LS ELECTRIC H100 0008-2(PLUS) Скачать руководство пользователя

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Table of Functions

135

Code
(Comm.
Address)

Name

LCD
Display

Setting Range

Initial Value

Prope
rty*

Ref.

AP2-15

(0h1A0F)

Pump clean setting1

Pump
Clean
Mode1

None

0: None

DI
Dependent

Output
Power

Output
Current

AP2-16

(0h1A10)

Pump clean setting2

Pump
Clean
Mode2

None

0: None

Start

Stop

Start and
Stop

AP2-17

(0h1A11)

Pump clean load
setting

PC Curve
Rate

0.1

–200.0 (%)

100.0

AP2-18

(0h1A12)

Pump clean
reference band

PC Curve
Band

0.0

–100.0 (%)

5.0

AP2-19

(0h1A13)

Pump clean
operation delay time

PC Curve
DT

0.0

–6000.0 (sec) 60.0

AP2-20

(0h1A14)

Pump clean start
delay time

PC Start
DT

0.0

–6000.0 (sec) 10.0

AP2-21

(0h1A15)

0 speed operating
time at Fx/Rx
switching

PC Step
DT

0.1

–6000.0 (sec) 5.0

AP2-22

(0h1A16)

Pump clean Acc time

PC Acc
Time

0.0

–600.0 (sec)

10.0

AP2-23

(0h1A17)

Pump clean Dec
time

PC Dec
Time

0.0

–600.0 (sec)

10.0

AP2-24

(0h1A18)

Forward step
maintaining time

FwdStead
yTime

0.0

–600.0 (sec)

10.0

AP2-25

(0h1A19)

Forward step
maintaining
frequency

FwdStead
yFreq

0.00, Low Freq

–

High Freq

30.00

AP2-26

(0h1A1A)

Reverse step
running time

Rev
SteadyTim
e

0.0

–600.0 (sec)

10.0

Содержание H100 0008-2(PLUS)

Страница 1: ...ledge 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 ls electric com ...

Страница 2: ...ist you with this Mounting Instruction Ensure that there is sufficient space to meet the clearance specifications and that there are no obstacles impeding the cooling fan s air flow as shown below When installing multiple drives into the same enclosure panel Side by side installation mount the drives with the minimum clearance of 2 mm while removing optional top covers installation space Mounting ...

Страница 3: ...t For the larger H100 s remove the screws securing the metal cover 0 75 90 kW Models 110 185 kW Models 220 500 kW Models Wiring the VFD Power The following figures show main circuit terminal arrangement on the drive WARNING B1 B2 terminals are for the brake resistor Do not connect B1 B2 terminals to earth ground WARNING Power supply cables must be connected to R S and T terminals Connecting power ...

Страница 4: ...e figures below show the control circuit terminal arrangement on the drive Switch Description SW1 Terminating Resistor Left On Right Off SW2 Left PNP Right NPN SW3 Left V1 Right T1 PTC SW4 analog input Left I2 Right V2 SW5 analog output Left VO Right IO ...

Страница 5: ...uency reference input pulse train Setup or modify frequency references using pulse inputs from 0 to 32 kHz Low Level 0 0 8 V High Level 3 5 12 V Function Label Name Description Analog output AO Voltage Current Output Output voltage 0 10 V Maximum output voltage current 12 V 10 mA Output current 0 20 mA Maximum output current 24 mA Factory default output Frequency Terminal Contacts Q1 Multi functio...

Страница 6: ...ESET function ESC Key Used to cancel an input during parameter setup HAND Key Used to switch to HAND local manual operation mode OFF Key Used to switch to OFF standby mode or to reset the inverter faults AUTO Key Used to switch to AUTO remote operation 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 th...

Страница 7: ...ode The PAR mode contains all parameters and monitors These parameters and monitors are divided into intuitive groups Pressing the LEFT or RIGHT arrows will move through the different parameter groups While the UP and DOWN arrows will navigate through the different parameter code s in the selected group Any of the above parameters settings can be changed by pressing the PROG ENT key selecting the ...

Страница 8: ...down the VFD Wait at least 5 minutes to let the VFD capacitors discharge Swap any two output leads between the VFD and the motor This will change motor direction Verify correct rotation via the previous steps Changing Acceleration Time Example 1 Press the MODE key from the main display to access PAR Mode 2 In the DRV group press down to select DRV 03 Acc Time 3 Press the PROG ENT key access the cu...

Страница 9: ...n AUTO mode if the command source is set as keypad DRV 08 Auto Mode Selection AUTO Mode Sel 1 DRV 08 0 Enabled If DRV 08 AUTO Mode Sel is set to 0 Enabled the inverter starts to operate only when the operation command is input in AUTO mode 2 DRV 08 1 Disabled Factory default If DRV 08 AUTO Mode Sel is set to 1 Disabled the inverter automatically switches to AUTO mode and starts to operate when the...

Страница 10: ...ault 3 Unlocked To make HAND OFF AUTO enabled DRV 08 AUTO Mode Sel Set whether to use AUTO mode 0 Enabled 1 Disabled Factory default DRV 24 Hand Key Sel This function enables disables the HAND key on the keypad Settings Description 0 None Follow the settings of DRV 05 KPD H O A Lock 1 Disabled Regardless of the setting of DRV 05 KPD H O A Lock the HAND key is disabled DRV 25 HAND Cmd Freq Frequenc...

Страница 11: ...consists of maintained run signals This can be accomplished via toggle switches relays jumpers etc Default parameters support this operation Speed POT Wiring 0 10VDC Controlling the VFD with an external speed POT can be accomplished by setting DRV7 2 V1 and wiring like below For 0 10VDC signals from a BAS or Controller simply wire to V1 and CM BAS or Controller Wiring 4 20mA For speed control over...

Страница 12: ...Set input voltage 11 DRV 06 Cmd Source Cmd Source Set command source 12 DRV 07 Freq Ref Src Set Frequency Reference source 13 DRV 03 Accel Time Sets the time to accelerate from 0 to maximum frequency 14 DRV 04 Decel Time Sets the time to decelerate from maximum frequency to 0 15 ADV 08 Stop mode Stopping Method 0 Decel stop 1 DC Brake 2 Coast stop 4 Power Braking 16 ADV 09 Run Prevent Choose a dir...

Страница 13: ...or is greater than the preset value of the overload trip level OL Trip Level and continues to be supplied during the overload trip time OL Trip Time the inverter output is either blocked according to the preset mode from PRT 17 or slows to a stop after deceleration 22 PRT 22 OL Trip Time 23 PRT 40 ETH Trip Sel 0 None 1 Trip Coast 2 Decel Stop 24 PRT 41 Motor Cooling 0 Self cool 1 Forced cool 25 PR...

Страница 14: ...0 1800 1200 Poles 2 4 6 Example If actual motor RPM is 3450 Set Motor Poles 2 This is due to motor slip In this example the motor has 150 RPM of slip Slip Synchronous speed Rated Speed 2 Commonly Set Parameters Group No Description Default Set Options DRV 1 Command Freq 0 00 0 Max Freq DRV 3 Acc Time 20 0 6000 DRV 4 Dec Time 30 1 6000 DRV 6 Run Command 1 Fx Rx 1 0 Keypad 1 Fx Rx 1 2 Fx Rx 2 3 Comm...

Страница 15: ... Unit Scaling PID 50 PID Unit Sel Setting 0 CUST 14 I 28 kg h 1 15 kW 29 gl s 2 PSI 16 HP 30 gl m 3 F 17 mpm 31 gl h 4 C 18 ft 32 ft s 5 inWC 19 m s 33 f3 s ft3 min 6 inM 20 m3 s m 3 S 34 f3 h ft3 h 7 Bar 21 m 3 m m 3 min 35 lb s 8 mBar 22 m 3 h m 3 h 36 lb m 9 Pa 23 l s 37 lb m 10 kPa 24 l m 38 lb h 11 Hz 25 l h 39 ppm 12 Rpm 26 kg s 40 pps 13 V 27 kg m 41 Wb 14 I 29 gl s PID 51 PID Unit Scale Ad...

Страница 16: ... V2 7 Pulse 3 I2 8 V3 4 Int485 9 I3 4 Sleep Mode PID 59 Sleep Level type The following sleep level types can be selected Setting 1 Frequency Factory Default 2 Output Current 3 PID Feedback Value 4 RPM 5 Flow Rate PID 62 PID Sleep 0 DT PID 63 PID Sleep 0 Lev If the operating frequency stays below the frequencies set at PID 63 for the set times at PID 62 the VFD enters standby mode PID 56 Pump Minim...

Страница 17: ...operation resumes when PID feedback variation from the PID reference exceeds the values set in PID 65 for more than the time set in PID 64 5 Lost Feedback Detection Mode Lost Feedback Detection shuts down the pump system when the feedback device failed The set values in PRT 14 and PRT 15 of frequency command parameters are also used for the operation of Lost Feedback Detection Time and Lost Feedba...

Страница 18: ...eedback Detection Mode AP2 49 High Feedback Level Fault Delay Time AP2 50 High Feedback Level PID Feedback Output Freq High Fdb Digital Output High Fdb Trip High Fdb lvl Hysteresis High Fdb Time High Fdb Time AP2 51 Low Feedback Mode AP2 52 Low Feedback Level Fault Delay Time AP2 53 Low Feedback Level AP2 54 Hysteresis Level PID Feedback Output Freq Low Fdb Digital Output Low Fdb Trip Low Fdb leve...

Страница 19: ...tion and deceleration time based on a certain frequency in order to protect the bearing of the submersible pump AP2 40 Thrust Frequency AP2 41 Thrust Bearing Acceleration Time AP2 42 Thrust Bearing Deceleration Time Output Frequency Thrust Operation Hand Auto Operation Thrust Frequency Thrust Acc Time ...

