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1. Table 2 1 F1500 G Product List NUES Rated Input Voltage Rated Output Structure Applicable CV Current A Code Motor KW F1500 G0004XS2B 220 single phase 2 5 Bl 0 4 F1500 G0007XS2B 220 single phase 4 5 B2 0 75 Single Phase Inverter F1500 G0015XS2B 220 single phase 7 0 B2 1 5 with internal braking F1500 G0022XS2B 220 single phase 10 0 B3 22 unit F1500 G0037XS2B 220 single phase 17 0 B5 3 7 F1500 G0004S2B 220 single phase 25 BO 0 4 Single Phase Inverter F1500 G0007S2B 220 single phase 4 5 BO 0 75 without internal F1500 G0015S2B 220 single phase 7 0 B2 125 braking unit F1500 G0022S2B 7 220 single phase 10 0 B3 2 2 F1500 G0007T3B 380 three phase 2 0 B3 0 75 F1500 G0015T3B 380 three phase 4 0 B3 1 5 F1500 G0022T3B 380 three phase 6 5 B3 2 2 F1500 G0037T3B 380 three phase 8 0 B4 II Three phase inverter F1500 G0040T3B 380 three phase 9 0 B4 4 0 with internal braking F1500 G0055T3B 380 three phase 12 0 B5 5 5 unit F1500 G0075T3B 380 three phase 17 0 B5 7 5 F1500 G0110T3C 380 three phase 23 Cl 11 F1500 G0150T3C 380 three phase 32 C2 15 F1500 G0185T3C 380 three phase 38 C3 18 5 F1500 G0220T3C 380 three phase 44 C3 22 F1500 G0300T3C 380 three phase 60 C4 30 three phase inverter F1500 G0370T3C 380 three phase 75 5 37 without internal F1500 G0450T3C 380 three phase 90 C5 45 braking
2. EE 5 24 Performance Indexes esee NE 6 HI Installation amp Wiring mmm emen T 3 1 Installation eee EDD 7 32 Wiring k Esso 9 IV Operation amp Display 9 0 D 16 41 Keypad Control Unit CE 2 16 42 Function Parameters 18 4 3 Function Code Grouping SEA 19 44 Panel Display 9 EE 19 V Functions amp Parameters Instruction essem 20 51 Basic EE Nee 20 52 Com olibaramg s JP 24 P Tul 30 5 4 Programmable Input amp Output Terminal Parameters 33 ES Parameters cem mH IHR 36 SqutuyParameters 39 5 7 Timing Control amp Definable Protection Parameters 41 5 8 Analog signal Parameters a ened 43 5 9 Communication Parameters 0c cece cece eee sete ence 44 VI Simple Mode of Operation 45 6 1 Operation
3. 21529 130 Skip Width B H2 0 00 5 00 0 00 Displays 1 127 1 Frequency 2 Rotate Speed 4 Count Value 8 Output Current 16 Function Code Editing 32 Output Voltage 64 Linear Velocity 127 Display 127 Number of motor pole pairs Driven system s drive ratio 0 1 100 0 Transmission wheel radius m 0 001 1 000 F135 F138 Reserved Whether to start automatically after reconnection to power or malfunction O null I valid F140 F159 Reserved Reverting to manufacturer values 0 Not reverting to manufacturer values 1 Reverting to manufacturer values S1ojoureded o1juoo 8 F200 Operation Control 0 Keypad Control 485 Communication Control 1 Terminal Control 2 ComputerRemote Control F201 Key Functions 0 valid only in mode of keypad control 1 valid in any modes 2 valid at time of keypad 3 line control controlling start stop by direction pulse and computer remote control F202 F203 Reserved F204 Basic Speed Control Modes 0 Setting digital frequency setting keypad and terminal UP amp DOWN not saving result when power off 1 Setting digital frequency setting keypad and terminal UP amp DOWN saving result when power off 2 Multi speed control 3 Analog channel 1 ANI speed control 4 Analog channel 2 AN2 speed control 5 Analog Channel speed control
4. HF Make sure for a proper input voltage with inverter before it is connected with power Do not drop such metal objects as screwdriver or screw into inverter Do not install inverter in a place with direct sunlight Do not stem inverter s vent Do not connect input power to Teminals U V W or PE P B N No direct connection of braking resistor to Terminal P or N Control loop wiring shall be separate from power loop wiring to avoid possible interference N Warning Please read this manual carefully before any operation on inverter Inverter should not be stored or installed where there is strong vibration strong erosion heavy dust high temperature or greater humidity Regular check shall be required for a proper wiring with inverter s input and output and to make sure that the other wirings of the equipment are not aging Check is required for motor insulation resistance before installation and operation X Extra cooling measures shall be necessary if motor often runs at low speed Braking resistor or braking unit shall be adopted to avoid frequent over voltage or over current in case of negative torque energy feedback Neither variable resistor or capacitance should be connected to inverter s output to improve power factor Do not install a breaker between inverter s output and motor Should a breaker have to be installed it shall be ensured that it works only when inverter output
5. F204 Basic Speed ControlModes Setting Range 0 setting digital frequency setting keypad and terminal UP and DOWN not saving result when power off 1 setting digital frequency setting keypad and terminal UP and DOWN saving result when power off 2 Multi Speed control 3 Analog Channel 1 CANI Speed control 4 Analog Channel 2 AN2 Speed control Un Analog Channel Compound Speed Control 1 AN1 k2 AN2 of which ANI and AN2 implies the analog signal input by Analog Channel ANI and AN2 B Analog Channel Compound Speed Control 2 ANI k2 AN2 Same as above with 1 and AN2 Speed control set by pulse frequency 90 Code Speed Control means inverter is by various switching status combination of terminals OP1 OP8 9 Analog Channel Compound Speed Control 3 x ANI FK2 CAN2 5V 10 Keypad potentiometer speed control selection this function is available for single phase inverters without built in braking function and three phase 11 110K W inverters wote Mfr Value 0 Multi stage speed control includes multi stage speed running automatic circulating running and 8 stage speed running to be selected by function code F210 P29 Running frequency of stage speed can be adjusted 25 Iction Codes Zoom with keypad A W keys or UP and DOWN terminals The result of frequency adjusting is unsave
6. Acceleration time and deceleration time will be provided for each speed Mfr Value F302 5 00 F308 10 00 F302 F308 F314 F320 F326 F332 and F314 15 00 F338 Stage Speed Running Frequency Setting Range F112 F111 F320 20 00 ua F326 25 00 F332 30 00 F338 35 00 Running frequency for each speed will be provided n case of multistage speed control speed control is allowed for running frequency of stage speed by using keys or UP and DOWN terminals F303 F309 F315 F321 F327 F333 and F339 Stage Speed Running Time S Setting Range 0 1 3000 Mfr Value 20 0 Running time will be provided for each speed When auto circulating running F210 1 stage speed running time will be set by the above function codes In case of multistage running F210 0 or running at 8 speed F210 2 it will be running at stage speed and peripheral equipment control will be stopped Therefore It is not restricted by stage speed running time F505 RES 23 F329 F333 F341 Stage Speed Stop Waiting Time S Setting Range 0 0 3000 Mfr Value 0 0 Stop waiting time will be provided for each speed When auto circulating running F210 1 inverter will use stage speed stop waiting time in case of multistage running F210 0 or running at 8 speed F210 2 it will be running at stage speed and peripheral equipment control will
7. F517 Braking Lasting Time During Starting S Setting Range 0 0 10 0 Mfr Value 5 0 F518 Braking Lasting Time During Stopping S Setting Range 0 0 10 0 Mfr Value 5 0 In case of negative torque using pre starting braking may ensure that motor stays in quiescence before starting Parameters related to DC Braking F515 F516 F517 and F518 with following interpretations a F515 Initial frequency of DC braking DC braking will start when inverter s output frequency is lower than this value b F516 DC braking current The ratio of current and rated current in case of F517 braking The higher this value is the higher braking torque is F518 Fig 5 9 DC Braking c F517 Braking lasting time when starting The lasting time of DC braking before inverter starts d F518 Braking lasting time when stopping The lasting time of DC braking in course of inverter s stopping DC braking as shown in Fig 5 9 F519 Energy Consumption Brake Ratio 946 Setting Range 0 100 Mfr Value 50 t means ratio when power resistor is used in energy consumption braking Higher value will lead to quicker energy consumption with motor feedback which can effectively shorten inverter s deceleration time 5 5 3 Stalling Adjusting F525 Stalling Adjusting Function Selection Setting Range 0 not allowed 1 allowed Mfr Valu
8. s Input voltage analog of keypad control unit only for keypad control unit with potentiometer O J2 ANI Note3 F207 Keypad Direction Set Setting Range 0 forward reverse Mfr Value 0 In mode of keypad control F200 0 set motor s running direction F208 Terminal Control Mode Setting Range 0 two line type 1 1 two line type 2 2 three line type 1 3 three line type 2 4 start stop controlled by direction pulse Mfr Value 0 Five modes are available for termina Sio for normally closed contact eL oo for normally open contact 27 operation control As shown in Fig 5 2 o stands for switch on FWD REV and X are ction Codes Zoom three terminals designated in programming OP1 OP8 Fig 5 2 F208 Terminal Control Mode Terminal Function Realised and Control Loop Wiring 0 two line type 1 forward stop reverse stop 8 FWD terminal open stop close forward running REV terminal open stop close reverse running CM terminal common end 1 two line type 2 o kFWD terminal open stop close running O REV terminal open forward close reverse reverse forward running sto
9. 10 00 10 00 N F802 F806 Reserved Corresponding Fi for Mi s orresponding Frequency for Min FI2 FII 006 J Analog Hz Corresponding Frequency for Max F808 F112 F111 50 00 v Analog Hz F809 Max Input Pulse Frequency Hz 0529999 5000 x S1ojouredeq So peuyv Corresponding Frequency for Max F810 0 00 F111 50 00 x Input Pulse Frequency Hz 811 Filtering Time Constant S 1 0 10 0 3 0 N F812 F860 Reserved 485 Communication Interface 1 485 900 communication control 1 x Function Selection enclosure d S F901 Communication Address 17 127 Inverter address 1 z B 0 No calibration 3 c F902 Odd even calibration 1 Odd calibration 0 x B 2 Even calibration S 1 2400 o gH Ly 2 4800 S F903 Communication Baud rate bit 3 9600 3 x 4 19200 F904 960 Reserved Remarks x means that this function code can only be modified at stop means that this function code can be modified at stop or during running A means that this function code can only be checked but cannot be modified at stop or during running o means that this function code cannot be initialized when inverter s manufacturer value is restored and can only be modified manually 65 Appendix 3 Selection of Braking Resistor amp Braking unit Built in braking units are available with some of F1500 G series inverters some inverters of single
10. HFinverter Huifeng Inverter F1500 G Series 0 4 75kw Users Manual Thank you for your choice of HF inverter Perfect quality and wholehearted service is guaranteed from Yantai Huifeng Electronics Co Ltd As a general series of top quality muiltifunction and low noise F1500 G series inverter can meet your requirements for various applications This manual is to provide users with precautions on installation amp debugging parameter setting operation trouble diagnosing and daily maintenance Please read it carefully before installation and using inverter for proper operation This manual is provided together with inverter and should be kept properly for future use Indications for reading A Hazard Improper install tion or operation likely to cause human casualty or property loss AN Warning Improper installation or operation likely to cause human casualty or property loss Warning Improper operation likely to effect inverter performance P indicating the relevant page number MIN a b indicating the lower one of values a and b MAX a b indicating the higher one of values a and b x Contents _ CONTENTS I Operation in Safety nose FE REC ENSE ERU HR E 1 1 2 Products n sad sks neve 3 2 1 Models amp Nameplate cesses mm me eme 3 22 Products List 4 nette ciere eme ee e tfi 3 2 3 Appearance
11. inverter shall automatically operate as per acceleration deceleration time operation time operation frequency and operation direction set in each stage speed as required by users after operation command is given when operation reaches the set time value inverter shall automatically switch among stage speeds During the operation inverter shall continuously operate according to the set parameters if no command of stop is given or it doesn t reach the set value by F212 operation times of auto circulation Auto circulating operation can be called by run key or the defined operation terminal and can be automatically removed by the setting of F212 or by stop key on the keypad or the defined stop terminal Auto circulating operation can realize auto circulating operation of 2nd 7th speeds set by F211 Once the times of circulation is reached set by F212 inverter shall stop automatically or remain in stable operation at the final stage speed frequency set by F213 e g F211 7 select auto circulating operation of A Frequency 7J stage speed F212 1000 automatic circulating operation for 1000 times F213 0 it automatically stops after circulating operation end As the F1500 G inverter is carrying the function of auto circulating operation it shall directly switch from current speed to the next Fig6 2 Auto Circulating Operation stop wait t
