref 00 Jump Code Jump Code 1 99 20 O p 68 01 0h1201 Auxiliary reference source Aux Ref Src 0 None 0 None Δ p 143 1 V1 3 V2 4 I2 6 Pulse 7 In...

Page 412: ... 0h1203 Auxiliary command gain Aux Ref Gain 200 0 200 0 100 0 O p 143 04 0h1204 Second command source Cmd 2nd Src 0 Keypad 1 Fx Rx 1 Δ p 137 1 Fx Rx 1 2 Fx Rx 2 3 Int 485 4 FieldBus 5 Time Event 05 0h1205 Second frequency source Freq 2nd Src 0 Keypad 1 0 Keypad 1 O p 137 1 Keypad 2 2 V1 10 12 V3 13 I3 of BAS 01 are available when Extension IO option is equipped Refer to Extension IO option manual ...

Page 413: ... 111 1 Delta Freq 09 0h1209 Time scale settings Time Scale 0 0 01 sec 1 0 1 sec Δ p 111 1 0 1 sec 2 1 sec 10 0h120A Input power frequency 60 50 Hz Sel 0 60 Hz 0 60 Hz Δ p 245 1 50 Hz 11 0h120B Number of motor poles Pole Number 2 48 Dependen t on motor setting Δ p 157 12 0h120C Rated slip speed Rated Slip 0 3000 RPM Δ p 157 13 0h120D Motor rated current Rated Curr 0 0 1000 0 A Δ p 157 12 10 V3 11 I...

Page 414: ...100 O 19 0h1213 Input power voltage AC Input Volt 170 264V 0 75 18 5kW 220 V O p 245 320 528V 0 75 90kW 380 V 320 550V 110 500kW 20 Auto Tuning Auto Tuning 0 None 0 None Δ p 210 1 All Rotation type 2 All Static type 3 Rs Lsigma Rotation type 21 Stator resistor Rs 0 000 9 999 Ω Dependen t on motor setting Δ p 210 22 Leakage inductanc e Lsigma 0 00 99 99 mH Δ p 210 4113 0h1229 User frequency 1 User ...

Page 415: ... frequency 4 User Freq 4 0 00 Maximum frequency Hz 60 00 Δ p 123 48 0h1230 User voltage4 User Volt 4 0 100 100 Δ p 123 5014 0h1232 Multi step speed frequency 1 Step Freq 1 Low Freq High Freq 10 00 O p 101 51 0h1233 Multi step speed frequency 2 Step Freq 2 Low Freq High Freq 20 00 O p 101 52 0h1234 Multi step speed frequency 3 Step Freq 3 Low Freq High Freq 30 00 O p 101 53 0h1235 Multi step speed ...

Page 416: ...ec 20 0 O p 113 7215 0h1248 Multi step acceleratio n time2 Acc Time 2 0 0 600 0 sec 30 0 O p 113 73 0h1249 Multi step decelerati on time2 Dec Time 2 0 0 600 0 sec 30 0 O p 113 74 0h124A Multi step acceleratio n time3 Acc Time 3 0 0 600 0 sec 40 0 O p 113 75 0h124B Multi step decelerati on time3 Dec Time 3 0 0 600 0 sec 40 0 O p 113 76 0h124C Multi step acceleratio n time4 Acc Time 4 0 0 600 0 sec ...

Page 417: ...p decelerati on time7 Dec Time 7 0 0 600 0 sec 20 0 O p 113 8 3 Expanded Function Group ADV Data in the following table will be displayed only when the related code has been selected O Write enabled during operation Δ Write enabled when operation stops X Write disabled Code Comm Address Name LCD Display Setting Range Initial Value Prope rty Ref 00 Jump Code Jump Code 1 99 24 O p 68 01 0h1301 Accel...

Page 418: ...Dec S End 1 100 40 Δ p 117 07 0h1307 Start Mode Start Mode 0 Acc 0 Acc Δ p 128 1 DC Start 08 0h1308 Stop Mode Stop Mode 0 Dec 0 Dec Δ p 129 1 DC Brake 2 Free Run 4 Power Braking 09 0h1309 Selection of prohibited rotation direction Run Prevent 0 None 0 None Δ p 107 1 Forward Prev 2 Reverse Prev 10 0h130A Starting with power on Power on Run 0 No 0 No O p 108 1 Yes 1118 0h130B Power on run delay time...

Page 419: ...0h1310 DC braking rate DC Brake Level 0 200 50 Δ p 129 17 0h1311 DC braking frequency DC Brake Freq Startfrequency 60 Hz 5 00 Δ p 129 20 0h1314 Dwell frequency on acceleration Acc Dwell Freq Start frequency Maximum frequency Hz 5 00 Δ p 155 21 0h1315 Dwell operation time on acceleration Acc Dwell Time 0 0 60 0 sec 0 0 Δ p 155 22 0h1316 Dwell frequency on deceleration Dec Dwell Freq Start frequency...

Page 420: ...requency upper limit1 Hz 10 00 O p 136 29 0h131D Jump frequency upper limit1 Jump Hi 1 Jump frequency lower limit1 Maximum frequency Hz 15 00 O p 136 30 0h131E Jump frequency lower limit2 Jump Lo 2 0 00 Jump frequency upper limit2 Hz 20 00 O p 136 31 0h131F Jump frequency upper limit2 Jump Hi 2 Jump frequency lower limit2 Maximum frequency Hz 25 00 O p 136 32 0h1320 Jump frequency lower limit3 Jum...

Page 421: ...ontrol Fan Control 0 During Run 0 During Run O p 244 1 Always ON 2 Temp Control 65 0h1341 Up Down operation frequency save U D Save Mode 0 No 0 No O p 150 1 Yes 66 0h1342 Output contact On Off control options On Off Ctrl Src 0 None 0 None O p 282 1 V1 3 V2 4 I2 6 Pulse 7 23 V3 8 I3 67 0h1343 Output On Ctrl Output contact 90 00 Δ p 282 22 ADV 51 is displayed when ADV 50 is set to 1 Manual ADV 52 is...

Page 422: ...Run 0 Free Run Δ p 153 1 Q Stop 2 Q Stop Resume 72 0h1348 Safe operation deceleration time Q Stop Time 0 0 600 0 sec 5 0 O p 153 74 0h134A Selection of regeneratio n evasion function for press RegenA vdSel 0 No 0 No Δ p 289 1 Yes 75 0h134B Voltage level of regeneratio n evasion motion for press RegenA vd Level 200 V 300 400 V 350 Δ p 289 400 V 600 800 V 700 7625 0h134C Compensati on frequency limi...

Page 423: ...ess Name LCD Display Setting Range Initial Value Prope rty Ref 77 0h134D Regeneratio n evasion for press P Gain RegenA vdPgain 0 0 100 0 50 0 O p 289 78 0h134E Regeneratio n evasion for press I gain RegenA vdIgain 20 30000 msec 500 O p 289 ...

Page 424: ...5 0 kHz 0 75 90 kW 3 0 O p 240 1 0 5 0 kHz 110 355 kW 2 0 1 0 4 0 kHz 400 500 kW 1 5 05 0h1405 Switching mode PWM Mode 0 Normal PWM 0 Normal PWM Δ p 240 1 Low leakage PWM 13 0h140D Anti hunting regulator mode AHR Sel 0 No 1 Yes Δ p 229 1 Yes 14 0h140E Anti hunting regulator P Gain AHR P Gain 0 32767 1000 O p 229 15 0h140F Anti hunting regulator start frequency AHR Low Freq 0 00 AHR High Freq 0 50 ...

Page 425: ...de 0 Flying Start 1 0 Flying Start 1 Δ p 234 1 Flying Start 2 71 0h1447 Speed search operation selection Speed Search Bit 0000 1111 0000 Δ p 234 Bit 0 Speed search on accelerat ion Bit 1 Restart after trips other than LV trip Bit 2 Restart after instantan eous interrupti on Bit 3 Power on run 7227 0h1448 Speed search SS Sup Current 50 120 90 0 75 250kW O p 234 26 CON 21 22 are displayed when DRV 1...

Page 426: ...ore speed search SS Block Time 0 0 60 0 sec 1 0 Δ p 234 77 0h144D Energy buffering selection KEB Select 0 No 0 No Δ p 190 1 Yes 7829 0h144E Energy buffering start level KEB Start Lev 110 0 140 0 125 0 0 75 90kW Δ p 190 115 0 110 500kW 79 0h144F Energy buffering stop level KEB Stop Lev KEB Start Lev 125 0 145 0 130 0 0 75 90kW Δ p 190 125 0 110 500kW 80 0h1450 Energy buffering slip gain KEB Slip Ga...

Page 427: ...n operation stops X Write disabled Code Comm Address Name LCD Display Setting Range Initial Value Prope rty Ref 00 Jump Code Jump Code 1 99 65 O p 68 01 0h1501 Frequency at maximum analog input Freq at 100 Start frequency Maximum frequency Hz Maximu m frequenc y O p 88 0530 0h1505 V1 input voltage display V1 Monitor V 0 12 00 V or 12 00 12 00 V 0 00 X p 88 06 0h1506 V1 input polarity selection V1 ...

Page 428: ...olt x2 0 00 12 00 V 10 00 O p 88 11 0h150B Output at V1 maximum voltage V1 Perc y2 0 00 100 00 100 00 O p 88 1231 0h150C V1 input at minimum voltage V1 Volt x1 10 00 0 00 V 0 00 O p 오류 책갈피 가 정의되 어 있지 않습니 다 13 0h150D Output at V1 minimum voltage V1 Perc y1 100 00 0 00 0 00 O p 오류 책갈피 가 정의되 어 있지 않습니 다 14 0h150E V1 maximum input voltage V1 Volt x2 12 00 0 00 V 10 00 O p 오류 31 IN 12 17 are displayed w...

Page 429: ...p 88 1 Yes 17 0h1511 V1quantizatio n change V1 Quantizing 0 0032 0 04 10 00 0 04 O p 88 2033 0h1514 Temperature monitor T1 Monitor 0 00 100 00 X p 309 3534 0h1523 V2 input rate monitor V2 Monitor V 0 00 12 00 V 0 00 O p 96 32 Quantizing is disabled if 0 is selected 33 IN 20 is displayed when the analog current voltage input circuit selection switch SW3 is selected on T1 34 IN 35 47 are displayed w...

Page 430: ...ns V2 Inverting 0 No 0 No O p 96 1 Yes 47 0h152F V2 Quantizing level V2 Quantizing 0 0035 0 04 10 00 0 04 O p 96 5036 0h1532 I2 input monitor I2 Monitor mA 0 24 mA 0 O p 93 52 0h1534 I2 input filter time I2 Filter 0 10000 msec 10 O p 93 53 0h1535 I2 minimum input power supply I2 Curr x1 0 00 20 00 mA 4 00 O p 93 54 0h1536 Output at I2 maximum current I2 Perc y1 0 00 100 00 0 00 O p 93 55 0h1537 I2...

Page 431: ...nal configuration P2 Define 2 Rx 2 Rx Δ p 103 67 0h1543 P3 Px terminal configuration P3 Define 3 RST 5 BX Δ p 329 68 0h1544 P4 Px terminal configuration P4 Define 4 External Trip 3 RST Δ p 328 69 0h1545 P5 Px terminal configuration P5 Define 5 BX 7 Sp L Δ p 328 70 0h1546 P6 Px terminal configuration P6 Define 6 JOG 8 Sp M Δ p 148 71 0h1547 P7 Px terminal configuration P7 Define 7 Speed L 9 Sp H Δ ...

Page 432: ...e p 152 17 2nd Source p 137 18 Exchang e p 243 19 Up p 150 20 Down p 150 22 U D Clear p 150 23 Analog Hold p 99 24 I Term Clear p 159 25 PID Openloo p p 159 26 PID Gain2 p 159 27 PID Ref Change p 119 28 2nd Motor p 241 29 Interlock 1 p 275 30 Interlock 2 p 275 31 Interlock 3 p 275 32 Interlock 4 p 275 33 Interlock 5 p 275 34 Pre ...

Page 433: ...sAux Ref p 143 38 FWD JOG p 149 39 REV JOG p 149 40 Fire Mode p 230 41 EPID1 Run p 178 42 EPID1 ItermClr p 178 43 Time Event En p 213 44 Pre Heat p 208 45 Damper Open p 187 46 PumpCl ean p 192 47 EPID2 Run p 178 48 EPID2 ItermClr p 178 49 Sleep Wake Chg p 178 50 PID Step Ref L p 159 51 PID Step Ref M p 159 52 PID Step Ref H p 159 ...

Page 434: ...0 O p 138 86 0h1556 Multi function input terminal Off filter DI Off Delay 0 10000 msec 3 O p 138 87 0h1557 Multi function input terminal selection DI NC NO Sel 000 0000 111 1111 000 0000 Δ p 138 0 ATerminal NO 1 B Terminal NC 89 0h1559 Multi step command delay time InCheck Time 1 5000 msec 1 Δ p 101 90 0h155A Multi function input terminal status DI Status 000 0000 111 1111 000 0000 O p 138 0 Conta...