Страница 20: ...eypad 1 5 DRV 24 Hand Key Sel 0 None 6 ADV 8 Stop Mode 7 DRV 14 Motor Capacity 8 BAS 10 60 50 Hz Sel 9 BAS 11 Pole Number 10 BAS 12 Rated Slip 11 BAS 13 Rated Curr 12 BAS 15 Motor Volt 1 Yes 13 ADV 9 Run Prevent 2 Reverse Prev 14 ADV 64 Fan Control 2 Temp Control 15 PID 1 PID Sel 1 Yes 16 PID 10 PID SP 1 Src 0 Keypad 17 PID 11 PID SP 1 Set 18 PID 20 PID Fdb Source 3 I2 19 PID 25 PID P Gain 1 20 PI...

Страница 21: ...0 Thrust Freq 0 00 35 AP2 41 Thrust Acc Tm 1 0 36 AP2 42 Thrust Dec Tm 5 0 37 AP2 48 High Fdb Mode 2 Trip Coast 38 AP2 49 High Fdb Time 5 0 39 AP2 50 High Fdb Level 95 0 40 AP2 51 Low Fdb Mode 2 Trip Coast 41 AP2 52 Low Fdb Time 10 0 42 AP2 53 Low Fdb Level 0 0 43 PRT 8 RST Restart 00000011 44 PRT 9 Retry Number 5 45 PRT 11 Retry Delay 20 46 AP2 75 LostFbk Mode 1 Yes 47 PRT 14 Lost Cmd Time 1 0 48...

Страница 22: ...r 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 sh...

Страница 23: ... 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...

Страница 24: ... 2 1 Display Mode Selection 58 3 2 2 Operation Modes 59 3 2 3 Switching between Groups in Parameter Display Mode 60 3 2 4 Switching between Groups in User Macro Mode 61 3 2 5 Navigating through the Codes Functions 62 3 2 6 Navigating Directly to Different Codes 64 3 2 7 Parameter Settings available in Monitor Mode 66 3 2 8 Setting the Monitor Display Items 68 3 2 9 Selecting the Status Bar Display...

Страница 25: ... 6 2 Product Specification Details 178 6 3 External Dimensions 181 6 4 Peripheral Devices 186 6 5 Fuse and Reactors Specifications 188 6 6 Terminal Screw Specifications 190 6 7 Dynamic braking unit DBU and Resistors 192 6 7 1 Dynamic braking unit DBU 192 6 7 2 Terminal arrangement 194 6 7 3 Dynamic Braking DB Unit DB resistor basic wiring 196 6 7 4 Dimensions 197 6 7 5 Display Functions 200 6 7 6 ...

Страница 26: ......

Страница 27: ...ange 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 6 1 Input and Output Specifications on page 172 Note Check the product name open the packaging and...

Страница 28: ...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 ...

Страница 29: ...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 ...

Страница 30: ...Preparing the Installation 4 37 90 kW 3 Phase ...

Страница 31: ...Preparing the Installation 5 110 132 kW 3 Phase ...

Страница 32: ...Preparing the Installation 6 160 185 kW 3 Phase ...

Страница 33: ...Preparing the Installation 7 220 250 kW 3 Phase ...

Страница 34: ...Preparing the Installation 8 315 400 kW 3 Phase ...

Страница 35: ...Preparing the Installation 9 500 kW 3 Phase ...

Страница 36: ... 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...

Страница 37: ... 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...

Страница 38: ... position of the inverter s cooling fan and the ventilation louver The cooling fan must be positioned to efficiently transfer the heat generated by the operation of the inverter 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 insta...

Страница 39: ... if 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 t...

Страница 40: ...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...

Страница 41: ...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 ...

Страница 42: ...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 ...

Страница 43: ...ation instructions 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 Post Installation Checks Turning on the Inverter Parameter Configuration Testing Moun...

Страница 44: ...ng the inverter and peripheral devices Prior to installing the inverter ensure that the product is suitable for the application power rating capacity etc Ensure that all of the required peripherals and optional devices resistor brakes contactors noise filters etc are available 200 V 0 75 18 5kW 400 V 0 75 30kW 400 V 37 500kW ...

Страница 45: ... 8 ft 10 m from the power source if the input power exceeds 600 kVA Refer to 6 5 Fuse and Reactors Specifications on page 188 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 tha...

Страница 46: ...Installing the Inverter 20 200 V 0 75 18 5kW 400 V 0 75 185kW 400 V 220 500kW ...

Страница 47: ...er s covers or plastic surfaces The inverter may tip over if covers break causing injuries or damage to the product Always support the inverter using the metal frames when moving it 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 insta...

Страница 48: ...Installing the Inverter 22 ...

Страница 49: ...ctronic components 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 pr...

Страница 50: ...Installing the Inverter 24 110 185kW Models 220 500kW Models 3 Remove the keypad from the inverter body 0 75 30 kW Models 37 90 kW Models ...

Страница 51: ...0 kW Models 5 Locate the RTC battery holder on the I O PCB and remove the protective insulation strip by gently pulling it 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 ...

Страница 52: ...appropriate for power terminal wiring to ensure that voltage drops do not exceed 2 Use copper cables rated at 600 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 w...

Страница 53: ...Then remove the cover by lifting it from the bottom and away from the front 0 75 90 kW Models 110 185 kW Models 220 500 kW Models 2 Push and hold the levers on both sides of the cable 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 Con...

Страница 54: ...below to install the ground connection for the inverter 1 Locate the ground terminal 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 ...

Страница 55: ...duct 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 understand the function and location of each terminal before ...

Страница 56: ... 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 d alimentation et une valeur nominale de 300 V 75 pour ...

Страница 57: ...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 ...

Страница 58: ...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 ...

Страница 59: ...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 ...

Страница 60: ...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 ...

Страница 61: ...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 ...

Страница 62: ...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...

Страница 63: ...37 Installing the Inverter Input and Output Control Terminal Block Wiring Diagram ...

Страница 64: ... 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...

Страница 65: ...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...

Страница 66: ...nction relay output A contact Defined 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 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 any safety related wiring does not ...

Страница 67: ...ource 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 source and the CM terminal NPN Mode Sink Select NPN using the PNP NPN selection switch SW2 Note that the fa...

Страница 68: ...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 ...

Страница 69: ...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 ...

Страница 70: ...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 ...

Страница 71: ...in EMC Filter for 110 500 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 ...

Страница 72: ...ase Step 7 Re assembling 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 ...

Страница 73: ...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 ...

Страница 74: ...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 ...

Страница 75: ...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...

Страница 76: ...actory Default Value RESET function 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 d...

Страница 77: ...rection 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 operation fr...

Страница 78: ...mmand 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 Monitor mode ...

Страница 79: ... 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 AP1 Application 1 group AP2 Application 2 group AP3 Application 3 group AP4 Application 4 group PRT Protection group 4 Multi funct...

Страница 80: ... 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...

Страница 81: ...Operations 55 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 ...

Страница 82: ...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...

Страница 83: ...gital multi functional inputs and 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 install...

Страница 84: ...s 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 Confirm the correct values or the correct range of the values then follow the examples below to configure the inverter with the keypad 3 2 1 Display Mode Selection The following figure illustrates how the display modes change when you press th...

Страница 85: ... local control mode HAND mode LED turns on the OFF LED turns off and the inverter begins to operate 4 Press the OFF key to stop the inverter operation The inverter stops operating and the OFF LED turns on Operating the inverter in AUTO Mode 1 In OFF mode when the OFF LED is on move to Parameter mode and configure the command source at DRV 07 frequency reference source 2 Press the AUTO key to enter...

Страница 86: ... must be pressed to start the inverter operation The inverter is operable only in HAND and AUTO modes but the Fire mode functions operate even when the inverter is in OFF mode 3 2 3 Switching between Groups in Parameter Display Mode After entering Parameter mode from Monitor mode press the Right key to move to the next code Press the Left key to go back to the previous code The keypad OFF LED is t...

Страница 87: ...etween Groups in User Macro Mode User Macro mode is accessible only when the user codes are registered or when the macro features are selected 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 ...

Страница 88: ... AUTO mode In Monitor mode press the Up or Down key to move the cursor up or down Different values such as the operating frequency the output current or voltage are displayed according to the cursor position The cursor does not move up or down in HAND mode or in OFF mode In AUTO mode the cursor appears to the left of the frequency information Press the Down key Information about the second item in...

Страница 89: ...e left of the third item Press the Up key twice Information about the first item in Monitor mode Frequency 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 Code Navigatio...

Страница 90: ... 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 Codes Parameter mode User Macro mode and Config mode allow direct jumps to specific codes The code used for this feature is ...

Страница 91: ...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...

Страница 92: ... 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 ...

Страница 93: ...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...

Страница 94: ...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...

Страница 95: ...perating 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 Monitor mode is displayed On the top right edge of the display the fr...

Страница 96: ...n 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 ...

Страница 97: ... 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...

Страница 98: ...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...

Страница 99: ...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...

Страница 100: ...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 Property Ref DRV 00 Jump Code Jump Code 1 99 9 O DRV 01 0h1101 Target frequency Cmd Frequency 0 00 Low Freq High Freq 0 00 O DRV 02 0h1102 Keypad run direction Keypad Run Dir 0 Reverse 1 O 1 Forward DRV 03 0h1103 Acceleration time Acc T...

Страница 101: ... Keypad 2 2 V1 4 V2 5 I2 6 Int 485 7 FieldBus 9 Pulse 101 V3 11 I3 DRV 08 0h1108 AUTO mode selection AUTO Mode Sel 0 Enabled 1 Disabled Δ 1 Disabled DRV 09 0h1109 Control mode Control Mode 0 V F 0 V F Δ 1 Slip Compen DRV 11 0h110B Jog frequency Jog Frequency 0 00 Low Freq High Freq 10 00 O DRV 12 0h110C Jog run acceleration time Jog Acc Time 0 0 600 0 sec 20 0 O 1 10 V3 11 I3 of DRV 07 are availab...