12. inverter will stop immediately upon receiving stop signal Setting Range F121 Stopping Mode 0 stop by deceleration time Mfr Value 0 1 free stop Stop by Deceleration Time means that motor controlled by inverter will slow down and stop at 0Hz by the set deceleration time Free Stop means that after inverter cuts off output upon receiving stop instruction motor will run freely and stop by inertia Free Stop mode will be selected by function code F700 P42 0 free stop 21 ction Codes Zoom T immediately 1 delayed free stop and F701 Delay time of Free Stop and Programmable Output Terminal s Action F122 Reverse Running Forbidden Setting Range O null 1 valid Mfr Value 0 This function may avoid damage on equipment due to mis operation causing motor reverse running F124 Jogging Frequency Hz Setting Range F112 FI11 Mfr Value 5 00 F125 Jogging Acceleration Time S Setting Range 0 1 3000 Mfr Value 20 0 F126 Jogging Deceleration Time S Jogging function only applies to teminal control mode F200 1 Jogging operation can be realized by connected CM with the programmable input terminal OP1 OP8 defined as jogging function Receiving jogging operation instruction Jogging Operation URBES Jogging Operation F127 F129 Skip Frequency A B Hz Setting Range 0 00 F111 Mfr Values
13. 0 00 F128 F130 Skip Width A B Hz Setting Range 0 00 5 00 Mfr Values 0 00 Systematic vibration may occur when the motor is running at a certain frequency This parameter is set to skip this frequency The inverter will skip the point automatically when output frequency is equal to the set value of this parameter Skip Width is the span from the upper to the lower limit around Skip Frequency Output A Frequency F129 li time ip F As shown in Fig 5 3 Skip Frequency 20Hz Skip Width 5 00 inverter will skip automatically when output is between 17 5 22 5Hz F131 Displays Setting Range 1 127 1 Frequency 2 Rotate Speed 4 Count Values 8 Output Current 16 Function Code Editing 32 Output Voltage 64 Linear Velocity 127 Display Mfr Values 127 22 ction Codes Zoom Selection of any value from 1 2 4 8 16 32 and 64 shows that only one specific display item is selected Should multiple display items be intended add Display Indication Unit the values of the corresponding display items Frequency 50 00 Hz and take the total values as the set value of F131 PR us UE e g just set F131 to be 25 1 816 if you want Count Value 99 Output to call frequency output current and Current A 3 5 Ampere m TES N Function Code F112 function code editing The other displa
14. 1 00 0 01 x F231 F260 Reserved F300 1 stage Speed Running Direction 0 Forward 1 Reverse 0 Jd lt F301 1 stage Speed Acceleration Time 0 1 3000 20 0 E F302 1 stage Speed Running Frequency F112 FI1I 5 00 F303 1 stage Speed Running Time 0 1 3000 20 0 a e F304 1 stage Speed Deceleration Time 0 1 3000 20 0 F305 1 stage Speed Stop Waiting Time 0 0 3000 0 0 59 Class uo Definition Setting Range Mfr s Value Note F306 2 stage Speed Running Direction 0 Forward 1 Reverse 1 F307 2 stage Speed Acceleration Time 0 1 3000 20 0 4 F308 2 stage Speed Running Frequency F112 F111 10 00 F309 2 stage Speed Running Time 0 1 3000 20 0 4 F310 gu stage Speed Deceleration Time 0 1 3000 20 0 4 F311 2 stage Speed Stop Waiting Time 0 0 3000 0 0 Y F312 3 stage Speed Running Direction 0 Forward 1 Reverse 0 y F313 3 stage Speed Acceleration Time 0 1 3000 20 0 F314 3 stage Speed Running Frequency F112 F111 15 00 N F315 3 stage Speed Running Time 0 1 3000 20 0 F316 3 stage Speed Deceleration Time 0 1 3000 20 0 F317 3 stage Speed Stop Waiting Time 0 0 3000 0 0 F318 4 stage Speed Running Direction 0 Forward 1 Reverse 1 2 F319 4 stage Speed Acceleration Time 0 1 3000 20 0
15. 4 5 Deceleration Over Voltage 6 7 Down 9 Inverter Overload 0 Motor Overload 1 Excess Temperature 2 User s Password Error Serious Exterior Interference 3 Out Phase F722 The Latest Malfunction Type 5 Emergency Stop 9 Galvanoscopy Error 21 Peripheral Equipment Malfunction F723 Latest Malfunction Frequency Hz F724 Latest MalfunctionCurrent A F725 The Latest Malfunction Voltage V 42 ction Codes Zoom 1 F720 725 is used to record the latest three malfunction types and the corresponding frequency current and voltage at last malfunction Refer to Appendix 1 Pss for causes and countermeasures for any malfunction 5 8 5 8 1 Analog signal Input Analog signal Parameters In mode of analog speed control it is necessary to set the min and max input analog and the corresponding output frequency to secure a good speed control effect F800 Min Analog Input V Setting Range 0 00 MIN F801 10 00 Mfr Value 0 00 Setting Range MAX 0 00 F800 F801 Max Analog Input V Mfr Value 10 00 10 00 F807 Corresponding Frequency for R Setting Range F12 FI11 Mfr Value 0 00 Min Analog Hz F808 Corresponding Frequency for Max Analog Hz Setting Range F112 F111 Mfr Value 50 00 Set min and max analogs as per actual input range of analog signal The setting values of F807 and
16. Control Terminal Functions 14 Install amp wiri Classificat Mfg Terminal Function Description Specification ion Function FM Voltage Output voltage is proportional to output Output voltage range 0 10 5 V Analog Output frequency or current Max output current 10mA Output Output current range 0 4 Current Output current is proportional to output Signal IM Output frequency or current 20mA Terminal s external load impedance not more than 5000 Power 10V Voltage 10V power reference power reference 10V Reference Source point GND terminal lt 100 Voltage amp Both terminals are used for analog signal Input voltage 0 10 5 V ANI Voltage Input speed control and PI setting amp feedback Current Each channel can receive voltage signal Input impedance 78KQ Analog input and current signal input Input log signal mode is subject to j Input t 0 4 20mA signallnput AN2 Current Input analog signal mode is subject to es nput curren terminal refer to Pj for use of Input impedance 500Q Terminal jumper terminal Ref C ted with CM PE 91616106 GND dee Reference gnd for 10V voltage source gnd gn or N terminals is unallowed Control Accessory power supply for input terminal P DC 24V 24 Power Power supply port is CM Source Supply terminal lt 200mA Common Common Common port for OP1 OP8 terminal
17. Sampling Cycle refers to that of feedback quantity x Quantity Feedback Quantity Ti as shown here refers to K Integration Time Fig 5 10 PI Adjusting bigger Ti is the slower the system responds the smaller Ti is the faster the system responds but it is to surge Contrariwise with Proportion Gain P 11 Adjusting Accuracy Setting Range 0 20 Mfr Value 5 Output It refers to the percentage of the E ing Value Deviation Range deviation between feedback of PI regulation setting value et against close loop given value Devia lowed by PI Fig 5 11 Deviation Range Allowed regulation is shown in Fig 5 11 Setting Range F612 PI Regulating Polarity 0 negative feedback adjusting Mfr Value 0 1 positive feedback adjusting Negative feedback adjusting means that when regulation deviation is positive PI adjusting will bring output frequency down Positive feedback adjusting means that when regulation deviation is positive PI adjusting will bring 40 output frequency up 5 7 5 7 1 Timing Control Timing Control amp Definable Protection Parameters iction Codes Zoom 700 Mode Selection for Free Stop 1 Stop Delay Setting Range 0 Stop immediately Mfr Value 0 F701 Delay time of Free Stop Programmable Output Terminal s Action S and Setting Range 0 0 60 0 Mfr V
18. and three phase 11 75KW inverter keypad potentiometer analog signal Vk selection is set by function code F204 F204 10 Note 4 Terminals P and B in Wiring Diagram 2 are connected to braking resistor while Terminals P and N are connected to braking unit Terminals P and P to reactor as per main loop terminals 3 2 2 Input amp Output Terminals 1 Power Terminals The wiring of power loop is very simple R S T terminals of 3 phase inverter R and T terminals of 1 phase inverter shall be connected to power supply PE E shall be connected to grounding And U V W terminals shall be connected to motor Motor must be grounding For 1 phase inverter if the load is too heavy the built in braking unit can not meet the requirement In this case user should use external braking unit For 3 phase inverter with power lower than 15kw there is built in braking unit If the load is not too heavy user can only connect braking resistance to meet the braking requirement T S T BU Grounding Input AC380V Braking resistance output pu pP N R S 1 U V W This figure is only a sketch map maybe there is some difference from actual situation 380V Please refer to actual situation when inverter is used 12 Table 3 3 Main Loop Terminals Description Terminals Terram gil Terminal Function Description Marking R S T Three phase 380V AC input terminal Power Sii
19. inverter s running Y keys can set digital setting 10 00 Steady display on control panel It means the inverter s running frequency or parameter settings F112 Function codes parameter codes 2 5 It means output current 2 5A U100 It means output voltage 100V L 10 0 It means linear velocity of 10meters second 100 It implies either rotate speed 100rpm or count values 100pcs to be differentiated as per the actual case by users 1 345 It means rotate speed 13 450 rpm OC1 OC2 OE1 OE2 OE3 OLI1 OL2 LU PEr OH AdEr Cb ESP ErP Err Malfunction Info refer to Appendix 1 on P52 19 Iction Codes Zoom V Function amp Parameters Instruction 5 1 Basic Parameters F100 User s Code Setting Range 0 9999 Mfr Value 8 Enter correct user s password after power connection if you intend to change parameters Otherwise parameter setting will not be possible Use may change user s password same as changing other parameters Mfr Value subject to F102 Inverter s Rated Current A inve la Mfr Value power value of F103 Inverter Power KW Setting Range 0 40 75 0 this RR F105 Software Edition No Setting Range single phase Mfr Value subject to S puso Voles Tne 3 three phase inverter model Mfr Value subject to F107 Inverter s Rated Input Voltage V Setting Range 220 or 380 her model Preset by manufac
20. otherwise reset to 0 Switch the speed control mode PI to that of F204 When the Close Loop Switched to function terminal is open circuit with CM it will be controlled Open Loop by the close loop When it is connected with CM by open loop Compound Channel Speed r Realize the switchover between compound speed control and 20 Control Switched to Single single channel analog speed control default AN1 channel Channel Speed Control 21 Terminal Counting Input of count pulse of the built in counter 22 Count Value Reset to Zero Reset the terminal count value to zero Pulse Frequency Input I When F408 23 set the speed with the external input pulse 23 Terminal Only valid for 1 Max frequency of the pulse input 9999Hz 34 5 4 2 iction Codes Zoom Warning 1 The count pulse frequency of the input terminal must not exceed 300Hz Otherwise the counter error will appear 2 Terminal functions are not allowed for redefination except for coding speed control Programmable Output Terminal F416 Relay Output F417 OUT Terminal Output Setting Range 0 13 Mfr Value 1 Mfr Value 4 Programmable output terminal includes collector open circuit output terminal OUT and relay output terminals TA TB and TC The output terminal action in the following table refers to the relay sucking TA closes TC TB disconnects TC disconnection OUT terminal i
21. 1 K1 ANI K2 AN2 Channel speed control 2 KI ANI K2 AN2 7 Speed control set by pulse frequency Compound 6 Analog Compound 8 Code speed control 9 Analog Channel Compound speed control 3 K1 ANI K2 AN2 5V 10 Keypad potentiometer speed control selection 58 on Codes Zoom Class Definition Setting Range Mfr s Value Note 205 F206 Reserved F207 Keypad Direction Set 0 Forward 1 Reverse 0 0 two line type 1 1 two line type 2 F208 Terminal control mode 2 three line type 1 0 x 3 three line type 2 4 Start stop controlled by direction pulse O Adjustment stage speed forbidden F209 Stage speed Changing AE 0 x 1 Adjusting stage speed allowed 0 Multi stage speed running F210 Stage Speed Types 1 Auto circulation running 0 x 2 8 stage speed running Auto Circulation Running Speed 3 E go F211 2771 p x Selection Auto Circulation Running Times 5 F212 0 9999 0 N q Selection Free Running Selection afer Auto 0 Stop 5 F213 f 0 5 Circulation Running 1 Keep running at last stage speed 5 5 F214 kl 0 0 10 0 1 0 N Cc E F215 k2 0 0 10 0 1 0 N ua F216 F220 Reserved F221 Count Frequency Divisions 1 1000 1 x F222 Set Count Times F224 9999 1 F223 Reserved F224 Designated Count Times 1 F222 1 x F225 F229 Reserved F230 Frequency setting Step Length Hz 0 01
22. Function error exterior interference contactor monitoring 6 LED nixie tube showing present output frequency present rotate speed present output current present output voltage final axis linear velocity exterior pulse count value types of Display error function code parameters and operation parameters 4 LED indicators showing the current working status of inverter Equipment Location Free of tangy caustic gases or dust 7 Environment Temperature 10 50 C Environment 7 m 7 Environment Humidity Below 90 no water bead coagulation Conditions Vibration Strength Below 0 5g acceleration height above sea level Below 1000 meters Applicable 0 4 75KW Motor Power III Installation amp Wiring 3 1 3 1 1 Installation Installation Direction amp Space For better heat radiation of inverter it should be installed perpendicularly as shown in Fig 3 1 while ventilation space shall be secured in the surroundings For clearance dimensions for installation of inverter refer to Table 3 1 recommended Hanging Type Fig 3 1 Inverter Installation Illustration Table 3 1 Clearance Dimensions Inverter Type Clearance Dimensions Hanging Type lt 22KW A 150mm B250mm Hanging Type 222KW AZ200mm B 75mm 3 1 2 Installation Environment No drenching dripping steam dust or oily dust no caustic flammable gases liquid no metal particles or metal pow
