User Manual - Fennec Machinery
Contents
1. 4 Main circuit terminals 22kW 37kW model G LIES 69 62 62 C2 O Rs r PB 9 ju vw p 5 Main circuit terminals 45kW 110kW model G E C al I S eS A Y z B EY AN R NONE Q I eS 4 v Uf v RJS 6 Main circuit terminals 132kW 400kW model G ES ET NE 4 8000B Series Terminals Descriptions R S T Terminals of AC power input UV W Terminals of AC power output Spare terminals for connecting external brake unit P Spare terminal for connecting external DC reactor PB Spare terminal for connecting external brake resistor Grounding terminal 3 2 2 Precautions on Main Circuit Wiring 3 2 2 1 Terminals R S and T The wiring at the input side of inverter has no phase sequence requirement When input single phase power use terminal R and T 3 2 2 2 DC Bus Terminals and The and terminals of DC bus have residual voltage right after power off Wait until the CHARGE indicator is OFF and make sure that the voltage is less than 36V before wiring Otherwise it may cause electrical shock When use external brake unit for inverter of 22kW2. Function Minimum Facto isens C Function Descriptions 5 Ory cation ode Unit Setting Type F8 12 FDT level 0 00 F0 10 0 01Hz 50 00Hz O F8 13 FDT lag 0 0 100 0 0 1 5 0 O Detecting range F8 14 of reached 0 0 100 0 Maxi frequency 0 196 0 096 o frequency Braking 115 0 140 0 standard DC bus F8 15 threshold 0 1 120 0 o voltage voltage Speed display F8 16 Ma 0 1 999 9 0 1 100 0 O coefficient Start stop selection when 0 Keep running 8 17 AMA 0 O running time is 1 Stop over Running time F8 18 0 9999h 1h 9999 o setting F8 19 Droop control 0 00Hz 10 00Hz 0 01Hz 0 00Hz O Panel filter time F8 20 3 0 00 10 00s 0 01s 0 10s O selection Output delay F8 21 0 9999s 0 1s 0 0s o time selection Lower limit F8 22 of frequency 0 00 Maxi frequency 0 01Hz 20 00Hz O detecting Upper limit F8 23 of frequency 0 00 Maxi frequency 0 01Hz 40 00Hz O detecting F8 24 Reserved ET WE 8000B Series Function Minimum Facto ARTE C Function Descriptions A ory cation ode Unit Setting Type Inverter rated F8 25 0 4 700 0kW 0 1kw Defined power b y F8 26 vener TAIGN 0 0 2000A 0 1A bio i current i i model Linear speed i 0 1 999 9 linear speed F8 27 display i 0 1 1 0 O S mechanical speed F8 27 coefficient F8 28 m Reserved F8 29 F9 Group PID parameters 0 Keypad F9 01 1 Analog terminal A
3. 1 O refers to terminals of main circuit O refers to terminals of control circuit 2 0 75kW 2 2kW model G brake unit is standard part inside 3 0 75kW 2 2kW model G of single phase 220V main circuit terminals are R and T 23 ET WE 8000B Series 3 1 2 Wiring Diagram of 4KW 7 5kW model G 3 phase 380V 50 60HZ S DL n 3 phase 380V Sd Os G6 O T Brake Resistor Digital Input Terminal 1 Digital Input Terminal 2 Digital Input Terminal 3 Digital Input Terminal 4 Digital Input Terminal 5 Digital Input Terminal 6 Note DC 0 10V DC 0 10V 0 4 20mA M2 DD ms M4 M5 M6 COM 10V AVI ACI GND 8000B Series Inverter FM AM GND MO1 24V COM lr O RS485 Extension Keypad Interface E Lv V A DC Voltage Meter 0 10V DC Voltage or Current Meter 0 0V 0 20mA TA TA TB Normal Open Contact TC TB TC Normal Close Contact TB DC48V 50mA DC 24V Maxi 200mA DC 24V Power Ground Maxi 200mA 1 O refers to terminals of main circuit O refers to terminals of control circuit 2 AKW 7 5kW model G brake unit is standard part inside 3 1 3 Wiring Diagram of 11kW 18 5kW model G 3 phase 380V Brake Resistor
4. PB 3 phase 380V Ss O s v Motor 50 60HZ 6 dO Q T wo VD i 8000B Series Inverter A RS485 Extension i mm Keypad Interface Digital Input Terminal 1 Q O O M1 Mais Digital Input Terminal 2 Q OO m2 Digital Input Terminal 3 O O 4O M3 ve DC Voltage Meter 0 10V Digital Input Terminal 4 O O 0 M4 DC Voltage or Current AM VIA Digital Input Terminal 5 O OO M5 Meter 0 0V 0 20mA GND Digital Input Terminal 6 O O DO M6 COM r O om TA TB Normal Open Contact HO O orTc TB TC Normal Close Contact TB 10V M0 Doo AVI eH DC48V 50mA TR T MCM DC 0 10V 0 4 20mA m GND 2av DC 24V Maxi 200mA com DC 24V Power Ground Maxi 200mA Note 1 refers to terminals of main circuit O refers to terminals of control circuit 2 11KW 18 5kW model G brake unit is standard part inside SAJ Y ma 4 8000B Series 3 1 4 Wiring Diagram of 22KW 400kW model G 3 phase 380V DC Reactor Outside Brake Brake Resistor Unit O S OL np ve 3 phase 380V 5 Doo s vo Motor 50 60HZ S Y T we e VD 8000B Series Inverter m RS485 Extension irm Keypad Interface Digital Input Terminal 1 QO OO M1 Digital Input Terminal 2 QO O DO M2
5. 8000B Series Enhanced Inverter User Manual Version code 8000B E201208 1MB ET WE Y m 4 8000B Series TABLE OF CONTENTS Notes for Safe Operation rararnnnnnnnnnnnnnnnnnnnnnnnnnennnennnnnnnnnnnnr 01 Notes for Other Important Operations eeeeeeeeeee 06 Chapter 1 Select the Right Type eem 08 19 Description of Model ec 08 1 2 Description of Nameplal6 5 4 2 dr e ee t eda 08 1 3 8000B Series Inverter Tableros noa ini nme hee nnn 09 1 4 Specifications of 8000B Series Inverter sssssssessssssssse 10 1 5 Outline Drawing and Dimensions sssseR 12 1 6 Selection Instruction Table of Brake Resistor and Brake Unit 17 Chapter 2 Mechanical and Electric Installation 18 2 1 Mechanical Installation ons oo eco rro ex E Eee np te eere neret 18 2 2 Electric Installation naaa 19 Chapter 3 Wiring eiie rient ihr rra ie ba 23 3 1 Standard Wiring Diagram uoo cuore Erro creen te eu cer dE 23 3 2 Terminal Descriptions of Main Circuit and Control Circuit 27 Chapter 4 Operation cse ee 32 4 1 Keypad Description nica artista eee t vez ia 32 4 2 Operation Process 22 eie eet eee bita cda 33 Chapter 5 Function Code Table eene 36 Chapter 6 Trouble Shooting eee 64 6 1 Fault and Trouble Shootitig cnp eter rite pe 64
6. 0 75kW 2 2kW model G 4kW 7 5kW model G 11kW 110kW model G Ween 4 Ms 4 X 1 5 2 Dimensions 1 5 2 1 Dimensions Drawing ET WE SAJ 8000B Series FEEFEE a 282888 EE UT HL jer EENEN 280kW 400kW model G SAJ Y ma 4 8000B Series 1 5 2 2 Dimensions Table Installation Hole Dimensions Appearance Dimensions mm Diameter Inverter Model mm mm A B H H1 Ww wi D 8000B 2SR75GB 8000B 2S1R5GB 92 142 7 151 7 101 126 8 25 8000B 2S2R2GB 8000B 4TR75GB 8000B 4T1R5GB 92 142 7 151 7 101 126 8 5 8000B 4T2R2GB 8000B 4T004GB 4T5R5PB 8000B 4T5R5GB 4T7R5PB 144 4 237 249 5 155 5 159 5 25 9 8000B 4T7R5GB 8000B 4T011GB 4T015PB 8000B 4TO15GB AT18R5PB 156 6 378 3 364 396 214 221 7 190 5 26 8000B 4T18R5GB 8000B 4T022G 4T030P 8000B 4T030G 4T037P 235 447 424 463 285 289 6 210 3 7 8000B 4T037G 8000B 4T045G 4T055P 8000B 4T055G 4T075P 8000B 4T075G 4T093P 260 580 544
7. 595 5 380 390 284 8 210 8000B 4T093G 4T110P 343 674 650 701 5 473 485 318 210 8000B 4T110G 8000B 4T132G 4T160P 8000B 4T160G 4T185P 449 902 5 927 1359 580 384 210 8000B 4T185G 8000B 4T200G 4T220P 8000B 4T220G 4T250P 420 1162 1131 5 1481 6 680 400 5 912 8000B 4T250G 4T280P 8000B 4T280G 4T315P 8000B 4T315G 520 1300 1355 1765 800 392 5 214 8000B 4T350G 8000B 4T400G SAJ Y ma 4 8000B Series 1 5 2 3 Dimensions of Extension Keyboard NS 2980 370 17 20 27 10 0 75kW 2 2kW model G o oi oi oa 93 50 99 10 m iS 17 70 66 60 4kW 7 5kW model G 1970 7230 76 30 m 210 ne og og oi ot 980 130 20 126 20 126 20 11kW 400kW model G SAJ Y ma 4 8000B Series 1 6 Selection Instruction Table of Brake Resistor and Brake Unit Recommended Recommended Inverter Model Power of Brake Resistance Value Brake Unit Resistor of Brake Resistor
8. 6 2 Common Faults and Solutions nennen ren 68 Chapter 7 Data Address Table of Function Code 69 SA Y ma 4 8000B Series PRECAUTION Never modify the products Failure to observe this warning can result in electrical shock or personal injury SAJ is not responsible for any modification of the frequency products made by the user since that will void your guarantee ET WE Y mn 4 8000B Series Notes for Safe Operation Read this instruction manual thoroughly before installation operation maintenance or inspection of the frequency inverters In this manual safe operation are classified as WARNING or CAUTION Z WARNING Indicate a potentially dangerous situation which if not avoided could result in death or serious injury to personnel A CAUTION Indicate a potentially dangerous situation which if not avoided could result in minor or moderate injury and damage to equipment It may also be used for warning against unsafe practices Even items described as A CAUTION may result in a vital accident in some situations Please follow these important notes N NOTE These are steps to be taken to ensure proper operation Before Installation N WARNING Do not install or operate any frequency inverter that is damaged or has missing parts Choose the motor of insulation class B or above Otherwise it may cause an electrical s