Страница 102: ...y 0 0 2 Kw 0 3HP Dependent on motor setting Δ 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 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 150 0HP 22...

Страница 103: ... 1 Auto 1 2 Auto 2 DRV 162 0h1110 Forward Torque boost Fwd Boost 0 0 15 0 2 0 0 75 90kW Δ 1 0 110 500kW DRV 17 0h1111 Reverse Torque boost Rev Boost 0 0 15 0 2 0 0 75 90kW Δ 1 0 110 500kW DRV 18 0h1112 Base frequency Base Freq 30 00 400 00 Hz 60 00 Δ DRV 19 0h1113 Start frequency Start Freq 0 01 10 00 Hz 0 50 Δ DRV 20 0h1114 Maximum frequency Max Freq 40 00 400 00 Hz 60 00 Δ DRV 21 0h1115 Select s...

Страница 104: ...DRV 25 0h1119 Hand mode operation frequency HAND Cmd Freq 0 00 Low Freq High Freq 0 00 O DRV 26 0h111A Hand mode operation Frequency reference source HAND Ref Mode 0 HAND Parameter 0 HAND Parameter Δ 1 V1 2 V2 3 V3 4 I2 5 I3 6 Follow AUTO DRV 30 0h111E kW HP unit selection kW HP Unit Sel 0 kW 1 HP O 1 HP DRV 31 0h111F PopUp easy start PopUp EzStart 0 No 0 No Δ 1 Yes DRV 32 0h1120 Regional setting ...

Страница 105: ...Name LCD Display Setting Range Initial value Property Ref software version DRV 97 0h1161 Display the debug version Inv Debug Ver X DRV 98 0h1162 Display I O S W Version 1 I O S W Ver 1 X DRV 99 0h1163 Display I O S W Version 2 I O S W Ver 2 X ...

Страница 106: ...AS 00 Jump Code Jump Code 1 99 20 O BAS 01 0h1201 Auxiliary reference source Aux Ref Src 0 None 0 None Δ 1 V1 3 V2 4 I2 6 Pulse 7 Int 485 8 FieldBus 10 EPID1 Output 11 EPID1 Fdb Val 123 V3 13 I3 BAS 024 0h1202 Auxiliary command calculation type Aux Calc Type 0 M G A 0 M G A Δ 1 M G A 2 M G A 3 M M G A 4 M G 2 A 50 3 12 V3 13 I3 of BAS 01 are available when Extension IO option is equipped Refer to ...

Страница 107: ...nd Src 0 Keypad 1 Fx Rx 1 Δ 1 Fx Rx 1 2 Fx Rx 2 3 Int 485 4 FieldBus 5 Time Event BAS 05 0h1205 Second frequency source Freq 2nd Src 0 Keypad 1 0 Keypad 1 O 1 Keypad 2 2 V1 4 V2 5 I2 6 Int 485 7 FieldBus 9 Pulse 105 V3 11 I3 BAS 07 0h1207 V F pattern options V F Pattern 0 Linear 0 Linear Δ 1 Square 2 User V F 5 10 V3 11 I3 of BAS 05 are available when Extension IO option is equipped Refer to Exten...

Страница 108: ... 48 Dependent on motor setting Δ BAS 12 0h120C Rated slip speed Rated Slip 0 3000 RPM Δ BAS 13 0h120D Motor rated current Rated Curr 0 0 1000 0 A Δ BAS 14 0h120E Motor no load current NoloadCurr 0 0 1000 0 A Δ BAS 15 0h120F Motor rated voltage Rated Volt 0 170 480 V 0 Δ BAS 16 0h1210 Motor efficiency Efficiency 70 100 Dependent on motor setting Δ BAS 18 0h1212 Trim power display Trim Power 70 130 ...

Страница 109: ...User voltage2 User Volt 2 0 100 50 Δ BAS 45 0h122D User frequency3 User Freq 3 0 00 Maximum frequency Hz 45 00 Δ BAS 46 0h122E User voltage3 User Volt 3 0 100 75 Δ BAS 47 0h122F User frequency4 User Freq 4 0 00 Maximum frequency Hz 60 00 Δ BAS 48 0h1230 User voltage4 User Volt 4 0 100 100 Δ BAS 507 0h1232 Multi step speed frequency1 Step Freq 1 Low Freq High Freq 10 00 O BAS 51 0h1233 Multi step s...

Страница 110: ...gh Freq 60 00 O BAS 70 0h1246 Multi step acceleration time1 Acc Time 1 0 0 600 0 sec 20 0 O BAS 71 0h1247 Multi step deceleration time1 Dec Time 1 0 0 600 0 sec 20 0 O BAS 728 0h1248 Multi step acceleration time2 Acc Time 2 0 0 600 0 sec 30 0 O BAS 73 0h1249 Multi step deceleration time2 Dec Time 2 0 0 600 0 sec 30 0 O BAS 74 0h124A Multi step acceleration time3 Acc Time 3 0 0 600 0 sec 40 0 O BAS...

Страница 111: ...30 0 O BAS 81 0h1251 Multi step deceleration time6 Dec Time 6 0 0 600 0 sec 30 0 O BAS 82 0h1252 Multi step acceleration time7 Acc Time 7 0 0 600 0 sec 20 0 O BAS 83 0h1253 Multi step deceleration time7 Dec Time 7 0 0 600 0 sec 20 0 O 4 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 e...

Страница 112: ... gradient Acc S End 1 100 40 Δ ADV 0510 0h1305 S curve deceleration start point gradient Dec S Start 1 100 40 Δ ADV 06 0h1306 S curve deceleration end point gradient Dec S End 1 100 40 Δ ADV 07 0h1307 Start Mode Start Mode 0 Acc 0 Acc Δ 1 DC Start ADV 08 0h1308 Stop Mode Stop Mode 0 Dec 0 Decel Stop Δ 1 DC Brake 2 Coast Stop 4 Power Braking ADV 09 0h1309 Selection of prohibited Run Prevent 0 None ...

Страница 113: ...lock Time 0 00 60 00 sec 0 00 0 75 90kW Δ 2 00 110 500kW ADV 15 0h130F DC braking time DC Brake Time 0 00 60 00 sec 1 00 Δ ADV 16 0h1310 DC braking rate DC Brake Level 0 200 50 Δ ADV 17 0h1311 DC braking frequency DC Brake Freq Startfrequency 60 Hz 5 00 Δ ADV 18 0h1312 Keypad power on run enable KPD Pwr on Run 0 No 0 No O 1 Yes ADV 19 0h1313 Keypad power on run delay time KPD Pwr on Dly 0 0 6000 0...

Страница 114: ... value Freq Limit Lo 0 00 Upper limit frequency Hz 0 50 Δ ADV 26 0h131A Frequency upper limit value Freq Limit Hi Lower limit frequency Maximum frequency Hz Max freq Δ ADV 27 0h131B Frequency jump Jump Freq 0 No 0 No Δ 1 Yes ADV 2814 0h131C Jump frequency lower limit1 Jump Lo 1 0 00 Jump frequency upper limit1 Hz 10 00 O ADV 29 0h131D Jump frequency upper limit1 Jump Hi 1 Jump frequency lower limi...

Страница 115: ...ec 1 00 O ADV 44 0h132C Brake release forward frequency BR Rls Fwd Fr 0 00 Max freq Hz 1 00 O ADV 45 0h132D Brake release reverse frequency BR Rls Rev Fr 0 00 Max freq Hz 1 00 O ADV 46 0h132E Brake release engage delay time BR Eng Dly 0 0 100 0 sec 1 0 O ADV 47 0h132F Brake release engage frequency BR Eng Fr 0 00 Max freq Hz 2 00 O ADV 50 0h1332 Energy saving operation E Save Mode 0 None 0 None Δ ...

Страница 116: ...No 0 No O 1 Yes ADV 66 0h1342 Output contact On Off control options On Off Ctrl Src 0 None 0 None O 1 V1 3 V2 4 I2 6 Pulse 716 V3 8 I3 ADV 67 0h1343 Output contact On level On Ctrl Level Output contact off level 100 00 90 00 Δ ADV 68 0h1344 Output contact Off level Off Ctrl Level 100 00 outputcontact on level 10 00 Δ ADV 70 0h1346 Safe operation selection Run En Mode 0 Always Enable 0 Always Enabl...

Страница 117: ...RegenAvdSel 0 No 0 No Δ 1 Yes ADV 75 0h134B Voltage level of regeneration evasion motion for press RegenAvd Level 200 V 300 400 V 350 Δ 400 V 600 800 V 700 ADV 7618 0h134C Compensation frequency limit of regeneration evasion for press CompFreq Limit 0 00 10 00 Hz 1 00 Δ ADV 77 0h134D Regeneration evasion for press P Gain RegenAvdPgain 0 0 100 0 50 0 O ADV 78 0h134E Regeneration evasion for press I...

Страница 118: ...z 110 355 kW 2 0 1 0 4 0 kHz 400 500 kW 1 5 CON 05 0h1405 Switching mode PWM Mode 0 Normal PWM 0 Normal PWM Δ 1 Low leakage PWM CON 13 0h140D Anti hunting regulator mode AHR Sel 0 No 1 Yes Δ 1 Yes CON 14 0h140E Anti hunting regulator P Gain AHR P Gain 0 32767 1000 O CON 15 0h140F Anti hunting regulator start frequency AHR Low Freq 0 00 AHR High Freq 0 50 O CON 16 0h1410 Anti hunting regulator end ...

Страница 119: ...h1448 Speed search reference current SS Sup Current 50 120 0 75 250kW 90 O 315 500kW 80 CON 7320 0h1449 Speed search proportional gain SS P Gain 0 9999 Flying Start 1 100 O Flying Start 2 Dependent on motor setting CON 74 0h144A Speed search integral gain SS I Gain 0 9999 Flying Start 1 200 O Flying Start 2 Dependent on motor setting CON 75 0h144B Output block time before speed search SS Block Tim...