23. Terminal Control shall control inverter s operation through programmable input terminal named with FWD REV and X functions OP1 OP8 Four control modes are available in mode of terminal control Refer to function code F208 Computer Remote Control means that computer will control inverter s operation through 485 communication interface Setting Range 0 valid only in mode of keypad control F201 Key Functions 1 valid in any modes Mfr Value 0 2 valid at time of keypad terminal 3 line control controlling start stop by direction pulse and computer remote control As F201 0 and in mode of keypad control press this key during running inverter will stop by deceleration time 24 ction Codes Zoom As F201 1 and in mode of keypad control press this key during running inverter will stop by deceleration time in mode of terminal control or computer remote control press this key during running inverter will stop Meanwhile keypad control unit will display error signal ESP As F201 2 this key will work in modes of keypad terminal 3 line control start stop controlld by direction pulse code timing and computer remote control Press this key during running inverter will stop by deceleration time As inverter is having stalling operation press this key during running inverter will stop Meanwhile keypad control unit will display error signal ESP
24. and Connected with GND PE Port Port 24V power supply or N terminal is unallowed Jogging connection between this terminal and CM OPI 3 E Corotation can affect jogging forward running OP2 Multi stage Speed OP3 CORO Multi stage Speed transfer terminal External 4 Terminal Control External I Refer to F408 F415 OPS Hineroenc Input emergency stop signal and inverter 3 Terminal ien Y will display ESP fault signal for other function settings Input m z OP6 FWD Refer to Table 5 2 P29 Terminal Control Terminal p u Mode for inverter terminals running control REV a 7 terminal Terminal OP8 Reset Connection between this terminal and CM can reset inverter 15 OPERATION amp DISPLAY 4 1 Keypad Control Unit 4 1 1 Operation Panel Instruction There are two types of keypad control units with F1500 G series inverter with or without potentiometer with two kinds of dimensions for each keypad control unit Refer to Fig 4 1 notes __ 4 LED showing workin amp cl tting External Dimension Opening With potentiometer Vk its 16 41 2 Table 4 1 Keypad Instruction Key Name peration amp Disple Key Instruction Description Mode Key Entering the display mode of function code editing To switch for different dis
25. between 100 and F508 ED Qo xu F508 5 F506 ee gt E505_ 507 E118 f Fig5 8 Polygonal Line Type V F Curve 511 Auto Voltage adjusting Setting Range 0 no adjusting Mfr Value 0 1 adjusting n case of fluctuation with input voltage keep output voltage stable this function may automatically adjust ratio of PWM output to F512 Carrier Wave Frequency Setting kHz Setting Range 1 values setas Mfr Value subject to per inverter model inverter model Carrier wave frequency is modulating frequency when inverter outputs PWM wave Promoting carrier wave may improve output current waveform reduce motor noise but the temperature of inverter will rise F513 Random Carrier Wave Selection Setting Range 0 not allowed Mfr Value 1 1 allowed F513 0 inverter will modulate as per the carrier wave set by F512 F513 I inverter will operate in mode of random carrier wave modulating which will reduce noise effectively 5 5 2 Braking Parameters 37 iction Codes Zoom F514 DC Braking Function Selection Setting Range 0 not allowed 1 braking during start 2 braking during stop 3 braking during start stop Mfr Value 0 F515 Initial Frequency of DC Braking Hz Setting Range 0 00 5 00 Mfr Value 5 00 F516 DC Braking Current 96 Setting Range 0 150 Mfr Value 100
26. by F700 F700 0 stop at once F700 1 delayed stop F701 P39 sets delayed stop time 2 Multi Speed Control F204 2 Multi speed control is further divided into 4 modes multi speed running automatic circulating running 8 stage speed running and compound stage speed running which is selected by F210 F210 0 multi speed 46 ction Codes Zoom 1 running F210 1 automatic speed running F210 2 8 stage speed running P29 Stage speed changing control is done by F209 F209 0 allows no adjustment to segment speeds 209 1 allows adjustment to segment speeds P29 Multi segment speed s related parameters are set by F300 F344 P31 Operation control is selected by F200 F200 0 keypad control 485communication control F200 1 terminal control F200 2 computer control P25 Terminal control mode is selected by F208 F208 0 two line type 1 F208 1 two line type 2 F208 2 three line type 1 F208 3 three line type 2 F208 4 start stop controlled by direction pulse Pos Adjustment step length of frequency is set by F230 Setting range is 0 01 1 00Hz P31 Stop mode is selected by F121 F121 0 stop by deceleration time F121 1 free stop Free stop is selected by F700 F700 0 stop at once F700 1 delayed stop F701 P39 sets time of delay stop a Multi Speed Running F204 2 F210 0 Multi speed involves 7 speeds their frequency values acceleration and deceleration time and so on can be revised via parameters
27. channel feedback means taking the pulse frequency input by terminal as feedback F408 23 P34 F604 Min Analog Set by PI V Setting Range 0 00 F606 Mfr Value 0 00 F605 Corresponding Feedback for Setting Range 0 00 10 00 Mfr Value 0 00 Min Analog Set by PI V F606 Max Analog Set by PI V Setting Range F604 10 00 Mfr Value 10 00 F607 Corresponding Feedback for Setting Range 0 00 10 00 Mfr Value 10 00 Max Analog Set by PI V Set F604 F607 as per the setting value scope and feedback scope of the close loop adjusting system as well as interrelation between setting value and feedback value Normally setting is done as per the corresponding relation between setting and feedback meter If thermo regulation is made regulation range is 20 100 C and setting range of the corresponding control 39 ction Codes Zoom system is 2 8V and when temperature fluctuates within 20 100 C and output range of temperature measurement meter is 3 9V then F604 F607 is set as follows F604 2 00 F606 8 00 605 3 00 F607 9 00 F608 Proportion Gain Setting Range 1 1000 Mfr Value 100 F609 Integration Time S Setting Range 0 1 10 0 Mfr Value 0 1 F610 Sampling Cycle S Setting Range 0 1 10 0 Mfr Value 0 1 Proportion Gain P and Integration Time Ti as Extent limited Output shown in Fig 5 10 Stine Yalue Control
28. current reads 1500 inverter has a safety level of IP20 Cleaning is recommended on inverter s internal components and radiator after it is in use for 1 3 months Should it not be used for a long time inverter should be switched on at a certain interval better one month II Products 21 Models amp Nameplate Product model is interpreted as below taking for instance the single phase 1 5KW inverter with internal braking unit Structure Mode Code B Plastic Housing Metal Hanging D Metal Cabinet Type Input Voltage Type S2 Single phase Fig2 1 Product Model Illustration F1500 G series inverter s nameplate is illustrated as Fig 2 2 taking the single phase 1 5KW inverter for instance AC alternating current input 1PH single phase input 220V and 50 60Hz stands for rated HFinverter ELECTRONICS CO LTD input voltage and frequency M 3PH three phase output 1 5KW and 7A stands for inverter s 3PH 15KW 40 0 3801 rated power and rated output current while 0 220V inverter s OUTPUT 0 00 400 0HZ output voltage range E F15G0015T3616000005 0 00 400 0Hz output frequency range 2 3 Product List F1500 G series inverter s power range 0 2 For main information refer to Table 2 1 For inverter s external dimensions and installation dimensions please refer to 3 1 3 Po 3 Install amp wiring
29. function refer to 6 2 Speed 2 Multi Speed Terminal 2 Control Mode P47 for multi speed control 3 Multi Speed Terminal 3 1 When malfunction protection occurs this terminal is connected eset with CM which will reset converter During it s working this terminal is connected with CM which 5 Free stop B will bring converter to free stop 6 Reserved The inverter will stop output immediately if it receives external emergency stop signal during running ESP 7 External Emergency Stop malfunction signal will be displayed in the meanwhile Resetting will be possible after signal of external emergency stop is released During acceleration deceleration this terminal works i e this terminal is connected CM Inverter stops acceleration Acceleration Deceleration i 8 AP deceleration and keeps the present running frequency this Prohibited 4 terminal does not work i e this terminal breaks up with CM acceleration deceleration process will continue Jogging Forward Running Connecting terminal with CM could make jogging forward JOGF running i8 Jogging reverse running Short circuit of this terminal with CM could make jogging JOGR reverse running Table 5 3 continued Programmable Input Terminal Function 33 ction Codes Zoom F408 F415 Description Remarks Frequency Increasing by DE 11 This terminal is equal to t
30. of programmable input terminal ess sti res et i se f 7 ross case Normal indication stalling d Disconnect malfunction terminal after removal Peripheral E 3 Terminal of Peripheral ofexternal malfunction ErP equipment N h me aor n equipment malfunction closes Change the function of programmable input malfunction S ME terminal Wr ser s W input of user s password ub E Y LS SAPE Input user s password again m Stron electromagnetic Serious external d Check if the surroundings are satisfactory for 2 Interference with inverter s interference 4 use of inverter as required in 3 1 2 surroundings Too high surrounding temperature Reduce surrounding temperature Fan damaged Change the fan Installation position is not fit for Install per manual and improved temperature ventilation ventilation Radiators too dirty Clean the inlet and outlet and the radiators Power module is abnormal Seek manufacturers service Contactor does Cb ontaetor OLS Too low voltage of power network Check the voltage not suck Contactor damaged Change the main loop contactor Trouble with the control loop Seek manufacturers service 55 Table 1 continued Malfunctions amp Solutions Malfunctio n display Description Causes Solutions Baud rate serune Change inverter s Baud rate to manufacturer s wh
31. selected by F121 F121 0 stop by deceleration time F121 1 free stop which is chosen by F700 F700 0 stop immediately F700 1 delayed stop F701 P39 sets delay stop 3 Single channel analog signal speed control F204 3 4 or 10 Note3 Analog speed control means to adjust inverter s output frequency by the analog signal of voltage or current during which voltage analog signal can be defined by the external potentiometer or that of the keypad control unit or it can also be defined by output analog signal of other facilities Current analog signal can be defined by corresponding sensors or by output of other control facilities As F204 3 The speed control signal of analog signal shall be input by terminal AN1 as F204 4 speed control signal of analog signal shall be input by terminal AN2 F204 10 is used to select the control speed of the analog signal of keypad potentiometer Vk Note 3 Note 3 No J2 jumper terminals with both single phase inverters without built in braking unit and 3 phase 11 110KW inversion Analog signal of keypad potentiometer Vk is set by function code of F204 Different ways of speed control can be reached by using jumper terminals and function parameter settings together see details on P27 for Application of Jumper Terminals Related parameters of analog signal are set by F800 TF811 P44 Operation control is selected by F200 F200 0 keypad control 485 communication control F200 1 termi
32. stage speed in case of compound speed control F302 15 00 F308 20 00 F314 25 00 F320 30 00 F326 35 00 F332 40 00 F338 45 00 F343 1 select the control mode both by multistage speed control and analog speed control The running frequency at each speed will then be the sum adding multistage speed set frequency and AN2 channel analog values Analog value set for AN2 is 0 10V to be provided by peripheral equipment through AN2 channel corresponding frequency 0 10Hz e g the values set for running frequency at each speed F302 5 00 308 10 00 F314 15 00 F320 20 00 F326 25 00 F332 30 00 and F338 35 00 If the values set for AN2 channel analog is 5 0V running frequency at each speed at time of compound speed control F302 10 00 F308 15 00 F314 20 00 F320 25 00 F326 30 00 F332 35 00 F338 40 00 32 iction Codes Zoom 5 4 Programmable Input amp Output Terminal Parameters 5 4 1 Programmable Input Terminal Mfr Value F408 F415 Terminal Function F408 9 F409 1 F410 2 Setting Range 0 23 Definition F411 3 F412 7 F413 13 F414 14 F415 4 Terminal function OP1 OPS will be defined separately 22 functions can be available for each terminal Table 5 3 Programmable Input Terminal Function F408 F415 Description Remarks 0 No Function 1 Multi Speed Terminal Used in defining multi speed
