LM2_IM_SI47-1894-E - Fuji Electric GmbH
Contents
1. 140 195 120 10 33 3 5 2x 6 2x06 _ 26 J 3 mar I mpi H o FET dr j i i H F MG HHH a H i HIN I0T73 Ale 46 10 Power supply voltage Inverter type FRNO006LM2A 4E FRNO010LM2A 4E Three phase 400V FRNOO15LM2A 4E FRNO019LM2A 4E Single phase 200V FRNO011LM2A 7E 7 3 Chapter 8 CONFORMITY WITH STANDARDS 8 1 Compliance with European Standards The CE marking on Fuji products indicates that they comply with the essential requirements of the Electromagnetic Compatibility EMC Directive 2004 108 EC Low Voltage Directive 2006 95 EC Machinery Directive 2006 42 EC and Lift Directive 95 16 EC which are issued by the Council of the European Communities Note The amount of current leaked by internal EMC compatible filter is significantly large and therefore a check should be performed to determine whether the power supply system is affected Refer to Chapter 8 3 3 below for details on EMC filter leakage current values The products comply with the following standards Table 8 1 Product Standards Compliance FRNO006LM2A 4 to FRNO019LM2A 4 FRNO011LM2A 7 Low Voltage Directive IEC EN 61800 5 1 2007 IEC EN 61800 3 2004 A1 2012 EMC Directives Immunity Sec2. VEN EN EN EN EN EN FN GOGOOOODON 304 308 300 Ysa vso raa rac vaa vac 1 BEEBE EE AUX contact Reinforce insulation Max 250 VAC Overvoltage category II Pollution degree 2 Table 2 3 Control Circuit Terminals Connection method with shield plate of CANopen terminal lt DODD HBHH tSA429907 01 2 4 Screw specifications Wire strip length A Recommended Type of screwdriver Terminal block type GE zzz VPS Screw Tightening wire size mm tip shape 4 size torque 0 39 10 N m 0 20 to 3 31 mm Flat screwdriver Relay terminals M2 5 6mm AWG24 to 12 0 4 mm x 3 0mm 0 20 to 1 31 mm Flat screwdriver 109 k Other M2 0 19410 N m AWG24 to 16 0 4 mm x 2 5 mm 6 mm Tightwire 2 2 5 Terminal functions and wiring order Main circuit terminals and grounding terminals The table below shows the order of wiring and terminal functions Carry out wiring in the order shown in Table 2 4 below Table 2 4 Order of Wiring and Functions of Main Circuit Terminals Classifi cation Primary grounding terminals for inverter enclosure Be Functions The two grounding terminals G can be either used for the po
3. Code Series name Code Shipping destination FRN FRENIC series E EU 3PH 400V A Asia Code Output rated current Code Power supply voltage 0006 6 1A 4 Three phase 400V 0010 10 0 A 7 Single phase 200V 0015 15 0 A 0019 18 5A Code Model type 1PH 200V A Atyp Code Output rated current Code Development code 0011 11 0 A 2 2 Code Applicable area LM Elevating machinery note In this manual inverter types are denoted as FRN__ _LM2A 40 The boxes O replace alphabetic letters depending on the shipping destination If you suspect the product is not working properly or if you have any questions about your product contact your Fuji Electric representative 1 2 Precautions for Using Inverters When handling inverters be sure to observe the wiring precautions given below 1 The maximum wiring distance between an inverter and a motor The maximum wiring is 20m When using wire longer than the specification that may not be able to control a motor If longer secondary wiring is required consult your Fuji Electric representative Power input Inverter Max 20 m 1 3 Usage environment and Storage environment This section provides precautions i when handling inverters e g precautions for installation environment and storage environment 1 3 1 Usage environment Install the inverter in an environment that satisfies the requirements listed in Table below Site lo
4. Operating current at ON Input voltage is at 27 V Allowable leakage current at OFF 0 5 mA 5mA PLC signal power Connects to the output signal power supply of Programmable Logic Controller PLC Rated voltage 24 VDC Allowable range 22 to 27 VDC Maximum output current 100 mA DC Digital input common Common terminals for digital input signals 2 7 Table 2 5 Names Symbols and Functions of the Control Circuit Terminals continued Analog monitor Functions These terminals output monitor signals for analog DC voltage 10 to 10 V Analog common Common terminal for analog output signals Transistor output 1 to Transistor output 2 Transistor output common CMY Both the SINK and SOURCE modes are supported 1 Various signals such as Inverter running Frequency arrival signal and Motor overload early warning can be assigned to terminals Y1 and Y2 by setting function code E20 and E21 2 The logic value 1 0 for ON OFF of the terminals between Y1 or Y2 and CMY can be switched If the logic value for ON between Y1 or Y2 and CMY is 1 in the normal logic system then OFF is 1 in the negative logic system and vice versa Transistor output circuit specification lt Control circuit gt Photocoupler Current Y1 Y2 YW 61 to 67 V 2 CMY ON level Ope
5. Max voltage V Min voltage V Three phase average voltage V x 67 IEC61800 3 5 The power supply capacity is 500kVA ten times the inverter capacity when the inverter capacity exceeds 50kVA and the value of the power supply impedance is X 5 6 The admissible error of minimum resistance is 5 7 Braking time and duty cycle ED are defined by cycle operation at the rated regenerative power as shown in the figure below Regenerative power kW Reated regenerative power Time s Cyclic period T 7 1 2 Single phase 200V series Specifications 0011 2 2 Rated capacity kVA 4 1 Rated voltage V hree phase 200V 240V 50 60Hz Rated current gt A 11 0 Overload capacity A 22 0 Permissible overload time 3s Rated frequency Hz 0 60Hz Phases Voltage Frequency i i i Variations Voltage 10 to 15 Frequency 5 to 5 Rated with DCR 17 5 current A Without DCR Required power supply capacity with DCR kVA Phases Voltage Frequency Single phase 200 to 240V 50 60Hz Variations Voltage 10 to 10 Frequency 5 to 5 Operation time s 180 Power Supply Voltage for driving DC 36V or more in the direct current voltage conversion Output ratings Q 5 O D ge y D n ol N S S oe N A lt a 2 g fer l I N N R 3 5 Normal operatio o D 2 5 2 Main power supply Operation time
6. 3 To bring the inverter into compliance with Functional Safety Standard it is necessary to bring it into compliance with European Standards EN61800 5 1 and EN61800 3 This Safe Torque Off STO function coasts the motor to a stop In case of diagnostics with a safe PLC short pulses with a duration less than 1 ms should be input to terminals EN1 and EN2 The safety shutdown circuit between input terminals EN1 and EN2 sections and inverter s output shutdown section is a redundant circuit so that an occurrence of a single fault does not prevent the Safe Torque Off STO function If a single fault is detected in the safety shutdown circuit the inverter coasts the motor to a stop even with the terminal EN1 PLC and EN2 PLC states being ON as well as outputting an alarm to external equipment Note that the alarm output function is not guaranteed to all of single faults It is compliant with EN 1S013849 1 Cat 3 PL e This Safe Torque Off STO function may not completely shut off the power supply to the motor electrically Before starting wiring or maintenance jobs be sure to disconnect the input power to the inverter and wait at least 5 minutes Test of Safe Torque Off STO function EN1 EN2 and PLC must be turned off for diagnostics at least one time per hour Then EN1 EN2 and PLC must be kept off for at least 2 seconds Main power supply must be shut off auxiliary power supply of the control circuit can
7. Motor protection PTC NTC thermistor The temperature of the motor has risen abnormally Charging resistor overheat The temperature of the charging resistor inside the inverter has exceeded the allowable limit Braking register overheat The temperature of the Braking resistor has exceeded the allowable limit Overload of motor 1 The electronic thermal protection for motor overload detection was activated Inverter overload The temperature inside the IGBT has risen abnormally Braking transistor broken Detection of an abnormality in the brake transistor Memory error An error has occurred when writing data to the inverter memory Keypad communications error A communications error has occurred between the keypad and the inverter CPU error A CPU error or LSI error has occurred Option communications error A communications error has occurred between the connected option card and the inverter Option error An error was detected by the connected option card not by the inverter Operation protection Tuning error An incorrect operation was attempted Auto tuning has failed resulting in abnormal tuning results RS 485 communications error Er8 RS 485 port 1 ErP port 2 A communications error has occurred during RS 485 communication Data saving error during undervoltage When the undervoltage protection was activated the inverter failed
8. Table1 1 Storage and Transport Environments Item Specifications Storage temperature 1 During transport 25 to 70 C Places not subjected to abrupt temperature changes or condensation During storage 25 to 65 C Relative humidity 5 to 95 RH 2 or freezing Atmosphere The inverter must not be exposed to dust direct sunlight corrosive or flammable gases oil mist vapor water drops or vibration The atmosphere must contain only a low level of salt 0 01 mg cm2 or less per year Atmospheric pressure 86 to 106 kPa during storage 70 to 106 kPa during transportation 4 Assuming comparatively short time storage e g during transportation or the like 2 Even if the humidity is within the specified requirements avoid such places where the inverter will be subjected to sudden changes in temperature that will cause condensation or freezing Precautions for temporary storage 1 Do not leave the inverter directly on the floor 2 If the environment does not satisfy the specified requirements listed in Table1 1 wrap the inverter in an airtight vinyl sheet or the like for storage 3 If the inverter is to be stored in a high humidity environment put a drying agent such as silica gel in the airtight package described in 2 above 2 Long term storage The long term storage method of the inverter varies largely according to the environment of the storage site General storage methods are de
9. 40 IEC EN 60269 2 Note Power supply 24VD0 Disconnect FRNOO11LM2A 70 MCCB or MC Fuses RCD ELCB ete n a 30 IEC EN 60269 2 Inverter 40 IEC EN 60269 2 A box O replaces an alphabetic letter depending on the shipping destination OShipping destination E Europe or A Asia vi Conformity to the Low Voltage Directive in the EU Continued When used with the inverter a molded case circuit breaker MCCB residual current operated protective device RCD earth leakage circuit breaker ELCB or magnetic contactor MC should conform to the EN or IEC standards When you use a residual current operated protective device RCD earth leakage circuit breaker ELCB for protection from electric shock in direct or indirect contact power lines or nodes be sure to install type B of RCD ELCB on the input primary of the inverter The inverter should be used in an environment that does not exceed Pollution Degree 2 requirements Install the inverter AC reactor ACR input or output filter in an enclosure with minimum degree of protection of IP2X Top surface of enclosure shall be minimum IP4X when it can be easily accessed to prevent human body from touching directly to live parts of these equipment Do not connect any copper wire directly to grounding terminals Use crimp terminals with tin or equivalent plating to connect them When