9. 8000B 2SR75GB 80W 21500 8000B 2S1R5GB 100W 21000 8000B 2S2R2GB 100W 2700 8000B 4TR75GB 150W 23000 8000B 4T1R5GB 150W 22200 8000B 4T2R2GB 250W 22000 8000B 4T004GB 4T5R5PB 300W 21300 Standard 8000B 4T5R5GB 4T7R5PB 400W 2900 joe 8000B 4T7R5GB 500W 2650 8000B 4T011GB 4T015PB 800W 2430 8000B 4T015GB 4T18R5PB 1000W 2320 8000B 4T18R5GB 1300W 2250 8000B 4T022G 4T030P 1500W 2220 8000B 4T030G 4T037P 2500W 2160 8000B 4T037G 3 7 kW 216 00 8000B 4T045G 4T055P 4 5 kw 2160 8000B 4T055G 4T075P 5 5 kW 280 8000B 4T075G 4T093P 7 5 kW 280 8000B 4T093G 4T110P 4 5 kWx2 280x2 8000B 4T110G 5 5 kWx2 280x2 8000B 4T132G 4T160P 6 5 kWx2 280x2 Additional 8000B 4T160G 4T185P 16kW 22 50 Accessory external 8000B 4T185G 20 kW 22 50 8000B 4T200G 4T220P 20 kW 22 50 8000B 4T220G 4T250P 22 kW 22 50 8000B 4T250G 4T280P 12 5 kWx2 22 502 8000B 4T280G 4T315P 14kWx2 22 502 8000B 4T315G 16kWx2 22 502 8000B 4T350G 17kWx2 22 50x2 8000B 4T400G 14 kWx3 22 50x3 SAJ Y ma 4 8000B Series Chapter 2 Mechanical and Electric Installation 2 1 Mechanical Installation 2 1 1 Installation Environment The ambient temperature exerts great influences on the service life of the inverter and is not allowed to exceed the allowable temperature range 10 C to 50 C The inverter should be mounted on the surface of incombustible articles with sufficient spaces nearby for heat sinking The inverter is easy to generate large amount of heat during operation The inverter sho
10. Do not share the grounding terminal with zero line of power supply 3 2 3 Control Circuit Terminals 0 75kW 2 2kW Control Circuit Terminals TA TB TC M1 M2 M3 M4 M5 M6 GND FM AM ACI 10V AVI GND IMCM MO1 4kW 400kW Control Circuit Terminals M1 ve Ms com ma M5 M6 com 2v vo von E 104 ono ev FM AM TA TB TC Communication Terminals 1 2 3 4 5 6 7 8 S S 15V GND 5V NC 5V GND w 8 765432 1 NC J E E GND SAJ Y ma 4 8000B Series Tvpe Terminal Function Interface yp Symbol Standard S 485 difference signal positive terminal S 485 difference signal negative terminal Standard RS485 5V Extension power positive terminal 5V communication interface Computer Communication 15V Extension power positive terminal 15V GND Extension power negative terminal 3 2 4 Descriptions of Control Circuit Terminals Symbol Terminal Name Function 0 75 2 2kW G Digital terminals can not be connected to power directly Multi function When connected to GND terminal it is power on and M1 M6 digital input the corresponding current is 10mA terminal 4kW and above Optical coupling isolation input compatible with 24V and COM Input voltage range 9 36V input impedance 3 3kQ Multi function 2 ea MO1 ou
11. Select larger capacity low inverter 4 Load is too heavy 1 Input voltage is too 1 Inspect voltage of power low grid 2 Improper setting of 2 Properly setting of motor motor rated current rated current E011 Motor overload 3 Improper motor s 3 Inspect load and boost the overload protection torque threshold 4 Select larger capacity 4 Inverter capacity is inverter too low E012 Phase lack of input Phase lack of R S T Inspect the input power side supply or wiring 1 There is a broken Check the wiring and wire in installation the output cable goia POSE Pei is a broken wire output side od in the motor winding 3 Output terminals are loose ET WE 8000B Series Aa Fault Type Reason Solution 1 Instantaneous over 1 Refer to over current current of inverter solutions 2 Output short circuit 2 Use the good wire 3 Cooling fans of 3 Replace cooling fan and inverter stop or clear the ventilation channel damaged Obstruction 4 Decrease the ambient of ventilation channel temperature E014 Inverter overheat 4 Ambient temperature 5 Inspect and tighten the wire is too high and terminals 5 The cables or 6 and 7 Ask for support terminals are loose 6 Power circuit abnormal 7 Control PCB board abnormal E015 External fault External fault input Inspect external equipment terminals take effect 1 Improper baud rate 1 Set proper baud rate Communication setting 2 Push STOP
12. bandwidth quen Skip frequency 0 0 50 0 relative to swing FB 01 0 19 0 09 O bandwidth frequency bandwidth e Rising time FB 02 of swing 0 1 3600 0s 0 1s 5 0s O frequency Dropping FB 03 time of swing 0 1 3600 0s 0 1s 5 0s O frequency Counting matar 0 Start from zero when power on FB 04 g 1 Start from counting meter of 0 1s 5 0s O method the last time Roller perimeter FB 05 of counting 0 9999cm 1cm 100cm O meter Setti I f FB 06 DS 19 vaue o 9 9999m im 1000m O counting meter SA 8000B Series Function Minimum Facto Mecki C Function Descriptions E Ory cation ode Unit Setting Type Clear up i 0 Invalid FB 07 counting meter 4 Valid 0 O value FB og Counter value 99 9999 0 O setting FB og Designated o pg gg 0 O counter value 0 Actual counting length FB 10 Counting meter displayed length Tm 0 o length 1 Actual counting length displayed length 10m FC Group RS485 Communication Parameters FC 00 Lacaladdress 1 247 0 refers to the broadcast 4 O address 0 1200BPS 1 2400BPS Baud rate 2 4800BPS duin selection 3 9600BPS 3 2 4 19200BPS 5 38400BPS 0 No check N 8 1 for RTU 1 Even parity check E 8 1 for RTU 2 Odd parity check 0 8 1 for RTU FC 02 Data bit check 0 O ata DIF check 3 No check N 8 2 for RTU 4 Even parity check E 8 2 for RTU 5 Odd parity check 0 8 2 for RTU Communication FC 03 r
13. complete tuning and then push RUN key inverter can calculate the parameter of motor During autotuning process the panel of inverter will display RUN When it displays END the autotuning process is finished If motor cannot be uncoupled with its load set the parameter of F2 11 to 2 static tuning and push RUN key inverter will auto detect the parameters SAJ Y ma 4 8000B Series of motor stator resistor rotator resistor and leakage inductance while the parameters of motor mutual inductance and no load current are not detected The parameters of motor mutual inductance and no load current can be calculated by the following formula 1021xJ1 n Lm U L 2 33 f lo IO motor no load current Lm motor mutual inductance L motor leakage inductance U motor rated voltage I motor rated current f motor rated frequency n motor power factor 4 2 4 Password Setting When F7 00 is set to be non zero the parameter will be the user s password After exit the function code editing status the password will be effective after one minute And then press the PRGM key again to try to access the function code editing mode the inverter panel will display 0 0 0 0 The password must be input correctly to access it If it is necessary to cancel the password function set F7 00 to zero Notice When the inverter is powered on system will execute initialization first and inverter panel displays 8000 with four lig
14. deceleration F5 Group Input Terminals Parameters M1 terminal 0 Invalid F5 00 i 1 e function 1 Forward run FWD 2 Reverse run REV 3 3 wire control 4 Forward jog run FJOG 5 Reverse jog run RJOG 6 Coast to stop M2 terminal F5 01 T Fault reset RESET 2 e function 8 Pause running 9 External fault input N O 10 UP Key command 11 DOWN Key command 12 Clear UP DOWN setting ET WE Y mn 4 8000B Series Function 5 AR Minimum Factory Modif Code Function Descriptions Unit Setting cation Type 13 Frequency setting source switch between X and Y 14 Frequency setting source F5 02 M3 terminal switch between X and X Y 7 function 15 Frequency setting source switch between Y and X Y 16 Multi step speed terminal 1 17 Multi step speed terminal 2 18 Multi step speed terminal 3 19 Multi step speed terminal 4 20 Multi step speed pause 21 Acceleration deceleration time selection terminal 1 F5 03 ma terminal 22 Acceleration deceleration 0 e function i time selection terminal 2 23 Reset simple PLC after pause 24 Simple PLC pause 25 PID pause 26 Swing frequency pause stop at current frequency 27 Reset after swing frequency T M5 terminal pause reset to central function frequency 28 Counter reset 29 Reserved 30 Acceleration deceleration prohibited 31 Counter triggering 32 Clear UP DOWN setting temporarily 33 Reserved F5 05 M6 terminal 34 Counting meter
15. 0 0s O and REV F1 11 Nod EE 1 O i i 1 Enabled when power on F1 12 as Reserved F1 17 p118 Wake up time 9 0 3600s 015 oos O delay Restart option 0 Disabled F1 19 0 O after power off 1 Enabled F1 20 Waiting time of 9 o 3600s 01s oos O restart Over 0 Disabled F1 21 modulation 4 Enabled 0 O option F2 Group Motor Parameters 0 General model G F2 00 Inverter model 1 Pump model P 0 e Different according F2 01 Motorrated o 4 700 0kw OAKW to e power inverter model Mot ted F2 02 otor rated 10 00Hz F0 10 0 01Hz 50 00Hz frequency SAJ Y ma 4 8000B Series Modifi cation Type Function 5 T Minimum Factory Code Function Descriptions Unit Setting Mot ted F2 03 DE 0 36000rpm 1rpm e rotation speed F2 04 Motorrated 480v 1v e voltage F2 05 Motorrated 9 5 000A 0 1A e current Motor stator F2 06 y 0 001 65 530 0 0010 Different O resistance according Motor rotator to F2 07 0 001 65 530 0 0010 inverter O resistance model F2 08 Motorstator o 6553mH 0 1mH O inductance Motor rotator F2 09 mutual 0 1 6553mH 0 1mH O inductance Motor no load F2 10 0 1 655 3A A O current Motor 0 No autotuning F2 11 parameters 1 Autotuning completely 0 e autotuning 2 Static autotuning F2 12 Reserved F3 Group Vector Control Parameters Proportional F3 00 gain 1 of
