STARTING GUIDE FRENIC Eco . FRN-F1
Contents
1. 0 to 120 0 Hz 0 00 0 to 60 100 is interpreted as rated output current of the 09 inverter 0 00 Disable 13 100 00 to 100 00 0 0 to 60 0 Hz Code Name Setting range Default setting Actual setting F26 Motor sound Carrier 0 75 to 15 kHz 22kW or below frequency 0 75 to 10 kHz 30kW to 75kW 2 kHz 0 75 to 6 kHz 90kW or above Sound tone 0 Level 0 Inactive 1 Level 1 2 Level 2 3 Level 3 Analog ouptut FMA Mode selection 0 Output in voltage 0 to 10V DC 1 Output in current 4 to 20mA DC Output adjust 0 to 200 100 mE Function Select a function to be monitored from the following 0 Output frequency 2 Output current 3 Output voltage 4 Output torque 5 Load factor 6 Input power T PID feedback value PV 9 DC link bus voltage 10 Universal AO 13 Motor output 14 Calibration analog output 10V DC 20 mA DC 15 PID process command SV 16 PID process output MV Analog output FMI 0 to 200 Voltage output adjustment 100 F35 Function Select a function to be monitored from the following 0 Output frequency 2 Output current 3 Output voltage 4 Output torque 5 Load factor 6 Input power 7 PID feedback value PV 9 DC link bus voltage 10 Universal AO 13 Motor output 14 Calibration analog output 20 mA DC 15 PID process command SV 16 PID process output MV Load selection 0 Variable torque load increasing in proportion to square of Auto torque boos2. 2 The inverter primary contactor SW52 1 and the inverter secondary contactor SW52 2 are opened immediately 3 If the RUN command is kept during t1 time H13 0 2 seconds the commercial power contactor SW88 is closed and the motor is switched to commercial power operation 2 COMMERCIAL POWER OPERATION gt INVERTER OPERATION If the digital input set as ISW50 function is changed from OFF to ON 1 The primary contactor SW52 1 is closed immediately giving voltage to the inverter inverter is powered 2 The commercial power contactor SW88 is opened immediately disconnecting the motor from the line 3 After t2 time time required for the inverter main circuit to get ready 0 2 s the inverter secondary contactor SW52 2 is immediately closed 4 After t3 time H13 0 2 s the inverter starts driving and the motor is inverter controlled up to the desired frequency FO e Front runners Chapter 6 Function codes and application example 26 Timing scheme COMMERCIAL POWER INVERTER OPERATION OPERATION INVERTER OPERATION ISW50 SW52 1 SW52 2 i 1 Lo Wer r ne i i i i SW88 ow I I i i I I 1 I I I t3 gt i i i I i i i i Inverter operation i i I l 1 I I The motor speed is 1 fad to iii i The inverter starts to harmonize the motor from the i i power speed i commercial power operation to the inverter desired I I 1 speed I l I I l I Ta I MOto cmm nont
3. Mounting Adapter for External Cooling PB F1 Installation Manual INR SI47 0880 MEH456 Panel mount Adapter MA F1 Installation Manual INR SI47 0881 MEH448b MEH442c Multi function Keypad TP G1 Instruction Manual INR SI47 0890 E FRENIC Loader Instruction Manual INR SI47 1185 E Pump Control Instruction Manual INR SI47 1107 E Profibus DP Interface Card OPC F1 PDP Instruction Manual INR SI47 1144 JE Device Net Interface Card OPC F1 DEV Instruction Manual INR SI47 0904 e LonWorks Interface Card OPC F1 LNW Instruction Manual INR SI47 1071a The materials are subject to change without notice Be sure to get the latest editions for use FC e Front runners Contents and preface 1 SAFETY INFORMATION AND CONFORMITY TO STANDARDS 1 1 Safety information Read this manual thoroughly before proceeding with installation connections wiring operation or maintenance and inspection Ensure you have enough 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 Not considering the information indicated by this symbol may lead to A WARN N G dangerous conditions possibly resulting in death or serious bodily injuries Not considering the information indicated by this symbol may lead to AN CAUTI O N dangerous
4. UL TYPE 12 UL50 Cooling method Natural cooling Fan cooling Weight Mass kg 125 125 13 14 14 22 22 24 34 35 40 54 56 74 76 86 1 Fuji s 4 pole standard motor 2 Rated capacity is calculated by regarding the output rated voltage as440V for three phase 400V series 3 Output voltage cannot exceed the power supply voltage 4 Motor temperature gets higher or current limit function of the inverter is easy to operate if carrier frequency is set to low Continuous or peak load shall be reduced to avoid high motor temperature or current limit operation When setting the carrier frequency F26 to 1 kHz or below reduce the load to 80 of rated load or below for use 5 Calculated under Fuji specified conditions 6 Obtained when a DC reactor DCRE is used T Average braking torque without optional braking resistor varies with the efficiency of the motor Max voltage V Min voltage V igi Voltage unbalance JP VO age II Min voltage V 67 IEC61800 3 5 2 3 Three phase average voltage V If this value is 2 to 3 use an AC reactor ACR 9 Normally no need to be connected Use these terminals when the inverter is used with a power regenerative PWM converter e g RHC series Chapter 8 Specifications and external dimensions FC e Front runners 33 8 3 External dimensions 8 3 1 IP20 IP00 external dimensions FRN0 75F1S 4 to FRN5 5F1S 4 Units expressed in mm
5. 4 Command via communications link J03 P gain 0 000 to 30 000 times 0 100 times J04 integral time 0 0 to 3600 0 s ons JO5 D differential time 0 00 to 600 00 s 09s J06 Feedback filter 0 0 to 900 0 s oss J10 Anti reset windup 0 to 200 200 J11 Select alarm output Refer to FRENIC Eco user s manual wo J12 Upper limit alarm AH 0 to 100 100 J13 Lower limit alarm AL 0 to 100 ow J15 Stop frequency for slow flowrate 0 Disable 1 to 120 Hz J16 Slow flowrate level stop latency 1 to 60 s aw J17 Starting frequency 0 Disable 1 to 120 Hz J18 Upper limit of PID process output 1 to 120 Hz pm 999 Depends on setting of F15 Lower limit of PID process output 1 to 120 Hz DE E 999 Depends on setting of F16 Dew condensation prevention Duty 1 to 50 md Commercial power switching sequence 0 Keep inverter operation Stop due to alarm 1 Automatically switch to commercial power operation Pump control Mode selection 0 Disable 1 Enable Fixed inverter driven motor 2 Enable Floating inverter driven motor GEL E 1 mode 0 Disable Always OFF he Enable S Motor 2 mode 2 Force to run by commercial power nm Motor 3 mode Motor 4 mode Motor switching order 0 Fixed 1 Automatically Constant run time Motor stop mode 0 Stop all motors inverter driven and commercial power driven 1 Stop inverter driven motor only excl alarm state 2 Stop inverter driven motor only incl alarm state Periodic switching tim
6. Install an output filter between the inverter and the motor to 1 Suppress the voltage fluctuation at the motor input terminals 2 Reduce leakage current from the motor power cable motor supply due to harmonic components 3 Reduce emission and induction noise generated from the motor power cable Note When using an OFLE set the switching frequency of the inverter function code F26 within the allowable range specified by the filter manufacturer otherwise the filter will overheat bs Lu The ferrite ring reactors are used to reduce radiated emissions from the inverter EMC EMC inputfiter filter The EMC input filter is used to make the inverter to conform to European EMC directives The AC reactor is connected to the inverter input mains supply when the inter phase voltage AC reactor unbalance of the AC mains is between 2 and 3 ACRE Output filter OFLE Max voltage V Min voltage V 3 phase average voltage V Inter phase voltage unbalance x 67 Main options Multi function keypad TP G1 Allows the user to monitor the status of the inverter voltage output current input power as well as to set parameters values in a conversational mode 6 languages available It is able to store three complete inverter function sets It includes a Liquid Crystal Display Extension cable for The extension cable allows to connect the keypad to the inverter remotely keypad CB S Three lengths ar
7. 37 55 75 11 15 185 22 30 37 45 55 75 90 Nominal applied motor KW 0 75 15 22 37 55 75 11 15 185 22 30 37 45 55 75 90 RatedcapactyKVA 2 19 28 41 68 95 12 17 22 28 33 44 54 64 77 105 128 Ratedcuren A 25 37 55 90 125 165 23 30 37 44 59 72 85 105 139 168 12096 of rated current for 1min Three phase Main power supply Three phase 380 to 480V 50 60Hz 380 to 440V 50Hz 380 to 480V 60Hz Auxiliary control ge pase DEC ITE Single phase 380 to 480V 50 60Hz 380 to 440V 50Hz aou 380 to 480V 60Hz Auxiliary power input for the sr 9 BE 380 to 480V 60Hz Voltage frequency variations Voltage 10 to 15 Voltage unbalance 2 or less 9 Frequency 5 to 5 g Rated current A 9 10 6 74 2 16 30 45 75 106 144 21 1 28 emm na far o eo u o ls la ls afele le a e capacity KVA 9 me RN 2 Cc 3 e c Torque T 96 10 to 15 DC injection braking Starting frequency 0 0 to 60 0Hz Braking time 0 0 to 30 0s Braking level 0 to 60 EMC filter Standard conformance Immunity 2 4 Env EN61800 3 1996 A11 2000 Emission Class A Group 1 EN55011 1998 A1 1999 A2 2002 DC REACTOR DCRE Input power factor 86 or more at 100 load Output Rating KEY PAD Multifunctional Keypad TP G1W Applicable safety standards EN50178 1997 Enclosure IP54 IEC60529
8. Inverter model Standard DC reactors o gt Ww oS X 5 Q V D C C5 KF FC e Front runners Chapter 9 Options 44 CONTACT INFORMATION Headquarters Europe Fuji Electric FA Europe GmbH Goethering 58 63067 Offenbach Main Germany Tel 49 0 69 669029 0 Fax 49 0 69 669029 58 info_inverter fujielectric de www fujielectric de Germany Fuji Electric FA Europe GmbH Sales area South Drosselweg 3 72666 Neckartailfingen Tel 49 0 7127 9228 00 Fax 49 0 7127 9228 01 hgneiting fujielectric de Switzerland Fuji Electric FA Schweiz ParkAltenrhein 9423 Altenrhein Tel 41 71 85829 49 Fax 41 71 85829 40 info fujielectric ch www fujielectric ch FC e Front runners Headquarters Japan Fuji Electric FA Components amp Systems Co Ltd Mitsui Sumitomo Bank Ningyo cho Bldg 5 7 Nihonbashi Odemma cho Chuo ku Tokio 103 0011 Japan Tel 81 3 5847 8011 Fax 81 3 5847 8172 www fujielectric co jp fcs Fuji Electric FA Europe GmbH Sales area North Friedrich Ebert Str 19 35325 M cke Tel 49 0 6400 9518 14 Fax 49 0 6400 9518 22 mrost fujielectric de Spain Fuji Electric FA Espana Ronda Can Fatj 5 Edifici D Local B Parc Tecnologic del Vall s 08290 Cerdanyola Barcelona Tel 34 93 5824333 5 Fax 34 93 5824344 droy fujielectric de Contact information