Страница 120: ...v 125 0 145 0 130 0 0 75 90kW Δ 125 0 110 500kW CON 80 0h1450 Energy buffering slip gain KEB Slip Gain buffering slip gain 0 20000 300 O CON 81 0h1451 Energy buffering P Gain KEB P Gain 0 20000 1000 O CON 82 0h1452 Energy buffering I gain KEB I Gain 1 20000 500 O CON 83 0h1453 Energy buffering acceleratio n time KEB Acc Time 0 0 600 0 10 0 0 75 90kW O 30 0 110 500kW 4 5 Input Terminal Group IN Dat...

Страница 121: ...polar 0 Unipolar Δ 1 Bipolar IN 07 0h1507 Time constant of V1 input filter V1 Filter 0 10000 ms 10 O IN 08 0h1508 V1 minimum input voltage V1 Volt x1 0 00 10 00 V 0 00 O IN 09 0h1509 Output at V1 minimum voltage V1 Perc y1 0 00 100 00 0 00 O IN 10 0h150A V1 maximum input voltage V1 Volt x2 0 00 12 00 V 10 00 O IN 11 0h150B Output at V1 maximum voltage V1 Perc y2 0 00 100 00 100 00 O IN 1223 0h150C...

Страница 122: ...0 12 00 V 0 00 O IN 37 0h1525 V2 input filter time V2 Filter 0 10000 msec 10 O IN 38 0h1526 V2 minimum input voltage V2 Volt x1 0 00 10 00 V 0 00 O IN 39 0h1527 Output at V2 minimum voltage V2 Perc y1 0 00 100 00 0 00 O IN 40 0h1528 V2 maximum input voltage V2 Volt x2 0 00 10 00 V 10 00 O IN 41 0h1529 Output at V2 maximum voltage V2 Perc y2 0 00 100 00 100 00 O IN 46 0h152E V2 Rotation direction o...

Страница 123: ...A 20 00 O IN 56 0h1538 Output at I2 maximum current I2 Perc y2 0 00 100 00 100 00 O IN 57 0h1539 I2 rotation direction options I2 Inverting 0 No 0 No O 1 Yes IN 58 0h153A I2 Quantizing level I2 Quantizing 0 0029 0 04 10 00 0 04 O IN 65 0h1541 P1 Px terminal configuration P1 Define 0 None 1 Fx Δ 1 Fx IN 66 0h1542 P2 Px terminal configuration P2 Define 2 Rx 2 Rx Δ IN 67 0h1543 P3 Px terminal configu...

Страница 124: ... Px terminal configuration P7 Define 7 Speed L 9 Sp H Δ IN 72 0h1548 P8 Px terminal configuration P8 Define 8 Speed M 0 None Δ IN 73 0h1549 P9 Px terminal configuration P9 Define 9 Speed H 0 None Δ 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 Gain2 27 PID Ref Change 28 P...

Страница 125: ...3 46 Interlock4 47 Interlock5 4830 Interlock6 49 Interlock7 50 Interlock8 51 Hand State IN 83 0h1553 DI On Delay Selection DI On DelayEn 000 0000 111 1111 111 1111 Δ IN 84 0h1554 DI Off Delay Selection DI Off DelayEn 000 0000 111 1111 111 1111 Δ IN 85 0h1555 Multi function input terminal On filter DI On Delay 0 10000 msec 10 O 30 48 Interlock6 50 Interlock8 of IN 65 71 are available when Extension...

Страница 126: ...Time 1 5000 msec 1 Δ IN 90 0h155A Multi function input terminal status DI Status 000 0000 X IN 91 0h155B Pulse input amount display TI Monitor 0 00 X IN 92 0h155C TI minimum input pulse TI Filter 0 9999 msec 10 O IN 93 0h155D TI minimum input pulse TI Pls x1 0 TI Pls x2 0 00 O IN 94 0h153E Output at TI minimum pulse TI Perc y1 0 00 100 00 0 00 O IN 95 0h155F TI maximum input pulse TI Pls x2 TI Pls...

Страница 127: ...s been selected O Write enabled during operation Δ Write enabled when operation stops X Write disabled Code Comm Address Name LCD Display Parameter Setting Initial Value Property Ref OUT 00 Jump Code Jump Code 1 99 30 O OUT 01 0h1601 Analog output1 AO1 Mode 0 Frequency 0 Frequency O 1 Output Current 2 Output Voltage 3 DCLink Voltage 4 Output Power 7 Target Freq 8 Ramp Freq 9 PID Ref Value 10 PID F...

Страница 128: ...1 Const 0 0 100 0 0 0 O OUT 06 0h1606 Analog output1 monitor AO1 Monitor 0 0 X OUT 07 0h1607 Analog output2 AO2 Mode Identical to the OUT 02 AO1 Mode selected range 0 Frequency O OUT 08 0h1608 Analog output2 gain AO2 Gain 1000 0 1000 0 100 0 O OUT 09 0h1609 Analog output2 bias AO2 Bias 100 0 100 0 0 0 O OUT 10 0h160A Analog output2 filter AO2 Filter 0 10000 msec 5 O OUT 11 0h160B Analog constant o...

Страница 129: ... 2 Automatic restart final failure OUT 31 0h161F Multi function relay1 Relay 1 0 None 23 Trip O 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 ...

Страница 130: ... Err 30 Lubrication 31 Pump Clean 32 Level Detect 33 Damper Control 34 CAP Warning 35 Fan Exchange 36 AUTO State 37 Hand State 38 TO 39 Except Date 40 KEB Operating 41 BrokenBelt 42 BR Control 43 High Fdb Level 44 Low Fdb Level 45 Diff Fdb Level OUT 32 0h1620 Multi function relay2 Relay 2 46 Low Flow Level 14 RUN O OUT 33 0h1621 Multi function relay3 Relay 3 47 High Flow Level 0 None O ...

Страница 131: ... None O OUT 39 0h1627 Multi function relay8 Relay 8 53 Pump Trip 0 None O OUT 41 0h1629 Multi function output monitor DO Status 00 0000 X OUT 50 0h1632 Multi function output On delay DO On Delay 0 00 100 00 sec 0 00 O OUT 51 0h1633 Multi function output Off delay DO Off Delay 0 00 100 00 sec 0 00 O OUT 52 0h1634 Multi function output contact selection DO NC NO Sel Q1 Relay5 Relay1 00 0000 11 1111 ...

Страница 132: ...cy band FDT Band 0 00 Maximum frequency Hz 10 00 O OUT 61 0h163D Pulse output item TO Mode 0 Frequency 0 Frequency O 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 FdbVal OUT 62 0h163E Pulse output gain TO G...

Страница 133: ... Define 0 100 30 O OUT 92 0h165C Digital analog 0 function shift D A 0 Shift 12 12 0 O OUT 93 0h165D Digital analog 1 function define D A 1 Define 0 100 31 O OUT 94 0h165E Digital analog 1 function shift D A 1 Shift 12 12 0 O OUT 95 0h165F Digital analog 02function define D A 2 Define 0 100 29 O OUT 96 0h1660 Digital analog 2 function shift D A 2 Shift 12 12 0 O OUT 97 0h1661 Digital analog 3 func...

Страница 134: ...t in communication protocol Int485 Proto 0 ModBus RTU 0 ModBusRTU O 2 LS Inv 485 4 BACnet 5 Metasys N2 633 ModBus Master COM 03 0h1703 Built in communication speed Int485 BaudR 0 1200 bps 3 9600 bps O 1 2400 bps 2 4800 bps 3 9600 bps 4 19200 bps 5 38400 bps 6 56 Kbps 7 76 8 kbps 8 115 2 Kbps34 COM 04 Int485 Mode 0 D8 PN S1 0 D8 PN S1 O 32 If AP1 40 is set to 4 Serve Drv MaxComID is 8 and if COM 02...

Страница 135: ...cation speed FBUS BaudRate 12 Mbps O COM 09 0h1709 Communication option LED status FieldBus LED O COM 28 0h171C USB Protocol USB Protocol 0 Modbus RTU 2 LS Inv 485 O 2 LS Inv 485 COM 30 0h171E Number of output parameters ParaStatusNum 0 8 3 O COM 31 0h171F Output Communication address1 Para Status 1 0000 FFFF Hex 000A O COM 32 0h1720 Output Communication address2 Para Status 2 0000 FFFF Hex 000E O...

Страница 136: ... COM 38 0h1726 Output Communication address8 Para Status 8 0000 FFFF Hex 0000 O COM 50 0h1732 Number of input parameters Para Ctrl Num 0 8 2 O COM 51 0h1733 Input Communication address1 Para Control 1 0000 FFFF Hex 0005 O COM 52 0h1734 Input Communication address2 Para Control 2 0000 FFFF Hex 0006 O COM 53 0h1735 Input Communication address3 Para Control 3 0000 FFFF Hex 0000 O COM 54 0h1736 Input ...

Страница 137: ...n input 2 Virtual DI 2 1 Fx 0 None O COM 72 0h1748 Communication multi function input 3 Virtual DI 3 2 Rx 0 None O COM 73 0h1749 Communication multi function input 4 Virtual DI 4 3 RST 0 None O COM 74 0h174A Communication multi function input 5 Virtual DI 5 4 External Trip 0 None O COM 75 0h174B Communication multi function input 6 Virtual DI 6 5 BX 0 None O COM 76 0h174C Communication multi funct...

Страница 138: ...f 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 Pre Excite 29 Timer In 31 dis Aux Ref 32 FWD JOG 33 REV JOG 34 Fire Mode 35 Time Event En 36 Pre Heat 37 Damper Open 38 PumpClean 39 Fire Mode ...

Страница 139: ...n multi function input monitoring Virt DI Status 0000 0000 X COM 83 0h1753 BACnet maximum master number BAC Max Master 1 127 127 O COM 84 0h1754 BACnet device number1 BAC Dev Inst1 0 4194 237 O COM 85 0h1755 BACnet device number2 BAC Dev Inst2 0 999 0 O 36 48 Interlock6 50 Interlock8 of IN 65 71 are available when Extension IO option is equipped Refer to Extension IO option manual for more detaile...

