Frequency Inverter FA-1L/FA-3H
Contents
1. No reaction 0 Setting frequency 1 Actual frequency 2 Actual current 3 015 7 y DA1 Analog Output Output voltage 4 016 DA2 Analog Output DC bus voltage 5 y IGBT temperature 6 Output power 7 Output RPM 8 Actual value of torque 9 DA1 Adjustment Of 5 017 Lower Limit Outp t 0 0 100 0 0 0 T DA1 Adjustment Of 1 0 0 100 0 9 100 0 T oie Upper Limit Of Output a DA2 Adjustment Of 5 019 Lower Limit Output 0 0 100 0 0 0 T DA2 Adjustment Of 2 0 0 100 0 9 100 0 T ez Upper Limit Output n Setting N Output Content Giving Output Signal Range Value N Reaction 0 No output Setting Frequency 1 O Max frequency Actual Frequency 2 O Max frequency 0 200 corresponding parameter S03 percentage Actual Current 3 of output current 0 200 corresponding parameter b02 b15 rate Output Voltage 4 voltage of motor DC Bus Voltage 5 O 1000VDC DC voltage IGBT Temperature 6 0 100 0 C Output Power 7 0 200 Output RPM 8 O Max RPM Actual Value Of 9 0 200 torque Torque Frequency inverter FA 1L FA 3H User Manual v 1 0 0 43 domestic and industrial automation the corresponded output frequency OHz L n Kl 10 0 20 0 50 0 100 0 Voltage Current OV OmA 10V 20mA This parameter is used for setting upper lower limitation of DA1 DA2 output signal Such as If DA1 output 1 5V voltage setting parameter as 017 10 0 018 50 0 If DA2 ou2. gag MpulTecminal Reponse Le gen 2999 s 0 005 Time 0 Input Terminal Reponse 049 e 0 001 30 000 S 0 005 Time 1 050 Input Terminal Reponse 0000 07FF o Time Selection 048 049 define Input terminal reponse time through 050 select the reponse time according the terminal The delay time of the input terminal is valid to the close and cut off action Set the parameter choose Input terminal response time according every terminal 050 Th larity of in rminal 0 10 bit e polarity of input te a 0 048 input terminal response time 0 1 049 input terminal response time 1 1 bit Circle counter operating 0 Single cycle counter running 1 Arrive at upper counter value and o load 10 bit HE22 Arrive at upper counter value and 1 clear savings 051 Counter Collocation 0 Power on to reload 0 100 bit POWE on to clear savings 1 power on to keep previous count gt status 1000 Count period 0 bit Output signal valid time 20ms 1 Frequency inverter FA 1L FA 3H User Manual v 1 0 0 57 domestic and industrial automation Output signal valid time 100ms 2 Output signal valid time 500ms 3 1 bit Control count mode 0 Circulate count Arrive at upper counter value output the arrival pulse output terminal setting 1 Single circulates count after arrive at upper counter value out
3. i stop braking time mime i Sop C CES OFF STOP ON Stop braking RUN STOP setting frequency time output frequency braking frequency d i i i H stop braking time y time i i setting forward reverse command stop braking forward and reverse rotate Frequency inverter FA 1L FA 3H User Manual v 1 0 0 frequency domestic and industrial automation N setting frequency braking frequency time l f output frequency stop brake wait time braking e D RE frequency i stop braking time time RUN STOP ER stop braking run state Decelerati t 0 F32 Stop Setting Mode eceleration stop S 7 Free stop 1 When the frequency inverter receives the stop command it will set the parameters accordingly to this parame ter to set the motor stop mode 0 Deceleration to stop Mode converter according to parameters set by the deceleration time to set the deceleration mode to slow down to the lowest frequencies to stop 1 Free stop mode Inverter receives stop command immediately stop output according to the load inertia motor free run to stop F33 Jog Acceleration Time 0 0 3200 0 S 1 0 N F34 Jog Deceleration Time 0 0 3200 0 S 1 0 N Jog direction forward 0 Jog direction reverse 1 1 bit Jog direction direction determined gt
4. last two the number of displayed parameter A00 A01 A02 parameter specifies that the inverter parameters will be displayed on the display monitor 1 Unit 3 located on the control panel inverter The first two digits identify the parameter group of parameters and the Group Function Spec Number 0B Monitor Function Group S 0 16 0x00 0x10 00 Basic Function Group F 0 60 0x00 0x3C 01 User Function Group A 0 56 0x00 0x38 02 IO Function Group o 0 61 0x00 0x3D 03 Multi step Speed PLC Group H 0 56 0x038 04 V F Curve Group U 0 16 0x00 0x10 05 PID Function Group P 0 13 0x00 0x0D 06 Extend Function Group E 0 14 0x00 Ox0E 07 Speed Loop Parameter Group C 0 32 0x00 0x21 08 Motor Parameter Group b 0 23 0x00 0x17 09 System Function Group y 0 18 0x00 0x12 That parameter Number should be 16 hex input Monitor 1 S01 actual frequency A00 0x0B01 Monitor 2 057 DI1 4 terminal status A01 0x0239 Monitor 3 H55 multi steps speed status A02 0x0337 Monitor1 will be valid when first power on and which decide keyboard display content Such as Over Less Voltage Off 0 Ana Stall Protection On 1 4 S O Itage Stall Pro A04 vervo tage ta TT 110 140 Standard bus voltage 120 Y tection Voltage implement the deceleration DC voltage With braki
5. DC Braking Current eg When Starting Ge 100 Y F27 Braking Time When G6 806 Sa Starting When frequency Inverter starting the first injection of DC current the current size is determined by starting to set when the DC braking current and braking time braking time from the start to set Value is based on inverter rated current as the benchmark that is inverter rated current corresponds to 100 During setting process be sure to gradually increase until adequate braking torque and cannot exceed the mo tor rated current output frequency RUN STOP start up braking F28 Stop When The DC 0 135 100 Y Braking Current F29 Stop And Braking Wait on 60 0 s 0 0 y Time F30 Brake Time Stop 0 0 60 0 s 0 0 Y F31 SE And prake start 0 00 maximum frequency Hz 0 00 T ing Frequency Inverter slowing down to stop braking start frequency stop the output PWM waveform to begin injection of DC current the current size by the shutdown of DC braking current setting braking time braking time set by the downtime Value is based on inverter rated current as the benchmark that is inverter rated current corresponds to 100 Setting process is sure to gradually increase from a small until adequate braking torque and cannot exceed the motor rated current setting H frequency i i time output i frequency stop brake wait time braking s o E e BR e E frequency
6. waveform produce methods Asynchronous space vector PWM N class sub synchronous space vector PWM two phase optimization of space vector PWM Auto torque boost function Achieve low frequency 1Hz and high output torque control under V F control mode Accelerate decelerate control Sub set S curve acceleration and deceleration mode maximum acce leration and deceleration time is 3200 days Long running time control 16 segments speed run maximum running time is 3200 days frequency setting ac curacy Digit 0 01Hz below 300Hz 0 1Hz above 300Hz analogue 1 of maximum frequency frequency accuracy Speed control tolerance 0 01 25 C 10 C V F curve mode Linear 1 2 times the power 1 7 times the power 2 times power user set 8 V F Curve Over load capability 150 rated current 1 minute rated current 200 0 1 second slip compensation V F control can automatically compensate for deterioration Running Running method Keyboard terminal communication Starting signal Forward reverse jog parameter control direction forward jog and reverse jog Emergency stop Interrupt controller output When the protection function is active you can automatically or fault reset a manually reset the fault condition i Motor status display stop acceleration and deceleration constant Running status speed the program runnin
7. 0 s Max acceleration time F09 3200 0 s 1 min Max acceleration time F09 3200 0 min 2 hour Max acceleration time F09 3200 0 hours 3 day Max acceleration time F09 3200 0 days 1000 bit Decceleration time unit 0 s Max decceleration time F10 3200 0 s 1 min Max decceleration time F10 3200 0 min Frequency inverter FA 1L FA 3H User Manual v 1 0 0 28 domestic and industrial automation Max decceleration time F10 3200 0 hours 3 day Max decceleration time F10 3200 0 days 1 bit Running direction Forward CH Reverse e Running Configuration Ss Word 10 bit Running time H18 H25 Sec Min Hours Day WIN R O 00 Unit adjustment of actual running time It is only valid on program running 1 bit Program running on multi speed running period Set bit to running direction of Osten speed Forward 1 Reverse When running control mode F05 0 1 2 control direction of 0 step speed When running control mode F05 3 Setting the value and terminal FWD REV jointly decide the direction of 0 step speed FWD priority FWD 1 running REV 1 running direction direction FWD REV 1 REV FWD 10 bit unit of time running when on 0 step speed 0 sec H18 H25 gt 0 0 3200 0 s 1 min H18 H25 gt
8. 7 Through jpotentiometer Has been modified to adjust the bit values 8 Finish the adjustment press ES cancel the change press ES to escape to the modify status 9 Press to exit to previous menu Parameter uploads to the keyboard Parameter Item Description yO1 parameter upload to N function 0 Frequency inverter FA 1L FA 3H User Manual v 1 0 0 13 domestic and industrial automation the keyboard System parameter upload to the memory areal in the keyboard System parameter upload to the memory area2 in the keyboard System parameter upload to the memory area3 in the keyboard System parameter upload to the memory area4 in the keyboard Clear memory area in the keyboard1 2 3 4 One Times One Times 7 L otentiometer q S Or Potentiometer ENTER to adjust the value of resivement 1d eET One Times Upload Finished 1 Example System parameter upload to the memory area3 in the keyboard 1 Under monitoring status press into parameter group to check status 2 Through jpotentiometer Switch to yOO 23 System FGI PRG 3 Press J or ENTER enter into ly00 23 System FG parameter group to check status 4 Through jpotentiometerSwitch to yO1P Upload To K PRG 5 Press el or ENTER en
9. Reset system parameter with keyboard memory area2 01 0 N y Keyboard Reset system parameter with keyboard memory area3 Reset system parameter with keyboard memory area4 Clear up keyboard memory area 1 2 3 4 y02 Latest Fault record 0 4 0 Y y03 Fault Record 1 04 Fault Record 2 y Press PRG and A V key the frequency current y05 Fault Record 3 3 e 0 Y and running status of fault time can be known y06 Fault Record 4 y07 Fault Record 5 These parameters register fault which happen in the last several times and can inquire about the value of monitor Frequency inverter FA 1L FA 3H User Manual v 1 0 0 77 domestic and industrial automation object at the time of fault by PRG and plus or minus key The monitor object of fault state 0 Fault type The fault code is expressed as following Serial LED dis number play P 0 E OCP System is disturbed or impacted by instant over current 1 Reserved 2 E OC3 Over current or over voltage signal from drive circuit 3 Reversed 4 E OU Over voltage 5 E LU Under voltage 6 E OL Over load 7 E UL Under load warm 8 E PHI Power input Phase loss 9 E EEP EEPROM error 10 E ntC Over heat 11 E dAt Time limit fault 12 E Set External fault 13 Reserved 14 Reserved 15 Reserved 16 E PID PID regulate fault 17 E OHt Motor over heat fault
10. 120 Y Arrival Of Current o 033 Lower Limitation oopa 20 y 034 Current Inspection 032 033 5 3 Range current percentage 032 120 120 033 20 034 3 20 current upper limitation time current lower limitatio time ON means signal will react OFF means signal will not react When the output signal options 021 024 is set as 30 and inverter output current reach or surpass 032 034 the corresponding output signal terminal will react When the inverter output current is less than 032 034 The corresponding output signal terminal will not react When the output signal options 021 024 is set as 31 and inverter output frequency reach or less than 033 034 the corresponding output signal terminal will react When the inverter output current is more than 033 034 the corresponding output signal terminal will not react 034 is used to define current inspection range When the difference of actual current and inspected current has surpassed inspection range the output terminal will react Two wire running control 1 0 i Two wire running control 2 1 035 Terminal Control 1 bit i unni 8 0000 N Mode Three wire running control 1 2 3 Three wire running control 2 Frequency inverter FA 1L FA 3H User Manual v 1 0 0 47 domestic and industrial automation One shot operation control 1 One shot operation control 2 Terminal command is invali
11. 1 Before unpacking the product please check if its package is damaged due to careless transpor tation and if the specifications and type of the product complies with the order 2 Check the nameplate on the side of the frequency inverter to ensure that the product you have received is right the one you ordered Please contact the supplier of F amp F products if any problems are found Inverter Specification Label nameplate KIJ Cex Inverter Type ______ gt Type FA 3H015 Input Spec gt Source 3x400V AC ge i 0 00 400H 1 Voltage 2 2 Power www fif com pl 3 Current 4 Frequency Pic 1 Inverter nameplate Model number convention FA 3H 015 Type Input Voltage 1L Single phase 230V 3H Three phase 400V Applicable motor capacity 007 0 75 kW 015 1 5 kW 022 2 2 kW 040 4 0 kW 055 5 5 kW 075 7 5 kW 110 11 kW Pic 2 Identification of the type of inverter Particular attention should be given to the difference between the one A phase inverters 230V and 3 phase 400V Connection of 3 phase 400V for 1 A phase inverter can cause serious damage Frequency inverter FA 1L FA 3H User Manual v 1 0 0 Part 2 domestic and industrial automation Installation Safety Precautions Never connect the A C power supply to the output terminals U V W of the frequency inverter Fix and lock the panel before supplying power
12. 300 0 C e N s2 gw PT100 EI 3 wire K ol A55 E Linkage 0 10 10 00 100 T In application of proportion of linkage A55 setting is multiply ratio of that when slave inverter received setting frequency command from host inverter Setting this inverter as one slave inverter of system for proportion of linkage Frequency Keyboard F01 set proportion of linkage ratio frequency S00 set by host inverter IO function group 000 068 Code Description LCD Setting Range Unit eral reas 000 All Input X 0 0 100 0 0 0 Y 001 All Input X3 0 0 100 0 100 0 Y 002 Al2 Input X 0 0 100 0 0 0 Y 003 Al2 Input X3 0 0 100 0 100 0 Y 004 AI3 Input X 0 0 100 0 0 0 Y 005 AI3 Input X3 0 0 100 0 100 0 Y 006 All Input Y4 0 0 100 0 0 0 Y 007 Ali Input Y 0 0 100 0 100 0 Y 008 Al2 Input Y4 0 0 100 0 0 0 Y 009 Al2 Input Y 0 0 100 0 100 0 Y 010 AI3 Input Y4 0 0 100 0 0 0 Y 011 AI3 Input Y2 0 0 100 0 100 0 Y Frequency inverter FA 1L FA 3H User Manual v 1 0 0 40 domestic and industrial automation Under the situation Max frequency 50 00Hz Example 1 y Y2 100 EE Y1 0 AIL AI2 AB3 Lem Xo 100 x X Y F Fmax Y Hz 0 0 0 50 50 25
13. FA 3H User Manual v 1 0 0 20 domestic and industrial automation Attention Too short acceleration deceleration slows the motor windings and inverter circuitry and may cause tripping over current and overvoltage protection built in inverter Percentage Of Output F11 Voltage 50 110 100 Y The percentage of the actual output voltage and the rated output voltage Used to adjust the output voltage output voltage inverter rated output voltage percentage of output voltage F12 Maximum Frequency 10 00 320 00 Hz 50 00 N Inverter output maximum frequency allowed is also the setting basis of acceleration deceleration time This parameter setting you should consider characteristics of the motor speed and capacity F13 Lower Frequency 0 00 Upper frequency Hz 0 00 N F14 Upper Frequency Lower frequency Upper frequency Hz 50 00 N F13 Lower frequency the lower limit of the output frequency F14 Upper frequency the upper limit of output frequency When the frequency setting command is higher than the upper frequency the operating frequency will be the upper frequency When the frequency setting command below the lower frequency the operating frequency is lower frequency Start the motor that in the status of stopping the inverter outputs accelerate starting from OHz accordance with the step 1 acceleration time towards the upper or the setting frequency to accelerate
14. ON Bit 3 OFF OFF OFF OFF ON ON ON ON Bit 4 ON ON ON ON ON ON ON ON Acceleration and deceleration time and the direction of running HOO Ox 7x 8x 15x Ox 7x Direction controlled by pa rameter 8x 15x Direction controlled by key Ox 7x Direction controlled by key board and terminal board and terminal Ox 7x Deceleration and accelera 0 8x 15x Deceleration and accelera tion time controlled by parameter 10 bit 100 bit tion time controlled by keyboard i Ox 7x Deceleration and accelera f aa 1 oa and terminal tion time controlled by terminal o Ox 7x Running time controlled by 1000 bit parameter 8x 15x Running time controlled by 1 Ox 7x Running time controlled by terminal terminal ee 0SteP ee Time 0 0 3200 0 s 2 0 y Hig Ten SE Time 0 0 3200 0 s 2 0 y H20 7 gt teP SE Time 9 0 3200 0 s 2 0 y H21 Ten i Time 0 0 3200 0 s 2 0 y H22 ten SN Time 0 0 3200 0 s 2 0 y H23 Ten SE Time 0 0 3200 0 s 2 0 y ges PER SEN Time on 3200 0 s 2 0 y Frequency inverter FA 1L FA 3H User Manual v 1 0 0 64 domestic and industrial automation H25 7 Step Ee Time 0 0 3200 0 s 2 0 Y Actual running time equals to the set multi segment running time multiples a time which is times of speed run ning time and such
15. Synthesized frequency given to the way the of set frequency main switch See F parameter group ik The main set mode 3 of set frequency The auxiliary setting 17 mode 1 of frequency set 1 The auxiliary settin j Synthesized frequency secondary to the way a 18 mode 2 of frequency i given switch See F parameter set se The auxiliary setting 19 mode 3 of frequency set 20 MSS timing running 1 Synthes is of segment8 run time setting See H 21 MSS timing running 2 parameter set 22 MSS timing running 3 a Operation control mode shift 1 Su Operation control Synthes is of operation mode switching Read mode shift 2 FOS parameter Se Operation control mode shift 3 oe Forward torque limit shift 1 Synthes is of reverse torque limit switch See C Forward torque limit 27 parameter set C15 Group shift 2 28 Forward torque limit FA 3H User Manual v 1 0 0 53 domestic and industrial automation shift 3 39 Reverse torque limit shift 1 ep Reverse torque limit Synthes is of reverse torque limit switch See C shift 2 parameter set C16 Group 31 Reverse torque limit shift 3 Vector control mode speed control mode and torque control mode switching 32 Torque speed shift Disconnected status Speed Control Closed Status torque control Detail C parameter set C18 Edge triggered the fault occurred on the cur 33 Fault reset command i rent failure to confirm