33. undervoltage pro ection F715 Overloading Adjusting Gains Setting Range 0 1000 Mfr Value Adjusting value F716 Inverter Overloading Coefficient Setting Range 150 180 Mfr Value Adjusting value 4l tion Codes Zoom F717 Motor Overloading Coefficient Setting Range 20 120 Mfr Value Adjusting value As output current is accumulated to overloading protection value inverter will start overloading protection Overloading Adjusting Gains F715 the time constant of the response speed of overload protection which is used to regulate the speed of frequency decreasing The bigger gains are the slower frequency decrease Inverter Overloading Coefficient F716 the ratio of overload protection current and rated current when overload protect occurs Its value shall be subject to actual load Motor Overloading Coefficient F717 Set as follows in order to protect motor when inverter is running with lower power motor Actual Motor Power F717 Motor Overloading Coefficient X 10026 Proper Motor Power for Inverter 5 7 3 Trouble Recording 0 No Trouble 1 Acceleration Over Current F720 Third Malfunction Type By Counting Down Deceleration Over Current Constant Speed Over Current Acceleration Over Voltage Constant Speed Over Voltage stu Undervoltage F721 Second Malfunction Type By Counting 2 3
34. 20V Output Frequency Range 0 00 400 0Hz frequency resolution ratio0 01Hz Overload Capacity 150 60S Frequency Setting Digit Setting 0 01Hz Analog signal Setting Max Frequency 0 4 Accuracy Setting Mode optimized space vector control 3 kinds of V F curves To select and set beeline V F curve polygonal V F Curve line V F curve and square V F curve as per load Torque Promotion Manual setting torque promotion within 1 15 Control M Automatic Voltage Automatic setting output voltage to meet input power fluctuation ode Setting within certain range Braking Mode DC Braking Optimized Energy consumption Braking PI Adjusting With built in PI adjuster for automatic control Jogging Jogging Range 0 00 400 0Hz Automatic Circular User will program output frequency mode as per process Running requirements Digit frequency setting keypad Y keys setting UP and DOWN terminals setting Keypad potentiometer or external analog signal 0 10V 0 20mA Frequency Setting setting Operation Analog channel compound operation setting Functin Multi stage speed control and coding speed control 485 communication control box computer setting Control over keypad 485 communication control box terminals and Start Stop Control computer Input out phase input undervoltage over voltage over current inverter overload motor Protection overload overheat current check trouble peripheral equipment trouble user password
35. 27 It should be noted that computer s broadcasting address is 255 When implementing the broadcasting command computer may control all inverters in the network with no need for inverters to set broadcasting address Communication checking type is selected by F902 F902 0 non checking F902 1 odd checking F902 2 even checking Communication Baud rate is set by F903 2400bit for F903 1 4800bit for F903 2 9600bit for F903 3 and 19200bit for F903 4 Stop mode is selected by F121 F121 0 stop by deceleration time F121 1 free stop Of which free stop is selected by F700 F700 0 instant stop F700 1 delayed stop F701 P39 sets delayed stop time 53 Appendix 1 Trouble Shooting When malfunction occurs to inverter or motor users may get the type of malfunction the bus voltage output current and frequency of the moment that malfunction occurs through reading F720 F725 and carry out inspection and analysis according to the following table or contac manufacturer when necessary Table 1 Malfunctions amp Solutions Malfunction uS Description Causes Solutions Display Acceleration time too short Prolong acceleration time Short circuit on the side of output Motor cable damaged not motor insulation level is satisfactory to requirement or not odi Acceleration Inverter s power is small Select bigger power inverter over current I rere pe
36. 9 When compound speed control the actual value of input analog will be the product of set value for peripheral equipment and proportion parameters e g when k1 0 5 k2 2 0 scope for analog which is input into inverter through ANI channel is 0 0 5 0V scope for analog which is input into inverter through AN2 channel is 0 0 20 0V F221 Count Frequency Divisions Setting Range 17 1000 Mfr Value 1 E222 Set Count Times Setting Range F224 9999 Mfr Value 1 F224 Designated Count Times Setting Range 1 F222 Mfr Value 1 29 ction Codes Zoom Count frequency divisions refer to the ratio of actual pulse input and inverter s count times i e Actual Pulse Input Inverter s Count Times Count Frequency Division e g when F221 3 inverter will count once for every 3 inputs of external impluse Set count times refer to a count width pulse output by the output terminal OUT terminal or relay programmed with reaching the set count times function when a certain number of pulses are input from OPI Count will restart after the count value reaches fixed times As shown in Fig 5 6 if F221 1 F222 8 F417 7 OUT will output an instruction signal when OP1 inputs the 8 pulse Designated count times refer to an pulse output by the output terminal OUT or RELAY terminal programmed with reaching the set count times function when a certain number of pulses are input from OPI until
37. F808 decide proportion mode of analog adjustment change as shown in Fig 5 12 MIN F801 10 00 refers to the smaller one of the two values between F801 setting value and 10 00 MAX 0 00 F800 refers to the bigger one of the two values between F800 setting value and 0 00 Input Analog 5 8 2 Input Analog F801 E801 E800 E800 F807 F808 Copesponding F807 frequency Fig5 12 Proportion Mode of Analog Adjusting Pulse Frequency Input F808 Corresponding frequency F809 Max Input Pulse Frequency Hz Setting Range 0 9999 Mfr Value 5000 43 ction Codes Zoom F810 Corresponding Frequency for Max Setting Range 0 00 F111 Mfr Value 50 00 Input Pulse Frequency Hz e As F204 7 P26 and F408 23 inverter s running frequency can be controlled through pulse frequency input by OPI terminal F809 provides the max pulse frequency allowed for inverter s input Inverter will not proceed in case of exceeding this frequency F811 Filtering Time Constant S Setting Range 1 0 10 0 Mfr Value 3 0 Filter the input analog signal The bigger the value is the steadier the analog set frequency is but will have a slow response 5 9 Communication Parameters F900 485 Communication Interface Setting Range 0 computer Mfr Value 1 Function Selection 1 485 Communication Control Enclosure This function is u
38. For single phase 220V AC input connected to L1 and L2 Termina L1 L2 L3 For three phase 220V AC input connected to L1 L2 and L3 Note no L3 terminal for single phase inverter without built in braking unit Output Terminal U V W Inverter power output terminal connected to motor Terminals al Terminal Function Description Marking Ground ms PE Inverter grounding terminal or connected to ground Terminal PB External braking resistor Note no Terminals P or B for inverter without built in braking unit DC bus line output externally connected to braking resistor Braking Terminal PN P connected to input terminal P of braking unit or terminal N connected to input terminal of braking unit N or terminal P P Externally connected to reactor Table 3 4 Wiring Recommended for Input Output Loop Lead Section Area Lead Section Area Inverter Model Inverter Model mm mm F1500 G0004XS2B 1 5 F1500 G0040T3B 2 5 F1500 G0007XS2B 2 5 F1500 G0055T3B 4 F1500 G0015XS2B 2 5 F1500 G0075T3B 4 F1500 G0022XS2B 4 0 F1500 G0110T3C 6 F1500 G0004S2B 1 5 F1500 G0150T3C 10 F1500 G0007S2B 2 5 F1500 G0185T3C 16 F1500 G001552B 2 5 F1500 G0220T3C 16 F1500 G0022S2B 4 0 F1500 G0300T3C 25 F1500 G0007T3B 1 5 F1500 G0370T3C 25 F1500 G0015T3B 2 5 F1500 G0450T3C 35 F1500 G0022T3B 2 5 F1500 G0550T3C 35 F1500 G0037T3B 2 5 F1500 G0750T3C 60 13 Install amp w
39. Mode Block Diagram 45 6 2 Speed Control Mode 46 Appendix 1 Trouble Shooting sss 54 CONTENTS Appendix2 Function Codes Zoom Table 57 Appendix 3 Selection of Braking Resistor and Braking unit 66 Appendix 4 485 Communication Control Box 68 II peration in Safet I Operation in Safety Hazard tt Inverter is not allowed to install in a place with flammable or explosive gases in case explosion may be triggered off Only competent professionals can handle installation wiring operation and maintenance on inverter Inverter grouding terminal PE shall be well connected to earth grounding impedance not more than 4 0 Shortcircuit is not allowed between common point CM and reference point GND or AGND for inverter s internal power supply and input zero line or inverter s own N teminal Make sure that wiring is properly connected and cover board is well fixed prior to inverter switch on Do not touch inveter s charged terminals with hands after it is switched on Swich off before conducting any wiring or maintenance No maintenance is allowed within the first 10 minutes after switch off or when DC bus voltage exceeds 36V Do not touch internal circuit or components Warning
40. Y F320 4 stage Speed Running Frequency F112 F111 20 00 zv F321 4 stage Speed Running Time 0 1 3000 20 0 F322 4 stage Speed Deceleration Time 0 1 3000 20 0 F328 4 stage Speed Stop Waiting Time 0 0 3000 0 0 F324 5 stage Speed Running Direction 0 Forward 1 Reverse 0 325 5 stage Speed Acceleration Time 0 1 3000 20 0 F326 s stage Speed Running Frequency F112 F111 25 00 F327 5 stage Speed Running Time 0 1 3000 20 0 F328 5 stage Speed Deceleration Time 0 1 3000 20 0 4 F329 5 stage Speed Stop Waiting Time 0 0 3000 0 0 F330 6 stage Speed Running Direction 0 Forward 1 Reverse 0 F331 6 stage Speed Acceleration Time 0 1 3000 20 0 q4 F332 6 stage Speed Running Frequency F112 F111 30 00 F333 6 stage Speed Running Time 0 1 3000 20 0 V F334 6 stage Speed Deceleration Time 0 1 3000 20 0 F335 6 stage Speed Stop Waiting Time 0 0 3000 0 0 60 Function Class Definition Setting Range Mfr s Value Note Code F336 7 stage Speed Running Direction 0 Forward 1 Reverse 0 F337 7 stage Speed Acceleration Time 0 1 3000 20 0 q4 lt F338 7 stage Speed Running Frequency F112 F111 35 00 F339 7 stage Speed Running Time 0 1 3000 20 0 Y 1 2 F340 stage Speed Deceleration Time 0 1 3000 20 0 4 C a F341 7 stage Speed Stop Wai
41. alue 0 0 Immediate Stop means that inverter will stop output immediately when detecting free stop signal and load will stop by inertia Delayed Stop means that inverter will execute free stop command after waiting some time upon receiving stop instead of stopping immediately Delay time is set by F701 F702 Fan Control Selection valid only for 18 5 110KW inverter Setting Range 0 running temperature controlled fan 1 not temperature controlled fan running Mfr Value 0 As F702 0 fan is controlled by radiator s temperature during running I temperature reaches a certain value will start to work when As F702 1 fan is controlled by radiator s temperature during running i e fan will start to work when inverter is power connected F705 Allowed Auto restart Times Setting Range 0 5 Mfr Value 3 F706 Interval Time of Auto restart S Setting Range 0 0 10 0 Mfr Value 3 0 When auto start is working i e F139 1 Pos set the times allowed for auto restart and interval time of start after inverter is power reconnected or malfunction protection 5 7 2 Settable Protection Under Voltage Protection and Overloading Protection F709 Under Voltage Protection Value V Setting Range 200 420 Mfr Value subject to inverter s model As bus voltage is lower than this set va ue inverter will start
42. amending the selected data bit Set Press set to save data and return to the present function code oF Press mode then the amended data is invalid displaying the FLAY present function code ajo Table 4 2 Process is illustrated as below put correctly user s pass word current display 0 Display CA sg Fi Displa e Display Displa Fig 4 2 _ Parameter Setting Steps 18 4 3 peration amp Displa Function Codes Grouping More than 200 function codes are available divided into 9 zones as shown in Fig 4 3 Fig 4 3 Function Codes Grouping Items Function codes zones Basic Parameters F100 F160 1 Operation Control Parameters F200 F260 2 Multi stage Speed Parameters F300 F360 3 Programmable Input Output F400 F460 4 Terminal Parameters V F Control Parameters F500 F560 5 PI Setting Parameters F600 F660 6 Timing amp Definable Protection F700 F760 7 Parameters Analog signal Parameters F800 F860 8 Communication Parameters F900 F960 9 4 4 Panel Displays Fig 4 4 Panel Display Items amp Descriptions Items Descriptions It stands for resetting process inverter will flash the preset frequency after resetting 50 00 Flashing on inverter after connected to power It is the set frequency for
43. be stopped It is therefore not restricted by stage speed stop waiting time F342 Selection of Compound Speed Setting Range 0 not allowed Mfr Value 0 Control for Stage Speeds 1 allowed 31 ction Codes Zoom Setting Range 0 multi stage running frequency F343 Selection of Compound Speed values set for F344 Mfr Value 0 Control Mode for Stage Speeds 1 Multi stage running frequency AN2 channel analog values F344 Digital Frequency Setting for Setting Range 0 00 20 00 Mfr Value 0 00 Stage Speed Compound Speed Control Hz Compound speed control for stage speeds can be controlled together by multi stage speed control digital speed control and analog speed control This speed control mode only works for multi stage and 8 stage running not for automatic circulating running i e such condition must be met as F210 0 or 2 when selecting compound speed control 343 0 select the control mode both by multistage speed control and digital speed control The running frequency at each speed will then be the sum adding multistage speed frequency and set values of digital frequency Set values of digital frequency will be set by F344 e g the values set for current running frequency for each stage speed F302 5 00 F308 10 00 F314 15 00 F320 20 00 F326 25 00 F332 30 00 F338 35 00 To set F344 10 00 running frequency for each