16. 203 F6 07 132 F8 10 168 F9 16 204 F6 08 133 F8 11 169 F9 17 205 F6 09 134 F8 12 170 F9 18 206 ET WE 8000B Series FA 00 207 FC 03 243 FD 32 279 FA 01 208 FC 04 244 FD 33 280 FA 02 209 FC 05 245 FD 34 281 FA 03 210 FC 06 246 FD 35 282 FA 04 211 FD 00 247 FD 36 283 FA 05 212 FD 01 248 FD 37 284 FA 06 213 FD 02 249 FA 07 214 FD 03 250 FA 08 215 FD 04 251 FA 09 216 FD 05 252 FA 10 217 FD 06 253 FA 11 218 FD 07 254 FA 12 219 FD 08 255 FA 13 220 FD 09 256 FA 14 221 FD 10 257 FA 15 222 FD 11 258 FA 16 223 FD 12 259 FA 17 224 FD 13 260 FA 18 225 FD 14 261 FA 19 226 FD 15 262 FA 20 227 FD 16 263 FA 21 228 FD 17 264 FB 00 229 FD 18 265 FB 01 230 FD 19 266 FB 02 231 FD 20 267 FB 03 232 FD 21 268 FB 04 233 FD 22 269 FB 05 234 FD 23 270 FB 06 235 FD 24 271 FB 07 236 FD 25 272 FB 08 237 FD 26 273 FB 09 238 FD 27 274 FB 10 239 FD 28 275 FC 00 240 FD 29 276 FC 01 241 FD 30 277 FC 02 242 FD 31 278 71 SAJ Guangzhou Sanjing Electric CO LTD TEL 00 86 20 6660 8588 6660 8519 FAX 00 86 20 6660 8589 ADD No 17 XiangShan Road High and New Technology Industry Development Zone Guangzhou China V1 0 Inverter
17. Digital Input Terminal 3 O O 90 M3 Y EM Y DC Voltage Meter 0 10V Digital Input Terminal 4 B O O M4 TN DC Voltage or Current AM 1 Digital Input Terminal 5 0 O 90 M5 Meter 0 0V 0 20mA GND O Digital Input Terminal BB O O 4Q M6 COM O O 4Q1A TA TB Normal Open Contact HO O orTe TB TC Normal Close Contact TB 10V MO1 DC 0 10V C 0 10 AVI DC48V 50mA DC 0 10V 0 4 20mA Gi MEM GND 24y DC 24V Maxi 200mA DC 24V Power Ground Maxi 200mA COM Note 1 O refers to terminals of main circuit O refers to terminals of control circuit 2 22kW 400kW model G brake unit is additional part outside 3 22kW 400kW model G DC reactor is additional part outside SAJ Y ma 4 8000B Series 3 2 Terminal Descriptions of Main Circuit and Control Circuit 3 2 1 Main Circuit Terminals 1 Main circuit terminals 0 75kW 2 2kW model G with built in brake unit AIESEC IES EE c Xe ey O ais ti ul vi wi mies 2 Main circuit terminals 4KW 7 5k ith built in brake unit SN RI y E E o 4 c z GE Ala IDD 2 AN 5 V DIV e Ce Sle 1B iQie mia s reu vi w e
18. chemical fiber machine by Frequency i i controlling the triangular frequency Function Automatically keep the output voltage constant when AVR Function power supply is not stable ET WE 8000B Series LED Display 16 parameters can by displayed including running frequency DC bus voltage output voltage output current etc Communication RS485 with standard MOBUS protocol Function Other m Password Four digit password can be set and become effective Functions Setting after 1 minute Parameter Lock This function can be used to lock the parameter when Function running or stop in order to avoid wrong operation Fault Protection Over current overvoltage under voltage over Function temperature lack of phase etc i Indoor away from sunlight dust corrosive gas oil fog Location water drop steam Elevation 1000m or less Application PP Ambient Environment 10 C 40 C Temperature Humidity 95 RH or less Vibration lt 5 9 m s 0 6G 1 5 Outline Drawing and Dimensions 1 5 1 Outline Drawing 8000B Series i ie 00000 ll 13
19. filter F5 22 0 00s 10 00s 0 1s 0 10s O time F5 23 5 Reserved F5 32 F6 Group Output Terminals Parameters MO1 output F6 00 P 0 No output 4 O selection 1 Motor forward running 2 Motor reverse running F6 01 Reserved 3 Fault output 0 O 4 Frequency detecting level Relay 1 output F6 02 y gt p FDT output 3 O selection 5 Frequency reached 6 Running at zero speed T Upper limit frequency reached 8 Lower limit frequency reached 9 Frequency setting value less than lower limit frequency 10 FDT reached 11 Accumulative running time Relay 2 output F6 03 reached 0 O selection 12 PLC cycle completed 13 Pre alarm when overload 14 User define output 15 Running frequency detection 16 Terminal input delay 17 Inverter stand by Modifi iran Function Descriptions perd age cation Type 0 Running frequency 1 Setting frequency 2 Running rotation speed 3 Output current F6 04 FM output 4 Output voltage 0 o selection 5 Reserved 6 Reserved 7 Reserved 8 Analog AVI input value 9 Analog ACI input value FM output I F6 05 pi ower 0 0 100 0 01 0 0 O FM lower limit F6 06 corresponding 0 00V 10 00V 0 01V 0 00V O to output F6 07 FM peui 0 0 100 0 01 100 096 O FM upper limit F6 08 corresponding 0 00V 10 00V 0 01V 10 00V O to output 0 Running frequency 1 Setting frequency 2 Running rotation speed 3 Output current F6 09 AM output 4 Output voltage 0 o selection 5 Reserved 6 Rese
20. happens occasionally and the distance between motor and inverter is too far it is recommended to install output AC reactor Inspect whether the output module is burnt or not If yes ask for support ET WE 8000B Series Chapter 7 Data Address Table of Function Code FO 00 0 FO 01 1 FO 02 2 FO 03 3 FO 04 4 FO 05 5 FO 06 6 FO 07 7 FO 08 8 FO 09 9 FO 10 10 FO 11 11 FO 12 12 FO 13 13 FO 14 14 FO 15 15 FO 16 16 FO 17 17 FO 18 18 FO 19 19 FO 20 20 FO 21 21 FO 22 22 FO 23 23 FO 24 24 FO 25 25 F1 00 26 F1 01 27 F1 02 28 F1 03 29 F1 04 30 F1 05 31 F1 06 32 F1 07 33 F3 05 66 F1 08 34 F3 06 67 F1 09 35 F3 07 68 F1 10 36 F3 08 69 F1 11 37 F3 09 70 F1 12 38 F3 10 71 F1 13 39 F3 11 72 F1 14 40 F3 12 73 F1 15 41 F4 00 74 F1 16 42 F4 01 75 F1 17 43 F4 02 76 F1 18 44 F4 03 TI F1 19 45 F4 04 78 F1 20 46 F4 05 79 F1 21 41 F4 06 80 F2 00 48 F4 07 81 F2 01 49 F4 08 82 F2 02 50 F4 09 83 F2 03 51 F4 10 84 F2 04 52 F4 11 85 F2 05 53 F4 12 86 F2 06 54 F4 13 87 F2 07 55 F4 14 88 F2 08 56 F4 15 89 F2 09 57 F4 16 90 F2 10 58 F4 17 91 F2 11 59 F5 00 92 F2 12 60 F5 0
21. input 0 e function 35 Counting meter clear up 36 Command source switch 37 Terminal input delay output 38 Reserved ET WE 8000B Series Function Minimum Facto Modin C Function Descriptions E Ory cation ode Unit Setting Type F5 06 ad Reserved F5 09 F5 10 Crofffilter aa 5 O times 0 2 wire control mode 1 2 2 wire control mode 2 ERA FWD REV wire ontrol m r control mode 3 3 wire control mode 1 4 3 wire control mode 2 Frequency h t F512 Mangerate 9 91 50 00Hz s 0 01Hz s 0 50Hz s O when UP DOWN setting F5 13 AVI lower limit 0 00V 10 00V 0 01V 0 00V O AVI lower limit F5 14 corresponding 100 0 100 0 0 1 0 0 O to setting value F5 15 AVI upper limit 0 00V 10 00V 0 01V 10 00V O AVI upper limit F5 16 corresponding 100 0 100 0 0 1 100 0 O to setting value AVI input filt F5 17 mpu e 0 00s 10 00s 0 01s 0 105 O time F5 18 ACI lower limit 0 0mA 20 0mA 0 1mA 4 0mA o ACI lower limit F5 19 corresponding 100 0 100 0 0 1 0 0 O to setting value F5 20 ACI upper limit 0 0mA 20 0mA 0 1mA 20 0mA O ET WE 8000B Series Function Minimum Facto Mecki Function Descriptions E Y cation Code Unit Setting Type ACI upper limit F5 21 corresponding 100 0 100 0 0 1 100 0 O to setting value ACI input
22. motor with low speed Mot load FA 00 otor overoad Compensation 2 e protection 2 Variable frequency motor without low speed compensation ET WE 8000B Series Function Minimum Facto Meeti C Function Descriptions E ory cation ode Unit Setting Type FA 01 Motor over load 20 0 120 0 motor rated 0 1 400 0 O protection current FA 02 Threshold of 70 0 110 0 standard bus 0 1 80 0 O trip free voltage D t FA 03 9Cre88e rale o 00Hz FO 10 0 01Hz 0 00Hz O of trip free FA 04 Over voltage 0 Disabled 0 o stall protection 1 Enabled Over voltage FA 05 stall protection 110 150 1 120 O point Aut t FA 06 0 curent 50 200 1 160 O limiting level Frequency d t FA 07 6666888 rate o 00 50 00Hz s 0 01Hz s 10 00Hz s O when current limiting Auto current 0 Enabled FA 08 limiti 1 O Wi s 1 Disabled at constant speed selection FA 09 Fault reset 0 3 0 o times Fault t FA 10 aun Teset 0 1 100 0s 01s 10s O interval FA 11 Reserved Phase lack FA 12 iac si fl bas 1 O i protection o 4 Enabled input Phase lack 0 Disabled FA 13 protection of 4 Enabled 1 O output ET WE Y m 4 8000B Series Modifi Function 4 rave Minimum Factory E Function Descriptions A s cation Code Unit Setting Type 0 No fault 1 Inverter module protection E001 2 Over current when accelerate E002 F er tw
23. reset the inverter REV JOG Shortcut key Determined by function code F7 03 SAJ Y ma 4 8000B Series 4 1 3 Indicator Light Description Indicator Light Name Description RUN Light on inverter running status STOP Light on inverter stops or malfunction status Lights of FWD and RUN are on at the same time inverter FWD i forward running status REV Lights of REV and RUN are on at the same time inverter reversely running status 4 2 Operation Process 4 2 1 Parameter Setting Three levels of menu are as following Function code group first class Function code second class Setting parameter of function code third class Remarks Pressing PRGM or ENT can return to the second class menu from the third class menu The difference is Pressing ENT will save the setting parameters into control board and return to the second class menu with shifting to the next function code automatically While pressing PRGM will directly return to the second class menu without saving the parameters and keep staying at the current function code For example change the parameter 00 50Hz of function code F1 01 into 05 00Hz as the following flow chart shows Stop Run Status 50 00 00 50 A Prou Prou Y FO 05 00 v A ENT F1 F1 02 e m ent mm F1 00 F1 v A Prou Prom F1 01 50 00 Pravi m 00 50 Flow Chart of Parameter Setting SAJ Y ma 4 8000B Series Under the thi