10. EN1 EN2 function is not to be used keep terminals EN1 PLC and EN2 PLC short circuited using jumper wires For opening and closing the hardware circuit between terminals EN1 and PLC and between EN2 and PLC use safe relay device approved according to EN ISO 13849 1 PL e IEC EN 61800 5 2 SIL3 or EN 81 1 9 Wiring must use shielded lines Please connect the shield appropriately according to the specification of the encoder and the connection with the controller In the above figure the shield is connected with the earth line of the inverter side and not connected on the motor It is likely to be improved by connecting the inverter side with CM when malfunction occurs due to noise etc When the wiring between the encoder and the inverter is long the allophone and the torque ripple might be generated because the signal from the encoder malfunctions by interfering with A phase and B phase In this case please execute measures such as wiring shorter cable cable of smaller stray capacitance etc 10 The encoder interface is provided by an option card 11 and are separated and insulated 12 CAN signals are isolated from other internal circuit 13 UO VO WO are connected with U V W respectively 14 The EMC filter can be enabled disabled If the EMC terminal is connected EMC filter is enabled this is default setting If the EMC terminal is disconnected the EMC filter is disabled 2 2 7 Setting the slide switche
11. be supplied at least one time per one day 8 8 8 5 3 Inverter output state when Safe Torque Off STO is activated Turning the emergency stop button ON turns EN1 and EN2 OFF bringing the inverter into the Safe Torque Off STO state Figure 8 6 shows the timing scheme to apply when the emergency stop button is turned OFF with the inverter being stopped Input signals to EN1 and EN2 become ON making the inverter ready to run Run command Emergency stop button Input to EN1 EN2 Inverter output Stop Run Stop ON OFF ON OFF ON OFF Safe Torque Off STO Wait for a run command Wait for a run command Safe Torque Off STO Figure 8 6 Inverter Output State when the Emergency Stop Button is Turned OFF with the Inverter Being stopped 8 9 Figure 8 7 shows the timing scheme to apply when the emergency stop button is turned ON with the inverter running Input signals to EN1 and EN2 go OFF bringing the inverter into the Safe Torque Off STO state and coasting the motor to a stop Run command Run Stop Emergency stop OFF ON button Input to EN1 EN2 ON OFF z Safe Torque Off Inverter output Running STO Figure 8 7 Inverter Output State when the Emergency Stop Button is Turned ON with the Inverter Running 8 5 4 ECF alarm caused by logic discrepancy and inverter output state Figure 8 8 shows the timing scheme to apply when EN1 and EN2 inputs ar
12. could occur Contact outputs 30A B C Y5A C Y4A C Y3A C use relays and may remain ON OFF or undetermined when their lifetime is reached In the interests of safety equip the inverter with an external protective function Avoid continued use of a depleted backup battery which may result in loss of data Otherwise an accident could occur Fire or an accident could occur Maintenance inspection and parts replacement should be made only by qualified persons Take off the watches rings and other metallic objects before starting work Use insulated tools Otherwise an electric shock or injuries could occur Never modify the inverter Doing so could cause an electric shock or injuries Disposal AGAUTION Treat the inverter as an industrial waste when disposing of it Otherwise injuries could occur GENERAL PRECAUTIONS Drawings in this manual may be illustrated without covers or safety shields for explanation of detail parts Restore the covers and shields in the original state and observe the description in the manual before starting operation Icons The following icons are used throughout this manual Note Cote Tip This icon indicates information which if not heeded can result in the inverter not operating to full efficiency as well as information concerning incorrect operations and settings which can result in accidents This icon indicates information that can prove handy wh
13. in wiring of external safety components between terminals EN1 EN2 and PLC Fault Examples Terminals EN1 EN2 and PLC are short circuited due to the wiring being caught in the door of the control panel so that a current continues to flow in terminal EN1 EN2 although the safety component is OFF and therefore the safety function will may NOT operate The wiring is in contact with any other wire so that a current continues to flow in terminal EN1 EN2 and therefore the safety function will may NOT operate 2 gt Notes for Safe Torque Off STO function When configuring the product safety system with this Safe Torque Off STO function make a risk assessment of not only the external equipment and wiring connected to terminals EN1 and EN2 Enable input 1 and Enable input 2 but also the whole system including other equipment devices and wiring against the product safety system required by the machinery manufacturer under the manufacturer s responsibility in order to confirm that the whole system conforms to the product safety system required by the machinery manufacturer In addition as preventive maintenance the machinery manufacturer must perform periodical inspections to check that the product safety system properly functions To bring the inverter into compliance with Functional Safety Standard it is necessary to install the inverter inside a control panel with the enclosure rating of IP54 or above 8 7
14. item 1 Check the ambient temperature humidity vibration and atmosphere dust gas oil mist or water drops 2 Check that tools or other foreign materials or dangerous objects are not left around the equipment riodic Inspections How to inspect 1 Check visually or measure using apparatus 2 Visual inspection Evaluation criteria 1 The standard specifications must be satisfied 2 No foreign or dangerous objects are left Input voltage Check that the input voltages of the main and control circuit are correct Measure the input voltages using a multimeter or the like The standard specifications must be satisfied Keypad 1 Check that the display is clear 2 Check that there is no missing part in the displayed characters 1 2 Visual inspection 1 2 The display can be read and there is no fault Structure such as frame and cover Check for 1 Abnormal noise or excessive vibration 2 Loose bolts at clamp sections 3 Deformation and breakage 4 Discoloration caused by overheat 5 Contamination and accumulation of dust or dirt 1 Visual or auditory inspection 2 Retighten 3 4 5 Visual inspection 1 2 3 4 5 No abnormalities Common 1 Check that bolts and screws are tight and not missing 2 Check the devices and insulators for deformation cracks breakage and discoloration caused by overheat or deterioration 3 C
15. on the input side of the inverter as shown in Figure 8 2 Ferrite Core FRENIC Lift From Power Supply Figure 8 2 Installation for ferrite core 8 2 8 3 3 Leakage current of the EMC filter This product has built in EMC compliant filter that contains grounding capacitors for noise suppression which increase the leakage current Check whether there is no problem with electrical systems When using this product the leakage current listed in Table 8 2 is added Before adding this product consider whether the additional leakage current is allowable in the context of the overall system design Table 8 2 Leakage Current of FRENIC Lift Input power Inverter type se Input power Inverter type eeo FRNOOO6LM2A 4 FRNO010LM2A 4 Three phase 15 One phase FRNO011LM2A 7 15 400 V FRN0015LM2A 4 200 V FRNO019LM2A 4 Calculated based on these measuring conditions 400V series 400V 50Hz with neutral grounding and an interphase voltage unbalance ratio of 2 200V series 230V 50Hz with phase grounding Note A box O replaces an alphabetic letter depending on the shipping destination OShipping destination E Europe or A Asia 8 3 8 4 Harmonic Component Regulation in the EU 8 4 1 General comments When general purpose industrial inverters are used in the EU the harmonics emitted from inverters to the power lines are strictly regulated as stated below If an inverter whose rated i
16. power ON and check that the LCD monitor blink while indicating a reference speed of 0 00 2 Enter the local mode by holding down the key for at least 2 seconds Pressing this key toggles between Local mode and Remote mode 3 Select a low reference speed safety speed by using the Q I Q Key Be sure of that the reference speed blinks on the LCD monitor 4 Press the key to start running the motor in the forward direction Check that the reference speed is displayed on the LCD monitor correctly Also check whether the motor rotating direction is correct 5 To stop the motor press the key 6 Press the 9 key to start running the motor in the reverse direction Check that the reference speed is displayed on the LCD monitor correctly Also check whether the motor rotating direction is correct 7 To stop the motor press the key Note When turning the power OFF and ON again the inverter returns to Remote mode lt Check the following points gt Pressing the key runs the motor forward Pressing the key runs the motor reverse Check for smooth rotation without motor humming or excessive vibration Check for smooth acceleration and deceleration When no abnormality is found press the or key again to start driving the motor and increase the motor speed using aIY keys Check the above points again 4 5 Preparation for Practical Operation After confirming correct operation by performing a test run make mecha
17. supply tuned OFF SW5 t An electric shock may result if this warning is not heeded as 5 there may be some residual electric charge in the DC bus capacitor even after the power has been turned OFF O Figure 2 4 Location of the Slide Switches on the Control PCB Chote To change the setting of a slide switch use a tool with a narrow tip e g a tip of tweezers Be careful not to touch other electronic parts etc If the slide switch is in an intermediate position it is unclear whether the circuit is turned ON or OFF and the digital input remains in an undefined state Be sure to place the slide switch so that it contacts either side of the switch Slide switch in the correct position or Slide switch in an ambiguous position 2 2 8 Mounting and connecting the keypad to the panel You can remove the keypad cover from the inverter unit and to mount keypad option on the panel or install it ata remote site e g for operation on hand LJ For detailed instructions on how to mount the keypad on the panel refer to the FRENIC Lift User s Manual 2 12 Chapter 3 OPERATION USING THE KEYPAD The FRENIC Lift has no standard keypad Using the optional multi function keypad allows you to start and stop the motor monitor runnin