44. count value reaches the set times As shown in Fig 5 6 if F221 1 F224 5 F222 8 F416 8 relay will output an instruction signal when inputs the 5 pulse relay will output an instruction signal until reaching fixed count times 8 1 2 3 4 6 7 8 1 2 Relay Fig 5 6 Set Count times amp Fixed Count Times F230 Frequency Setting Step length Hz Setting Range 0 01 1 00 Mfr Value 0 01 This parameter means the changing frequency value when adjusting Y keys once or press UP and DOWN terminal once 5 3 Multistage Speed Parameters Mfr Value F300 0 F306 1 F312 0 F318 1 F324 0 F330 0 F336 0 F300 F306 F312 F318 F324 F330 Setting Range 0 Forward F336 Stage Speed Running Direction 1 Reverse Running direction will be provided for each speed When keypad control 485 communication control F200 0 or computer remote control F200 2 30 ction Codes Zoom stage speed running direction will be set by the above function code when controlled by terminal F200 1 stage speed running direction will be controlled by the input terminal defined with FWD REV and X functions See P29 Table 5 2 F301 F307 F313 F319 F325 F331 and F337 Stage Speed Acceleration time S F304 F310 F316 F322 F328 F334 and F340 Stage Speed Deceleration time S Setting Range 0 1 3000 Mfr Value 20 0
45. ct has 3 control modes for V F curve to 0 promote output torque at low frequency VC Torque promotion can be set through F502 for selection of polygonal line type V F curve Higher value setting will incur bigger compensation as shown in Fig 5 7 and more gt starting current Over setting values may result in inverter s Turnover f over current protection se TE orque Promotion ee Square V F curve will meet requirements where blower and pumps are used User may select polygonal line type V F curve for flexible setting if he has any special requirements for 36 V F curve ction Codes Zoom 1 MIN 15 F506 refers to the smaller one of the two set values between 15 and F506 F505 User Defined Frequency Point 1 Hz Setting Range F112 F507 Mfr Value 10 00 F506 User Defined Voltage Point 1 Setting Range F502 MIN 100 F508 Mfr Value 30 F507 User Defined Frequency Point 2 Hz Setting Range F505 F118 Mfr Value 20 00 F508 User Defined Voltage Point 2 Setting Range F506 MIN 100 F509 Mfr Value 40 F509 Voltage Corresponding Turnover Setting Range 5087 100 Mfr Value 100 Frequency 96 v User may define on its own polygonal line type V F curve as per its requirements and actual load as shown in Fig 5 8 MIN 100 F508 shows the smaller of the two set values
46. ction l 3 Setting Range 0 stop after Auto Circulating Mfr Value 0 1 keep running at last stage speed Running Stage Speed change control means whether keypad Y keys or UP and DOWN terminals will be used during multistage speed running to adjust the present running speed F230 P31 sets step length for each adjusting This setting will not change function code parameters and will not be saved in memory when power disconnected Parameters set by function code will therefore be called for multistage speed frequency again when power reconnected Once means auto circulating running at all fixed stage speeds for one time IfF212 0 inverter will keep circulating running until it is stopped by stop signal If F212 gt 0 inverter will finish auto circulating running in the mode set by F213 after inverter makes circulating running for the fixed times to be set by F212 if F213 0 then it will stop if F213 1 then running will be kept at the last speed Start auto MN Atter circulating 1100 times Keep running at rd e g F211 3 F212 100 F213 1 select auto circulating running at 3 speeds for 100 times After auto d circulating running keep running at 3 speed F214 k1 Setting Range 0 0 10 0 Mfr Value 1 0 F215 k2 Setting Range 0 0 10 0 Mfr Value 1 0 k1 and k2 are proportion parameters in case of F204 5 6
47. d multi speed terminal 3 The 49 status combination that the 3 terminals are connected disconnected with can call separately any of the 8 speeds e g F408 1 409 2 and F410 3 the terminals of OP2 and are separately defined as multi speed terminal 1 multi speed terminal2 and multi speed terminal 3 See Table 6 2 for how to make compound call Table 6 2 8 Speed Calling amp Its Corresponding Parameter Setting Multi speed terminal 3 0 0 0 0 1 1 1 1 Multi speed terminal 2 0 0 1 1 0 0 il 1 Multi speed terminal 0 1 0 1 0 1 0 1 Stage Speed Calling EP Sg ER vm pe N A Acceleration time F114 F301 F307 F313 F319 F325 F331 F337 Deceleration time F115 F304 F310 F316 F322 F328 F334 F340 Frequency Set F113 F302 F308 F314 F320 F326 F332 F338 ED F207 F300 F306 F312 F318 F324 F330 F336 oe i n Realized by the control mode of terminals FWD REV and X F208 Note 1 in the table means input signal terminal is connected of with CM whereas 0 means disconnection of input signal terminal from CM d Compound on speed control 204 2 F210 0 or 2 F342 1 Compound speed control means the speed control mode controlled jointly by multi speed control digital speed control and analog speed control This speed control mode is only effective to multi speed and 8 stage speed running but is not valid to au
48. d when power off Refer to 5 3 Multi stage Speed Parameters P3 for relevant function parameters setting In case of speed control with analog signal please set F800 F801 F807 and F808 P41 according to the input of actual analog signal and frequency setting requirements Meanwhile select the input analog type through jumper terminal Input analog will set inverter s running frequency or PI adjusting Speed control set by pulse frequency means that inverter will be controlled through pulse frequency input by OPI terminal F408 23 from peripheral equipment Refer to F809 and F810 P45 for relevant function parameters In case of code speed control frequency will be set by input terminal programmed with code speed control function this terminal function is defined as 18 Code Speed Control Frequency binary digit of terminal input max frequency 255 While using code speed control input terminal function of input terminal OP OP8 can be redefined Refer to 6 2 Speed Control Mode P47 for various speed control modes Use of Jumper Termina Near inverter s control terminals are three jumper terminals J2 J3 and E Vk U J4 as shown in the right diagram The black section shows the location of short circuit needle reflecting the manufacturer s setting status Jumper terminals have the function of selecting input mode of e external analog signal analog signal for exte
49. der Environment temperature within 10 C 50 C Environment relative humidity below 90 without water bead coagulation No strong electromagnetic interference Vibration strength below 0 5g acceleration Ventilation should be secured should inverter be installed inside a control cabinet 3 1 3 External Dimensions amp Installation Dimensions Table 3 2 F1500 G Product Dimension List Structure External Dimensions nstallation Dimensions Mounting Remar Code AxBxH WxL Screws BO 105x120x150 94x139 M4 B2 125x140x170 116x161 5 B3 143x148x200 132x187 5 B4 162x150x250 145x233 M5 B5 200x160x300 182x282 M6 C1 225 X 220 X 340 160 X 322 M6 C2 230 X 225 X 380 186 362 M6 C3 265x235x435 235X412 M6 Metal Hanging C4 314 X 235 X 480 274 464 6 c5 360 X 265 X 555 320 X 530 M6 C6 410 300 X 630 370 X 600 M10 1 3 2 Wiring 2 1 Standard Wiring Diagram Warning Control loop wiring shall be separate from main loop wiring and should never be laid in the same wiring duct to avoid any possible interference Control wiring should adopt shielded split conductor with section area of 0 3 0 5mm2 for Lead but signal wire should not be too long Wiring mode for inverter s main loop and control loop are indicated as in the followings Fig 3 3 standard wiring diagram for single phase inverter including three phase 220 VAC input inv
50. e 0 F526 Stalling Current Adjusting Setting Range 120 200 Mfr Value 160 38 iction Codes Zoom F527 Stalling Voltage Adjusting Setting Range 120 200 Mfr Value 140 Inverter automatically stops acceleration deceleration at stalling and will go on with acceleration deceleration after output current or bus voltage drops Stalling adjustment can avoid trip as inverter is accelerating decelerating Set stalling voltage properly for inverters without energy consumption resistor or braking unit to avoid over voltage trip 5 6 PI Adjusting Parameters mE R a Setting Range 0 not allowed F600 PI Adjusting Function Selection Mtr Value 0 1 allowed Setting Range 0 Digital Setting 1 AN1 Channel Setting Mfr Value 0 2 AN2 Channel Setting F601 PI Adjusting Channel Setting Selection F602 PI Adjusting Digit Setting V Setting Range 0 00 10 00 Mfr Value 5 00 Setting Range 0 AN1 channel feedback F603 PI Adjusting Feedback Channel 1 AN2 channel feedback Mfr Value 0 Selection 2 OP1 pulse channel feedback Digit given is a target value 0 10V for PI adjusting set by function code F602 Analog given or feedback will be achieved through analog channel AN1 and AN2 together with jumper teminal including voltage analog and current analog Refer to Use of Jumper Terminals P27 for detailed operation Pulse
51. efined Pulse Frequency Setting F408 23 Compound Speed Control 2 Compound Speed Control 1 Analog Channel 2 Speed C trl 53 8 5 Fl 8 a Ez Analog Channel ISpeed Ctrl Multi speed Control Digital Frequency Setti Digital Frequency Setting Keypad or Terminal Control setting nof by Computer Start Stop by Direction Puls JoggingSpeed Control Tri Line Type 2 Tri Line Type 1 Computer Remote Control Double Line Type Terminal Control Double Line WWI m TT KeypxlC l485Conmunkatni Direction Given 8 En 8 amp a x E v 3 2 E 1 VI Simple Mode of Operation Operation Control Reverse Operation Mode Block Diagram 45 6 1 Fi ction Codes Zoom 6 2 Speed Control F1500 G series inverter has multiple ways of speed control like keypad and terminal digital speed control multi speed control including multi speed running automatic circulating running 8 stage speed running compound speed control analog signal single channel speed control analog signal compound speed control coding speed control jogging speed control and computer speed control and so on All these must correspond with parameter settings to be detailed as follows 1 Keypad Terminal Digital Speed Control F204 0 or 1 Under this setting inverte
52. eminal OP1 OP8 is set to 16 acceleration deceleration time switchover this terminal can be used for switchover of first and second acceleration deceleration time When a low power level is input into this terminal inverter will select second acceleration deceleration time Otherwise first acceleration deceleration time shall be default F118 Turnover Frequency Hz Setting Range 50 00 400 0 Mfr Value 50 00 Motor s rated frequency e When running frequency is lower than this value inverter will output constant torque When exceeding this value inverter will output constant power Normally 50Hz will be selected for turnover frequency F119 Latent Frequency Hz Setting Range F112 F111 Mfr Value 5 00 When output frequency exceeds this value it will be programmed as output status reverse for OUT terminal or relay terminal with Over Latent Frequency function in case below this frequency the terminal will be restored F120 Forward reverse Switchover Setting Range 0 0 3000 Mfr Value 2 0 Dead Time S r This parameter refers to the transition time required during output of OHz when inverter change from forward running to reverse running as shown in Fig 5 1 To set this function may ease the current strike in the course of direction switchover Within forward reverse switchover dead time Forward reverse Syitehover ime
53. en communicating with 485 Salue Communication communication control enclosure E r Incorrect communication address Unify inverter address with 485 malfunction Sur setting communication control enclosure Malfunction occur with y n SES d Seek manufacturers service communication circuits Motor doesn t work Abnormal power network voltage Check if power network voltage is normal Wrong wiring Check the wiring Overloading Reduce loading Short circuits on input side Check the input wiring Power tripping Too small capacity of air switch Increase air switch capacity Overloading Reduce loading Error setting for related Correctly set related parameters as to Motor works but unable to control speed parameters parameter description Serious overloading Reduce loading Instable rotation of motor Sudden increase of overloading Reduce the change of loading Power of inverter is slightly small Select inverter of bigger power Serious interference electromagnetic 56 Check if surroundings is satisfactory for use of inverter as required in 3 1 2 on Codes Zoom Appendix 2 Function Code Zoom Table Function ne Class Code Definition Setting Range Mfr Value Note F100 User s Code 0 9999 8 Y F101 Reserved Subj F102 Inverter s Rated Curre