Страница 140: ... 2xPID Unit 0 PID 52 PID Unit 100 Unit Default PID Unit 100 PID Unit 0 2 Unit Band Unit 100 Unit 0 The Default Value for PID 02 PID Access Lev only allows access to the basic parameters in the PID group The rest are hidden When set to Adanced all paramters are shown O Write enabled during operation Δ Write enabled when operation stops X Write disabled Code Comm Address Name LCD Display Parameter S...

Страница 141: ...V2 4 I2 5 Int485 6 Fieldbus 8 Pulse 9 38 V3 10 I3 PID 11 0h180B PID Setpoint 1 keypad value PID SP 1 Set Unit Min Unit Max Unit Default O PID 12 0h180C PID Setpoint 1 auxiliary source selection PIDSP1AuxSrc 0 None 0 None Δ 1 V1 3 V2 4 I2 6 Pulse 7 Int 485 8 FieldBus 10 39 V3 38 10 V3 11 I3 of PID 10 are available when Extension IO option is equipped Refer to Extension IO option manual for more det...

Страница 142: ...AuxMod 0 M G A 0 M G A O 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 PID 14 0h180E PID reference auxiliary gain PID SP1 Aux G 200 0 200 0 0 0 O PID 15 0h180F PID Setpoint 2 auxiliary source selection PID SP 2 Src 0 Keypad 0 KeyPad Δ 1 V1 3 V2 4 I2 5 Int 485 6 Fieldbus 8 Pulse ...

Страница 143: ... 4 I2 6 Pulse 7 Int 485 8 FieldBus 10 EPID1 Output 11 EPID1 Fdb Val 12 41 V3 13 I3 PID 18 0h1812 PID Setpoint 2 auxiliary mode selection PID SP2AuxMod 0 M G A 0 M G A O 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 40 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 41 12 V3 13 I3 of PID 17 are availabl...

Страница 144: ...iary gain PID SP2 Aux G 200 0 200 0 0 0 O PID 20 0h1814 PID feedback selection PIDFdb Source 0 V1 0 V1 Δ 2 V2 3 I2 4 Int 485 5 FieldBus 7 Pulse 8 42 V3 9 I3 PID 21 0h1815 PID feedback auxiliary source selection PID Fdb Aux Src 0 None 0 None Δ 1 V1 3 V2 4 I2 6 Pulse 7 Int 485 8 FieldBus 42 10 V3 11 I3 of PID 20 are available when Extension IO option is equipped Refer to Extension IO option manual f...

Страница 145: ...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 PID 23 0h1817 PID feedback auxiliary gain PID Fdb Aux G 200 0 200 0 0 0 O PID 24 0h1818 PID feed back band PID Fdb Band 0 00 Unit Band 0 00 O PID 25 0h1819 PID controller proportional gain 1 PID P Gain 1 0 00 300 00 100 00 O PID 26 PID contro PID I Time 1 0 0 200 0 sec 2 0 O 43 12 V3 13 I3 of PID 21 are available when Extension IO opt...

Страница 146: ...lower limit PID Limit Lo 100 00 PID Limit Hi 0 00 O PID 32 0h1820 PID controller proportional gain 2 PID P Gain 2 0 00 300 00 50 0 O PID 33 0h1821 PID controller integral time 2 PID I Time 2 0 0 200 0 sec 10 0 O PID 34 0h1822 PID controller differential time 2 PID D Time 2 0 00 1 00 sec 0 00 O PID 35 0h1823 PID output mode PID Out Mode 0 PID Output 2 PID or Main O 1 PID Main Freq 2 PID or Main PID...

Страница 147: ...Unit Min Unit Max Unit Default O PID 43 0h182B PID multi step Setpoint setting 4 PID Step SP 4 Unit Min Unit Max Unit Default O PID 44 0h182C PID multi step Setpoint setting 5 PID Step SP 5 Unit Min Unit Max Unit Default O PID 45 0h182D PID multi step Setpoint setting 6 PID Step SP 6 Unit Min Unit Max Unit Default O PID 46 0h182E PID multi step Setpoint setting 7 PID Step SP 7 Unit Min Unit Max Un...

Страница 148: ... Parameter Setting Initial Value Proper ty Ref 11 Hz 12 rpm 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 ...

Страница 149: ...pending on PID 50 setting O X10 3000 0 Unit Max X1 300 00 Unit Max X0 1 30 000 Unit Max X0 01 3 0000 Unit Max PID 53 0h1835 PID control 100 setting figure PID Unit 100 X10 0 Unit Min 30000 Range differs depending on PID 50 setting O X10 Unit Min 3000 0 X1 Unit Min 300 00 X0 1 Unit Min 30 000 X0 01 Unit Min 3 0000 PID 54 0h1836 PID acceleration d eceleration time enable RampPIRef AtRun 0 No 0 Δ 1 Y...

Страница 150: ...2 Output Current 3 Feedback Value 4 Output RPM 5 Flow Rate Mon PID 60 0h183C Sleep boost setting Sleep Bst Set 0 30000 0 O PID 61 0h183D Sleep boost frequency Sleep Bst Freq 0 00 400 00 Hz 0 00 O PID 62 0h183E PID sleep 0 delay time PID Sleep 0 DT 0 0 6000 0 sec 10 0 O PID 63 0h183F PID sleep 0 level PID Sleep0Lev 0 30000 0 O PID 64 0h1840 PID wakeup 0 delay time PID WakeUp0 DT 0 0 6000 0 sec 10 0...

Страница 151: ...D sleep 3 delay time PID Sleep 3 DT 0 0 6000 0 sec 10 0 O PID 75 0h184B PID sleep 3 level PID Sleep3Lev 0 30000 0 O PID 76 0h184C PID wakeup 3 delay time PID WakeUp3 DT 0 0 6000 0 sec 10 0 O PID 77 0h184D PID wakeup 3 level PID WakeUp3Lev 0 60000 2000 O PID 78 0h184E PID sleep 4 delay time PID Sleep 4 DT 0 0 6000 0 sec 10 0 O PID 79 0h184F PID sleep 4 level PID Sleep4Lev 0 30000 0 O PID 80 0h1850 ...

Страница 152: ...PID sleep 7 delay time PID Sleep 7 DT 0 0 6000 0 sec 10 0 O PID 91 0h185B PID sleep 7 level PID Sleep7Lev 0 30000 0 O PID 92 0h185C PID wakeup 7 delay time PID WakeUp7 DT 0 0 6000 0 sec 10 0 O PID 93 0h185D PID wakeup 7 level PID WakeUp7Lev 0 60000 2000 O PID 95 0h185F Disable Wake up Disable WakeUp 0 No 0 Δ 1 Yes 4 9 Application 1 Function Group AP1 Data in the following table will be displayed o...

Страница 153: ...24 0h1A18 Soft Fill reference increasing value Fill Step Set 0 00 Unit Band 2 00 O AP1 25 0h1A19 Soft Fill reference increasing cycle Fill Step Time 0 9999 sec 20 O AP1 26 0h1A1A Soft Fill changing amount Fill Fdb Diff 0 00 Unit Band 0 00 O AP1 30 0h1A1E Flow Comp function options Flow Comp Sel 0 No 0 No O 1 Yes AP1 31 0h1A1F Max Comp amount Max Comp Value 0 00 Unit Band 0 00 O AP1 4044 0h1A28 Lea...

Страница 154: ...A2E Operation priority display 2 Curr Prty2 0000 X AP1 47 0h1A2F LeadLag Status LeadLag Status 0 Trip X AP1 48 0h1A30 Auxiliary motor options for inverter stop Lag Stop Sel 0 No 1 Yes O 1 Yes AP1 49 0h1A31 Auxiliary motor stop order ALT Sequence 0 FILO 0 FILO Δ 1 FIFO 2 Op time Order AP1 50 0h1A32 Server drive staging pressure Stage Pres Dv 0 60000 500 O AP1 51 0h1A33 Main motor acceleration time ...

Страница 155: ...ing dondition frequency Alternate Level Low Freq High Freq 20 00 O AP1 58 0h1A3A Timer display Auto Op Time 0 00 X AP1 59 0h1A3B Pressure deviation level for destaging Destage Pres 0 60000 500 O AP1 6046 0h1A3C Target frequency of Aux motor during Multi Master Lag Freq Low Freq High Freq 60 00 O AP1 61 0h1A3D 1 auxiliary motor start frequency Stage Freq 1 Low Freq High Freq 45 00 O AP1 62 0h1A3E 2...

Страница 156: ... Freq High Freq 40 00 O AP1 71 0h1A47 2 auxiliary motor stop frequency Destage Freq 2 Low Freq High Freq 40 00 O AP1 72 0h1A48 3 auxiliary motor stop frequency Destage Freq 3 Low Freq High Freq 40 00 O AP1 73 0h1A49 4 auxiliary motor stop frequency Destage Freq 4 Low Freq High Freq 40 00 O AP1 74 0h1A4A 5 auxiliary motor stop frequency Destage Freq 5 Low Freq High Freq 40 00 O AP1 75 0h1A4B 6 auxi...

Страница 157: ...tor reference compensation Aux3 Ref Comp 0 00 Unit Band 0 00 O AP1 83 0h1A53 4 auxiliary motor reference compensation Aux4 Ref Comp 0 00 Unit Band 0 00 O AP1 84 0h1A54 5 auxiliary motor reference compensation Aux5 Ref Comp 0 00 Unit Band 0 00 O AP1 85 0h1A55 6 auxiliary motor reference compensation Aux6 Ref Comp 0 00 Unit Band 0 00 O AP1 86 0h1A56 7 auxiliary motor reference compensation Aux7 Ref ...