Page 435: ...mum input pulse TI Pls x1 0 TI Pls x2 0 00 O p 97 94 0h153E Output at TI minimum pulse TI Perc y1 0 00 100 00 0 00 O p 97 95 0h155F TI maximum input pulse TI Pls x2 TI Pls x1 32 00 32 00 O p 97 96 0h1560 Output at TI maximum pulse TI Perc y2 0 00 100 00 100 00 O p 97 97 0h1561 TI rotation direction change TI Inverting 0 No 0 No O p 97 1 Yes 98 0h1562 TI quantization level TI Quantizing 0 0039 0 04...

Page 436: ...D Display Parameter Setting Initial Value Prope rty Ref 00 Jump Code Jump Code 1 99 30 O p 68 01 0h1601 Analog output1 AO1 Mode 0 Frequency 0 Frequency O p 291 1 Output Current 2 Output Voltage 3 DCLink Voltage 4 Output Power 7 Target Freq 8 Ramp Freq 9 PID Ref Value 10 PID Fdb Value 11 PID Output 12 Constant 13 EPID1 Output 14 EPID1 RefVal 15 EPID1 FdbVal 16 EPID2 Output 17 EPID2 RefVal 18 EPID2 ...

Page 437: ...07 0h1607 Analog output2 AO2 Mode Identical to the OUT 02 AO1 Mode selected range 0 Frequency O p 291 08 0h1608 Analog output2 gain AO2 Gain 1000 0 1000 0 100 0 O p 291 09 0h1609 Analog output2 bias AO2 Bias 100 0 100 0 0 0 O p 291 10 0h160A Analog output2 filter AO2 Filter 0 10000 msec 5 O p 291 11 0h160B Analog constant output2 AO2 Const 0 0 100 0 0 0 O p 291 12 0h160C Analog output2 monitor AO2...

Page 438: ...1F Multi function relay1 Relay 1 0 None 23 Trip O p 295 1 FDT 1 2 FDT 2 3 FDT 3 4 FDT 4 5 Over Load 6 IOL 7 Under Load 8 Fan Warning 9 Stall 10 Over Voltage 11 Low Voltage 12 Over Heat 13 Lost Command 14 Run 15 Stop 16 Steady 17 Inverter Line 18 Comm Line 19 Speed Search 20 Ready 21 MMC 22 Timer Out 23 Trip 24 Lost Keypad 25 DB Warn ED ...

Page 439: ...lay2 Relay 2 36 AUTO State 14 RUN O p 295 33 0h1621 Multi function relay3 Relay 3 37 Hand State 0 None O p 295 34 0h1622 Multi function relay4 Relay 4 38 TO 0 None O p 295 35 0h1623 Multi function relay5 Relay 5 39 Except Date 0 None O p 295 36 0h1624 Multi function 1 item Q1 Define 40 KEB Operating 0 None O p 295 41 BrokenBelt 41 0h1629 Multi function output monitor DO Status DO Status 00 0000 11...

Page 440: ...On delay TripOut OnDly 0 00 100 00 sec 0 00 O p 300 54 0h1636 Fault output Off delay TripOut OffDly 0 00 100 00 sec 0 00 O p 300 55 0h1637 Timer On delay TimerO n Delay 0 00 100 00 sec 0 00 O p 254 56 0h1638 Timer Off delay TimerOf f Delay 0 00 100 00 sec 0 00 O p 254 57 0h1639 Detected frequenc y FDT Freque ncy 0 00 Maximum frequency Hz 30 00 O p 295 58 0h163A Detected frequenc y band FDT Band 0 ...

Page 441: ...t 14 EPID1 RefVal 15 EPID1 FdbVal 16 EPID2 Output 17 EPID2 RefVal 18 EPID2 FdbVal 62 0h163E Pulse output gain TO Gain 1000 0 1000 0 100 0 O p 293 63 0h163F Pulse output bias TO Bias 100 0 100 0 0 0 O p 293 64 0h1640 Pulse output filter TO Filter 0 10000 msec 5 O p 293 65 0h1641 Pulse output constant output 2 TO Const 0 0 100 0 0 0 O p 293 66 0h1642 Pulse output monitor TO Monitor 0 0 1000 0 0 0 X ...

Page 442: ...Int485 St ID 1 MaxComID40 1 O p 341 02 0h1702 Built in communic ation protocol Int485 Proto 0 ModBus RTU 0 ModBusR TU O p 341 2 LS Inv 485 4 BACnet 5 Metasys N2 641 ModBus Master 03 0h1703 Built in communic ation speed Int485 BaudR 0 1200 bps 3 9600 bps O p 341 1 2400 bps 2 4800 bps 3 9600 bps 4 19200 bps 5 38400 bps 6 56 Kbps 7 76 8 kbps 40 If AP1 40 is set to 4 Serve Drv MaxComID is 8 and if COM...

Page 443: ...p 341 0643 0h1706 Communic ation option S W version FBus S W Ver O 07 0h1707 Communi cation option inverter ID FBus ID 0 255 1 O 08 0h1708 FIELD BUS communic ation speed FBUS BaudRat e 12 Mbps O 09 0h1709 Communi cation option LED status FieldBus LED O 20 0h1714 BACnet maximum master number BAC Max Master 1 127 127 O p 377 21 0h1715 BACnet BAC 0 4194 237 O p 377 42 115 200 bps 43 COM 06 09 are dis...

Page 444: ...raStat usNum 0 8 3 O p 348 31 0h171F Output Communi cation address1 Para Status 1 0000 FFFF Hex 000A O p 348 32 0h1720 Output Communi cation address2 Para Status 2 0000 FFFF Hex 000E O p 348 33 0h1721 Output Communi cation address3 Para Statuss 3 0000 FFFF Hex 000F O p 348 34 0h1722 Output Communi cation address4 Para Status 4 0000 FFFF Hex 0000 O p 348 35 0h1723 Output Communi cation address5 Par...

Page 445: ...005 O p 348 52 0h1734 Input Communi cation address2 Para Control 2 0000 FFFF Hex 0006 O p 348 53 0h1735 Input Communi cation address3 Para Control 3 0000 FFFF Hex 0000 O p 348 54 0h1736 Input Communi cation address 4 Para Control 4 0000 FFFF Hex 0000 O p 348 55 0h1737 Input Communi cation address 5 Para Control 5 0000 FFFF Hex 0000 O p 348 56 0h1738 Input Communi cation address 6 Para Control 6 00...

Page 446: ...x 0 None O p 372 72 0h1748 Communi cation multi function input 3 Virtual DI 3 2 Rx 0 None O p 372 73 0h1749 Communi cation multi function input 4 Virtual DI 4 3 RST 0 None O p 372 74 0h174A Communi cation multi function input 5 Virtual DI 5 4 External Trip 0 None O p 372 75 0h174B Communi cation multi function input 6 Virtual DI 6 5 BX 0 None O p 372 76 0h174C Communi cation multi function input 7...

Page 447: ... 8 8 8 Speed M 9 Speed H 11 XCEL L 12 XCEL M 13 XCEL H 14 XCEL Stop 15 Run Enable 16 3 wire 17 2nd source 18 Exchange 19 Up 20 Down 22 U D Clear 23 Analog Hold 24 I Term Clear 25 PID Openloop 26 PID Gain 2 27 PID Ref Change 28 2nd Motor 29 Interlock1 30 Interlock2 31 Interlock3 32 Interlock4 33 Interlock5 34 Pre Excite 35 Timer In ...

Page 448: ...46 Pump Clean 47 EPID2 Run 48 EPID2 ItermClr 49 Sleep Wake Chg 50 PID Step Ref L 51 PID Step Ref M 52 PID Step Ref H 53 44 Interlock6 54 Interlock7 55 Interlock8 86 0h1756 Communi cation multi function input monitoring Virt DI Status 0000 0000 1111 1111 0000 0000 Δ p 345 44 53 Interlock6 55 Interlock8 of ADV 66 are available when Extension IO option is equipped Refer to Extension IO option manual ...

Page 449: ...ID Unit 0 PID 67 PID Unit 100 Unit Default PID Unit 100 PID Unit 0 2 Unit Band Unit 100 Unit 0 O X Write enabled during operation Δ Writing available when operation stops Code Comm Address Name LCD Display Parameter Setting Initial Value Prope rty Ref 00 Jump Code Jump Code 1 99 50 O p 68 01 0h1801 PID mode selection PID Sel 0 No 0 No Δ p 159 1 Yes 02 0h1802 E PID selection E PID Sel 0 No 0 No O p...

Page 450: ...I2 5 Int485 6 Fieldbus 8 Pulse 9 EPID1 Output 10 45 V3 11 I3 11 0h180B PID reference 1 keypad value PID Ref 1 Set Unit Min Unit Max Unit Default O p 159 12 0h180C PID reference 1 auxiliary source selection PIDRef1A uxSrc 0 None 0 None Δ p 159 1 V1 3 V2 4 I2 6 Pulse 7 Int 485 8 FieldBus 10 EPID1 Output 11 E PID Fdb 45 10 V3 11 I3 of PID 10 are available when Extension IO option is equipped Refer to...

Page 451: ...2 M G A 3 M M G A 4 M G 2 A 50 5 M G 2 A 50 6 M G 2 A 50 7 M M G 2 A 50 8 M A 2 9 M 2 A 2 10 MAX M A 11 MIN M A 12 M A 2 13 Root M A 14 0h180E PID reference auxiliary gain PID Ref1 Aux G 200 0 200 0 0 0 O p 159 15 0h180F PID reference 2 PID Ref 2 Src 0 Keypad 0 KeyPad Δ p 159 1 V1 46 12 V3 13 I3 of PID 12 are available when Extension IO option is equipped Refer to Extension IO option manual for mo...

Page 452: ... 2 Set Unit Min Unit Max Unit Default O p 159 17 0h1811 PID reference 2 auxiliary source selection PID Ref2AuxS rc 0 None 0 None Δ p 159 1 V1 3 V2 4 I2 6 Pulse 7 Int 485 8 FieldBus 10 EPID1 Output 11 EPID1 Fdb Val 12 48 V3 47 10 V3 11 I3 of PID 15 are available when Extension IO option is equipped Refer to Extension IO option manual for more detailed information 48 12 V3 13 I3 of PID 17 are availa...

Page 453: ... p 159 1 M G A 2 M G A 3 M M G A 4 M G 2 A 50 5 M G 2 A 50 6 M G 2 A 50 7 M M G 2 A 50 8 M A 2 9 M 2 A 2 10 MAX M A 11 MIN M A 12 M A 2 13 Root M A 19 0h1813 PID reference 2 auxiliary gain PID Ref2 Aux G 200 0 200 0 0 0 O p 159 20 0h1814 PID feedback selection PIDFdb Source 0 V1 0 V1 Δ p 159 2 V2 3 I2 4 Int 485 5 FieldBus 7 Pulse 8 EPID1 Extension IO option manual for more detailed information ...

Page 454: ...8 FieldBus 10 EPID1 Output 11 EPID1 Fdb Val 12 50 V3 13 I3 22 0h1816 PID feedback auxiliary mode selection PID FdbAuxM od 0 M G A 0 M G A O p 159 1 M G A 2 M G A 3 M M G A 4 M G 2 A 49 10 V3 11 I3 of PID 20 are available when Extension IO option is equipped Refer to Extension IO option manual for more detailed information 50 12 V3 13 I3 of PID 21 are available when Extension IO option is equipped ...

Page 455: ...0 O p 159 24 0h1818 PID feed back band PID Fdb Band 0 00 Unit Band 0 00 O p 159 25 0h1819 PID controller proportiona l gain 1 PID P Gain 1 0 00 300 00 50 00 O p 159 26 0h181A PID contro ller integral time 1 PID I Time 1 0 0 200 0 sec 10 0 O p 159 27 0h181B PID controller differential time 1 PID D Time 1 0 00 1 00 sec 0 00 O p 159 28 0h181C PID controller feed forward gain PID FF Gain 0 0 1000 0 0 ...

Page 456: ...0 0 O p 159 34 0h1822 PID controller differential time 2 PID D Time 2 0 00 1 00 sec 0 00 O p 159 35 0h1823 PID output mode PID Out Mode 0 PID Output 4 PID or Main O p 159 1 PID Main Freq 2 PID EPID1 Out 3 PID EPID1 Main 4 PID or Main 36 0h1824 PID output inverse PID Out Inv 0 No 0 No Δ p 159 1 Yes 37 0h1825 PID output scale PID Out Scale 0 1 1000 0 100 0 Δ p 159 40 0h1828 PID multi step reference ...

Page 457: ...h182C PID multi step reference setting 5 PID Step Ref 5 Unit Min Unit Max Unit Default O p 159 45 0h182D PID multi step reference setting 6 PID Step Ref 6 Unit Min Unit Max Unit Default O p 159 46 0h182E PID multi step reference setting 7 PID Step Ref 7 Unit Min Unit Max Unit Default O p 159 50 0h1832 PID controller unit selection PID Unit Sel Refer to the Unit List 1 O p 159 0 CUST 1 2 PSI 3 F 4 ...