9. acceleration deceleration times are too short or motor load is too 0C3 Overcurrent at constant speed heavy Ground fault 90kW or above A ground fault current flowed from the inverter output to the ground Overvoltage during acceleration The internal DC Voltage has exceeded the overvoltage level Possible causes the input voltage is too high the braking load is too high or the EF OU1 OU2 Overvoltage during deceleration deceleration time is too short 0U3 Overvoltage at constant speed OH2 Alarm issued by an external device THR external failure Check the external device which is connected to the inverter OH3 Inside of the inverter overheat The temperature inside the inverter has exceeded the alarm level OH4 Motor protection PTC thermistor PTC failure Probably the motor temperature is too high FUS Fuse blown 90kW or above The fuse inside the inverter is blown PbF Charger circuit fault 55kW or above The magnetic contactor MC failed This MC is inside the inverter and short circuits the charging resistor OL1 Electronic thermal overload relay Inverter detects an overload of the connected motor related function codes F10 to F12 OLU Inverter overload The temperature inside the inverter is too high or the load is too heavy Er1 Memory error An error occurred while writing data to inverter memory Er2 Keypad communications error Communication error between the remote keypad and the inverter Er4 Option boar
10. conditions possibly resulting in minor or light bodily injuries and or substantial property damage Not considering 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 A WARNING FRENIC Eco is designed to drive a three phase induction motor Do not use it for single phase motors or for other purposes Fire or an accident could occur FRENIC Eco may not be used for a life support system or other purposes directly related to human safety Though FRENIC Eco is manufactured under strict quality control install safety devices for applications where serious accidents or material losses are foreseen in relation to the failure of it An accident could occur Installation AWARNING Install the inverter on a nonflammable material such as metal Otherwise fire could occur e Do not place flammable matter nearby Doing so could cause fire ACAUTION Do not support the inverter by its terminal block cover during transportation Doing so could cause the inverter to drop and injuries Prevent lint paper fibers sawdust dust metallic chips or other foreign materials from getting into the inverter or from accumulating on the heat sink 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 injurie
11. in Figure 3 1 To switch the slide switches remove the front and terminal block covers so that you can see the control PCB that contains the switches Furthermore for models of 37 kW or above open the keypad enclosure Table 3 1 lists function of each slide switch Table 3 1 Function of Each Slide Switch a SW1 owitches service mode of the digital input terminals for SINK or SOURCE To make the digital input terminal X1 to X5 FWD or REV serve as a current sink switch SW1 to SINK To make them serve as a current source switch SW1 to SOURCE Q SW3 Switches on off the terminating resistor of RS485 communications port of the inverter To connect a keypad to the inverter switch SW3 to OFF factory default Ifthe inverter is connected to the RS485 communications network as a termination device switch it to ON SW4 Switches output mode of the analog output terminal FMA to voltage or current When switching this switch change also data of the function code F29 Switch SW4 to Set data of F29 to Voltage output Factory default VO 0 o o SW5 Switches property of the analog input terminal V2 for voltage input or PTC When switching this switch change also data of the function code H26 Set data of H26 to Analog frequency command source in voltage input Factory default V2 Figure 3 1 Location of the slide switches Switching example SW1 n SW3 terminator Chapter 3 Electrical installat
12. motor drive source between commercial power and inverter output For primary side 13 Switch motor drive source between commercial power and inverter output For secondary side 15 1015 Select AX terminal function For MC on primary side 5 1025 Cooling fan in operation 6 1026 Auto resetting 7 1027 Universal DO 8 1028 Heat sink overheat early warning 0 1030 Service life alarm 3 1033 Command loss detected 5 1035 Inverter output on 6 1036 Overload prevention control 7 1037 Current detected 2 1042 PID alarm 3 1043 Under PID control 4 1044 Motor stopping due to slow flowrate under PID control 5 1045 Low output torque detected 54 1054 Inverter in remote operation 5 1055 Run command activated 6 1056 Motor overheat detected PTC 9 1059 C1 disconnection detected 0 1060 Sequenced start motor 1 inverter driven 1 1061 Sequenced start motor 1 commercial power driven 2 1062 Sequenced start motor 2 inverter driven 3 1063 Sequenced start motor 2 commercial power driven 4 1064 Sequenced start motor 3 inverter driven 5 1065 Sequenced start motor 3 commercial power driven 7 1067 Sequenced start motor 4 commercial power driven 8 1068 Periodic switching early warning 9 1069 Pump control limit signal 9 1099 Alarm output for any alarm ST a SS mw mw SS SD SS SS SS SD a SS ee 0 0 to 120 0 Hz ae 0 Disable Current value of 1 to 150 of the inve
13. setting range Default setting Actual setting 0 Immediately trip with alarm Er8 1 Trip with alarm Er8 after running for the period specified by timer y03 2 Retry during the period specified by timer y03 If retry fails trip and alarm Er8 If it succeeds continue to run 0 2400 bps 3 1 4800 bps 2 9600 bps 3 19200 bps 4 38400 bps 0 8 bits 1 7 bits 0 None 1 Even parity 2 Odd parity 0 2 bits 0 No detection 1 to 60 s e o o 1 1 FRENIC Loader protocol SX protocol 2 Fuji general purpose inverter protocol 3 Metasys N2 Chapter 6 Function codes and application example 23 XM Station address RS485 communication option Y12 Communications error processing Error processing timer Transmission speed Data length Parity check Stop bits No response error detection time Response latency time Protocol selection Bus link function Mode selection Frequency command 0 Follow H30 data 1 Via field bus option 2 Follow H30 data 3 Via field bus option Loader link function Mode Frequency command selection 0 Follow H30 and Y98 data 1 Via RS485 link Loader 2 Follow H30 and Y98 data 3 Via RS485 link Loader 6 2 Application examples 6 2 1 Line Inverter changeover 1 to 255 0 Immediately trip with alarm ErP 1 Trip with alarm ErP after running for the period specified by timer y13 2 Retry during the period specified by timer y13 If retry fa
14. 1 min Three phase 380 to 440 V 50 Hz Main power supply Three phase 380 to 480 V 50 60 Hz Three phase Phases 380 to 480 VIGO Hz voltage Single phase frequency Auxiliary control Single phase 380 to 480 V 50 60 Hz 380 to 440 V 50 Hz power ini E i Single phase 1 380 to 480 WEU Hz t E Auxiliary fan ay 10 G power input 5 None Voltage aquency slinwance Volts age p 04 to 1555 Wo yt ang unb ala a 296 or jaas 9 Frequency ta 5 T LATE EXER Pa B d current A Required power supply capacity kVA Torque 5 a 8 DC braking DC reactor DCR Option I BARC 022 2 Nin 44 EN5D47A 4007 A pphini R 21935 13 Apnlirahla safahu etandarde Cooling method eri e Mass kg 3 1 15 to 560kW Type FRM F13 4A nega O O EE GERE EA E es EA a mme RA e E AEE a Teree phase 380 to a60 fat AVR neta O O ebd Three phase 360 to 430 wrin AVR function memen E m m o m oe m D o vn T om le o 60 Hz Main power supply Three phase 280 fo 440 S0Hz or Three phiape 380 fo 480V GDHz 2 350 in 480V 5060Hz 2 440VI5OHz E d eng o OH Voltage 10 fo 15 Voltage unbalance 2 or less 7 Frequency 5 fo 5 a sl i l ar emacs LE JE EE Rated current A emmupoersepycpxy o MIB ooo 10 fa 1
15. 5 Starting frequency 0 0 in 60 047 Braking time 0 0 fo 30 06 Braking levet 0 in 60 EE RR ea Le lel lel ele aa i Fuji 4 pole standard molor 2 Rate capacky i calculsied by sesuming ine cuiput mied vollage sz 440V for bre e phass 400 V series Dukrul ulage conned exceed the power supply vollage 4 An ecese Kra setting of the comer frequency may resa In the higher motor temperature r ripping of fhe Inverter by HS cwerrurenmt limber sting Lower the continuous load or muxximum Ka inte hen setig the comer frequency F25 n 1kHz reduce ine ad fo EP of Hs rating Obtained when a DC reactor DR fa used AME boking Torque varies with tee eiclency of the molor do FO e Front runners T Volilnge unbalance H Mar voltage 7 Min wellage V y 57 ES 100 3 HTS value R 2 fo 7 use an reader ACH option m A Trial cakulsbon done om assumption thai the power capac y i 5OUKVA or 10 times the Inverter capacity E ihe Inverter capacity is lager tham SOWA and ie inverter 6 connected in fhe power s ppby of BR BR Use R1 T1 terminals for driving AC cooling fans of am meerder powered by the DC Ink bus such as by m high power factor PRM converte im ordinary aperalinn the fereinals are mot ummi D fangie phase 380 in 440V S0Hz or Single phase 380 tn 480V SDHz Chapter 8 Specifications and external dimensions 8 2 IP54 specifications Specifications Type FRN__FIL 4E 1075 15 22