Страница 158: ...xt Mrt OL 0 NO 0 No Δ 1 YES AP1 91 0h1A5B Ext Mrt OL T 0 1 360 0 Sec 5 0 O AP1 94 0h1A5E Total number of drives used in lead lag of Drives 1 8 5 Δ AP1 9547 0h1A5F Motor selection for running time display Run Time Monitor 0 Pump 1 0 Pump 1 O 1 Pump 2 2 Pump 3 3 Pump 4 4 Pump 5 5 Pump 6 6 Pump 7 7 Pump 8 47 AP1 95 98 is available when MMC and Master Follower functions are performed ...

Страница 159: ...0h1A60 Running time Day display Pump Run Time Day 0 65535 0 O AP1 97 0h1A61 Running time hour minute display Pump Run Time Min 00 00 23 59 00 00 O AP1 98 0h1A62 Clear running time for lag motors Pump Run time Clear 0 None 0 None O 1 All 2 Pump 1 3 Pump 2 4 Pump 3 5 Pump 4 6 Pump 5 7 Pump 6 8 Pump 7 9 Pump 8 ...

Страница 160: ... Yes AP2 02 0h1A02 Low Freq load curve Load Fit Lfreq Base Freq 15 Load Fit HFreq 30 00 Δ AP2 03 0h1A03 Low Freq current Load Fit LCurr 0 0 80 0 40 0 Δ AP2 04 0h1A04 Low Freq power total Load Fit LPwr 0 0 80 0 30 0 Δ AP2 08 0h1A08 High Freq load curve Load Fit Hfreq Load Fit LFreq HighFreq 51 00 Δ AP2 09 0h1A09 High Freq current Load Fit HCurr Load Fit LCurr 200 0 80 0 Δ AP2 10 0h1A0A High Freq to...

Страница 161: ...100 0 5 0 O AP2 19 0h1A13 Pump clean operation delay time PC Curve DT 0 0 6000 0 sec 60 0 O AP2 20 0h1A14 Pump clean start delay time PC Start DT 0 0 6000 0 sec 10 0 O AP2 21 0h1A15 0 speed operating time at Fx Rx switching PC Step DT 0 1 6000 0 sec 5 0 O AP2 22 0h1A16 Pump clean Acc time PC Acc Time 0 0 600 0 sec 10 0 O AP2 23 0h1A17 Pump clean Dec time PC Dec Time 0 0 600 0 sec 10 0 O AP2 24 0h1...

Страница 162: ...p clean continuous limit time PC Limit Time 6 60 min 10 O AP2 33 0h1A21 Pump clean continuous limit numbers PC Limit Num 0 10 3 O AP2 38 0h1A26 Dec valve operation frequency Dec Valve Freq Low Freq High Freq 40 00 O AP2 39 0h1A27 Dev valve dec time Dev Valve Time 0 0 6000 0 sec 0 0 O AP2 40 0h1A28 Thrust frequency Thrust Freq 0 00 High Freq 0 00 Δ AP2 41 0h1A29 Thrust accelrataion time Thrust Acc ...

Страница 163: ...el High Fdb Level PID Unit Max PID Unit Max PID Unit 100 0 95 O AP2 51 0h1A33 Low feedback mode Low Fdb Mode 0 None 0 None O 1 Warning 2 Trip Coast AP2 52 0h1A34 Low feedback level fault delay time Low Fdb Time 0 1 120 0 sec 10 0 O AP2 53 0h1A35 Low feedback level Low Fdb Level PID Unit Max PID Unit Max 0 O AP2 54 0h1A36 Hysteresis level Hysteresis Lev 0 10000 0 O AP2 55 0h1A37 Setpoint timeout se...

Страница 164: ... level feedback level Diff Fdb Level 0 30000 3000 O AP2 64 0h1A40 Differential feedback value monitor Diff Fdb Value 0 X AP2 65 0h1A41 Maximum allowable number of cycles Over Cycle Cnt 0 10 0 O AP2 66 0h1A42 Mximum cycling protection time Max Cycle Time 0 3600 sec 300 O AP2 67 0h1A43 Over cycle protection mode OverCycle Mode 0 None 0 None O 1 Warning 2 Trip Coast AP2 70 0h1A46 Output current limit...

Страница 165: ...ble 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 Prop erty Ref AP3 00 Jump code Jump Code 1 99 70 O AP3 01 0h1B01 Current date Now Date 01 01 2000 12 31 2099 Date 01 01 2000 O AP3 02 0h1B02 Current time Now Time 0 00 23 59 min 0 00 ...

Страница 166: ...4 00 O AP3 13 0h1B0D Time Period1 Day of the week configuration Period1 Day 000 0000 111 1111 Bit 000 0000 O AP3 14 0h1B0E Time Period2 Start time configuration Period2 Start T 0 00 24 00 min 24 00 O AP3 15 0h1B0F Time Period2 End time configuration Period2 Stop T Period2 Start T 24 00 min 24 00 O AP3 16 0h1B10 Time Period2 Day of the week configuration Period2 Day 000 0000 111 1111 Bit 000 0000 O...

Страница 167: ...1B1F Except1 Date End time configuration Except1 Stop T Except1 StartT 24 00 min 24 00 O AP3 32 0h1B20 Except1 Date configuration Except1D ate 01 01 12 31 Date 01 01 O AP3 33 0h1B21 Except2 Date Start time configuration Except2 Start T 0 00 24 00 min 24 00 O AP3 34 0h1B22 Except2 Date Stop time configuration Except2 Stop T Except2 StartT 24 00 min 24 00 O AP3 35 0h1B23 Except2 Date configuration E...

Страница 168: ...tart time configuration Except6 Start T 0 00 24 00 min 24 00 O AP3 46 0h1B2E Except6 Date End time configuration Except6 Stop T Except6 StartT 24 00 min 24 00 O AP3 47 0h1B2F Except6 Date configuration Except6 Date 01 01 12 31 Date 01 01 O AP3 48 0h1B30 Except7 Date Start time configuration Except7 Start T 0 00 24 00 min 24 00 O AP3 49 0h1B31 Except7 Date End time configuration Except7 Stop T Exce...

Страница 169: ...T Event Status 0000 0000 X AP3 72 0h1B48 Time Event 1 connection status T Event1 Period 0000 0000 0000 1111 1111 1111 0000 0000 0000 Δ AP3 73 0h1B49 Time Event 1 functions T Event1 Define 0 None 0 None Δ 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 Exchange 13 Analog Hold 14 I Term Clear 15 PID Openloop 16 PID Gain 2 17 PID Ref Change 18 Timer In...

Страница 170: ...111 1111 0000 0000 0000 Δ AP3 77 0h1B4D Time Event 3 functions T Event3 Define Identical to the setting range for AP3 73 0 None Δ AP3 78 0h1B4E Time Event 4 connection configuration T Event4 Period 0000 0000 0000 1111 1111 1111 0000 0000 0000 Δ AP3 79 0h1B4F Time Event 4 functions T Event4 Define Identical to the setting range for AP3 73 0 None Δ AP3 80 0h1B50 Time Event 5 connection configuration...

Страница 171: ... Event 8 connection configuration T Event8 Period 0000 0000 0000 1111 1111 1111 0000 0000 0000 Δ AP3 87 0h1B57 Time Event 8 functions T Event8 Define Same setting range as AP3 73 0 None Δ 4 12 Aapplication 4 Function Group AP4 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 disa...

Страница 172: ...04 PI auxiliary control setpoint PIAux Setpoint 0 0 PIAuxUnit 100 20 0 O AP4 05 0h1C05 PI auxiliary control feedback vlaue monitor PIAuxFbk Mon 0 0 X AP4 06 0h1C06 PI auxiliary control sleep level PIAux Sleep Lev 0 0 1200 0 10 0 O AP4 07 0h1C07 PI auxiliary control sleep delay time PIAux Sleep DT 0 3600 sec 5 O AP4 08 0h1C08 PI auxiliary control wake up level PIAux Wake Lev 0 0 3000 0 30 0 O AP4 0...

Страница 173: ...l detection selection LowLev Det Sel 0 None 0 None O 1 Warning 2 Trip Coast 3 RST Restart AP4 16 0h1C10 PI auxiliary control low level detection restart time Low Lev RST Tm 0 0 3000 0 Min 5 0 O AP4 17 0h1C11 PI auxiliary control high level detection HighLev Detect 0 0 PIAuxUnit 100 0 0 O AP4 18 0h1C12 PI auxiliary control high level detection time HighLev Det Tm 0 0 6000 0 sec 0 1 O AP4 19 0h1C13 ...

Страница 174: ... AP4 25 0h1C19 PI auxiliary speed control selection PIAux Spd Ctrl 0 No 1 Yes O 1 Yes AP4 26 0h1C1A PI auxiliary control unit scale PIAuxUnitS cale 0 x 100 1 x10 O 1 x 10 2 x 1 3 x 0 1 4 x 0 01 AP4 27 0h1C1B PI auxiliary control unit selection PIAux Unit Sel 0 CUST 2 PSI O 1 2 PSI 3 F 4 C 5 in WC 6 in M 7 mBar 8 Bar 9 Pa 10 kPa 11 Hz 12 Rpm 13 V 14 A 15 kW 16 Hp 17 Mpm 18 Ft 19 m s ...

Страница 175: ...m 22 m3 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 41 Wb AP4 30 0h1C1E Flow Control Selection Flow Control 0 No 0 No Δ 1 Yes 2 AccumRst Yes AP4 31 0h1C1F Flow Meter Source Selection Flow Meter Src 0 V1 0 V1 O 2 V2 3 I2 ...

Страница 176: ... Flow Unit 0 Flow Unit 0 0 30000 0 O AP4 35 0h1C23 Flow Unit 100 Flow Unit 100 0 30000 10000 O AP4 36 0h1C24 Flow Unit Selection Flow Unit Sel 0 gl m 0 gl m O 1 gl h 2 f3 m 3 m3 h AP4 37 0h1C25 Flow Decimal Scale Flow Dec Scale 0 x 100 2 x1 O 1 x 10 2 x 1 3 x 0 1 4 x 0 01 AP4 38 0h1C26 Accumulation Level Millions AccumLvM illion 0 65535 0 O AP4 39 0h1C27 Accumulation Level Thousands AccumLvT hou 0...