Page 458: ...itial Value Prope rty Ref 13 V 14 A 15 kW 16 HP 17 mpm 18 ft 19 m s 20 m3 s 21 m3 m 22 m 3 h 23 l s 24 l m 25 l h 26 kg s 27 kg m 28 kg h 29 gl s 30 gl m 31 gl h 32 ft s 33 f3 s 34 f3 m 35 f3 h 36 lb s 37 lb m 38 lb h 39 ppm 40 pps 51 0h1833 PID unit PID Unit 0 x100 2 x 1 O p 159 ...

Page 459: ... figure PID Unit 0 X100 30000 Unit Max Range varies depending on PID 50 setting O p 159 X10 3000 0 Unit Max X1 300 00 Unit Max X0 1 30 000 Unit Max X0 01 3 0000 Unit Max 53 0h1835 PID control 100 setting figure PID Unit 100 X100 Unit Min 30000 Range differs depending on PID 50 setting O p 159 X10 Unit Min 3000 0 X1 Unit Min 300 00 X0 1 Unit Min 30 000 X0 01 Unit Min 3 0000 ...

Page 460: ...al Value Prope rty Ref 00 Jump Code Jump Code 1 99 1 O p 68 01 0h1901 EPID 1 Mode Selection EPID1 Mode 0 None 0 None O p 178 1 Always ON 2 During Run 3 DI dependent 0252 0h1902 EPID1out put monitor value EPID1 Output 100 00 100 00 0 00 X p 178 03 0h1903 EPID1 standard monitor value EPID1 Ref Val X p 178 04 0h1904 EPID1 feedback monitor value EPID1 Fdb Val X p 178 05 0h1905 EPID1erro r monitor valu...

Page 461: ...1 FdbSrc 0 V1 0 V1 O p 178 2 V2 3 I2 4 Int485 5 FieldBus 7 Pulse 854 V3 9 I3 09 0h1909 EPID1 proportion al gain EPID1 P Gain 0 00 300 00 50 00 O p 178 10 0h190A EPID1 integral time EPID1 I Time 0 0 200 0 sec 10 0 O p 178 53 9 V3 10 I3 of EPID 06 are available when Extension IO option is equipped Refer to Extension IO option manual for more detailed information 54 8 V3 9 I3 of EPID 08 are available...

Page 462: ...imit EPID1 Limit Hi EPID1 Limit Lo 100 00 100 00 O p 178 15 0h190F EPID1 lower limit EPID1 Limit Lo 100 00 EPID1 Limit Hi 0 00 O p 178 16 0h1910 EPID1 output inverse EPID1 Out Inv 0 No 0 No O p 178 1 Yes 17 0h1911 EPID1 unit EPID1 Unit Sel Refer to the EPID Unit details table p 178 1 O p 178 18 0h1912 EPID1 unit scale EPID1 Unit Scl 0 X100 2 X1 O p 178 1 X10 2 X1 3 X0 1 4 X0 01 19 0h1913 EPID1 uni...

Page 463: ...00 00 X 0 1 Unit Min 30 000 X 0 01 Unit Min 3 0000 31 0h191F EPID2 Mode selection EPID2 Mode 0 None 0 None O p 178 1 Always ON 2 During Run 3 DI dependent 3255 0h1920 EPID2 output monitor value EPID2 Output 100 00 100 00 0 00 X p 178 33 0h1921 EPID2 reference monitor value EPID2 Ref Val X p 178 34 0h1922 EPID2 feedback monitor value EPID2 Fdb Val X p 178 35 0h1923 EPID2 error monitor value EPID2 E...

Page 464: ...t Max Unit Min O p 178 38 0h1926 EPID2 feedback source selection EPID2 FdbSrc 0 V1 0 V1 O p 178 2 V2 3 I2 4 Int 485 5 FieldBus 7 Pulse 857 V3 9 I3 39 0h1927 EPID2 proportion al gain EPID2 P Gain 0 00 300 00 50 0 O p 178 56 9 V3 10 I3 of EPID 36 are available when Extension IO option is equipped Refer to Extension IO option manual for more detailed information 57 8 V3 9 I3 of EPID 38 are available ...

Page 465: ... 00 O p 178 44 0h192C EPID2 output upper limit EPID2 Limit Hi EPID2 Limit Lo 100 00 100 00 O p 178 45 0h192D EPID2 output lower limit EPID2 Limit Lo 100 00 EPID2 Limit Hi 0 00 O p 178 46 0h192E EPID2 output inverse EPID2 Out Inv 0 No 0 No O p 178 1 Yes 47 0h192F EPID2 unit EPID2 Unit Sel Refer to EPID Unit details table p 178 0 CUST O p 178 48 0h1930 EPID2 unit scale EPID2 Unit Scl 0 X100 2 X1 O p...

Page 466: ...e Initial Value Prope rty Ref X 0 1 30 000 Unit Max X 0 01 3 0000 Unit Max 50 0h1932 EPID2 unit 0 value EPID2 Unit100 X 100 Unit Min 30000 Values vary depending on the unit setting O p 178 X10 Unit Min 3000 0 X1 Unit Min 300 00 X 0 1 Unit Min 30 000 X 0 01 Unit Min 3 0000 ...

Page 467: ...9 20 O p 68 05 0h1A05 Sleep boost amount Sleep Bst Set 0 00 Unit Max 0 00 O p 174 06 0h1A06 Sleep boost speed Sleep BstFreq 0 00 Low Freq High Freq 60 00 O p 174 07 0h1A07 PID sleep mode 1 delay time PID Sleep 1 DT 0 0 6000 0 sec 20 0 O p 174 08 0h1A08 PID sleep mode 1 frequency PID Sleep1Fr eq 0 00 Low Freq High Freq 0 00 O p 174 09 0h1A09 PID wakeup 1 delay time PID WakeUp 1 DT 0 0 6000 0 sec 20...

Page 468: ...time Pre PID Delay 0 0 600 0 sec 60 0 O p 173 23 0h1A17 Soft Fill escape value Soft Fill Set Unit Min Unit Max 20 00 O p 173 24 0h1A18 Soft Fill reference increasing value Fill Step Set 0 00 Unit Band 2 00 O p 173 25 0h1A19 Soft Fill reference increasing cycle Fill Step Time 0 9999 sec 20 O p 173 26 0h1A1A Soft Fill changing amount Fill Fdb Diff 0 00 Unit Band 0 00 O p 173 30 0h1A1E Flow Comp func...

Page 469: ...auxiliary motor Starting Aux 1 5 1 Δ p 256 44 0h1A2C Display the number of running auxiliary motors Aux Motor Run X p 256 45 0h1A2D Display auxiliary motors 1 4 priority Aux Priority 1 X p 256 46 0h1A2E Display auxiliary motors 5 8 priority Aux Priority 2 X p 256 48 0h1A30 Auxiliary motor options for inverter stop AuxAll Stop 0 No 1 Yes O p 256 1 Yes 49 0h1A31 Auxiliary motor stop order Aux On Off...

Page 470: ...d Aux Dec Time 0 0 600 0 sec 2 0 O p 256 53 0h1A35 Auxiliary motors start delay time Aux Start DT 0 0 3600 0 sec 60 0 O p 256 54 0h1A36 Auxiliary motors stop delay time Aux Stop DT 0 0 3600 0 sec 60 0 O p 256 55 0h1A37 Auto change mode selection Auto Ch Mode 0 None 1 AUX Exchange Δ p 256 1 AUX Exchange 2 Main Exchange 56 0h1A38 Auto change time Auto Ch Time 00 00 99 00 72 00 O p 256 57 0h1A39 Auto...

Page 471: ... 64 0h1A40 4 auxiliary motor start frequency Start Freq 4 Low Freq High Freq 45 00 O p 256 65 0h1A41 5 auxiliary motor start frequency Start Freq 5 Low Freq High Freq 45 00 O p 256 66 0h1A42 6 auxiliary motor start frequency Start Freq 6 Low Freq High Freq 45 00 O p 256 67 0h1A43 7 auxiliary motor start frequency Start Freq 7 Low Freq High Freq 45 00 O p 256 68 0h1A44 8 auxiliary motor start frequ...

Page 472: ...y Stop Freq 7 Low Freq High Freq 20 00 O p 256 77 0h1A4D 8 auxiliary motor stop frequency Stop Freq 8 Low Freq High Freq 20 00 O p 256 80 0h1A50 1 auxiliary motor s reference compensation Aux1 Ref Comp 0 00 Unit Band 0 00 O p 256 81 0h1A51 2 auxiliary motor reference compensation Aux2 Ref Comp 0 00 Unit Band 0 00 O p 256 82 0h1A52 3 auxiliary motor reference compensation Aux3 Ref Comp 0 00 Unit Ba...

Page 473: ...ion Interlock 0 NO 0 No O p 275 1 YES 91 0h1A5B Delay time before next motor operates when an interlock or an auto change on the main motor occurs Interlock DT 0 1 360 0 Sec 5 0 O p 275 9561 0h1A5F Selection of Auxiliary motor to display AP1 96 AP1 97 AuxRun Time Sel 0 Aux 1 0 Aux1 O 1 Aux 2 2 Aux 3 3 Aux 4 4 Aux 5 5 Aux 6 6 Aux 7 7 Aux 8 96 0h1A60 Operation time Day of Auxiliary motor selected in...

Page 474: ...me Min 00 00 23 59 00 00 O 98 0h1A62 Deleting operation time of Auxiliary motor AuxRun Time Clr 0 None 0 None O 1 All 2 Aux 1 3 Aux 2 4 Aux 3 5 Aux 4 6 Aux 5 7 Aux 6 8 Aux 7 9 Aux 8 8 11 Application 2 Function Group AP2 Data In the following table will be displayed only when the related code has been selected O X Write enabled during operation Δ Writing available when operation stops ...

Page 475: ... Low Freq power total Load Fit LPwr 0 0 80 0 30 0 Δ p 199 08 0h1B08 High Freq load curve Load Fit Hfreq Load Fit LFreq HighFreq 51 00 Δ p 199 09 0h1B09 High Freq current Load Fit HCurr Load Fit LCurr 200 0 80 0 Δ p 199 10 0h1B0A High Freq total power Load Fit HPwr Load Fit LPwr 200 0 80 0 Δ p 199 11 0h1B0B Current load curve Load Curve Cur X p 199 12 0h1B0C Power load curve Load Curve Pwr X p 199 ...

Page 476: ...0 0h1B14 Pump clean start delay time PC Start DT 0 0 6000 0 sec 10 0 O p 192 21 0h1B15 0 speed operating time at Fx Rx switching PC Step DT 0 1 6000 0 sec 5 0 O p 192 22 0h1B16 Pump clean Acc time PC Acc Time 0 0 600 0 sec 10 0 O p 192 23 0h1B17 Pump clean Dec time PC Dec Time 0 0 600 0 sec 10 0 O p 192 24 0h1B18 Forward step maintaining time FwdStead yTime 0 0 600 0 sec 10 0 O p 192 25 0h1B19 For...

Page 477: ... p 192 1 Run 32 0h1B20 Pump clean continuous limit time PC Limit Time 6 60 min 10 O p 192 33 0h1B21 Pump clean continuous limit numbers PC Limit Num 0 10 3 O p 192 38 0h1B26 Dec Valve operation frequency Dec Valve Freq Low Freq High Freq 40 00 O p 198 39 0h1B27 Dev Valve Dec time Dev Valve Time 0 0 6000 0 sec 0 0 O p 198 40 0h1B28 Start and End ramp settings Start End Ramp 0 No 0 No Δ p 197 1 Yes ...

Page 478: ...or average power M1 AVG PWR 0 1 500 0 kW O p 191 88 0h1B58 2 Motor average power M2 AVG PWR 0 1 500 0 kW O p 191 89 0h1B59 Cost per kWh Cost per kWh 0 0 1000 0 0 0 O p 191 90 0h1B5A Saved kWh Saved kWh X p 191 91 0h1B5B Saved MWh Saved MWh X p 191 92 0h1B5C Saved Cost below 1000 unit Saved Cost1 X p 191 93 0h1B5D Saved Cost over 1000 unit Saved Cost2 X p 191 94 0h1B5E Saved CO2 conversion Factor C...

Page 479: ...Table of Functions 466 Code Comm Address Name LCD Display Setting Range Initial Value Prope rty Ref 97 0h1B61 Saved energy reset Reset Energy 0 No 0 No Δ p 191 1 Yes ...

Page 480: ...0001 O p 213 04 0h1C04 Summer Time Start date Summer T Start 01 01 Summer T Stop 04 01 O p 213 05 0h1C05 Summer Time Finish date Summer T Stop Summer T Start 12 31 Date 11 31 O p 213 0664 0h1C06 Date display format Date Format 0 YYYY MM D D MM DD YYY Y O p 213 1 MM DD YYY Y 2 DD MM YYY Y 10 0h1C0A Period connection status Period Status 0000 0000 0000 1111 1111 1111 0000 0000 0000 X p 213 11 0h1C0B...

