User Manual - Projoy Technology Inc.
Contents
1. 13 PROJOY User manual V1 0 b a H o o px PROJOY Ec a ous oa S Era i ven me o 1 Power supply Power Dimensions Installation size Type level kW d oc d eed d 1 phase 220V G 5 3 3 phase 220V G 5 5 7 5 360 220 225 340 150 10 3 phase 380V G 11 15 3 phase 220V G 11 435 275 258 415 165 10 3 phase 220V G 15 480 296 262 460 200 G10 2 3 3 Keyboard size diagram 14 User manual V1 0 PROJOY 70 DIGITAL PANEL LOGAL RENOTE TETO o o o o 545 35 f f M3 123 H TS LL 130 B BY gm o Le Ry 5 S ar Install keyboard case on t required 7640 1 1230 1 e panel opening square hole is m 15 Chapter 3 Keyboard 3 1 Keyboard description DIGIT2. of above thous ands digit E3 17 VDOI output 0 0s to 3600 05 0 0s x E3 18 VDO2 output 0 0s to 3600 05 0 0s x E3 19 VDO3 output 0 0s to 3600 0s 00s x E3 20 VDO4 output 0 0s to 3600 0s 00s x E3 21 VDOS output 0 0s to 3600 05 0 0s x 5 1 15 b0 Motor parameters group Factor Gran Code Parameter name Setting range y ge range Limit General asynchronous 0 motor b0 00 Motor type Asynchronous inverter 1 0 selection motor Permanent magnet 5 synchronous motor b0 01 Rated power 0 1kW to 1000 0kW 5 b0 02 Rated voltage 1V to 2000V a 0 01A to 655 35A inverter 0 03 power 55kW i i Rated enint 0 1A to 6553 5A inverter rate gt 55kW b0 04 Rated frequency 0 01Hz to F0 19 maximum frequency b0 05 Rated speed Irpm to 36000rpm Above b0 00 to b0 05 are the motor nameplate parameters which affects the accuracy of the measured parameters Please set up according to the motor nameplate parameters The excellent vector control performance needs the accurate motor parameters The accurate identification of parameters is derived from the correct setting of rated motor parameters In order to guarantee the control performance please configure your motor according to the inverter standards the motor rated current is limited to between 30 to 100 of the inverter rated current The motor rated current can be set but can not exceed th
3. Facto Cien Code Parameter name Setting range e ge range Limit DII terminal FEES function selection l DI2 terminal REM function selection 2 0751 F1 02 DI3 terminal 0 function selection F1 03 DI4 terminal function 9 selection 27 PROJOY User manual V1 0 F1 04 DIS terminal function 12 k selection F1 05 DI6 terminal function 13 k selection F1 06 DI7 terminal function 0 k selection F1 07 DIS terminal function 0 k selection Set value Function Description The terminal for not use can be set to no 0 No function function to prevent accidental operation 1 Forward run FWD External terminals are used to control the 2 Reverse run REV FWD REV run mode of inverter This terminal is used to determine the inverter s Three wire operation three wire control mode For details please refer 3 control to the instructions of function code F1 10 terminal command mode 4 Forward JOG FJOG FJOG means Forward JOG running RJOG means Reverse JOG running For Jog running frequency and Jog Ac deceleration time please 5 Reverse JOG RJOG refer to the description of the function code F7 00 F7 01 F7 02 6 Terminal UP Modify frequency increment decrement command when the frequency is referenced by i external terminal Adjust up down the set 7 Terminal DOWN frequency when the digital settin
4. ener entente nente enne 62 6 3 5 Remedies for leakage current 62 6 3 6 Precautions on installing EMC input filter at the input end of power supply 63 Chapter 7 Troubleshooting ss 64 7 1 Fault alarm and countermeasures eene 64 Chapter 8 Installation and Commissioning guidance sss 71 8 1 Operating environment ss 71 8 2 Installation direction and space 71 8 3 Wiring diagratn ss sisusninninnnsrtsreseindiesn eseesse nesee 71 Chapter 9 Maintenance and Repair 81 9 1 Inspection and Maintenance 81 9 2 Parts for regular replacement 82 9 3 SIOTABe etes es dee o ote obi e ED e eS E tite 82 9 4 Cap acltOT re end e e E ant SES ESS SENE ra rte rires lee 82 9 4 1 Capacitor rebuilt hante En IS oh ae UE him 82 9 5 Measuring and readings 83 Chapter 10 Warranty cte en nine semaines 84 Marranty Gard osa a4 botte he tee ne Natit nr LE 85 Chapter 1 Inspection and safety precautions Projoy frequency inverters have been tested and inspected before leaving factory After purchasing please check if its package is damaged due to careless transportation and if the specifications and model of the product are consistent with your order requirements For any problem please contact your local authorized Projoy dealer or directly contact this company
5. Select inverter master reference frequency input channels There are 10 master reference frequency channels in all 8 PV setting PID control setting 1 Set PV setting you need to choose 1 or 2 to the EO group dedicated E0 00 photovoltaic pumping photovoltaic pump function to be effective If you do not set E0 00 select 1 or 2 it belongs to the PID control settings 2 Selection process PID control output as the operating frequency Generally being used for closed loop control such as the constant pressure closed loop control constant tension closed loop control and other occasions When adopted the PID as the Frequency source you need to set the E2 group PID related parameters Keyboard control LED off 0 Terminal block control LED 1 on Communications command 2 Command source control LED flashes FO 11 selection Keyboard control 0 Communications command 3 control Keyboard control Communications command 4 control Terminal block control F0 13 oe time 0 00s to 6500s F0 14 Deceleration time 0 00s to 6500s x 26 User manual V1 0 PROJOY 1 Fo 19 Maximum output 59 00Hz to 320 00Hz 500 x frequency 0Hz F0 21 setting 0 Analog AIl setting l imi Analog AD settin 2 F0 20 Upper limit g i 8 0 x frequency source Panel potentiometer setting 3 High speed pulse setting 4 Communication reference 5 Setting up
6. maintenance Tel agency lst time Address Zip Code Maintenance Signature voucher of the number serviceman Full name of maintenance Tel agency 2nd Address Zip Code time Maintenance Signature voucher of the number serviceman Full name of maintenance Tel agency 3rd Address Zip Code time Maintenance Signature voucher of the number serviceman Product Information Feedback Dear user Thank you for your interest in and purchasing Projoy products In order to better serve you we want to be able to timely get your personal information and the related information of the purchased Projoy products so as to understand your current and future further demand to Projoy products we would appreciate your valuable feedback For your convenience please visit our website http www projoy solar com and then click Technologies and Services and Download columns to submit your feedback information 1 Download the update product manuals you need 2 View the technical information on products such as operation instructions specifications and features FAQ etc 3 Share application cases 4 Technical advisory and online feedback 5 Feedback the product and demand information for via e mail 6 Inquire the latest products and access to various types of warranty and extend additional services Cantact us ProJoy Technology Inc Tel 86 0 21 6806 0856 Fax 86 0 21 6806 0856 E mail info projoy sol
7. 15 1 Never connect the AC power to the inverter output terminals U V W 2 Properly fix and lock the panel before powering on so as to avoid hurting the personal safety due to internal poor capacitors 3 Never perform wiring checking and other operations after power is turned on 4 Do not touch the internal circuit board and its components in order to avoid the risk of electric shock after this unit is powered 5 Do not touch internal circuit board and any parts after powering off and within five minutes after keyboard indicator lamp goes out you must use the instrument to Others confirm that internal capacitor has been discharged fully otherwise there is a danger of electric shock 6 Body static electricity will seriously damage the internal MOS field effect transistors etc if there are not anti static measures do not touch the printed circuit board and IGBT internal device with hand otherwise it may cause a malfunction 7 The ground terminal of the inverter E or shall be earthed firmly according to the provisions of the National Electrical Safety and other relevant standards Do not shut down power off by pulling switch and only cut off the power until the motor stopping operation 8 It is required to add the optional input filter attachment so as to meet CE standards 1 4 Scope of applications This inverter is suitable for three phase AC asynchronous motor and permanent magnet synchronou
8. PROJOY s Dio detection point 3 l Y ei Water Inverter Tower u Lowlevel o d tection point LT gt po Ne LT Connect the test line according to the figure Set parameters F0 03 8 PV settings F0 11 4 keyboard Terminal communication F1 00 1 forward run F1 01 8 freewheel F1 10 2 three wire mode 1 E3 02 3 three wire operation control E3 05 00100 E0 00 2 MPPT mode After setting the parameters press the RUN key frequency inverter runs If water reaches the high lever detection point the frequency inverter will free stop When the water level falls below the low level detection point the frequency inverter automatically starts running 3 Water level detection mode 2 Analog detection When using analog detection AI terminals will lead to the detection line and connect to the cable according to the wiring diagram Water filled test point voltage is 7V When AII detects 7V voltage the freq frequency inverter will free stop When AII detects voltage is lower than 3V the frequency inverter automatically starts running K 23 ao ele PE ig detection points fi PAY ir Water Inverter Tower Lowlevel TOf detection points GI O Sue ee 77 PROJOY User manual V1 0 Set parameters F0 03 8 PV settings E0 00 2 MPPT mode E3 07 10 run pause After setting the parameters press the RUN key When AII voltage is