16. Timing Water Supply change to zero 60 Extruder acceleration and deceleration di 61 rection Extruder acceleration and deceleration al 62 lowable Limit time 1 input 63 Limit time 2 input 64 Program switching to the next segment 65 UP DN adjusted value reset 66 Keyboard potentiometer set value reset 67 External default signal input edge 68 Setting S as foe e Output Detail Specification Explanation Value 0 No function No function j Forward command Forward command FWD Can be set to edge FWD triggered or level triggered gt Reverse command Reverse command REV Can be set to edge trig REV gered or level triggered Three line running f 3 035 setting 3 line running STOP function STOP j Multi speed command 1 5 Multi speed command 2 Synthes is of16 multi speed settings See H pa S Multi speed command rameter Group 3 J Multi speed command 4 r multi acceleration command 1 9 multi acceleration Synthes is of 8 acceleration settings See H pa command 2 rameter Group multi acceleration 10 command 3 i multi segment digital Synthes is of8digital voltage settings See H voltage 1 parameter Group Frequency inverter FA 1L FA 3H User Manual v 1 0 0 52 domestic and industrial automation Frequency inverter FA 1L i multi segment digital voltage 2 i multi segment digital voltage 3 T The main set mode 1 of set frequency 15 The main set mode
17. 0 OFF 000 Y Key SET ESC in Keyboard can activate and cancel keyboard lock function Frequency inverter FA 1L FA 3H User Manual v 1 0 0 35 domestic and industrial automation To lock which key will be decided by corresponding parameter FWD STOP PRG SET ESC MF 1 MF2 Potentiometer Bit Keyboard locked state o Unlock FWD key 0 Lock FWD key 1 1 Unlock STOP key 0 Lock STOP key 1 5 Unlock PRG key 0 Lock PRG key 1 3 unlock SET key 0 Lock SET key 1 4 Unlock ESC key 0 Lock ESC key 1 5 Unlock MF1 key 0 Lock MF1 key 1 6 Unlock MF2 key 0 Lock MF2 key 1 7 Unlock potentiometer 0 Lock potentiometer 1 1 bit Power down to save 0 Power down to clear saving 1 saving after stopping 0 10 bit Stop command to clear saving 1 A38 UP DN Control Cleared at the end of stopping 2 0000 100 bit DUE Mee e 0 Double direction adjustment 1 1000 Invalided adjustment 0 bit Valid adjustment 1 i UP fix speed 0 ore UP fix times 1 10 bit DN us speen 0 A39 UP DN Time DN fix times 1 UP no adjustment of speed ratio 0 100 bit All adjustment of the external 1 analog giving Frequency inverter FA 1L FA 3H User Manual v 1 0 0 36 domestic and industrial automation Al2 adjustment of the external analog giving Al3 adjustment of the external analog givin
18. 18 E OL2 Motor over load fault 19 E PG PG fault 20 E Pho Inverter output phase lost 21 E COA RS485 communication terminal A failure Frequency inverter FA 1L FA 3H User Manual v 1 0 0 78 domestic and industrial automation 22 E Cob RS485 communication terminal B failure 23 E CAL Parameter identification problems 1 Set frequency at the time of fault The output frequency of the inverter at the time of fault 2 Output frequency at the time of fault The output frequency of the inverter at the time of fault 3 Output current at the time of fault The actual output current at the time of fault 4 Output DC voltage at the time of fault The actual output voltage at the time of fault 5 Running state at the time of fault The running state at the time of fault LED display is below The second The third the fourth The first LED LED LED LED F forward F forward P accele command status rating Reverse Reverse deccele R R D command status rating separator running E ina even Sto Stop sta e D e p speed command tus Sto e p status 6 running time at the time of fault The running time at the time of fault 7 Inverter IGBT temperature at the time of fault Inverter IGBT temperature No action 0 y08 Fault Record Reset Y Reset 0 No action the fault records retains 1 the fault recor
19. 3200 0 S 2 0 Y Set timing of Limit Time 1 and Limit Time 2 Actual limit time on the basis of the set time multiplied by a run time multiple such time multiple set by the ten bit of F49 refer to F49 instructions Multi speed PLC Group H00 H55 Code Description LCD Setting Range Unit Factory Setting Change Limited Multi speed Colloca nee tion 1 bit Program running function cancel Program running function 10 bit Direction decided by H40 H46 ojejo Direction decides by Terminal and keyboard 100 bit Deceleration and acceleration time decides by H26 H39 0000 Frequency inverter FA 1L FA 3H User Manual v 1 0 0 60 domestic and industrial automation Time of acceleration and decelera tion is decided by terminal 1000 Running time decides by H18 H25 bit Running time decides by terminal 1 1 bit Program running functions intelligent To use the program to run PLC functionality requires setting the bit to 1 Multi segment speed run only need to set the corresponding multi stage 036 046 speed switching can be used without the need to set this parameter 0 Program running functions cancel 1 Program running function intelligent 10 bit Define program runs or direction settings of multi segment speed running 0 the direction decided by the H40 H46 1 The direction decided by the keyboard or
20. While the unit digital of C19 is 1 6 the speed up limit of C20 is for checking C19 10 bit Select Speed Up limit Setting Ways 0 Separate setting as per the selection of C19 units digital 1 Setting frequency is according to S00 and affected by the following parameters F02 frequency main setting ways F03 frequency secondary setting ways F04 frequency setting main and secondary en Torquedicteleration 559000 s 1 0 y Time c22 Torque Deceleration 0 0 200 0 S 10 y Time C21 C22 torque acceleration time turning moment deceleration torque control mode and effective Torque acceleration time torque accelerated from 0 to 300 hours Torque speed torque from 300 down to 0 C23 Low Speed Excitation 0 100 30 Y Under low speed compensate excitation quantity increase torque feature in case of meeting the requirement try to make it lower could reduce the motor heating up caused by magnetic path full C24 Current Loop Ti 0 9999 ms 500 Y Define the current loop integral time When integral time is too long response is inactive the ability to control ex ternal jamming becomes weak When integral time is short response is fast if too short vibration will occur C25 Current Loop P 0 1000 100 Y Define current loop proportion gain When select big gain response fast but too big will occur vibration When se lect low gain response lag Frequency inv
21. maximum pulse output frequency 50 KHz minimum frequency 1hz for example SPA pulse output options 2 Actual frequency Frequency inverter FA 1L FA 3H User Manual v 1 0 0 59 domestic and industrial automation spa pulse output options 10 SPB pulse output ratio 20 The actual output pulse frequency actual current percentage 200 50hz 20 The actual output pulse frequency actual frequency maximum frequency 50hzx10 spa pulse output options 3 Actual current Value Output Output Signal Range Definition 0 No action No output 1 Set frequency O Max frequency 2 Actual frequency O Max frequency 3 AUGER 0 200 corresponding parameter S03 output cur rent percentage 0 200 correlation parameter b02 b15 motor 4 Output voltage rated voltage 5 Bus voltage 0 1000V DC voltage 6 IGBT temperature 0 100 0 C 7 Output power 0 200 8 Output torque O Max torque 9 Actual torque value 0 200 torque EN N Boot time 0 Limit time 1 configura 1 Bit SE 065 tion Sune Se 0000 Y 066 Limit time 2 configura zo BIE E Resend 0000 Y tion 100 Bit Reserved 1000 Bit Reserved 1 Bit Timing mode 0 Boot time timing of running and breaking 1 Running timing only timing of running 10 Bit Reserved 100 Bit Reserved 1000 Bit Reserved 067 Limit Time 1 0 0 3200 0 s 2 0 Y 068 Limit Time 2 0 0
22. ting setting 3 Al3 external analog set As per Al3 external analog ting setting j Keyboard potentiometer As per keyboard potenti setting ometer setting 5 Multi segment digital As per multi segment digital voltage setting voltage setting 6 Digital Pulse Setting As per digital pulse setting While the unit digital of C15 C16 is 1 6 the torque up limit of C13 C14 is for checking C15 10 bit Direction Control C16 10 bit Direction Control 0 No control Direction Direction is controlled by terminal or keyboard 1 Control Direction Setting value of forward torque gt setting value of reverse torque forward direction Set ting value of forward torque lt setting value of reverse torque reverse direction C13 upper forward torque setting value percentage C17 torque given gain C14 upper reverse torque setting value percentage C17 torque given gain Such as C15 forward torque setting way 4 keyboard potentiometer setting C16 reverse torque setting way 4 keyboard potentiometer setting Forward reverse both can control direction C15 0x14 C16 0x14 Potentiometer corresponding setting value A48 100 A49 100 Keyboard potentiometer set A47 100 C17 200 0 C13 forward torque up limit 100 200 0 200 0 control direction forward 200 torque Keyboard potentiometer set A47 100 C17 200 0 C14 reverse torque up limit 100 200 0 200 0 control direction reverse 200 torque c18 Speed Torque
23. 0 3200 0 S 0 0 N P11 PID Fant Detected y 10 0 N Value Set P10 to 0 O for N fault inspection When PID feedback signal lt P11 set PID fault inspection value last P10 set time regard it as PID regulation fault P12 PID Display Range 0 00 100 00 1 00 Y A09 PID set value PID set value P12 A10 PID feedback value PID feedback value P12 Frequency inverter FA 1L FA 3H User Manual v 1 0 0 70 domestic and industrial automation If PID feedback 10V corresponding 4 0 MPa pressure if need A09 A10 to display actual value only need to set P12 0 04 Speed loop parameter C00 C31 Factory Change Code Description LCD Setting Range Unit Setting Limited coo Filter Time Of Speed 3 200 S 10 y loop It defines the filter time of the speed loop The range is 0 01 100s If the value is too great the control is stable but response is slow if the value is too little the system response is rapid but perhaps is unstable So it is necessary to consider the stability and the response speed at the same time when setting the value Speed loop Low Speed c01 Ti 0 01 100 00 sS 0 25 Y It defines the integral time of the speed loop low speed The range is 0 01 100 00s If the integral time is too great response is slow and the control of external disturbing signal become bad if the time is too little response
24. 0 0 3200 0 m 2 hour H18 H25 gt 0 0 3200 0 h 3 day H18 H25 gt 0 0 3200 0 d F50 Energy Saving Running 30 100 100 N Percentage This parameter describes the minimum output voltage percentage of energy saving operation In the constant speed operation the inverter can be automatically calculated the best output voltage by the load conditions In the process of acceleration and deceleration is not to make such calculations Power saving function is by lowering the output voltage and improve power factor to achieve the purpose of saving energy this parameter determines the minimum value of reducing of output voltage This parameter is set to 100 then energy saving function will take off When energy saving function in effect Actual output voltage value of inverter The inverter rated output vol tage The percentage of output voltage output voltage percentage of energy saving operation Frequency inverter FA 1L FA 3H User Manual v 1 0 0 29 domestic and industrial automation output voltatge V 100 frequency Hz Frequency inverter FA 1L FA 3H User Manual v 1 0 0 30 domestic and industrial automation User Function Group A00 A55 Code Description LCD Setting Range Unit ae taa A00 Monitor 1 Parameter group Parameter number 2 OBOO T A01 Monitor 2 XX XX OBO1 T A02 Monitor 3 00 0B 00 63 0x00 0x3F 0B02 T
25. 100 100 50 Example 2 y 100 eer ge Y2 50 Y1 0 AI1 AI2 A13 80 100 10V X2 50 X Y F Fmax Y Hz 0 0 0 20 0 0 35 25 12 5 50 50 25 100 50 25 Example 3 Frequency inverter FA 1L FA 3H User Manual v 1 0 0 41 domestic and industrial automation X1 0 X2 50 100 D X y F Fmax SV Hz 0 20 10 25 35 17 5 50 50 125 75 50 25 100 50 25 Example 4 y 100 preia cee Seier X2 Y2 Y2 100 X2 100 50 100 X 5V 10V AI1 A1I2 AI3 Y1 100 X Y F Fmax Y K Ka Hz 0 100 50 25 50 25 50 0 0 75 50 50 100 100 100 Skipping thread of Al1 Al2 Al3 respectively are JP3 JP5 JP6 JP7 seeing the following detailed specification 012 Al1 Input Filter Time 0 00 2 00 s 0 1 Y Frequency inverter FA 1L FA 3H User Manual v 1 0 0 42 domestic and industrial automation 013 Al2 Input Filter Time 0 00 2 00 S 0 1 Y 014 AI3 Input Filter Time 0 00 2 00 S 0 1 Y Filter time constant of analog signal input that is 0 00 2 00s If time parameter is set too long the changement of setting frequency will be stable but responding speed will be slow If time parameter is set too short the changement of setting frequency will not be stable but responding speed will be quick
26. 5 5kW 32 4 0 FA 3H075 20A 16A 7 5kW 40 4 0 FA 3H110 28A 25A 11kW 63 6 0 Control Circuit Terminals Take special attention to the separation of the control circuit of the power circuit Random combination of the two circuits may cause electric service and or dam age to the drive Give attention to the maximum allowable voltage which may be applied to the inputs of the inverter control and maximum load controller outputs Exceeding these values may damage the drive For external control of frequency inverter an isolation device should be used for the control lines or screened cable should be used o gt E A screened cable should be used as the signal connection line for input command and must be routed separately as well and it had better be installed far from the main circuit app gt Frequency inverter FA 1L FA 3H User Manual v 1 0 0 domestic and industrial automation TC TBI COM SPA DIS DI3 DII COM PLC 24V 10V GND Pic 6 The control circuit terminal block Terminal Function Description DI1 DI Input Terminal DI2 D2 Input Terminal Multi functions input terminal For details Please read 036 046 DIZ DI3 Input Terminal Enter a valid polarity can be controlled by 047 DI1 DI4 Drive model can be controlled by JP4 DI5 DI6 Drive model can be controlled by PLC output terminal SS D14 Input Terminal DI6 can be set as digital pulse input o
27. Bit Stochastic adjustment mode 0 automatic adjustment fixed mode Load current gt 80 Carrier frequency F16 F17 Load current lt 60 Carrier frequency F16 F17 1 automatic adjustment random mode Load current gt 80 Carrier frequency F16 F17 F16 Load current lt 60 Carrier frequency F16 F16 F17 Asynchronous space vector PWM 0 F19 Waveform Generation Steeples amp subsection synchronous space 1 o N Mode vector PWM two phase optimization space vector PWM 2 S Curve Start Time At 0 0 rae The Acceleration Step TSON 50 0 s oy T F21 S Curve Stop Time At 0 0 50 0 0 0 0 0 T Frequency inverter FA 1L FA 3H User Manual v 1 0 0 22 domestic and industrial automation The Acceleration Atep 50 0 S Curve Start Time At 0 0 bee The Deceleration Step EH 50 0 A SS T S Curve Stop Time At e 0 0 The Deceleration Step one 50 0 A oe 1 Such as setting the S curve acceleration and deceleration acceleration and deceleration time from OHz to the maximum frequency is calculated as follows Plus acceleration S characteristic time F09 F20 Constant extra acceleration S characteristic time F09 F09 F20 F09 F21 Minus acceleration S characteristic time F09 F21 Full acceleration time F09 Acceleration time Velocity S addition and subtraction characteristic time F10 F22 Constant deceleration S characteristics time
28. Control Speed control 0 o y Shift Torque control 1 FOO control method is to s select senseless vector control or sensor feedback close loop vector control can change speed or torque control through input terminal After setting IP terminal change keyboard set invalid only for query keyboard or RS485 setting AI1 external analog setting Al2 external analog setting 1 bit Al3 external analog setting Keyboard potentiometer setting Multi segment digital voltage setting Digital Pulse Setting C19 Unit bit setting SOO Setting Frequency Upper speed Setting id mode 0000 Y 10 bit FPLOID MB WINM R oO C20 Reverse Speed Limit 0 Maximum Frequency Hz 50 Y While torque control setting upper speed Frequency inverter FA 1L FA 3H User Manual v 1 0 0 73 domestic and industrial automation C19 1 bit Separate setting mode keyboard or RS485 set 0 As per C20 setting ting i AI1 external analog set As per All external analog ting setting j Al2 external analog set As per Al2 external analog ting setting 3 Al3 external analog set As per Al3 external analog ting setting Keyboard potentiometer As per keyboard potenti setting ometer setting 5 Multi step digital voltage As per Multi step digital setting voltage setting 6 Digital Pulse Setting As per Digital Pulse Setting
29. D NE Ti i 1 i i atl H 3 dt2 CLI dt3 time H 1 ap E ae Definition of multi step speed acceleration deceleration time at1 1 Step acceleration time at2 2 Step acceleration time Frequency inverter FA 1L FA 3H User Manual v 1 0 0 65 domestic and industrial automation dt2 2 Step deceleration time dt3 3 Step deceleration time 1 Step Speed Configu 1 bit Running direction forward 0 ration Word Running direction reverse 1 2 Step Speed Configu Running time seconds 0 aio ration Word 10 bit BEE tim minutes 1 i g t z 3 Step Speed Configu Running time hours 2 H41 e z 0000 Y ration Word Running time days 3 H42 r 0000 Y H43 4 Step Speed Configu Acceleration time seconds 0 0000 y ration Word _ Acceleration time minutes 1 H44 100 bit A 0000 Y H45 5 Step Speed Configu Acceleration time hours 2 0000 y ration Word Acceleration time days 3 H46 0000 Y 6 Step Speed Configu Deceleration time seconds 0 ration Word 1000 Deceleration time minutes 1 7 Step Speed Configu bit Deceleration time hours 2 ration Word Deceleration time days H47 Digital reference level 100 0 100 0 0 0 T Step 0 Hag Digital el evel 100 0 100 0 10 0 T Hag Digital GE evel 2000 1000 200 T ven Detd ee level 2000 1000 300 T Digital refi level neu E Dese ev