Page 481: ...min 24 00 O p 213 18 0h1C12 Time Period3 End time configuration Period3 Stop T Period3 Start T 24 00 min 24 00 O p 213 19 0h1C13 Time Period3 Day of the week configuration Period3 Day 000 0000 111 1111 Bit 000 0000 O p 213 20 0h1C14 Time Period4 Start time configuration Period4 Start T 0 00 24 00 min 24 00 O p 213 21 0h1C15 Time Period4 End time configuration Period4 Stop T Period4 Start T 24 00 m...

Page 482: ...pt2 Date configuration Except2 Date 01 01 12 31 Date 01 01 O p 213 36 0h1C24 Except3 Date Start time configuration Except3 Start T 0 00 24 00 min 24 00 O p 213 37 0h1C25 Except3 Date End time configuration Except3 Stop T Except3 StartT 24 00 min 24 00 O p 213 38 0h1C26 Except3 Date configuration Except3 Date 01 01 12 31 Date 01 01 O p 213 39 0h1C27 Except4 Date Start time configuration Except4 Sta...

Page 483: ...0 min 24 00 O p 213 46 0h1C2E Except6 Date End time configuration Except6 Stop T Except6 StartT 24 00 min 24 00 O p 213 47 0h1C2F Except6 Date configuration Except6 Date 01 01 12 31 Date 01 01 O p 213 48 0h1C30 Except7 Date Start time configuration Except7 Start T 0 00 24 00 min 24 00 O p 213 49 0h1C31 Except7 Date End time configuration Except7 Stop T Except7 StartT 24 00 min 24 00 O p 213 50 0h1...

Page 484: ...Δ p 213 1 Yes 71 0h1C47 Time Event configuration status T Event Status 0000 0000 1111 1111 0000 0000 X p 213 72 0h1C48 Time Event 1 connection status T Event1 Period 0000 0000 0000 1111 1111 1111 0000 0000 0000 Δ p 213 73 0h1C49 Time Event 1 functions T Event1 Define 0 None 0 None Δ p 213 1 Fx 2 Rx 3 Speed L 4 Speed M 5 Speed H 7 Xcel L 8 Xcel M 9 Xcel H 10 Xcel Stop 11 Run Enable 12 2nd Source 13...

Page 485: ... Step Ref M 30 PID Step Ref H 74 0h1C4A Time Event 2 connection configuration T Event2 Period 0000 0000 0000 1111 1111 1111 0000 0000 0000 Δ p 213 75 0h1C4B Time Event 2 functions T Event2 Define Identical to the setting range for AP3 73 0 None Δ p 213 76 0h1C4C Time Event 3 connection configuration T Event2 Period 0000 0000 0000 1111 1111 1111 0000 0000 0000 Δ p 213 77 0h1C4D Time Event 3 functio...

Page 486: ...ical to the setting range for AP3 73 0 None Δ p 213 82 0h1C52 Time Event 6 connection configuration T Event6 Period 0000 0000 0000 1111 1111 1111 0000 0000 0000 Δ p 213 83 0h1C53 Time Event 6 functions T Event6 Define Identical to the setting range for AP3 73 0 None Δ p 213 84 0h1C54 Time Event 7 connection configuration T Event7 Period 0000 0000 0000 1111 1111 1111 0000 0000 0000 Δ p 213 85 0h1C5...

Page 487: ...1 00 Δ p 318 Bit 0 Output open phase Bit 1 Input open phase 06 0h1D06 Input voltage range during open phase IPO V Band 1 100 V 15 O p 318 07 0h1D07 Deceleration time at fault trip Trip Dec Time 0 0 600 0 sec 3 0 0 75 90kW O 90 0 110 500kW 08 0h1D08 Selection of startup on trip reset RST Restart Bit 00 11 00 O p 238 Bit 0 Fault trips other than LV trip Bit 1 LV Trip 09 0h1D09 Number of automatic re...

Page 488: ...st Preset F 0 00 Low Freq High Freq 0 00 O p 320 15 0h1D0F Analog input loss decision level AI Lost Level 0 Half of x1 0 Half of x1 O p 320 1 Below x1 17 0h1D11 Overload warning selection OL Warn Select 0 No 0 No O p 309 1 Yes 18 0h1D12 Overload warning level OL Warn Level 30 OL Trip Level 110 O p 309 19 0h1D13 Overload warning time OL Warn Time 0 0 30 0 sec 10 0 O p 309 20 0h1D14 Motion at overlo...

Page 489: ...er load warning time ULWarn Time 0 0 600 0 sec 10 0 O p 326 27 0h1D1B Under load trip selection ULTrip Sel 0 None 0 None O p 326 1 Free Run 2 Dec 28 0h1D1C Under load trip timer ULTrip Time 0 0 600 0 sec 30 0 O p 326 31 0h1D1F Operation on no motor trip No Motor Trip 0 None 0 None O p 330 1 Free Run 32 0h1D20 No motor trip current level No Motor Level 1 100 5 O p 330 33 0h1D21 No motor detection t...

Page 490: ...O p 307 1 Free Run 2 Dec 41 0h1D29 Motor cooling fan type Motor Cooling 0 Self cool 0 Self cool O p 307 1 Forced cool 42 0h1D2A Electronic thermal one minute rating ETH 1 min ETH Cont 150 120 O p 307 43 0h1D2B Electronic thermal prevention continuous rating ETH Cont 50 120 100 O p 307 44 0h1D2C Fire mode password Fire Mode PW 0 9999 3473 O p 230 4567 0h1D2D Fire mode setting Fire Mode Sel 0 None 0...

Page 491: ...0000 1111 0100 Δ p 314 Bit 0 At acceleration Bit 1 At constant speed Bit 2 At deceleration Bit 3 Flux braking 51 0h1D33 Stall frequency 1 Stall Freq 1 Start frequency Stall frequency2 Hz 60 00 O p 314 52 0h1D34 Stall level 1 Stall Level 1 30 150 130 Δ p 314 53 0h1D35 Stall frequency 2 Stall Freq 2 Stall frequency1 Stall frequency3 Hz 60 00 O p 314 68 PRT 46 47 are displayed when PRT 45 is not set ...

Page 492: ...ency Hz 60 00 O p 314 58 0h1D3A Stall level 4 Stall Level 4 30 150 130 Δ p 314 59 0h1D3B Flux braking gain Flux Brake Kp 0 75 90kW 0 150 0 O 110 500kW 0 10 60 0h1D3C Pipe break detection setting PipeBro kenSel 0 None 0 None O p 206 1 Warning 2 Free Run 3 Dec 61 0h1D3D Pipe break detection variation PipeBro ken Lev 0 0 100 0 97 5 O p 206 62 0h1D3E Pipe break detection time PipeBro ken DT 0 0 6000 0...

Page 493: ...evel 72 0h1D48 Level detect source LDT Source 0 Output Current 0 Output Current O p 202 1 DC Link Voltage 2 Output Voltage 3 kW 4 HP 5 V1 6 V2 7 I2 8 PID Ref Value 9 PID Fdb Value 10 PID Output 11 EPID1 Fdb Val 12 EPID2 Fdb Val 13 V3 14 I3 73 0h1D49 Level detect delay time LDT DlyTime 0 9999 sec 2 O p 202 74 0h1D4A Level detect standard set value LDT Level Source setting Source setting O p 202 ...

Page 494: ...g 80 0h1D50 Operation mode on optional card trip Opt Trip Mode 0 None 1 Free Run O p 329 1 Free Run 2 Dec 81 0h1D51 Low voltage trip decision delay time LVT Delay 0 0 60 0 sec 0 0 Δ p 327 82 0h1D52 Low voltage trip decision during operation LV2 Trip Sel 0 No 0 No Δ p 327 1 Yes 83 0h1D53 Remaining capacitor life diagnosis level CAP Dia gPerc 10 100 0 O p 332 8470 Capacitor life diagnosis mode CAP D...

Page 495: ...ne 0 None O p 325 1 Warning 91 0h1D5B Setting the function of Broken belt BrokenB elt Sel 0 None 0 None Δ 1 Warning 2 Free Run 92 0h1D5C Operating the frequency of Broken belt BrokenB elt Freq 15 00 MzxFreq 15 00 Δ 93 0h1D5D Motor torque current Current Trq X 94 0h1D5E Torque current of operating Broken belt BrokenB elt Trq 0 0 100 0 10 0 Δ 95 0 h1D5F Delay of operating Broken belt BrokenB elt Dly...

Page 496: ...3 Code Comm Address Name LCD Display Setting Range Initial Value Prope rty Ref 97 0h1D61 LDT Auto restart cycle count LDT Rst Cnt M X P205 98 0h1D62 LDT Auto restart cycle Initialization time LDT Cnt Clr T 0 6000 60 Δ P205 ...

Page 497: ...ed when stopped X Write disabled Code Comm Address Name LCD Display Setting Range Initial Value Prope rty Ref 00 Jump code Jump Code 1 99 14 O p 68 04 0h1E04 Accelerati on time M2 Acc Time 0 0 600 0 sec 20 0 0 75 90kW O p 241 60 0 110 250kW 100 0 315 500kW 05 0h1E05 Decelerati on time M2 Dec Time 0 0 600 0 sec 30 0 0 75 90kW O p 241 90 0 110 250kW 150 0 315 500kW 06 0h1E06 Motor capacity M2 Capaci...

Page 498: ...ue Prope rty Ref 6 3 0 kW 4 0HP 7 3 7 kW 5 0HP 8 4 0 kW 5 5HP 9 5 5 kW 7 5HP 10 7 5 Kw 10 0HP 11 11 0 kW 15 0HP 12 15 0 kW 20 0HP 13 18 5 kW 25 0HP 14 22 0 kW 30 0HP 15 30 0 kW 40 0HP 16 37 0 kW 50 0HP 17 45 0 kW 60 0HP 18 55 0 kW 75 0HP 19 75 0kW 100 0HP 20 90 0kW 125 0HP 21 110 0kW ...

Page 499: ...W 500 0HP 28 355 0kW 550 0HP 29 400 0kW 650 0HP 30 500 0kW 800 0HP 07 0h1E07 Base frequency M2 Base Freq 30 00 400 00 Hz 60 00 Δ p 241 08 0h1E08 Control mode M2 Ctrl Mode 0 V F 0 V F Δ p 241 2 Slip Compen 10 0h1E0A Number of motor poles M2 Pole Num 2 48 Dependent on motor settings Δ p 241 11 0h1E0B Rated slip speed M2 Rated Slip 0 3000 RPM Δ p 241 12 0h1E0C Motor rated current M2 Rated Curr 1 0 10...

Page 500: ...ctance M2 Lsigma 0 00 99 99 mH Δ p 241 25 0h1E19 V F pattern M2 V F Patt 0 Linear 0 Linear Δ p 241 1 Square 2 User V F 26 0h1E1A Forward torque boost M2 Fwd Boost 0 0 15 0 2 0 0 75 90kW Δ p 241 1 0 110 500kW 27 0h1E1B Reverse torque boost M2 Rev Boost 0 0 15 0 2 0 0 75 90kW Δ p 241 1 0 110 500kW 28 0h1E1C Stall prevention level M2 Stall Lev 30 150 130 Δ p 241 29 0h1E1D Electronic thermal 1 minute ...

Page 501: ...ection state DCLink Voltage 05 NTC temperature Temperature 06 Input terminal state DI State 0000 0000 07 Output terminal state DO State 00 0000 08 Trip time after Power on Trip On Time 00 00 00 00 00 09 Trip time after operation start Trip Run Time 00 00 00 00 00 10 Delete trip history Trip Delete 0 No 1 Yes 8 15 2 Config Mode CNF Code Name LCD Display Setting Range Initial Value Ref 00 Jump code ...

Page 502: ...nitor mode display 1 Monitor Line 1 1 Speed 0 Frequency p 302 22 Monitor mode display 2 Monitor Line 2 2 Output Current 2 OutputCurrent p 302 23 Monitor mode display 3 Monitor Line 3 3 Output Voltage 3 OutputVoltage p 302 4 Output Power 5 WHour Counter 6 DCLink Voltage 7 DI Status 8 DO Staus 9 V1 Monitor V 10 V1 Monitor 13 V2 Monitor V 14 V2 Monitor 15 I2 Monitor mA 16 I2 Monitor 17 PID Output 18 ...

Page 503: ...74 Option slot 1 type display Option 1 Type p 252 31 Option slot 2 type display Option 2 Type p 252 32 Option slot 3 type display Option 3 Type p 252 40 Parameter initialization Parameter Init 0 No 0 No p 246 1 All Grp 2 DRV Grp 3 BAS Grp 4 ADV Grp 5 CON Grp 6 IN Grp 7 OUT Grp 8 COM Grp 9 PID Grp 10 EPI Grp 11 AP1 Grp 12 AP2 Grp 13 AP3 Grp 14 PRT Grp 74 Please refer to the communication option man...

Page 504: ...ssor 2 Supply Fan 3 Exhaust Fan 4 Cooling Tower 5 Circul Pump 6 Vacuum Pump 7 Constant Torque 44 Trip history deletion Erase All Trip 0 No 0 No p 252 1 Yes 45 User registration code deletion UserGrpAllDel 0 No 0 No p 250 1 Yes 46 Read parameters Parameter Read 0 No 0 No p 246 1 Yes 47 Write parameters Parameter Write 0 No 0 No p 246 1 Yes 48 Save parameters Parameter Save 0 No 0 No p 246 1 Yes 50 ...