9. Solar Pump Inverter DS D TL W T3 Earthing Power O O n n E i Es G Main circuit 4 Earthing Motor 1 pital termini D i DI1 Input digital terminl Li Di Control elecult DI2 Input digital terminl oH DI2 Je I3 RS485 DI3 Input digital termin lt yg 3 2v i g oL DH Input digital termini an T as 1 sp1 O70 DM Llosa 2 1 2 Shorted Default LI Lo St 1 PT100 2 3 Shorted test PT 23 Shorted fault 3 Shorted Defau COM p c petens ge Communication 24V Boa 424 Interface E PE 2 PLC E J12 a 1 COM eres m DIS Input digital termin 3 DIS 23Shorted Drain Output Default e 485 PETE z 29 Comunicati DI6 Input digital termin DI6 1 2Shorted Source Output E d on DI7 Input digital terminl DIT E ee DIB Input Higital termin E oT DI8 Ll ptt 24V PLC can be E lid connected to JY J2 5 pashertod ctantt DAT O Analog Output DAI TY PLC or COM or connect 2 par 10 Dc pad 0700 Maximum load current Drain Drive jd com to external DC 1 tastorted DAC eee J power 0 20mA DC E PE XJ icu I ATADA s v 9 30V I r COM supply 9 30V I FT il forbidusing th Wb an Depuis Li HOIPLC same earthing 34 DAN CI DC E sore Deter Lt Da ith 2 JAN i D DA2O Analog Output DA2 ARR CLS H erminal wl OIOV Maximum load current E K AV 1 1 2shorted DA2C LI F HQIEZAV oav cou TRADE GND 5a C Epe i Ami Maximum load inpedance 1 E PE PE i 250 ohm
10. oZ PID feedback loss 0 0 not judging feedback Ee detection value loss 0 0 x 0 1 100 0 E2 12 PID feedback loss 0 08 20 0s FR M detection time This function code is used to determine whether the PID feedback is loss When the amount is less than the E2 11 value and duration is longer than E2 12 value inverter will alarm Err 31 fault and process trouble shooting according to the fault E2 13 Proportional gain KP1 0 0 200 0 80 0 E2 14 Integration time Til 0 01s 10 00s 0 50s E2 15 Differential time Td1 0 00s 10 000s 0 000s Proportional gain KP1 determine the intensity of the entire PID regulator the bigger KP1 value the greater regulation intensity When set it to100 0 means that when the deviation of PID feedback value and a given value is 100 0 PID controller for adjusting the amplitude of output frequency command is the maximum frequency Integration time Til determine the integral regulator intensity of PID regulator The shorter Til time the great regulation intensity adjustment intensity Integration time means when the PID feedback value and a given value deviation is 100 0 integral regulator continuously adjusts to reach the maximum frequency Differential time Td1 determine the intensity of PID regulator to adjust the deviation rate The longer differential Td1 time the greater regulator intensity Differential time is when the feedback value chan
11. 1 1 Inspection after unpacking Check if that packing container contains this unit one manual and one warranty card X Check the nameplate on the side of the frequency inverter to ensure that the product you have received is right the one you ordered 1 1 1 Instructions on nameplate PROJOY cc Inverter model MODEL PROPD 4T7500 Output Power Spec POWER 7 5kW Input Source Spec p INPUT DC IPH 350 750V AC 3PH 380V Output Spec OUTPUT AC3PH 0 380V 17A 0 400Hz sese ccc m QE ELLE LH TH ZPB1A0100001 Production Sequence Number 1 1 2 Safety precautions PRO PD 4T 7500 e Rated Output Power Example 7500 7 5kW 400 0 4kW Input Voltage Level 2ST DC200 380v single three phase AC 220V AT DC350 750v three phase AC 380V e PD Pumping Driver e Power Inverter 1 2 Safety precautions Safety precautions in this manual are divided into the following two categories Danger the dangers caused by failure to perform required operation may result in serious injury or even death PROJOY User manual V1 0 Caution the dangers caused by failure to perform required operation may result in moderate injury or minor injury and equipment damage Process Type Explanation e When unpacking if control system with water parts missed or component damaged are found do not install e If packing list does not match the real name do not
12. 9 4 Capacitor 9 4 1 Capacitor rebuilt If the frequency inverter hasn t been used for a long time before using it please rebuilt the DC bus capacitor according the instruction The storage time is counted from delivery Time Operation instruction Less than 1 No need to recharge year Between 1 2 Before the first time to use the frequency inverter must be years recharged for one hour Between Use adjustable power to charge the frequency inverter 2 3years 25 rated power 30 minutes 50 rated power 30minutes 75 rated power 30minutes Last 100 rated power 30minutes More than 3 Use adjustable power to charge the frequency inverter years 25 rated power 2hours 50 rated power 2 hours 75 rated power 2hours 82 User manual V1 0 PROJOY Last 100 rated power 2hours Instruction of using adjustable power to charge the frequency inverter The adjustable power is decided by the frequency inverter input power for the single phase 3 phase 220v frequency inverter we uase 220v AC 2A Regulator Both single phase and three phase frequency inverter can be charged by single phase Power Surge L connect R N connects T Because it is the same rectifier so al 1 the DC bus capacitor will be charged at the same time You should make sure the voltage 380v of high voltage frequency inverter because when the capacitor being charged it almost doesn t need any current
13. Make sure that the input power is consistent with the rated value of inverter otherwise which may cause damage to the inverter Make sure that the motor matches the inverter otherwise which may cause damage to the motor or activate the inverter protection Do not connect power supply to U T1 V T2 W T3 terminals otherwise which may cause damage to the inverter Do not directly connect braking resistor to DC bus P P terminals otherwise which may cause a fire 79 PROJOY User manual V1 0 7X The U V W output end of inverter can not install phase advancing capacitor or RC absorbing device The inverter input power must be cut off when replacing the motor X Do not let metal chips or wire ends into inside the inverter when wiring otherwise which may cause malfunction to the inverter 7X Disconnect motor or switch power frequency power supply only when the inverter Stops output In order to minimize the effects of electromagnetic interference it is recommended that a surge absorption device shall be installed additionally when electromagnetic contactor and relay is closer from the inverter X External control lines of inverter shall adopt isolation device or shielded wire X In addition to shielding the wiring of input command signal should also be aligned separately it is best to stay away from the main circuit wiring XIF the carrier frequency is less than 3kHz the maximum distance between the invert
14. Application sites water vapor dust flammable gas oil mist water vapor drip or salt etc Altitude Below 1000m Pollution degree 2 k E Product adopts 1061800 5 1 2007 safety standards a LZ 9 E Product adopt 15 61800 3 2005 EMC standards Cooling method Forced air cooling and natural air cooling 2 3 Dimensions 2 3 1 Appearance and installation holes size Movable cover plate 12 Control cable inlet KA A r duct inlet Top cover plate Operation panel Sealing guard mounting position optional Fixing holes Nameplate User manual V1 0 2 3 2 Projoy series W t b i d le TH 7 GABBA 3 E mm d d 1 amp DER BECHER DEC ANPRREEANNA I ssa Tala otanta 8 mE j 1 Power supply Power Dimensions Installation size level CTE EN SC d 1 phase 220V 0 4 to 1 5 3 phase 220V G 0 4to 1 5 185 120 165 174 108 5 3 3 phase 380V 0 75 to 2 2 Power supply Power Dimensions Installation size level CW Wo H ea eb Le 1 phase 220V 2 2 3 phase 220V 2 2 220 150 182 209 138 05 3 3 phase 380V 4 0 to 5 5 Power supply Power Dimensions Installation size level KW L W H a b d 1 phase 220V 4 0 3 phase 220V 4 0 285 180 200 272 167 5 5 3 phase 380V 7 5 PROJOY
15. Terminals Set value Description DIx 1 Forward run FWD Dly 2 Reverse run REV Of which DIx and Dly are the multi function input terminals of DI to DI10 the level is active K1 K2 Command K1 0 0 Stop m 5 DIx Forward FWD K2 ol REV DIy Reverse REV Digital 1 0 FWD COM Common terminals 1 1 Stop Two wire mode 1 1 Two wire type 2 In the mode DIx terminal is used as running enabled while Dly terminal is used to determine running direction The terminal function is set as follows Terminals Set value Description DIx 1 Forward run FWD Dly 2 Reverse run REV Of which DIx and Dly are the multi function input terminals of DI to DI10 the level is active 29 PROJOY User manual V1 0 K1 K2 Command 0 0 Stop KT A ig iiim Dix Forward FWD 1 e 5 0 Stop O DIV Reverse REV 1 0 FWD COM Digital common Terminals 1 1 REV Two wire mode 2 2 Three wire control mode 1 In the mode Din is used as enabled terminal while DIx DIy terminal are used to control direction The terminal function is set as follows Terminals Set value Description DIx 1 Forward run FWD Dly 2 Reverse run REV Din 3 Three wire operation control To run firstly close DIn terminal the forward or reverse of motor is controlled by the ascendant edge of DIx or Dly pulse To stop y
16. The greater this value the stronger inhibition overvoltage capability under the premise that the overvoltage does not occur the best is the smaller gain setting For the small inertia load the overvoltage stall gain should be small otherwise which cause the slower system dynamic response For the big inertia load the overvoltage stall gain should be large otherwise the poor inhibitory effect may cause overvoltage fault When the overvoltage stall gain is set to 0 the overvoltage stall function will be canceled F8 08 Output phase loss protection Prohibit 0 I 41 PROJOY User manual V1 0 selection Allow 1 Select whether the output phase loss protection is done or not E ircui Invalid 0 F8 09 Power on short circuit to 1 ground Valid 1 You can detect whether the motor is shorted to ground when the inverter is powered on If this function is active the inverter s UVW terminal will output voltage after power on for a while F8 10 Number of automatic fault 0 to 32767 0 reset When the inverter selects automatic fault reset it is used to set the number of times of automatic fault reset If the set number of times is exceeded the inverter remains a failed state When set F8 10 number of automatic fault reset 1 inverter will run automatically when repower after instantaneous power off When fault self recovery restart uptime over an