18. to Oto 10v SO Voltage input or Current input for setting 10V to 0 to 10V 4mA to 20mA Analog input PLO Or CM 7 THR Terminals for short circuit ev External Contactor i Normally closed SCC Ground Option card GDN g TREN j DON PA o ON PTC INTC thermistor Ke pt EE Safety module i Compliant to ep EN I5013849 1 8 i LPL DTV am i i i i i i i i daei Li Wey ed d i i i i i i Digital input RCD Residual current operated protective device ELCB Earth Leakage Circuit Breaker MCCB Molded Case Circuit Breaker dg 11 CLO pe EDEN lem 4 END lt Y3C gt ON ees ome 7 ENJ LYA lt vac gt ler J lt Y4A gt FWD so p REV lt Y5A gt X1 lt Y1 gt 7 X2 7X3 lt Y2 gt 0 4 lt CMY gt d 7 XS a lt FMA gt 7 X7 lt 11 gt 9 7 x8 S485 port1 a CM 11 Rs Port WV RJ45 CAN port CAN CAN CANG J RS485 port 1 OX O 2 10 9 Alarm output for any fault Relay output Transistor output Analog output Keypad communication RS485 also Modbus RTU DCP3 DCP4 PC Loader 1 Install a reco
19. ENIC Lift Inverters compliant with EN 81 1 12 7 3 a 8 6 Table 8 4 Operation of STO Functional Safety Function Digital input signals Alarm ECF Digital output signal Inverter status EN1 EN2 Y DECF Shorted Shorted No issue ON Ready to run Issue OFF Output shutdown STO Opened Opened No issue ON Output shutdown STO Issue OFF Output shutdown STO Shorted Opened Issue OFF Output shutdown STO Opened Shorted Issue OFF Output shutdown STO 8 5 2 Notes for compliance to Functional Safety Standard 1 Ra Wiring for terminals EN 1 Enable input 1 and EN2 Enable input 2 EN1 EN2 and PLC are terminals prepared for connection of safety related wires therefore careful wiring should be performed to ensure that no short circuit s can occur to these terminals For opening and closing the hardware circuit between terminals EN1 EN2 and PLC use safety approved components such as safety switches and safety relays that comply with EN IS013849 1 Cat 3 PL e or higher to ensure a complete shutoff Input cables of EN1 and EN2 must be segregated in different electrical conductors installed inside different conduits otherwise the use of independent shielded cables is a must The armor of the conduit or the shield must be connected to CM terminal It is the responsibility of the machinery manufacturer to guarantee that a short circuiting or other fault does not occur
20. Instruction Manual Fuji Electric FRENIC Lift AGAUTION Thank you for purchasing our FRENIC Lift series of inverters This product is designed to drive three phase induction motors and three phase permanent magnet synchronous motors Read through this manual to become familiar with the handling procedure and correct use Improper handling might result in incorrect operation short life cycle or failure of this product as well as the motor e Deliver this manual to the end user of this product Keep this manual in a safe place until this product is discarded e For instructions on how to use an optional device refer to the instruction and installation manuals for that optional device eee Fuji Electric Co Ltd INR S147 1894 E Copyright O 2015 Fuji Electric Co Ltd All rights reserved No part of this publication may be reproduced or copied without prior written permission from Fuji Electric Co Ltd All products and company names mentioned in this manual are trademarks or registered trademarks of their respective holders The information contained herein is subject to change without prior notice for improvement Preface Thank you for purchasing our FRENIC Lift series of inverters FRENIC Lift is an inverter designed to drive a three phase induction motor hereafter called induction motor and a three phase permanent magnet synchronous motor hereafter called synchronous motor for exclusively controlli
21. N 900990 aH in 8 3 Compliance with EMC Standards 8 3 1 General 8 3 2 Recommended installation procedure 8 3 3 Leakage current of the EMC filter 8 4 Harmonic Component Regulation in the EU 8 4 1 General comments 8 4 2 Compliance with IEC EN 61000 3 2 8 5 Compliance with Functional Safety Standard 8 5 1 General 8 5 2 Notes for compliance to Functional Safety Standard orit AT EE 8 7 8 5 3 Inverter output state when Safe Torque Off STO is activated 8 9 8 5 4 ECF alarm caused by logic discrepancy and inverter output state 0 eee eeeeeeee 8 11 xi Chapter 1 BEFORE USE 1 1 Acceptance Inspection and Appearance of Product Unpack the package and check the following 1 2 3 An inverter and the following accessories are contained in the package Instruction manual this book Main circuit wiring connector The inverter has not been damaged during transportation there should be no dents or parts missing The inverter is the type you ordered You can check the type and specifications on the main nameplate A total of two nameplates and warning plates are attached to the inverter as shown below Warning plate Fe Fa oae FRENIC Lift AWARNINGA RISK OF INJURY OR ELECTRIC SHOCK Refer to the instruction manual before installation and operation Do not remove any cover while applying power and at least 5min after disconnecting power Se
22. Supply Inverter L1 L2 L3 L1 R Li 4 L1 R L2 S L2 L2 S L3 T L3 L3 T G N PE ea TN C system Power supply In TN S system verter Power supply Inverter Li L1 R L1 L1 R L2 L2 S L2 L2 S L3 L3 T L3 L3 T N IT system 1 Power supply OG Tl OG TT system Earthed neutral Inverter Li L2 L3 LI R L2 S L3 T G TT system corner earthed phase earthed Applicable for 200V type only 2 1 Use this inverter at the following IT system Non earthed isolated from earth IT system Can be used In this case the insulation between the control interface IT system which earthed neutral by an impedance and the main circuit of the inverter is basic insulation Thus do not connect SELV circuit from external controller directly make connection using a supplementary insulation Corner earthed Phase earthed IT system by an impedance Cannot be used 2 Cannot apply to Corner earthed Phase earthed TT system except 200V type viii Product warranty To all our customers who purchase Fuji Electric products included in this documentation Please take the following items into consideration when placing your order When requesting an estimate and placing your orders for the products described in this document please be aware t
23. ations Type FRN LM2A 4E 0006 0010 0015 0019 mm Rated capacity KVA 4 6 7 6 11 14 ree phase 380V 480V 50 60Hz g 3 Overload capacity A Permissible overload time 3s 3s Rated frequency Hz Phases Voltage Frequency Three phase 380 to 480V 50 60Hz Voltage 10 to 15 Voltage unbalance 2 or less uency 5 Freq y to 5 Rated with DCR current A _ Without DCR 2 Required power supply capacity 10 with DCR KVA Phases Voltage Frequency Variations Voltage 10 to 10 Frequency 5 to 5 Operation time s 180 Power Supply Voltage for driving DC 48V or more in the direct current voltage conversion Normal operation Input ratings Main power supply Operation time s 80 operation DC 24V 22V to 32V Maximum 40W Rated regenerative power 18 32 a f eo Minimum resistance which can be EMC filter uilt in According to EN12015 EN12016 Applicable safety standard N 81 1 A3 Enclosure IEC60529 IP20 Heat sink IP54 Cooling method Fan cooling Weight Mass kg 1 Rated capacity is calculated by regarding the output rated voltage as 440V 2 Output voltage cannot exceed the power supply voltage 3 It is a value in the condition of the carrier frequency 10 kHz 2phase modulation and the ambient temperature 45 C Select the inverter capacity such that the square average current in cycle operation is 80 of the rated current 4 Voltage unbalance
24. cation Ambient temperature Relative humidity 5 to 95 No condensation The inverter must not be exposed to dust direct sunlight corrosive gases flammable gases oil mist vapor or water drops Pollution degree 2 IEC EN 60664 1 1 Atmosphere The atmosphere can contain a small amount of salt 0 01 mg cm or less per year The inverter must not be subjected to sudden changes in temperature that will cause condensation to occur Altitude 1 000 m max Atmospheric pressure 3 mm 2 to less than 9 Hz 10 m s 9 to less than 200 Hz 2 C amp E S ko Q X 3 c o E c 5 5 c fr Vibration 1 Do not install the inverter in an environment where it may be exposed to lint cotton waste or moist dust or dirt which will clog the heat sink of the inverter If the inverter is to be used in such an environment install it in a dustproof panel of your system 2 If you use the inverter in an altitude above 1000 m you should apply an output current derating factor as listed in the table below Altitude ae T 1000 to 1500m 1500t02000m 2000to2500m 2500 to 3000 m Output current derating factor 1 00 0 97 0 95 0 91 0 88 1 3 1 3 2 Storage environment The storage environment in which the inverter should be stored after purchase differs from the usage environment Store the inverter in an environment that satisfies the requirements listed below 1 Temporary storage
25. cation or cancellation of the customizable logic may change the operation sequence to cause a sudden motor start or an unexpected motor operation If any abnormality is found in the inverter or motor immediately stop it and perform troubleshooting referring to the FRENIC Lift User s Manual An accident or injuries could occur Maintenance and inspection and parts replacement AWARNINGA Before proceeding to maintenance or inspection turn OFF the power and wait at least 10 minutes Make sure that the charging lamp is turned OFF Further make sure using a multimeter or a similar instrument that the DC link bus voltage between the terminals P and N has dropped to the safe level 25 VDC or below Otherwise an electric shock could occur Always carry out the daily and periodic inspections described in the user s manual Use of the inverter for long periods of time without carrying out regular inspections could result in malfunction or damage and an accident or fire could occur It is recommended that periodic inspections be carryout every one to two years however they should be carried out more frequently depending on the usage conditions It is recommended that parts for periodic replacement be replaced in accordance with the standard replacement frequency indicated in the user s manual Use of the product for long periods of time without replacement could result in malfunction or damage and an accident or fire