30. F10 F10 F22 F10 F23 And reduction rate of S characteristic time F10 F23 All deceleration time F10 deceleration time KR 1 12 35 l Fr GJ 2 t F09 l on F24 V F Control Slip Com slip compensation invalid 0 o N pensation slip compensation valid 1 Valid only under V F control mode 0 Slip compensation function is invalid 1 Slip compensation function is valid Slip compensation value adjusted by the following parameters to ensure stable speed under load fluctuations and heavy load C09 Low Slip Gain C10 Low Slip switching frequency C11 High Speed Slip Gain Slip C12 high speed switching frequency Minimum Running Frequency F25 0 00 maximum frequency Hz 0 00 N The set frequency lower than the minimum running frequency the converter will stop that is when the set fre quency is less than the minimum running frequency are determined that the set frequency is 0 set frequency D set frequency lower limit Minimum frequency frequency Minimum lower limit frequency frequency H Time b b actual frequency i Gan p Minimum i i lower limit frequency d gt frequency i i Minimum lower limit EECH S frequency frequency i i i i E E Time Time Minimum frequency lt lower frequency Minimum frequency gt lower frequency Frequency inverter FA 1L FA 3H User Manual v 1 0 0 23 domestic and industrial automation
31. H07 Speed Step 5x Hz 15 00 Y H08 Speed Step 6x Hz 18 00 Y H09 Speed Step 7x Hz 21 00 Y H10 Speed Step 8x Lower frequency upper frequency Hz 24 00 Y H11 Speed Step 9x Hz 27 00 Y H12 Speed Step 10x Hz 30 00 Y H13 Speed Step 11x Hz 33 00 Y H14 Speed Step 12x Hz 36 00 Y H15 Speed Step 13x Hz 39 00 Y H16 Speed Step 14x Hz 42 00 Y H17 Speed Step 15x Hz 45 00 Y Set the frequency of program running and the running frequency of 7 segment speed respectively Short circuit the multi terminal command 1 2 3 4 with COM combinatorial to realize the 16 segment speed acceleration speed Frequency inverter FA 1L FA 3H User Manual v 1 0 0 63 domestic and industrial automation Ox speed is the regular running mode setting source can be adjusted by F02 F03 and other parameters running time is controlled by the H18 Terminal multi segment speed is defined as follows shorted with COM it is ON disconnected then it is OFF Speed Ox 1x 2x 3x 4x 5x 6x 7x Terminal Bit 1 OFF ON OFF ON OFF ON OFF ON Bit 2 OFF OFF ON ON OFF OFF ON ON Bit 3 OFF OFF OFF OFF ON ON ON ON Bit 4 OFF OFF OFF OFF OFF OFF OFF OFF l Speed ax ox 10x Us 12x 13x 14x 15x Terminal Bit 1 OFF ON OFF ON OFF ON OFF ON Bit 2 OFF OFF ON ON OFF OFF ON
32. Hz 0 00 Y F42 a PER 2 UD 0 00 Maximum frequency Hz 0 00 Y During running to skip resonance produced by the immanent resonance point in the machine systems skip mode can do this At most three resonance points could be set to skip output frequency EE EE upper skip frequency 1 Skip frequency 1 EE Ee E lower skip frequency 1 SE upper skip frequency 2 skip frequency 2 J GEET oo t lh lower skip frequency 2 aggies upper skip frequency 3 skip frequency 3 bessie GE ees E lower skip frequency 3 _ frequency setting signal Upper skip frequency and lower skip frequency define skip frequency range In the acceleration and deceleration process inverter output frequency can normally through skip frequency area F43 Preset Frequency 0 00 Maximum frequency Hz 0 00 Y Preset Frequency F44 Working Tiie 0 0 60 0 s s 0 0 Y After inverter startup it firstly run with preset frequency running time is preset frequency time and then it will run with given frequency Jog run will not be effective by preset frequency Direction command Forward command FWD let motor 1 bit 0 forward running 10 bit Forward command FWD let motor 1 reverse running Motor Running Direc Command prior F4 100 N S tion terminal keyboard 0 100 bit Analog given positive and negative 1 values Revers
33. Keyboard Set Signal 0 100 50 Y When PO3 is O the setting pressure set by the keyboard 0 0 100 0 is 0 to the maximum pressure respectively POS PID integral time 0 002 10 000 s 0 250 Y The PID integral time determines the integral regulation speed the regulation acts on the difference between PID feedback and setting value by PID regulator When the difference between PID feedback and setting value is 100 integral regulator PID regulator output P01 F12 12 5 Hz single direction PID regulation ignores proportion and differential effect If the value is great the control is stable but response is slow If the value is little the system response is rapid but perhaps surge occurs Frequency inverter FA 1L FA 3H User Manual v 1 0 0 69 domestic and industrial automation difference time operation value eee ime P06 PID Differential Time 0 000 10 000 S 0 000 Y The parameter determines the regulation intensity the regulation acts on the change ratio of the difference be tween PID feedback and setting value by PID regulator When the change ratio of the difference between PID feedback and setting value is 100 in the differential time PID regulator regulates output to P01 F12 12 5 Hz single direction PID regulation ignores proportion and integral effect If the value is great the greater the intensity is the system surge is to occur mor
34. When motor Stop the operating frequency decelerate according to deceleration time down to OHz upper limit frequency lower limit frequency 0 100 frequency set signal F15 Basic Frequency 5 00 Maximum frequency Hz 50 00 N Corresponding to different fundamental frequency of the motor select this function The basic V F characteristic curve is as below i i aa base maximum Fout frequency frequency F16 Carrier Frequency 1 0 16 0 KHz 8 Y Frequency inverter FA 1L FA 3H User Manual v 1 0 0 21 domestic and industrial automation This function is chiefly used to improve the possible noise and vibration during the operation of frequency con verter When carrier frequency is higher the output current has better wave the torque is great at lower fre quency and the motor produces light noise So it is very suitable for use in the applications where great torque is output at low frequency quietly But in these applications the damage to the switches of main components and the heat generated by the inverter are great the efficiency is decreased and the output capacity is reduced At the same time more serious radio interference is resulted and special attention must be paid for application where very low EMI is needed and filter option can be used if necessary Another problem for application of high carrier frequency is the increase of capacitance leakage curren
35. actual running time decided by the tens digit of H40 H46 Please refer to H40 H46 H26 1 Step Acceleration 0 0 3200 0 e 100 Y Time at H27 1 Step Deceleration 0 0 3200 0 e 100 Y Time dt H28 2 Step Acceleration 0 0 3200 0 e 100 Y Time at H29 2 Step Deceleration 0 0 3200 0 e 100 Y Time dt H30 3 Step Acceleration 0 0 3200 0 e 100 Y Time at H31 3 Step Deceleration 0 0 3200 0 s 10 0 Y Time dt H22 4 Step Acceleration 0 0 3200 0 S 10 0 Y Time at H323 4 Step Deceleration 0 0 3200 0 s 10 0 Y Time dt H34 5 Step Acceleration 0 0 3200 0 s 10 0 Y Time ats H35 5 Step Deceleration 0 0 3200 0 s 10 0 Y Time dt H36 6 Step Acceleration 0 0 3200 0 s 10 0 Y Time ats H37 6 Step Deceleration 0 0 3200 0 s 10 0 Y Time dt H38 7 Step Acceleration 0 0 3200 0 e 100 Y Time at H39 7 Step Deceleration 0 0 3200 0 e 100 T Time dt Remark Set the Acc Dec time of 7 steps respectively They determine the time needed to reach the speed respectively depending on the acceleration time for acceleration or on the deceleration time for deceleration but the time is not the actual time needed Actual acc dec time equals to the set acc dec time multiples a time multiple which is decided by the hundreds and thousands digit of H40 H46 Please refer to H40 H46 Definite acceleration and deceleration time for multi step speed output frequency 1 BX hel 1X i 3K Tr ii
36. by the main terminal Jog end mode Stop Running 0 10 bit Jog end mode reset to the former 1 state before jog Jog end and acceleration decelera tion time reset to the set accelera f 0 tion and deceleration time before 100 bit jog Jog end and acceleration decelera tion time save the set acceleration 1 and deceleration time before jog F36 Jog Frequency Setting Lower frequency upper frequency Hz 6 00 Y Fmax kzl ea running time Linear Acceleration Jog acceleration deceleration time configuration defines the same section of acceleration deceleration time The direction of jog is set by the unit bit of F35 when the Jog command does not contain the direction of jog the direction of job will run as to the unit bit designated by F35 It is set to 2 the direction of jog is run by the ter minal or current direction The running status after jogging is identified by F35 Frequency inverter FA 1L FA 3H User Manual v 1 0 0 25 domestic and industrial automation Whether jog acceleration deceleration time is maintained through the confirmation on hundred bit of F35 after jogging F37 Skip Frequency 1 Limit 0 00 Maximum frequency Hz 0 00 Y F38 a ES 0 00 Maximum frequency Hz 0 00 Y F39 Skip Frequency 2 Limit 0 00 Maximum frequency Hz 0 00 Y F40 le g up 0 00 Maximum frequency Hz 0 00 Y F41 Skip Frequency 3 Limit 0 00 Maximum frequency
37. choosing menu inverter will be reverse running 5 MF is defined as forward JOG function key Pressing MF key is valid under monitor menu and parameter choosing menu inverter will be forward JOG running 6 MF is defined as reverse JOG function key Pressing MF key is valid under monitor menu and parameter choosing menu inverter will be reverse JOG run ning 7 MF is defined as JOG function key Pressing MF key is valid under monitor menu and parameter choosing menu inverter will be JOG running Running direction decided by F35 bit setting and terminal state 8 MF is defined as UP function key Pressing MF is always valid inverter will be UP control control parameter decided by A38 A42 9 MF is defined as Down function key Pressing MF is always valid inverter will be DOWN control control parameter decided by A38 A42 10 MF is defined as the UP DN adjusted value reset A40 UP DN adjusted value reset level triggered 11 MF is defined as the setting value of potentiometer on the keyboard A47 keyboard potentiometer setting is reset level triggered Keyboard potentiome A4 j ter X 0 0 100 0 0 0 Y Keyboard potentiome Aab ter X 0 0 100 0 100 0 Y The Value Of Key A47 board Potentiometer 0 0 100 0 Y Set Displaying value potentiometer set which can be revised by potentiometer under monitor menu Value potentiometer set can be regarded as analog of frequency giving s
38. driving multiple motors occasions suitable for the inverter as a variable frequency power supplies 1 Sensor less vector control High performance speed sensor less vector control need to set the appropriate electrical parameters or the motor parameter tuning truly achieved the decoupled AC motor so that operational control of DC Frequency inverter FA 1L FA 3H User Manual v 1 0 0 16 domestic and industrial automation motors Keyboard Setting Fre quency F01 Lower frequency upper frequency Hz 50 Y The keyboard for a given operating frequency it can be any frequency between lower frequency and upper fre quency FO2 FO3setting to 0 involved in setting frequency calculation Keyboard setting frequency or RS485 Ali the external analog setting Al2 the external analog setting Al3 the external analog setting Keyboard potentiometer setting Multi segment digital voltage setting Digital Pulse Setting Frequency Main Set FOZ Mode DIM HR WIN rR oO 1 CH lt The main mode of the frequency running frequency 0 keyboard setting frequency or RS485 change F01 keyboard setting frequency Multi digital voltage terminal effective exchange change FO1keyboard setting value 1 Al1 the external analog setting Given the external analog 0 10V 10V 10V 0 20mA For detail please read the o group parameter 2 Al2 the external analog setting 3 Al3
39. motor dedicated shielded motor cables a gt gt Pee GEES R L1 S L2 T L3 DC 1DC 2 B2 U T1 V T2 W T3 E B1 Pic 5 Terminal block to connect the power circuit Terminal Function Description R L1 Connected to 3 phase power Single input connected to R T S L2 Power input for fre quency inverter Particular attention should be given to the differ VP ence between the one phase inverters 230V and 400V 3 phase Connection of 3 phase 400V for 1 phase inverter can cause serious damage C ti int fi B1 B2 S e pon S Connect brake resistance braking resistance DC 2 DC DC Bus output Connect the brake unit DC t ti DC 1 DC 2 ae eal Connect DC reactance No short circuit Frequency inverter FA 1L FA 3H User Manual v 1 0 0 domestic and industrial automation U T1 V T2 3 Phase Output Connected to 3 phase motor W T3 z I Gurt ereundinewelnt i Earthling terminal E or must be grounded to the earth securely Specification of MCCB and electric cable Input Output Motor Ca Power s MCCB Type Current Current pacity Cable A A kw A mm FA 1L007 9 4 0 75kW 16 2 5 FA 1L015 17 5 7 1 5kW 25 2 5 FA 1L022 24 10 2 2kW 40 4 0 FA 1L040 36 16 4 0kW 63 6 0 FA 3H007 3 3 2 5 0 75kW 10 1 5 FA 3H015 5 3 7 1 5kW 10 1 5 FA 3H022 7A 5A 2 2kW 16 2 5 FA 3H040 11A 8 5A 4 0kwW 25 2 5 FA 3H055 16 5A 13A
40. or not confirm 34 FWD JOG command JOG forward running command 35 REV JOG command JOG reverse running command Se JOG command as F35 JOG running command direction set a direc setting tion in accordance with F35 Acceleration and dece Ir S To maintain the current state to prohibit the 37 leration forbid com acceleration and deceleration movements mand Motor 1 2 change 38 Motor 1 2 shift Invalid status Motor 1 Valid status Motor 2 Free stop After free stop no start command 39 Free stop after 1s allows running again 40 Up command Up order detail A38 A42 41 Down command Down order detail A38 A42 Auto run feature pro 42 Cancel program running function grams canceled 43 Automatic procedures Program running pause Frequency inverter FA 1L FA 3H User Manual v 1 0 0 54 domestic and industrial automation to suspend operation 44 program running start mode program running start mode 45 program running stop mode program running stop mode 46 pulse count clearance Edge triggered frequency inverter pulse coun tero53Clearance 47 pulse count input Edge triggered set the pulse counter input terminal 48 before count loading Edge triggered pulse load preset counter o53counts to 054 49 upper count loading Edge triggered pulse counter counts ob maxi mum load 053 50 External default signal input level External d
41. parameter 056 bits allow attach virtual input terminals corresponding to the actual input inverter 29 94 99929 9 29 9 9 9 98 9 932 91 2 shafishi2 i fro o s 7 6 s5 4 3 2 1 o 04 DI 03 DI2 02 DI3 01 DI4 leave unuse DIS Al3 DIG Al2 DI7 Alt DIS Setting Virtual terminal valid choose 0 Actual input terminal valid 1 Virtual input terminal valid 057 Dl1 Dl4 Terminal Status 0000 1111 Y 058 DIS DI8 Terminal Status 0000 1111 Y 059 AI1 AI3 Terminal Status 000 111 Y 060 01 04 Terminal Status 0000 1111 Y Make the actual terminal can only be effective check terminal state Make the Virtual terminal can only be effective through register check terminal state No action 0 Set frequency 1 Actual frequency 2 Actual current 3 061 PL1 Pulse Output Output voltage 4 0 Y 062 PL2 Pulse Output DC bus voltage 5 0 Y IGBT temperature 6 Output power 7 Output rpm 8 Actual torque 9 063 SPA pulse output ratio 1 1000 1 Y 064 SPB pulse output ratio 1 1000 1 Y SPA SPB provide two isolated pulse output signal can be analogical multiple analog output signals SPA SPB provide high speed pulse output function Set by 061 064 and set functions valid when inverter power on again SPA corresponding output signal 1 this function selected 021 DO1 output action is invalid SPB corresponding output signal 2 this function selected 022 DO2 output action is invalid Pulse output ratio 1 output signal range 0 50hz
42. rent Frequency inverter FA 1L FA 3H User Manual v 1 0 0 76 domestic and industrial automation Motor 2 Stator Resis b19 Otor AOF RESIS 9 000 30 000 Q T tance Motor 2 Rotator Resis b20 TTT TTT nesis 0 000 30 000 Q T tance b21 Motor 2 Stator Induc 0 0 3200 0 at e T tance b22 Motor 2 Mutual Induc 0 0 3200 0 on A T tance The 2nd group motor parameters can be set by system The definition is same with group 1 System parameter y00 y17 Factory Change Code Description LCD Setting Range Unit Settin Li g mited No action Reset system parameter with keyboard sto rage1 Reset system parameter with keyboard storage Reset System Parame 2 yoo 7 0 N ter Reset system parameter with keyboard storage 3 Reset system parameter with keyboard storage 4 Reset system parameter with factory set value 0 No action 1 Reset system parameter with keyboard storage 1 2 Reset system parameter with keyboard storage 2 3 Reset system parameter with keyboard storage 3 4 Reset system parameter with keyboard storage 4 5 Reset system parameter with factory set value When this parameter set valid all the function parameter reset to factory setting The parameters without factory setting will save the previous setting value Parameter Upload To No action Reset system parameter with keyboard memory areal
43. 0 F22 and F23 During starting the low frequency E OC 7 Modify FO6 setting jitter over current Over current during operation Check the load change and eliminate it Over current during starting or Check if there is slight short circuit or groun operation sometime ding Check the earthling wire screened cable groun Disturbance ding and terminals Lower the load Or enlarge b04 b14 in the al Too much load lowable load range or enlarge A24 to raise the Over load thermal protection level E OL Inappropriate parameter is set Modify b04 b14 in case of the motor over load allowed Over voltage Power voltage exceeds the limit Check voltage is right or not Frequency inverter rated voltage setting is Y or N E OU Too fast deceleration Modify F10 f Reduce the load inertia or raise the capacity of The load has too much inertia frequency converter or add a braking resistor Checking voltage is normal or not Low voltage E LU Too low power voltage Frequency inverter rated voltage setting is Y or N Frequency inverter FA 1L FA 3H User Manual v 1 0 0 81 domestic and industrial automation Power off transiently Add options of capacitor boxes lines The line has too small capacity or great rush current exists on the Make renovation on power supply system Over heat E OHt Too high ambient temperature Improve ambient