24. 00 0 1 00 O 3 step running FD 09 iie 0 0 6553s m 04s m O0s O Multi st FD 10 pu r 100 100 0 1 0 0 O 4 st i FD 11 d n 0 0 6553s m 04s m oos O FD 12 pd 100 100 01 0 0 O 5 st i FD 13 ee 0 0 6553s m 01s m oos O Multi st FD 14 ue E 100 100 0 1 0 0 O 6 st i FD 15 vr 0 0 6553s m 01s m 0 05 O Multi st FD 16 m SS 100 100 0 1 0 0 O 7 st i FD 17 po 0 0 6553s m 01s m 00s O FD 18 pn 100 100 01 0 0 O 8 st i FD 19 oe 0 0 6553s m 04s m oos O 61 ET WE 8000B Series Function Minimum Facto estie C Function Descriptions Y cation ode Unit Setting Type FD 20 Multi step 190 100 01 0 0 O speed 9 9 st i FD 21 Step running 9 0 6553s m 01s m oos O time Multi st FD 22 uk step 100 10096 0 1 0 0 O speed 10 10 st FD 23 SP 0 0 6553s m 04s m oos O running time Multi st FD 24 ut step 100 10096 0 1 0 0 O speed 11 41 st i FD 25 Step running 0 0 6553s m 01s m 00s O time FD 26 Mult step 100 100 0 1 0 0 O speed 12 12 st FD 27 SSP 0 0 6553s m 04s m O0s O running time Multi st FD 28 uk step 100 10096 0 1 0 0 O speed 13 13 st FD 29 99P 0 0 6553s m 04s m O0s O running time Multi st FD 30 ut step 100 10096 0 1 0 0 O speed 14 44 st i FD 31 Step running 9 6
25. 1 93 F3 00 61 F5 02 94 F3 01 62 F5 03 95 F3 02 63 F5 04 96 F3 03 64 F5 05 97 F3 04 68 F5 06 98 ET WE 8000B Series F5 07 99 F6 10 135 F8 13 171 F5 08 100 F6 11 136 F8 14 172 F5 09 101 F6 12 137 F8 15 173 F5 10 102 F6 13 138 F8 16 174 F5 11 103 F6 14 139 F8 17 175 F5 12 104 F6 15 140 F8 18 176 F5 13 105 F6 16 141 F8 19 177 F5 14 106 F6 17 142 F8 20 178 F5 15 107 F6 18 143 F8 21 179 F5 16 108 F7 00 144 F8 22 180 F5 17 109 F7 01 145 F8 23 181 F5 18 110 F7 02 146 F8 24 182 F5 19 111 F7 03 147 F8 25 183 F5 20 112 F7 04 148 F8 26 184 F5 21 113 F7 05 149 F8 27 185 F5 22 114 F7 06 150 F8 28 186 F5 23 115 F7 07 151 F8 29 187 F5 24 116 F7 08 152 F9 00 188 F5 25 117 F7 09 153 F9 01 189 F5 26 118 F7 10 154 F9 02 190 F5 27 119 F7 11 155 F9 03 191 F5 28 120 F7 12 156 F9 04 192 F5 29 121 F7 13 157 F9 05 193 F5 30 122 F8 00 158 F9 06 194 F5 31 123 F8 01 159 F9 07 195 F5 32 124 F8 02 160 F9 08 196 F6 00 125 F8 03 161 F9 09 197 F6 01 126 F8 04 162 F9 10 198 F6 02 127 F8 05 163 F9 11 199 F6 03 128 F8 06 164 F9 12 200 F6 04 129 F8 07 165 F9 13 201 F6 05 130 F8 08 166 F9 14 202 F6 06 131 F8 09 167 F9 15
26. 553s m 01s m oos O time FD 32 Multi step 190 100 01 0 0 O speed 15 15 st FD 33 SP 0 0 6553s m 04s m oos O running time SA 8000B Series Function Minimum Facto Mecki Function Descriptions ory cation Code Unit Setting Type Acceleration FD 34 time of O 7 O OxFFFF O steps Acceleration FD 35 time of 8 15 0 OxFFFF O steps 0 Restart from 1 step PLC restart FD 36 rester 1 Restart from break off 0 O method frequency FD 37 BEG operation 0 second s o time unit 1 minute m FE Group Reserved FF Group Reserved Factory Parameters ET WE 8000B Series Chapter 6 Trouble Shooting 6 1 Fault and Trouble Shooting Fault Code Fault Type Reason Solution 1 Acceleration time is 1 Increase acceleration time too short 2 Ask for support 2 IGBT module 3 Inspect external equipment 001 IGBT module fault damaged and eliminate interiores 3 Malfunction caused 4 Check grounding wire by interference 4 Grounding is not properly 1 Accelerate too fast 1 Increase acceleration time Overc rrentwhen 2 Input voltage is too 2 Inspect ihe input power E002 aecalorsiti n low supply or wiring 3 Inverter capacity is 3 Select larger capacity too low inverter 1 Decelerate too fast 1 Increase deceleration time 2 Load is too heavy and 2 Add suitable braking units Over current when i E003 has la
27. ET WE 8000B Series 2 2 4 Descriptions of External Electrical Parts Name Mounting Location Function Circuit Breaker Front end of input circuit Disconnect the power supply when the backward equipment is over current Contactor Between the circuit breaker and inverter input side Power ON OFF of inverter Do not use the contactor as the switch of inverter Otherwise it may cause damage to the inverter AC Reactor atthe Input Side Input side of inverter 1 Improve the power factor of the input side 2 Eliminate the harmonic wave at the input side effectively and prevent other equipment from damage 3 Eliminate the input current unbalance caused by unbalance between the power phases EMC Input Filter Input side of inverter 1 Reduce the external conduction and radiation interference of inverter 2 Decrease the conduction interference flowing from the power end to the inverter and improve the anti interference capacity of the inverter DC Reactor Additional parts of 8000B series inverter 1 Improve the power factor at the input side 2 Improve the whole efficiency and thermal stability of the inverter 3 Eliminate the impact of higher harmonics at the input side on the inverter and reduce the external conduction and radiation interference AC Reactor atthe Output Side Between inverter output side and motor Close to inverter The inverter
28. G 4T055P 45 55 90 105 90 110 45 55 8000B 4T055G 4T075P 55 75 105 140 110 150 55 75 8000B 4T075G 4T093P 75 93 140 160 150 176 75 93 8000B 4T093G 4T110P 93 110 160 210 176 210 93 110 8000B 4T110G 110 210 210 110 8000B 4T132G 4T160P 132 160 240 290 250 300 132 160 8000B 4T160G 4T185P 160 185 290 330 300 340 160 185 8000B 4T185G 185 330 340 185 8000B 4T200G 4T220P 200 220 370 410 380 415 200 220 8000B 4T220G 4T250P 220 250 410 460 415 470 220 250 8000B 4T250G 4T280P 250 280 460 500 470 520 250 280 8000B 4T280G 4T315P 280 315 500 580 520 600 280 315 8000B 4T315G 315 580 600 315 8000B 4T350G 355 620 640 255 8000B 4T400G 400 670 690 400 ET WE 4 8000B Series 1 4 Specifications of 8000B Series Inverter Control Mode Sensorless vector control VIF control Start Torque 0 5Hz 15096 0 5Hz 10096 Rotation Speed 1 200 1 100 Ratio Precision of Speed 0 5 1 0 Regulation Model G 150 above the rated current for 60 Overload seconds 180 above the rated current for one second Capability Model P 120 above the rated current for 60 seconds 150 above the rated current for one second Characteristics V F curve Three selection type Linear type Square type and Multipoint t E of Controlling a DC brake frequency 0 00 max frequency brake time 0 1 50 0s DC Brake Brake current 0 150 of rated current model G 0 100 of rated current model P Brake waiting time 0 0 50 0s Jog frequency ran
29. Parameters 0 Linear curve 1 User defined curve 2 1 3 square torque step down F4 00 VIF curve curve 0 e selection 3 1 7 square torque step down curve 4 2 square torque step down curve 0 0 auto 0 1 30 0 0 1 1 0 O 1707 U 70 F4 01 Torque boost Torque 0 0 50 09 lative to mot F4 02 boost cut off relative to motor o4 20 0 rated frequency frequency V F frequency F4 03 4 0 00Hz F4 05 0 01Hz 0 00Hz e F4 04 VIF voltage 1 0 0 100 0 0 196 0 096 e VIF f F4 05 y F4 03 F4 07 0 01Hz 25 00Hz 0 F4 06 V F voltage 2 0 0 100 0 0 196 50 0 e F4 07 WF m F4 05 motor rated frequency 0 01Hz 50 00Hz e F4 08 V F voltage 3 0 0 100 0 0 196 100 096 e Coefficient F4 09 of V F Slip 0 0 200 0 0 1 0 0 O compensation F410 Energy saving 0 Disabled 0 o selection 1 Enabled automatically F4 11 Reserved ET WE 8000B Series e Modifi i Function Descriptions pintados Factory cation ode Unit Setting Type Low frequency threshold of F4 12 0 10 2 a restraining oscillation High frequency threshold of F4 13 du 0 10 0 O restraining oscillation F4 14 Reserved Boundary frequency of F4 15 o 0 00Hz F0 10 Maxi frequency 0 01Hz 30 00Hz O restraining oscillation F4 16 Reserved 0 Invalid AVR function 1 Valid all the time F4 17 i 1 O selection 2 Only invalid during
30. RESET to E016 fault 2 Receive wrong data reset and ask for support 3 Communication is 3 Check communication interrupted for long time devices and cables E017 Reserved 1 Wires or connectors 1 Check the wiring and of control board are connectors loose 2 3 and 4 Ask for support Eois Current detection PORKA aroun fault 3 Hall sensor is damaged 4 Power circuit abnormal 1 Improper setting of 1 Set rated parameters motor rated parameters according to motor E019 Autotuning fault 2 Overtime of nameplate m autotuning 2 Check motor s wiring 3 Too much error 3 Make motor uncoupled with load and autotune again E020 Reserved ET IE 8000B Series Fault Code Fault Type Reason Solution E021 Reserved 1 Read Write fault of Push STOP RESET to reset E022 EEPROM fault control parameters and ask for support 2 EEPROM damaged 1 Accelerate too fast 1 Increase acceleration time 2 Restart the motor 2 Avoid prompt restart when when instantaneous trip off E023 Overload pre trip off occurs 3 Inspect power grid alarm 3 Input voltage is too 4 Select larger capacity low inverter 4 Load is too heavy 5 Set the suitable parameter of F3 10 1 Sensor disconnect or 1 Check sensor installation loose contact and connection PID feedback lost 2 Detecting time of 2 Extend the detecting time E024 fault disconnection is too of sensor disconnection short 3 No feedback signal of system 1