26. commands are set to OFF release the alarm If the alarm is released while any run commands are set to ON the inverter may supply the power to the motor running the motor Otherwise an accident could occur A WARNING A If the user configures the function codes wrong without completely understanding this Instruction Manual and the FRENIC Lift User s Manual the motor may rotate with a torque or at a speed not permitted for the machine An accident or injuries could occur Even if the inverter has interrupted power to the motor if the voltage is applied to the main circuit input terminals L1 R L2 S and L3 T voltage may be output to inverter output terminals U V and W Even if the motor is stopped due to DC braking voltage is output to inverter output terminals U V and W An electric shock may occur The inverter can easily accept high speed operation When changing the speed setting carefully check the specifications of motors or equipment beforehand Otherwise injuries could occur AGAUTION Do not touch the heat sink because it becomes very hot Doing so could cause burns The DC brake function of the inverter does not provide any holding mechanism Injuries could occur Ensure safety before modifying customizable logic related function code settings U codes and related function codes or turning ON the Cancel customizable logic terminal command CLC Depending upon the settings such modifi
27. curely ground earth the equipment High touch current AAVERTISSEMENT RISQUE DE BLESSURE OU DE CHOC LECTRIQUE Ne retirez pas le couvercle lorsque vous mettez sous tension Ce couvercle peut tre retir au moins 5 minutes apr s la mise hors tension et quand le t moin ACTIF s teint Plus d un circuit lectrique actif Reportez vous au manuel d instruction Only type B of RCD is allowed See manual for details Sub nameplate TYPE FRNOO19LM2A 4E SER No WOZA123A0001Z Main nameplate Inverter type TYPE Input power F2 Fuji Electric es 1 FRNOO19LM2A 4E specifications SOURCE 3PH 380 480V 50Hz 60Hz 23 2A Production year and week The 1st week of january is indicated as 01 Inverter output OUTPUT specifications Enclosure IP Code IP20 3PH 380 480V 0 200Hz 14KVA 18 5A 200 3sec 1 ae 1 Production week 1 1 1 1 Production year Last digit of year Product number SER No WOZA123A0001Z Fuji Electri Europe GmbH D63067 o m Main I ss MASS 4 7kg Mass of the inverter 1 1
28. d Storage environment 1 3 1 3 1 Usage environment 1 3 1 3 2 Storage environment ce eeeeeeeereeeee 1 4 Chapter 2 MOUNTING AND WIRING THE INVERTER 2 1 2 1 Installing the Inverter 2 1 2 2 Wiring 2 1 2 2 1 Removing the front cover 2 1 2 2 2 Mounting the front cover 2 1 2 2 3 Recommended wire sizes 2 2 2 2 4 Terminal arrangement diagrams and screw specifications 2 2 5 Terminal functions and wiring order 2 2 6 Connection diagrams 2 2 7 Setting the slide switches on the control PCB 2 2 8 Mounting and connecting the keypad to the paneles 42d ae ice Seer 2 12 Chapter 3 OPERATION USING THE KEYPAD Chapter 4 RUNNING THE MOTOR FORA TEST 4 1 Checking Prior to Powering ON 4 2 Powering ON and Checking 4 3 Configuring the Function Code Data Before TESERUN mdr a 4 2 4 4 Running the Inverter for Motor Operation Check 4 5 Preparation for Practical Operation ronernvrnnenn 4 3 Chapter 5 TROUBLESHOOTING 5 1 Alarm Codes as Chapter 6 MAINTENANCE AND INSPECTION 6 1 Daily Inspection 6 2 Periodic Inspection 6 3 List of Periodic Replacement Parts 6 4 Inquiries about Product and Guarantee 6 4 1 When making an inquiry UO N a Chapter 7 SPECIFICATIONS 7 1 Standard Model 7 2 External Dimensions FANEN Chapter 8 CONFORMITY WITH STANDARDS 8 1 Compliance with European Standards 8 2 Conformity to the Low Voltage Directive as Yo NN
29. e 0 to 10VDC 0 to 100 2 Hardware specifications Input impedance 22 kQ The maximum input voltage is 15VDC however more than 15VDC is regarded as 10VDC Analog setting voltage input Analog setting current input PTC NTC thermistor input NTC PTC NTO External voltage input that commands the frequency externally 1 Input voltage range 0to 10VDC 0 to 100 2 hardware specifications Input impedance 22 kQ The maximum input voltage is 15VDC however more than 15VDC is regarded as 10VDC External current input that commands the frequency externally 1 Input voltage range 4 to 20mADC 0 to 100 2 hardware specifications Input impedance 250 Q The maximum input current is 30mADC however more than 20mADC is regarded as 20mADC Connection of a PTC Positive Temperature Coefficient or NTC Negative Temperature Coefficient thermistor for motor protection Analog common Digital input 1 to Digital input 8 Run forward command 11 Run reverse command Common terminal for analog input signals 1 Various signals such as Coast to a stop Enable external alarm trip and Select multi frequency can be assigned to terminals X1 to X8 FWD and REV by setting function codes E01 to E08 E98 and E99 2 Input mode i e SINK and SOURCE is changeable by using the slide switch SW1 3 The logic value 1 0 for ON OFF of the terminals X1
30. e not concordant so that an alarm ECF occurs Turning the emergency stop button ON turns EN1 and EN2 inputs OFF which usually brings the inverter into the Safe Torque Off STO state If the discrepancy of the EN1 and EN2 inputs is within 50 ms no alarm occurs if it is longer than 50 ms the inverter interprets it as a logic discrepancy outputting the alarm ECF The alarm can be cleared by restarting the inverter To diagnose the EN terminals circuit appropriately when turning EN1 EN2 inputs ON and OFF keep the ON and OFF time for at least 2 s Power OFF Power ON Run command Run Stop Emergency stop OFF ON ON button OFF gt 2s gt 2s Input to EN1 ON OFF i OFF i ON Input to EN2 ON OFF OFF gt ON 50 ms 50 ms ECF alarm No alarm Alarm issued No alarm Alarm issued Safe Torque Off Safe Torque Off Inverter output Running STO STO Figure 8 8 ECF Alarm Caused by Logic Discrepancy and Inverter Output State FRENIC Lift Instruction Manual First Edition February 2015 Fuji Electric Co Ltd The purpose of this instruction manual is to provide accurate information in handling setting up and operating of the FRENIC Lift series of inverters Please feel free to send your comments regarding any errors or omissions you may have found or any suggestions you may have for generally improving the manual In no event will Fuji Electric Co Ltd be liable fo
31. e to supply the spare parts required for repairs for a period of 7 years counting from the month and year when the production stop occurs However if it is estimated that the life cycle of certain electronic and other parts is short and it will be difficult to procure or produce those parts there may be cases where it is difficult to provide repairs or supply spare parts even within this 7 year period For details please confirm at our company s business office or our service office 4 Transfer rights In the case of standard products which do not include settings or adjustments the products shall be transported to and transferred to the customer and this company shall not be responsible for local adjustments or trial operation 5 Service contents The cost of purchased and delivered products does not include the cost of dispatching engineers or service costs Depending on the request these can be discussed separately 6 Applicable scope of service Above contents shall be assumed to apply to transactions and use in the country where you purchased the products Consult your local supplier or Fuji Electric representative for details Table of Contents Preface EE E T i m Safety precautions i Conformity to the Low Voltage Directive in the EU Chapter 1 BEFORE USE niano OSAS 1 1 1 1 Acceptance Inspection and Appearance of Product 1 1 1 2 Precautions for Using Inverters 1 2 1 3 Usage environment an
32. ed However if the following cases are applicable the terms of this warranty may not apply The breakdown was caused by the installation conditions environment handling or methods of use etc which are not specified in the catalog operation manual specifications or other relevant documents The breakdown was caused by a product other than the purchased or delivered Fuji s product The breakdown was caused by ta product other than Fuji s product such as the customer s equipment or software design etc Concerning the Fuji s programmable products the breakdown was caused by a program other than a program supplied by this company or the results from using such a program The breakdown was caused by modifications or repairs affected by a party other than Fuji Electric The breakdown was caused by improper maintenance or replacement of replaceable items etc specified in the operation manual or catalog etc The breakdown was caused by a scientific or technical or other problem that was not foreseen when making practical application of the product at the time it was purchased or delivered The product was not used in the manner the product was originally intended to be used The breakdown was caused by a reason which Fuji Electric is not responsible such as lightning or other disaster Furthermore the warranty specified herein shall be limited to the purchased or delivered product alone The upper limit for the warra
33. en performing certain settings or operations QQ This icon indicates a reference to more detailed information Conformity to the Low Voltage Directive in the EU If installed according to the guidelines given below inverters marked with CE are considered as compliant with the Low Voltage Directive 2006 95 EC Compliance with European Standards Adjustable speed electrical power drive systems PDS Part 5 1 Safety requirements Electrical thermal and energy IEC EN 61800 5 1 2007 A WARNINGA 1 The ground terminal G should always be connected to the ground Do not use only a residual current operated protective device RCD earth leakage circuit breaker ELCB as the sole method of electric shock protection Be sure to use ground wires of recommended size listed on page vii With overcurrent protection 2 To prevent the risk of hazardous accidents that could be caused by damage of the inverter install the specified fuses in the supply side primary side according to the following tables Breaking capacity Min 10 kA Rated voltage Min 500 V Fuse rating A Class Inverter type Power supply voltage motor kW With DCR Without DCR Nominal applied Three phase 400 V FRNOOO6LM2A 40 10 IEC EN 60269 2 15 IEC EN 60269 2 FRNOO10LM2A 40 15 IEC EN 60269 2 20 IEC EN 60269 2 FRNOO15LM2A 40 FRNOO19LM2A 40 20 IEC EN 60269 2 30 IEC EN 60269 2 30 IEC EN 60269 2
34. fe cycle 100 000 50 000 250VAC 0 5A cos 0 3 250VAC 1A cos 0 3 30VDC 0 5A 100 000 30VDC 1A 50 000 RS 485 communications port 2 On the terminal block DX DX These I O terminals are used as a communications port that transmits data through the RS 485 multipoint protocol between the inverter and a computer or other equipment such as a PLC or elevator controller Com munica tion RS 485 communications port 1 For connection of the keypad RJ 45 connector Used to connect the keypad to the inverter The inverter supplies the power to the keypad via the extension cable for remote operation CAN open communications CAN CAN CANG These I O terminals are used as a communications port that transmits data through the CANopen multipoint protocol between the inverter and a computer or other equipment such as a PLC or elevator controller 2 9 2 2 6 Connection diagrams This section shows connection diagrams with the Enable input function used DC REACTOR DCR 3 EXTERNAL BRAKING RESISTOR MCCB or Fuse RCD ELCB 1 6 Three phase Power supply 4 L Refer te y ee a Xi Single phase HL Power supply pg ii Refer to L2 N 1 Standard i a EMC ONOFF switch 14 EN 13 I Auxiliary control 24VDC 24v A power input 2 Input 24V Voltage input for setting 10V