Страница 177: ... Flow Selection Low Flow Sel 0 None 0 None O 1 Warning 2 Trip Coast 3 RST Restart AP4 45 0h1C2D Low Flow Start Delay Time LowFlow St DT 0 0 3600 0 Min 0 0 O AP4 46 0h1C2E Low Flow Start Delay OFF time StartDlyOff Tm 0 6000 sec 5 O AP4 47 0h1C2F High Flow Level High Flow Lev 0 30000 0 O AP4 48 0h1C30 High Flow Detection Delay Time High Flow DT 0 6000 Sec 10 O AP4 49 0h1C31 High Flow Selection High ...

Страница 178: ... 0h1C36 Accumulation Flow Selection Accum Flow Sel 0 None 0 None O 1 Warning 2 Trip Coast 3 Trip RstAccum AP4 55 0h1C37 Flow Limit Selection Flow Limit Sel 0 Disabled 0 Disabled O 1 High 2 Low AP4 56 0h1C38 Flow Limit Level Flow Limit Lev 0 60000 0 O AP4 57 0h1C39 Flow Limit P Gain FlowLim P Gain 0 00 250 0 1 00 O AP4 58 0h1C3A Flow Limit I Gain FlowLim I time 0 00 100 00 sec 1 00 O AP4 59 0h1C3B ...

Страница 179: ...me Backspin Time 0 0 6000 0 sec 0 0 O PRT 02 0h1D02 Load duty Load Duty 0 Normal Duty 0 Normal Duty X 1 Heavy Duty PRT 03 0h1D03 Input output open phase protection Phase Loss Chk Bit 00 11 00 Δ Bit 0 Output open phase Bit 1 Input open phase PRT 04 0h1D04 Input voltage range during open phase IPO V Band 1 100 V 15 O PRT 07 0h1D07 Deceleration time at fault trip Trip Dec Time 0 0 600 0 sec 3 0 0 75 ...

Страница 180: ... 09 0h1D09 Number of automatic restarts Retry Number 0 10 0 O PRT 10 0h1D0A Automatic restart delay time Rtry Num Count 0 X PRT 11 0h1D0B Automatic restart delay time Retry Delay 0 1 600 0v sec 5 0 O PRT 12 0h1D0C Lost keypad mode Lost KPD Mode 0 None 0 None O 1 Warning 2 Trip Coast 3 Decel Stop PRT 13 0h1D0D Speed command loss operation mode Lost Cmd Mode 0 None 0 None O 1 Trip Coast 2 Decel Stop...

Страница 181: ... 18 0h1D12 Overload warning level OL Warn Level 30 OL Trip Level 110 O PRT 19 0h1D13 Overload warning time OL Warn Time 0 0 30 0 sec 10 0 O PRT 20 0h1D14 Motion at overload trip OL Trip Select 0 None 1 Trip Coast O 1 Trip Coast 2 Decel Stop PRT 21 0h1D15 Overload trip level OL Trip Level 30 150 120 O PRT 22 0h1D16 Overload trip time OL Trip Time 0 0 60 0 sec 60 0 O PRT 23 0h1D17 Under load detecti...

Страница 182: ...RT 31 0h1D1F Operation on no motor trip No Motor Trip 0 None 0 None O 1 Trip Coast PRT 32 0h1D20 No motor trip current level No Motor Level 1 100 5 O PRT 33 0h1D21 No motor detection time No Motor Time 0 1 10 0 sec 3 0 O PRT 34 0h1D22 Operation at motor overheat detection Thermal T Sel 0 None 0 None O 1 Trip Coast 2 Decel Stop PRT 35 0h1D23 Thermal sensor input Thermal In Src 0 Thermal In 0 Therma...

Страница 183: ... 0h1D2C Fire mode password Fire Mode PW 0 9999 3473 O PRT 4552 0h1D2D Fire mode setting Fire Mode Sel 0 None 0 None O 1 Fire Mode 2 Test Mode PRT 4653 0h1D2E Fire mode direction setting Fire Mode Dir 0 Reverse 1 Forward O 1 Forward PRT 4754 0h1D2F Fire mode frequency setting Fire Mode Freq 0 00 max Freq 60 00 O 52 PRT 45 can only be set when PRT 44 is in Fire mode To change the mode in PRT 44 crea...

Страница 184: ...ency Stall frequency2 Hz 60 00 O PRT 52 0h1D34 Stall level 1 Stall Level 1 30 150 130 Δ PRT 53 0h1D35 Stall frequency 2 Stall Freq 2 Stall frequency1 Stall frequency3 Hz 60 00 O PRT 54 0h1D36 Stall level 2 Stall Level 2 30 150 130 Δ PRT 55 0h1D37 Stall frequency 3 Stall Freq 3 Stall frequency2 Stall frequency 4 Hz 60 00 O PRT 56 0h1D38 Stall level 3 Stall Level 3 30 150 130 Δ PRT 57 0h1D39 Stall f...

Страница 185: ... 0 Sec 10 0 O PRT 63 0h1D3F Braking resistor configuration DB Warn ED 0 30 0 O PRT 66 0h1D42 No flow control bandwidth NFC Bandwidt h 0 00 4 00 0 00 O PRT 67 0h1D43 No flow control detection time NFC Det Time 1 0 60 0 sec 10 0 O PRT 68 0h1D44 No flow control release level NFC Release Lev 0 1000 300 O PRT 69 0h1D45 No flow control timer NFC Timer 1 0 X PRT 70 0h1D46 Level detect mode selection LDT ...

Страница 186: ...ltage 2 Output Voltage 3 kW 4 HP 5 V1 6 V2 7 I2 8 Setpoint Value 9 Feedback Value 10 Torque Out LPF 11 V3 12 I3 PRT 73 0h1D49 Level detect delay time LDT DlyTime 0 9999 sec 2 O PRT 74 0h1D4A Level detect standard set value LDT Level 32000 32000 1000 O PRT 75 0h1D4B Level detect band width LDT Band width 32000 32000 100 O PRT 76 0h1D4C Level detect frequency LDT Freq 0 00 High Freq Hz 20 00 O ...

Страница 187: ... Low voltage trip decision delay time LVT Delay 0 0 60 0 sec 0 0 Δ PRT 82 0h1D52 Low voltage trip decision during operation LV2 Trip Sel 0 No 0 No Δ 1 Yes PRT 83 0h1D53 Remaining capacitor life diagnosis level CAP Dia gPerc 10 100 0 O PRT 8455 0h1D54 Capacitor life diagnosis mode CAP Diag 0 None 0 None Δ 1 Cap Diag 1 2 Cap Diag 2 3 Cap Init PRT 85 0h1D55 Capacitor life diagnosis level 1 CAP Level1...

Страница 188: ...okenB elt Sel 0 None 0 None Δ 1 Warning 2 Trip Coast PRT 92 0h1D5C Operating the frequency of Broken belt Broken Belt Freq 15 00 MzxFreq 15 00 Δ PRT 93 0h1D5D Motor torque current Current Trq 0 0 X PRT 94 0h1D5E Torque current of operating Broken belt BrokenB elt Trq 0 0 100 0 10 0 Δ PRT 95 0 h1D5F Delay of operating Broken belt BrokenB elt Dly 0 600 0 sec 10 0 Δ 4 14 Option Module Function Group ...

Страница 189: ...1E05 V3 maximum input voltage V3 Volt x2 0 00 12 00 V 10 00 O APO 06 0h1E06 Output at V3 maximum voltage V3 Perc y2 0 00 100 00 100 00 O APO 07 0h1E07 V3 Rotation direction options V3 Inverting 0 No 0 No O 1 Yes APO 08 0h1E08 V3 Quantizing level V3 Quantizin g 0 04 10 00 0 04 O APO 10 0h1E0A I3 input monitor I3 Monitor m A 0 00 X APO 11 0h1E0B I3 input filter time I3 Filter 0 10000 10 O APO 12 0h1...

Страница 190: ...I3 Inverting 0 No 0 No O 1 Yes APO 17 0h1E11 I2 Quantizing level I3 Quantizin g 0 04 10 00 0 04 O APO 30 0h1E1E Analog output3 AO3 Mode 0 Frequenc y 0 Frequency O 1 Output Current 2 Output Voltage 3 DC Link Voltage 4 Output Power 7 Target Freq 8 Ramp Freq 9 Setpoint Value 10 Feedback Value 11 PID Output 12 Constant APO 31 0h1E1F AO3 Gain AO3 Gain 1000 0 1000 0 100 0 O APO 32 0h1E20 AO3 Bias AO3 Bi...

Страница 191: ... Address Name LCD Display Setting Range Initial Value Prope rty Ref APO 33 0h1E21 AO3 Filter AO3Filter 0 10000 msec 5 O APO 34 0h1E22 AO3 Const AO3Cons t 0 0 100 0 0 0 O APO 35 0h1E23 AO3 Monitor AO3Monit or 0 00 X ...

Страница 192: ...s 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 waits until the charge indicator light g...

Страница 193: ...T 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 time limit thermal characteristics Allowable overload rates for the inverter are 120 for 1 min and 14...

Страница 194: ... 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 inverter capacity of 110 kW to 500 kW Selecting PRT 79 code...

Страница 195: ...o Free Run Low Feedback Level Latch Low High feedback detection detects whether PID feedback is higher than high feedback level or lower than low feedback level to trigger Trip Coast stop Set AP2 48 AP2 54 High Feedback Level Latch Setpoint Timeout Latch Setpoint timeout monitors PID feedback and when the difference between PID feedback and PID setpoint becomes too large this function triggers Tri...