31. Select the Right Type 1 1 Description of Model 8000B 4 T 011 G B product series 2 220V with brake unit inside G used for general machines P used for pumps and fans 11kW S single phase 4 380V T three phase 1 2 Description of Nameplate name of manufacturer model power capacity input output series number A ES Guangzhou Sanjing Electric Co Ltd MODEL 8000B 4T011GB 015PB POWER 11kW 15kW INPUT 3PH AC 380V 15 50 60Hz OUTPUT 3PH AC0 380V 0 0 600Hz 25A 32A MN ONANAN S ET WE 8000B Series 1 3 8000B Series Inverter Table Inverter Model Power Rated Input Rated Output Motor GIP capacity Current Current Capacity kw A A kW G P Single phase 220V115 8000B 2SR75GB 0 75 8 2 4 5 0 75 8000B 2S1R5GB 15 14 2 Y 1 5 8000B 2S2R2GB 2 2 23 10 2 2 Three phase 380V115 8000B 4TR75GB 0 75 3 4 2 5 0 75 8000B 4T1R5GB 1 5 5 3M 1 5 8000B 4T2R2GB 2 2 5 8 5 0 2 2 8000B 4T004GB 4T5R5PB 4 5 5 10 15 9 13 415 5 8000B 4T5R5GB 4T7R5PB SEES 15 20 13 17 5 5 7 5 8000B 4T7R5GB 78 20 17 7 5 8000B 4T011GB 4T015PB 11 15 26 35 25 32 11 15 8000B 4T015GB 4T18R5PB 15 18 5 35 38 32 37 15 18 5 8000B 4T18R5GB 18 5 38 37 18 5 8000B 4T022G 4T030P 22 30 46 62 45 60 22 30 8000B 4T030G 4T037P 30 37 62 76 60 75 30 37 8000B 4T037G 37 76 75 37 8000B 4T045
32. Setting value of Push STOP RESET key to ting met hed reset FULL Counting meter full CPU ning meter reached rese 2 The value of counting meter gets to 9999m ET WE 4 8000B Series 6 2 Common Faults and Solutions Inverter may have following faults or malfunctions during operation please refer to the following solutions No display after power on Inspect whether the voltage of power supply is the same as the inverter rated voltage or not with multi meter If the power supply has problem inspect and solve it Inspect whether the three phase rectify bridge is in good condition or not If the rectification bridge is burst out ask for support Power supply air switch trips off when power on Inspect whether the input power supply is grounded or short circuit Solve this problem Inspect whether the rectify bridge has been burnt or not If it is damaged ask for support Motor doesn t run after inverter works Inspect if there is balanced three phase output among U V W If yes then motor could be damaged or mechanically locked If the output is unbalanced or lost the inverter drive board or the output module may be damaged ask for support Inverter displays normally when power on but switch at the input side trips when running Inspect whether the output side of inverter is short circuit If yes ask for support Inspect whether ground fault exists If yes solve it If trip
33. VI PID setting 2 Analog terminal ACI F9 00 oe ee 0 O source 3 Communication interface 4 Muli function digital input terminals Keypad PID F9 01 0 0 100 0 0 1 0 0 e preset 0 Analog terminal AVI PID feedback 1 Analog terminal ACI F9 02 source 0 O E 2 AVI ACI selection LE 3 Communication interface PID output 0 Positive F9 03 n 0 O characteristic 1 Negative Proportional F9 04 0 00 100 0 0 01 0 10 O gain Kp Integral time F9 05 Ti 0 01 10 00s 0 01s 0 10s O i Differential time F9 06 Td 0 00 10 00s 0 01s 0 00s O ET WE 8000B Series Function Minimum Facto kodin C Function Descriptions A Ory cation ode Unit Setting Type S li F9 07 ines VE 0 01 100 0s 0 015 0 05 O Bias limit of PID F9 08 As mro 0 0 100 0 0 1 0 0 O control Feedback lost pos TT ost 0 0 100 0 0 1 0 0 O detecting value Feedback lost F9 10 9905808 ost o 03600 os 015 1 05 O detecting time PID sleep 0 PID normal working FREUT function option 1 PID sleep a a PID sleep F9 12 detecting delay 0 0 3600 0s 0 1s 3 0s O time PID wake F9 13 wa lt e uP 0 0 100 0 0 1 0 0 O threshold PID wake up F9 14 detecting delay 0 0 3600 0s 0 1s 3 0s O time Lower f F9 15 requency 9 00Hz 20 00Hz 0 01Hz 10 00Hz O of PID sleep detecting F9 16 e Reserved F9 18 FA Group Protection and Malfunction Parameters 0 Disabled 1 Normal
34. and above the poles of and should not be connected reversely Otherwise it may cause damage to inverter and even cause fire The cable length of brake unit should be less than 10m Use twisted pair cable or connect in parallel Do not connect brake resistor directly to the DC bus Otherwise it may cause damage to inverter and even cause fire 3 2 2 3 Terminals and PB of Brake Resistor The terminals of brake resistor are effective only for inverter of 18 5kW and below with built in brake unit The cable length of brake resistor should be less than 5m 3 2 2 4 Terminals P and of External Reactor For inverter of 22kW and above the reactor is additional part which is connected externally 3 2 2 5 Terminals U V and W Capacitor device or surge absorber can not be connected to inverter output side by terminals U V and W Otherwise it may cause frequent inverter protection or damage to inverter If motor cable is too long it may generate electrical resonance easily due to the impact of distributed capacitance and thus damage the motor insulation or generate higher leakage current to cause inverter protection When the length of motor cable is longer than 50m installing AC reactor at the output side is necessary 3 2 2 6 Grounding Terminal The terminal should be grounded reliably The resistance value of grounding cable should be less than 10Q Otherwise it may cause fault or damage to the inverter
35. ation Make sure the insulation resistor is not below 5MQ 2 Thermal Overload Protection of the Motor When the rated capacity of inverter is larger than that of the motor install thermal overload relay for the motor or regulate the motor protection parameters of the inverter 3 Consider the Bearing Capability of the Load The inverter can provide output frequency from 0 Hz to 600 Hz If the motor needs to work at over 50 Hz user should consider the bearing capability of the load 4 Avoid Mechanical Resonance Frequency Regulate the skip frequency parameter of the inverter to avoid mechanical resonance frequency of the load 5 Prohibition of Installation of Phase Advancing Capacitor If a phase advancing capacitor or surge suppressor is connected in order to improve the power factor it may become overheated and damaged by inverter high harmonic components Also the inverter may malfunction because of over current 6 Installation of Magnetic Contactor If a magnetic contactor is installed at the power supply side do not use it to control the start of the inverter If necessary the time span should be one hour or above Otherwise frequent switching may cause the inverter to malfunction If a magnetic contactor is installed between the output terminals and motor output side of the inverter make sure there is no output of inverter before Switch on and off Otherwise it may cause damage to the inverter SAJ Y ma 4 8000B Serie
36. e Parameters F7 00 User password 0 9999 F7 01 Reserved F7 02 Reserved REV JOG key function selection F7 03 0 Switch display status 1 Clear UP DOWN setting 2 Reverse running 3 Forward jog running 4 Quick debugging mode Stop function selection of STOP RESET key F7 04 0 Only valid for keypad setting 1 Valid for both keypad setting and terminals setting 2 Valid for both keypad setting and communication interface setting 3 Valid for all control mode F7 05 Reserved Running status display selection 1 F7 06 0 0xFFFF BITO Running frequency BIT1 Setting frequency BIT2 DC bus voltage BIT3 Output voltage BIT4 Output current BIT5 Running speed BIT6 Linear speed BIT7 Reserved BIT8 Reserved BIT9 PID setting value BIT10 PID feedback value BIT11 Input terminals status BIT12 Output terminals status BIT13 Reserved BIT14 Counter value BIT15 Current step of multi step speed and PLC 35 O ET WE 8000B Series Function A Ale Minimum Factory Modifi Code Function Descriptions Unit Setting cation Type 1 0xFFFF BITO AVI value BIT1 ACI value Running BIT2 Reserved F7 07 status display BIT3 Motor overload ratio 0 O selection 2 BIT4 Inverter overload ratio BIT5 Running time BIT6 Counting meter value BIT7 BIT15 Reserved 0 0xFFFF BITO Setting frequency BIT1 DC bus voltage BIT2 Inp