17. ci VR mr 10V fr rad J3 co SPA 3 Shorted 0 10 DC Default xd W El PM Oeut ru J output Signal 1 OND 11 Shorted 0720m DC com L mm p i E PE 1 i CL i ou i Output Signal 2 VR 10V COM bg 37 Shorted Y DC D SEG 1K Lo alg shorted 20m DC Output Signal 3 w LI TA1 normally closed GND TB contact 5A T 250V normally gt y E PE pd Tei open contact 3A 2 AC 250V1A DC 30V 1 E EROS TA2 Output Signal 4 1 2 Shorted Default qa normaly closed 2 3 Shorted manufacturers test IA 9 contact 5A TC2 250V normally open contact 3A AC 250V 1A DC 30V 75 PROJOY User manual V1 0 1 Wiring in accordance with the wiring diagram and closing the switch Q1 after checking the corrected wiring 2 y0 00 1 Factory Reset Set b0 00 b0 05 motor parameters according to the motor nameplate 3 Set F0 03 8 PV settings E0 00 2 MPPT mode 4 After setting the parameters press the RUN key observe the operating frequency and the water situation In normal light conditions if running frequency is high but the water is running less it indicates motor reversal phenomenon and need to modify the F0 24 1 then observe the water 5 Set point of failure and fault reset time delay settings If the customer needs to use the weak light full of water under load you can set detection point the number of automatic reset and automatic reset time are set as per customer s r
18. feedback the current bus voltage 2 MPPT mode Bus voltage is given as the maximum power search result F0 03 is set to 8 photovoltaic mode When starting but before the searching the bus voltage is given as E0 01 at intervals after the search the search result is as given value Solar voltage i Confirmed E0 01 setting 0 0 1000 0V model type When set E0 00 to 1 this voltage is CVT mode bus voltage set value When set E0 00 to 2 the voltage is the bus voltage given value when MPPT mode be started and also the initial value when search voltage Appropriate adjustments according to the site conditions Note the set value should be lower than the bus voltage value if the value is higher than the bus voltage the inverter may run at around OHz during starting MPPT Voltage E0 02 search interval 0 0 1000 0S 30 08 time MPPT Interval search time when set E0 00 to 2 It indicates the speed of MPPT tracking lower numbers equate to better speed on MPPT tracking but the MPPT serching interval is short may result in more fluctuations on output frequency of the inverter MPPT Voltage step length Voltage step searching by MTTP when set E0 00 to 2 Upper limit of E0 04 MPPT search 0 0 1000 0V voltage E0 03 0 0 1000 0V 10 0V Confirmed ds model type Upper limit value during MPPT voltage searching Lower limit of E0 05 MPPT search 0 0 1000 0V Confirme
19. feedback value is smaller than E2 20 PID parameter select parameter group 1 when the deviation absolute value of given value and feedback value is bigger than E2 21 PID parameter select parameter group 2 And when the deviation absolute value is between E2 20 and E2 21 PID parameter will be the interpolation value of the two parameter groups please refer to diagram gu Integral separation digit EIS Sep invalid 0 E222 PIDi l ee 00 D Ten Whether to stop integration digit when output reach limit Continue integration 0 Stop integration 1 Integral separation If set integral separation valid when multi function digital terminals DI integral pause function 38 is valid PID integration stop operation then only PID proportional and differential action are effective If set integral separation invalid whether DI is effective or not integral separation are invalid Whether to stop integration when output reach limit After the PID outputs reaches the maximum or minimum value can choose whether to stop the integral action If choose to stop integration PID integration stops which may help reduce the PID over regulation value 0 P 0 1 E2 23 PID initial value 00 100 0 maximum 0 0 frequency E2 24 PID initial value 9 99 360 00s 0 00s hold time When inverter starts PID output is fixed as the initial value E2 23 after continued E2 24 hold time
20. 0 0 This parameter is valid only for asynchronous motors V F slip compensation can compensate for the speed deviation of asynchronous motor when the increases so as to keep stable speed when the load changes If V F slip compensation gain is set to 100 0 it means that the compensated deviation is equal to the rated motor slip under the rated motor load while the rated motor slip can be calculated through b0 group of motor rated frequency and rated speed When adjust V F slip compensation gain generally it is based on the principle that the motor speed is same as the target speed When the motor speed is different from target value it is necessary to appropriately fine tune the gain F4 10 V F overexcitation gain 0 to 200 64 Bat VE oscillation 0 to 100 d suppression gain 5 1 7 F6 Keybaord and Display Factor Chan Code Parameter name Setting range y ge range Limit STOP RESET key is enabled only under 0 F6 00 STOP RESET keyboard mode operation 1 de i Functions STOP RESET key is enabled under any mode 1 of operation F6 01 Running status 0000 FFFF 00F vw display 1 38 User manual V1 0 PROJOY 15 14 13 12 1111109 8 7161514132 0 LDO Output Running frequency Hz AIl Voltage V Set frequency Hz L________Al2 Vol
21. 24V PLC can be EH connected to 24 i Wi or COM or connec E 2 Drain Drive LI to external DC J2 2 3Shorted Default PAT r1 Analog Output DAI 1 H49 com f Spi um x pl OO Maximum load current Sm theses power T on Dc GND 20m4 Maximum load impedance y 0 30 lo 1 T 2Shorted 2500hm TO COM supply 9 30V i l dMorbidusing the omane EPEL 1 I i LM I Es EU i TI Pl same earthing ES Source Drive terminal with JE 2 3shorted Default DA2 Analog Output DA2 L 4 I Q2 jo fnt pam iw oe pal OOY Marium Toad current 1 E PE 1 Miseni Duc CU ET Maximum load inpedance F20mA DG EPE V soom E SPA i E VR pu tov 4 Output Signal 1 ik LL an kul W E 3 shorted P DC SPB GND fi 2 eui E shorted 020m DC B i utput Signa Yo d i Output Signal 2 _ T EPE EOM VR n HOV TM Output Signal 3 IK LLO ap J4 shorted P DC 9 normally closed J efault L TE contact 5A ND q shorted 2m DC Tet AC250v4r a normally open t E PE contact 3A AC 250V 1A DC 30V 74 User manual V1 0 PROJOY Wiring diagram 11kW to 15kW Solar panels EH EH END EN EH EH END EN EH EH EN EN EH EH EN EN DC Reactor Brake Resistor e Y UL h Optional oO QI MCCB e 9 9 P P RB Motor Lo Sob 6 R L1 ur s L2 v2
22. Do not open cover plate after energizing Otherwise there is a risk of electric shock e Do not touch the driver and peripheral circuits with wet hands Otherwise there is a risk of electric shock e Do not touch any input and output terminals of the inverter Otherwise there is a risk of electric shock e The inverter automatically perform the safety testing for the external strong electrical circuit in the early stages of energizing therefore never touch the driver terminals U V W or motor terminals otherwise there is a risk of electric shock e If you need to identify the parameters please pay attention to the danger of injury during motor rotation Otherwise it may cause an accident e Please do not change the inverter manufacturer parameters Otherwise it may cause damage to this unit During operation Danger e Do not touch the cooling fan and the discharge resistor to feel the temperature Otherwise it may cause burns e Non professional personnel is not allowed to detect signal when operating Doing so may cause personal injury or damage to this unit PROJOY User manual V1 0 A Note e When the inverter is operating you should avoid that objects fall into this unit Otherwise cause damage to this unit e Do not start stop the driver by switching on off contactor Otherwise cause damage to this unit When maintaining Danger Do not perform repairs and maintenance for
23. ETOCAUHGnS When electrolytic capacitors on the main circuit and printed i for scrap A 3 disposal of circuit board as well as plastic parts are burned it may e avens produce toxic gases Please disposing as industrial waste 1 Standard adaptive motor shall be four pole asynchronous squirrel cage induction motor or permanent magnet synchronous motor Apart from the said motors please select the inverter according to the motor rated current 2 The cooling fan and the rotor shaft for non inverter motor Adaptive 14 od are coaxially connected the fan cooling effect is reduced when the rotational speed is reduced therefore when the motor works in overheating occasions a strong exhaust fan should be retrofitted or replace non inverter motor with the inverter motor 3 The inverter has built in the adaptive motor standard PROJOY User manual V1 0 parameters according to the actual situation please identify motor parameters or accordingly modify the default values to try to meet the actual value otherwise it will operation affect and protection performance 4 When short circuit of cable or motor internal will activate the inverter alarm even bombing Therefore firstly perform insulation short circuit test for the initial installation of the motor and cable routine maintenance often also need to perform such test Note that the parts to be tested and the inverter shall be disconnected completely when testing