44. 000s If the time is great enough the surge which is caused by P action when difference occurring can attenuate quickly But too great the surge will happen contrary When the time is little the attenuation function is little too Speed Loop High or Speed P 0 150 75 Y It defines the proportion gain of speed loop high speed section range from 0 1000 Gain is large response speed but too large gain will occur vibration if the gain is small the reaction lags Speed Loop And High cos speed Switching Fre C04 Max frequency Hz 30 00 Y quency It defines Integral time of speed loop high speed the parameter and switching frequency at low speed optimize the speed loop PID parameter co9 Low speed Slip Gain O 200 100 Y Frequency inverter FA 1L FA 3H User Manual v 1 0 0 71 domestic and industrial automation Low speed segment slip compensation gain c10 Low Speed Slip Switch 0 c12 Hz 5 00 ing Frequency Low speed segment slip compensation switching frequency C11 High Speed Slip Gain 0 200 100 High speed segment slip compensation gain c12 HIE SPECIE E TEE Hz 30 00 Switching Frequency High speed segment slip compensation switching frequency c13 Upper Froward Torque 0 0 300 0 250 0 The parameter is a ratio setting value is 100
45. 2 ter will take effect again Relay Output max 250VAC 5A or 24VDC 5A Le EREERS TA1 TC1 open TB1 TC1close the output function can set by 023 JP1 1 2 0 20mA 2 DA1 Multifunction Analog JP1 2 3 0 10VDC 2 Output Signal 1 015 set analog output analog functions 6 017 018 set the output signal arrange E JP2 1 2 0 20mA 5 ve Multifunction Analog JP2 2 3 0 10VDC Output Signal 2 016 Set analog output analog functions 019 020 set the output signal arrange Frequency inverter FA 1L FA 3H User Manual v 1 0 0 11 domestic and industrial automation Part 4 Operating Keyboard Operating keyboard specification and function description Reverse Indication Light ONE Peverse indication OFFE not reverse indication FLASHE Peverse acceleratin Data Unit Prompt Light composed of three indication lights tocated on the right side of the LED digital tube Display status corresponding to the six units indicate the unit of the parameters displayed by LEDj the correspondence is as following Unir UNIT UNIT re ECH EZ je k el ra Oe Fa Dic Fa Mic ta Oe bol Lol tol el NO UNITS Hz A Alarm Indication Light ONE faulty OFF good FLASHE previous fault was not Monitor Select 1 Numerical Display display the corresponding values of the function under query status display fault code under fault condition display the object set byA00 monitor select while running Forw
46. 20mA 2 way analog output Can achieve output range 0 10V O 20mA Virtual terminal func Can be set to a virtual terminal using communication or keyboard IO tion port and with the IO port status display In 6 main ways to 7 kinds of auxiliary to the way of the keyboard Frequency set ae three way analog input pulse input digital potentiometers Keyboard cable 8 core cable in line with EIA T568A EIA T568B standards Supports dual keyboard synchronous control independently of Double keyboard port each other MF1 MF2 can be customized as addition and subtraction forward Double and multi i i i Keyboard reverse forward jog and reverse jog emergency stop rise and fall and other 9 kinds of ways 4 parameter storages Control panel can be realized four groups of inverter parameters of upload download with manufacturer password to reset factory setting Running info At most display 3 monitoring parameters Select by A00 A01 A02 Fault info Store 5 groups error messages at most you can check the type of failure time when failure occurs set frequency output frequency Frequency inverter FA 1L FA 3H User Manual v 1 0 0 84 domestic and industrial automation output voltage output current running state running time IGBT temperature Rs485 port and an optional keyboard completely isolated RS485 Commu Doub
47. 5 No condensation ment 0 2000 meters 1000 meters above derating use increased by 100 Height vibration m rated input decreased Application location Mounted vertically inside the control cabinet with good ventilation do not allow the level or other installation method The cooling Frequency inverter FA 1L FA 3H User Manual v 1 0 0 85 domestic and industrial automation medium is air Installed in the absence of direct sunlight N dust N corrosive and explosive gas N oil mist N steam N drip environment Cooling method Forced air cooling and natural air cooling Frequency inverter FA 1L FA 3H User Manual v 1 0 0 86 domestic and industrial automation Types table Input Input Output Output Load Type Voltage Current Voltage Current Pict V A V A kW FA 1L007 1x230V 9A 3x230V 4A 0 75kW Pict 9 FA 1L015 1x230V 17 5A 3x230V 7A 1 5kW Pict 9 FA 1L022 1x230V 24A 3x230V 10A 2 2kW Pict 10 FA 1L040 1x230V 36A 3x230V 16A 4 0kW Pict 10 FA 3H007 3x400V 3 3A 3x400V 2 5A 0 75kW Pict 9 FA 3H015 3x400V 5A 3x400V 3 7A 1 5kW Pict 9 FA 3H022 3x400V 7A 3x400V 5A 2 2kW Pict 9 FA 3H040 3x400V 11A 3x400V 8 5A 4 0kW Pict 8 FA 3H055 3x400V 16 5A 3x400V 13A 5 5kW Pict 10 FA 3H075 3x400V 20A 3x400V 16A 7 5kW Pict 11 FA 3H110 3x400V 28A 3x400V 25A 11kW Pict 11 Assembly Drawings 120 Pict 9 1 phase inverter to 1 5
48. 5 1 F05 3 F05 4 Command FWD REV STOP Falling edge Low e level Low e level FWD running Falling edge High e level Low e level REV running X X High e level STOP running 3 Three wire running control 2 F05 1 F05 3 F05 4 Command FWD REV STOP Falling edge X Low e level FWD running X Falling edge Low e level REV running X X High e level STOP running 4 One shot operation control 1 Fwb STOP FL Ss REV stop UI o 1 REV COM FO5 1 F05 4 F05 3 Command Current state Frequency inverter FA 1L FA 3H User Manual v 1 0 0 49 domestic and industrial automation We X FWD running STOP running Keep Ta REV running STOP running HL X STOP running FWD running Keep FL REV running FWD running WL X FWD running REV running Keep Ta STOP running REV running 5 One shot operation control 2 RUN STOP L eqr FWD REV eo REV COM FO5 1 F05 4 FO5 3 Command Current state FWD REV TFL Low e level FWD running STOP running Ta High e level REV running STOP running LFL X STOP running FWD running FL X STOP running REV running not be allowable 10 bit Set the terminal status when power on 0 Terminal run command invalid when Power on Terminal run command invalid when Power on Only run 3s later after power on and set terminals invalid 1 Terminal run command valid w
49. C D N 3 DIS DIS Input Terminal E DI6 DI6 Input Terminal PLC Control DI5 DI6 Drive model de PEE Connie Ponmine Drain Drive PLCconnect 24VDC or external lower Source Drive PLC connect COM The biggest output 24V 200mA COM Common terminal A Cannot connect COM with GND in any situ ation The biggest output 10V 50mA EENS Analog POW A Cannot connect COM with GND in any situ ation Frequency inverter FA 1L FA 3H User Manual v 1 0 0 10 domestic and industrial automation JP5 cut JP3 1 2 10V 10V JP5 cut JP3 2 3 0 10V Au Multifunction Analog JP5 connect 0 20mA can be regulated Input Signal 1 000 001 Set the input voltage current range 006 007 Set the input signal corresponding to set value JP6 cut 0 10V Multifunction Analog JP6 connect oul can be regulated Al2 Input Signal 2 002 003 can set input voltage current arrange 008 009 set the input signal corresponding to set value JP7 cut 0 10V gt JP7 connect 0 20mA can be regulated Multifunction Analog g Al3 Input Signal 3 004 005 can set input voltage current arrange 010 011 set the input signal corresponding to set value Open Collector signal when the output action 24VDC 50mA SPA COM Output Signal 1 Common terminal COM the output function can set _ by 021 022 7 wn E SPA SPB provide hi speed pulse output fun ction 3 SPB COM Output Signal 2 After setting functions by 061 064 Frequency inver
50. Group parameter protection Monitor Function S00 S15 Code Function Description Unit Fact akas Setti Fre soo ia e Current inverter real setting frequency Hz N quency S01 Real Frequency Current inverter real output frequency Hz N Mot Cur S02 nad er Valid value of motor actual current A N P t f S03 Se The percentage of actual motor current and rated current Motor Current S04 DC Bus Voltage Detection value of DC bus voltage V N The Output s05 Voltage The real output voltage V N Frequency inverter FA 1L FA 3H User Manual v 1 0 0 15 domestic and industrial automation Motor Real F obr S06 Speed Motor real running speed S N Under running the real speed of the motor 60 the real output frequency Gain Speed surveillance pole of the motor Example the real output frequency 50 00Hz Gain Speed surveillance A35 100 0 the pole of the motor b03 b16 2 the real speed of the motor 1500rpm When stop based Residual voltage test motor speed renew speed 500ms The real speed 60 residual frequency Gain Speed surveillance the pole of the motor Max display of motor real speed 9999rpm Total Running hour S07 The total running time for every time N Time day When the output the frequency inverter calculated the running time Total running time can be cleared up automatically with A33 selecting reboot or continue accumu lation af
51. MF is defined as reverse JOG function key 6 A44 1 Y And MF2 MF is defined as JOG function key 7 MF is defined as UP function key 8 MF is defined as Down function key 9 UP DN adjusted value reset 10 keyboard potentiometer 11 setting value reset The user defined keyboard can define MF key functions 0 MF is defined as adding function key Under monitor menu adding function key MF can adding revise frequency F01 set Under parameter choosing menu adding function key MF can adjust parameter choice Under parameter revising menu adding function key MF can adjust parameter value MF is defined as reducing function key Under monitor menu reducing function key MFcan reducing revise frequency F01 set Under parameter choosing menu reducing function key MF can adjust parameter choice Under parameter revising menu reducing function key MF can adjust parameter value MF is defined as free stopping key MF key is valid under monitor menu and select parameter menu inverter will be free stopping After free stop no start command 1s later allow running again 3 MF is defined as FWD running key Pressing MF key is valid under monitor menu and parameter choosing menu inverter will be forward running 1 2 Frequency inverter FA 1L FA 3H User Manual v 1 0 0 38 domestic and industrial automation 4 MF is defined as REV running key Pressing MF key is valid under monitor menu and parameter
52. Part 5 Fault Diagnosis amp Solutions Problems and solutions error codes Problems Possible causes Solutions Running control mode setting is Check F05 Keyboard can wrong not control Frequency setting is wrong Check F03 F04 Potentiometer Control mode setting is wrong Check F05 can t regulate speed Frequency setting is wrong Check F03 F04 Press RESET or terminal for fault reset learn LED monitor display fault The motor and fix the fault according to the fault info Does not No voltage in terminals DC 1 and Check the voltage at R S or T and charging cir DC 2 cuit rotate i Check the control mode and frequency parame U V or W terminals produce No ter Check the terminal condition if it is operat Frequency inverter FA 1L FA 3H User Manual v 1 0 0 80 domestic and industrial automation output or abnormal output ed by an external terminal Re start after powering down or free run Remember the set operating state Too much load on the motor Check the load condition and confirm the mod el selection is right Over current Fault display E OCH System is disturbed or instant over current Fault display E OCH Motor over current protect action when motor actual current is 3 times over than the motor rated current Over current during acceleration Reset or adjust FO9 F20 and F21 Over current during deceleration Reset or adjust F1
53. Responding to motor rated output torque Set forward torque mode through C15 In speed control mode it s upper forward torque In torque control mode it s forward torque setting value C14 Upper Reverse Torque 0 0 300 0 250 0 The parameter is a ratio setting value is 100 Set reverse torque mode through C16 In speed control mode it s upper reverse torque In torque control mode it s reverse torque setting value Set by keyboard or RS485 0 AI1 external analogy giving 1 Al2 external analogy giving 2 1 bit Al3 external analogy giving 3 C15 Ge ce ER Keypad potentiometer giving 4 0000 NC Multi step digital voltage giving 5 Digital pulse set 6 10 bit DUE HON uncontrolled 0 Direction controlled 1 Set by keyboard or RS485 0 Alt external analogy 1 Al2 external analogy giving 2 Reversi Tonie Sets 1bit Al3 external analogy giving 3 C16 tihernode Keypad potentiometer giving 4 0000 Multi step digital voltage giving 5 Digital pulse set 6 10 bit EEN uncontrolled 0 Direction controlled 1 C17 Torque Set Gain 0 0 300 0 200 C15 1 bit Setting mode C16 1 bit Setting mode Set by keyboard or RS485 Responding to C13 C14 Alt external analog set ting setting As per Ali external analog Al2 external analog set Frequency inverter FA 1L FA 3H User Manual v 1 0 0 As per Al2 external analog 72 domestic and industrial automation
54. TEE ENEKE 12 Operating keyboard specification and function description ccccessssecececessessseeeeeeeceseessnaeeeeeeseesees 12 Example for parameters SQt ccscten ised ceccaisceneect cde nn a eieae ai a eeni a E E oE a 13 ET Ee ER 15 Monitor Function SOO SIB iii sc ocsceosseseisicnteeiioased seoekeesssbag ease seve stecgebsbeenuveserapavsteoteersieaeehaesenntees 15 Basic function Group FOO F50 iiss ioeie iaee eeraa eo caueudiecsedsbeds taa iE i EEN 16 User FUNCtiON Group AOO ARb c disciseii terrse ta nirEnia tiniee aani eeaeee iesiri iiia di RAE eia tiraia 31 IO function group 000 068 sssisssiiiotasinssmiiosasia sii aiaia eadair 40 Multi speed PLC Group HOO Hab 60 V F Curve Group UOO AU15 68 PID parameter POO P EE 68 Speed loop parameter COOC 71 Motor parameter 000 022 0 3 ics ce sccescte KENNEN sccdsece sucseted avewsesacheswans sccuseae sau stend sccvsseedbe cubes KEEN 75 System parameter YOO wll 77 Part 5 Fault Diagnosis amp Solutions cccessccceeecessesssaececeeecesseasaeceeeescessesaeaeseeeescussesauaeseeesscessesaaeeeeess 80 Problems and SOLUUOMS vsccceccssciscivsaccccssaascctvasccecdesaacceusvanccedetaacecdevesccadesascce esaaccdsecaadedessaccsdeceaccudesaaccedtea 80 Patt O Spe cil Call On ME 82 TYVDES CAD EE 87 Braking Units feste dees dee eee e 89 Frequency inverter FA 1L FA 3H User Manual v 1 0 0 domestic and industrial automation Part 1 Inspection before and after unpacking
55. Warning and running Troubleshooting Warning and decelerating stop Warning and free stopping A31 WINIRJO M BI WIN R oO A32 Delay Inspection Time 1 250 s 10 Y When communication time between interfaces A or B surpassed A32 delay inspection time the system will warn according to A31 setting After power on interface without communication will not implement warning Auto clear to zero after power on 0 Total Running Time 7 A33 Continue to accumulate running time after 1 Y Setting 1 power on Unit Of Total Runnin Hour 0 A34 l p 0 y Time Day 1 The set for unit of accumulation running time only for display of running time 0 Hour display range 0 3200 0 hour 1 Day display range 0 3200 0 day Motor Output Speed Aaa Adjustment 0 1 1000 0 100 0 Y Using for displaying adjustment of motor actual running speed SeeingA00 A02 monitor options 6 motor actual running speed Setting 100 corresponding display unit rpm The max speed of displaying after adjustment is 9999 Adjustment Of Motor A a6 Output Power 0 1 1000 0 100 0 Y Used for displaying motor output power of adjustment Seeing AOO AO2 monitor options 11 motor output power Setting 100 corresponding display unit The max output power of displaying after adjustment is 2999 9 Keyboard Lock Func SS tion Options
56. ance 3phase output surpass A19 Grade of phase lose protection the inverter output phase lose protection will action and the system display fault PH O Output frequency less than 2 00Hz there is no output phase loses protection Phase lost protection grade max current difference between phases which will be according to load condition No torque inspection 0 A20 Over Torque Inspected Warning and running 1 o y Action Warning and decelerating stop 2 Warning and free stopping 3 A21 Over Torque Grade 10 100 130 Y we Yer Torge Spee og end s 0 1 y tion Time Motor output current surpasses value A21 set Over torque inspection will be force and the system will show OL2 fault A23 Electronic Thermal Off 0 0 Y Frequency inverter FA 1L FA 3H User Manual v 1 0 0 33 domestic and industrial automation R i elay Protection Se On 1 lection Ara Electronic Thermal 120 250 120 Y Protection Grade This function is to protect motor overheating when motor does not use thermal relay Inverter using some para meters to calculate motor temperature rise at the same time to determine whether the use of current caused motor overheat When you choose electronic thermal protection function the drive output is shutdown after overheating detected also shows information of protection A24 set the electronic thermal protection level When the current is the
57. ard Indication Light ONE forward indication OFFE not forward indication confirmed Positive And Negative Sign Indication FLASHE forward accelerating Light just for monitor select won Gi ar UNIT UNIT E pel pe fm t 14 l4 Ho ra Mec P Bc e Che Olorr Lo Lg L a Cc Monitor Select 2 Numerical Display E p D D 3 Si 7 S Parameter Setting Shift Key start to change parameter j Functi alue adjustments l ENTER Modification wg GEN have the same function with PRG gt gt refer to explaination of key PRG P gt Invalid in the monitoring state Multi function Key MF 1 MF2 MET define functions through parameter Potentiometer Key ay e under checking state the MF2 define functions through parameter function items value has been in A44 443 A44 0 MF defined as plus function A weier Ee TEN A43 A44 1 MF defined as minus function eegen oe eech A43 A44 2 MF defined as free stop e See ox ance oe mg een OCT MF defined as forward under monitoring setting function frequency to increase or decrease A43 A44 4 MF defined as reverse function e Forward running key A43 A44 5 MF defined as Punctuality Acceleration Select Parameter Quit Key P drive forward running dynamic function Setting Key exit the revisement of A43 A44 6 MF defined as Anti Jog press SET key and rotate JOG key parameter function while selecting parameter the reture