37. esponse delay 0 200ms 1ms 5ms O time ET WE 8000B Series Function Minimum Facto Maeti C Function Descriptions E Y cation ode Unit Setting Type Communication FC 04 timeout fault 0 0 invalid 0 1 100 0s 0 1s 0 0s O time 0 Alarm and coast to stop 1 No alarm and continue to run Dispose of FC 05 communication 2 No alarm but stop according to 4 O i F1 05 only when F0 01 2 timeout fault i 3 No alarm but stop according to F1 05 Unit s digit 0 Response to writing Transmission 1 No response to writing FC 06 Ten s place 0 O response action 0 Value not saved when power off 1 Value saved when power off FD Group Multi step Speed and Simple PLC Parameters Sen re a FD 00 operation MEM 0 O operation once time method EA 2 Operation in cycles Memory option i FD 01 of simple PLC Md 0 e when power off Fp o2 Mult step 100 100 0 1 0 0 O speed 0 0 ste i FDos S OP running 55 6553s m 01s m 00s O time Multi st FD 04 ue step 400 100 0 1 0 0 O speed 1 1 st nin FD 05 pe 79 0 0 6553s m 0 1s m oos O ET WE 8000B Series Function Minimum Facto Mod C Function Descriptions A Ory cation ode Unit Setting Type FD 06 pe 100 100 01 0 0 O 2 step running FD 07 ii 0 0 6553s m 04s m oos O Multi st FD 08 se 100 1
38. ge 0 00 max frequency Jog Operation Accel Decel time of jog operation 0 1 3600s Accel Decel Accel Decel time range 0 1 3600s Time Torque i Manual setting 0 1 30 0 Automatic setting 0 0 Boosting Start 0 50 10Hz Frequency 1 10 u Input Voltage 220V 380V x 15 Characteristics Input 50 60Hz fluctuation range 5 Frequency SAJ F ma 4 8000B Series Input Analog setting max frequency x 0 1 Frequency Resolution Digital setting 0 01Hz Output Voltage O rated input voltage Output Frequency 0 00 600Hz Range Digital Input 1 0 Six programmable Terminals Characteristics Analog Input AVI 0 10V ACI 0 10V or 0 4 20mA Terminals Relay Output 1 relay output Open Collector Provide 1 channel programmable Output 0 75 2 2kW FM 0 10V AM 0 4 20mA Analog Output 4 400kW FM 0 10V AM 0 10V 0 4 20mA Frequency Three channels setting by keyboard setting by control Setting terminals setting by serial communication interface Channels These channels can be switched Frequency 8 methods including panel knob setting UP DOWN key Setting Source setting and PID setting etc Simple PLC 16 steps speed control can be carried out by simple PLC Basic Function function inside and terminals Functions i Close loop controlling system can be carried out by PID PID Function TP inside Swing i Suitable for textile and
39. hock SA Y ma 4 8000B Series Installation A WARNING Install the frequency inverter on nonflammable material like metal Otherwise it may cause a fire ZX WARNING Make sure that the mounting environment away from metal dust Otherwise it may cause damage to the frequency inverter A CAUTION When mount over two inverters in the same cabinet or enclosure install a fan or other cooling device to keep the temperature inside below 50 C Do not let the conductor head or screws fall into the inside of the inverter Otherwise it may cause damage to the inverter Wiring ZX WARNING Ensure only qualified personnel to operate Otherwise it can cause an electrical shock Make sure the inverter is isolated from power supply by the circuit breaker Otherwise it may cause a fire Verify that the power supply is turned OFF before start wiring Otherwise it may cause an electrical shock or fire Make sure that the ground terminal is grounded correctly Otherwise it may cause an electrical shock SAJ Y ma 4 8000B Series A CAUTION Never connect the AC power supply to output terminals U V and W Otherwise the inverter will be damaged and the guarantee is invalid Make sure that wiring conform to EMC requirements and local power safe standard Make sure to use right wire according to this instruction manual Otherwise it may cause an accident Brak
40. hts on After initialization inverter accesses into stand by status ET WE 8000B Series Notice Chapter 5 Function Code Table O The parameters can be modified at stop or running status O The parameters cannot be modified at running status O The parameters which are actual detecting record value cannot be modified Function or Minimum Factory modin Code Function Descriptions Unit Setting cation Type F0 Group Basic Parameters F0 00 Control mate 0 Sensorless vector control 4 e selection 1 V F control 0 Keypad Fog PUR di Don dE 0 D 2 Communications 0 Valid and saved when power off Setting value 1 Valid and not saved when valid or not power off FUE of keypad 2 Invalid 9 9 terminals 3 Valid at running status Changed into the setting value of F0 08 when restart after stop 0 Up down key 1 Potentiometer of panel 2 AVI terminal 3 ACI terminal Master 4 Reserved F0 03 frequency 5 Reserved 1 e setting source X 6 Multi function digital input terminals T PLC 8 PID 9 Communication interface Auxiliary 0 AVI terminal F0 04 frequency T AGI renal 1 e i 2 Reserved setting source Y SA 8000B Series Function Minimum Facto Mecki C Function Descriptions E Y cation ode Unit Setting Type Range of 0 Relative to the maxi F0 05 auxiliary frequency 0 e frequency 1 Relative to mas
41. ice FA 14 ormer twi 3 Over current when decelerate faults type E003 4 Over current at constant speed E004 5 Over voltage when accelerate E005 6 Over voltage when decelerate E006 7 Over voltage at constant speed E007 8 Hardware overvoltage E008 9 Under voltage E009 10 Inverter overload E010 Former once 44 Motor overload E011 o fault type 12 Phase lack of input E012 13 Phase lack of output E013 14 Heatsink overheating E014 15 External fault E015 16 Communication fault E016 17 Reserved 18 Current detection fault E018 19 Motor autotuning fault E019 20 Reserved 21 Reserved 22 EEPROM fault E022 FA 16 Current fault 23 Pre alarm fault when O type overload E023 24 PID feedback lost fault E024 25 Running time reached E025 26 Counting meter reached FULL FA 15 Running FA 17 frequency when Hz fault occurs ET WE 8000B Series Function Minimum Facto Alix C Function Descriptions E Ory cation ode Unit Setting Type Output current FA 18 when fault A occurs DC bus voltage FA 19 when fault V 0 0V O occurs Input terminal FA 20 status when 0 fault occurs Output terminal FA 21 status when 0 fault occurs FB Group Swing Frequency and Counting Meter Parameters Swing 0 0 100 0 relative to settin FB 00 frequency a quency 9 04 00 O
42. ing resistor or braking unit cannot be directly connected to DC bus terminals P and N Otherwise it may cause a fire Before Turn on the AC Power Supply A WARNING Make sure that the voltage of inverter conforms to the local power supply voltage Verify that the wiring of input and output is correct and there is no short circuit in peripheral circuit Tighten the terminal screws Otherwise these may cause damage to the inverter Turn on the input AC power only after the front cover is put correctly Otherwise it may cause an electrical shock A CAUTION Never perform a hi pot or withstand voltage test of the inverter Otherwise it may cause damage to the inverter Make sure that the optional parts are connected correctly Otherwise it may cause damage to the inverter SAJ Y ma 4 8000B Series When the Power is On A WARNING Do not open or remove the front cover when operation Otherwise it may cause an electrical shock Never touch the inverter and optional parts by wet hands Never touch the connection terminals Otherwise it may cause an electrical shock When the power is on the inverter will automatically check the power supply circuit Do not touch U V W terminals and motor connection terminals Otherwise it may cause an electrical shock A CAUTION It is dangerous for the personnel to approach the motor and load during rotation of the motor Do not cha
43. nge the factory parameters or settings unnecessarily Otherwise it may cause a damage or injury Operation Z WARNING When select the function of restart do not approach the mechanical load Otherwise it may cause an injury if it restarts suddenly Do not touch the heat sink or discharging resistor Otherwise it may cause harmful burns to the body Never change or check signals if not a professional or qualified personnel Otherwise it may cause damage and injury A CAUTION Make sure nothing fall into the mechanical load or inverter Otherwise it may cause damage Start or stop inverter by corresponding buttons only Otherwise it may cause damage ET WE Y mn 4 8000B Series Maintenance Z WARNING After the main circuit power supply is OFF make sure the charge LED is OFF when maintain or inspect Never maintain or inspect the inverter and mechanical load when the power supply is still ON Otherwise it may cause damage and injury Only qualified or authorized professional personnel can maintain replace and inspect the inverter Otherwise it may cause damage and injury SAJ Y ma 4 8000B Series Notes for Other Important Operations A CAUTION 1 Check Insulation of the Motor Check insulation of the motor and wire when the motor is used again after long time idle or for the first time Disconnect the wire between the motor and the inverter before check insul