16. 999 Disable Detect low torque Detection level oio 150 0 01 to 600 00 s 20 00 s Command assignment to Selecting function code data assigns the corresponding function to terminals FWD FWD and REV as listed below Setting the value of 1000s in parentheses REV shown below assigns a negative logic input to a terminal In the case of THR and STOP data 1009 and 1030 are for normal logic and 9 and 30 are for negative logic respectively 0 1000 Select multistep frequency S81 1 1001 Select multistep frequency SS2 2 1002 Select multistep frequency SS4 6 1006 Enable 3 wire operation HLD 7 1007 Coast to stop BX 8 1008 Reset alarm RST 9 1009 Enable external alarm trip THR 11 1011 Switch frequency command 2 1 Hz2 Hz1 13 Enable DC brake DCBRK 15 Switch to commercial power 50 Hz SW50 ie Switch to commercial power 60 Hz SW60 17 1017 UP Increase output frequency UP 18 1018 DOWN Decrease output frequency DOWN 19 1019 Enable write from keypad Data changeable WE KP 20 1020 Cancel PID control Hz PID 21 1021 Switch normal inverse operation IVS 22 1022 Interlock IL 24 1024 Enable communications link via RS485 or field bus LE option 1025 Universal DI U DI 26 1026 Select starting characteristics STM 30 1030 Force to stop STOP 33 1033 Reset PID integral and differential components PID RST 34 1034 Hold PID integral component P
17. AC series 0 22kW or below 0 to 500V Output a voltage AVR controlled for 400V AC series 20 30kW or above 200V ser 40 30kW or above 400V ser Deceleration time for forced ee FO e Front runners Chapter 6 Function codes and application example 20 Code Name Data setting range Default setting Actual setting H63 Low limiter Mode selection 0 Limit by F16 Frequency Limiter Low and continue to run 1 If the output frequency lowers less than the one limited by 0 F16 Frequency limiter Low decelerates to stop the motor H64 Lower limiting frequency 0 0 Depends on F16 Frequency limiter Low 0 1 to 60 0 Hz Automatic deceleration 0 Disable 3 Enable Control DC link bus voltage at a constant Overload prevention control 0 00 Follow deceleration time specified by F08 0 01 to 100 00 Hz s 222 Disable 1 Enable Gain for suppression of output current fluctuation for motor 0 00 to 0 40 0 10 for 45 kW or above 200V series and for 55 kW or above 400V series 0 20 for 37 kW or below 200V series and for 45 kW or below 400V series Reserved 0 to 2 2 for 45 kW or above 200V series and for 55 kW or above 400V series 0 for 37 kW or below 200V series and for 45 kW or below 400V series 1 Reserved 1 0to3 999 os A m N C1 signal disconnection detection 0 0 s Wire disconnection protection disabled H80 0 1 60 0 s Wire disconnection detection time H92 Continue to run P compo
18. Fo e Front runners STARTING GUIDE FRENIC Eco FRN F1 Frequency inverter for HVAC applications 3 phase 400V 0 75 560kW Last update 09052007 SG FRENIC ECO 2 0 GB Index Vesion Date Applied by Second Edition 26 06 2007 Dr David Bedford EE a a E CONTENTS Chapter 1 1 1 1 2 2 1 2 2 3 1 3 2 3 3 3 4 3 5 3 6 5 1 5 2 5 3 5 4 6 1 6 2 6 2 1 6 2 2 6 2 3 8 1 8 2 8 3 8 3 1 8 3 2 8 3 3 8 3 4 8 3 5 8 3 6 9 9 1 9 2 9 3 FC e Front runners SAFETY INFORMATION AND CONFORMITY TO STANDARDS Safety information Conformity to European Standards MECHANICAL INSTALLATION Installing the inverter Removing and mounting the inverter covers ELECTRICAL INSTALLATION Power terminals Control terminals Wiring diagram Digital inputs Digital outputs Setting up the slide switches OPERATION USING THE KEYPAD QUICK START COMMISSIONING Inspection and preparation prior to powering on Setting the function codes Quick start commissioning autotuning Operation FUNCTION CODES AND APPLICATION EXAMPLE Function codes tables and basic description Application examples Line Inverter changeover Select Multistep Frequencies 7 different set point frequencies PID Controller TROUBLESHOOTING SPECIFICATIONS AND EXTERNAL DIMENSIONS IP20 IPO0 specifications IP54 specifications External dimensions IP20 IPOO dimensions IP54 dimensions Keypad dimensions TP E1 Keypad di
19. ID HLD 35 1035 Select local keypad operation LOC 38 1038 Enable to run RE 39 Protect motor from dew condensation DWP 40 Enable integrated sequence to switch to commercial power 50 ISW50 Hz 41 Enable integrated sequence to switch to commercial power 60 ISW60 Hz 50 1050 Clear periodic switching time MCLR 51 1051 Enable pump drive motor 1 MEN1 52 1052 Enable pump drive motor 2 MEN2 53 1053 Enable pump drive motor 3 MEN3 54 1054 Enable pump drive motor 4 MEN4 87 1087 Switch run command 2 1 FR2 FR1 88 RUN forward 2 FWD2 89 RUN reverse 2 REV2 98 RUN forward FWD 99 RUN reverse REV ae The shaded function codes are applicable to the quick setup menu FO e Front runners SI ST SI Chapter 6 Function codes and application example 17 C codes Control functions of frequency Jump frequency Multistep frequency Analog input adjustment for Gain for terminal input 12 12 Filter time constant Gain reference point Analog input adjustment for Gain for terminal input C1 C1 Filter time constant Gain reference point Analog input adjustment for Gain for terminal input V2 V2 Filter time constant Gain reference point Bias reference point Frequency command 1 Bias for PID command 1 Bias value Bias reference point Selection of normal inverse operation Frequency command 1 i Frequency comma
20. MINAL BLOCK FLEX WIRE ANG FLEX WIRE HMM 188m SOLID WIFE Tet LIT ZL Ab H oN FLEX WIRE AWG E TE BADE IH SWITZERLAND 1 5 FS 21312 44 07 I 110 5cHarrFrier 3s LITZE AWG SZ Je FLEX RE AWG BR FO e Front runners 40 Chapter 8 Specifications and external dimensions Da co FRENIC ECO FS5536 50 07 FS21312 78 07 Dimensions mm Dimensions mm 90 250 BER HRUNGSSICHERE KLEMME UT ANG LUTZ LE i nee SAFETY TERMINAL BLOCK Fur WEE AMG 2 ALEX MWC MN 4 SOLD WIRE ISA FS5536 100 35 FS5536 180 40 Dimensions mm Dimensions mm p mm gi FS E al mom y o KK a ae iip J DRAHT SAHM E FS5536 250 99 FS5536 400 99 Dimensions Imm Detail A Dimensions mm 105 Detail A 15 aounig holes c for l TiS1 peng cover 52 mounting holes 6x for protecting cover 1151 052 FC e Front runners 41 Chapter 8 Specifications and external dimensions FN3359 FN3359 800 99 FN3359 1000 99 170 3 Moo MMe EE E mS LONE H E C II LEN Chapter 8 Specifications and external dimensions FC e Front runners n 42 9 OPTIONS 9 1 Options table Function and application The DC reactor is used to reduce harmonic components on the input current mains supply of the DC reactor DCRE inverter Note DO NOT FORGET to remove the DC bar between P1 and P before installing this option
21. Power supply Type W1 W2 m T D1 D3 D4 A B voltage FRN7 ee 4E SERE 4E FRN18 ee 4E E 4E 58 58 rm 2 mense e Fo gt i mium Chapter 8 Specifications and external dimensions FO e Front runners a 34 FRN37F1S 4 to FRN560F1S 4 Units expressed in mm 2xdA W D4 SR mat A000080000000008 80000 10000800008 supply Type E Wee ws we ws TW m m o w o os or 2 FRN37F1S 4E FRN45F1S 4E fae lan ae Lene 310 2 115 4 5 10 12 n FRN75F1S 4E E m 10 270 355 345 2 FRNOOF1S 4E FRN110F1S 4E 155 740 S FRNI60F1S4E ET FRN200F1S 4E 530 430 503 5092 FRN220F1SAE 1000 970 FS 4E FRN355F1S 4E 680 ELI FRN450F1S 4E 1400 1370 ERNSGOFIS 4E Chapter 8 Specifications and external dimensions FO e Front runners n 39 8 3 2 IP54 dimensions Units expressed in mm Power supply voltage Inverter type W D FRN7 FRN75F1B 2E 2E EM 1F1B 2E Three phase E SFERE FRN30F1D 2E FRN37F1D 2E 0 1100 FRN45F1D 2E o D o 1280 FRNHFIB4E 4E EU 4E FRN22F1D 4E 390 FRN30F1D 4E FRN37F1D 4E FRN45F1D 4E FRN55F1D 4E FRN75F1D 4E Three phase 400V FC e Front runners Chapter 8 Specifications and external dimensions 36 8 3 3 Keypad dimensions TP E1 Units expressed in mm Unit mm 18 2 Panel surface Inside panel 8 3 4 Keypad dimensions TP G1 Units expressed in mm Versatil
22. accident could occur The STOP key is only effective when function setting Function code F02 has been established to enable the STOP key Prepare an emergency stop switch separately If you disable the STOP key priority function and enable operation by external commands you cannot emergency stop the inverter using the STOP key on the keypad If an alarm reset is made with the Run command signal turned ON a sudden start will occur Ensure that the Run command signal is turned OFF in advance Otherwise an accident could occur If you enable the restart mode after momentary power failure Function code F14 3 4 or 5 then the inverter automatically restarts running the motor when the power is recovered Design the machinery or equipment so that human safety is ensured after restarting If you set the function codes incorrectly or without completely understanding this instruction manual and the FRENIC Eco User s Manual MEH456 the motor may rotate with a torque or at a speed not permitted for the machine An accident or injuries could occur e Do not touch the inverter terminals while the power is applied to the inverter even if the inverter stops Doing so could cause electric shock ACAUTION Do not turn the main circuit power circuit breaker ON or OFF in order to start or stop inverter operation Doing so could cause failure Do not touch the heat sink because it becomes very hot Doing so could cause burns Setting the inverter to hi
23. air of grounding terminals that function equivalently 3 2 Control terminals The FRENIC Eco has 7 digital inputs 3 transistor outputs 2 relay outputs and 2 analog outputs All of them are programmable EN Internal power supply Ce o s 24V DC max current 50mA External run command aa Set the required ea in E External run command reverse E iudi ES ad Set the required function in E99 X1 X2 X3 it TAI EN Speed selection Programmable digital inputs X4 and X5 9 P coast to stop Set the required function in E01 to E05 MC control signal DAR A cunt E ti Programmable digital outputs relay outputs 30 A B C Digital relay output To indicate if inverter Set the required function in E24 and E27 is under error alarm Y1 Y2 and Dictat EN Same as relay output Programmable digital outputs transistor outputs Y3 9 P Y5A C and 30A B C Set the required function in E20 to E22 Common terminal for digital transistor outputs Transistor output common Y1 to Y3 Potentiometer 1 5 KQ Max input voltage 15 V DC Max current 30 mA DC EN Analog input 4 20 mA DC Jar Feedback Input impedance 250 Q Max Input voltage 15 V DC gaua Common terminal for analog input and output terminals inputs and outputs Motor output kW 0 10 V DC or 4 20 mA DC selectable Analog output s nn Input impedance of external device P 0 10VDC 5KQ 4 20 mA DC 500 Q ISE Motor output kW 4 20 mA DC no selectable SD Output current Input impedance