35. g Detected collision between ENOFF output and EN1 EN2 input terminals EN1 EN2 terminals circuit error An abnormality was diagnosed in EN1 EN2 terminals circuit These alarms can change enable disable by a function code Q For detail of function code refer to the FRENIC Lift User s Manual 5 2 Chapter 6 MAINTENANCE AND INSPECTION Perform daily and periodic inspections to avoid trouble and keep reliable operation of the inverter for a long time 6 1 Daily Inspection Visually inspect the inverter for operation errors from the outside without removing the covers when the inverter is ON or operating Check that the expected performance satisfying the standard specifications is obtained Check that the surrounding environment satisfies the environmental requirements given in Chapter 7 Section 7 1 Standard Model Check that the keypad displays normally Check for abnormal noise odor or excessive vibration Check for traces of overheat discoloration and other defects 6 2 Periodic Inspection Before starting periodic inspections be sure to stop the motor shut down the power and wait at least 10 minutes Make sure that the charging lamp is turned OFF Further make sure using a multimeter or a similar instrument that the DC link bus voltage between the main circuit terminals P and N has dropped to the safe level 25 VDC or below Check part Environment Table 6 1 List of Pei Check
36. g status and switch to the menu mode You may also set the function code data monitor I O signal states maintenance information and alarm information For details of the multi function keypad refer to the FRENIC Lift User s Manual 3 1 Chapter4 RUNNING THE MOTOR FOR A TEST 4 1 Checking Prior to Powering ON Check the following before powering on the inverter 1 Check that the wiring is correct Especially check the wiring to the inverter input terminals L1 R L2 S and L3 T and output terminals U V and W Also check that the grounding wires are connected to the grounding terminals G correctly See Figure 4 1 2 Check the control circuit terminals and main circuit terminals for short circuits or ground faults 3 Check for loose terminals connectors and screws 4 Check that the motor is separated from mechanical equipment 5 Make sure that all switches of devices connected to the inverter are turned OFF Powering on the inverter with any of those switches being ON may cause an unexpected motor operation 6 Check that safety measures are taken against runaway of the equipment e g a defense to prevent people from access to the equipment Inverter SG LIR LAS LIT U Figure 4 1 Connection of Main Circuit Terminals 4 2 Powering ON and Checking Turn the power ON and check the following points The following assumes that no function code data is changed from the factory default 1 Check that the charge la
37. hat any items such as specifications which are not specifically mentioned in the contract catalog specifications or other materials will be as mentioned below In addition the products described in this document are limited in the use they are put to and the place where they can be used etc and may require periodic inspection Please confirm these points with your sales representative or directly with this company Furthermore we request that you inspect the purchased and delivered products at the time of delivery Also prepare the area for installation of the inverter 1 Free of charge warranty period and warranty range 1 Free of charge warranty period 1 The product warranty period is 1 year from the date of purchase or 24 months from the manufacturing date imprinted on the nameplate whichever date is earlier 2 However in cases where the installation environment conditions of use frequency or use and times used etc have an effect on product life this warranty period may not apply 3 Furthermore the warranty period for parts repaired by Fuji Electric s Service Department is 6 months from the date that repairs are completed 2 Warranty range 1 Inthe event that breakdown occurs during the product s warranty period which is the responsibility of Fuji Electric Fuji Electric will replace or repair the part of the product that has broken down free of charge at the place where the product was purchased or where it was deliver
38. heck for contamination or accumulation of dust or dirt 1 Retighten 2 3 Visual inspection 1 2 3 No abnormalities Main circuit Conductors and wires 1 Check conductors for discoloration and distortion caused by overheat 2 Check the sheath of the wires for cracks and discoloration 1 2 Visual inspection 1 2 No abnormalities Terminal blocks Check that the terminal blocks are not damaged 6 1 Visual inspection No abnormalities Check part DC link bus capacitor Table 6 1 List of Periodic Inspections Continued Check item 1 Check for electrolyte leakage discoloration cracks and swelling of the casing 2 Check that the safety valve is not protruding remarkably 3 Measure the capacitance if necessary How to inspect 1 2 Visual inspection 3 Measure the discharge time with capacitance probe Evaluation criteria 1 2 No abnormalities 3 The discharge time should not be shorter than the one specified by the replacement manual Main circuit Transformer and reactor Check for abnormal roaring noise and odor Auditory visual and olfactory inspection No abnormalities Magnetic contactor and relay 1 Check for chatters during operation 2 Check that contact surface is not rough 1 Auditory inspection 2 Visual inspection 1 2 No abnormalities Printed circuit board Control circuit C
39. injuries e Prevent lint paper fibers sawdust dust metallic chips or other foreign materials from getting into the inverter or from accumulating on the heat sink When changing the positions of the top and bottom mounting bases use only the specified screws Otherwise a fire or an accident might result Do not install or operate an inverter that is damaged or lacking parts Doing so could cause fire an accident or injuries Wiring A WARNINGA If there isn t zero phase current Earth leakage current detective device such as a ground fault relay in the upstream power supply line which is to avoid undesirable system shutdown Install a residual current operated protective device RCD earth leakage circuit breaker ELCB individually to break the individual inverter s power supply line Otherwise a fire could occur e When wiring the inverter to the power source insert a recommended molded case circuit breaker MCCB or residual current operated protective device RCD earth leakage circuit breaker ELCB with overcurrent protection in the path of each pair of power lines to inverters Use the recommended devices within the recommended current capacity e Use wires in the specified size e Tighten terminals with specified torque Otherwise a fire could occur When there is more than one combination of an inverter and motor do not use a multicore cable for the purpose of running their wirings togethe
40. ion Offset Offset angle Rated Speed 1450 r min Motor Control Mode 0 Vector control with PG Selection 1 Asynchronous motor Machinery design values 0 00 deg Speed Command Unit 0 r min Speed data format Elevator Parameter Speed 1000 mm s Motor rotate direction 1 Motor rotates in CW Clockwise direction Note In any of the following cases motor tuning is necessary because the standard settings of motor parameters for Fuji motors are not applicable The motor to be driven is not a Fuji product or is a non standard product The cabling between the motor and the inverter is long Areactor is inserted between the motor and inverter To drive a synchronous motor you need to tune the inverter for the offset angle of magnet pole before running the motor To drive a motor with encoder an option card should be used which has to be ordered separately Q For details of motor tuning procedure refer to the FRENIC Lift User s Manual 4 2 4 4 Running the Inverter for Motor Operation Check After preparations of 4 1 4 3 have been completed begin to perform the test drive of the motor Note Turn on both terminals EN1 and EN2 before running the motor If terminals EN1 or EN2 and PLC are not connected the motor doesn t rotate Test Run Procedure using the multi function keypad option 1 Turn the
41. le 6 2 Replacement Parts Standard replacement intervals Part name See Notes below 400V 200V class series DC link bus capacitor 7 years Electrolytic capacitors on printed circuit boards 7 years Cooling fans 7 years Relay output of control circuit terminals Refer to Table 2 5 6 2 Notes These replacement intervals are based on the inverter s service life estimated at an ambient temperature of 40 C and with a load factor of 80 Replacement intervals may be shorter when the ambient temperature exceeds 40 C or when the inverter is used in an excessively dusty environment Standard replacement intervals mentioned above are only a guide for replacement and not a guaranteed service life 6 4 Inquiries about Product and Guarantee 6 4 1 When making an inquiry Upon breakage of the product uncertainties failure or inquiries inform your Fuji Electric representative of the following information 1 Inverter type Refer to Chapter 1 Section 1 1 2 SER No serial number of the product Refer to Chapter 1 Section 1 1 3 Function codes and their data that you changed Refer to the FRENIC Lift User s Manual 4 ROM version Refer to FRENIC Lift User s Manual 5 Date of purchase 6 Inquiries for example point and extent of breakage uncertainties failure phenomena and other circumstances 6 3 Chapter7 SPECIFICATIONS 7 1 Standard Model 1 Three phase 400V series Specific
42. mmended molded case circuit breaker MCCB or residual current operated protective device RCDYearth leakage circuit breaker ELCB with over current protection function in the primary circuit of the inverter to protect wiring 2 Refet to table 2 4 3 Not provided with the shorting cable between the inverter main circuit terminals P2 P3 instead of the direct current reactor DCR option 4 Use the inverter connecting the power system which has earthed neutral point In case of non earthed system ex I T NET the control interface of the inverter becomes basic insulation thus do not connect SELV circuit from external controller directly 5 For the control signal wires use shielded or twisted wires Ground shielded wires To prevent malfunction due to noise keep the control circuit wiring away from the main circuit wiring as far as possible recommended 10cm or more and never lay them in the same wire duct When crossing the control circuit wiring with the main circuit wiring lay them at right angles 6 To bring the inverter into compliance with the European electrical safety standard IEC EN 61800 5 1 2007 be sure to insert the specified fuse see Instruction Manual in the primary circuit of the inverter 7 Connection terminal depends on SOURCE SINK setting by slide switch SW1 please refer to chapter 2 2 7 Connect to PLC terminal when SOURCE is set and to CM terminal when SINK is set 8 When the Enable inputs