44. ontrol Circuit Terminals It is necessary to use shielded cable and twisted pair cable with well grounded inverter side The cable length should be more than 20cm away from main circuit and strong electricity circuit In order to avoid interference which can cause inverter fault use vertical connection instead of parallel connection ET WE 4 8000B Series Chapter 4 Operation 4 1 Keypad Description 4 1 1 Keypad Schematic Diagram Function Indicator Light Digital Display Shift Key Potentiometer Knob Shortcut Key Program Exit Key Run Key Data Enter Key Stop Fault Reset Key VY Digital Modify Key gt BZ Digital Modify Key 4 1 2 Key Function Description Symbol Key Name Function Description PRGM Program Exit key Enter or exit of menu parameter modification ENT Data enter key ie enter menu and confirm A UP increase key Progressively increase data or function codes KA DOWN decrease key Progressively decrease data or function codes Use it to select displayed parameters cyclically during running or stop status In parameter m i Shift key setting mode press this key to select the bit to be modified RUN Run key Start to run the inverter in keypad control mode In running status restricted by function code F7 04 it can be used to stop the inverter STOP Stop tk RESET op reset key In malfunction alarm status not restricted by function code F7 04 it can be used to
45. output side generally has higher harmonics When the motor is far from inverter since there are many distributed capacitors in the circuit certain harmonics may cause resonance in the circuit and bring the following two impacts 1 Degrade the motor insulation performance and damage the motor when running for long time 2 Generate large leakage current and cause frequent inverter protection Generally installation of output AC reactor is recommended when the distance between inverter and motor exceeds 50m ET WE 8000B Series Chapter 3 Wiring 3 1 Standard Wiring Diagram 3 1 1 Wiring Diagram of 0 75kW 2 2kW model G 3 phase 380V Brake Resistor i PB 5S 0 or uv 3 phase 380V amp O5 s vo Motor 50 60HZ 66 bor wo D 1 8000B Series Inverter mw RS485 Extension fom Keypad Interface Digital Input Terminal 1 G_ O Mt Digital Input Terminal 2 O Q 4 M2 FM V DC Voltage Meter 0 10V Digital Input Terminal 3 K C _ GO M3 DC Voltage or Current VIA Digital Input Terminal 4 Q O 90 M4 AM Meter 0 0V 0 20mA Digital Input Terminal 5 0 O 9 M5 OND Digital Input Terminal 6 O O DQ M6 GND O 00174 TA TB Normal Open Contact HO O orTe TB TC Normal Close Contact C 0 T8 10V MO1 skeet AVI DC48V 50mA DC 0 10V 0 4 20mA ACI MCM GND Note
46. rd class menu if the parameter has no flickering bit it means that the function code cannot be modified The possible reasons include 1 The parameter of this function code can t be modified such as actually detected parameter operation records and so on 2 This function code can t be modified during running status but can be modified during stop status 4 2 2 Fault Reset When inverter malfunction occurs it will display the relative fault information Use the STOP RESET key or terminals determined by F5 group to reset the fault After fault reset inverter is at stand by status If not reset when inverter is at fault status it will keep operation protection status and cannot run 4 2 3 Motor Parameter Autotuning When select SVC control mode sensorless vector control make sure that motor nameplate parameters are correctly input into the inverter Inverter will match standard motor parameter according to nameplate parameter In order to achieve precise control autotuning is necessary Refer to the following steps Firstly set the parameter of F0 01 to 0 This means that select the keypad to control stop or start Then input the following parameters according to the motor nameplate F2 01 Motor rated power F2 02 Motor rated frequency F2 03 Motor rated rotation speed F2 04 Motor rated voltage F2 05 Motor rated current Remarks If motor can be uncoupled with its load completely set the parameter of F2 11 to 1
47. rge inertia 3 Select larger capacity deceleration P 3 Inverter capacity is inverter too low 1 Sudden change of 1 Check the load Over current at a ut voltage is too ane and E004 constant running M 9 PRY 9 speed low 3 Select larger capacity P 3 Inverter capacity is inverter too low 1 Input voltage 1 Inspect input power Overvoltadewhen abnormal 2 Avoid prompt restart when E005 M 2 Restart the motor trip off acceleration when instantaneous trip off occurs 1 Decelerate too fast 1 Increase deceleration time 2 Load is too heavy and 2 Add suitable braking units Over voltage when E006 i has large inertia 3 Inspect input power deceleration 3 Input voltage abnormal ET WE 8000B Series a Fault Type Reason Solution Over voltage at 1 Input voltage 1 Install input AC raptor E007 consti running annormal o 2 Add suitable braking units speed 2 Load inertia is too large 1 Input voltage 1 Inspect the input power abnormal supply or wiring E008 Maraware ONG 2 Decelerate too fast 2 Increase deceleration time voltage 3 Loadinertiaistoo 3 Add suitable braking units large E009 Under voltage of Input voltage is too low Inspect power grid DC bus 1 Accelerate too fast 1 Increase acceleration time 2 Restart the motor 2 Avoid prompt restart when when instantaneous trip off E010 Inverter overload trip off occurs 3 Inspect power grid 3 Input voltage is too 4
48. rved 7 Reserved 8 Analog AVI input value 9 Analog ACI input value AM output lowe F6 10 res wer 0 0 100 0 01 0 0 O AM lower limit F6 11 corresponding 0 00V 10 00V 0 01V 0 00V O to output ET WE 8000B Series Function A T Minimum Factory Modifi Code Function Descriptions Unit Setting cation Type F6 12 AMoutput 55 10 go 0 1 100 056 O upper limit AM upper limit F6 13 corresponding 0 00V 10 00V 0 01V 10 00V O to output 0 Running frequency 1 Setting frequency 2 DC bus voltage 3 Output current User defined 4 Output voltage F6 14 output 5 Sign of start and stop status 0 O variability option 6 Sign of control status EX 7 Counter value 8 Counting meter value 9 Inverter module temperature 10 AVI input value 11 ACI input value Units digit comparison test method 0 equal EX X1 1 equal or greater than Comparison 2 equal or less than F6 15 method ofuser 3 interval comparison 00 O defined output X1 lt EX lt X2 4 units digit test EX amp X1 X2 Tens digit output method 0 false value output 1 real value output F6 16 User defined 65535 0 O dead interval Output F6 17 comparison 0 65535 0 O value X1 Output F6 18 comparison 0 65535 0 g value X2 ET WE 8000B Series Function Code Function Descriptions Minimum Unit Factory Modifi cation Setting Type F7 Group Display Interfac
49. s 7 Allowable Voltage Range and Power Supply Phase Make sure the inverter works under allowable voltage range If necessary use boosting transformer or step down transformer to change the voltage of power supply Never change the 3 phase of inverter into 2 phase Otherwise it will cause damage to the inverter 8 Thunder Stroke Protection Even there is protection device to protect the inverter from induction thunder stroke it s necessary for users in frequent thunder stroke area to install other protective device 9 Altitude and Degradation Use At an altitude of 1000m or above it could be better that use the motor with lower rated capacity Otherwise the inverter may become overheated because of rare air For example in order to control the motor of 4kW rated capacity it could be better to use 5 5kW inverter 10 Dispose of Scrap Inverter The scrap capacitor of main circuit and PCB printed circuit board may explode when it is burned In order to protect the environment do not burn waste plastic parts and scrap capacitor 11 Choose the Right Matching Inverter for the Motor The standard matching motor is 4 pole inductive motor If not choose the right matching inverter according to the rated current of the motor According to the actual working situation of the motor the factory setting of motor standard parameter can be revised Otherwise it may cause low efficiency to the unit ET WE 8000B Series Chapter 1
50. speed 0 100 20 O loop Integral time 1 F3 01 of speed loop 0 01 10 00s 0 01s 0 50s O Low frequency F3 02 of switch 0 00Hz F3 05 0 01Hz 5 00Hz O ET WE 8000B Series Function Minimum Facto Maeti C Function Descriptions E ory cation ode Unit Setting Type Proportional F3 03 gain 2 of speed 0 100 1 25 O loop Int I time 2 F3 04 gre UME o 04 40 00s 0 01s 100s O of speed loop High frequen F3 05 9n frequency E3 92 F0 10 1Hz 10 00Hz O of switch Coefficient of slip F3 06 compensation 50 200 196 100 O at VC control mode F3 07 Upper limit 0 0 200 0 inverter rated 0 1 150 0 o torque current F3 08 Reserved F3 09 Reserved 0 Not detect 1 Effective during running and keep running after alarm 2 Effective during running Pre alarm and stop after alarm fault F3 10 option when code E023 1 O overload 3 Effective during constant running and keep running after alarm 4 Effective during constant running and stop after alarm Detecting level 1 0 200 0 referred to invert F3 11 ofpre alarm Z0 referred to inverter imag a rated current when overload Detecting time F3 12 of pre alarm 0 600s 1s 1s O when overload SAJ Y ma 4 8000B Series Modifi cation Type Function ers Minimum Factory Code Function Descriptions Unit Setting Tm 4 Group V F Control