24. Module overheating 15 External fault 16 Communication abnormal 17 Contactor abnormal 18 Current detection abnormal 19 Motor auto tunning abnormal 21 Parameter read and write abnormal 22 Inverter hardware abnormal 23 Motor short to ground 26 Running time arrival 27 Custom fault 1 28 Custom fault 2 29 Power on time arrival 30 Off load 31 PID feedback loss when running 40 Fast current limiting timeout 41 Switch motor when running 42 Reserved 43 Motor overspeed 45 Motor overtemperature 51 Initial position error y1 03 Frequency of the Frequency of the last fault third fault y1 04 Current of the Current ofthe last fault third fault 57 PROJOY User manual V1 0 Bus voltage of the Bus voltage of the last fault YL05 iind fault Input terminal status of the last fault the order is BITS BIT8 BIT7 BIT6 BITS BIT4 BIT3 BIT2 BIT1 BITO Input terminal DIO DI9 DI8 DI7 DI6 DI5 DI4 DI3 DI2 DI1 yiue ur oy ead When the input terminal is ON the corresponding binary bits is 1 OFF is 0 all DI status is converted to the decimal number for display Output terminal status of the last fault the order is BIT4 BIT3 BIT2 BIT1 BITO Output terminal REL2 SPA Reserve REL1 SPB y1 07 status of the third e fault When the output terminal is ON the corresponding binary bits is 1 OFF is 0 all DI status is converted to
25. PID starts to regulation operations of close loop E2 25 Maximum deviation 0 00 100 00 1 00 48 User manual V1 0 PROJOY value forward 2 26 Maximum deviation 4 6504 100 00 1 00 value reverse This function is used to limit the deviation between the two PID output shot 2ms beat in order to suppress excessive PID output to make the inverter running stable E2 25 corresponds to the maximum value of absolute output deviation of forward running E2 26 corresponds to the maximum value of absolute output deviation of reverse running 5 1 14 E3 Virtual terminal group Facto Chan Code Parameter name Setting range ge range Limit E3 00 VDII function selection 0 50 0 E3 01 VDI2 function selection 0 50 0 E3 02 VDI3 function selection 0 50 0 E3 03 VDI4 function selection 0 50 0 E3 04 VDIS function selection 0 50 0 Virtual VDI1 VDIS functionally identical DI on control board it can be used as a multi function digital inputs detailed settings please refer to introduction of F1 00 F1 09 Units digit Virtual VDI1 invalid 0 valid 1 Virtual VDI2 0 Tens digit to 1 same as above Virtual VDI Virtual VDI3 0 E3 05 terminal status set Hundreds digit to 1 same as Oy e above Virtual VDI4 0 Thousands digit to 1 same as above Tens of thousands Minna
26. adjustable DC 0 to 20mA panel potentiometer setting etc Start 8 Rotate forward reverse E signal z Multi At most 16 speed can be set run by using the multi function amp speed terminals or program Emergenc Interrupt controller output y stop When the protection function is active you can automatically Fault reset or manually reset the fault condition PID feedback 2 00 Including DC 0 to 10V DC 0 to 20mA signal Running Motor status display stop ac deceleration constant speed status program running status Fault Contact capacity normally closed contact 5A AC 250V output normally open contact 3A AC 250V 1A DC 30V E 3o Two way analog output 16 signals can be selected such as alo 2 E frequency current voltage and other output signal range 0 ui 7e to 10V 0 to 20mA gt 3 tput 5 bi At most 3 way output there are 40 signals each way signa Run function Limit frequency jump frequency frequency compensation auto tuning PID control DC current Built in PID regulates braking current to ensure sufficient braking braking torque under no overcurrent condition Running Three channels operation panel control terminals and command serial communication port They can be switched through a channel variety of ways Fem Total 5 frequency sources digital analog voltage analog 4 y current multi speed and serial port They can be switched source through a variety of w
27. below 7V inverter runs If the water tower above the high level detection point the inverter belongs to standby status Until the water level is below the low water level detection point AIl less than 3V the frequency inverter automatically starts running 4 Pump under load detection mode 1 After water pump out of well frequency inverter determine whether to run the water pump by setting a reference value F0 03 8 PV settings F8 30 1 off load protection choose effective F8 31 d0 04 b0 03 suggests to subtract 0 05 to 0 1 based on the calculated result F8 32 off overload detection time suggests to set as 10s E0 00 2 MPPT mode E0 10 6000 set out interval detection time Assuming the b0 03 5 1A when pumping d0 04 displayed as 4A F8 31 4 5 1 0 78 suggests to subtract by 0 05 to 0 1 F8 31 should be set between 68 4 73 4 F8 31 is set according to the actual situation When setting F8 31 68 4 current is less than 3 48 the delay time F8 32 is set to 60 suggests to subtract setting time by 1Min 3Min set according to the actual situation the inverter will free stop E0 10 set out interval contained detectable the frequency inverter runs automatically set off again into the detection status If the pool is still no water detected the frequency inverter will free stop again 5 Pump under load detection mode 2 After water pump out of the well the inverter will shut down autom
28. connects to R terminals T PV voltage connects to R T T L3 j i DE Ground terminals Connect to ground P RB Braking ISSUE Connect to braking resistor terminals U T1 V T2 Output terminals Connect to three phase motor W T3 P P DE Bus DAS Connect to braking unit terminals DC reactor Connect to DC reactor remove the P P i terminals shorting block Description of control circuit terminals C teg Symbol Name Function ory Output 10V power supply maximum External output current 10mA 10V ng 10V power Generally it is used as power supply of GND supply external potentiometer potentiometer resistance range 1kQ to 5kQ P Output 24V power supply generally it is ie 24V External 24V used as power supply of digital input and SUPPY COM power supply output terminals and external sensor Maximum output current 200mA When external signal is used to drive External please unplug J5 jumpers PLC must be PLC power input d I 1 d terminal connected to external power supply and to 24V default 1 Input range DC OV to 10V 0 to 20mA depends on the selected J3 jumper on AII GND Mind T M control panel 2 Input impedance 22kQ with voltage Analog input 500Q with current input input 1 Input range DC OV to 10V 0 to 20mA depends on the selected J4 jumper on AD GND cd ra ut control panel 2 Input impedance 22kQ with voltage input 500Q with current input Digital
29. hour later it will restore the original setting of automatic fault reset Fault DO action selection OFF 0 during automatic fault reset ON 1 F8 11 0 If the inverter automatic fault reset function is set F8 10 can be used to set whether DO action is active or not during the automatic fault reset F8 12 Automatic fault reset 0 1s to 100 0s l0s x interval It is the waiting time from the inverter fault alarm to automatic fault reset F8 30 Load drop protection Invalid 0 selection Valid 1 F8 31 Load drop detection 0 0 to 100 0 rated motor 10 0 5x F8 32 Load drop detection 0 0s to 60 0s 1 0s SE If the load drop protection function is active when the inverter output current is less than the load drop detection level F8 31 and the duration is longer than the load drop detection time F8 32 the inverter output frequency is automatically reduced to 7 of the rated frequency During the load drop protection if the load recovers the inverter automatically resumes to the set frequency to run 5 1 10 F9 Group Communication parameter Facto Chan Code Parameter name Setting range ry ge range Limit det MODBUS 600BPS 1 42 User manual V1 0 PROJOY 1200BPS 2400BPS 4800BPS 9600BPS 19200BPS 38400BPS 57600BPS 115200BPS Oo Ia BR ID Tens digit
30. in the level 3 operation status The differences between the two keys ENTER will be back to the level 2 menu and save parameter setting before back and transfer to the next function code automatically PRG will be back to the level 2 menu directly not save parameter setting then back to current function code Example 1 Restore factory settings A GENRE B Y hrer 008 17 ca Press PRG Press Press rt rad ENTER 1 pe OO 1 confirm Example 2 Change F0 01 from 50 00Hz to 40 00Hz Press F ya Press ES ERI 0 00 F 8 tee F0 00 LFO D Press ENTER E TU oa D pay to 2 Ls A i confirm Press PRG Flicker Without MTS parameter position the function code can not be modified in the level 3 menu The reason maybe as following 18 User manual V1 0 PROJOY 1 The function code can not be modified itself eg actual detecting parameters running record parameters 2 The function code can not be modified in the running status It must be modified in the stop status 3 4 2 The way to read parameters in various status In stop or run status operate shift key SE to display a variety of status parameters respectively Parameter display selection depends on function code F6 01 run parameter 1 F6 02 run parameter 2 and F6 03 stop parameter 3 In stop status there are total 16 stop status parameters that can be set to display not display set frequency bus volt
31. is set to too large which may easily lead to motor overheating and damage while the inverter will not alarm F8 04 Motor overload pre alarm 5094 to 10094 80 X coefficient This function is used in the front of motor overload fault protection and sends a pre alarm signal to the control system by DO The warning coefficient is used to determine the extent of pre alarm prior to motor overload protection The higher the value the smaller the extent of pre alarm in advance When the cumulative amount of inverter output current is greater than the product of the inverse time curve of overload and F8 04 the inverter multi function digital DO will output Motor Overload Pre Alarm ON signal F8 05 Overvoltage stall gain 0 no overvoltage stall to 100 0 Overvoltage stall protection F8 06 voltage energy 120 to 150 three phase 130 consumption brake voltage In the process of the inverter deceleration when the DC bus voltage exceeds the overvoltage stall protection voltage the energy consumption brake voltage the inverter stops deceleration and maintains at the current operating frequency if F3 12 is not set to 0 the braking signal is outputted the energy consumption brake can be implemented by an external braking resistor and then continues to decelerate upon decline of the bus voltage Overvoltage stall gain is used for adjusting inhibition overvoltage capability during deceleration