24. ame Description F 03 Maximum frequency F 04 Base frequency Motor characteristics F 05 Rated voltage F 07 Acceleration time 1 T F 08 Deceleration time 1 P 02 Motor rated capacity Motor characteristics P 03 Motor rated current F e Front runners Chapter 5 Quick start commissioning 11 5 3 Quick start commissioning auto tuning Even if it is not extremely necessary the auto tuning procedure should be performed before running the motor for the first time There are two auto tuning modes auto tuning mode 1 static and auto tuning mode 2 dynamic Auto tuning mode 1 P04 1 P07 and P08 function code values are measured Auto tuning mode 2 P04 2 The no load current P06 function code is measured as well as P07 and P08 When choosing this option please remove the mechanical load from the motor A WARNING The motor will start moving if Auto tuning mode 2 is chosen Auto tuning procedure 1 Power on the inverter 2 Switch the operation mode from remote to local by means of F02 2 or 3 3 If there are any kind of contactors between the motor and the inverter please close them manually 4 Set P04 to 1 Auto tuning mode 1 or P04 to 2 auto tuning mode 2 press FUNC DATA and press RUN the current flow going through the motor winding will generate a sound The auto tuning takes a few seconds until is finished itself P06 will be measured as well as P07 and P08 if auto tuning mode 2 has been selected The a
25. are for normal logic and 9 and 30 are for negative logic respectively 0 1000 Select multistep frequency 1 1001 Select multistep frequency 2 1002 Select multistep frequency 6 1006 Enable 3 wire operation 7 1007 Coast to stop 8 1008 Reset alarm 9 1009 Enable external alarm trip 11 1011 Switch frequency command 2 1 13 Enable DC brake 15 Switch to commercial power 50 Hz 16 Switch to commercial power 60 Hz 17 1017 UP Increase output frequency 18 1018 DOWN Decrease output frequency 19 1019 Enable write from keypad Data changeable 20 1020 Cancel PID control 21 22 JE Jj 1021 Switch normal inverse operation 1022 Interlock 24 1024 Enable communications link via RS485 or field bus option 25 1025 26 1026 30 1030 33 1033 o NS OC Na Universal DI Select starting characteristics Force to stop Reset PID integral and differential components 34 1034 Hold PID integral component 35 1035 Select local keypad operation 38 1038 Enable to run 39 Protect motor from dew condensation 40 Enable integrated sequence to switch to commercial power 50 Hz 41 Enable integrated sequence to switch to commercial power 60 OS es am Jo nue was gt Hz 50 1050 Clear periodic switching time 51 1051 Enable pump drive motor 1 52 1052 Enable pump drive motor 2 53 1053 Enable pump drive mot
26. arting frequency Select a frequency higher than the slow flowrate level stop frequency If the specified starting frequency is lower than the slow flowrate level stop frequency the later stop frequency is ignored the slow flowrate level stop is triggered when the output of the PID processor drops below the specified starting frequency FO e Front runners Chapter 6 Function codes and application example 30 For Example Set point set by keypad and feedback from a transducer transmitter connected in current input C1 figure 2 forward operation F02 0 Start Stop keypad FWD REV button F07 1 0 Acceleration time 1 F08 1 0 Deceleration time 1 E40 7 00 7 bar max E41 0 00 0 bar min E43 10 PID set point value PID parameters J01 1 PID active forward operation J02 0 PID set value from keypad E62 5 PID feedback value by current input C1 JO3 PID control P gain J04 PID control gain J05 PID control D gain J06 PID control Feedback filter Pressure transmitter FRNF1S VDC PLC 24VDC max 100mA C1 signal 4 20mA CM FO e Front runners Chapter 6 Function codes and application example 31 7 TROUBLESHOOTING Alarm Name Alarm contents The inverter output current has exceeded the overcurrent level Possible causes short circuit in the output phase F09 too large ground faults Alarm code OC1 Overcurrent during acceleration OC2 Overcurrent during deceleration or EMC noise
27. d FO e Front runners Chapter 4 Operation using the keypad 5 QUICK START COMMISSIONING 5 1 Inspection and preparation prior to powering on 1 Please check if the power wires are correctly connected to the inverter input terminals L1 R L2 S and L3 T if the motor is connected to the inverter terminals U V and W and if the grounding wires are connected to the ground terminals correctly AWARNING e Do not connect power supply wires to the inverter output terminals U V and W Otherwise the inverter may be damaged if you turn the power on e Be sure to connect the grounding wires of the inverter and the motor to the inverter ground terminals Otherwise an electric shock may occur 2 Check for short circuits between terminals and exposed live parts and ground faults 3 Check for loose terminals connectors and screws 4 Check if the motor is separated from mechanical equipment Inverter 5 Turn the switches off so that the inverter does not start or SO Bs aor MH operate erroneously at power on 6 Check if safety measures are taken against runaway of the system e g a defense to protect people from unexpectedly approaching your power system Power circuit terminal wiring Power supply 5 2 Setting the function codes Set next function codes data according to motor ratings and application values For the motor check the rated values printed on the nameplate of the motor Code N
28. d UP DOWN control 0 Enable RUN STOP keys on the keypad Motor rotational direction from digital input signals FWD REV 1 Enable terminal command FWD or REV 2 Enable RUN STOP keys on keypad forward EMEN 3 Enable RUN STOP keys on keypad reverse 0 Output a voltage in proportion to input voltage 400 V 80 to 240V Output a voltage AVR controlled 200V AC series m m 160 to 500V Output a voltage AVR controlled 400V AC series 0 00 to 3600 s Entering 0 00 cancels the acceleration time requiring external soft start 0 00 to 3600 s Entering 0 00 cancels the deceleration time requiring external soft start 0 0 to 20 0 percentage of the rated voltage at base iia ca la frequency F05 This setting is effective when F37 0 1 3 or 4 p capacity 1 For general purpose motors with built in self cooling fan 2 For separately excited motor fan 0 0 Disable 100 of the 1 to 135 of the rated current allowable continuous drive motor rated current of the motor current 50min 109 0 5 to 75 0 min pud 30kW below 0 above 0 Disable restart trip immediately 1 Disable restart trip after a recovery from power failure 3 Enable restart continue to run for heavy inertia or general loads 4 Enable restart restart at the frequency at which the power failure occurred for general loads 5 Enable restart restart at the starting frequency for low inertia load 0 to 120 0 Hz 70 0 Hz
29. d communications error Communication error between the option board and the inverter Refer to the option manual Er5 Option board error An error has been detected by the option board Refer to the option manual Er6 Incorrect operation error Check setting of H96 Er7 Autotuning error Auto tuning failed check motor connections motor parameters check if Er3 CPU error The CPU is not working properly main contactors are being closed properly and check if there is a BX or BBX functions assigned to a ON level digital input RS485 communications error A communication error occurred during RS485 communication Er8 ErF Data saving error during undervoltage The inverter was not able to save the frequency command and PID process command set by the keypad when the power was cut off ErP RS485 communications error A communication error occurred during RS485 communication through the option board RS485 option board ErH Power PCB error 55kW or above Failure caused by an internal inverter board For further information about alarm codes please refer to the FRENIC Eco user s manual FO e Front runners 91 Chapter 7 Troubleshooting 8 SPECIFICATIONS AND EXTERNAL DIMENSIONS 8 1 IP20 IP00 specifications Hem Specifi cations Nominal applied motor kW 075 115 18 5 22 sn e es n a e e FR F I Rated vi GU NIL VH funetior Rated current U X Overload capability Rated frequency 50 60 Hz 120 of rated current for
30. e available 5 m CB 5S 3 m CB 3S y 1 m CB 1S S bed Sa Si output OPC F1 RY This card is used to add three relay outputs to the inverter PC software Windows GUI Graphics user interface based that allows to set inverter function values Loader software more easily Also allows to upload download all the E values to from a file Attachment for external With this adapter you can install the inverter in the panel in such a way that the heatsink is outside of cooling PB F1 the cabinet Available for inverters for capacities of 30 kW or below Panel Mount adapter Use this adapter when installing the FRENIC Eco by using the mounting holes of the already installed MA F1 inverter FRENIC5000P11S 5 5 to 37KW 43 FC e Front runners Chapter 9 Options oD c 2 Q O c ke CD 9 c 2 E O O D K CO c S D Sa ab Q O 9 2 EMC input filter The following table describes the EMC input filter and the EMC compliance level for each inverter capacity __ Inverter model EMCinputfilter Compliancelevel 1 1 10 0 0 ee C1 conducted 20m 15kHz C1 radiated 25m 15kHz C1 conducted 20m 15kHz C2 radiated 25m 15kHz ERNIE CRAT C2 conducted 10m 10kHz C2 radiated 10m 10kHz C3 conducted 100m 6kHz C2 radiated 100m 6kHz 9 3 DC reactor Three phase 400 V supply The following table describes the recommended standard DC reactors for each inverter model __