54. erter Fig 3 4 standard wiring diagram for three phase inverter Note Braking resistor and braking unit are both optional Refer to Appendix 3 P79 for standards of optionals Wiring Diagram 1 Braking Resistor optional 0 9 w Relay output 12A 125VAC 7 250VAC 7A 30VDC Frequency meter a lit 1 7 TR Serial communication 1 1 Gtrol Loop Input MsinkoopOwpw tgl Loop Output 1g 5 Wiring Layout tor single F hase Inverter 10 Braking unit Optional Wiring Diagram 2 Reactor Optional Short circuited slice m Relay Output 12A 125VAC 7A 250VAC 7A 30VDC Frequency Meter Ammeter p E Q Serial Communication f Shielded Wire Oleo gt 12 Irin 1agram tor ee F nase Inverter 11 Install amp wiring Notes Note 1 The broken line in Wiring Diagram 1 only applies for inverter with built in braking unit with Terminals P and B connected to braking resistor Note 2 L3 specified in in Wiring Diagram 1 is only used in three phase AC220V input inverter Single phase 220V input inverter is only connected to L1 and L2 Note 3 J2 jumper terminals are not available for single phase inverter without built in braking unit
55. eys Descriptions Keys Designation Descriptions Mode Key Used with set key Enclosure shows communication address d x x x Used with mode key Enclosure shows communication address d x x x Se Set Key Press set key while displaying d x x x Enclosure shows contents of the corresponding inverter gA B Up Key Press up and down keys while displaying d x x x to select other Down Key communication address Table 5 Special Operation Instructions Step Key Operation Display oat Press mode and set keys at the same time 485 Mode ser s Communication Enclosure shows communication address d x x xX 8 B 4 PE v Press A V key to select other communication address Press set key to show contents of the corresponding inverter 50 00 68 Table 6 Display Items F unction amp Parametei Special Panel Displays amp Descriptions Descriptions Indicating inverter s resetting process when single control contents of this inverter will be shown after reset goes normal In case of broadcast control default communication address d001 will be shown after reset goes normal bc Broadcast control code When broadcast address is 255 for 485 communication enclosure and broadcast command is carried out the enclosure can effect control over all inver
56. f Auto restart S 0 0 10 0 3 0 x ga F707 F708 Reserved Subject to F709 Under voltage Protection Value V 200 420 mod l A F710 F714 Reserved Adjustin c F715 Overload Adjusting Gains 0 1000 8 Adjustin 716 Inverter Overloading Coefficient 150 180 irs Adjustin F717 Motor Overloading Coefficient 20 120 5 Jg F718 F719 Reserved 0 No Trouble 1 Acceleration over current et ati _ Third Malfunction 2 Deceleration over current 5 F720 3 Constant speed over current d Counting DOWN 4 Acceleration over voltage B 5 Deceleration over voltage 5 6 Constant speed over voltage o 7 Undervoltage e 9 Inverter overload ua Second Malfunction by 10 Motor overload A F721 11 Excess temperature Counting DOWN 12 User s password error serious exterior interference 13 Out phase 15 Emergency stop F722 Latest Malfunction type 19 Galvanoscopy error 21 Peripheral equipment Malfunction 64 Function Code a A n Definition Setting Range Mfr s Value Note The Last Malfunction Frequency F723 A Hz F724 The Last Malfunction Current A A F725 The Last Malfunction Voltage V A u012930Jd q81 S X Ionuo Surung F726 F760 Reserved F800 Min Analog Input V 0 00 MIN F801 10 00 0 00 801 Analog Input MAX 0 00 800
57. he key on the operation panel Degrees UP Frequency Decreasing by m 12 This terminal is equal to the Y key on the operation panel Degrees DOWN 13 FWD Terminal Control terminal for inverter terminal running Refer to Table 14 REV Terminal 5 2 P29 for terminal control mode is Three line Type Input One terminal of the three line control mode used to stop Terminal of X inverter Poo Used in switchover of the first and the second acceleration deceleration times When this terminal is working i e it is Switchover of ae connected with CM the second acceleration deceleration time 16 Acceleration Deceleration MM is carried out When this terminal is not working i e it is Time disconnected with CM then the first acceleration deceleration time is used The inverter will stop output immediately and display ErP if Peripheral Equipment it receives the terminal input signal of peripheral equipment Malfunction malfunction during operation Resetting will not be done until the signal of peripheral equipment malfunction is released When this function is selected OP1 OP8 will be binary digital input terminal OP1 terminal corresponds to low bit of Coding Speed Control ae 18 4 the binary digit while OP8 corresponds to high bit of the binary Input Terminal M digit and by analogy Set to 1 when the terminals of the corresponding position is working
58. ime 0 48 ion Codes Zoom speed as shown in Fig 6 2 without stopping and waiting if stopping and waiting time equals to zero i e the setting of F305 F311 F317 F323 F329 F355 and F341 is 0 0 If Stop wait time is more than 0 i e the values of F305 F311 F317 F323 F329 F355 and F341 are set 4 speed F320 3 speed 2 speed F314 F308 f Bs 175 p3199 p321 Fig 6 3 Auto Circulating Operation stop wait time gt 0 more than 0 0 inverter shall first stop waiting and then switch to the next speed as shown in Figure 6 3 Frequency If the operation direction among stage speeds is different like F300 0 F306 1 F312 0 then the switch process of speeds shall be stop first before switch to the next speed and the switch process shall carry out the death area time of forward and reverse switch F120 P23 as shown in Fig 6 4 4 speed F320 3 speed 314 Ist speed F302 time F307 1309 23 10 F3 1 HF120 63039 F305 120 lt 3 13 lt 3 15 lt 5 3 1 P88 3 1 ARE 1 P lt E321 2 Speed F308 nt Fig 6 4 Auto Circulating Operation different operation direction between segment speeds c 8 Speed Operation F204 2 F210 2 The 8 stage speed operation consists of 7 speed frequencies and the target frequency F113 which are also operated by the defined multi speed terminal 1 multi speed terminal 2 an
59. int 2 F507 F505 F118 20 00 x Hz g 5 F508 User Defined Voltage Point 2 F506 MIN 100 F509 40 x Voltage Corresponding of Turnover o F509 5 5 F508 100 100 x 5 Frequency F510 Reserved 511 Auto Voltage Adjusting 0 No adjusting l Adjusting 0 x N Subject to Carrier Wave Frequency Setting gt 512 1 values set as per inverter model inverter s x kHz setting value 62 on Codes Zoom Function m Class Cod Definition Setting Range Mfr s Value Note ode F513 Randum Carrier Wave Selection 0 Not allowed 1 Allowed 1 0 Not allowed 1 Braking during start F514 DC Braking Function Selection 2 Braking during stop 0 x 3 Braking for Start stop lt F515 Initial Frequency of DC Braking Hz 0 00 5 00 5 00 N mj F516 DC Braking Current 0 150 100 Q Braking Lasting Time During 5 F517 0 0 10 0 5 0 A Starting S Braking Lasting Time During F518 f 0 0 10 0 5 0 y M Stopping S B F519 Energy Consumption Brake Ratio 0 100 50 x c Q F520 F524 Reserved ua F525 Stalling Adjusting Function Selection 0 Not allowed 1 Allowed 0 x F526 Stalling Current Adjusting 120 200 160 x F527 Stalling Voltage Adjusting 120 200 140 x F528 F560 Reserved F600 PI Adjusting Function Selection 0 Not allowed 1 0 x PI Adjusting Channel 0 Digital setti
60. iring AN Warning Power terminal shall be tightly secured 2 Control Terminal Terminals of various models are structured as follows A Control terminal for single phase 1 5KW 2 2KW without built in braking unit single phase 0 2 2 2KW with built in braking unit and three phase 0 75 2 2KW inverters A OUT OPS OP6 OP7 OP8 10V ANI SS 24V 1 OP2 OP3 OP4 SSS B Control terminal for single phase 0 4 0 75KW inverter without built in braking unit ops tov AGND FM IM AN2 C Control terminal for single phase 3 7KW three phase 0 4K W and 3 7 75KW inverter ops 10V ANI GND FM IM an2 TA TB TC A Warning Fastening moment for control terminal 5kgf cm Table 3 5 Control Terminal Functions Classificat Mfg Terminal Function Description Specification ion Function Operation Indicating inverter s operation status OUT Indication OUT collector open circuit output with Output Signal output current not more than 100mA r signal TA Indicating inverter s fault status Refers ptor Code of Fault TC common point TB TC normally F416 F417 P36 for other Switching TB Indication closed contact TA TC normally open function settings contact Contact spec 12A 125 Value Signal TC 7A 250VAC 7A 30VDC Continued
61. n t V F z Adjust V F curve as per actual load MIO tS compensation value Restart the motor rotation Restart when motor completely stops Overloaded Reduce load short for deceleration time Extend deceleration time oc2 Deceleration Over current high load inertia Add proper energy consumption braking parts OC3 over Short circuit on the side of input Check if motor cable is damaged current Sudden change of loading Reduce sudden change of loading Abnormal loading Check the loading Accelerati 3 1 higher input voltage Check if the input voltage is normal overvoltage h Too short time for deceleration beraten compared to the capacity of Extend deceleration time OE2 regeneration overvoltage high load inertia Add proper energy consumption braking part EIS lover volte eon Abnormal change of input voltage Check input voltage or add reactor constant speed Big loading inertia To add proper energy consumption braking parts The wire or inserting parts 1 between control PCB and power Check and reconnection Galvanoscopy AdEr gets malfunction Galvanoscopy elements damaged Seek manufacturers service OLI Inverter Too much overload Reduce load overloading Acceleration time too short Extend acceleration time Improper V F curves Adjust the V F curve and properly lower compensation value Too much DC braking Reduce DC braking curren
62. nal control F200 2 computer remote control P25 Operation direction of keypad control is selected by F207 F207 0 forward F207 1 reverse P28 Terminal control mode is selected by F208 F208 0 two line type 1 F208 1 two line type 2 F208 2 three line type 1 F208 3 three line type 2 F208 4 start stop controlled by direction pulse P28 Stop mode is selected by F121 F121 0 stop by deceleration time F121 1 free stop Of which free stop 51 tion Codes Zoom 1 mode is selected by F700 F700 0 immediate stop 700 1 delayed stop Time of delayed stop is set by F701 P39 4 Compound Speed Control of Analog signal F204 5 6 or 9 For compound speed setting analog signal is input through terminals of AN1 and AN2 For 204 5 the result of compound speed control is kl x AN1 k2 AN2 as F204 6 the result of compound speed control is kl x ANI AN2 as F204 9 the result of compound speed control is kl ANI k2 AN2 5V The AN1 and AN2 in the formula mean the analog signal input through channels AN1 and AN2 For compound speed control there is a function with the programmable input terminal OP OP8 which may be used to switch the controls of dual way analog signal and single way analog signal For single way analog signal control AN1 channel control is considered valid by default For instance FA09 20 when 2 is disconnected from CM it is dual way analog signal cont
63. nd has the function of external emergency stop in the mode of terminal control and computer remote control As F201 2 this key can stop inverter in mode of keypad and terminal 3 line control direction pulse controlling start stop and computer remote control Please refer to P25 about the actual stop function 17 peration amp Displa 42 Function Parameters Setting Users can adopt various application modes for changing function code parameters Please input user s password properly in F100 if parameters should be set after it is reconnected to power user s password is 8 for manufacturer s setting or after restoring manufacture s password Upon correct input of password user may change his password again Table 4 2 Parameter Setting Steps Step Key Operation Display 1 Press Mode to display function code Figg Press stop reset If DGT indicator is off press A W for 2 selection of function code zone if DGT indicator is on press eng A V to select the function code that need be amended in the selected function code zone 3 A J or v Press A V keys for selection of the desired function code 4 Set Press set key to call the data set in function code 20 0 5 Press stop reset keys to select the data bit to be edited The selected data bit will flash to indicate that this bit is editable or v Press A V for
64. ng F601 1 AN1 channel setting 0 x Selection 2 AN2 channel setting F602 PI Adjustment Digit Provided V 0 00 10 00 5 00 x 0 ANI channel feedback gt PI Adjusting Feedback Channel 1 AN2 channel feedback amp F603 Selection 2 OP1 pulse channel 0 E feedback F604 Min Analog Set by PI V 0 00 F606 0 00 x Bo om Corresponding Feedback for Min g 8 F605 0 00 10 00 0 00 x B Analog Set by PI V Cc T F606 Max Analog Set by PI V F604 10 00 10 00 x e v Corresponding Feedback for Max F607 0 00 10 00 10 00 x Analog Set by PI V F608 Proportion Gain 1 1000 100 609 Integration Time 0 1 10 0 0 1 610 Sampling Cycle S 0 1 10 0 0 1 63 Boc Code Zoom T Function Te Class Code Definition Setting Range Mfr s Value Note 11 PI Adjusting Accuracy 0 20 5 N S E z ur O Negative feedback adjusting 8 a F612 PI Adjusting Polarity 1 Positive feedback adjusting 0 8 75 F613 F660 Reserved 0 Immediate stop F700 Mode selection for Free Stop 1 stop delay 0 x Delay time of Free Stop and F701 Programmable Output Terminal s 0 0 60 0 0 0 x Action S 0 Temperature controlled fan Fan Control Selection valid only for 18 5 running F702 L 1 Not temperature controlled fan 0 x 110KW inverter running F703 F704 Reserved F705 Allowed Auto Start times 0 5 3 x E F706 Interval time o