32. keyboard storage area 1 12 upload parameter to keyboard storage area 2 Upload the parameters of the inverter to the keyboard storage area 2 21 download the parameters from keyboard storage 1 area to the storage system Download the parameters from keyboard storage 1 to inverter 22 download the parameters from keyboard storage 2 area to the storage system Download the parameters from keyboard storage 2 to inverter y0 01 User password 0 to 65535 0 When y0 01 is set to one any non zero number the password protection will take effect You enter the menu for the next time you must enter the password correctly otherwise can not view and modify the function parameters please keep in mind the set user password When y0 01 is set to 0 the set user password will be cleared the password protection function is invalid pos d group display selection 1git Not display 0 Display 1 Tens digit E group display selection Not display 0 Display 1 Hund ids Function parameters reds b group display selection HH k Yes display properties digit Not display 0 Display 1 Thou sands yl _ group display e selection digit Not display 0 Display 1 Tens y group display selection thous 55 PROJOY User manual V1 0 ands digit Not display 0 Display 1 Units digit Reserved Tens digit User s change y0 03 U
33. lower limit frequency Outputs ON signal when the output torque 14 Torque being limited reaches the torque limit value and the inverter is in the stall protection status under inverter speed control mode Outputs ON signal when the power supply of the inverter main circuit and control circuit 15 Ready for operation has stabilized and the inverter has not any fault information and is in the runnable status 33 PROJOY User manual V1 0 Outputs ON signal when the value of 16 All AD analog input All is greater than the AI2 input value 17 Upper limit frequency Outputs ON signal when the operating arrival frequency reaches the upper limit frequency Lower limit frequency Outputs ON signal when the operating 18 arrival frequency reaches the lower limit frequency shutdown without Outputs OFF signal when the inverter is in the output state of stop 19 Undervoltage status Outputs ON signal when the inverter is in output the undervoltage condition 20 Communication Please refer to communication protocol setting 21 Reserve Reserve 22 Reserve Reserve Outputs ON signal when the inverter 23 ace speed running 2 output frequency is 0 Outputs ON signal t shutdown with output P d Ya P Lad when the inverter is in the state of stop Outputs ON signal when the inverter s 24 a oe en eee time F6 08 exceeds the on time arrival set time by F7 20 25 Frequenc
34. of function detection FDT1 output code F7 23 F7 24 4 Frequency arrival Please refer to the instructions of function code F7 25 Outputs ON signal when the inverter is in 5 Zero speed running operation with output frequency zero Outputs shutdown without output OFF signal when the inverter is in the sate of stop Before motor overload protection action it will output ON signal if it exceeds the pre 6 a overload pte alarm threshold Please refer to function code F8 02 to F8 04 for motor overload parameter setting 7 Inverter overload pre Outputs ON signal within 10s before alarm inverter overload protection action Outputs ON signal when the count value Set count value arrival reaches tie value ibi by E0 08 Outputs ON signal when the count value Specified count value reaches the value set by E0 09 Please refer to 9 arrival the instructions of Ub group for counting function Outputs ON signal when the detected n Length arrival Actual ina avec the set length by E0 05 Outputs a width of 250ms pulse signal n PEG cycle completed when sino PLC completes a cus i Cumulative running Outputs ON signal when the inverter s 12 cumulative running time F6 07 exceeds the set time arrival time by F7 21 Outputs ON signal when the rated Frequency being frequency exceeds the upper limit frequency or 13 the lower limit frequency and the output limited i frequency of inverter also reaches the upper limit frequency or the
35. of the last fault first fault y1 24 Current of the Current ofthe last fault first fault y1 25 Bus voltage of Bus voltage of the last fault the first fault Input terminal status of the last fault the order is BIT9 BIT8 BIT7 BIT6 BITS BIT4 BIT3 BIT2 BIT1 BITO Input terminal DIO DIS DIS DI De DS D4 DIS DI2 DM ues a ofthe iirst When the input terminal is ON the corresponding binary bits is 1 OFF is 0 all DI status is converted to the decimal number for display Output terminal status of the last fault the order is BIT4 BIT3 BIT2 BIT1 BITO Output terminal REL2 SPA Reserve REL1 SPB y1 27 status of the first fault When the output terminal is ON the corresponding binary bits is 1 OFF is 0 all DI status is converted to the decimal number for display yl 28 Reserved y1 29 Power on time of Current power on time of the last fault the first fault y1 30 Running time of Current running time of the last fault the first fault 59 PROJOY User manual V1 0 Chapter 6 EMC Electromagnetic Compatibility 6 1 Definition Electromagnetic compatibility refers to the ability that the electric equipment runs in an electromagnetic interference environment and implements its function stably without interferences on the electromagnetic environment 6 2 EMC standard In accordance with the requirements of the Chinese national standard GB T12668 3 the inverter must comply with the requirements of electro
36. output 0 F2 00 output mode 0 selection Switching quantity output 1 SPB terminal is a programmable complex terminals it can be used as an output terminal of high speed pulse also an switching output terminal of collector open circuit As a high speed pulse output the highest frequency of output pulse is 100kHz please see the instructions of F2 06 for high speed pulse output function Switching quantity output function F2 01 selection collector 0 to 40 0 Ww Open circuit output terminals Relay 1 output F2 02 function selection 0 to 40 2 x TA1 TB1 TC1 SPA output function selection collector Open circuit output terminals F2 04 0 to 40 1 Relay 2 output F2 05 function selection 0 to 40 1 x TA2 TB2 TC2 Switching quantity output function F2 01 selection collector 0 to 40 0 Open circuit output terminals The above five function codes are used to select five digital output functions 32 ser manual V1 0 PROJOY Multifunction output terminal function is described as follows Set Function Description value 0 No output No output action 1 are The inverter is in operation with output frequency zero and outputs ON signal 2 Fault output fault When the inverter occurs failure and shutdown stops and outputs ON signal 3 Frequency level Please refer to the instructions
37. the live electrical equipment Otherwise there is a risk of electric shock e The repairs and maintenance task can be performed only when the inverter bus voltage is lower than 36V Otherwise the residual charge from capacitor would cause personal injury e Non well trained professional personnel is not allowed to perform repairs and maintenance of inverter Doing this may cause personal injury or damage to this unit e After replacing the inverter parameter settings must be redone all pluggable plugs can be operated only in the case of powering off 1 3 Precautions N Type Explanation Please perform motor insulation inspection for the first time use re use after leaving unused for a long time as well as regular check in order to prevent damage to the inverter Motor insulation EUER Br 1 inshestiont because of the motor s winding insulation failure Wiring p between motor and inverter shall be disconnected it is recommended that the 500V voltage type megger should be adopted and insulation resistance shall be not less than 5MQ If the rated capacity of the selected motor does not match the i i hen the i t t i t Motor thermal inverter especially when the inverter rated power is greater 2 than the motor rated power be sure to adjust the motor protection Sb protection parameter values inside inverter or install thermal relay in the front of motor for motor protection Bin over T
38. the decimal number for display yl 08 Reserved y1 09 Power on time of Current power on time of the last fault the third fault y1 10 Running time of Current running time of the last fault the third fault pons Reserved yl 13 Frequency of the Frequency of the last fault second fault y1 14 Current of the Current of the last fault second fault yl l5 Bus voltage of the Bus voltage of the last fault a second fault Input terminal status of the last fault the order is BIT9 BIT8 BIT7 BIT6 BITS BIT4 BIT3 BIT2 BIT1 BITO Input terminal DIO DIS De DI De DIS D4 D3 DI2 DI y1 16 status of the When the input terminal is ON the second fault 2 corresponding binary bits is 1 OFF is 0 all DI status is converted to the decimal number for display Output terminal Output terminal status of the last fault the yl 17 status of the e second fault order is 58 User manual V1 0 PROJOY sr BIT3 BIT2 am ro REL2 SPA Reserve REL1 SPB When the output terminal is ON the corresponding binary bits is 1 OFF is 0 all DI status is converted to the decimal number for display yl 18 Reserved yl 19 Power on time of Current power on time of the last fault the second fault y1 20 Running time of Current running time of the last fault the second fault y t Reserved v1 22 yl23 Frequency of the Frequency