31. e for motor drive 0 0 Disable switching 0 1 to 720 0 h Switching time range 999 Fix to 3 min a 3 RR Sequenced start of commercial power Frequency 0 to 120 Hz 999 Depends on setting of J18 This code is used to judge whether or not to start a commercial power driven motor by checking the output frequency of the inverter driven motor driven motor J35 Duration 0 00 to 3600 s 09s J36 Sequenced stop of commercial power Frequency 0 to 120 Hz 999 Depends on setting of J19 This code is used to judge whether or not to stop a commercial power driven motor by checking the output frequency of the inverter driven motor driven motor J38 Contactor delay time 0 01 to 2 00s ml Switching time for motor sequenced start Deceleration 0 00 Depends on the setting of F08 0 00 s time 0 01 to 3600 s Switching time for motor sequenced stop Acceleration time 0 00 Depends on the setting of F07 0 00 s 0 01 to 3600 s e Front runners gul Chapter 6 Function codes and application example 22 Code Switching motor sequenced start sequenced stop Dead band Signal assignment to for relay output card J46 Y2 A B C J47 Y3 A B C J48 Cumulative run time of motor Motor 0 J49 Motor 1 J50 Motor 2 J51 Motor 3 J52 J53 Maximum cumulative number of relay Y1 A B C to Y3 ON times A B C J54 Y1 Y2 Y3 J55 YSA C 30A B C Y codes Link functions Code Y01 RS485 communication Statio
32. e keypad equipped with an LCD panel Unik mm FO e Front runners 37 Chapter 8 Specifications and external dimensions 8 3 5 Dimensions DC Reactors DC Reactors Protection type ivi current Connection class Loss Weight Isolation mi A p PEEL am fam mn nm PN PR laa oeoa so fis Cam fro ss os ros ee so es ar a aor 25 DCR4E075 Jer fom f r efor mos os 7 se 7 so ao 40 fa 50 51 me Se NG moe fr fe 9m roo Je fer rom e we ros er ee eoe 2 mees e femme eo ar e1 mos oa os 705 o ee e s 2 omes as e femme eo ms ss mos o ww as ss ee w see 2 omen 22 m oeme eo m ss mos o wo wr ss os seen omues ne o oeme eo m e fre ws 125 o ns oo nex nereng ua fat oeme eo ar s mme eo Ta o ww o0 or sex focrewresns a e ue me ar s mes eo seo se ws eo er ser omar 12 e femme eo m aw mme 120 v ve 94 so sr sex w crezare fie e ue me m f r roe ve mone ws so er sem potesse xr ues s oeme ro fes ws mms 150 ses a zo sez wo me beer foss m e iow fas froe mos De pe pue ve pe eo ereas ur we femme eo we us mme wo aan s arles rar ves fo neeaae or we ue mw we ss mes so as we vss vez vw eo poreeasekt oss wm cem mw oo us mer 150 225 Ts arne ar so gt focresassks ose wo ue mw oo pus mer so aan Ts rss f r ww vo 2 poreessekt ne we cam
33. ed size Otherwise fire could occur Do not use one multicore cable in order to connect several inverters with motors Do not connect a surge killer to the inverter s output Secondary circuit Doing so could cause fire Ground the inverter following national local electric code depending on the input primary voltage of the inverter Otherwise electric shock could occur Qualified electricians should carry out wiring Be sure to perform wiring after turning the power OFF Otherwise electric shock could occur Be sure to perform wiring after installing the inverter body Otherwise electric shock or injuries could occur 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 fire or an accident could occur Do not connect the power source wires to output terminals U V and W Doing so could cause fire or an accident Generally control signal wires do not have reinforced insulation If they accidentally touch any live parts in the main circuit their insulation coat may break for any reasons In such a case an extremely high voltage may be applied to the signal lines Protect the signal line from contacting any high voltage lines Otherwise an accident or electric shock could occur ACAUTION e Wire the three phase motor to terminals U V and W of the inverter Otherwise injuries could occur T
34. eoo xs w mer we ms wo ms we wo mo oo 9 pcreesseks oe we ue eo ws i me ora esse ss es iso me fe 2 Drawing 1 Drawing 2 e NN i i a c FC e Front runners mE 38 Chapter 8 Specifications and external dimensions DC Reactors W W1 D1 D2 D3 H Mounting Terminal Mass Drawing hole hole KG 6 4 DCR4 75C 255410 225 106 2 8821 125 5321 145 M0 124 DCR4 90C 116 2 130 5841 145 6 m2 147 4 E 130 265 11844 9042 140 58 22 155 8 M2 1184 4 265 12624 10022 150 6342 180 8 Mi2 22 4 10 4 600 5 M10 HOLE Drawing 4 Drawing 5 go iz rii hir 4 4 835 hire Terminal hole Y Nini hole Fig E Drawing 6 FO e Front runners Chapter 8 Specifications and external dimensions 39 FRENIC ECO 8 3 6 Dimensions EMC input filters Units expressed in mm FS5536 12 07 FS21312 18 07 Dsmensions mm Bim ri nr tran BERUMRUNGSSICHERE KLEMME ITE AWO S Lgi genad C pp der vas lt M TERMINAL BLOCK gs agen dw 8 HERE S Lia EDT iuc T maet 3 FS5536 35 07 FS21312 44 07 Dimensions mm Dinwnsions enl BERUHRUNGSSICHERE PENNY KLEMME LITZE AWG amp LITZE TEM 18Hn DRAHT HM SAFETY TER
35. eration 1 Coast to stop 0 Disable 1 Enable 0 1 to 10 0 s 0 00 Set deceleration time 0 01 to 100 0 Hz s 999 Follow the current limit command Depending on the inverter capacity ee fl 400V series 400 to 600VDC 470 V DC mm mme 999 The longest time automatically determined by the inverter Pre 999 Harmonize at the maximum frequency 0 Disable 1 Enable Upon detection of PTC the inverter immediately trips and stops with OH4 displayed 2 Enable Upon detection of PTC the inverter continues running while outputting alarm signal THM 0 00 to 5 00 V DC 1 60 V DC 19 Communication link function Mode selection Frequency command RUN command 0 FO1 C30 F02 1 RS485 link F02 2 F01 C30 RS485 link 3 RS485 link RS485 link 4 RS485 link option F02 5 RS485 link option RS485 link 6 F01 C30 RS485 link option 7 RS485 link RS485 link option 8 RS485 link option RS485 link option mr Indication for replacing DC link bus capacitor 0000 to FFFF Hexadecimal Jo TT imm Set at factory eee E Indication for replacing DC link bus capacitor 0000 to FFFF shipping Hexadecimal EN o E a Indication for replacing capacitors on the printed circuit board board 0000 to FFFF Hexadecimal Resetable ull Select starting characteristics Auto search time for idling 0 motor s speed Non linear V f pattern Frequency 0 0 Cancel 0 1 to 120 0 Hz Voltage 0 to 240V Output a voltage AVR controlled for 200V
36. etting JO2 to 1 you have to specify the source of this command In order to do so you have to program one of the following functions to 3 PID process command 1 E61 to 3 when using terminal 12 0 to 10V DC E62 to 3 when using terminal C1 4 to 20mA E63 to 3 when using terminal V2 0 to 10 V DC The second signal that we have to set is the source of the PID Feedback This also will be done using the functions mentioned above depending on the kind of feedback signal that the inverter receives from the sensor E61 to 5 when using terminal 12 0 to 10V DC E62 to 5 when using terminal C1 4 to 20 mA E63 to 5 when using terminal V2 0 to 10V DC Note if these functions are set up with the same data the operation priority is given in the following order E61 gt E62 gt E63 J03 PID control P gain This parameter is used to set the proportional P gain of the PID controller This parameter has to be tuned on site the value depends on the application J04 PID control I time This function is used to set the integral I time of the PID controller This function has to be tuned on site the value depends on the application J05 PID control D time This function is used to set the derivative D time of the PID controller This function has to be tuned on site the value depends on the application J06 PID control Feedback filter This function is used to set the time constant of the filter for PID control feedback signal in
37. g digital input signals programmed to SS1 SS2 and SS4 functions ON OFF will switch the frequency command to those defined by function codes C05 through C11 multistep frequencies With this the inverter may drive the motor at 8 different set point frequencies The table below lists the frequencies that can be obtained by the combination of switching SS1 SS2 and SS4 In the Selected frequency column Other than multistep frequency represents the set frequencies defined by frequency command 1 F01 frequency command 2 C30 or others SS4 SS2 SS1 Selected frequency frequency O05 muse feguen T COS mulse frequency 2 COT multistep Frequency 3 COB mulistep frequency 4 C08 multistep frequency 5 CTO mulistep Frequency Gff mutle fequeny 7 6 2 3 PID Controller In order to set up the PID controller the following parameters have to be set J01 PID control mode select This function is used to setup the operation mode of the PID controller The alternatives are 0 PID inactive 1 PID active forward operation 2 PID active reverse operation Maximum frequency 0 PID output 100 J02 Remote process command This parameter is used to set the source of the Set Value for the PID Controller 0 Enable set by Keypad 1 PID process command 1 3 Enable terminal command up down control 4 Command via communication link FO e Front runners Chapter 6 Function codes and application example 29 When s
38. gh speeds is easy Before changing the frequency speed setting check the specifications of the motor and machinery The brake function of the inverter does not provide mechanical holding means 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 FC e Front runners Chapter 1 Safety information and conformity to standards 2 1 2 Conformity to European standards The CE marking on Fuji products indicates that they comply with the essential requirements of the Electromagnetic Compatibility EMC Directive 89 336 EEC issued by the Council of the European Communities and the Low Voltage Directive 73 23 EEC EMC filter built in inverters that bear a CE Marking are in conformity with EMC Directives Inverters having no EMC filter can be in conformity with EMC Directives if an optional EMC compliant filter is connected to them General purpose inverters are subject to the regulations set forth by the Low Voltage Directive in the EU Fuji Electric declares the inverters bearing a CE marking are compliant with the Low Voltage Directive m he FRENIC Eco series of inverters conforms to the following standards Low Voltage Directive EN50178 1997 EMC Directives EN61800 3 2004 EN55011 1998 A1 1999 For further information please c