58. c calculation b05 b09 and other elec trical parameters the advantage does not require power on self tuning suitable for general purpose Y series of four pole motor the other type motor can be adjusted based on this parameter 2 Inverter static measurement If the motor parameters cannot be measured without load you can choose static frequency converter mea surement Make sure that motor in a static status after static measurement it can be manually adjusted some parameters optimal control The b11 is set to 2 the inverter automatically start parameter determination Keyboard figures area show RUN waiting to run the command start the measurement Keyboard figures area show CAL1 inverter without output Keyboard figures area show CAL2 inverter with output static state Keyboard figures area show END measuring ends Keyboard figures area show E CAL the measurement process errors Process can be measured through the STOP key to stop 3 Inverter rotation measurement Motor can be measured without load can choose the rotation measurement Measurements started make sure the motor is static Static measurement converter the output DC voltage pays attention to safety The b11 is set to 3 the inverter automatically start parameter determination Keyboard figures show that the regional show RUN waiting to run the command start the mea surement Keyboard figures area show CAL1 CAL3 N output inverter Keyboard figure
59. celeration running 24 Frequency inverter FA 1L FA 3H User Manual v 1 0 0 44 domestic and industrial automation Frequency inverter FA 1L FA 3H Arrival of high pressure 25 Arrival of low pressure 26 Arrival of inverter rate current 27 Arrival of motor rate current 28 Arrival of input frequency lower limita 39 tion Arrival of current upper limitation 30 Arrival of current lower limitation 31 Time to reach limit time 1 32 Time to reach limit time 2 33 Inverter ready to run 34 Value Output Content Specification Explanation Setting O N output reaction but inverter can be controlled by theoretical 0 No function terminal 1 Fault warning Inverter at fault or after fault with unconfirmed status Over current inspec 2 t n Inverter met fault of over current 3 Over load inspection Inverter met fault of over load of heat protection Over voltage inspec 4 tion 6 H Inverter met fault of over voltage Less voltage inspec 5 tion 6 H Inverter met fault of less voltage 6 Low load inspection Inverter met fault of lower load 7 Over heat inspection Inverter met fault of over heat Running state with 8 g Inverter is under running state of command command Abnormal PID feed f 9 PID feedback signal is abnormal back signal Motor state of REW f 10 Motor is reverse running running Arri
60. conditions Cooling fans do not work Check A27 reduce fan starting temperature when there is fan control The carrier frequency is too high Check the setting value of function F16 A After switching off the supply voltage to the inverter internal circuit voltage may still be life threatening To prevent electric shock wait at least 5 minutes after the A Static electricity accumulated in the body can be a major threat to the inverter power is turned off and extinguish the lights on the operator A electronics To avoid the risk of damaging the inverter do not touch your hands A PCBs and electronic components inside the case Part 6 Specification Items Specifications Single phase 200 240V 50 60Hz Voltage and Three phase 380 415V 50 60Hz frequency Power Allowable Fluctuation voltage 15 frequency 5 range Control system high performance vector control inverter based on 32 bit DSP 0 00 800 0Hz maximum frequency can be set between 10 00 and Output frequency 800 0Hz VIE con Sensor less Control control method Sensor close loop vector control trol vector control 0 50Hz Start torque 0 25Hz 180 0 00Hz 180 180 speed adjustable 1 100 1 200 1 2000 Frequency inverter FA 1L FA 3H User Manual v 1 0 0 82 domestic and industrial automation range Speed stabilizing pre cision 0 5 0 2 0 02
61. current 5mA 0 20mA Maximum load impedance250 ohm Frequency inverter FA 1L FA 3H User Manual v 1 0 0 Fak domestic and industrial automation Main Circuit Terminals For wiring of main circuit please refer to national rule Don t connect A C input power to the output terminals U V W of the frequency inverter Don t install power factor capacitance or resistance capacitance absorbing device between the output terminals U V W of the frequency inverter To disassemble or replace the motor the input power supply must be turned off for the frequency inverter Do not drop Metal scrap foam or lint into the frequency inverter otherwise the machine will be faulted The motor or power supply can be switched on off only after the inverter stops its output When the carrier frequency is less than 3kHz the distance between the frequency inverter and motor must not be greater than 50 meters maximum When it is above 4kHz this distance should be reduced The cable for this connection had better be laid in metal conduit In order to prevent unexpected accidents earthling terminal E or must be grounded to the earth securely the grounding resistance should be below 1000 The cable size should be greater than half of below mentioned corresponding cable size otherwise current leakage will happen possibly J gt gt EREE It is recommended to use between the inverter and the
62. cy fauxiliary The relationship between main give and auxiliary given Frequency inverter FA 1L FA 3H User Manual v 1 0 0 18 domestic and industrial automation F04 2 f f f F04 3 f foain fa t aux F04 4 f En Efn t F04 5 Max f f t S ae F04 6 Mini ti t Keyboard RS485 Keyboard terminal RS485 FOS Running Control Mode RS485 Terminal control The proportion linkage control AIWINJ eJO 1 CH lt Stop and running command control mode 0 Keyboard RS485 Control 1 Keyboard Terminal RS485 Control Control terminal edge trigger falling edge of the implementation of the Forward command FWD Reverse command REV rising edge of the implementation of the STOP command 2 RS485 Under this function only free stop function is valid under the keyboard control other operation control is invalid 3 Terminal control Level trigger Under this function only free stop function is valid under the keyboard control other operation control is invalid 4 The proportion linkage control Select this function the slave unit would execute the command from the proportion linkage host unit Select this function can also use keyboard terminal RS485 to control the proportion linkage slave unit to run The proportion of linkage running after stop the proportion linkage slave unit with the keyboard terminal RS485 the slave unit will not
63. d after 10 bit power on running Terminal command is valid after power on running Setting terminal running mode by this parameter 1 Bit Set terminal running mode the terminal is leakage source driving mode X can be used to express high or low electrical level rising or falling edge The polarity of electrical level is 047 default setting polarity Low electrical level or falling edge is valid and Running Control Keyboard Running i 7 ae Prior Running Prior Direction Mode Control Edge Trigger Valid Same Same E level Trigger Invalid Prior running Prior FWD 0 Two wire running control 1 FWD STOP REV STOP FO5 1 or F05 4 FO5 3 Command FWD REV FWD REV Falling edge X Low E Level X FWD running X Falling edge High E level Low E level REV running Rising edge Rising edge High E level High E level STOP running Rising edge Rising edge High E level High E level STOP running 1 Two wire running control 2 RUN STOP FWD REV F05 1 or F05 4 F05 3 Frequency inverter FA 1L FA 3H User Manual v 1 0 0 Command 48 domestic and industrial automation Falling edge Falling edge Low e level Low e level FWD running Falling edge Rising edge Low e level High e level REV running Rising edge X High e level X STOP running 2 Three wire running control 1 F0
64. ds resets y09 Rated Output Current 0 1 1000 0 N y10 Rated Input Voltage 100 1140 N y11 Product Series N y12 Software Version N y13 Product Date Year N y14 Product Date Month Day N y15 User Decode Input 0 9999 Y Frequency inverter FA 1L FA 3H User Manual v 1 0 0 79 domestic and industrial automation In the state of locked parameter LED displays the times of error input There are three input limit if input is wrong in continuous three times the systems will prohibit input of the password It can prevent testing password in an illegal way and need restart the machine to input again Once the input is right in any time during three times input limit the parameter is unlocked y16 User password key in 0 9999 Y The parameter sets the password and the range is 0 9999 After setting the password parameter locks and key board displays code if the password is unlocked or password input is right the keyboard will display deco Set password to 0 reset user password set after re electrify status is decode Corresponding parameter group protection after set vi Parameter Group Pro password l 0000 y tection Set to 0 change is not allowed Set to 1 change is allowed 29 28 97 28 25 94 23 p a af 9 s 7le sl4ls 2 r o F group A group o group H group U group P group E group C group b group y group
65. e 100 0 100 0 40 0 T H52 Dieital pei level 100 0 100 0 500 T ps3 Disital e evel 2000 1000 60 0 T ug Digital deer evel 2000 1000 70 0 T Digital reference may serve a similar level as any analog source which can be used as primary and secondary frequency source the source of the PID feedback signal etc Digital reference level is realized by configuring the number of digital inputs parameters 036 046 for the oper ations of digital reference level function code 11 13 and triggering the inputs Step 0 1 2 3 4 5 6 7 Digital reference level H47 H48 H49 H50 H51 H52 H53 H54 Bit 1 OFF ON OFF ON OFF ON OFF ON Bit 2 OFF OFF ON ON OFF OFF ON ON Bit 3 OFF OFF OFF OFF ON ON ON ON 1 bit Under multi segment program running The 1 bit parameter decides the direction of each segment speed Running Direction Setting forward 0 reverse 1 Frequency inverter FA 1L FA 3H User Manual v 1 0 0 66 domestic and industrial automation When running control mode F05 0 1 2 these parameters decide the direction of each segment speed When running control mode FO5 3 the setting value and terminal FWD REV decide the direction of each segment speed together FWD is prior FWD 1 REW 1 Setting Value Running direction Running direction forward reverse 0 reverse
66. e allow 1 bit reverse forbidden reverse allow 1 1 Bit Change the direction of motor running 0 Forward command FWD is to let motor forward running 1 Forward command FWD is to let motor reverse running 10 Bit Motor forward reverse running Motor forward reverse running can be controlled by the keyboard potentiometer and analog input positive or negative value 0 Prior command terminal keyboard set frequency can be negative value but running direction decided Frequency inverter FA 1L FA 3H User Manual v 1 0 0 26 domestic and industrial automation by terminal and keyboard command 1 Prior command positive or negative value of analog input setting frequency positive value let motor for ward running setting negative value let motor reverse running 100 Bit motor reverse allow For some producing equipment the reverse may lead to damage to the equipment so this feature can be used to prevent motor reverse Inverter default forbidden reverse When the motor running direction op poses to equipment required direction you can exchange the wiring of any two inverter output terminals to let equipment forward running direction is consistent with motor running 0 Reverse forbidden 1 Reverse allow F46 Pass 0 Stopping Time 0 0 60 0 S 0 N Setting this parameter to achieve the motor forward to reverse or from reverse running to forwa
67. e easily P07 PID Proportion Gain 0 0 1000 0 100 0 Y The PID Proportion Gain defines regulation intensity of PID regulator the larger the P is the more the intensity is When proportion gain is 100 and the difference between PID feedback and getting value is 100 PID regula tor s output is P01 F12 12 5 Hz single direction PID regulation ignores differential and integral effect Proportion gain is the parameter decides PID regulator s response extent If the gain is great the response is rapid but if too great the surge will occur If the gain is little the response will lag difference time operation value time POS PID Sampling Period 0 002 10 000 s 0 010 Y Set Sampling period of feedback signal When set this parameter small the system response speed to the giving and feedback deviation is slow but con trol is stable When set this parameter low the system response speed to the giving and feedback deviation is slow but easy to cause vibration P09 Deviation Limit 0 0 20 0 5 0 Y Deviation limit effects system control accuracy and stability When the deviation of feedback signal and giving signal lt deviation limit PID N regulation keep output stable When the deviation of feedback signal and giving signal gt deviation limit PID regulates according to deviation update output P10 PID Fault Detect Time 0
68. e ul Konstantynowska 79 81 Ly amp Y 95 200 Pabianice Poland phone fax 42 2152383 2270971 e mail fif fif com pl Frequency Inverter FA 1L FA 3H User Manual v 1 0 0 domestic and industrial automation The notes concerning the relay s operational safety have been indicated with the following symbols All information and recommendations labeled this way must be observed Risk of electric Shock Potentially dangerous situation which may give rise to risks for operators or cause damage to the inverter A A Information concerning the structure operation and service of the inverter Important information or useful hint Practical advice or problem solution Exemplary application or function OS Frequency inverter FA 1L FA 3H User Manual v 1 0 0 domestic and industrial automation Table of Contents Part1 Inspection before and after unpacking 4 Inverter Specification Label 4 Model number Convention 4 Part2 Installation E 5 Safety Pre CAULIONS E 5 elt Lena 6 riStall Atl ON ssecsavcesecic cite reese dente soesny tale in ceectee hes sale EE Eet D eg EEN 6 Part TT TEE H Basic CONNECTION RR EC E H Main Circ it Terminals esoe inene a a E aeaaea Eeu aa aka eE E iE 7 Specification of MCCB and electric cable 9 Control Circuit Tenia Mal S sssrin inse neres aeiaai eeaeee aR ea ia E EEEa A aaia a 9 Part4 Operating Keyboardiseetnsiserero mgt ie e ee a e E EE Re
69. eaches or surpass FDT set fre quency 2 the corresponding signal output terminal will react When inverter output frequency is below of FDT frequency set 3 the corresponding signal output terminal will not react When the output signal options 021 024 is set as 16 inverter will firstly inspect FDT set frequency 1 then inver ter output frequency arrives at or surpass FDT set frequency 1 the corresponding signal output terminal will react After terminal reaction inverter will inspect FDT set frequency 2 when inverter output frequency is below of FDT set frequency 2 the corresponding signal output terminal will not react Frequency inverter FA 1L FA 3H User Manual v 1 0 0 46 domestic and industrial automation 031 Frequency inspection range This parameter is used to define inspection range When the difference of actual frequency and inspected frequency has surpassed inspection range terminal will output react e g FDT set frequency 1 as 35Hz FDT set frequency 2 as 30Hz Frequency inspection range is 0 the signal output terminal will react as below output frequency FDT1 35Hz FDT2 30Hz N b time FDT frequency I H i t H i time FDT frequency S d setting 2 arrived ON OFF ON l i time FDT frequency i i inspection level OFF ON ore ON time ON means signal will react OFF means signal will not react Arrival Of Current O o ES Upper Limitation 033 200
70. efault signal input level level trig ger the system will alarm E Set after valid 51 1 pump soft start 52 1 pump stop Electric level spring control 1 pump soft start or stop Soft start control must use 2 terminal controls stop priority Need to set E01 load model 9 E12 1pump is soft start control pump 53 2 pump soft start 54 2 pump stop Electric level spring control 2 pump soft start or stop Soft start control must use 2 terminal controls stop priority Need to set E01 load model 9 E12 2pump is soft start control pump 55 3pump soft start 56 3 pump stop Electric level spring control 3 pump soft start or stop Soft start control must use 2 terminal controls stop priority Need to set E01 load model 9 E12 3pump is soft start control pump Frequency inverter FA 1L FA 3H User Manual v 1 0 0 55 domestic and industrial automation 57 4 pump start Electric level spring control 4 pump soft start or stop Soft start control must use two terminal con trols stop has the priority 58 4 pump stop Need setting E01 load style 9 E12 4 pump is soft start control pump electric level spring automation multi pump 59 Hand change order constant water changed the period of time 60 water supply change to zero electric level spring the period of time water supply change to zero Extruder acceleration 61 and decele
71. entage given by A41 multi steps steps Digital Voltage digital voltage 1000 bit DN adjustment mode of adjusting speed ratio N Adjustment Of Accele No adjustment Frequency inverter FA 1L FA 3H User Manual v 1 0 0 37 domestic and industrial automation ration Time All Adjustment Of The f f 1 KEN Actual DN adjustment ratio percentage given by A42 Al1 External Analog Giving Al2 Adjustment Of The 2 SA Actual DN adjustment ratio percentage given by A42 Al2 External Analog Giving Al3 Adjustment Of The 8 3 GE Actual DN adjustment ratio percentage given by A42 AlI3 External Analog Giving j Adjustment Of Potenti Actual DN adjustment ratio percentage given by ometer Giving A42 potentiometer 5 Adjustment Of Multi Actual DN adjustment ratio percentage given by A42 multi steps steps Digital Voltage digital voltage A40 UP DN Adjustment enn 300 00 Hz 0 00 Y Value Frequency after adjustment set frequency UP DN adjustment value A41 UP Adjustment Ratio 0 01 20 00 Hz 0 01 Y A42 DN Adjustment Ratio 0 01 20 00 Hz 0 01 Y MF is defined as adding function key 0 MF is defined as reducing function key 1 MF is defined as free stopping key 2 MF is defined as FWD running key 3 MF is defined as REV running key 4 A43 The Definition Of Mul MF is defined as forward JOG function key 5 o y tifunction Keys MF1