Page 505: ...Power consumption initialization WHCount Reset 0 No 0 No p 251 1 Yes 70 Accumulated inverter motion time On time 00000DAY 00 00 p 304 71 Accumulated inverter operation time Run time 00000DAY 00 00 p 304 72 Accumulated inverter operation time initialization Time Reset 0 No 0 No p 304 1 Yes 7375 Real Time Real Time Date Format 74 Accumulated cooling fan operation time Fan Time 00000DAY 00 00 p 304 7...

Page 506: ...Table of Functions 493 ...

Page 507: ...Table of Functions 494 8 16 Macro Groups The following table lists detailed parameter settings for each macro configuration 8 16 1 Compressor MC1 Group ...

Page 508: ...ompen 5 DRV 11 JOG Frequen cy 20 00 6 DRV 12 JOG Acc Time 13 0 7 DRV 13 JOG Dec Time 20 0 8 DRV 15 Torque Boost 1 Auto1 9 BAS 70 Acc Time 1 10 0 10 BAS 71 Dec Time 1 20 0 11 ADV 10 Power on Run 1 Yes 12 ADV 65 U D Save Mode 1 Yes 13 CON 4 Carrier Freq 3 0 14 CON 70 SS Mode 0 Flying Start 1 15 CON 77 KEB Select 1 Yes 16 OUT 32 Relay 2 14 Run 17 PID 1 PID Sel 1 Yes 18 PID 3 PID Output 19 PID 4 PID R...

Page 509: ...32 PRT 10 Retry Delay 4 0 33 PRT 011 Lost KPD Mode 3 Dec 34 PRT 12 Lost Cmd Mode 2 Dec 35 PRT 13 Lost Cmd Time 4 0 36 PRT 40 ETH Trip Sel 1 Free Run 37 PRT 42 ETH 1 min 120 38 PRT 52 Stall Level 1 130 39 PRT 66 DB Warn ED 10 40 PRT 70 LDT Sel 1 Warning 41 PRT 72 LDT Source 0 Output Current 42 PRT 75 LDT Band Width LDT Source 10 of the Max value 43 PRT 76 LDT Freq 20 00 44 M2 4 M2 Acc Time 10 0 45 ...

Page 510: ...E Save Mode 2 Auto 10 ADV 64 FAN Control 2 Temp Control 11 ADV 65 U D Save Mode 1 Yes 12 CON 4 Carrier Freq 3 0 13 CON 70 SS Mode 1 Flying Start 2 14 CON 77 KEB Select 1 Yes 15 OUT 32 Relay 2 10 Over Voltage 16 PID 1 PID Sel 1 Yes 17 PID 3 PID Output 18 PID 4 PID Ref Value 19 PID 5 PID Fdb Value 20 PID 10 PID Ref 1 Src 4 I2 21 PID 11 PID Ref 1 Set 0 5000 22 PID 25 PID P Gain 1 40 00 23 PID 26 PID ...

Page 511: ...42 ETH 1 min 120 36 PRT 52 Stall Level 1 130 37 PRT 70 LDT Sel 1 Warning 38 PRT 72 LDT Source 0 Output Current 39 PRT 75 LDT Band Width LDT Source 10 of the Max value 40 PRT 76 LDT Freq 10 00 41 PRT 77 LDT Restart DT 500 0 42 M2 25 M2 V F Patt 1 Square 43 M2 28 M2 Stall Lev 110 44 M2 29 M2 ETH 1 min 110 8 16 3 Exhaust Fan MC3 Group ...

Page 512: ... 00 5 BAS 7 V F Pattern 1 Square 6 BAS 70 Acc Time 1 20 0 7 BAS 71 Dec Time 1 30 0 8 BAS 72 Acc Time 2 22 5 9 BAS 73 Dec Time 2 32 5 10 BAS 74 Acc Time 3 25 0 11 BAS 75 Dec Time 3 35 0 12 BAS 76 Acc Time 4 27 5 13 BAS 77 Dec Time 4 37 5 14 BAS 78 Acc Time 5 30 0 15 BAS 80 Acc Time 6 32 5 16 BAS 81 Dec Time 6 42 5 17 BAS 82 Acc Time 7 35 0 18 BAS 83 Dec Time 7 45 0 19 ADV 10 Power on Run 1 Yes 20 A...

Page 513: ... 5 BAS 7 V F Pattern 1 Square 6 BAS 70 Acc Time 1 20 0 7 BAS 71 Dec Time 1 30 0 8 BAS 72 Acc Time 2 22 5 9 BAS 73 Dec Time 2 32 5 10 BAS 74 Acc Time 3 25 0 11 BAS 75 Dec Time 3 35 0 12 BAS 76 Acc Time 4 27 5 13 BAS 77 Dec Time 4 37 5 14 BAS 78 Acc Time 5 30 0 15 BAS 80 Acc Time 6 32 5 16 BAS 81 Dec Time 6 42 5 17 BAS 82 Acc Time 7 35 0 18 BAS 83 Dec Time 7 45 0 19 ADV 10 Power on Run 1 Yes 20 ADV ...

Page 514: ...rn 1 Square 6 BAS 70 Acc Time 1 20 0 7 BAS 71 Dec Time 1 30 0 8 BAS 72 Acc Time 2 22 5 9 BAS 73 Dec Time 2 32 5 10 BAS 74 Acc Time 3 25 0 11 BAS 75 Dec Time 3 35 0 12 BAS 76 Acc Time 4 27 5 13 BAS 77 Dec Time 4 37 5 14 BAS 78 Acc Time 5 30 0 15 BAS 80 Acc Time 6 32 5 16 BAS 81 Dec Time 6 42 5 17 BAS 82 Acc Time 7 35 0 18 BAS 83 Dec Time 7 45 0 19 ADV 10 Power on Run 1 Yes 20 ADV 50 E Save Mode 2 A...

Page 515: ...y 15 00 5 BAS 7 V F Pattern 1 Square 6 BAS 70 Acc Time 1 20 0 7 BAS 71 Dec Time 1 30 0 8 BAS 72 Acc Time 2 22 5 9 BAS 73 Dec Time 2 32 5 10 BAS 74 Acc Time 3 25 0 11 BAS 75 Dec Time 3 35 0 12 BAS 76 Acc Time 4 27 5 13 BAS 77 Dec Time 4 37 5 14 BAS 78 Acc Time 5 30 0 15 BAS 80 Acc Time 6 32 5 16 BAS 81 Dec Time 6 42 5 17 BAS 82 Acc Time 7 35 0 18 BAS 83 Dec Time 7 45 0 19 ADV 10 Power on Run 1 Yes ...

Page 516: ...0 5 BAS 7 V F Pattern 1 Square 6 BAS 70 Acc Time 1 20 0 7 BAS 71 Dec Time 1 30 0 8 BAS 72 Acc Time 2 22 5 9 BAS 73 Dec Time 2 32 5 10 BAS 74 Acc Time 3 25 0 11 BAS 75 Dec Time 3 35 0 12 BAS 76 Acc Time 4 27 5 13 BAS 77 Dec Time 4 37 5 14 BAS 78 Acc Time 5 30 0 15 BAS 80 Acc Time 6 32 5 16 BAS 81 Dec Time 6 42 5 17 BAS 82 Acc Time 7 35 0 18 BAS 83 Dec Time 7 45 0 19 ADV 10 Power on Run 1 Yes 20 ADV...

Page 517: ...15 00 5 BAS 7 V F Pattern 1 Square 6 BAS 70 Acc Time 1 20 0 7 BAS 71 Dec Time 1 30 0 8 BAS 72 Acc Time 2 22 5 9 BAS 73 Dec Time 2 32 5 10 BAS 74 Acc Time 3 25 0 11 BAS 75 Dec Time 3 35 0 12 BAS 76 Acc Time 4 27 5 13 BAS 77 Dec Time 4 37 5 14 BAS 78 Acc Time 5 30 0 15 BAS 80 Acc Time 6 32 5 16 BAS 81 Dec Time 6 42 5 17 BAS 82 Acc Time 7 35 0 18 BAS 83 Dec Time 7 45 0 19 ADV 10 Power on Run 1 Yes 20...

Page 518: ... DRV 11 JOG Frequ ency 15 00 5 BAS 7 V F Pattern 1 Square 6 BAS 70 Acc Time 1 20 0 7 BAS 71 Dec Time 1 30 0 8 BAS 72 Acc Time 2 22 5 9 BAS 73 Dec Time 2 32 5 10 BAS 74 Acc Time 3 25 0 11 BAS 75 Dec Time 3 35 0 12 BAS 76 Acc Time 4 27 5 13 BAS 77 Dec Time 4 37 5 14 BAS 78 Acc Time 5 30 0 15 BAS 80 Acc Time 6 32 5 16 BAS 81 Dec Time 6 42 5 17 BAS 82 Acc Time 7 35 0 18 BAS 83 Dec Time 7 45 0 19 ADV 1...

Page 519: ...T 12 Lost Cmd Mode 3 Hold Input 44 PRT 40 ETH Trip Sel 1 Free Run 45 PRT 42 ETH 1 min 120 46 PRT 52 Stall Level 1 130 47 PRT 70 LDT Sel 1 Warning 48 PRT 72 LDT Source 0 Output Current 49 PRT 75 LDT Band Width LDT Source 10 of the Max value 50 PRT 76 LDT Freq 10 00 51 PRT 77 LDT Restart DT 300 0 52 M2 4 M2 Acc Time 10 0 53 M2 5 M2 Dec Time 20 0 54 M2 25 M2 V F Patt 1 Square 55 M2 28 M2 Stall Lev 11...

Page 520: ...Table of Functions 507 8 16 4 Cooling Tower MC4 Group ...

Page 521: ...e 6 BAS 70 Acc Time 1 20 0 7 BAS 71 Dec Time 1 30 0 8 BAS 072 Acc Time 2 22 5 9 BAS 73 Dec Time 2 32 5 10 BAS 74 Acc Time 3 25 0 11 BAS 75 Dec Time 3 35 0 12 BAS 76 Acc Time 4 27 5 13 BAS 77 Dec Time 4 37 5 14 BAS 78 Acc Time 5 30 0 15 BAS 80 Acc Time 6 32 5 16 BAS 81 Dec Time 6 42 5 17 BAS 82 Acc Time 7 35 0 18 BAS 83 Dec Time 7 45 0 19 ADV 10 Power on Run 1 Yes 20 ADV 50 E Save Mode 2 Auto 21 AD...

Page 522: ...D Freq 30 00 39 AP1 22 Pre PID Delay 120 0 40 PRT 8 RST Restart 11 41 PRT 9 Retry Number 0 42 PRT 10 Retry Delay 10 0 43 PRT 11 Lost KPD Mode 3 Dec 44 PRT 12 Lost Cmd Mode 3 Hold Input 45 PRT 40 ETH Trip Sel 1 Free Run 46 PRT 42 ETH 1 min 120 47 PRT 52 Stall Level 1 130 48 PRT 70 LDT Sel 1 Warning 49 PRT 72 LDT Source 0 Output Current 50 PRT 75 LDT Band Width LDT Source 10 of the Max value 51 PRT ...

Page 523: ...250 0 4 DRV 9 Control Mode 1 Slip Compen 5 DRV 11 JOG Frequency 15 00 6 DRV 12 JOG Acc Time 30 0 7 DRV 13 JOG Dec Time 50 0 8 DRV 15 Torque Boost 1 Auto1 9 BAS 7 V F Pattern 1 Square 10 BAS 70 Acc Time 1 30 0 11 BAS 71 Dec Time 1 50 0 12 BAS 72 Acc Time 2 32 0 13 BAS 73 Dec Time 2 52 0 14 BAS 74 Acc Time 3 34 0 15 BAS 75 Dec Time 3 54 0 16 BAS 76 Acc Time 4 36 0 17 BAS 77 Dec Time 4 56 0 18 BAS 78...

Page 524: ... PID 11 PID Ref 1 Set 5 000 39 PID 25 PID P Gain 1 50 00 40 PID 26 PID I Time 1 5 0 41 PID 50 PID Unit Sel 2 PSI 42 PID 51 PID Unit Scale 3 x0 1 43 AP1 8 PID Sleep1Freq 10 00 44 AP1 21 Pre PID Freq 30 00 45 AP1 22 Pre PID Delay 120 0 46 PRT 8 RST Restart 11 47 PRT 9 Retry Number 3 48 PRT 10 Retry Delay 5 0 49 PRT 11 Lost KPD Mode 3 Dec 50 PRT 12 Lost Cmd Mode 3 Hold Input 51 PRT 40 ETH Trip Sel 1 ...

Page 525: ...nctions 512 the Max value 60 PRT 76 LDT Freq 10 00 61 PRT 77 LDT Restart DT 100 0 62 M2 4 M2 Acc Time 10 0 63 M2 5 M2 Dec Time 20 0 64 M2 25 M2 V F Patt 1 Square 65 M2 28 M2 Stall Lev 125 66 M2 29 M2 ETH 1 min 120 ...