39. he inverter motor and wiring generate electric noise Take care of malfunction of the nearby sensors and devices To prevent the motor from malfunctioning implement noise control measures Otherwise an accident could occur Setting control switches A WARNING Before setting up any internal control switches turn OFF the power wait more than five minutes for models of 30 kW or below or ten minutes for models of 37 kW or above and make sure using a multimeter or a similar instrument that the DC link bus voltage between the terminals P and N has dropped below a safe voltage 25 VDC Otherwise electric shock could occur Operation A WARNING e Be sure to install the terminal block cover and the front cover before turning the power ON Do not remove the covers while power is applied Otherwise electric shock could occur Do not operate switches with wet hands Doing so could cause electric shock If the retry 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 after restarting If the stall prevention function current limiter automatic deceleration and overload prevention control have been selected the inverter may operate at an acceleration deceleration time or frequency different from the commanded ones Design the machine so that safety is ensured even in Such cases Otherwise an
40. heck the FRENIC Eco user s manual Considerations when using FRENIC Eco as a product with conformity to Low Voltage Directive If you wish to use a FRENIC Eco series inverter as a product with conformity to the Low Voltage Directive refer to the related guidelines FC e Front runners Chapter 1 Safety information and conformity to standards 3 2 MECHANICAL INSTALLATION 2 1 Installing the inverter Mounting base The inverter should be mounted on a base made of material that can withstand heat sink temperature which can rise up to 90 C approx during inverter operation Clearances Ensure that the minimum clearances indicated are maintained at all times When installing the inverter in the enclosure of your system take extra care with ventilation inside the enclosure as the temperature around the inverter will tend to increase Do not install the inverter in a small enclosure with poor ventilation For 400V class 90kW or above a 50 mm clearance is needed instead of 10 mm left and right sides 100 mm As long as the ambient temperature is 40 C or lower 5 5 kW or lower inverters may be mounted side by side without any gap between them For others inverters please follow the clearances needed 2 2 Removing and mounting the inverter covers for inverters 37kW or above please refer to user s manual for details For mounting the covers please follow removing instructions in the opposite way To remove the terminal bl
41. ils trip and alarm ErP If it succeeds continue to run 3 Continue to run POLL m 0 2400 bps 1 4800 bps 2 9600 bps 3 3 19200 bps 4 38400 bps seo RNC RN 1 7 bits 0 None 1 Even parity 2 Odd parity EE s I 1 1 bit a 1to 60s Am E LL 0 Modbus RTU protocol 2 Fuji general purpose inverter protocol BEEN 3 Metasys N2 RUN command Follow H30 data Follow H30 data Via field bus option Via field bus option RUN command Follow H30 and Y98 data Follow H30 and Y98 data Via RS485 link Loader Via RS485 link Loader Following there is an example describing how to switch a motor from commercial power operation to inverter operation and vice versa using an internal automatic switch sequence called ISW50 function Components needed to develop this application Motor pump or fan motor relays the relays will be connected to 3 contactors 1 thermal relay optional FRENIC Eco inverter FRN F1 AWARNING When the primary contactor SW52 1 is opened the inverter will not be powered on Therefore and in order to keep the inverter control circuit alive an auxiliary input voltage is needed from RO TO auxiliary input terminals FO e Front runners Chapter 6 Function codes and application example 24 Circuit diagram and configuration Commercial power contactor SW88 Thermal relay Inverter secondary contactor SW52_2 Inverter primary contactor Configu
42. ion FC e Front runners FRENIC ECO Control Circuit Terminal Block 10 Chapter 3 Electrical installation e Front runners 4 OPERATION USING THE KEYPAD LED monitor The keypad consists of a 4 digit LED monitor 5 LED ES oes BSR indicators and 6 keys as shown in the figure The keypad allows you to start and stop the motor monitor running status and switch to the menu mode S RUN key In the menu mode you may set the function code data monitor I O signal states and check the maintenance S STOP key Data key information as well as the alarm information Up key Down key The keypad has 3 operation modes programming mode running mode and alarm mode Open roe Programming mode Running mode Alarm mode Tre STOP RUN STOP RUN Displays the output frequency set frequency loader motor speed Displays the alarm description and Function Displays the function code or data required power output current and output voltage alarm history pa The program mode is indicated e d of frequency output current required power speed Frequency indication Speed indication PRE x ie A PRG MODE ii LE D Uns A Uw Ft batt LOW op rimin_jmiminj PRG MODE OFE Buz Da kw T S Lemin inmin oN Current indication Capacity of current indication PRG MODE Or Ba Drew Cite D Bl v imn JL min ON minin mmn Blink or lit o KEYPAD Function Operation selection keypad operation terminal operation is di
43. k Function y codes and Option Functions o codes For Option function o codes refer to the instruction manual for the option For further information about the FRENIC Eco function codes please refer to FRENIC Eco user s manual For further information about pump control please refer to the pump control instruction manual F codes Fundamental functions me m Data protection E Lo RR F01 Frequency command 1 RUN command Maximum frequency N Base frequency F05 Rated voltage at base frequency Acceleration time 1 Deceleration time 1 F09 Torque boost F10 Electronic thermal overload protection for Selection motor motor charact F11 Overload detection level F12 Thermal time constant F14 Restart mode after momentary power failure Mode selection F15 Frequency limiter F16 F18 Bias frequency command 1 F20 DC braking Start freq F21 Braking level F22 Braking time Starting frequency Stop frequency e Front runners F23 25 F a Chapter 6 Function codes and application example Setting range 0 Disable data protection function code can be edited o9 4 1 Enable data protection 0 Enable arrow keys on the keypad 1 Enable voltage input to terminal 12 0 to 10V DC 2 Enable current input to terminal C1 4 to 20 mA 3 Enable sum of voltage and current inputs terminals 12 and C1 5 Enable voltage input to terminal V2 0 to 10V DC 7 Enable terminal comman
44. mensions TP G1 Dimensions DC Reactors Dimensions EMC input filters OPTIONS Options table EMC input filter DC Reactors Contents and preface Page EN CO CON DO OO C1 13 13 24 28 28 31 32 32 33 34 34 36 37 37 38 40 43 43 44 44 Preface Thank you for purchasing our FRENIC Eco series of inverters This product is designed to drive a three phase induction motor for fan and pump applications Read through this starting guide and become familiar with proper handling and operation of this product Please note that this Starting guide should enable you to get familiar with the main functions and should help you to install the inverter Not all functions are described here For more detailed information please refer absolutely to the attached CD ROM which contains the user s manual MEH456 Improper handling might result in incorrect operation a short life or even a failure of this product as well as the motor Have this manual delivered to the end user of this product Keep this starting guide and CD ROM in a safe place until this product is discarded Listed below are the other materials related to the use of the FRENIC Eco Read them in conjunction with this starting guide as necessary FRENIC Eco User s Manual RS485 Communication User s Manual Catalogue RS485 Communications Card OPC F1 RS Installation Manual INR SI47 0872 Relay Output Card OPC F1 RY Instruction Manual INR SI47 0873
45. n address standard Y02 Communications error processing Y03 Error processing timer Y04 Transmission speed Y05 Data length Y06 Parity check YUT Stop bits Y08 No response error detection time Y09 Response latency time Y10 Protocol selection e Front runners J Motor sequenced start sequenced stop switching level 0 to 100 0 PID control startup frequency Default setting Actual setting 0 0 Disable 0 1 to 50 0 0 Disable 1 to 120Hz 999 Depends on the setting of J36 Selecting function code data assigns the corresponding function to terminals Y1A B C Y2A B C and Y3A B C 0 0 100 100 100 100 Depends on the setting of E20 to E22 60 1060 Sequenced start motor 1 inverter driven 61 1061 Sequenced start motor 1 commercial power driven 62 1062 Sequenced start motor 2 inverter driven 63 1063 Sequenced start motor 2 commercial power driven 64 1064 Sequenced start motor 3 inverter driven 65 1065 Sequenced start motor 3 commercial power driven 67 1067 Sequenced start motor 4 commercial power driven 68 1068 Periodic switching early warning 69 1069 Pump control limit signal Indication of cumulative run time of motor for replacement Indication of maximum number of ON times of relay contacts on the relay output card or those built in inverter Display of 1 000 means 1 000 times For relay output card For built in mechanical contacts Mam Data