51. t record clearing F0 21 Parameter lock 0 Unlock parameter 0 o setting 1 Lock parameter Acceleration O Li thod F0 22 deceleration ri 0 e 1 Reserved method F0 23 Reserved F0 24 Reserved SA 8000B Series Function Minimum Facto Mecki C Function Descriptions E Y cation ode Unit Setting Type Cooling fan running method 0 Keep running when power on F0 25 only for 4kW P d i d 1 O 1 Automatic running and above inverter F1 Group Start and Stop Parameters 0 Start directly F1 00 Start mode 1 DC braking and start 0 e 2 Speed tracing and start F1 01 Start frequency 0 00 10 00Hz 0 01Hz 1 50Hz O Hold ti f F1 02 a Ime Or 100 50 0s 01s 00s O start frequency DC braking F1 03 current before 0 0 150 0 0 1 0 0 O start DC braking ti F1 04 raking HME 0 0 50 0s 01s 00s O before start 0 Deceleration to st F1 05 Stop mode Md M SRE 0 o 1 Coast to stop Starting F1 06 frequency of DC 0 00 F0 10 0 01Hz 0 00Hz O braking Waiting time F1 07 before DC 0 0 50 0s 0 1s 0 0s O braking DC braki F1 08 faxing 0 0 150 0 01 0 0 O current ET WE 8000B Series F ti Mini Fact Modifi unc don Function Descriptions inimum Factory cation Code Unit Setting Type F1 09 DC braking time 0 0 50 0s 0 1s 0 0s O Dead time F1 10 between FWD 0 0 3600 0s 0 1s
52. ter frequency setting source Y setting source X F0 06 Reserved 0 X Frequency LY F0 07 tti 0 O Me 3 Max value of X Y Fo og Keypad setting 9 3047 F9 10 0 01Hz 50 00 Hz O frequency Running 0 Forward F0 09 direction 1 Reverse 0 e selection 2 Reverse running prohibited Max output F0 10 ax output 40 00 600 00Hz 0 01Hz 50 00Hz 0 frequency 0 Keypad F0 12 Upper limit 1 AVI terminal FO 11 Pee Z Acl terminal 0 O d y 3 Multi function digital input setting source terminals 4 Communication interface Upper limit F0 12 of running F0 14 F0 10 0 01Hz 50 00Hz O frequency F0 13 Reserved Lower limit F0 14 of running 0 00Hz F0 12 0 01Hz 0 00Hz O frequency ET WE 8000B Series Function Minimum Facto Moci Function Descriptions E Y cation Code Unit Setting Type The function gt eee at lower limit F0 15 oflowerlimit ony 0 O 1 Stop frequency point frequency P 2 Sleep frequency point Different Care according F0 16 ee 1 0 15 0kHz 1kHz tothe O frequency 3 inverter type 0 PWM mode 1 PWM mod F0 17 ae 1 PWM mode 2 0 e 2 PWM mode 3 Different according Fog Acceleration 4 _3600 0s 01s tothe O time 1 inverter type Different according Decelerati Fora 498 9979 9 4 3600 0s 01s tothe O time 1 inverter types 0 Not restore to default setting F0 20 Default setting 1 Restore to factory setting 0 e 2 Faul
53. the AC Reactor at the DC Reactor Input Side output Side Inverter Model Voltage Current InductanceCurrent Inductance Current Inductance A mH A mH A mH 8000B 2SR75GB 2 7 2 7 3 28 8000B 2S1R5GB 5 3 8 5 3 8 6 11 220V 8000B 2S2R2GB 7 5 25 TES 215 6 11 8000B 4TR75GB 2 T 2 3 3 28 8000B 4T1R5GB 5 3 8 5 1 5 6 11 8000B 4T2R2GB i 25 7 1 6 11 8000B 4TO04GB AT5R5PB 10 15 10 0 6 12 6 3 8000B 4T5R5GB 4T7R5PB 15 1 0 15 0 25 23 3 6 8000B 4T7R5GB 20 0 75 20 0 13 23 3 6 8000B 4T011GB 4T015PB 30 0 60 30 0 087 33 2 8000B 4T015GB AT18R5PB 40 0 42 40 0 066 33 2 8000B 4T18R5GB 50 0 35 50 0 052 40 S 8000B 4T022G 4T030P 60 0 28 60 0 045 50 1 08 8000B 4T030G 4T037P 80 0 19 80 0 032 65 0 80 8000B 4T037G 90 0 16 90 0 030 78 0 70 8000B 4T045G 4T055P 120 0 13 120 0 023 95 0 54 8000B 4T055G 4T075P 150 0 10 150 0 019 115 0 45 380V 8000B 4T075G 4T093P 200 0 08 200 0 014 160 0 36 8000B 4T093G 4T110P 250 0 06 250 0 011 180 0 33 8000B 4T110G 250 0 06 250 0 011 250 0 26 8000B 4T132G 4T160P 290 0 04 290 0 008 250 0 26 8000B 4T160G 4T185P 330 0 04 330 0 008 340 0 18 8000B 4T185G 400 0 04 400 0 005 460 0 12 8000B 4T200G 4T220P 490 0 03 490 0 004 460 0 12 8000B 4T220G 4T250P 490 0 03 490 0 004 460 0 12 8000B 4T250G 4T280P 530 0 03 530 0 003 650 0 11 8000B 4T280G 4T315P 600 0 02 600 0 003 650 0 11 8000B 4T315G 660 0 02 660 0 002 800 0 06 8000B 4T350G 400 2 0 04 400 2 0 005 460 2 0 12 8000B 4T400G 490 2 0 03 490 2 0 004 460 2 0 12
54. tput terminal optical coupling isolating Max DC 48V 50mA Common terminal MCM of multi function optical coupling isolating Max DC 48V 50mA output terminal Analog input y i i AVI terminal 4 Input voltage range DC 0 10V input impedance 20kQ 1 input range DC 0 10V or 0 4 20mA It is selected by jumper JP1 on control board The default is current ACI Analog input input 1 2Pin voltage input 2 3Pin current input terminal 2 2 Input impedance 20kQ when input voltage 5000 when input current Analog reference 10V 10V 5 max current 30mA voltage Analog grounding i GND i Zero potential referring to 10V terminal FM Analog output FM 0 10V terminal 1 SAJ Y ma 4 8000B Series Output range 0 10V or 0 4 20mA It is selected by jumper JP2 on control board The default is current output Analog output AM terminal 2 1 2Pin current output 2 3Pin voltage output 0 75 2 2kW 0 4 20mA 4 400kW 0 10V 0 4 20mA TA TB normal open TB TC normal close TA TB Relay output Contact capacity TC contact AC 250V 3A normal open AC 250V 3A normal close 24V power Output current Maxi 200mA usually used as power of 24V E AM supply digital input output terminals and external sensor 24V power Output current Maxi 200mA usually used as power of COM gene i supply digital input output terminals and external sensor 3 2 5 Precautions for Connecting C
55. uld be mounted vertically on the base with screws The inverter should be mounted in the place without vibration or with vibration of less than 0 6G The inverter should be mounted in locations away from direct sunlight high humidity condensate corrosive gas explosive gas oil dirt dust and metal powder etc 2 1 2 Installation Space and Distance Ventilation 4 4 100mm and above I 4 E T O Dna Da Dac Duo N 50mm ppoe A v Inverter 100mm and above When take up down installation air deflector should be installed between upper inverter and lower inverter ET IE 2 1 3 Drawing of Moving the Front Cover 8000B Series front cover 2 2 Electric Installation 2 2 1 Connecting of Peripheral Equipments Power Supply G cen Circuit Breaker 5 al Magnetic Contactor MC AC Reactor input side LIT Brake Resistor AC Filter input side j Y E DC Reactor Uu Inverter Grounding 4 AC Reactor output side LIT E AC Filter output side eE Motor i LEY Grounding SAJ Y ma 4 8000B Series 2 2 2 Recommended Table of External Electrical Parts Circuit Conducting Conducting conducting Wire of Wire of Wire of In
56. ut terminal status BIT3 Output terminal status BIT4 PID setting value Stop status BIT5 PID feedback value F7 08 display BIT6 AVI value 3 O selection BIT7 ACI value BIT8 Reserved BIT9 Current step of multi step speed and PLC BIT10 Reserved BIT11 Counting meter value BIT12 BIT15 Reserved F7 09 Inverter module 0 100 C 4C o temperature Inverter F7 10 software version F711 Accumulative 9 g9ggn 1hour O running time F712 Accumulative 9 g99gp 1hour O power on time F7 13 Reserved SAJ Y ma 4 8000B Series Function Minimum Facto tel C Function Descriptions E Y cation ode Unit Setting Type F8 Group Auxiliary Function Parameters F8 00 Jegrunning 550 o 1o 0 01Hz 500Hz O frequency Jog running F8 01 acceleration 0 1 3600s 0 1s O time Jog running F8 02 deceleration 0 1 3600s 0 1s O time F8 03 Acceleration ose 36005 0 18 O time 2 F8 04 Deceleration 36095 0 15 Pefined o time 2 by inverter F8 05 Acceleration 36005 0 15 model o time 3 F8 06 Peceleration 136005 0 15 o time 3 paz Acceleration eos 0 1s O time 4 F8 08 Peceleration o 4600s 0 1s o time 4 F8 09 EE 0 00 F0 10 0 01Hz 0 00Hz O Skip f F8 10 i P d 0 00 F0 10 0 01Hz 0 00Hz O Skip f F8 11 ip frequency o 00 Fo 40 0 01Hz 0 00Hz O bandwidth ET IE 8000B Series
57. verter Model Breakers Recommended Main Circuit Main Circuit Control at ponte y at the Input at the Input Circuit Side mm Side mm mm 8000B 2SR75GB 16 10 2 5 2 5 1 0 8000B 2S1R5GB 20 16 4 0 2 5 1 0 8000B 2S2R2GB 32 20 6 0 4 0 1 0 8000B 4TR75GB 10 10 2 5 2 5 1 0 8000B 4T1R5GB 16 10 2 5 2 5 1 0 8000B 4T2R2GB 16 10 25 25 1 0 8000B 4T004GB 4T5R5PB 25 16 4 0 4 0 1 0 8000B 4T5R5GB 4T7R5PB 32 25 4 0 4 0 1 0 8000B 4T7R5GB 40 32 4 0 4 0 1 0 8000B 4T011GB 4T015PB 63 40 4 0 4 0 1 0 8000B 4T015GB 4T18R5PB 63 40 6 0 6 0 1 0 8000B 4T18R5GB 100 63 6 0 6 0 TS 8000B 4T022G 4T030P 100 63 10 10 1 5 8000B 4T030G 4T037P 125 100 16 10 1 5 8000B 4T037G 160 100 16 16 119 8000B 4T045G 4T055P 200 125 25 25 1 5 8000B 4T055G 4T075P 200 125 35 25 1 5 8000B 4T075G 4T093P 250 160 50 35 15 8000B 4T093G 4T110P 250 160 70 35 1 5 8000B 4T110G 350 350 120 120 1 5 8000B 4T132G 4T160P 400 400 150 150 TS 8000B 4T160G 4T185P 500 400 185 185 1 5 8000B 4T185G 600 600 150 2 150 2 1 5 8000B 4T200G 4T220P 600 600 150 2 150 2 1149 8000B 4T220G 4T250P 600 600 150 2 150 2 1 5 8000B 4T250G 4T280P 800 600 185 2 185 2 1 5 8000B 4T280G 4T315P 800 800 185 2 185 2 uten 8000B 4T315G 800 800 150 3 150 3 1 5 8000B 4T350G 800 800 150 4 150 4 1 5 8000B 4T400G 1000 1000 150 15074 TS SAJ Y ma 4 8000B Series 2 2 3 Recommended Table of Reactor AC Reactor at
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