Page 526: ...ontrol Mode 1 Slip Compen 5 DRV 11 JOG Frequenc y 20 00 6 DRV 12 JOG Acc Time 30 0 7 DRV 13 JOG Dec Time 60 0 8 DRV 15 Torque Boost 1 Auto1 9 BAS 7 V F Pattern 1 Square 10 BAS 70 Acc Time 1 30 0 11 BAS 71 Dec Time 1 50 0 12 BAS 72 Acc Time 2 32 0 13 BAS 73 Dec Time 2 52 0 14 BAS 74 Acc Time 3 34 0 15 BAS 75 Dec Time 3 54 0 16 BAS 76 Acc Time 4 36 0 17 BAS 77 Dec Time 4 56 0 18 BAS 78 Acc Time 5 38...

Page 527: ...6 DRV 12 JOG Acc Time 30 0 7 DRV 13 JOG Dec Time 60 0 8 DRV 15 Torque Boost 1 Auto1 9 BAS 7 V F Pattern 1 Square 10 BAS 70 Acc Time 1 30 0 11 BAS 71 Dec Time 1 50 0 12 BAS 72 Acc Time 2 32 0 13 BAS 73 Dec Time 2 52 0 14 BAS 74 Acc Time 3 34 0 15 BAS 75 Dec Time 3 54 0 16 BAS 76 Acc Time 4 36 0 17 BAS 77 Dec Time 4 56 0 24 ADV 10 Power on Run 1 Yes 25 ADV 25 Freq Limit Lo 40 00 26 ADV 64 FAN Contro...

Page 528: ... Frequenc y 20 00 6 DRV 12 JOG Acc Time 30 0 7 DRV 13 JOG Dec Time 60 0 8 DRV 15 Torque Boost 1 Auto1 9 BAS 7 V F Pattern 1 Square 10 BAS 70 Acc Time 1 30 0 11 BAS 71 Dec Time 1 50 0 12 BAS 72 Acc Time 2 32 0 13 BAS 73 Dec Time 2 52 0 14 BAS 74 Acc Time 3 34 0 15 BAS 75 Dec Time 3 54 0 16 BAS 76 Acc Time 4 36 0 17 BAS 77 Dec Time 4 56 0 32 PID 1 PID Sel 1 Yes 33 PID 3 PID Output 34 PID 4 PID Ref V...

Page 529: ... 00 6 DRV 12 JOG Acc Time 30 0 7 DRV 13 JOG Dec Time 60 0 8 DRV 15 Torque Boost 1 Auto1 9 BAS 7 V F Pattern 1 Square 10 BAS 70 Acc Time 1 30 0 11 BAS 71 Dec Time 1 50 0 12 BAS 72 Acc Time 2 32 0 13 BAS 73 Dec Time 2 52 0 14 BAS 74 Acc Time 3 34 0 15 BAS 75 Dec Time 3 54 0 16 BAS 76 Acc Time 4 36 0 17 BAS 77 Dec Time 4 56 0 40 PID 50 PID Unit Sel 5 inWC 41 PID 51 PID Unit Scale 3 x0 1 42 AP1 21 Pre...

Page 530: ... y 20 00 6 DRV 12 JOG Acc Time 30 0 7 DRV 13 JOG Dec Time 60 0 8 DRV 15 Torque Boost 1 Auto1 9 BAS 7 V F Pattern 1 Square 10 BAS 70 Acc Time 1 30 0 11 BAS 71 Dec Time 1 50 0 12 BAS 72 Acc Time 2 32 0 13 BAS 73 Dec Time 2 52 0 14 BAS 74 Acc Time 3 34 0 15 BAS 75 Dec Time 3 54 0 16 BAS 76 Acc Time 4 36 0 17 BAS 77 Dec Time 4 56 0 48 PRT 40 ETH Trip Sel 1 Free Run 49 PRT 42 ETH 1 min 120 50 PRT 52 St...

Page 531: ...Compen 5 DRV 11 JOG Frequenc y 20 00 6 DRV 12 JOG Acc Time 30 0 7 DRV 13 JOG Dec Time 60 0 8 DRV 15 Torque Boost 1 Auto1 9 BAS 7 V F Pattern 1 Square 10 BAS 70 Acc Time 1 30 0 11 BAS 71 Dec Time 1 50 0 12 BAS 72 Acc Time 2 32 0 13 BAS 73 Dec Time 2 52 0 14 BAS 74 Acc Time 3 34 0 15 BAS 75 Dec Time 3 54 0 16 BAS 76 Acc Time 4 36 0 17 BAS 77 Dec Time 4 56 0 66 Warn E D 70 56 PRT 72 LDT Source 0 Outp...

Page 532: ...ompen 5 DRV 11 JOG Frequenc y 20 00 6 DRV 12 JOG Acc Time 30 0 7 DRV 13 JOG Dec Time 60 0 8 DRV 15 Torque Boost 1 Auto1 9 BAS 7 V F Pattern 1 Square 10 BAS 70 Acc Time 1 30 0 11 BAS 71 Dec Time 1 50 0 12 BAS 72 Acc Time 2 32 0 13 BAS 73 Dec Time 2 52 0 14 BAS 74 Acc Time 3 34 0 15 BAS 75 Dec Time 3 54 0 16 BAS 76 Acc Time 4 36 0 17 BAS 77 Dec Time 4 56 0 60 M2 4 M2 Acc Time 10 0 61 M2 5 M2 Dec Tim...

Page 533: ... 0 4 DRV 9 Control Mode 1 Slip Compen 5 DRV 12 JOG Acc Time 10 0 6 DRV 13 JOG Dec Time 20 0 7 DRV 15 Torque Boost 1 Auto1 8 BAS 70 Acc Time 1 10 0 9 BAS 71 Dec Time 1 20 0 10 BAS 72 Acc Time 2 12 5 11 BAS 73 Dec Time 2 22 5 12 BAS 74 Acc Time 3 15 0 13 BAS 75 Dec Time 3 25 0 14 BAS 76 Acc Time 4 17 5 15 BAS 77 Dec Time 4 27 5 16 BAS 78 Acc Time 5 20 0 17 BAS 79 Dec Time 5 30 0 18 BAS 80 Acc Time 6...

Page 534: ...de 1 Slip Compen 5 DRV 12 JOG Acc Time 10 0 6 DRV 13 JOG Dec Time 20 0 7 DRV 15 Torque Boost 1 Auto1 8 BAS 70 Acc Time 1 10 0 9 BAS 71 Dec Time 1 20 0 10 BAS 72 Acc Time 2 12 5 11 BAS 73 Dec Time 2 22 5 1 Pattern 2 Pattern 24 ADV 25 Freq Limit Lo 20 00 25 ADV 74 RegenAv d Sel 1 Yes 26 CON 4 Carrier Freq 3 0 27 CON 70 SS Mode 0 Flying Start 1 28 CON 77 KEB Select 1 Yes 29 OUT 32 Relay 2 14 Run 30 A...

Page 535: ...9 Control Mode 1 Slip Compen 5 DRV 12 JOG Acc Time 10 0 6 DRV 13 JOG Dec Time 20 0 7 DRV 15 Torque Boost 1 Auto1 8 BAS 70 Acc Time 1 10 0 9 BAS 71 Dec Time 1 20 0 10 BAS 72 Acc Time 2 12 5 11 BAS 73 Dec Time 2 22 5 34 PRT 66 DB Warn E D 10 35 PRT 70 LDT Sel 1 Warning 36 PRT 72 LDT Source 0 Output Current 37 PRT 75 LDT Band Width LDT Source 10 of the Max value 38 PRT 76 LDT Freq 5 00 39 PRT 77 LDT ...

Page 536: ...e fault conditions can be categorized as follows Level When the fault is corrected the trip or warning signal disappears and the fault is not saved in the fault history Latch When the fault is corrected and a reset input signal is provided the trip or warning signal disappears Fatal When the fault is corrected the fault trip or warning signal disappears only after the user turns off the inverter w...

Page 537: ...phase inverter output has one or more phases in an open circuit condition Operates when bit 1 of PRT 05 is set to 1 In Phase Open Latch Displayed when a 3 phase inverter input has one or more phases in an open circuit condition Operates only when bit 2 of PRT 05 is set to 1 Inverter OLT Latch Displayed when the inverter has been protected from overload and resultant overheating based on inverse ti...

Page 538: ...t U V W terminal current sensor etc NTC Open Latch Displayed when an error is detected in the temperature sensor of the Insulated Gate Bipolar Transistor IGBT Fan Trip Latch Displayed when an error is detected in the cooling fan Set PRT 79 to 0 to activate fan trip for models below 22 kW capacity InFan Trip Latch It occurs when an abnormality is detected in the cooling fan inside the inverter with...

Page 539: ...set by the user Set the values at PRT 71 PRT 77 Broken Belt Latch Triggered when PRT 91 is set to Free Run Option Protection LCD Display Type Description Lost Command Level Displayed when a frequency or operation command error is detected during inverter operation by controllers other than the keypad e g using a terminal block and a communication mode Activate by setting PRT 12 to any value other ...

Page 540: ...elay OUT 31 35 or OUT 36 to 8 Fan Warning to receive the fan warning output signals DB Warn ED Displayed when the DB resistor usage rate exceeds the set value Set the detection level at PRT 66 Fire Mode When there is a fire Fire Mode forces the inverter to ignore certain fault trips and continue to operate Set the digital output terminals or relay OUT 31 35 or OUT 36 to 27 Fire Mode to receive the...

Page 541: ...played when the function of Lsigma tuning is not normal For example auto tuning is performed without wiring the motor KPD H O A Lock If DRV 05 KPD H O A Lock sets HAND OFF AUTO disabled it lasts one second when HAND OFF AUTO key is pressed using user keypad InFan Warning It occurs when an abnormality is detected in the cooling fan inside the inverter with inverter capacity of 110 kW to 500 kW 9 2 ...

Page 542: ...e Low Voltage The input voltage is too low Determine if the input voltage is below the specified value A load greater than the power capacity is connected to the system a welder direct motor connection etc Increase the power capacity The magnetic contactor connected to the power source has a faulty connection Replace the magnetic contactor Low Voltage2 The input voltage has decreased during the op...

Page 543: ...pacity Replace the motor and inverter with models that have increased capacity The torque boost level is too high Reduce the torque boost level Over Heat There is a problem with the cooling system Determine if a foreign object is obstructing the air inlet outlet or vent The inverter cooling fan has been operated for an extended period Replace the cooling fan The ambient temperature is too high Kee...

Page 544: ...ce is set incorrectly Check the frequency command source setting The operation command source is set incorrectly Check the operation command source setting Power is not supplied to the terminal R S T Check the terminal connections R S T and U V W The charge lamp is turned off Turn on the inverter The operation command is off Turn on the operation command RUN The motor is locked Unlock the motor or...

Page 545: ...ward reverse rotation of the inverter and the forward reverse rotation signal on the control panel side is incorrect Check the forward reverse rotation wiring The motor only rotates in one direction Reverse rotation prevention is selected Remove the reverse rotation prevention The reverse rotation signal is not provided even when a 3 wire sequence is selected Check the input signal associated with...

Page 546: ...place the motor and the inverter with models with capacity appropriate for the load The motor does not accelerate The acceleration time is too long The frequency command value is low Set an appropriate value The load is too high Reduce the load and increase the acceleration time Check the mechanical brake status The acceleration time is too long Change the acceleration time The combined values of ...

Page 547: ...erter is in operation a control unit malfunctions or noise occurs Noise occurs due to switching inside the inverter Change the carrier frequency to the minimum value Install a micro surge filter in the inverter output When the inverter is operating the earth leakage breaker is activated An earth leakage breaker will interrupt the supply if current flows to ground during inverter operation Connect ...

Page 548: ...tor is less than 200 m 50 m for motors rated 3 7 kW or lower The motor does not come to a complete stop when the inverter output stops It is difficult to decelerate sufficiently because DC braking is not operating normally Adjust the DC braking parameter Increase the set value for the DC braking current Increase the set value for the DC braking stopping time The output frequency does not increase ...

Page 549: ...Troubleshooting 536 ...

Page 550: ...result in electric shock or damage to the product 10 1 Regular Inspection Lists 10 1 1 Daily Inspection Inspection area Inspectio n item Inspection details Inspection method Inspection standard Inspection equipment All Ambient environm ent Is the ambient temperature and humidity within the design range and is there any dust or foreign objects present Refer to 1 3 Installation Considerations on pag...

Page 551: ...tes smoothly Display Measurin g device Is the display value normal Check the display value on the panel Check and manage specified values Voltmeter ammeter etc Motor All Is there any abnormal vibration or noise Visual inspection No abnormality Is there any abnormal smell Check for overheating or damage 10 1 2 Annual Inspection Inspection area Inspection item Inspection details Inspection method Ju...

Page 552: ...Measure electrostatic capacity Measure with capacity meter Rated capacity over 85 Capacity meter Relay Is there any chattering noise during operation Visual inspection No abnormality Is there any damage to the contacts Visual inspection Braking resistor Is there any damage from resistance Visual inspection No abnormality Digital multimeter analog tester Check for disconnection Disconnect one side ...