39. wiring forthe 2 additionally install the motor and the inverter is reactor or the output too long filter 3 module overheating 3 check the air duct is 1 Erol Inverter unit 4 the internal wiring of blocked or not and the protection inverter is loose fan is working normally 5 the main control panel OF not and eliminate is abnormal problems 6 the drive panel is 4 correctly plug all abnormal cables 7 the inverter module is 5 seek for technical abnormal support 1 the acceleration time is l increase acceleration too short time 2 manual torque boost or 2 adjust manual torque OT V F curve is not suitable boost or V F curve cceleration F 2 Err 02 3 the voltage is low 3 set the voltage to the overcurrent 4 the short circuit or normal range earthing of inverter 4 eliminate peripheral output happens faults 5 the control mode is 5 perform identification 64 User manual V1 0 PROJOY vector and without identification of parameters 6 the motor that is rotating is started unexpectedly 7 suddenly increase the load in the process of acceleration 8 the type selection of inverter is small for the motor parameters 6 select Speed Tracking Start or restart after stopping the motor 7 cancel the sudden load 8 choose the inverter with large power level 1 the short circuit or earthing of inverter output happens 2 the control mode is vector and without identification of parameters 1 eliminat
40. 0Hz 5 S Three phase 380V 10 50 60Hz 5 amp Recommend Pv ser DC 200 450V mpor DC 4T DC 350 750V voltage range 5 Control system High performance vector control inverter based on DSP 2 Control method V F control vector control W O PG ia Automatic torqu Realize low frequency 1Hz and large output torque boost function control under the V F control mode S Acceleration de Straight or S curve mode Four times available and time celeration range is 0 0 to 6500 0s User manual V1 0 PROJOY Items Specifications control V F curve mode Linear square root m th power custom V F curve Over load G type rated current 150 1 minute rated current 180 capability 2 seconds Maximum Vector control 0 to 300Hz frequency V F control 0 to 3200Hz Carrier 0 5 to 16kHz automatically adjust carrier frequency Frequency according to the load characteristics Input frequency Digital setting 0 01Hz Analog setting maximum resolution frequency 0 1 Start torque G type 0 5Hz 150 vector control W O PG Speed range 1 100 vector control W O PG Steady speed precision Vector control W O PG lt 0 5 rated synchronous speed Torque response X 40ms vector control W O PG Torque boost Automatic torque boost manual torque boost 0 1 to 30 0 DC braking DC braking frequency 0 0Hz to max frequency braking time 0 0 to 100 0 seconds braking c
41. AL OPERATOR UNE TC LJ EEERE JPR6E9100 keyboard control panel Figure 3 1 Operation panel display 3 2 Keyboard Indicators Indicator flag Name Running indicator light RUN ON the inverter is working OFF the inverter stops Command indicator light That is the indicator for keyboard operation terminal LOCAL RE operation and remote operation communication control 5 MOTE ON terminal control working status EA OFF keyboard control working status i Flashing remote control working status a Forward reverse running light FWD REV ON in forward status OFF in reversal status Motor self learning fault indicator TUNE TC Slow flashing in the motor tunning status Quick flashing in the fault status m Hz frequency unit 2 S A current unit CES HzAV V voltage unit 22 s E RPM speed unit 9 percentage 16 User manual V1 0 3 3 Description of operation panel keys PROJOY Sign Name Function Parameter Enter into the modified status of main menu PRG Setting Esc Esc from functional parameter modification Key Esc submenu or functional menu to status menu Choose displayed parameter circularly under running Shift Key or stop interface choose parameter s modified position when modify parameter Multi function key definition 1 UP key setted by parameter F6 18 o nn E Multi function key defi
42. Change current motor P A through the terminal Switch motor after the 41 Err 41 when running when the inverter is inverter stops fault running 42 Reserved 1 the parameter was not identified 1 perform identification 2 the setting for encoder for the motor parameters 43 Err43 Motor over parameters is incorrect 2 correctly set encoder speed fault 3 the setting for motor parameters overspeed detection 3 reasonably set the parameter F8 13 F8 14 detection parameters is unreasonable 1 detect the wiring of e f temperature sensor L the wiring o wiring and eliminate Motor temperature sensor 1s fault 45 Err 45 overtemperature loose fault 2 decrease carrier 2 the es temperature frequency or take other 1s too hig cooling measures to cool motor 51 Er 5l Initial position the deviation between reconfirm the correct error the motor parameters motor parameters focus 69 PROJOY User manual V1 0 and the actual parameters is too large on whether the rated current is set to too small 70 Chapter 8 Installation and Commissioning guidance 8 1 Operating environment 1 Environmental temperature 10 C to 50 C Above 40 C the capacity will decrease 3 by each 1 C So it is not advisable to use inverter above 50 C 2 Prevent electromagnetic interference and away from interference sources 3 Prevent the ingress of droplets vapor dust dirt lint an
43. DII Digital input 1 1 Opto coupler isolation compatible with input DD Digital input 2 bipolar input 72 User manual V1 0 PROJOY DB Digital input 3 2 Input impedance 2 4kQ DI4 Digital input 4 3 Voltage range with level input 9V to 30V DIS Digital input 5 4 Below 11KW DII to DI6 drive manner DI6 Digital input 6 is controlled by JS when external power DI7 Digital input 7 Supply is used to drive please unplug JS jumpers 5 Above 11KW DII to DI4 drive manner P is controlled by J6 DIS to DI8 drive me Digital input 8 manner is controlled by J5 when external power supply is used to drive please unplug J5 jumpers Hish d Except the function of DI1 to DIA DI6 to F X DI8 DI5 can also be used as high speed DIS pulse input 3 i pulse input channels Maximum input terminals frequency 100kHz The selected J2 jumper on control panel DAI Analog output determines voltage or current output GND 1 Output voltage range OV to 10V output Analog current range 0mA to 20mA output The selected J1 jumper on control panel DA2 Analog output determines voltage or current output GND 2 Output voltage range OV to 10V output current range OmA to 20mA SPA COM Digital output Opto coupler isolation bipolar open 1 collector output SPB COM Digital output Output voltage range OV to 24V output Digital 2 current range OmA to 50mA output Subject to f
44. Err 15 mera through the multi function Reset run equipment fault terminal DI 67 PROJOY User manual V1 0 1 the communication cable is not normal 2 the settings for communication expansion card F9 07 are 1 check the communication cable 2 correctly set the communications 16 Frr 16 Communication incorrect expansion card type fault 3 the settings for 3 correctly set the communication communication parameters F9 group are parameters incorrect 4 check the wiring of 4 the host computer is host computer not working properly 1 check and eliminate 1 input phase loss the existing problems in 17 Err 17 Contactor fault 2 the drive plate and the the peripheral line contact are not normal 2 replace the drive the power board or contactor 1 Hall device is Current abnormal 1 replace the drive panel 18 Err 18 detection fault 2 the drive panel is 2 replace hall device abnormal 1 the motor parameters l correctly set motor was not set according to parameter according to Motor parameter the nameplate the nameplate 19 Err 19 auto tunning eH fault 2 the identification 2 check the lead wire process of parameter is from the inverter to the timeout motor 20 Reserved EEPROM read EEPROM chip is Replace the main control 21 Err21 and write fault damaged panel 1 eliminate overvoltage 22 Err22 Inverter l overvoltage fault hardware fault 2 overcurrent 2
45. Foreword Thank you for choosing Projoy PROPD Series Frequency Inverter This product made by Projoy is based on years of experience in professional production and sale and designed for solar pump inverter This manual provides user the relevant precautions on installation operational parameter setting abnormal diagnosis routine maintenance and safe use In order to ensure correct installation and operation of the frequency converter please carefully read this manual before installing it For any problem when using this product please contact your local dealer authorized by this company or directly contact this company our professionals are happy to serve you The end users should hold this manual and keep it well for future maintenance amp care and other application occasions For any problem within the warranty period please fill out the warranty card and fax it to the our authorized dealer The contents of this manual are subject to change without prior notice To obtain the latest information please visit our website For more product information please visit http www projoy solar com Projoy March 2015 Table of contents FOreWOdE t nl dee tanste codes oles eas dee ce AW RS ees 1 Table Of Contents ssf ion be dices savas oath candida dre rennes 2 Chapter 1 Inspection and safety precautions 1 1 1 Inspection after unpacking 1 1 1 1Instructions on n
46. Length 0 to maximum set length 11 Count value 0 to maximum count value 12 Communication 0 0 to 100 0 13 Motor speed 0 to speed with maximum output 35 14 Output current 0 0A to 100 0A inverter power 55kW 0 0A to 1000 0A inverter power gt 15 DC bus voltage 0 0V to 1000 0V 16 Reserve 17 Frequency source 0 max output frequency Maximum output F2 09 frequency of high speed 0 01kHz to 100 00kHz 50 00kHz X pulse SPB terminal is selected as pulse output the function code is used to select the maximum value of output pulse F2 10 SPB switching quantity output delay time 0 0s to 3600 05 0 0s F2 11 Relay 1 output delay time 0 0s to 3600 0s 0 0s p F2 13 SPA output delay time 0 0s to 3600 0s 0 0s F2 14 Relay 2 output delay time 0 0s to 3600 0s 0 0s Set the delay time from occurrence to Actual output for output terminal SPA SPB relay 1 relay 2 and expansion DO Units SPB switching quantity digit active status selection Positive logic 0 Anti logic 1 Relay 1 terminal active Tens E status setting 0 to 1 as digit above DO output terminal z F2 15 active status Hundr Expansion DO terminal 00000 eds active status setting 0 to 1 selection An digit as above bus SPA terminal active status digit setting 0 to 1 as above na Relay 2 terminal active ousa status setting 0 to 1 as nds abo