43. mp lights up 4 1 4 3 Configuring the Function Code Data Before Test Run Configure the function codes listed below according to the motor ratings and your machinery design values For the motor ratings check the ratings printed on the motor s nameplate For your machinery design values ask system designers about them Q To set up function code you need to use the keypad option or to access their data via communications link For details refer to the FRENIC Lift User s Manual Table 4 1 Configuring Function Code Data Function code F04 Base Speed 1500 r min Name Function code data Factory defaults Rated Voltage at Base Speed P01 Motor No of poles 4 P F05 190 V 380 V P02 r Rated capacity Nominal applied motor capacity P03 r Rated current Motor ratings Rated current of nominal applied motor printed on the nameplate of P06 r No load current the motor No load current of the standard motor P07 Motor R1 Primary resistance of the standard motor P08 Motor X Leakage reactance of the standard motor 0 00 Hz P12 Motor Rated slip 4 The rated slip of the standard motor is applied 0 12V 15V complementary open collector output circuit or 5V line driver 1024 pulse rev Pulse Encoder Selection Depending on data sheet of Pulse Encoder Resolution ine pulse encoder Magnetic pole posit
44. ng elevating machinery Improper handling might result in incorrect operation a short life or even a failure of this product as well as the motor To drive a synchronous motor a PG interface card option involving a pulse encoder is needed For derails refer to the instruction manual of PG Interface Card This instruction manual is the original instructions and provides only minimum requisite information for wiring and operation of the product Read through this manual before use For details about this product refer to the FRENIC Lift User s Manual that contains the precautions detailed functions and specifications wiring configuration and maintenance Related documentation FRENIC Lift User s Manual These materials are subject to change without notice Be sure to obtain the latest editions for use We plan to make the latest edition of the User s Manual available for download from the following URL URL https felib fujielectric co jp download index htm site global amp lang en E Safety precautions Read this manual thoroughly before proceeding with installation connections wiring operation or maintenance and inspection Ensure you have sound knowledge of the device and familiarize yourself with all safety information and precautions before proceeding to operate the inverter Safety precautions are classified into the following two categories in this manual WARN N G Failure to heed the information indicated b
45. nical connections connections of the machine system and electrical connections wiring and cabling and set the necessary parameters properly before starting normal machine operation Before to proceed running the inverter in normal operation check the related function code data again Note and reconfigure it if needed 4 3 Chapter 5 TROUBLESHOOTING 5 1 Alarm Codes Table 5 1 Quick List of Alarm Codes Instantaneous overcurrent Overvoltage Description The inverter momentary output current exceeded the overcurrent level OC1 Overcurrent during acceleration OC2 Overcurrent during deceleration OC3 Overcurrent during running at a constant speed The DC link bus voltage exceeded the overvoltage detection level OV1 Overvoltage during acceleration OV2 Overvoltage during deceleration OV3 Overvoltage during running at a constant speed Undervoltage The DC link bus voltage dropped below the undervoltage detection level Input phase loss An input phase loss occurred or the Interphase voltage unbalance rate was large Output phase loss An output phase loss occurred Heat sink overheat The temperature around the heat sink has risen abnormally External alarm The external alarm THR was entered when the THR Enable external alarm trip has been assigned to any digital input terminal Inverter internal overheat The temperature inside the inverter has exceeded the allowable limit
46. nnected to these terminals If the power wires are connected to other terminals the inverter will be damaged when the power is turned ON Route the wiring of the control circuit as far from that of the main circuit as possible Otherwise electric noise may cause malfunctions When the Enable function is not to be used short circuit terminals EN1 and PLC and terminals EN2 and PLC using jumper wires Note Do not connect wiring to unassigned main circuit terminals marked with NC For details about the terminal block refer to Section 2 2 3 Terminal arrangement diagrams and screw specifications Wiring of Auxiliary control power input terminals Auxiliary control power input terminals 24V and 24V Terminal rating 22 to 32VDC Maximum current 2 0A Maximum power 40W E Wiring notes To make the machinery or equipment compliant with the EMC standards wire the motor and inverter in accordance with the following 1 Use shielded wires for the motor cable and route the cable as short as possible Firmly clamp the shield to the grounded metal plate For details about wiring refer to Chapter 8 Section 8 3 Compliance with EMC Standards 2 5 Control circuit terminals Classifi cation Digital input Table 2 5 Names Symbols and Functions of the Control Circuit Terminals Analog setting voltage input Functions External voltage input that commands the frequency externally 1 Input voltage rang
47. nput is 1 kW or less is connected to the public low voltage power supply it is regulated by the harmonics emission regulation IEC EN 61000 3 2 If an inverter whose input current is 16 A or above and 75 A or below is connected to the public low voltage power supply it is regulated by the harmonics emission regulation IEC EN 61000 3 12 Note that connection to the industrial low voltage power lines is an exception See Figure 8 3 Medium voltage Medium to Heer low voltage transformer Public low voltage power supply Medium to low voltage transformer Industrial low voltage power supply Inverter Inverter L The inverter connected here is E The inverter connected subject to the harmonics here is not subject to the regulation If the harmonics harmonics regulation flowing into the power source exceeds the regulated level permission by the local power supplier will be needed Figure 8 3 Power Source and Regulation 8 4 2 Compliance with IEC EN 61000 3 12 To bring the inverters FRNOOO6LM2A 4 to FRNO019LM2A 4 into compliance with IEC EN 61000 3 12 install an optional DC reactor and connect the inverters to a power supply whose short circuit ratio Rsce is 120 or above 8 4 8 5 Compliance with Functional Safety Standard 8 5 1 General In FRENIC Lift series of inverters opening the hardware circuit between terminals EN1 PLC or between terminals EN2 PLC stops the output transi
48. nty range shall be as specified in item 1 above and any damages damage to or loss of machinery or equipment or lost profits from the same etc consequent to or resulting from breakdown of the purchased or delivered product shall be excluded from coverage by this warranty 3 Trouble diagnosis As a rule the customer is requested to carry out a preliminary trouble diagnosis However at the customer s request this company or its service network can perform the trouble diagnosis on a chargeable basis In this case the customer is asked to assume the burden for charges levied in accordance with this company s fee schedule Product warranty 2 Exclusion of liability for loss of opportunity etc Regardless of whether a breakdown occurs during or after the free of charge warranty period this company shall not be liable for any loss of opportunity loss of profits or damages arising from special circumstances secondary damages accident compensation to another company or damages to products other than this company s products whether foreseen or not by this company which this company is not be responsible for causing 3 Repair period after production stop spare parts supply period holding period Concerning models products which have gone out of production this company will perform repairs for a period of 7 years after production stop counting from the month and year when the production stop occurs In addition we will continu
49. ond environment Industrial Emission Category C2 EN 12015 2004 EN 12016 2013 IEC EN 61326 3 1 2008 EN ISO 13849 1 2008 Cat 3 PL e IEC EN 61508 1 to 7 2010 SIL3 Machinery Directive IEC EN 61800 5 2 2007 SIL3 Safety function Safe Torque Off STO IEC EN 62061 2005 SILCL3 Lift Directive EN 81 1 1998 A3 2009 in extract Note A box O replaces an alphabetic letter depending on the shipping destination OShipping destination E Europe or A Asia 8 2 Conformity to the Low Voltage Directive in the EU To use Fuji inverters as a product conforming to the Low Voltage Directive in the EU refer to guidelines given on pages vii to ix 8 1 8 3 Compliance with EMC Standards 8 3 1 General The CE marking on inverters does not ensure that the entire equipment including our CE marked products is compliant with the EMC Directive Therefore CE marking for the equipment shall be the responsibility of the equipment manufacturer For this reason Fuji Electrics CE mark is indicated under the condition that the product shall be used within equipment meeting all requirements for the relevant Directives Instrumentation of such equipment shall be the responsibility of the equipment manufacturer Generally machinery or equipment includes not only our products but other devices as well Manufacturers therefore shall design the whole system to be compliant with the relevant Directives i EMC certification testing i
50. ooling fan 1 Check for loose screws and connectors 2 Check for odor and discoloration 3 Check for cracks breakage deformation and rust 4 Check the capacitors for electrolyte leaks and deformation 1 Check for abnormal noise and excessive vibration 2 Check for loose bolts 3 Check for discoloration caused by overheat 1 Retighten 2 Olfactory and visual inspection 3 4 Visual inspection 1 Auditory and visual inspection or turn manually be sure to turn the power OFF 2 Retighten 3 Visual inspection 1 2 3 4 No abnormalities 1 Smooth rotation 2 3 No abnormalities Cooling system Ventilation path Check the heat sink intake and exhaust ports for clogging and foreign materials Visual inspection No abnormalities Remove dust accumulating on the inverter with a vacuum cleaner If the inverter is stained wipe it off with a chemically neutral cloth 6 3 List of Periodic Replacement Parts The inverter consists of many electronic parts including semiconductor devices Table 6 2 lists replacement parts that should be periodically replaced for preventive maintenance use the lifetime judgment function as a guide These parts are likely to deteriorate with age due to their construction and properties leading to the decreased performance or failure of the inverter When the replacement is necessary consult your Fuji Electric representative Tab