65. nt A ae A inverter model Power value of F103 Inverter Power KW 0 20 110 0 one value A this inverter F104 Reserved m Subject to F105 Software Edition No 2 A software edition 1 single phas Subj F106 Inverter s Input Voltage Type DICIS dd 3 three phase inverter model Subject to F107 Inverter s Rated Input Voltage V 220 or 380 A inverter model F108 F110 Reserved F111 Max Frequency Hz F112 400 0 60 00 x w F112 Min Frequency Hz 0 00 MIN 50 00 F111 0 00 x 2 F113 Digital Setting Frequency Hz F112 F111 50 00 e d F114 1 Acceleration Time S 0 1 3000 20 0 115 1 Deceleration Time S 0 1 3000 20 0 116 2 Acceleration Time S 0 1 3000 20 0 V u F117 2 Deceleration Time S 0 1 3000 20 0 118 Turnover Frequency Hz 50 00 400 0 50 00 x F9 Latent Frequency Hz ELFI 5 00 120 BEEN Switchover 0 0 3000 20 d Dead Time S 0 stop by deceleration time F121 Stopping Mode 2 0 x 1 free stop F122 Reverse Running Forbidden 0 null 1 0 F123 Reserved F124 Jogging Frequency Hz FI12 FIl11 5 00 N F125 Jogging Acceleration Time S 0 1 3000 20 0 N F126 Jogging Deceleration Time S 0 1 3000 20 0 N F127 Skip Frequency A Hz 0 00 F111 0 00 x F128 Skip Width A Hz 0 00 5 00 0 00 x F129 Skip Frequency B Hz 0 00 F111 0 00 x 57 Class Function Code Definition Setting Range Mfr s Value Note
66. oom Through inverter the 8 binary data input by OP1 OP8 shall be changed to decimal system value the ratio with value 255 will then multiply with inverter s max frequency and get the actual output frequency of coding speed control e g if max frequency F111 50 00Hz F415 18 OP8 terminal connects with CM terminal then input binary data 10000000 which is 128 in decimal The operation frequency will therefore be 128 255 x50 25 10Hz 6 Jogging Speed Control F200 1 In mode of terminal control F200 1 when function of certain programmable input terminal OP1 OP8 is defined as jogging function jogging speed control can be reached by short connection of the terminal with CM The jogging frequency is set by F124 with range F112 min frequency F 111 max frequency The jogging acceleration deceleration time is set by F125 and F126 with range of 0 1 3000S The direction of jogging operation is included in the definition for terminal function 9 is forward running and 10 is reverse running Stop mode is selected by F121 F121 0 stop as deceleration time F121 free stop Of which free stop is selected by F700 F700 0 instant stop F700 1 delayed stop F701 P42 sets delayed stop time 7 Computerized Speed Control F900 0 Computerized speed control means that computer will communicate via 485 to control the operation of inverter The communication address is selected by F901 with setting range of 1 1
67. p CM terminal common end F1500 G olo X terminal open stop 2 three line type 1 L terminal forward running signal 0 close forward running forward running stop L l REV terminal reverse running signal reverse running stop close reverse running CM terminal common end ale oo FWD terminal close running 3 three line type 2 olo X terminal open stop REV terminal forward reverse running selection forward running stop open forward running reverse running stop close reverse running terminal common end F1500 G 4 start stop controlled z by direction impluse rL o FWD terminal impulse start stop signal forward stop o REV terminal impulse start stop signal reverse stop forward running stop terminal common end F1500 G reverse running stop Setting Range F209 Stage Speed Changing Control 0 adjusting stage speed forbidden Mfr Value 0 J g Stage sp 1 adjusting stage speed allowed Setting Range 0 multi stage speed running F210 Stage Speed Types 1 Auto circulating running Mfr Value 0 2 8 stage speed running 28 iction Codes Zoom F211 Auto Circulating Running 7 Setting Range 27 7 Mfr Value 7 Speed Selection F212 Auto Circulating Running Setting Range 07 9999 Mfr Value 0 Times Selection F213 Free Running Sele
68. phase and below three phase 18 SKW Power terminals of these inverters include terminals P and B They can then be connected with braking resistors externally Matching standards for the braking resistors are shown in Table 2 below Table 2 Selection of Braking Resistance Applicable Motor Applicable Braking inen Power KW Resistance F1500 G0002XS2B F1500 G0002XT2B 0 2 F1500 G0004XS2B F1500 G0004XT2B 0 4 Al Housing 80W 200Q F1500 G0007XS2B F1500 G0007XT2B 0 75 F1500 G0015XS2B F1500 G0015XT2B 1 5 Al Housing 80W 150Q F1500 G0022XS2B F1500 G0022XT2B 2 2 Al Housing 120W 120Q F1500 G0037XS2B F1500 G0037XT2B 3 7 Al Housing 150W 80Q F1500 G0004T3B 0 4 F1500 G0007T3B 075 Al Housing 80W 200Q F1500 G0015T3B 155 Al Housing 80W 150Q F1500 G0022T3B 2 2 F1500 G0037T3B 207 Al Housing 150W 150Q F1500 G0040T3B 4 0 F1500 G0055T3B 5 5 Al Housing 250W 120Q F1500 G0075T3B 7 5 Al Housing 500W 120Q F1500 G0110T3C 11 Al Housing 1K W 90Q F1500 G0150T3C 15 Al Housing 1 5K W 80Q 66 of Braking Resistor and Braki Built in braking units are not available with inverters above three phase 18 5KW Power terminals of these inverters include terminals and They need to be connected with braking resistors externally Terminals P or N or of braking unit are connected with inverter s terminals P and N Terminal
69. plays in operation status to reflect various parameters Po4 Press this key in status of amending parameters Return to display mode of function code editting without saving the data amended Set Key Enter function code parameters amending mode from function code editing mode This key is used for saving data and returning to function code editting mode in the mode of function code parameters amending Up Key This key is used for data increasing by degrees in the display mode of function code editting function code parameters amending and frequency display Step length of frequency setting is selected by function code F230 P 31 between 0 01 1 00Hz Down Key This key is used for data decreasing by degrees in the display mode of function code editting function code parameters amending and frequency display Step length of frequency setting is selected by function code F230 between 0 01 1 00Hz Run Key To start inverter for operation in keypad control mode F200 0 Stop Reset Stop Reset Key This key is for several purpose 1 Reset in protection status 2 Select fuction code among the zone of function codes in display mode of function code editting 3 Select data bit while setting parameters 4 As F201 0 this key can stop inverter in mode of keypad control As F201 1 this key can stop inverter in mode of keypad control a
70. r adopts the way of keypad terminal digital speed control and speed can be adjusted with A V keys on the keypad UP and DOWN terminals to achieve dynamical speed control Among which the function of UP and DOWN terminals speed control is defined by F408 F415 and terminal equals to key on the keypad and DOWN terminal equals to Y key on the keypad e g as F409 11 OP2 is defined as UP terminal that is connected with CM and frequency rises as F410 12 OP3 is defined as DOWN terminal that is connected with CM and frequency drops As F204 0 no adjusting result is saved after inverter is suddenly turned off As F204 1 adjusting result is saved after inverter is suddenly turned off Manufacturer s default speed control mode is F204 0 Operation control is selected by F200 F200 0 keypad control 485 communication control F200 1 terminal control F200 2 computer control P25 Operation direction of keypad control is selected by F207 F207 0 forward 207 1 reverse Pos Terminal control way is selected by F208 F208 0 two line type 1 F208 1 two line type 2 F208 2 three line type 1 F208 3 three line type 2 F208 4 start stop controlled by direction pulse P28 Frequency adjusting step length is set by F230 with setting scope of 0 01 1 00Hz P31 Stopping mode is selected by F121 F121 0 stop by deceleration time F121 1 free stop Free stop is selected
71. rnal voltage external e current and keypad control unit s voltage B 12 14 Reference voltage of 10V is available for user s choice with inverter s ANI Nos terminal AN1 channel analog input type is selected by J3 AN2 channel analog input type is selected by J4 As short circuit needle is set on P side 0 4 20mA current can be input as short circuit needle is set U side 0 10 5 V can be input J2 is used to select between AN1 channel input and keypad potentiometer input It won t be necessary to change J2 s manufacturer s setting if keypad control unit doesn t have potentiometer with itself Note 3 there is no J2 jumper terminal for single phase inverter without built in braking unit and three phase 11 110KW inverter Selection of keypad potentiometer analog Vk is set by function code F204 F204 10 P 26 Fig 5 1 Function Realised Input voltage analog through analog channel 1 AN1 tction Codes Zoom Ta Jumper Terminal Status Vs Corresponding Function Realised Jumper Terminal Status Note3 Function Realised Input voltage analog through analog channel 2 AN2 Jumper Terminal Status BE Input current analog through analog channel 1 AN1 gt EIS 5 2 005 Note3 Input current analog through analog channel 2 AN2
72. rning when the current reaches a certain value 10 13 Reserved 5 43 Analog signal Output Terminal 35 iction Codes Zoom Setting Range F418 Output Function Selection 0 indicate output frequency value Mfr Value 0 1 indicate output current value When selecting indicate output frequency 0 10V output corresponds to 0 F111 max frequency When selecting indicate input frequency 0 10V output corresponds to 0 1 Cinverter s rated current F419 FM Output Calibration 96 Setting Range 0 200 Mfr Value 100 This function is used to calibrate the output error of FM Calibration value will be subject to the actual measuring Setting Range F420 IM FM Output Range Selection 0 0 20mA 0 10V Mfr Value 0 1 4 20mA 2 10V Proper selection of current output range voltage will be subject to different types of meters 5 5 V F Control Parameters 5 5 1 V F Compensation amp Carrier Wave Frequency F500 Slip Compensation Setting Range 0 00 0 08 Mfr Value 0 03 Slip will gain in case of higher overload Adjusting the parameter of F500 will make motor s actual rotate speed close to the rated rotate speed Setting Range F501 V F Curve Control Mode Mfr Value 0 0 beeline 1 polygonal line 2 square F502 Torque Promotion Setting Range 1 MIN 15 F506 Mfr Value 5 This produ
73. rol when OP2 is connected with CM ANlchannel control works equal to F204 3 Different speed control mode may be realized by using jumper terminals and function parameter settings together refer to Application of Jumper Terminal on P27 for details Ratio coefficients k1 and k2 are set by F214 and F215 functional code P30 Related parameters of analog signal is set by F800 F811 P44 Operation control is selected by F200 F200 0 keypad control 485communication control F200 1 terminal control F200 2 computer remote control P25 Operation direction of keypad control is selected by F207 F207 0 forward F207 1 reverse P28 Terminal control mode is selected by F208 F208 0 two line type 1 F208 1 two line type 2 F208 2 three line type 1 F208 3 three line type 2 F208 4 start stop controlled by direction pulse P28 Stop mode is selected by F121 F121 0 stop as deceleration time F121 1 free stop Of which free stop mode is selected by F700 F700 0 immediate stop F700 1 delayed stop F701 P39 sets time of delayed stop 5 Coding Speed Control F204 8 Set the input terminal OP1 OP8 as the coding speed control function The different switch status combinations for terminal mean the 8 binary data OP8 is the highest bit and OPI is the lowest bit It is further stipulated that connection between terminal and is binary 1 and disconnecting with is binary 0 52 Tion Codes Z
74. s and of braking unit are connected with braking resistor Matching standards are shown in Table 3 below Table 3 Selection of Braking unit Applicable Applicable Inverter Models Motor Power Braking unit Applicable Resistance for Braking unit KW Models F1500 G0110T3C 11 HFBU DR0102 90 Q 3KW F1500 G0150T3C 15 F1500 G0185T3C 18 5 F1500 G0220T3C 22 HFBU DRO103 65 Q 4KW F1500 G0300T3C 30 F1500 G0370T3C 37 F1500 G0450T3C 45 HFBU DRO201 40 Q 6KW F1500 G0550T3C 55 F1500 G0750T3C 75 HFBU DRO301 8 9KW ik Ue 7 5KW EBAn AY MES A HFBU DRO 01 tl zi 18 0 90 Q 1 5KW Note If braking unit is necessary for inverter power less than 7 5kw inverter because of too heavy load the corresponding type of braking unit is HFBU DRO101 and braking resistance is 90 1 5KW 67 unction amp Parametei Appendix 4 485 Communication Enclosure External dimension is 68 X 100 X 17mm and opening HHBH dimension is 65 X 97mm for operation panel of 485 EX O EJ Si Communication Enclosure as indicated in Fig 1 1 wu I Mee kn The followings special functions and use instructions for w 485 Communication Enclosure Refer to IV Keypad Control Unit on for similar functions and instructions of Fig 1 1 485 Communication Enclosure ordinary keypad control units Table 4 Special K
75. s on status with low resistance Table 5 4 Programmable Output Terminal Function F416 F417 Description Remarks 0 No Function This terminal will be action when inverter has 1 Inverter Malfunction Protection 2 malfunction protection except for undervoltage protection This terminal will be action when running frequency 2 Over Latent Frequency exceeds the set value of F119 P23 This terminal will restore when running frequency is lower than the value 3 Free St p The terminal will be action when signal of free stop is input h The terminal will be action when inverter works And it 4 Inverter in Operation will restore when inverter stops 5 DY DONA a The terminal will be action when inverter is under DC braking 6 Indicating Switchover of This terminal will be action when it carries out the Acceleration Deceleration instruction of switchover of acceleration deceleration This terminal will be action when inverter carries the 7 Reaching the Set Count Value external count instruction and count value reaches the set value of F222 Reathine the Designated Count This terminal will be action when inverter carries the 8 Blue 5 5 external count instruction and count value reaches the set value of F224 P30 This terminal will be action and send a signal of 9 Overload Early Warning Signal overload protection early wa