Page 553: ...the fan parts loose Check all connected parts and tighten all screws No abnormality Display Display device Is the display value normal Check the command value on the display device Specified and managed values must match Voltmeter Ammeter etc 10 1 3 Bi annual Inspection Inspection area Inspection item Inspection details Inspection method Judgment standard Inspection equipment Motor Insulation resi...

Page 554: ...RTC Battery Specifications Model type CR 2032 lithium manganese Nominal voltage 3 V Nominal capacity 220 mAh Operating temperature range 20 80 degrees C Life span approximately 53 300 hrs inverter on 25 800 hrs inverter off Follow the instructions below to replace the RTC battery ESD Electrostatic discharge from the human body may damage sensitive electronic components on the PCB Therefore be extr...

Page 555: ...MERGE 542 1 Turn off the inverter and make sure that DC link voltage has dropped to a safe level 2 Loosen the screw on the power cover then remove the power cover 0 75 30 kW Models 110 185kW Models 37 90 kW Models 220 500kW Models ...

Page 556: ... body 0 75 30 kW Models 37 90 kW Models 4 Loosen the screws securing the front cover and remove the front cover by lifting it The main PCB is exposed 0 75 30 kW Models 37 90 kW Models 5 Locate the RTC battery holder on the main PCB and replace the battery ...

Page 557: ...4 6 Reattach the front cover the power cover and the keypad back onto the inverter body Ensure that the inverter is turned off and DC link voltage has dropped to a safe level before opening the terminal cover and installing the RTC battery ...

Page 558: ...w the inverter to be exposed to dusty or humid environments If the inverter is installed in such environments for example a construction site and the inverter will be unused for an extended period remove the inverter and store it in a safe place 10 3 2 Disposal When disposing of the product categorize it as general industrial waste Recyclable materials are included in the product so recycle them w...

Page 559: ...ncy 0 400 Hz Output Voltage V 3 Phase 200 240 V Rated input Working Voltage V Three Phase 3 Phase 200 240 VAC 15 10 Single Phase 1 Phase 240 VAC 5 10 Input Frequency Three Phase 50 60 Hz 5 Single Phase 60 Hz 5 Rated Current A 4 9 8 4 12 9 17 5 Weight kg 3 3 3 3 3 3 3 3 The standard motor capacity is based on a standard 4 pole motor The standard used for 200 V inverters is based on a 220 V supply v...

Page 560: ...V 3 Phase 200 240 V Rated input Working Voltage V Three Phase 3 Phase 200 240 VAC 15 10 Single Phase 1 Phase 240 VAC 5 10 Input Frequency Three Phase 50 60 Hz 5 Single Phase 60 Hz 5 Rated Current A 23 7 32 7 46 4 62 3 77 2 Weight kg 3 3 3 3 3 3 4 6 7 1 The standard motor capacity is based on a standard 4 pole motor The standard used for 200 V inverters is based on a 220 V supply voltage and 400 V ...

Page 561: ... Phase 380 480 V Rated input Working Voltage V Three Phase 3 Phase 380 480 VAC 15 10 Single Phase 1 Phase 480 VAC 5 10 Input Frequency Three Phase 50 60 Hz 5 Single Phase 60 Hz 5 Rated Current A 2 4 4 2 6 5 8 7 Weight kg 3 3 3 3 3 3 3 3 The standard motor capacity is based on a standard 4 pole motor The standard used for 200 V inverters is based on a 220 V supply voltage and 400 V inverters are ba...

Page 562: ...ltage V 3 Phase 380 480 V Rated input Working Voltage V Three Phase 3 Phase 380 480 VAC 15 10 Single Phase 1 Phase 480 VAC 5 10 Input Frequency Three Phase 50 60 Hz 5 Single Phase 60 Hz 5 Rated Current A 12 2 17 5 26 5 33 4 42 5 50 7 Weight kg 3 3 3 3 3 4 4 6 4 8 7 5 The standard motor capacity is based on a standard 4 pole motor The standard used for 200 V inverters is based on a 220 V supply vol...

Page 563: ... Voltage V 3 Phase 380 480 V Rated input Working Voltage V Three Phase 3 Phase 380 480 VAC 15 10 Single Phase 1 Phase 480 VAC 5 10 Input Frequency Three Phase 50 60 Hz 5 Single Phase 60 Hz 5 Rated Current A 69 1 69 3 84 6 100 1 133 6 160 0 Weight kg 7 5 26 35 35 43 43 The standard motor capacity is based on a standard 4 pole motor The standard used for 200 V inverters is based on a 220 V supply vo...

Page 564: ... Hz Output Voltage V 3 Phase 380 500 V Rated input Working Voltage V Three Phase 3 Phase 380 500VAC 15 10 Input Frequency Three Phase 50 60 Hz 5 Rated Current A 215 1 254 6 315 3 358 9 419 1 469 3 598 1 666 4 751 3 938 6 Weight kg 55 8 55 8 74 7 74 7 120 0 120 0 185 5 185 5 185 5 265 The standard motor capacity is based on a standard 4 pole motor The standard used for 200 V inverters is based on a...

Page 565: ...ion Operation type Select key pad terminal strip or communication operation Frequency settings Analog type 10 10 V 0 10 V 0 20 mA Digital type key pad pulse train input Operation function PID control 3 wire operation Frequency limit Second function Anti forward and reverse direction rotation Commercial transition Speed search Power braking Leakage reduction Up down operation DC braking Frequency j...

Page 566: ...ump Cleaning RTC Time Event Pulse train 0 32 kHz Low Level 0 0 8 V High Level 3 5 12 V Output Multi function open collector terminal Fault output and inverter operation status output Less than DC 26 V 50 mA Fault signal relay terminal N O Less than AC 250 V 2A DC 30 V 3A N C Less than AC 250 V 1A DC 30 V 1A Multi function relay terminal Less than AC 250 V 5 A Less than DC 30 V 5 A Analog output 0 ...

Page 567: ...rlock trip PumpCleannig trip Alarm Command loss trip alarm overload alarm normal load alarm inverter overload alarm fan operation alarm resistance braking rate alarm Capacitor life alarm Pump Clean alarm Fire ModeAlarm LDTAlarm Instantaneous blackout Less than 8 ms Continue Operation must be within the rated input voltage and rated output range More than 8 ms Auto restart operation Structure worki...

Page 568: ...ontact with corrosive gases inflammable gases oil stains dust and other pollutants 0 75 90kW Pollution Degree 3 Environment 110 500kW Pollution Degree 2 Environment Operation altitude Maximum 3 280 ft 1 000m above sea level for standard operation After that the driver rated voltage and the rated output current derating by 1 for every extra 328 ft 100m up to 13 123 ft 4 000m Operation oscillation L...

Page 569: ...Technical Specification 556 11 3 External Dimensions 0 75 30 kW 3 phase 37 90 kW 3 phase ...

Page 570: ...Technical Specification 557 110 185 kW 3 phase ...

Page 571: ...7 232 216 5 10 5 181 5 5 0022H100 2 160 137 232 216 5 10 5 181 5 5 0037H100 2 160 137 232 216 5 10 5 181 5 5 0055H100 2 160 137 232 216 5 10 5 181 5 5 0075H100 2 160 137 232 216 5 10 5 181 5 5 0110H100 2 160 137 232 216 5 10 5 181 5 5 0150H100 2 180 157 290 273 7 11 3 205 3 5 5 0185H100 2 220 193 8 350 331 13 223 2 6 6 3 0008H100 4 160 137 232 216 5 10 5 181 5 5 ...

Page 572: ...3 8 350 331 13 223 2 6 6 0370H100 4 275 232 450 428 5 14 284 7 7 0450H100 4 325 282 510 486 5 16 284 7 7 0550H100 4 325 282 510 486 5 16 284 7 7 0750H100 4 325 275 550 524 5 16 309 9 9 0900H100 4 325 275 550 524 5 16 309 9 9 1100H100 4 300 200 240 706 688 5 9 5 386 9 9 1320H100 4 300 200 240 706 688 5 9 5 386 9 9 1600H100 4 380 300 300 705 685 5 9 5 396 9 9 1850H100 4 380 300 300 705 685 5 9 5 396...

Page 573: ...7 13 0 20 0 20 0037H100 4 6 30 5 39 9 13 8 52 0 41 7 13 0 20 0 20 0055H100 4 6 30 5 39 9 13 8 52 0 41 7 13 0 20 0 20 0075H100 4 6 30 5 39 9 13 8 52 0 41 7 13 0 20 0 20 0110H100 4 6 30 5 39 9 13 8 52 0 41 7 13 0 20 0 20 0150H100 4 7 09 6 18 11 42 10 78 0 45 8 08 0 20 0 20 0185H100 4 7 09 6 18 11 42 10 78 0 45 8 08 0 20 0 20 0220H100 4 8 66 7 63 13 78 13 03 0 51 8 79 0 24 0 24 0300H100 4 8 66 7 63 1...

Page 574: ...C Install appropriate branch circuit protection based on required local codes and the user manual The device is suitable for use on a circuit capable of delivering not more than 100kA 240Vac maximum 200V class and 480 Vac maximum 400V class when protected by branch circuit protection devices specified in this manual Product kW Circuit Breaker Leakage Breaker Magnetic Contactor Model Rated Current ...

Page 575: ... MC 130a 130 37 ABS203c 175 UTS250 175 EBS203c 200 MC 150a 150 45 ABS203c 225 225 225 MC 185a 185 55 ABS203c 250 250 250 MC 185a 185 75 ABS403c 300 UTS400 300 EBS403C 300 MC 225a 225 90 ABS403c 350 350 350 MC 330a 330 110 ABS603c 500 UTS600 500 EBS603c 500 MC 400a 400 132 ABS603c 600 600 EBS603c 630 MC 400a 400 160 ABS603c 630 600 EBS603c 630 MC 630a 630 185 ABS803c 800 UTS800 800 EBS803c 800 MC 6...

Page 576: ...andard If you want to use UL Type products please use that ACB product Maximum allowed prospective short circuit current at the input power connection is defined in IEC 60439 1 as 100 kA LSLV H100 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 RMS symmetrical amperes for recommended MCCB are the fol...

Page 577: ...3 0 31 33 0 73 32 11 80 0 22 46 0 53 50 15 100 0 16 62 0 32 62 18 5 125 0 13 77 0 29 80 3 Phase 400 V 0 75 10 8 09 2 5 16 17 3 1 5 10 5 05 4 10 11 4 2 2 15 3 37 6 6 74 6 3 7 20 2 25 9 5 05 8 5 5 32 1 56 13 3 56 13 7 5 35 1 16 17 2 53 18 11 50 0 76 27 1 64 26 15 63 0 61 33 1 42 33 18 5 70 0 48 43 0 98 42 22 100 0 40 51 0 88 50 30 125 0 29 69 0 59 68 37 0 29 69 Built In 45 160 0 24 85 55 200 0 20 10...

Page 578: ...er Only See the table above for the Voltage and Current rating of the fuse and the breaker Attention Utiliser UNIQUEMENT des fusibles d entrée homologués de Classe H ou RK5 UL et des disjoncteurs UL Se reporter au tableau ci dessus pour la tension et le courant nominal des fusibless et des disjoncteurs 11 6 Terminal Screw Specifications Input Output Termianl Screw Specification Product kW Terminal...

Page 579: ... 5 5 7 5 11 15 M5 20 4 24 5 2 0 2 4 18 5 22 30 37 M8 56 12 67 3 5 5 6 6 45 55 75 90 110 M10 89 7 122 0 8 8 11 96 132 160 M12 182 4 215 0 17 87 21 07 185 220 250 315 M8 X 2 M12 X 1 61 2 91 8 6 9 182 4 215 0 17 87 21 07 355 400 500 M10 X 2 M16 X 1 89 7 122 0 8 8 11 96 490 9 511 0 48 05 50 11 Control Circuit Terminal Screw Specification ...

Page 580: ...nts Ne pas trop serrer la vis car cela risque d endommager les bornes et de provoquer des courts circuits et des dysfonctionnements Utiliser uniquement des fils de cuivre avec une valeur nominale de 600 V 90 pour le câblage de la borne d alimentation et une valeur nominale de 300 V 75 pour le câblage de la borne de commande 11 7 Dynamic breaking unit DBU and Resistors 11 7 1 Dynamic breaking unit ...

Page 581: ... 200V 30 37 kW LSLV0370DBU 2LN Refer to the appearance of Group 5 LSLV0370DBU 2HN Refer to the appearance of Group 6 45 55 75 kW LSLV0750DBU 2LN Refer to the appearance of Group 5 LSLV0750DBU 2HN Refer to the appearance of Group 6 400V 30 37 kW LSLV0370DBU 4LN Refer to the appearance of Group 5 LSLV0370DBU 4HN Refer to the appearance of Group 6 45 55 75kW LSLV0750DBU 4LN Refer to the appearance of...