51. r Do not connect a surge killer to the inverter s output secondary circuit Doing so could cause a fire Be sure to ground the inverter s grounding terminals G Otherwise an electric shock or a fire could occur e Qualified electricians should carry out wiring Be sure to perform wiring after turning the power OFF Otherwise an electric shock could occur Be sure to perform wiring after installing the inverter unit Otherwise an electric shock or injuries could occur A WARNINGA Ensure that the number of input phases and the rated voltage of the product match the number of phases and the voltage of the AC power supply to which the product is to be connected Otherwise a fire or an accident could occur Do not connect the power supply wires to the inverter output terminals U V and W Doing so could cause fire or an accident In general sheaths of the control signal wires are not specifically designed to withstand a high voltage i e reinforced insulation is not applied Therefore if a control signal wire comes into direct contact with a live conductor of the main circuit the insulation of the sheath might break down which would expose the signal wire to a high voltage of the main circuit Make sure that the control signal wires will not come into contact with live conductors of the main circuit Doing so could cause an accident or an electric shock AWARNINGA Before changing
52. r any direct or indirect damages resulting from the application of the information in this manual Fuji Electric Co Ltd Gate City Ohsaki East Tower 11 2 Osaki 1 chome Shinagawa ku Tokyo 141 0032 Japan Phone 81 3 5435 7058 Fax 81 3 5435 7420 URL http www fujielectric com
53. rating voltage OFF level Maximum current at ON Leakage current at OFF Common terminal for transistor output signals 2 8 Table 2 5 Names Symbols and Functions of the Control Circuit Terminals continued Classifi cation Name Symbol Functions Relay output General purpose relay outputs Y3A C Y4A C Y5A C 1 Any one of output signals that can be assigned to terminals Y1 and Y2 can also be assigned to this relay contacts as a general purpose relay output in order to use it for outputting a signal 2 Whether excitation or non excitation causes this terminal to output a signal can be switched 3 Contact capacity and the life are shown by table below Average of life cycle 250VAC 0 5A cos 0 3 300 000 250VAC 1A cos 2 0 3 150 000 30VDC 0 5A 300 000 30VDC 1A 150 000 Contact capacity Alarm relay output for any error 30A B C 1 When the protective function is activated this terminal outputs a contact signal 1C to stop the motor 2 Any one of output signals that can be assigned to terminals and Y2 can also be assigned to this relay contact as a general purpose relay output in order to use it for outputting a signal Y1 3 Whether excitation or non excitation causes this terminal to output a signal can be switched 4 Contact capacity and the life are shown by table below Contact capacity Average of li
54. s 80 a Auxiliary control power supply Voltage operation U C 24V 22V to 32V Maximum 40W Minimum resistance which can be connected Q EMC filter uilt in According to EN12015 EN12016 Applicable safety standard N 81 1 A3 Enclosure IEC60529 Heat sink Cooling method an cooling Weight Mass kg 1 Rated capacity is calculated by regarding the output rated voltage as 220V 2 Output voltage cannot exceed the power supply voltage 3 Value for the following conditions carrier frequency 10 kHz 2phase modulation and ambient temperature 45 C Select the inverter capacity such that the square average current in cycle operation is 80 of the rated current 4 With DCR Without DCR overload capacity is 16 5A 3s 5 The power supply capacity is 500kVA and the value of the power supply impedance is X 5 6 The admissible error of minimum resistance is 5 7 Braking time and duty cycle ED are defined by cycle operation at the rated regenerative power as shown in the figure below mio gt ja WO olo DU AJN A o 2 Regenerative power KW Reated regenerative power Time s Braking time T raking time T T ED x 100 Cyclic period T T 7 2 7 2 External Dimensions
55. s on the control PCB Switching the slide switches located on the control PCB see Figure 2 4 allows you to customize the operation mode of the analog output terminals digital I O terminals and communications ports To access the slide switches remove the front cover so that you can see the control PCB QQ For details on how to remove the front cover refer to Section 2 2 1 Table 2 6 lists function of each slide switch Table 2 6 Function of Slide Switches Switch Function Switches the service mode of the digital input terminals between SINK and SOURCE Switches the terminating resistor of RS 485 communications port 1 on the inverter ON and OFF RS 485 communications port 1 for connecting the keypad Switches the terminating resistor of RS 485 communications port 2 on the inverter ON and OFF RS 485 communications port 2 on the terminal block Switches the function of terminal V2 C1 between V2 and C1 Switches the terminating resistor of CANopen communications port on the inverter ON and OFF CANopen communications port on the terminal block Figure 2 4 shows the location of slide switches on the control PCB Sw2 Slide switches configuration and factory default m SW1 SW2 SW3 SW4 SW5 OFF OFF v2 OFF o en t mt Pt SOURCE Sw4 SW3 2 amp A WARNING Before changing the switches confirm the power
56. s performed using the following wiring distances between the inverter and Tip motor shielded wire FRNO006LM2A 4 to FRNO019LM2A 4 10m FRNO011LM2A 7 8 3 2 Recommended installation procedure To make the machinery or equipment fully compliant with the EMC Directive the motor and inverter have to be wired by certified technicians in strict accordance with the procedure given below 1 Use shielded wires for the motor cable and route the cable as short as possible Firmly clamp the shield to the specified point or the grounded metal plate inside the inverter Further connect the shielding layer electrically to the grounding terminal of the motor 2 For connection to inverter s control terminals and for connection of the RS 485 communication or CAN Bus signal cable use shielded wires Clamp the shields firmly to the grounded metal plate 3 Place the inverter on a grounded metal plate such as the surface of a panel as shown in Figure 8 1 If radiated noise emissions exceed the standard place the inverter and any peripheral equipment inside a metal control panel Note Connect the shielding layer of shielded cable to the motor and Metal panel panel electrically and ground the ND motor and panel ower supply FRENIC LIFT Three phase Shielded cable with overcurrent protection Figure 8 1 Installation inside a Panel 4 If radiated noise emissions exceed the requirement by the standard place a ferrite core
57. scribed below 1 The storage site must satisfy the requirements specified for temporary storage However for storage exceeding three months the surrounding temperature range should be within the range from 10 to 30 C This is to prevent electrolytic capacitors in the inverter from deterioration 2 The package must be airtight to protect the inverter from moisture Add a drying agent inside the package to maintain the relative humidity inside the package within 70 3 If the inverter has been installed to the equipment or panel at construction sites where it may be subjected to humidity dust or dirt then temporarily remove the inverter and store it in the environment specified in Table1 1 Precautions for storage over 1 year If the inverter has not been powered on for a long time the property of the electrolytic capacitors may deteriorate Power the inverters on once a year and keep the inverters powered on for 30 to 60 minutes Do not connect the inverters to the load circuit secondary side neither run the inverter Chapter2 MOUNTING AND WIRING THE INVERTER 2 1 Installing the Inverter 1 Mounting base Install the inverter on a base made of metal or other non flammable material Do not mount the inverter upside down or horizontally 2 Clearances Ensure that the minimum clearances indicated in Figure 2 1 and Table 2 1 are maintained at all times When installing the inverter in the panel of your system take e
58. stor coasting the motor to a stop EN Enable input This is the Safe Torque Off STO compliant with Functional Safety Standard EN IEC 61800 5 2 Using the Safe Torque Off STO function eliminates the need of external safety circuit breakers i e magnetic contactors while conventional inverters need those breakers to set up the system compliant to Functional Safety Standard Table 8 3 shows the functional safety function performance Table 8 3 Functional Safety Function Performance EN ISO 13849 1 2008 Category 3 Performance level e DCave gt 90 medium lt 50 ms Delay time from when either of terminals EN1 and EN2 comes OFF to STO Response time Safety reaction time MTTFd for each channel gt 30 years EN 61508 1 to 7 2010 EN 61800 5 2 2007 Safety Function Stop function STO Safe Torque Off SIL Safety integrity level SIL3 Type B HFT Hardware Fault Tolerance 1 SFF Safe Failure Fraction gt 90 lt 1 0 X 10 PFDave Average of Probability of Failure on Demand lt 1 0 X 107 PFH Probability of a dangerous random hardware failure per hour Proof test interval Lift time 10 years AWARNINGA The output shutdown function of this inverter uses the Safe Torque Off STO function prescribed in IEC EN 61800 5 2 so that it does not completely shut off the power supply to is motor electrically Depending upon applications therefore additional meas
59. the switches turn OFF the power and wait at least 10 minutes Make sure that the charging lamp is turned OFF Further make sure using a multimeter or a similar instrument that the DC link bus voltage between the terminals P and N has dropped to the safe level 25 VDC or below Otherwise an electric shock could occur ACAUTIONA The inverter motor and wiring generate electric noise Be careful about malfunction of the nearby sensors and devices To prevent them from malfunctioning implement noise control measures Otherwise an accident could occur The leakage current of FRENIC Lift is comparatively large for the EMC filter built in type of inverters Be sure to perform protective grounding Otherwise an accident or an electric shock could occur Operation A WARNINGA Be sure to mount the front cover before turning the power ON Do not remove the cover when the inverter power is ON Otherwise an electric shock could occur Do not operate switches with wet hands Doing so could cause electric shock If the auto reset function has been selected the inverter may automatically restart and drive the motor depending on the cause of tripping Design the machinery or equipment so that human safety is ensured at the time of restarting Otherwise an accident could occur If any of the protective functions have been activated first remove the cause Then after checking that all the run