72. erter FA 1L FA 3H User Manual v 1 0 0 74 domestic and industrial automation Motor parameter b00 b22 Code Description LCD Setting Range Unit oF aea poo Motor 1 Rated Prem 6 on ainun Eege Hz 50 00 Y quency b01 Motor 1 Rated Current y09 50 100 A Y b02 Motor 1 Rated Voltage 100 1140 V S Y b03 Motor 1 Pole pairs 1 8 2 Y b04 Motor 1 Rated Speed 500 5000 r n 1480 y b00 b04 are the motor s nameplate parameters which touch the precision Set the parameters according to the motor s nameplate b00 b04 motor nameplate in parameters it is necessary to recalculate motor parameters by using b11 Excellent vector control performance requires exact motor parameters Exact parameters are base on the correct setting of motor s rated parameters To assure the control performance please match the right motor as per the inverter s standard motor rated currents limited between 30 120 of inverter rated current The rated current can be set but can t be more than the rated current of the inverter The parameter confirms the OL protection capability of the motor and energy saving running To prevent self cooled motor form overheat when running in a low speed and the motor capacity change when motor character change little the user can correct the parameter to protect the motor The number of motor pole pairs such as the four pole motor the number of pole pairs is
73. et value max frequency keyboard potentiometer set value Potentiometer set value can be regarded as value of PID giving value of PID giving keyboard potentiometer set value aaa Peter potentiome i990 400 0 0 0 y ter Y Aaa DEES ii 100 0 Y ter Y N l Saving after power down 0 1 bit Cleared after power down 1 A50 REDO aya Paranta Saving after stopping 0 0000 Y ter Control Clear saving after stopping com 10 bit 1 mand Clear saving at end of stopping 2 Frequency inverter FA 1L FA 3H User Manual v 1 0 0 39 domestic and industrial automation 100 bit 1000 bit Temperature Adjust ment Of Motor Being used to revise displaying of A54 motor temperature Over heat Tempera A51 0 0 200 0 100 0 N o A52 ture Of Motor 0 0 300 0 C 120 0 N No reaction for motor over heat A53 Reaction For Motor Warning and running i 0 y Over heat Warning and deceleration stopping Warning and free stopping When the temperature controlled drive indicated by parameter A54 above the set point in parameter A52 will be executing the action set in parameter A53 Display Of Motor Temperature Shows the motor temperature or temperature at other point Control card PT100 plug should plug into the optional PT100 thermocouple devices Three lines PT100 WIN R O A54 50 0
74. ext paragraph running time recalculated Running time of arrival running based on the 0 paragraph speed 10 bit Defining the start running of the Program 100 bit Defines the end of the program period 1000 bit Define effective time of the program output signal Single cycle 0 Program RUANIN 1bit Continuous Cycle 1 H02 g 6 One cycle command running 2 0000 Y Mode 0 The zero speed running when pause 10 bit Frequency inverter FA 1L FA 3H User Manual v 1 0 0 61 domestic and industrial automation Fixed speed running when the 1 suspension Stop with the parameters set when o 100 bit stop Stop with the settings of start up 1 Running at the speed when start o Noa BE up segment Running at the speed before the 1 machine stopped 1 bit Running cycle 0 Single cycle 1 Continuous cycle 2 Single cycle running according to HO1 speed of the end stop after accepted the stopped orders The program runs three styles as following Eg1 The program is run single cycle modes output frequency GOHZ re 50Hz f 1 gt 40Hz i 30Hz penen e 20Hz 10Hz 0 10Hz Le aera EE E DK T1 121 73 T4 T5i Tot 174 Eg2 program run Continuous cycle modes putput frequency 60Hz 50Hz 40Hz 30Hz 20Hz 10Hz kal 0 10Hz i time H program running STOP Eg3 Program is runnin
75. forward 1 10 bit Unit of multi segment speed program running time Running i 10 bit Range e g H18 H25 3200 0 Time seconds 0 3200 0 seconds minutes 1 3200 0 minutes hours 2 3200 0 hours days 3 3200 0 days 100 bit 1000 bit Unit of acc deceleration time of multi segment speed program running Acceleration 1000 bit Range e g H26 H39 3200 Deceleration 100 bit 0 seconds 0 3200 0 seconds minutes 1 3200 0 minutes hours 2 3200 0 hours days 3 3200 0 days 1 bit Current speed step O OxF CH Current acceleration seg 0 0x7 ment H55 Multi speed Status en Current running time seg 0 0x7 N ment peaks Current digit voltage seg 0 0x7 ment 1 bit Current speed segment Frequency inverter FA 1L FA 3H User Manual v 1 0 0 67 domestic and industrial automation 0 16 segment In hex can be shifted t by 036 046 10 bit Current acceleration segment 0 7 segment in hex can be shifted by 036 046 100 bit Current running time segment 0 7 segment in hex can be shifted by 036 046 valid when program running 1000 bit Current digital voltage segment 0 7 segment in hex can by shifted by terminal 036 046 V F Curve Group U00 U15 ies as F Factory Change Code Descrip
76. g adjustment of Potentiometer giv ing Adjustment of multi steps digital voltage 1000 bit DN no adjustment of speed ratio All adjustment of the external analog giving Al2 adjustment of the external analog giving Al3 adjustment of the external analog giving adjustment of Potentiometer giv ing Adjustment of multi steps digital voltage 1 bit UP acceleration mode 10 bit DN deceleration mode 0 Fix speed acceleration according to A41 fix speed To increase frequency every 200ms 1 Fix times acceleration according to fix times To increase frequency every triggering 0 Fix speed deceleration according to A42 fix speed To reduce frequency every 200ms 1 Fix times deceleration according to A42 fix times To reduce frequency every triggering 100 bit UP adjustment mode of adjusting speed ratio UP N Adjustment Of f 0 No adjustment Speed Ratio AI1 Adjustment Of The f f 1 Actual UP adjustment ratio percentage given by A41 Al1 External Analog Giving Al2 Adjustment Of The 2 _ Actual UP adjustment ratio percentage given by A41 Al2 External Analog Giving Al3 Adjustment Of The i 3 SC Actual UP adjustment ratio percentage given by A41 Al3 External Analog Giving a Adjustment Of Potenti Actual UP adjustment ratio percentage given by AAL potentiome ometer Giving ter 5 Adjustment Of Multi Actual UP adjustment ratio perc
77. g Ge Built in PID regulator brake current flow in the premise however to rake ensure adequate braking torque Overvoltage protection under voltage protection over current pro Protec Inverter protection tection overload protection over temperature protection over the tion loss of speed protection over voltage stall protection phase protec tion optional external fault communication error PID feedback Frequency inverter FA 1L FA 3H User Manual v 1 0 0 83 domestic and industrial automation signal abnormalities PG failure IGBT temperature display Display current IGBT temperature Inverter fan control The fan starting temperature can be set optional Instant power down re start Less than 15 milliseconds continuous operation Greater than 15 milliseconds Automatic detection of motor speed instantaneous power down re starts Speed starting track method automatically track motor speed when inverter starts Parameter protection function Protect inverter parameters by setting the password and decoding 8 way switch input Can be customized into 68 kinds of functions to achieve forward reverse forward jog and reverse jog emergency stop reset speed acceleration speed run time switch and pulse counting 3 way analog inputs Can be defined as a switch input function keys IO To allow for maximum input range 10V 10V 0
78. g in single cycle According to Paragraph seventh of Speed mode output frequency 60Hz 50Hz 40Hz 30Hz 20Hz 10Hz 0 10Hz time program running s STOP 10 bit Running condition when pause 0 Speed run when pause 1 Fixed Segment Speed operation when pause 100 bit Running Segment when stop 0 Set stopping according to the parameters of stop segment 1 Set down to the initial segment 1000 bit Start Running Segment 0 Set down to the speed running Frequency inverter FA 1L FA 3H User Manual v 1 0 0 62 domestic and industrial automation 1 Running at the speed before the machine stopped Eg 100 bit O Set stopping according to the parameters of stop segment 1000 bit 0 running at Start Segment output frequency F51 00 k Eg 100 bit 0 Set stopping according to the parameters of stop segment 1000 bit 1 Running at the speed be fore the machine stopped output frequency F51 01 output frequency F51 10 11 Note at1 at the time of segment 1 acceleration time dt1 at the time of segment 1 deceleration time at3 at the time of segment 3 acceleration time dt3 at the time of segment 3 deceleration time H03 Speed Step 1x Hz 3 00 Y HOA Speed Step 2x Hz 6 00 Y H05 Speed Step 3x Hz 9 00 Y H06 Speed Step 4x Hz 12 00 Y
79. hen Power on Terminal status is effective when Power on inverter will run immediately in some cases such status will 036 DU Input Terminal 037 Function Selection 038 039 DD Input Terminal 040 Function Selection 041 042 DI3 Input Terminal 043 Function Selection 044 045 DI4 Input Terminal 046 Function Selection No function Forward running FWD Reverse running REV 3 line mode running STOP Multi segment command 1 Multi segment command 2 Multi segment command 3 Multi segment command Multi segment speed command 1 Multi segment speed command WOSCOINI D O BRl WI N R oO H Multi segment speed command 3 KA CH 1 OO OO OO OO OO OH Li a Frequency inverter FA 1L FA 3H User Manual v 1 0 0 50 domestic and industrial automation DIS Input Terminal Function Selection DI6 Input Terminal Function Selection DI7 Input Terminal Function Selection DI8 Input Terminal Function Selection All Input Terminal Function Selection AI2 Input Terminal Function Selection AI3 Input Terminal Function Selection Multi segment digital voltage 1 11 Multi segment digital voltage 2 12 Multi segment digital voltage 3 13 The main set mode 1 of set frequency 14 The main set mode 2 of se
80. ic braking will be implemented 2 General Type Under any state when the inverter detected high voltage DC bus exceeds a predetermined value the dynamic braking will be implemented When the inverter is running on emergency deceleration state or load great fluctuation it may appear over voltage or over current This phenomenon is relatively prone to happen when the motor load inertia is heavy When inverter The inverter internal DC bus detected voltage exceeds a certain value the output brake signal through an external braking resistor implement energy braking function Users can select inverter models with a braking function to apply this feature A09 Less Voltage Level 60 75 Standard DC bus voltage 70 Y The definition of allowed the lower limit voltage of normal working inverter DC side For some low power occa sions inverter less voltage value can be appropriately put down in order to ensure the inverter normal working Under normal condition keeping default setting N 0 A10 Bower sown ere Power off tracking mode 1 0 Y Options Startup tracking mode 2 A11 Power down tTracking 0 0 20 0 s 0 0 y Time This parameter is used to select the inverter tracking mode 0 N speed tracking means to start tracking from 0 Hz 1 Power down tracking When the inverter instantaneous power off and re start the motor will continue running with current speed and direction If the powe
81. in DC If this value set is too small and there is large energy feedback from load the excessive energy compensation may cause inverter over voltage fault Set A12 100 to cancel power off frequency dropping function A14 Current Limit a 8 S On 1 A15 Limit Fall Time 0 1 3200 0 s 100 Y A16 Limit Deceleration 10 250 130 Y Protection Point RE Limit Fix speed Protec 10 250 120 Y tion Point Current limitation function can effectively restrain over current caused by motor load fluctuation in the process of acceleration and deceleration or constant speed operation This function will be good effect for V F control mode Under protection of current lost speed state the motor speed will drop so it is not adapted by system which is not allowed to automatically drop speed In operation process when the motor current surpass value A16 set motor will decelerate according to deceleration time A15 set until current below value A16 set In oper ation process when the motor surpass value A17 set motor will run with this speed until current below value A17 set Deceleration current limitation is prior of constant speed limitation No protection of phase lost Output Phase Lose Warning and constant running WIN R O Al 0 Y 8 Protection Warning and deceleration Warning and free stopping A19 Grade Of Phase Lose 10 100 30 y Protection When ratio of unbal
82. is rapid but perhaps brings the surge Speed loop Low Speed c02 Td 0 000 1 000 s 0 000 Y It defines the differential time of the speed loop low speed segment and the range is 0 000 1 000s If the time is great enough the surge which is caused by P action when difference occurring can attenuate quickly But too great the surge will happen contrary When the time is little the attenuation function is little too Speed loop Low Speed c03 p 0 150 100 Y It defines the proportion gain of speed loop low speed segment And the range is 0 1000 If the gain is great the response is rapid but too great surge perhaps occurs if the gain is too little response is slower Speed loop Low Speed coa Shift Frequency 0 0 C08 Hz 7 00 Y It defines low speed loop switching frequency the parameter and switching frequency at high speed optimize Speed loop PID parameter Speed Loop High os Speed Ti 0 01 100 00 sS 0 5 Y It defines integration time of High speed section of the speed loop Range is 0 01 100 00s Integration time too large and unresponsive external interference control variation becomes weak Integration time is small the reaction speed oscillation occurs when it is too small Speed Loop High SR Speed Td 0 000 1 000 s 0 000 Y It defines the differential time of the speed loop high speed segment and the range is 0 000 1
83. kW and 3 phase inerter to 2 2kW Frequency inverter FA 1L FA 3H User Manual v 1 0 0 87 domestic and industrial automation 150 220 180 Je ds Pict 11 3 phase inverter 7 5 11kW Frequency inverter FA 1L FA 3H User Manual v 1 0 0 88 domestic and industrial automation 33 70 245 18 DIGITAL PANEL S G 3 o ze o X Pict 12 Operating panel Braking Unit There is braking unit inside when using B type frequency converter the maximum braking torque is 50 Please choose braking resistor according to the following table A In no case you use resistors with less resistance and less powerful than that shown in the table below Failure to do so may result in damage to the inverter and there is danger of fire Type Power Braking resitor Resistor Power kW Q W FA 1L007 0 75kW 200 120 FA 1L015 1 5kW 100 300 FA 1L022 2 2kW 70 300 FA 1L040 4kW 40 500 FA 3H007 0 75kW 750 120 FA 3H015 1 5kW 400 300 FA 3HO22 2 2kW 250 300 FA 3H040 4kW 150 500 FA 3H055 5 5kW 100 500 FA 3H075 7 5kW 75 800 FA 3H110 11kW 50 1000 Frequency inverter FA 1L FA 3H User Manual v 1 0 0 89
84. le RS485 port a communication module nication CAN BUS Can select can bus module At most 16 segments can be set use multi functional terminal to 16 segment speed shift or program runs 8 segment running At most8segment running time can be set multi functional terminal time can be used to shift Speed 8 segment accelera At most 8 acceleration speeds can use the multi functional terminal tion speed to switch Seven Segment Speed At most 7 segment speed configuration can be set multi functional Configuration terminal can be used to switch Six kinds of ways keyboard three way analog input pulse input PID feedback signal i digital potentiometers PID H i Six kinds of ways keyboard three way analog input pulse input PID giving signal _ digital potentiometers 2 groups of motor With the motor parameters parameter can be selected parameter parameters identification automatic storage 3 identification me Name plate calculation static measurement rotation measure thod ments Motor 5 name plate parame Rated frequency rated current rated voltage the number of pole ters pairs rated speed 5 identification para N load current stator resistance rotor resistance stator inductance meters mutual inductance Environment tempera 10 C 40 C 40 50 C derating between the use is increased by 1 ture C rated output current decrease of 1 Store temperature 40 C 70 C Environ Environment humidity 5 9
85. n time unit Wi 0 min 1 100 bit th 5 day 3 Deceleration time unit ts 0 pei min 1 h 2 day 3 1 bit Acceleration time adjustment mode 0 No Adjustment Of Acceleration No adjustment Time GE ee SEHR Actual Acc time Acc time Al1 giving percentage Analog Giving z on are de SE Actual Acc time Acc time Al2 giving percentage Analog Giving 3 ges EE SES Actual Acc time Acc time Al3 giving percentage Analog Giving 4 Adjustment Of Keyboard Poten Actual Acc time Acc time keyboard potentiometer giving per tiometer Giving centage 5 Adjustment Of Multi Steps Digi Actual Acc time Acc time Multi steps digital voltage giving per tal Voltage Giving centage 10 bit Deceleration time adjustment mode tal Voltage Giving 0 No Adjustment Of Acceleration No adjustment Time 1 Ali Adjust t Of The Ext ae a SE Actual Decc Time Decc time Al1 giving percentage Analog Giving 2 Al2 Adjust t Of The Ext p dee SE Actual Decc time Decc time Al2 giving percentage Analog Giving 3 Al3 Adjust t Of The Ext be d et SE Actual Decc time Decc time Al3 giving percentage Analog Giving 4 Adjustment Of Keyboard Poten Actual Decc time Decc time keyboard potentiometer giving tiometer Giving percentage 5 Adjustment Of Multi Steps Digi Actual Decc time Decc time Multi steps digital voltage giving percentage 100 bit Acceleration time unit
86. nalog feedback loop control Speed control ac curacy requirements applicable to the general occasions The given value can be given through the key board can also be given through the analog Analog feedback can represent the pressure flow tempera ture Details see the P group of parameters The completion of the main to the frequency of common ana log feedback loop control Speed control accuracy requirements applicable to the general occasions For a given value can be given through the keyboard can also be given through the analog Analog feedback can represent the pressure flow temperature Details see the P group of parameters Through 036 046 IO input terminal set to 17 18 19 be configured to switch the source for a given ratio The main setting individual control 0 f The auxiliary setting individual control The Relationship Be main auxiliary tween Main And Aux F F04 W main auxiliary iliary Setting Frequen eT S main auxiliary maximum frequency i Maximum main auxiliary Minimum main auxiliary Di eI WIN re Main given and auxiliary given set frequency relations Main given value and auxiliary given value can be added up subtracted multiplied maximum minimum calcula tion O group parameters can be adjusted to coordinate the main given and auxiliary given proportion to meet the requirements of the system fine tuning and bias f main Q setting frequen