47. Monitoring function group 23 5 1 2 FO Group Basic function group 25 5 1 3 F1 Input terminals group 27 5 1 4 F2 Group Output terminals group 32 5 1 5 F3 Group Start and stop control group 36 5 1 6 F4 V Fcontrol group 37 5 1 7 F6 Keybaord and Display 38 5 1 8 F7 Group Auxiliary function group 40 5 1 9 F8 Group Fault and protection ss 40 5 1 10 F9 Group Communication parameter 42 5 1 11 FB Group Control optimization parameters 44 5 1 12 EO Solar water pump special group 44 5 1 13 E2 PID Function Group 46 5 1 14 E3 Virtual terminal group 49 5 1 15 bO Motor parameters group 52 5 1 16 yO Function code management group 54 5 1 17 yl Fault query group ss 56 Chapter 6 EMC Electromagnetic Compatibility enrrenn ren srr en snee 61 6 T Denion eins nl a cau atte SEE tee Mit ER renda 61 6 2 EMG standard 52e BG a Lan e ne RE A ee eder 61 6 3 EMC direCtlVe i e eie eO ret e eoe b eH edes tha 61 6 3 1 Harmoni effecten eot m ee e d d ee eed 61 6 3 2 Electromagnetic interference and installation precautions se 61 6 3 3 Remedies for the interferences from the surrounding electromagnetic equipments to the inverter ree serene sne tn rener renerne renee 62 6 3 4 Remedies for the interferences from the inverter to the surrounding electromagnetic equipments
48. Password and decoding function Runni Monitoring objects including running frequency set ng frequency bus voltage output voltage output current LED OL infor output power output torque input terminal status output terminal status analog AIl value analog AI2 value motor ED matio Actual running speed PID set value percentage PID display n feedback value percentage keyboard Error At most save three error message and the time type gt messa voltage current frequency and work status can be queried ge when the failure is occurred LED display Display parameters OLED display Optional prompts operation content in Chinese English text Copy parameter Can upload and download function code information of frequency converter rapid replication parameters Key lock and function selection Lock part or all of keys define the function scope of some keys to prevent misuse 11 PROJOY User manual V1 0 Items Specifications 2g EE The optional completely isolated RS485 communication E RS485 s E module can communicate with the host computer Environment 10 C to 40 C temperature at 40 C to 50 C please temperature derating for use St Ml 20 C to 65 temperature E Environment Less than 90 R H no condensation humidity E Vibration Below 5 9m s 0 6g a Indoor where no sunlight or corrosive explosive gas and
49. Profibus DP 115200BPS 208300BPS 256000BPS 512000BPS SSID o Hundre ds digit Reserve Thousan ds digit CAN bus baudrate 20 50 100 125 250 500 1M F9 01 Data format No parity 8 N 2 Even parity 8 E 1 Odd parity 8 O 1 No parity 8 N 1 WINNT E OL ani nA BR wl NnlRe o F9 02 This unit address 1 to 250 0 for broadcast address F9 03 Response delay Oms 20ms 2ms F9 04 Communication timeout time 0 0 invalid 0 1s 60 0s 0 0s F9 05 Data transfer format selection Units MODBUS digit Non standard MODBUS protocol Standard MODBUS protocol 30 43 PROJOY User manual V1 0 Tens digit Profibus PPOI format PPO2 format PPO3 format PPOS format Current resolution 0 01A ratio 0 1A F9 06 row ID I lo 0 Modbus communication card C TN 1 Profibus communication 1 roo Communication card o x 2 Reserved 2 3 CAN bus communication 3 card 5 1 11 FB Group Control optimization parameters Factor Chan Code Parameter name Setting range y ge range Limit FB 00 Fast current limiting Disable 0 ener Enable 1 Enable Quick Current Limiting function which can minimize the overcurrent fault of inverter and ensure the uninterrupted opera
50. VDE SE digit to 1 same as above Units digit Virtual VDII ddddigit Virtual VD1 whether valid is decided E3 06 hara we E by Virtual VDOX status 0 11111 LK a v de ve pi whether valid is decided i by E3 05 Tens digit Virtual VDI2 0 49 PROJOY User manual V1 0 to 1 same as above Virtual VDI3 0 Hundreds digit tol same as above Virtual VDI4 0 Thousands digit to l same as above Virtual VDIS 0 to 1 same as above Tens of thousands digit Different from ordinary digital quantity input terminals virtual VDI state can have two setting modes which is selected by E3 06 When selecting VDI state is determined by the state of the corresponding virtual VDO VDI is valid or invalid state depending on the VDO output valid or invalid and VDIx only binding VDOx x 1 5 When choosing VDI state selection function code to set through the binary bits of E3 05 respectively determine the state of virtual input terminals Example of how to use VDI Example 1 Implement following function Inverter fault alarm and shuts down when AI1 input exceeds upper or lower frequency Realize by following settings Set VDI state decided by VDO set VDII function as user defined fault 1 E3 00 44 set VDII terminal state effective mode decided by VDO1 E3 06 xxx0 set VDOI output function as AIl input exceeds upper amp lower frequency E3 11 31 so when AII input excee
51. age DI input status DO output status analog input AI1 voltage analog input AI2 voltage panel potentiometer input voltage Actual count value Actual length value PLC running step number Actual speed display PID settings high speed pulse input frequency and reserve switch and display the selected parameter by pressing key orderly In running status there are 5 running status parameters running frequency setting frequency bus voltage output voltage output current default display and other display parameters output power output torque DI input status DO output status analog input AI1 voltage analog input AI2 voltage panel potentiometer input voltage Actual count value Actual length value linear speed PID settings and PID feedback etc their display depends on function code F6 01 and F6 02 switch and display the selected parameter by pressing key orderly Inverter powers off and then powers on again the displayed parameters are the selected parameters before power off 3 4 3 Password settings The inverter has password protection When y0 01 become not zero it is the password and will be work after exit from function code modified status Press PRG key again will display One must input the correct password to go to regular menu otherwise inaccessible To cancel the password protection function firstly enter correct password to access and then set y0 01 to 0 3 4 4 Motor parameter auto tunning Choose vector control
52. age 10 area upload parameter to keyboard storage area 1 upload parameter to keyboard storage area 2 download the parameters from keyboard storage 1 21 area to the storage system download the parameters from keyboard storage 2 22 area to the storage system y0 00 Parameter initialization 11 12 1 restore the factory setting not including motor parameters After y0 00 is set to 1 most of the inverter function parameters are restored to the factory default parameters but motor parameters frequency command decimal point F0 02 fault recording information cumulative running time cumulative power on time and cumulative power consumption will not be restored 2 clear history To clear the history of the inverter s fault recording information cumulative running 54 User manual V1 0 PROJOY time cumulative power on time and cumulative power consumption 3 restore default parameter values including motor parameters 4 backup current user parameters Backup the parameters set by the current user Backup all function parameters It is easy to restore the default settings when user incorrectly adjust parameters 501 Restore user backup parameters Restore previous backup user parameters 10 Clear keyboard storage area Empty keyboard storage area 1 and keyboard storage area 2 11 upload parameter to keyboard storage area 1 Upload the parameters of the inverter to
53. al operating Motor actual running speed speed d0 15 PID setting Reference value percentage when PID runs RER 16 BID feedback Feedback value percentage Es PID runs 40 1 HDI DI5 pulse HDI DI5 High speed pulse ake 0 01kHz P feguenty frequency display unit 0 01KHz d0 20 Remaining run time re de time display it is 0 1Min for timing run control d0 22 i power on Total time of current inverter ee i 40 23 23 Current run time run time Total time of current inverter run 01Min 1Min HDI DI5 pulse HDI DI5 High speed pulse input d0 24 frequency frequency display unit 1Hz T Frequency torque or other 22 Communication set q tog d0 25 command values set by value KANE communication port User manual V1 0 PROJOY Parameter name Functional description Unit 40 27 Master frequency Frequency set by F0 03 master 0 01Hz display frequency setting source 0 28 Auxiliary frequency Frequency set by F0 04 auxiliary 0 01Hz display frequency setting source d0 29 Command torque Observe the set command torque d0 35 Inverter status Display run standby and other L uw d0 36 1 G type constant torque load 3 d0 37 AII voltage before Input voltage value before AI1 2 i correction linear correction bs d0 38 AD voltage before Input voltage value before AI2 i i correction linear correction Panel potentiometer Panel potentiometer voltage 30 d0 39 voltage before before linear correction correct