60. to X8 FWD or REV can be switched If the logic value for ON of the terminal X1 is 1 in the normal logic system then OFF is 1 in the negative logic system and vice versa Digital input circuit specifications lt Control circuit gt PLC 24 VDC o _ kK H SINK Photocoupler LI SOURCE bes X1 to X8 FWD REV CM ON level OFF level Operating voltage SOURCE Operating voltage ON level SINK OFF level Operating current at ON Input voltage is at 27 V Allowable leakage current at OFF 2 6 Table 2 5 Names Symbols and Functions of the Control Circuit Terminals continued Classifi i Functions cation Enable input 1 1 Opening the circuit between terminals EN1 and PLC or Enable input 2 terminals EN2 and PLC stops the operation of the inverter output transistorby STO functional safety function according to IEC EN 61800 5 2 2 The input mode of terminals EN1 and EN2 is fixed at the SOURCE mode No switching to the SINK mode is possible 3 If either one of EN1 and EN2 is OFF an alarm occurs This alarm state can be cleared only by turning the inverter power off and on clears this alarm lt Enable input circuit specifications gt Control circuit gt 24 VDC PLC Photocoupler Digital input Max ON level 27V Operating voltage OFF level 2V
61. to save data showing this error Hardware error The LSI on the power printed circuit board has malfunctioned due to noise etc Table 5 1 Quick List of Alarm Codes Continued Broken wiring in the PG Description The inverter detects a broken wiring connection in the pulse encoder CANopen communication error A communications error has occurred during CANopen communication Over speed prevention The motor speed is higher than 120 of the maximum speed Speed mismatching The reference speed and the detection speed are different Over torque current Reference torque current became excessive Brake confirmation The inverter detects mismatch between the brake control signal and brake detection feedback signal Reaching maximum numbers of trip counter The number of trip direction changes has reached the preset level Short circuit control error The inverter detects mismatch between the short circuit control signal and short circuit detection feedback signal Load cell overload Load cell function has detected overload situation by means of preset level Rescue by brake alarm No movement detected during rescue operation by brake control NTC wire break error Detected a wire break in the NTC thermistor detection circuit Customizable logic error A customizable logic configuration error has caused an alarm EN1 EN2 terminals chatterin
62. ts should have insulation insulation tubes or similar treatment 2 2 4 Terminal arrangement diagrams and screw specifications The tables and figures given below show the screw specifications and terminal arrangement diagrams Note that the terminal arrangements differ depending on the inverter capacity 1 Main circuit terminals Table 2 2 Main Circuit Terminals kW rating Input Output Main circuit terminals Short circuit 24VDC input Grounding terminals terminals terminals Nominal applied motor Inverter type voltage KW Tightening Tightening Tightening Power supply torque torque torque N m N m N m FRNOOO6LM2A 4E Three FRNOO10LM2A 4E phase 400V FRNOO15LM2A 4E FRNOO19LM2A 4E Single phase 200V FRNOO11LM2A 7E Short circuit terminals Input terminals Main circuit terminals Output terminals Input Output Main circuit Short circuit 24VDC input Grounding terminals terminals terminals terminals terminals terminals 69 OG Do not wire FRNO011LM2A 7E 2 2 Connection method with shield plate of input and output terminals 06060 Tightwire ga 2 Arrangement of control circuit terminals
63. ures are necessary for safety of end users e g brake function that locks the machinery and motor terminal protection that prevents possible electrical hazard s The output shutdown function does not completely shut off the power supply to the motor electrically Before starting wiring or maintenance jobs therefore be sure to disconnect the input power to the inverter and wait at least five minutes e When a permanent magnet synchronous motor PMSM is coasting to a stop caused by the output shutdown function voltage is applied to its terminals Before starting maintenance inspection or wiring therefore be sure to check that the PMSM is completely stopped An electric shock could occur 8 5 Enable terminals and peripheral circuit and internal circuit configuration Conventional Inverter nd ga se era Safety circuit breakers complying with more than EN ISO 13849 1 Cat 3 Power supply External safety switch complying with more than EN ISO 13849 1 Cat 3 PL e EN62061 EN61508 SIL3 Enable input L Reset I 1 EY Emergency Stop LI Figure 8 4 Conventional Inverters compliant with EN 81 1 12 7 3 a FRENIC Lift LM2 Inverter External safety switch with higher compliance than EN ISO 13849 1 Cat 3 PL e EN62061 EN61508 SIL3 Output IGBTs Safety Related Circuit Emergency Stop DEFT Note Y terminal set to DECF function Figure 8 5 FR
64. wer supply wiring primary circuit or motor wiring secondary circuit Be sure to ground either of the two grounding terminals for safety and noise reduction Secondary grounding terminals for motor ec Connect the secondary grounding wire for the motor to the grounding terminal G Inverter output terminals U V W Connect the three wires of the 3 phase motor to terminals U V and W taking care of the correct motor phase correspondence 1 Inverter output for Short circuit UO VO WO For a short circuit for PMS motor These outputs are connected internally to U V W Main circuit Auxiliary control power input terminals 24V 24V Connect the power as for the 24VDC to these terminals as a control circuit power backup Note DC reactor connection terminals Braking resistor connection terminals P2 P3 Connect a DC reactor DCR to improve the power factor When not connecting DCR short circuit by a wire Connect a braking resistor to use the regeneration brake DC link bus terminals Main circuit power input terminals Control Control circuit terminals circuit L1 R L2 S L3 T or L1 L L2 N See Table 2 5 A DC link bus is connectable to these terminals When you need to use the DC link bus terminals P and N consult your Fuji Electric representative The three phase input power lines or single phase input power lines are co
65. xtra care with ventilation inside the panel as the ambient temperature easily rises Do not install the inverter in a small panel with poor ventilation When mounting two or more inverters When mounting two or more inverters in the same unit or panel basically lay them out side by side When mounting them one above the other be sure to separate them with a partition plate or the like so that any heat radiating from one inverter will not affect the one s above Table 2 1 Clearances mm inch Inverter capacity A B Cc 200Vclass series FRNO011LM2A 70 400Vclass series FRNOOO6LM2A 4 1 to FRNO019LM2A 40 0 10 100 0 0 39 3 9 Figure 2 1 Mounting Direction and Required Clearances 2 2 Wiring Follow the procedure below In the following description it is assumed that the inverter has already been installed 2 2 1 Removing the front cover Remove the keypad blind cover and loosen the screws Hold the right and left ends of the front cover and remove it Blind cover Front cover Figure 2 2 Removing the Front Cover 2 2 2 Mounting the front cover After wiring mount the front cover back into place Tightening torque 1 8N m 2 1 2 2 3 Recommended wire sizes For the recommended wire sizes for the main circuits refer to the Conformity to the Low Voltage Directive in the EU given in Preface Terminals for the main circui
66. y this symbol may lead to dangerous conditions possibly resulting in death or serious bodily injuries Failure to heed the information indicated by this symbol may lead to ACAUT I O N dangerous conditions possibly resulting in minor or light bodily injuries and or substantial property damage Failure to heed the information contained under the CAUTION title can also result in serious consequences These safety precautions are of utmost importance and must be observed at all times Application AWARNING FRENIC Lift is equipment designed to drive induction motors and synchronous motors for exclusively controlling elevating machinery Do not use it for single phase motors or for other purposes Fire or an accident could occur This product may not be used for a life support system or other purposes directly related to the human safety Although product is manufactured under strict quality control install safety devices for applications where serious accidents or property damages are foreseen in relation to the failure of it An accident could occur Installation A WARNING Install the inverter on a base made of metal or other non flammable material Otherwise a fire could occur Do not place flammable object nearby Doing so could cause fire AGAUTION Do not support the inverter by its front cover during transportation Doing so could cause a drop of the inverter and
67. you use an inverter at an altitude of more than 2000 m you should apply basic insulation for the control circuits of the inverter The inverter cannot be used at altitudes of more than 3000 m Use wires listed in IEC 60364 5 52 Recommended copper wire size mm Main terminal i DC reactor control Aux main Inverter type Main power input Inverter connection Control power power LYR inverter s outputs P4 P circuit supply supply L2 S grounding U V W 24V R1 T1 L3 T 1 SG 1 1 Power supply voltage Nominal applied motor KW Derg N FRNOOO6LM2A 40 gt 5 FRN0010LM2A 40 gt Q o o a FRNOO15LM2A 401 N c D D 2 E FRN0019LM2A 40 FRN0011LM2A 70 One phase 200V Note A box O replaces an alphabetic letter depending on the shipping destination OShipping destination E Europe or A Asia 1 The recommended wire size for main circuits is for the 70 C 600 V PVC sheath wires used at an ambient temperature of 40 C vii Conformity to the Low Voltage Directive in the EU Continued ing to IEC EN 61800 5 1 2007 Short circuit Test under the following 10 The inverter has been tested accord conditions Short circuit current in the supply 1 0 000 A 480V or below 480V class series inverters 11 Use this inverter at the following power supply system Power supply Inverter Power
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