87. ng frequency Multi digital voltage terminal effective exchange change FO1keyboard setting value 1 Al1 the external analog setting Frequency inverter FA 1L FA 3H User Manual v 1 0 0 17 domestic and industrial automation Given the external analog 0 10V 10V 10V O 20mA For detail please read the o group parameter 2 Al2 the external analog setting 3 Al3 the external analog setting Given the external analog 0 10V O 20mA For detail please read the o group parameter 4 Keyboard potentiometer setting Keyboard potentiometer setting keyboard potentiometer for a given start and end values of the corres ponding values can be positive role and negative effects For detail please read the A group parameter 5 Multi segment digital voltage setting 036 046 IO input terminal function set to 11 12 13 switch H47 H54 Multi digital voltage setting 100 corresponding to the maximum frequency 6 Digital pulse setting Digital pulse input frequency Corresponding to the setting frequency For detail please read the 052 group parameter Pulse input terminal and DI8 terminal reset after using the digital pulse input 043 set to 0 Otherwise the function settings will take effect the pulse input on status of 058 can be checked be limited to low speed pulse Through 036 046 IO input terminal set to 14 15 16 be configured to switch the source 7 PID regulation mode The completion of the main to the frequency of common a
88. ng models and external braking resistor this function should be set to O output frequency When the inverter deceleration as the motor load inertia motor will produce feedback voltage to inverter in side which will increase DC bus voltage and surpass max voltage When you choose Over less voltage stall pro tection and it is valid Inverter detects DC side voltage if the voltage is too high the inverter to stop deceleration the output frequency remains unchanged until the DC side voltage is below the set value the inverter will re A05 Auto Stabilize Voltage Invalid Frequency inverter FA 1L FA 3H User Manual v 1 0 0 31 domestic and industrial automation Valid 1 Valid useless for deceleration 2 CPU automatically detect the inverter DC bus voltage and to make real time optimized processing when the grid voltage fluctuate the output voltage fluctuation is very small the V F curve characteristic has always been close to setting state of rated input voltage Dynamic Braking o invalid A06 y tion amp op Security Type 1 0 Y General Type 2 A07 Hysteresis voltage 0 10 2 Y A08 Ge Braking Vol 4 1096 140 Standard bus voltage 130 y Dynamic Braking option 0 Invalid 1 Security Type Only in the inverter deceleration process and detected high voltageDCbus exceeds a predetermined val ue the dynam
89. op 3 1000 S bit When the inverter receives running command it can control output frequency automatically in the PID regula tion mode after comparing the setting signal and feedback signal from terminal The process is explained as following setting signal feedback signal A setting signal feedback signal 0 Negative action when A gt 0 is positive frequency rises and when A lt 0 is negative frequency falls 1 Positive action when A gt 0 is positive frequency falls and when A lt 0 is negative frequency rises PID abnormity treatment 1 Warning amp Continuous running continue running g after abnormity feedback signal 2 Warning amp Decelerating stop decelerate and stop after abnormity feedback signal 3 Warning amp Free stop free stop after abnormity feedback signal P01 PID Output Limit 0 100 100 Y Set frequency by keyboard or RS485 AI1 external analogy giving Al2 external analogy giving Al3 external analogy giving Keyboard potentiometer giving multi step digital voltage giving Digital pulse set Feedback Signal Selec PRS tion Set frequency by keyboard or RS485 AI1 external analogy giving Al2 external analogy giving Al3 external analogy giving Keyboard potentiometer giving Multi step digital voltage giving Digital pulse set Setting Signal Selec RS tion DIM H WIN P OD A HRl WI N R oO P04
90. orque component stator resistance torque en hance value 100 bit VF mode 0 speed maintain function 0 VF mode 0 Speed No Output Output frequency is less than 0 5Hz stop PWM output to reduce the switch ing loss 1 VF mode keep 0 speeds Output frequency is OHz in accordance with the DC braking current of starting F26 keep 0 speeds F07 Torque boost Value 0 0 30 0 0 0 Y F08 TOE NOONE 0 00 Maximum frequency Hz 15 0 Y Frequency Torque increase is mainly used to improve the low frequency torque characteristics under sensor less V F control mode Torque boost is too low weak low speed motor Torque boost is too high motor over excitation operation large inverter output current and low efficiency The setting frequency of the inverter is lower than the frequency of the torque rising the torque rising will be valid over than the setting frequency the torque rising will invalid Voltage Voltage motor rated voltage Frequency Frequency voltage Cut off frequency Basic frequency voltage Cut off frequency Basic frequency down the torque curve torque boost Constant torque curve torque boost FO9 Accelerate Time 0 0 3200 0 s 10 0 Y F10 Decelerate Time 0 0 3200 0 S 10 0 Y F09 Accelerate time accelerate time from OHz to maximum frequency F10 Decelerate time decelerate time from maximum frequency to OHz f Frequency inverter FA 1L
91. pulse corresponding analog p_set formula p_set f_pulse o52 100 0 053 Current Counter Status 0 9999 0 Y 054 Preset Counter Setting 0 055 0 Y ses MPPEEUMIT LAUMA cpa ges 9999 y Setting When the pulse signal of the input terminal satisfies with the preset condition Yi terminal output the corres ponding indication 1 Selection of Input terminal Dix X 1 8 Input terminal is set to pulse count input and set 054 055 Input terminal is set to pulse counter clear after terminal works counter is cleared Input terminal is set to upload of pulse count value after terminal works counter uploads preset count value Input terminal is set to upload of upper count value after terminal works counter uploads the upper count value 2 Selection of Output Terminal 021 024 o21set the arrival of preset count the effective time of output signal after reaching up count value is set by 051 022 set the arrival of up count value the effective time of output signal after arriving at the upper count value is set by 051 Frequency range of counting pulse signal 0 100Hz Frequency inverter FA 1L FA 3H User Manual v 1 0 0 58 domestic and industrial automation 053 021 os S eg TEE ege 0000 y tive Selection Another
92. put the arrival pulse and stop running 10 bit Operating after circulate mode reach upper limit count 0 Reload 1 Clear up 100 bit Define the status of the counter after power on 0 Reload after power on 1 Clear up after power on 2 Keep the status of the previous count 1000 bit Define 021 024 is set to reach the preset count or counts to reach the maximum output signal delay time 0 Count period when reach this digital keep this status valid direct the change of the count 1 The valid time of the output signal10ms when reach this count fixed keep the output status valid 10ms 2 The valid time of the output signal 100ms when reach this count fixed keep the output status valid 100ms 3 The valid time of the output signal 500ms when reach this count fixed keep the output status valid 500ms Maximum Pulse Input 052 Frequency 0 1 50 0 kHz 20 0 Y This parameter defines the most pulse input frequency of analog setting frequency Input high signal frequency only through multi function input terminal DI8 as the pulse input terminal Input pulse setting frequency according the the most input upper limit Input pulse setting frequency most input pulse frequency 052 according the most output frequency F12 Pulse input frequency f_pulse corresponding setting frequency f_set formula f_set f_pulse o52 F12 Pulse input analog setting input most pulse frequency 052 according 100 0 Pulse input frequency f_
93. r Main Circuit Control Circuit DI 1 Input Terminal 1D12Input Terminal VE D13Input Terminal 124v IDI4Input Terminal i 3 3 Icom ye HI Ha 1 2Shorted Drain output Default COM 2 3Shorted Source output external keyboard Di5Input Terminal port RS485 or EIA TIA 568B Standard ommunicatio DI6Input Terminal card Disconnect Not the terminal Default p Board terminal resistor jumper Short circuit As theterminal Drain Drive PLC can be pit Q PLC connected to GND com 24V orCOM orl Bea STEE ee use outside power HI DAIC 0 20mADC EPE _ Com 18 35V and Kource Drive Ek KR 24V COM Ly K O PLC doesn t share the HS DA2 Analog Output DA2 d same earthing 7 2 3 shorted Default nalog Outpul f l D24 j 37 Da2v 0 10V DC ho e 2 shorted DA2C 0 20mA DC E PE GND j 7 lov 10v DC 2 J 0 10V DC Default Output signal 1 Disconnect 0 10V DC Default Shorted 0 20mA DC Output signal 2 JP6 9 Disconnect 0 10V DC Shorted 0 20mA DC Default Output signal 3 5A 250VAC 5A 30VDC JP7 Kl Disconnect 0 10V DC Shorted 0 20mA DC Default Pic 4 Inverter wiring diagram communicatior Wiring required to meet EIA TIA 568A 2 3 shorted Default DAI Analog Output DAI 19 DAIV 0 10V DC H 0 10V Maximum load current SmA 0 20mA Maximum load impedance250 ohm 0 10V Maximum load
94. r off time is longer than A11 set time the inverter will not re start power on again 2 Startup tracking It means that when power on inverter will first inspect motor direction and speed and then driving motor with current speed and direction Set startup tracking function power off tracking function is still valid power down power frequency input control power frequency conversion motor b speed search rotate speed motor rotate speed output frequency output frequency power down track state start track state Frequency inverter FA 1L FA 3H User Manual v 1 0 0 32 domestic and industrial automation P D F a A12 ower own rede 65 100 standard DC bus voltage 75 Y cy Drop Point A13 Power Down Frequen 0 1 3200 0 s 5 0 Y cy Drop Time Correctly setting this parameter can let inverter does not less voltage stop in case of instantaneous power off When the DC bus voltage drop to frequency drop point A12 set inverter will decelerate according to decelera tion time A13 set and stop outputting power to load Meanwhile inverter will use load feedback energy to com pensate DC bus voltage dropping and keep inverter working in short time Power down frequency drop time actually is deceleration time of frequency dropping after power off If this value set is too large the load feedback energy is small and then inverter cannot compensate for voltage dropping
95. rated motor current multiplies the pa rameter the drive in 1 minute protects thermal protection within one minute that means the actual current is A24 times of the rated current protect time 20min 5min 1min 0 2s A24 la A25 Fault Reset Times 0 10 0 Y In the inverter operation process Over Current expressed by OC Over Voltage by OU inverter can automatical ly recover and run with state of preceding fault Recovering times will be according to this parameter It can set 10 times at most When this parameter is set O inverter will not automatically recover after meeting fault But if relay in DC main circuit meet fault MCC or less voltage LU fault inverter will automatically recover without limitation Restarting from fault and normally running over 36s inverter will automatically recover fault reset times preset Restarting from fault and normally running over 36s inverter will automatically recover to display monitor para meter After 10 s of meeting fault inverter will not recover fault reset function A26 Fault Reset Time 0 5 20 0 S 1 0 Y Setting interval of fault reset time When inverter met fault and stopped outputting and when it inspected with out fault time is longer than fault reset time Inverter will automatically implement fault reset Fan Startup Tempera ture Set the fan start temperature When the actual temperature of theSO8is higher than the set temperature the fan sta
96. ration di rection Dlx input terminal function selection read 036 046 Extruder acceleration Dlx input terminal function selection read 036 input edge 62 and deceleration al 046 lowable 63 Limit time 1 input DIx input timing limit time 1 refer to 065 067 64 Limit time 2 input DIx input timing limit time 2 refer to 066 068 65 Program switching to Program running controlled single trigger the next segment switch to the next segment UP DN adjusted value 66 A40 UP DN adjusted value reset level trigger reset e Keyboard potentiome A47keyboard potentiometer setting value reset ter set value reset level trigger ae External default signal External default signal input edge trigger fall ing edge the system will alarm E Set after valid Polarity of input and 047 output terminals 0000 F7FF 0000 Y or not when power on This parameter used to select every IO terminal is valid in which polarity and terminal running command is valid Frequency inverter FA 1L FA 3H User Manual v 1 0 0 56 domestic and industrial automation PPP LF 229 2 2 2 2 27 2 2 2 D ishrafishi2ir holo s 7 6 s 4 3 2 1 o 0 10 bit Input Terminal Polarity 12 15 bit Output Terminal Polarity 0 Low level valid closed 0 Low level valid closed 1 Feuille EE Malla MUSING EUER 1 High level valid cut off invalid
97. rd the waiting time of motor speed being zero d eege Frequency Multiple F47 Setting Maximum frequency 10 00 320 00 Hz Maximum frequency 100 0 800 Hz 0 Set frequency display accuracy 0 01Hz With this accuracy F12 Maximum frequency setting range 10 00 320 00Hz 1 Set frequency display accuracy 0 1Hz With this accuracy F12 Maximum frequency setting range 100 0 800 0Hz After setting this parameter there must be reset F12 maximum frequency Acceleration And De F48 celeration Configura tion Word 1 bit Adjustment of acceleration time No adjustment All adjustment of the external ana log giving Al2 adjustment of the external ana log giving Al3 adjustment of the external ana log giving Adjustment of keyboard potenti ometer giving Adjustment of Multi steps digital voltage giving 10 bit Adjustment of deceleration time No adjustment All adjustment of the external ana log giving Al2 adjustment of the external ana log giving Al3 adjustment of the external ana log giving 0000 Adjustment of keyboard potenti Frequency inverter FA 1L FA 3H User Manual v 1 0 0 27 domestic and industrial automation ometer giving Adjustment of Multi steps digital 5 voltage giving Acceleratio
98. rter rate current current Arrival of motor rate 28 Arrival at motor rate current current Arrival of input fre 29 quency lower limita Present set frequency is less than frequency lower limitation tion Arrival of t up 30 ee a up Arrive at current of upper limitation per limitation Arrival of current low BEER EN EE Arrive at current of lower limitation er limitation Time to reach limit 32 Timing action mode refer to 065 configuration time 1 33 as ta Tenon Jg Timing action mode refer to 066 configuration 34 inverter ready torun The end of initialization when the drive is power on and running command y y a is acceptable 025 O1 Output Signal De 0 32000 S o y lay 026 O2 Output Signal De 0 32000 s o y lay 027 03 Output Signal De 0 32000 o y lay 023 a De 0 32000 s 0 y 025 028 defines 021 024 output signal reaction delay time unit is s Output signal cut off action without delay 029 FDT Set Frequency 1 030 Max frequency Hz 0 00 Y 030 FDT Set Frequency 2 Min frequency 029 Hz 0 00 Y 031 FDT 0 00 5 00 Hz 0 00 Y When the choice of output signal 021024 is set as 14 inverter output frequency arrives at or surpass FDT set frequency 1 the corresponding signal output terminal will react When inverter output frequency is below of FDT frequency set 1 the corresponding signal output terminal will not react When the output signal options o21 024 is set as 15 inverter output frequency r
99. rts To avoid the fan frequently starts and stops the fan stop temperature A27 fan start temperature 1 0 C A28 This Inverter Commu 1 128 8 y nication Address This Inverter communication address it is the only code to differentiate from other inverters Setting range 1 127 is slave inverter address that can receive command and send out this inverter state See ing attachment 1 for detailed specification The proportion of linkage function The proportion of linkage host inverter This inverter communication address 128 Communication interface A is set as host inverter communication interface for proportion of linkage Communication interface B can be treated as keyboard interface or PC Host Computer Interface The proportion of linkage slave inverter A27 0 0 60 0 K 0 0 Y Frequency inverter FA 1L FA 3H User Manual v 1 0 0 34 domestic and industrial automation This inverter communication address 1 127 1200 2400 4800 9600 19200 38400 A29 Baud Rate bps 4 Y MW RBlWI NMR oO The baud rate of communication port A can be set accordingly The baud rate of communication port B is fixed 19200bps The number of bits parity stop bits 8 No 1 rane 8 No 2 A30 Communication For 8 Even 1 Zb 8 Odd 1 8 Even 2 8 Odd 2 N warning for communication fault Communications
100. run the proportion linkage host unit s command it needs once again to re spond to host commands through the keyboard terminal RS485 or the proportion linkage host sends stop command so that slave unit could respond to run commands Beeline V Fcurve Power of 1 2 V Fcurve 1 bit Power of 1 7 power V Fcurve Power of 2 powerV Fcurve Define mode V Fcurve 10 bit Close Automatic torque boost F06 V F Boost Mode 000 N AIwWIN eJO Frequency inverter FA 1L FA 3H User Manual v 1 0 0 19 domestic and industrial automation Automatic torque boost 1 100 bit VF mode 0 Speed No Output VF mode keep 0 speed 1 1 Bit V F promote curve 0 Line V F curve Suitable for ordinary constant torque load 1 Power of 1 2 V F curve Appropriate torque down V F curve suitable for liquid loads 2 Power of 1 7 V F curve Appropriate torque down V F curve suitable for liquid loads 3 Power of 2 V F curve Torque down V F curve it is suitable for fans pumps centrifugal load 4 Define mode V Fcurve Can be customized appropriate curve according to the actual situation 10 bit Auto torque boost mode 0 Close Automatic torque boost 1 Open automatic torque boost Parameters which affect automatic torque enhance Actual value torque component 15 b06 b19 stator resistance F07 torque enhance value Automatic torque enhance value actual value of t