Страница 196: ...en a motor is overloaded Set PRT 17 to 1 to enable Set OUT 31 35 or OUT 36 to 5 Over Load to receive the overload warning output signals Under Load Displayed when the motor is underloaded Set PRT 25 is to 1 Set the digital output terminal or relay OUT 31 35 or OUT 36 to 7 Under Load to receive the underload warning output signals INV Over Load Displayed when the overload time equivalent to 60 of t...

Страница 197: ... capacitor life warning output signals Fan ExChange Displayed when the cooling fans need replacing Set the digital output terminals or relay OUT 31 35 or OUT 36 to 35 FanExChange to receive the fan replacement warning output signals Low Battery Displayed when the RTC battery voltage drops to or below 2 V To receive a warning output signal set PRT 90 Low Battery to Yes Broken Belt Displayed when PR...

Страница 198: ...Single Phase 2 9 4 4 6 4 8 4 Output Frequency 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 50 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...

Страница 199: ... Output Frequency 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 50 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 ...

Страница 200: ...tput Frequency 0 400 Hz Output 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 50 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 22...

Страница 201: ...2 14 17 22 26 Output Frequency 0 400 Hz Output 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 50 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 use...

Страница 202: ...39 47 55 73 86 Output Frequency 0 400 Hz Output 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 50 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...

Страница 203: ... 541 591 740 ND 223 264 325 370 432 481 613 683 770 962 Output Frequency 0 400 Hz Output Voltage V 3 Phase 380 500 V Rated input Working Voltage V Three Phase 3 Phase 380 500VAC 15 10 Input Frequenc y 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...

Страница 204: ...rque boost Operation 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 br...

Страница 205: ...or 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 12 Vdc 0 20 mA Select frequency output current output voltage DC terminal voltage and others Pulse train Maximum 32 kHz 0...

Страница 206: ...type Forced fan cooling structure Protection structure IP 20 0 75 185kW IP 00 220 500kW UL Open Enclosed Type 1 option UL Enclosed Type 1 is satisfied by conduit installation option Ambient temperature 10 50 2 5 current derating is applied above 40 No ice or frost should be present Working under normal load at 50 122 F it is recommended that less than 75 load is applied Ambient humidity Relative h...

Страница 207: ...Technical Specification 181 6 3 External Dimensions 0 75 30 kW 3 phase 37 90 kW 3 phase ...

Страница 208: ...Technical Specification 182 110 185 kW 3 phase 220 500 kW 3 phase ...

Страница 209: ... 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 phase 400 V 0008H100 4 160 137 232 216 5 10 5 181 5 5 0015H100 4 160 137 232 216 5 10 5 181 5 5 0022H100 4 160 137 232 216 5 10 5 181 5 5 0037H100 4 160 137 232 216 5 10 5 181 5...

Страница 210: ... 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 9 9 2200H100 4 440 320 922 3 895 5 15 5 440 11 11 2500H100 4 440 320 922 3 895 5 15 5 440 11 11 3150H100 4 600 420 1000 972 15 500 14 14 3550H100 4 600 420 1000 972 15 500 14 14 4000H100 4 600 420 1000 972 15 500 14 14 5000H100 4 776 500 1054 1021 20 500 14 14 Units...

Страница 211: ... 51 8 79 0 24 0 24 0300H100 4 8 66 7 63 13 78 13 03 0 51 8 79 0 24 0 24 0370H100 4 10 83 9 13 17 72 16 87 0 55 11 18 0 28 0 28 0450H100 4 12 80 11 10 20 08 19 15 0 63 11 18 0 28 0 28 0550H100 4 12 80 11 10 20 08 19 15 0 63 11 18 0 28 0 28 0750H100 4 12 80 10 83 21 65 20 65 0 63 12 17 0 35 0 35 0900H100 4 12 80 10 83 21 65 20 65 0 63 12 17 0 35 0 35 1100H100 4 11 81 7 87 9 45 27 80 27 11 0 37 15 20...

Страница 212: ...ge Breaker Magnetic Contactor UL unapplied UL applied UL unappliednote1 UL appliednote2 Model Rated Current Model Rated Current Model Rated Current Model Rated Current 3 Phase 200 V 0 75 ABS33c 15 MMS32H 8 EBS33c 15 MC 9a 11 1 5 15 13 15 MC 18a 18 2 2 30 22 30 MC 32a 32 3 7 30 26 30 MC 32a 32 5 5 ABS53c 50 40 EBS53c 50 MC 50a 55 7 5 ABS63c 60 MMS63H 50 EBS63c 60 MC 65a 65 11 ABS103c 100 MMS100H 75...

Страница 213: ...EBS803c 800 MC 800a 800 250 ABS1003b 1000 800 EBS1003b 1000 MC 800a 800 315 ABS1203b 1200 UTS1200 1200 EBS1203b 1200 MC 1260a 1260 355 ABS1203b 1200 1200 EBS1203b 1200 MC 1260a 1260 400 1600 1600 500 1600 1600 In the case of inverter 400 500 kW there is no Circuit Brake capacity qualified as UL standard Refer to local and national codes for proper circuit breaker sizing If you want to use UL Type ...

Страница 214: ... 35kA 6 5 Fuse and Reactors Specifications Products kW AC Input Fuse AC reactor DC Reactor Current A Voltage V Inductance mH Current A Inductance mH Current A 3 Phase 200 V 0 75 10 600 V 2 02 5 4 04 5 1 5 10 1 26 8 2 53 8 2 2 15 0 78 12 1 68 12 3 7 20 0 59 16 1 26 16 5 5 50 0 43 24 0 93 25 7 5 63 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 ...

Страница 215: ... 0 1 217 132 400 0 08 257 160 450 0 07 318 185 550 0 06 362 220 630 0 05 423 250 700 0 05 474 315 800 0 04 604 355 1000 0 03 673 400 1100 0 03 759 500 1250 0 03 948 Use Class H or RK5 UL Listed Input Fuse and UL Listed Breaker 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 ...

Страница 216: ...uct kW Terminal Screw Size Screw Torque Kgf c m Nm 3 Phase 200 V 0 75 M4 12 2 14 3 1 2 1 4 1 5 2 2 3 7 5 5 7 5 11 15 M5 20 4 24 5 2 0 2 4 18 5 3 Phase 400 V 0 75 M4 12 2 14 3 1 2 1 4 1 5 2 2 3 7 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 ...

Страница 217: ...ircuits and malfunctions Tightening the screw too much may damage the terminals and cause short circuits and malfuctions Use copper wires only with 600 V 90 rating for the power terminal wiring and 300 V 75 rating for the control terminal wiring Attention Appliquer des couples de marche aux vis des bornes Des vis desserrées peuvent provoquer des courts circuits et des dysfonctionnements Ne pas tro...

Страница 218: ... Non UL type Type B Resistanc e of DB Resistor refer to the manual of DB Unit 200V 30 37 kW SV037DBH 2 Refer to the appearance of Group 2 400V 30 37 kW SV037DBH 4 45 55 75 kW SV075DBH 4 SV075DB 4 Refer to the appearance of Group 3 185 220kW SV2200DB 4 Refer to the appearance of Group 4 250 355kW SV2200DB 4 2Set Type C Resistanc e of DB Resistor refer to the manual of DB Unit 200V 30 37 kW LSLV0370...

Страница 219: ...Note It is not necessary to use option type dynamic braking unit for H100 0 75 18 5kW 200V and 0 75 30kW 400V because basically the dynamic braking unit is built in You must refer to dynamic braking unit manual for usage recommended dynamic braking unit in the table above due to changeable table Resistance watt braking torque ED of DB Resistor for Type A DB Unit refer to the table of 11 7 6 DB Res...

Страница 220: ...inal for connection with N of Inverter P Terminal for connection with P1 of Inverter Note READ DBU User manual certainly when selecting DB resistors Group 3 Group 4 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 connection with P of Inverter B1 N P G B2 N B2 P B1 G...

Страница 221: ...l 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 B C Frame 75kW 2 90 220kW 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 E Unused ...

Страница 222: ...l Specification 196 Note You must refer to dynamic braking unit manual for choice the braking resistor to use the dynamic braking unit 6 7 3 Dynamic Braking DB Unit DB resistor basic wiring 0 75 90Kw 110 500kW ...

Страница 223: ...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 6 7 4 Dimensions Group1 Group2 166 2 5 25 5 24 2 80 80 123 Dynamic RESE POWE RUN OHT OCT 231 1 2 15 27 130 7 ...

Страница 224: ... Voltage 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 ...

Страница 225: ...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 ...

Страница 226: ...ative energy of Motor OHT Green LED Under Braking 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 6 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...

Страница 227: ...12800 LSLV DB 11 4 4800 9600 10 6400 12800 55 DBU 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 LSL...

Страница 228: ...of 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 6 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 ...

Страница 229: ...V 37 500 kW Current Derating Rate Item Unit 200 V 400 V 0 75 18 5 kW 0 75 18 5 kW 22 30 kW 37 55 kW 75 90 kW 110 355 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 max kHz 15 15 15 10 7 5 4 4 DR1 70 65 65 95 92 ...

Страница 230: ... derating begins Derating by Input Voltage The continuous rated current of the inverter is limited based on the input voltage Refer to the following graph Derating 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...

Страница 231: ...h 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 4...

Страница 232: ...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 ...

Страница 233: ...ut 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 torque must be developed near base speed full power it will be necessary to maintain a rigid incoming line voltage so that adequate motor volt...

Страница 234: ... 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 voltage must be larger than 228Vac for 240Vac supp...

Страница 235: ...acturing Please note that the product warranty terms may vary depending on purchase or installation contracts Warranty Service Information During the product warranty period warranty service free of charge is provided for product malfunctions caused under normal operating conditions For warranty service contact an official LS ELECTRIC agent or service center Non Warranty Service A service fee will...

Страница 236: ...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...

Страница 237: ...211 목차 EN IEC 61800 3 2018 EN 61800 5 1 2007 A1 2017 ...

Страница 238: ...212 ...

Страница 239: ...213 목차 ...

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