46. nd 2 FO e Front runners 0 0 to 120 0 Hz me em 0 0 to 30 0 Hz 0 00 to 120 00 Hz 0 Enable arrow keys on the keypad 1 Enable voltage input to terminal 12 0 to 10V DC 2 Enable current input to terminal C1 4 to 20 mA 3 Enable sum of voltage and current inputs to terminals 12 and C1 5 Enable voltage input to terminal V2 0 to 10V DC 7 Enable terminal command UP DOWN control 0 00 to 200 00 me n tee sed NEN IHE owe oo om IHNEN CN EE RT l moo Eo 2 200 pees NN Eoo ws opo Ic LP 1 Inverse operation 0 00 to 5 00 s 0 00 to 5 00 s 0 00 to 100 00 96 0 00 to 200 00 0 00 to 100 0 Chapter 6 Function codes and application example 18 P codes Motor parameters P01 Motor No of poles P02 Rated capacity EUs Rated current P04 Autotuning No load current P07 R1 P08 X Motor selection H codes High performance functions ul Data initialization Auto resetting Reset interval Cooling fan ON OFF control Acceleration Deceleration pattern H09 Select starting characteristics Auto search for idling motor s speed Deceleration mode MP Instantaneous overcurrent limiting Restart mode after Restart time momentary power failure H14 Frequency fall rate H15 Continuous running level H16 Allowable momentary power failure time H17 Select starting characteristics Frequency for idling motor s speed H26 PTC thermistor inpu
47. nent gain 0 000 to 10 000 times 999 H93 component time 0 010 to 10 000 s999 H94 Cumulative run time of motor Change or reset the cumulative data DC braking braking response mode 0 Slow 1 Quick H96 STOP key priority start check function STOP key priority Start check function 0 Disable Disable 1 Enable Disable 0 2 Disable Enable 3 Enable Enable H97 Clear alarm data Setting H97 data to 1 clears alarm data and then returns to zero Protection maintenance function 0 to 63 Display data on the keypad s LED monitor in decimal format In each bit 0 for disabled 1 for enabled Bit 0 Lower the carrier frequency automatically Bit 1 Detect input phase loss 19 decimal Bits 4 1 0 1 bits 5 3 2 0 Bit 2 Detect output phase loss Bit 3 Select life judgement criteria of DC link bus capacitor Bit 4 Judge the life of DC link bus capacitor Bit 5 Detect DC fan lock 1 The H86 through H90 are displayed but they are reserved for particular manufacturers Unless otherwise specified do not access these function codes FO e Front runners Chapter 6 Function codes and application example 21 J codes Application functions Code hane Data setting range Default setting Actual setting J01 PID control Mode selection 0 Disable 1 Enable normal operation 2 Enable inverse operation J02 Remote process command 0 Enable arrow keys on keypad 1 PID process command 1 3 Enable terminal command UP DOWN control
48. ock cover loose the screw hold the cover using the labelled PULL indication pull it up towards you To remove the front cover keypad cover hold it with both hands slide it downwards disengage the latch tilt the front cover towards you and pull it upwards farminal Block Terminal Block Cover Lover Fastening Screw ee p PULL Mark FO e Front runners Chapter 2 Mechanical installation FO e Front runners Chapter 2 Mechanical installation 3 ELECTRICAL INSTALLATION 3 1 Power terminals Connect the 3 phase input power lines L1 R L2 S L3 T Main power inputs Input voltage for F1S 4 380 460V AC 50 60Hz Input voltage for F1S 2 200 230V AC 50 60Hz Inverter outputs Connect a 3 phase motor RO TO Auxiliary power input For a backup of the control circuit power supply connect AC power lines same as that of the main power input P1 P Me Connect a DC reactor DCRE for improving power factor an option for the inverter whose capacity is 55 kW or below EOR N DC link bus An optional PWM regenerative converter may be connected to these terminals Auxiliary power input for the fans for 55KW or above inverters 400V AC series or 45KW or s n T1 Auxiliary power input for the fans above inverters 200V AC series Grounding terminals for the inverter s chassis or case and motor Earth one of the SG x2 Ground terminals terminals and connect the grounding terminal of the motor Inverters provide a p
49. of external device 500 Q F e Front runners Digital input RUN command Chapter 3 Electrical installation 3 3 Wiring diagram Following there is a basic wiring diagram i 9 DC REACTOR DCR Remove the DC bar if a DC reactor is installed 4 p d Power supply Three phase Motor 200 to 240 V 50 60 Hz or three phase 380 to 480 V 50 60 Hz Aux power input for control circuits Grounding terminal e G Grounding terminal Control circuit Power supply for 3 r 7 1 variable resistor 55 13 Alarm relay Voltage input for 12 output L setting 0 to 10 VDC 11 a III 11 L 8 Voltage input for d gt em Relay output e setting 0 to 10 VDC lt E I i T Current input for ___ A setting 4 to 20 mA DC bt t y N s Analog output Ie 0 to 10VDC or 4 to 20mA Analog output AL d ato20ma Li EL FRENIC Eco Digital inputs i ri Transistor 1 outputs T FO e Front runners Chapter 3 Electrical installation 3 4 Digital inputs X1 X2 X3 X4 X5 FWD and REV The digital inputs can be operated in PNP logic ON level by means of 24V DC or NPN logic ON level by means of 0V The logic is selectable by using the switch SW1 located on the inverter control board please refer to chapter 3 6 Example connection PNP logic SOURCE a Using external power supply b Using inverter power supply 24 VDC power supply Example connection NPN logic SINK a Using exte
50. on tomm Ty nna T Te gt ae I speed Inverter is controlling the motor Inverter is controlling the motor speed speed The function codes which have been modified are amp w me ven 1 RUN command using terminals digital inputs motor data Maximum frequency motor data Base frequency motor data Rated voltage 15 s for instance Acceleration time 15 s for instance Deceleration time SS1 multistep frequency function assigned to X1 terminal digital input Switching sequence command ISW50 assigned to X2 terminal digital input SW52 1 function assigned to Y1 terminal digital output SW52 2 function assigned to Y2 terminal digital output SW88 function assigned to Y3 terminal digital output Language selection English language selected 10 Hz for instance If X1 terminal is ON C05 speed will be selected motor data Number of motor poles motor data Motor capacity motor data Motor rated current motor data Motor no load current for instance 50 of P03 If autotuning mode 2 is done P06 is auto calculated 2 seconds Restart time FO e Front runners Chapter 6 Function codes and application example 27 FO e Front runners Chapter 6 Function codes and application example 28 6 2 2 Select Multistep Frequencies 7 different set point frequencies To use Multistep Frequencies you have to program E01 to E05 to SS1 0 SS2 1 or SS4 2 functions Switchin
51. or 3 54 1054 Enable pump drive motor 4 87 1087 Switch RUN command 2 1 88 RUN forward 2 89 RUN reverse 2 Chapter 6 Function codes and application example SS2 SS4 THR Hz PID SW50 IVS 15 T Data setting range Default setting Actual setting Command assignment to Y1 Y2 Y3 Y5A C 30A B C Frequency detection FDT Hysteresis Overload early warning Level Current detection LED monitor Item selection LCD monitor Item selection only with multi functional keypad TP G1 Language selection Contrast control FO e Front runners Detection level PID display coefficient A 999 to 0 00 to 999 PID display coefficient B 999 to 0 00 to 999 Selecting function code data assigns the corresponding function to terminals Y 1 to Y3 Y5A C and 30A B C as listed below Setting the value of 1000s in parentheses shown below assigns a negative logic input to a terminal 1000 1001 1002 0 Inverter running 1 2 3 1003 5 6 Frequency arrival signal Frequency detected Undervoltage detected inverter stopped 1005 Inverter output limiting 1006 Auto restarting after momentary power failure 7 1007 Motor overload early warning 10 1010 Inverter ready to run 11 Switch motor drive source between commercial power and inverter output For MC on commercial line 12 Switch
52. ration of control circuit To switch the motor from inverter operation to commercial power operation or vice versa the inverter ISW50 function will be used 1 DIGITAL INPUTS in this case FWD X1 and are used FWD digital input set as FWD function RUN command X1 digital input set as mutistep frequency SS1 function speed X2 digital input set as ISW50 function to switch the motor 2 DIGITAL OUTPUTS in this case Y1 Y2 and Y3 are used Y1 digital output set as SW52 1 function this digital output will be connected to relay 1 Relay 1 will open or close the primary contactor SW52 1 Y2 digital output set as SW52 2 function this digital output will be connected to relay 2 Relay 2 will open or close the secondary contactor SW52 2 Y3 digital output set as SW88 function this digital output will be connected to relay 3 Relay 3 will open or close the commercial power contactor SW88 FC e Front runners Chapter 6 Function codes and application example 25 Relay 1 related with SW52 1 inverter primary RUN command contactor FWD Relay 2 related with SW52 2 inverter secondary T contactor SOURCE Relay 3 related with SW88 commercial power contactor ISW50 To switch the motor Switching sequence 1 INVERTER OPERATION gt COMMERCIAL POWER OPERATION If the digital input set as ISW50 function is changed from ON to OFF 1 The inverter output is shut off immediately IGBT off
53. rnal power supply b Using inverter power supply 24 VDC power supply Electrical specification for digital inputs X1 to X5 FWD and REV FC e Front runners Chapter 3 Electrical installation 3 5 Digital outputs Y1 Y2 Y3 YSA C and 30A B C Transistor digital outputs can be operated both in PNP SOURCE or NPN SINK logic The logic is selectable depending on the connection is made Connecting the PLC terminal to the transistor common CMY terminal you get PNP logic Connecting the CM terminal to the transistor common CMY terminal you get NPN logic Connection example output PNP logic a Using external power supply b Using inverter power supply 24 VDC power supply Connection example output NPN logic a Using external power supply b Using inverter power supply 24 VDC power supply Electrical specifications for transistor digital outputs Electrical specifications for relay digital outputs FC e Front runners Chapter 3 Electrical installation 8 Y1 Y2 and Y3 Y5AIC and 30A B C 48V DC 0 5A Operation 250V AG 0 3A cos o 0 3 voltage Maximum operation current at ON Leakage current at OFF 6 Setting up the slide switches Switching the slide switches located on the PCB allows you to customize the operation mode of the analog output terminals digital I O terminals and communication ports The locations of those switches are shown