101. s area show CAL2 inverter with output under static state Keyboard figures area show CAL4 inverter with output the motor forward in high speed Keyboard figures area show END measuring the end Keyboard figures area show E CAL the measurement process errors Process can be measured through the STOP key to stop Set this parameter the motor parameters will be determined dynamically Be sure the motor is without load N load operation Before setting be sure to run well prepared the motor will run in high speed during the measurement Measurement is completed b11 return to 0 The measured parameters will select parameters on the base of b10 motor parameters which is automatically saved to the b05 b09 or b18 b22 Note Before auto measure the motor parameter must input motor rated parameter bOO bO4or b13 17 cor rectly Please regulate accelerating and deceleration time or torque increasing parameter if there is over current or over voltage faults while auto measurement When automatic regulation motor should be in stop status b12 Vector Control initial Not inspection R1 0 i R N Inspection R1 Inspection R1 1 b13 Motel hated Fre 0 00 Maxmum frequency Hz 50 00 T quency b14 Motor 2 Rated Current yO9 50 100 A j T b15 Motor 2 Rated Voltage 100 1140 V i T b16 Motor 2 Pole Pairs 1 8 2 T b17 Motor 2 Rated Speed 500 5000 rpm 1480 T b18 Motor 2 N Load Cur 0 0 b14 A T
102. set to 2 b05 Motor 1 N Load Cur 0 0 b01 7 F y rent b06 Motor 1 Stator Resis 0 000 30 000 S y tance b07 Motor 1 Rotor Resis 0 000 30 000 o e y tance b08 Motor 1 Stator Induc 0 0 3200 0 i i y tance b09 Motor 1 Mutual Induc 0 0 3200 0 ge a y tance b05 b09 can by input by motor actual parameters value also can define motor parameter by b11 parameter measure function And save automatically If know the correct motor parameter can input by hand When b11 is 1 2 3 the system calculates and measures automatically b05 b09 is the motor s basic electric parameters these parameters is essential to achieve vector control calcula tion Motor 1 0 1 Motor Selecti 0 N b10 otor Selection Maor 1 The system can select any group motor parameters Motor parameter measurements modify and save to corres ponding motor parameter area automatically No measurement 0 b11 Motor Parameter calculate by label data 1 o N Measurement inverter static measurement 2 3 inverter rotation measurement Frequency inverter FA 1L FA 3H User Manual v 1 0 0 75 domestic and industrial automation Set whether the measurement of electrical parameters in order to b10 motors choose motor 1 as an example 0 No measurement 1 Calculate by label data According to the motor nameplate parameters b00 b04 automati
103. so as to avoid the danger caused by the poor capacity or other components inside the inverter After the power supply is switched on do not perform wiring or check etc Don t touch the circuit boards or its parts or components in the inverter when it is powered so as to avoid danger of electric shock If the power supply is switched off do not touch the PCB or other parts inside the inverter within 5 minutes after the keyboard indicator lamp goes off and you must check by using the instrument that the inverter has completely discharged all its capacity before you start to work inside the inverter Otherwise there will be the danger of electric shock The static electricity in human body will cause serious damage to the MOS field effect transistor in the inverter Please keep your hands away from the PCB IGBT and other internal parts before taking actions to prevent static electricity Other wise faults may be caused Please don t shut off the unit by turning off the power supply Turn off the power supply after the motor has stopped its operation gt EE E Fb In use the earthling terminal of the frequency inverter must be grounded to the earthling connections correctly and securely according to the national elec trical safety specifications and other applicable standards Attention The inverter is designed to operate in the power supply TN S with an effective reset Failure to do so may lead to
104. t The protector for leakage current may invalidate function and over current is also possibly caused When low carrier frequency is applied the case is almost con trary to the above mentioned one Different motor has different reflection to the carrier frequency The best carrier frequency is gained after regulation according to actual conditions The higher the motor capacity is the lower the carrier frequency should be selected The company reserves the right to limit maximum carrier frequency as following The relation between carrier frequency and Motor Noise Electric disturbance Switch dissipation is expressed as following Carrier Frequency Motor Noise Electric disturbance Switch dissipation 1 0 kHz Big Small Small 8 0 kHz T T T 16 0 kHz Small Big Big F17 ee Giada kHz 0 0 y Adjustment Range 1 bit No automatic adjustment 0 eege automatic adjustment Mode 1 F18 q automatic adjustment Fixed mode 0 00 Y Adjustment Mode 10 bit automatic adjustment random 1 mode F17 Carrier frequency adjustment range 0 0 4 0kHz Actual Carrier frequency adjustment range 1 0 16 0kHz F18 Carrier frequency adjustment mode 1 Bit Carrier frequency automatic adjustment mode 0 No automatic adjustment carrier frequency according F16 to set 1 Automatic adjustment mode The carrier frequency automatically adjusts the model 10 can select random mode and fixed pattern 10
105. t frequency 15 The main set mode 3 of set frequency 16 The auxiliary setting mode 1 of frequency set 17 The auxiliary setting mode 2 of frequency set 18 The auxiliary setting mode 3 of frequency set 19 MSS time running 1 20 MSS time running 2 21 MSS time running 3 22 Operation control mode shift 1 23 Operation control mode shift 2 24 Operation control mode shift 3 25 Forward torque limit shift 1 26 Forward torque limit shift 2 27 Forward torque limit shift 3 28 Reverse torque limit shift 1 29 Reverse torque limit shift 2 30 Reverse torque limit shift 3 31 Torque speed shift 32 fault reset command 33 FWD JOG command 34 REV JOG command 35 JOG order as F35setting 36 Acceleration and deceleration prohibition 37 command Motor 1 2 shift 38 Free stop 39 Up command 40 Down command 41 Automation program running faction cancel 42 Automation program running stop 43 Program running start mode 44 Program running stop mode 45 Pulse counter clearance 46 Pulse counter input 47 Counter loading 48 Upper counter loading 49 External default signal input level 50 1pump soft start 51 1 pump stop 52 2pump soft start 53 2 pump stop 54 3pump soft start 55 3 pump stop 56 4pump soft start 57 4 pump stop 58 hand rotate command 59 Frequency inverter FA 1L FA 3H User Manual v 1 0 0 51 domestic and industrial automation
106. ter into yO1P Upload To K parameter modify status 6 Through potentiometer adjust value to be 3 Frequency inverter FA 1L FA 3H User Manual v 1 0 0 14 domestic and industrial automation 7 Finish the adjustment press SE be speed for upload will display on the LED if cancel the ESC change press ES to escape to the modification status 8 Press to exit to previous menu Parameters Groups Code Function Description Refer to page i B d Nie Monitor Function Monitor frequency current and other 16 monitor iat S De objects zdefiniowano zaktadki F Basie Funcion Group Frequency setting control mode acceleration time 16 and deceleration time A User Function Group Monitor protection communication setting 30 B d Nie o IO Function Group Analog digital input output function zdefiniowano zak adki UNG Multi speed PLC Piga bs H Multi speed running PLC running zdefiniowano Group e zaktadki B d Nie U V F parameter Group User defined V F curve zdefiniowano zaktadki B d Nie P PID Function Group Internal PID parameter setting zdefiniowano zak adki B d Ni Speed ring function ad e C Current ring speed running PG parameter zdefiniowano Group e zaktadki Mot t b EES Motor parameter setting 74 Group System Function Parameter reset fault query product information 7 y
107. ter reboot Total running time of the units can be changed by parameter A34 you can choose hours or days as the unit IGBT Tempera SOS ture C p Test the temperature of IGBT in the frequency C N s09 PID Set Point PID Adjust run time values of the percentage of a given N S10 PID Feedback PID Adjust run time values of the percentage of feed back N Mot Output S11 pate utpu The percentage of actual output power of motor N Frequency The output frequency of the motor the actual frequency of the motor A36 the regulate of the motor frequen cy Max display of the output frequency 2999 9 Excitati Heft S12 ee Motors set excitation heft percentage N Set Value Excitation Heft ee 13 Motor s actual excitation heft percentage N Actual Value T Heft Set 14 Se Res Motor set torque percentage N Value Torque Heft S 15 Actual Value Motor actual torque hefts percentage N Basic function Group F00 F50 Code Function Setting Range Unit Fact See V F trol 0 FOO Control Mode E 0 N Sensor less vector control 1 0 V F Control It is not sensitive to motor parameters can be used as power supply for motor control using the com bination of vector control and V F control strategies appropriately adjusts motor parameters obtain high performance control effect suitable for a inverter driving a motor occasions suitable for a inverter
108. terminal 100 bit Define program runs or acceleration and deceleration time settings of multi segment speed running 0 deceleration time decided by the H26 H39 1 The acceleration and deceleration time determined by terminal 1000 bit Set running time of defined program running 0 running time decided by the H18 H25 1 Running time decided by terminal i sequence control 0 1 bit g terminal control 1 10 bit Program running start segment 0 15 H01 Program Running Con 100 bit Program iene Sad segment 0 15 0710 y figuration Output signal valid time 8ms 0 1000 Output signal valid time 20ms 1 bit Output signal valid time 100ms 2 Output signal valid time 500ms 3 1 bit Program run control mode 0 sequential control run automatically according to the start segment end segment and program run ning time of program running You can use 036 046 switchover next function switchover to the next program running 1 Terminal control use multi segment control terminal 036 046 multi segment instruction 1 2 3 4 Control program segment running time arrives Running based on the O paragraph speed After Multi Stage speed control terminal switchover reevaluate running time Do not use of multi stage speed control terminal 036 046 multi speed instruction You can use 036 046 switchover next function The terminal control for single trigger triggered once program running to n
109. the appearance on the metal casing inverter dangerous potentials which are high risk for both manual and inverter gt EE FEEF Frequency inverter FA 1L FA 3H User Manual v 1 0 0 domestic and industrial automation Conditions for Use 1 Ambient temperature 10 C 40 C 2 Avoid electromagnetic interference and keep the unit away from the interference source 3 Prevent dropping water steam dust powder cotton fiber or fine metal powder from entering it 4 Prevent oil salt and corrosive gas from entering it 5 Avoid vibration 6 Avoid high temperature and moisture and avoid being wetted due to raining with the humidi ty below 90 RH not dewing 7 Prohibit the use in the dangerous environment where inflammable or combustible or explo sive gas liquid or solid exists Installation The frequency inverter must be installed by wall hooking in the indoor room with ade quate ventilation with enough space left between it and the adjacent objects or damper walls sur rounding it as shown in the below figure DIGITAL PANEL e e i iz 0 X DAS WARNING Pic 3 Example of appropriate building inverter Frequency inverter FA 1L FA 3H User Manual v 1 0 0 domestic and industrial automation Part 3 Wiring Basic Connection Diagram DC Reactor Braking resistor elYYY tL Optional DC 2 B1 B2 Earthing Motor Earthing Powe
110. the external analog setting Given the external analog 0 10V O 20mA For detail please read the o group parameter 4 Keyboard potentiometer setting Keyboard potentiometer setting keyboard potentiometer for a given start and end values of the corres ponding values can be positive role and negative effects For detail please read the A group parameter 5 Multi segment digital voltage setting 036 046 IO input terminal function set to 11 12 13 switch H47 H54 Multi digital voltage setting 100 corresponding to the maximum frequency 6 Digital pulse setting Digital pulse input frequency Corresponding to the setting frequency For detail please read the 052 group parameter Pulse input terminal and DIS terminal reset after using the digital pulse input 043 set to 0 Otherwise the function settings will take effect the pulse input on status of 058 can be checked be limited to low speed pulse Through 036 046 IO input terminal set to 14 15 16 be configured to switch the source Keyboard setting frequency or RS485 0 Ali the external analog setting Al2 the external analog setting Auxiliary Setting Mode Al3 the external analog setting Of Frequency Keyboard potentiometer setting Multi segment digital voltage setting Digital Pulse Set PID regulation mode F03 NIAI BRB WW NM e Auxiliary setting mode of frequency set 0 keyboard setting frequency or RS485 change F01 keyboard setti
111. tion LCD Setting Range Unit Setting Limited U00 V F Frequency F1 0 00 U02 Hz 5 00 N U01 U F Voltage V1 0 00 U03 10 N User defined the first frequency value of V F curve corresponding to V1 output voltage max output V8 v7 V6 V5 v4 Vi v2 VI Hi i 0 0 Fl F2 F3 F4 F5 F6 Pi F8 max output frequency frequency U02 V F Frequency F2 U00 U04 Hz 10 N U03 U F Voltage V2 U01 U05 20 N U04 V F Frequency F3 U02 U06 Hz 15 N U05 U F Voltage V3 U03 U07 30 N U06 V F Frequency EA U04 U08 Hz 20 N U07 U F Voltage V4 U05 U09 40 N U08 V F Frequency ER U06 U10 Hz 25 N U09 U F Voltage V5 U07 U11 50 N U10 V F Frequency F6 U08 U12 Hz 30 N U11 U F Voltage V6 U09 U13 60 N U12 V F Frequency F7 U10 U14 Hz 35 N U13 U F Voltage V7 U11 U15 70 N U14 V F Frequency F8 U12 Max Frequency Hz 40 N U15 U F Voltage V8 U15 100 80 N PID parameter P00 P12 SC R e Fact Ch Code Description LCD Setting Range Unit Coane Gm 1 bit Unidirectional regulation 0 Bidirectional regulation 1 POO PID Configuration 0000 N Negative effect 0 10 bit Positive effect 1 Frequency inverter FA 1L FA 3H User Manual v 1 0 0 68 domestic and industrial automation PID fault N action 0 100 bit Varning amp EES running 1 Warning amp Decelerating stop 2 Warning amp Free st
112. to displaying menu A43 A44 7 MF defined as Jog function parameter location changes to 10 from submenu or functional Reset Stop Key drive stop running A43 A44 8 MF defined as Up function finish and save the value changes menu s r Exception Reset A43 A44 9 MF defined as Down function change the object under monitor exit default state i fault confirmation Pic 7 An example of the use of the control panel Frequency inverter FA 1L FA 3H User Manual v 1 0 0 12 domestic and industrial automation Example for parameters set F01 keyboard set the frequency from 50 00Hz to 25 00Hz SOCOs FO JO m One Times ENTER One Times Potentiometer Functional adjustment item HEJ le F A e Or or JENTER ENTER adjust the Oa ai parameters adjust the value of parameter revisement G A 2500 One Times Potentiometer Cl Pic 8 An example of a parameter edition 1 Under monitoring status press into parameter group to query status 2 Through potentiometer Switch to FOO 63 Basic FG 3 Press el or ENTER enter into FOO 63 Basic FG parameter group to query status 4 Through potentiometer Switch to FO1Fre Set by Kr 5 Press el or ENTER enter into FO1 Fre Set by K parameter modify status 6 Through el or ENTERL adjust the value is modified bit
113. tput 4 20mA current setting parameter as 019 20 0 020 100 0 DA1 DA2 Skipping thread gt 2 JPI 2 3 shorted Default JP2 2 3 shorted Default ell 3 j rn 7 3 4 ms 7 ie i DAIV 0 10V DC E AM 0 10V DC ol 1 2 shorted 1 1 2 shorted DAIC 0 20mA DC DA2C 0 20mA DC Caution Every terminal has choice of voltage output and current output the default setting is voltage output When the voltage output is needed please connect JP1 JP2 and DA1V DA2V seeing the panel When the cur rent output is needed please connect JP1 JP2 and DA1C DA2C No function 0 Fault warning 1 Over current inspection 2 Over load inspection 3 Over voltage inspection 4 Less voltage inspection 5 Low load inspection 6 Over heat inspection 7 Running state with command 8 Abnormal PID feedback signal 9 Motor state of REW running 10 Ol Output Signal Arrival of setting the frequency 11 j 9 NM ge Ee Arrival of Upper frequency 12 i T 022 O3 Output Signal 1 Y 023 04 Output Signal ead of Lower Zeene 13 8 y 024 Arrival of FDT setting frequency 1 14 Arrival of FDT setting frequency 2 15 FDT frequency level inspection 16 Arrival of preset counter value 17 Arrival of upper limit counter 18 Program running one period completed 19 Speed tricking mode inspection 20 N command running state 21 REV running from inverter command 22 Deceleration running 23 Ac
114. val of setting the 11 g Arrive at set frequency frequency Arrival of Upper fre 3 12 PP Arrive at upper frequency quency Arrival of Lower fre f 13 Arrive at lower frequency quency Arrival of FDT settin 14 E Arrive at frequency 1 FDT set frequency 1 Arrival of FDT settin 15 E Arrive at frequency 2 FDT set frequency 2 FDT frequency level W 16 1 Y FDT frequency levels to meet the inspection conditions o29 031 inspection Arrival of preset coun f 17 Present counting value arrives at preset counting value ter value Arrival of upper limit f PEE 18 Present counting value arrives at upper limitation of counting value counter Program running one 19 g 6 Program runs one period to complete period completed Speed tricking mode E 20 i H 8 Inverter is under speed trick state the valid time is A11 inspection User Manual v 1 0 0 45 domestic and industrial automation N command running e Inverter is under N command running state state 22 Bey purine mem Inverter is under reverse running command inverter command 23 Deceleration running Inverter is under deceleration running 24 Acceleration running Inverter is under acceleration running Arrival of high 25 ES TE Arrival at high pressure sure 26 Arrival of low pressure Arrival at low pressure Arrival of inverter rate F 27 Arrival at inve
Download Pdf Manuals
Related Search