76. sed for selecting inverter s communication type 0 Computer will communicate and control inverter through 485 interface 1 Communication Control Enclosure 485 works and controls inverter through 485 It will take 9600 bit F903 3 as default communication Baud rate in this control mode which can not be changed F901 Communication Address Setting Range 1 127 inverter address Mfr Value 1 Set the communication address for inverter Each address in the same connection net shall be exclusive and unrepeatable Setting Range 0 no calibration F902 Odd Even Calibration 1 044 calibration Mfr Value 0 2 even calibration Select calibration type for RS 485 communication As F900 1 this function does not work Setting Range 1 2400 A 2 4800 F903 Communication Baud Rate bit 3 0600 Mtr Value 3 4 19200 Selecting data transmission ratio between inverter and computer remote control As F900 1 Communication Control Enclosure 485 will take 9600bit as default communication Baud rate which can not be changed 44 FM Output Function Definition F418 F420 z E E Output Terminal ER E E Multi speed Running _ Freq cy F344 Setting Value Multi OPS Function Definition Keypad PotentiometerSpd Compound Speed Coi trol 3 Coding Speed Control Input Terminal Function D
77. set in the inverter and is operated by defined multi speed terminal 1 multi speed terminal 2 and multi speed terminal 3 The status combination that they are connected or disconnected with CM can call separately any speed of the multi speed e g F408 1 F409 2 F410 3 then OPI OP2 OP3 are separately defined as multi speed terminal 1 multi speed terminal 2 and multi speed terminal 3 See Table 6 1 for how to make compound calls Table 6 1 Multi Speed Calling amp Corresponding Parameters Setting Multi speed terminal 3 0 0 0 0 1 1 1 1 Multi speed terminal 2 0 0 1 1 0 0 1 1 Multi speed terminal 0 1 0 1 0 1 0 1 Ist 2nd 3rd 4th 5th 6th 7th Stage speed Calling Stop Speed Speed Speed Speed Speed Speed Speed Acceleration time F301 F307 F313 F319 F325 F331 F337 Deceleration time F304 F310 F316 F322 F328 F334 F340 Frequency Set F302 F308 F314 F320 F326 F332 F338 keypad control F300 F306 F312 F318 F324 F330 F336 Operation F200 0 ue Realized by the control mode of terminals FWD REV and X F208 Note 1 in the table means the terminal of input signal is connected with CM 0 means the terminal of 47 tion Codes Zoo input signal is disconnected with CM b Automatic circulating operation F204 2 F210 1 Automatic circulating operation means multi segment speed automatic circulating operation i e
78. t extend braking time Inverter power small Select inverter with bigger power 54 Table 1 continued Malfunctions amp Solutions Malfunction Description Causes Solutions display Improper V F curve Adjust the V F curve and properly lower compensation value General motor runs at low speed Special motor is needed for long time low speed with big load for long time running 012 Motor overload Rotation of motor is jammed or Reduce loading or the sudden change of loading suddenly gets bigger loading Incorrect setting for motor Correctly set the protection coefficient for overloading protection coefficient motor overloading PEr Out phase Out phase with 3 phase power Check if power input is normal protection input Check the wiring is correct Serious imbal ith 3 phas Deere wee phase Check if power input is normal input power Po oH unexpectedly with Normal indication inverter s input power Undervoltage i T NA t d LU slightly low with input voltage Check if voltage is correct protection Power 9 f unexpectedly with Norn A inverter input power ESP External Press stop reset key not in mode Correctly set the functional parameters for emergency stop of keypad control F200 0 F201 amp F200 Disconnect malfunction terminal after removal External Emergency stop of external malfunction terminal closes Change the function
79. ters in the network at the same time E r Indicating that malfunction occurs with 485 communication and inverter s communication refer to Table 1 on Ps2 for causes of malfunction and solutions 69
80. ting Time 0 0 3000 0 0 d Selection of compound speed g F342 control for stage speeds 0 Not Allowed 1 Allowed 0 al B 0 Multi stage Speed Running 2 4 Frequency Value set for F344 F343 patie x speed 1 Multi stage speed Running 9 J COMAE MOGE Frequency AN2 Channel n Analog Values Digital Frequency Setting F344 For Compound Speed 0 00 20 00 0 00 J Control Hz F345 F360 Reserved F400 F407 Reserved 0 No function F408 1 Terminal Function Definition 1 Multi speed terminal 1 9 x y 2 Multi speed terminal 2 3 Multi speed terminal 3 gg 4 Reset 5 Free stop B F409 OP2 Terminal Function Definition 6 Reserved 1 x 3 7 External Emergency Stop 2 8 Acceleration Deceleration Prohibited 4 F410 OP3 Terminal Function Definition 2 ogging Forward Running JOGF 2 x 3 10 Jogging Reverse Running JOGR ll Frequency increasing by legrees UP 411 OP4 Terminal Function Definition 12 Frequency decreasing by 3 x egrees DOWN 13 FWD Terminal 14 REV Terminal d F412 5 Terminal Function Definition pide Input 7 x B 16 Switchover of Acceleration j o 1 3 Deceleration time f 17 Peripheral equipment d F413 OP6 Terminal Function Definition Malfunction 13 x 25 18 Coding speed control input a 19 Close loop switched to 3 open loop t n 20 Compound channel speed T F414 OP7 Terminal Function Definition control switch to single 14
81. tion If inverter is selected null it shall start to operate only after receiving run signal After auto start by inverter F705 and F706 P42 shall set the times and intervals for auto start 23 ction Codes Zoom This function only applies to control modes of keypad control F200 0 3 line control 200 1 F208 2 or 3 and direction pulse controlled start stop F200 1 and F208 4 Setting Range F160 Reverting to manufacturer values 0 Not reverting to manufacturer values Mfr Value 0 1 Reverting to manufacturer values Set F160 to 1 when there is disorder with inverter s parameters and manufacturer values need to be restored After Reverting to manufacturer values is done lt F160 values will b automatically changed to 0 Fig 5 4 Reverting to manufacturer values e Reverting to manufacturer values will not work for the function codes marked O in the Note column in the Appendix 2 Function Code Zoom Table 5 2 Operation Control Parameters Setting Range F200 0 Keypad Control 485Communication Control Mfr Value 0 1 Terminal Control 2 Computer Remote Control Keypad Control 485Communication Control means that inverter s running is controlled by keypad or control box connected by 485 communication interface Motor s rotate direction is set by F207 Pog
82. to circulating operation When jointly controlled by multi speed control and digital speed control F343 0 P32 the running frequency of each speed will be the total of multi speed setting frequency and the setting value of digital frequency The setting value of digital frequency is set by F344 with a range of 0 00 20 00Hz When jointly controlled by multi speed control and analog speed control F343 1 P32 the operation frequency of each speed is the total values set by multi speed frequency and AN2 channel analog signal whose value is set at the range of 0 10V provided through AN2 channel by peripheral equipment corresponding with a range of 0 12Hz Stage speed changing control is selected by F209 F209 0 not allowed to changing to stage speed F209 1 50 allowed to changing to stage speed P29 The related parameter of multi speed is set by F300 F344 P31 Operation control is selected by F200 F200 0 keypad control 485communication control F200 1 terminal control F200 2 computer remote control P25 Operation direction of keypad control is selected by F207 F207 0 forward F207 1 reverse P28 Terminal control mode is selected by F208 F208 0 two line type 1 F208 1 two line type 2 F208 2 three line type 1 F208 3 three line type 2 F208 4 start stop controlled by direction pulse Pos The adjustment step length of frequency is set by F230 with the range of 0 01 1 00Hz P31 Stop mode is
83. turer used for recording product power corresponding input voltage rated values and software edition as info for user F111 Max Frequency Hz Setting Range F112 400 0 Mfr Value 60 00 It shows the max frequency for inverter s operation Setting Range 0 00 MIN 50 00 F112 Min Frequency Hz quency Hz FID Mfr Value 0 00 It shows the min frequency for inverter s operation MIN 50 00 F111 it means the lower one of the two values between 50 00 and F111 e g if F111 40 00 F112 s setting range will be 0 00 40 00 if F111 60 00 F112 s setting range will be 0 00 50 00 F113 Digital Setting Frequency Hz Setting Range F112 F111 Mfr Value 50 00 When inverter frequency setting mode is Digital Frequency Setting i e F204 0 or 1 frequency can be preset with this function code Inverter will automatically run to this frequency after started Frequency can be set by keypad A W or UP and DOWN terminal F114 F116 1 and 2 Acceleration Time S Setting Range 0 1 3000 Mfr Value 20 0 F115 F117 1 and 2 Deceleration Time S Acceleration Time refers to the time for inverter to accelerate to the max frequency F111 from 0Hz Deceleration Time refers to the time for inverter to decelerate to OHz from the max frequency F111 20 dios Codes Zoom when function of programmable input t
84. unit F1500 G0550T3C 380 three phase 110 C6 55 F1500 G0750T3C 380 three phase 150 C6 75 2 3 Product Appearance Exterior structure of 1500 series inverter is classified into plastic and metal housings Plastic housing is shaped by mould pressing with hi quality polymeric carbon nice and strong with good tenacity metal housing adopts advanced process of exterior plastic powder spraying glossy in color and elegant in appearance 2 3 1 Plastic Housing Appearance Appearance and structure components are indicated as in Fig 2 3 taking F1500 G0055T3B for an instance 1 Keypad Control Unit 5 ControlTerminal 2 Vent 6 Power Terminal 3 Dust Cover 7 Nameplate 4 Radiator 8 Mounting Hole 1g 2 t 1 2 3 2 Metal Housing Appearance Appearance and structure components are indicated as in Fig 2 4 taking F1500 G0220T3C for an instance Detachable one side door hinge structure is adopted for front panel for a convenient wiring and maintenance 1 Keypad Control Unit 6 Mounting Screw 2 Front Panel 7 Nameplate 3 Vent 8 Power Terminal 4 Body 9 Control Terminal 5 Mounting Holes 10 Outlet Hole Install amp wiring 2 4 Performance Indexes Items Descriptions three phase 380V 15 single phase 220 15 three phase Rated Voltage Input 220V 15 Rated Frequency 50 60Hz 5 Rated Voltage three phase 0 380V three phase 0 2
85. x channel speed control 21 Teminal Counting 22 Count Value Reset to Zero F415 OP8 Terminal Function Definition 23 Pulse Frequency Input terminal 4 x only valid for OP1 61 Function US Class Definition Setting Range Mfr s Value Note Code 0 No function 1 Inverter malfunction protection d 2 Over latent frequency F416 Relay Output 3 Free stop 1 x 09 4 Inverter operation S 5 During DC braking B 6 Indicating switchover of gt Acceleration Deceleration rg 7 Reaching the set count value B 8 Reaching designated 5 B count value 0 9 Overload early warning signal o gt F417 OUT Terminal Output 4 x go 10 Reserved ue 5 11 Reserved 2 12 Reserved Tt 13 Reserved d y i 0 Indicate output frequency value d 3 F418 FM Output Function Selection 1 Indicate output current value 0 j o B F419 FM Output Calibration 0 200 100 0 0 20mA 0 10V F420 IM FM Output Range Selection 1 4 20mA 2 10V 0 F421 F460 Reserved F500 Slip Compensation 0 00 0 08 0 03 x 0 Beeline l Polygonal line 2 F501 V F Curve Control Mode 0 x Square F502 Torque Promotion 96 1 MIN 15 F506 5 x lt F503 F504 Reserved User Defined Frequency Point 1 F505 F112 F507 10 00 x Hz o 2 F506 User Defined Voltage Point 1 F502 MIN 100 F508 30 x H E User Defined Frequency Po
86. y items Editing will not appear U100 Volt As F131 127 all display items are visible of Linear 17 85 OO MI Velocity i which function code editing will be visible whether or not it is selected Should you intend to check any display item just press mode for switchover Refer to the right table for each specific physical unit and its indication F132 Number of motor pole pairs Setting Range 1 6 Mfr Value 2 F133 Driven system s drive ratio Setting Range 0 1 100 0 Mfr Value 1 0 F134 Transmission wheel radius m Setting Range 0 001 1 000 Mfr Value 0 001 Calculation of retoting speed and linear velocity If inverter s max frequency F111 50 00Hz number of motor pole pairs F132 2 drive ratio F133 1 0 Transmission wheel radius F134 0 05m then Transmission wheel perimeter 2 2 3 14 0 05 0 314 meter Transmission shaft rotate speed 60x operation frequency number of pole pairs x drive ratio 1 0 03 60 50 2 1 00 1 0 03 1455 0 03 slip ratio final linear velocity rotate speed x perimeter 1455x0 314 456 87 meter minute 7 61 meter second F139 whether to start automatically Setting Range 0 null 1 valid Mfr Value 0 after reconnection to power or malfunction This function means that inverter is reconnected after power disconnection or whether it can be started automatically after malfunction protec
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