54. rter rated current 0 01 to 600 00 s 100 of the motor rated current 9 Chapter 6 Function codes and application example 16 0 Speed monitor Select by E48 3 Output current 4 Output voltage 8 Calculated torque 9 Input power 10 PID process command Final 12 PID feedback value 14 PID output 15 Load factor 16 Motor output 17 Analog input 0 Running status rotational direction and operation guide 1 Bar charts for output frequency current and calculated torque 0 Japanese 1 English 2 German 3 French 4 Spanish 5 Italian 0 Low to 10 High oA Setting range Default setting Actual setting LED monitor Speed item 0 Output frequency 3 Motor speed in r min 4 Load shaft in r min araa a Display speed in watt hour data 0 001 A 9999 i Keypad menu display mode 0 Function code data editing mode Menus 0 1 and 7 1 Function code data check mode Menus 2 and 7 2 Full menu mode Menus 0 through 7 Analog input for Selecting function code data assigns the corresponding function to terminals 12 Extension function C1 and V2 as listed below selection 0 None 1 Auxiliary frequency command 1 2 Auxiliary frequency command 2 3 PID process command 1 5 PID feedback value 20 Analog input monitor 0 Auto saving at the time of main power turned off a 1 Saving by pressing FUNC DATA key Command loss detection Level 0 Decelerate to stop 20 to 120
55. s Do not get on a shipping box Do not stack shipping boxes higher than the indicated information printed on those boxes Doing so could cause injuries Maintenance inspection and parts replacement AWARNING Turn the power OFF and wait for at least five minutes for models of 30 kW or below or ten minutes for models of 37 KW or above before starting inspection Further check that the LED monitor is unlit and check the DC link bus voltage between the P and N terminals to be lower than 25 VDC Otherwise electric shock could occur Maintenance inspection and parts replacement should be made only by qualified persons Take off the watch rings and other metallic matter before starting work Use insulated tools Otherwise electric shock or injuries could occur Disposal ACAUTION Handle the inverter as an industrial waste when disposing of it Otherwise injuries could occur Others A WARNING Never attempt to modify the inverter Doing so could cause electric shock or injuries FC e Front runners Chapter 1 Safety information and conformity to standards 1 Wiring AWARNING e When wiring the inverter to the power source insert a recommended moulded case circuit breaker MCCB or residual current operated protective device RCD earth leakage circuit breaker ELCB with overcurrent protection in the path of power lines Use the devices within the recommended current range Use wires in the specifi
56. seconds This function has to be tuned on site the value depends on the application The following 3 functions are especially designed for pump applications These function codes specify the data for the slow flowrate stop in pump control a feature that stops the inverter when there is no water consumption Slow flowrate stop function When the discharge pressure has increased decreasing the reference frequency output of the PID processor below the stop frequency for slow flowrate level J15 for more than the elapsed stopping time on slow flowrate level stop latency J16 the inverter decelerates to stop while PID control itself continues to operate When the discharge pressure decreases increasing the reference frequency output of the PID processor above the starting frequency J17 the inverter resumes operation If we need to have a signal indicating the state in which the inverter is stopped due to the slow flowrate stop feature we have to assign PID STP function Inverter stopping due to slow flowrate under PID control to one of the general purpose output terminal function code data 44 J15 PID Control Stop frequency for slow flowrate Specifies the frequency which triggers a slow flowrate stop of the inverter J16 PID Control Slow flowrate level stop latency Specifies the elapsed time from when the inverter stops operation due to slow flowrate level condition J17 PID Control Starting frequency Specifies the st
57. splayed CONTROL Display Lit in keypad operation mode F02 0 2 or 3 Absence of operation Presence of operation Absence of operation command Presence of operation command oe acm command is displayed command is displayed is displayed is displayed slop iaaiiai lalaa aia d NUN If an alarm occurs during operation Display IRUN ARUN JRUN HRU N unlit during keypad operation or lit during terminal block operation Switches to running mode Function Switches to programming mode Releases the trip and switches to stop mode or running mode Digit shift cursor movement in data setting Keys O d Function Determines the function code stores and updates data Switches the LED monitor display Displays the operation information o9 Function Increases decreases the function code and data Increases decreases the frequency motor speed and other settings Displays the alarm history Starts running switches to o Function Invalid running mode RUN Invalid Invalid Function invalid Deceleration stop switches Invalid Deceleration stop switches to Invalid to programming mode STOP running mode STOP If F02 1 the RUN key will not be enabled RUN command by digital input terminals If F02 1 the STOP key will not be enabled RUN STOP command by digital input terminals If H96 1 or 3 STOP key located on the keypad will stop the motor with priority even if other RUN STOP commands are enable
58. t speed Auto energy saving operation 1 Variable torque load increasing in proportion to square of speed Higher startup torque required 2 Auto torque boost 3 Auto energy saving operation Variable torque load increasing in proportion to square of speed 4 Auto energy saving operation Variable torque load increasing in proportion to square of speed higher startup torque required Note Apply this setting to a load with short acceleration time 5 Auto energy saving operation Auto torque boost Note Apply this setting to a load with long acceleration time Current limiter Mode selection 0 Disable No current limiter works 1 Enable at constant speed Disabled during acceleration and deceleration 2 Enable during acceleration and at constant speed Level 20 to 120 100 is interpreted as rated output current of the 10 mn inverter gt The shaded function codes are applicable to the quick setup menu FO e Front runners Chapter 6 Function codes and application example 14 E codes Extension terminal functions code hane o O Data setting range Default setting Actual setting Command assignment to X1 X2 X3 X4 XS FO e Front runners Selecting function code data assigns the corresponding function to terminals X1 to X5 as listed below Setting the value of 1000s in parentheses shown below assigns a negative logic input to a terminal In the case of THR and STOP data 1009 and 1030
59. t Mode selection H27 Level e Front runners A 0 00 to 2000 A Chapter 6 Function codes and application example 2 to 22 me Data setting range Default setting Actual setting JP Rated capacity of the motor Rated current of Fuji standard motor 0 01 to 1000 kW If P99 is 0 3 or 4 0 01 to 1000 HP If P99 is 1 0 Disable 1 Enable Tune R1 and X while the motor is stopped 2 Enable Tune R1 and X while the motor is stopped and no load current while running 0 00 to 2000 A motor Rated value of Fuji standard motor Rated value of Rated value of Fuji standard motor Fuji standard 0 00 to 50 00 0 00 to 50 00 0 Characteristics of motor 0 Fuji standard motors 8 series 1 Characteristics of motor 1 HP rated motors 3 Characteristics of motor 3 Fuji standard motors 6 series 4 Other motors The shaded function codes are applicable to the quick setup menu 0 Disable initialization 1 Initialize all function code data to the factory defaults 2 Initialize motor parameters 0 5 to 20 0s 0 Disable 1 to 10 times 0 Disable Always in operation 1 Enable ON OFF controllable 0 Linear 1 S curve Weak 2 S curve Strong 3 Curvilinear 0 Disable 3 Enable Follow RUN command either forward or reverse 4 Enable Follow RUN command both forward and reverse 5 Enable Follow RUN command inversely both forward and reverse 0 Normal decel
60. uto tuning procedure has been finished LOCAL MODE TEST 1 Set F02 2 or F02 3 to select the local mode RUN command given by the keypad 2 Switch the inverter on and check the LED keypad is displaying and blinking 0 00 Hz 3 Set a low frequency using the arrow keys S SZ check if the new frequency is already blinking in the LED keypad Press PRG RESET during one second to move the cursor across the LED keypad 4 Press FUNC DATA to store the new selected frequency 5 Press RUN key to start driving the motor 6 Press STOP key to stop the motor 5 4 Operation After confirming the inverter can drive the motor connect the motor to the machine and adjust the necessary function codes Depending on the application conditions further adjustments may be required such as adjustments of torque boost F09 acceleration time F07 and deceleration time F08 Make sure to set relevant function codes properly FO e Front runners Chapter 5 Quick start commissioning 12 6 FUNCTION CODES AND APPLICATION EXAMPLE 6 1 Function codes tables and basic description Function codes enable the FRENIC Eco series of inverters to be set up to match your system requirements The function codes are classified into eight groups Fundamental Functions F codes Extension Terminal Functions E codes Control Functions of Frequency C codes Motor Parameters P codes High Performance Functions H codes Application Functions J codes Lin
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