Page 582: ...t breaking torque ED of DB Resistor for Type A DB Unit refer to the table of 11 7 6 DB Resistors and Resistance of DB Resistor for type B and C refer to the manual of DB Unit 11 7 2 Terminal arrangement Group 1 Group 2 Terminals Functions G Ground Terminal B2 Terminal for connection with B2 of DBU B1 Terminal for connection with B1 of DBU N Terminal for connection with N of Inverter P Terminal for...

Page 583: ...inal for connection with N of Inverter P Terminal for connection with P of Inverter Group 5 Terminals Functions P Terminal for connection with P of Inverter N Terminal for connection with N of Inverter B1 Terminal for connection with B1 of DBU B2 Terminal for connection with B2 of DBU N C Unused E Ground Terminal Group6 A Frame 37kW 75kW 4 P N B1 B2 N C E ...

Page 584: ...al for connection with N of Inverter B1 Terminal for connection with B1 of DBU B2 Terminal for connection with B2 of DBU E Unused Note You must refer to dynamic braking unit manual for choice the braking resistor to use the dynamic braking unit 11 7 3 Dynamic Breaking DB Unit DB resistor basic wiring P N B1 B2 N C E P N B1 B2 E ...

Page 585: ...ion B1 B2 Wire correctly referring to wiring diagram DB Resistors connect with B1 B2 of DB Unit In case of large capacity it may be necessary to connect more than 2 sets of DB Unit according to the usage environment In such cases check the DB Unit manual 11 7 4 Dimensions ...

Page 586: ...Technical Specification 573 Group1 Group2 Group3 Group4 Group5 166 2 5 25 5 24 2 80 80 123 Dynamic RESE POWE RUN OHT OCT 231 1 2 15 27 130 7 5 ...

Page 587: ...e Capacity of applied motor Dimension mm Hole position for installation mm Weight Hole size for installation V kW W H H2 D W1 H1 kg 220 15 140 227 4 192 76 4 125 215 4 1 50 M4 22 1 55 37 1 57 75 1 84 440 15 1 53 22 1 55 37 1 56 75 1 85 ...

Page 588: ...lation mm Weig ht Hole size for installati on W H H2 D W1 H1 Kg A Fra me 220 V 37 kW 50 200 219 190 165 2 160 208 5 3 77 M6 440 V 37 kW 50 3 84 75 kW 50 3 98 B Fra me 220 V 75 kW 50 215 340 311 175 329 5 8 26 90 kW 50 8 48 440 V 90 kW 50 8 30 132 kW 50 8 40 C Fra me 440 V 160 kW 50 240 380 351 200 369 5 9 40 220 kW 50 9 70 ...

Page 589: ...aking if the temperature is exceeded over setting value due to over heat of Heatsink Cut the TURN ON signal of DBU and LED is turn on by working overheat protection function 11 7 6 DB Resistors Product kW DB unit Torque 100 Torque 150 Resistor Ω Wattage W ED 5 Wattage W ED 10 Resistor Ω Wattage W ED 5 Wattage W ED 10 3 Phase 200 V 0 75 200 100 200 150 150 300 1 5 100 200 400 60 300 600 2 2 60 300 ...

Page 590: ...BU U 11 4 4800 9600 DBH 11 4 4800 9600 8 4 7200 14400 LSLV DB 11 4 4800 9600 8 4 7200 14400 75 DBU U 8 4 6400 12800 DBH 8 4 6400 12800 6 10000 20000 DB 8 4 6400 12800 6 10000 20000 90 LSLV DB 6 10000 20000 5 13000 26000 110 LSLV DB 5 13000 26000 4 16000 32000 132 LSLV DB 4 16000 32000 3 4 20000 40000 160 LSLV DB 3 4 20000 40000 2 8 24000 48000 185 LSLV DB 2 8 24000 48000 2 4 26000 52000 220 LSLV D...

Page 591: ...DB Resistor are valid only for the DB unit of type A and the values of DB Resistor for type B and C refer to the manual of DB Unit Rating Watt of DBU has to be doubled when ED is doubled 11 8 Inverter Continuous Rated Current Derating Derating by carrier frequency The continuous rated current of the inverter is limited based on the carrier frequency Refer to the following graph 200 V 0 75 kW 18 5 ...

Page 592: ...0 355 kW 400 kW 500 kW fs def kHz 3 3 3 3 3 2 1 5 1 5 fs c kHz 8 8 8 2 4 fs ma x kHz 15 15 15 10 7 5 4 4 DR1 70 65 65 95 92 DR2 60 55 50 60 55 76 75 65 fs def Switching frequency for continued operation fs c Switching frequency where the firstcurrent derating ends ffs max The maximum switching frequency where the secondcurrent derating begins ...

Page 593: ...ing by Ambient Temperature and Installation Type Ambient temperature and installation type determine the constant rated current of the inverter Refer to the following graph A 2 5 current derating is applied during operation when the ambient temperature is above 40 The inverter must be operated at less than 75 of its rated capacity when the ambient temperature is above 50 ...

Page 594: ...th a three phase 60 Hz supply However under single phase use the DC bus ripple becomes 120 Hz and the VFDs DC bus circuit is subject to higher stress in order to deliver equivalent power Additionally input currents and harmonics increase beyond those encountered with three phase input Input current distortion of 90 THD and greater can be expected under single phase input compared to approximately ...

Page 595: ...onsideration for the VFD Input current harmonic distortion will increase beyond that with a three phase supply making the overall input power factor low Input current distortion over 100 is likely under single phase conditions without a reactor Therefore the reactor is always required When using a motor that is selected by the three phase drive rating criteria when using single phase input it may ...

Page 596: ...ase supply The average bus voltage with single phase input is lower than the equivalent of a three phase input Therefore the maximum output voltage motor voltage will be lower with a single phase input The minimum input voltage must be no less than 228Vac for 240 volt models and 456Vac for 480 volt models to ensure motor voltage production of 207Vac and 415Vac respectively Thus if full motor torqu...

Page 597: ...ses can be used for single phase as well If phase open trip occurs please turn off the input phase open protection PRT 05 Protection for output current like OCT or IOLT is based on 3 phase input ratings which is larger than single phase input User should set the parameters that are relative to motor information BAS 11 16 overload trip PRT 17 22 and E thermal functions PRT 40 43 The minimum input v...

Page 598: ...e product warranty covers product malfunctions under normal operating conditions for 12 months from the date of installation If the date of installation is unknown the product warranty is valid for 18 months from the date of manufacturing Please note that the product warranty terms may vary depending on purchase or installation contracts Warranty Service Information During the product warranty per...

Page 599: ...ence 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 Visit us at http www lselectric co kr for detailed service information ...

Page 600: ...onics manufacturers and the EMC guidelines for safe noise control Low Voltage Directive We have confirmed that our products comply with the Low Voltage Directive EN 61800 5 1 EMC Directive The Directive defines the requirements for immunity and emissions of electrical equipment used within the European Union The EMC product standard EN 61800 3 covers requirements stated for drives EAC mark The EAC...

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Page 604: ...n 79 117 linear pattern 117 S curve pattern 117 Acc Dec reference 113 Delta Freq 112 Max Freq 112 Acc Dec reference frequency 112 Ramp T Mode 112 Acc Dec stop 79 120 Acc Dec time 111 Acc Dec time switch frequency 116 configuration via multi function terminal 113 maximum frequency 111 operation frequency 113 Acc Dec time configuration 79 accelerating start 80 add User group UserGrp SelKey 251 ADV a...

Page 605: ...n 79 automatic torque boost 80 auto tuning 211 auxiliary command source 81 auxiliary frequency 143 auxiliary frequency reference configuration 144 auxiliary reference 143 auxiliary reference gain 144 final command frequency calculation 145 main reference 143 auxiliary motor PID compensation 283 284 B B terminal Normally Closed 139 BACnet 344 381 analog input object 387 analog value object 386 bina...

Page 606: ...ess 358 communication line connection 343 communication parameters 344 communication speed 344 communication standards 342 memory map 349 parameter group for data transmission 349 PLC 342 saving parameters defined by communication 348 setting virtual multi function input 348 Communication function group Refer to COM communication function group communication system configuration 343 compatible com...

Page 607: ...ll operation 155 Acc Dec dewel frequency 155 acceleration dwell 155 deceleration dwell 155 dynamic braking DB resistor configuration 326 E earth leakage breaker 547 Easy Start On 252 EEP Rom Empty 247 EG terminal 40 electronic thermal overheating protection ETH 310 EMC filter 43 asymmetric power source 43 disabling 43 44 45 46 enable 44 enabling 44 45 46 emergency stop fault trip Refer to BX Enclo...

Page 608: ...n 339 Over Current1 339 Over Current2 339 Over Heat 339 Over Load Trip 339 Over Voltage 339 ParaWrite Trip 339 Pipe Broken Trip 339 Pipe Broken Warning 340 Under Load Trip 339 FE Frame Error 356 ferrite 40 fieldbus 86 103 communication option 137 FIFO FILO 263 filter time constant 88 filter time constant number 138 Fire mode 232 Fire Mode Warning 540 flow compensation 191 maximum compensation valu...

Page 609: ...put open phase fault trip Refer to In Phase Open input phase open input open phase protection 320 input power frequency 246 input power voltage 246 input power voltage settings 246 input terminal 38 139 A NO or B NC terminal configuration 139 bit setting 139 CM terminal 38 I2 terminal 39 NO NC configuration 139 P1 P7 terminal 38 TI terminal 39 V1 terminal 38 VR terminal 38 input terminal contact A...

Page 610: ... 40 keypad display 54 keypad features fault monitoring 75 navigating directly to different codes 68 navigating through the codes 66 operation modes 62 parameter settings 70 selecting a display mode 61 selecting the status bar display item 73 setting the monitor display items 72 switching between groups in Parameter Display mode 64 switching between groups in User Macro mode 65 keypad title update ...

Page 611: ... Vacuum Pump MC6 523 Macro function group 499 Macro group 499 Macro mode 61 macro selection 255 Macro selection Basic 255 Circulation Pump 255 Compressor 255 Constant Torque 255 Coolong Tower 255 Supply Fan 255 Vacuum Pump 255 magnetic contactor 575 main capacitor life estimation 335 CAP Level 1 336 CAP Level 2 336 maintenance 551 manual torque boost 80 125 master 343 maximum allowed prospective s...

Page 612: ... input terminal control 138 140 multi function input terminals factory default 38 multi function output terminal multi function output category Q1 Define 430 multi function output on off control 290 multi function output terminal and relay settings 298 multi function output terminal delay time settings 304 multi function relay1 category Relay 1 429 multi function relay2 category Relay 2 430 multi ...

Page 613: ...ng 314 overload rate 242 overload trip Refer to Over Load P P terminal DC link terminal 33 34 P I gain 238 P1 terminal DC link terminal 31 P2 terminal DC link terminal 31 32 P2 B terminal 31 P3 terminals DC link terminal 32 parameter 70 display changed parameter 250 hide parameter mode 249 initializing the parameters 77 parameter initialization 248 parameter lock 249 parameter settings 70 password...

Page 614: ...esume by serial communication 308 Power on Run 108 pre heating 209 preparing the installation 1 press regeneration prevention 291 P gain I gain 292 product identification 1 product specification details 566 protocol BACnet protocol 381 LS INV 485 protocol 352 Metasys N2 protocol 392 PRT protection features group 60 PRT Protection function group 479 Pulse output terminal Refer to TO terminal pump c...

Page 615: ...ys and indicators 82 Power on Run PowerOn Resume in each mode 85 switching between the modes 84 sequence common terminal Refer to CM terminal side by side installation 12 slave 343 slip 157 slip compensation operation 157 soft fill control soft fill operation 173 speed command loss 323 speed search operation 235 Flying Start 1 236 Flying Start 2 236 options 236 P I gain 238 speed unit selection Hz...

Page 616: ...ule types 215 parameters 215 RTC battery 215 RTC clock 215 Time Event 215 Time Period Module 215 Time Period Module 215 time scale setting 112 0 01sec 112 0 1sec 112 1sec 112 timer 256 protection features groupPRT protection features group TO terminal 296 torque 26 torque boost 125 auto torque boost 126 manual torque boost 125 overexcitation 125 trip 536 erasing trip history 254 fault waring list ...

Page 617: ... voltage input 96 Vacuum Pump MC6 523 variable torque load 122 vent cover 12 virtual multi function input 348 voltage current output terminal Refer to AO terminal VR terminal 38 W warning 339 536 fault warning list 339 warning message 540 Warning 340 wiring 14 26 circuit breaker 575 control terminal board wiring 36 copper cable 26 disassembling the cover 27 ferrite 40 ground 28 power terminal boar...

Page 618: ...ce China Tel 86 10 5095 1631 E Mail khpaek lselectric com cn LS ELECTRIC Shanghai Office China Tel 86 21 5237 9977 E Mail tsjun lselectric com cn LS ELECTRIC Guangzhou Office China Tel 86 20 3818 2883 E Mail chenxs lselectric com cn LS ELECTRIC Chengdu Office China Tel 86 28 8670 3201 E Mail yangcf lselectric com cn LS ELECTRIC Qingdao Office China Tel 86 532 8501 2065 E Mail wangzy lselectric com...

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