54. ameplate ener rer renser ens 1 I 2S8afety precautiotis nie bd ehe unde e reliure 1 1 25 Safety DIGCAUtonsi cr etr eter E C EH x RR Pete t Ee e POR ane 1 JS PTCCAULIONS EE mule Lit tee Odes eR Se sense 4 1 4 Scope of applications sn US A Ml ertet eres 6 Chapter 2 Standard specifications ene 8 2 Techriical specificatiOng serere t oe m ned 8 2 2 Standard specifications eene ener eren eene 8 2 3 Dinmiensiofis cs etd tet tette te ane ertet ditte 12 2 3 1 Appearance and installation holes size 12 2 3 2 Projoy Serl s sim nntenntn emere Pera deett diede 13 2 3 3 Keyboard size diagram sg cere deeem ta res 14 Chapter 3 Keyboatd einen n I UH SACER ERE EROS 16 3 1 Keyboard description eR RE Oed be edere 16 3 2 Keyboard Indicators neni er Eee het epe eee id 16 3 3 Description of operation panel keys 17 3 4 Examples of parameter settings ai aee het ere te dette p eb 17 3 4 1 Instructions on viewing and modifying function code 17 3 4 2 The way to read parameters in various status 19 3 4 3 Password settings 19 3 4 4 Motor parameter auto tUNNINg R 19 Chapter 4 CommissiOniNg ss 21 Chapter 5 Function parameter 22 5 1 Menu grOUPINg eee 22 5 1 1 dOGroup
55. ar com Web www projoy solar com Add CN 201306 Shanghai China Room 1105 GangTai Building No 88 ShenGang Ave Pudong New District
56. atically Install level detection switch at a low water and the test line lead to DI terminal DI terminal function selection is set to free stop and start forward When the water level falls below the low level detection point DI2 signal is active and the frequency inverter will free stop When the water level is higher than the starting value detected the frequency inverter starts automatically 78 User manual V1 0 PROJOY DI2 Frequency DIL inverter COM UVW Well Start checkpoint Pump Low level detection points Parameter settings F0 03 8 PV settings F0 11 4 keyboard Terminal communication F1 00 1 forward run F1 01 8 freewheel F1 10 2 three wire mode 1 F1 40 1 input terminal can repeat the definitions E3 02 3 three wire operation control E3 05 00100 E0 00 2 MPPT mode Mark If the water tower is set to switch value detection the well is also set to switch value detection Set F1 40 to the input terminal which can be reusable definitions Wiring Precautions Danger Make sure that the power switch is in the OFF state before wiring operation or electrical shock may occur Wiring must be performed by a professional trained personnel or this may cause damage to the equipment and personal injury Must be grounded firmly otherwise there is a danger of electric shock or fire hazard LOI
57. ays Input terminals 6 digital input terminals compatible with active PNP or NPN input mode one of them can be for high speed pulse input 0 to 100 kHz square wave 2 analog input terminals for voltage or current input 10 User manual V1 0 PROJOY Items Specifications Output terminals 2 digital output terminals one of them can be for high speed pulse output 0 to 100kHz square wave one relay output terminal 2 analog output terminals respectively for optional range 0 to 20mA or 0 to 10V they can be used to set frequency output frequency speed and other physical parameters Overvoltage protection undervoltage protection overcurrent protection overload protection overheat Inverter protection overcurrent stall protection overvoltage stall protection protection losting phase protection optional communication error PID feedback signal abnormalities PG failure and short circuit to ground protection s IGBT temperature Displays current temperature IGBT display E Inverter fan Can beset 3 control Instantaneous Less than 15 milliseconds continuous operation a power down More than 15 milliseconds automatic detection of motor restart speed instantaneous power down restart Speed start tackin The inverter automatically tracks motor speed after it starts method Parameter 2 exc protection Protect inverter PASS by setting administrator i
58. ce Motor b0 08 asynchronous motor leakage inductance b0 09 asynchronous motor mutual inductance b0 10 asynchronous motor no load current Complete motor parameter auto tunning 20 Chapter 4 Commissioning Select control manner Set F0 00 Correctly motor parameters 0 Vector control W O PG Set b0 00 b0 05 2 V F control Y Select appropriate ac deceleration time Select command source Select suitable frequency source t m Set F0 13 F0 14 Set F0 11 Set F0 03 Y Y Motor parameter self learning Select motor start up mode Set b0 27 Set F3 00 Y Select appropriate ac deceleration time Set F0 13 F0 14 Y Select motor stop mode Set F3 07 NO Y Start motor to run observe the Achieve the required control effect phenomenon if abnormal please refer to the troubleshooting YES Firstly confirm that AC input power supply voltage shall be within inverter rated input voltage range before connecting power supply to the inverter Connect AC power supply to the R S and T input terminals of the inverter or solar power to the R T input terminals of the inverter Select the appropriate operation control method 21 Chapter 5 Function parameter 5 1 Menu grouping Note x In running status can not modify the parameter setting e The actual testing data can not b
59. ct DC braking The largerDC braking current the greater braking force If the startup mode is the asynchronous motor pre excitation start the inverter firstly creates magnetic field at the preset pre excitation current after the set pre excitation time is passed and then start running If the pre excitation time is set to 0 the inverter will directly start and neglect pre excitation Start DC braking current pre excitation current is the percentage of inverter rater current Deceleration parking 0 F3 07 Stop mode 0 Free stop 1 F3 08 Initial frequency of 0 00Hz to F019 maximum 0 00Hz sx stop DC braking frequency Waiting time of stop F3 0 j 0 0 9 DC braking 0 0s to 100 0s s Bip Stop DC braking 0 to 100 0 x current F3 11 Stop DC braking time 0 0s to 100 0s 0 0s 5 1 6 F4 V Fcontrol group Cha Factory nge Code Parameter name Setting range range Lim it Line V F 0 F4 00 V F mode setting E 0 Multi point V F 1 37 PROJOY User manual V1 0 Square V F 1 2 square V F 1 4 square V F 1 6 Square V F 1 8 Square V F on AJIN V F complete separeation 10 V F half separeation 11 0 0 Automatic torque boost gain 0 F4 01 Torque boost 0 1 30 0 4 F4 02 Torque boos cutoff 0 00Hz F0 19 Maximum 15 00Hz frequency frequency F4 09 Slip compensation 9 4 o 290 0
60. d w voltage model type Lower limit value during MPPT voltage searching PID Maximum E0 06 voltage deviation 0 0 1000 0V 20 0V value When Photovoltaic mode works by changing parameters can limit given bus voltage and current bus voltage s PID maximum input voltage deviation value 45 PROJOY User manual V1 0 E0 07 Solar wake 0 0 1000 0V Confirmed voltage model type When inverter into hibernation if the bus voltage gradually higher than the set voltage E0 07 the inverter will start automatically E0 08 Solar hibernation 0 0 1000 0V Confirmed voltage model type When inverter is running when the bus voltage is lower than the set voltage E0 08 inverter will go into hibernation Minimum identify E0 09 value of changing 0 65536W 8W power Load drop E0 10 detection interval 0 65535s 6000s time After the load drop fault inverter will restart after this setting time E0 10 5 1 13 E2 PID Function Grou Factor Shan Code Parameter name Setting range y ge range Limit E2 00 PID setting source 0 6 0 E2 01 HP keyboard 9 0 100 0 50 0 setting E2 02 PID feedback source 0 8 0 w E2 03 PID action direction 0 positive 1 negative 0 x E2 04 PID Reverse cutoff 0 65535 1000 frequency E205 PID setting 0 00 FO 19 Max 2 00Hz Jg feedback range frequency E2 06 PID De
61. d metal fine powder 4 Prevent the ingress of oil salt and corrosive gases 5 Avoid vibration The maximum amplitude of less than 5 8m s 0 6g 6 Avoid high temperature and humidity or exposure to rain humidity shall be less than 90 RH non condensing 7 Altitude below 1000 meters 8 Never use in the dangerous environment of flammable combustible explosive gas liquid or solid 8 2 Installation direction and space The inverter shall be installed in the room where it is well ventilated the wall mounted installation shall be adopted and the inverter must keep enough space around adjacent items or baffle wall As shown below figure ele n Air out 2 Eg Air out Air 2 wo to lo 50mm 50mm r more or morel UUUUU 1 HHHHH M fl ETE Airin 5 8 Airin o I oO 8 3 Wiring diagram The wiring of inverter is divided into two parts of main circuit and control circuit User must correctly connect in accordance with the wiring circuit as shown in the following figure Function description of main circuit terminal Function description of main circuit terminal 71 PROJOY User manual V1 0 Terminals Name Description RUI Connect to three phase power Inverter input S L2 supply single phase
62. ds upper or lower frequency VDOI state is ON VDII input terminal state is effective VDII receive user defined fault 1 inverter then alarm fault no 27 and shuts down Example 2 Implement following function Inverter run automatically after power on Realize by following settings set VDI state decided by function code E3 05 set VDII function as FORWARD E3 00 1 set VDI1 terminal state effective decided by function code E3 06 xxx1 set VDII terminal state is effective E3 05 xxx1 set command source as terminal control F0 11 1 set protection selection as no protection F7 22 0 so after inverter powered on and initialization complete VDII detected effective and it match forward running then inverter starts running forwardly AII terminal as a E3 07 function selection Oto 50 0 of DI AI2 terminal as a E3 08 function selection 0to 50 0 of DI Panel 3 09 P otentiometer asa Oto 50 0 function selection of DI Units A E3 10 Effective mode digit 000 selection when AI High level effectively 0 50 User manual V1 0 as DI Low level effectively Tens digit A12 0 to 1 same as units digit Hund Panel potentiometer 0 to reds 1 same as units digit digit 8 PROJOY This group function code is used when using AI as DI when AI used as DI and input voltage of AI is greater than 7V AI terminal status will be high le
63. e measures Check Date Check Check Check to be oM Method Criterion Routine Regular Points Items done Whether display f Visuall As Y Display LED display is abnormal or FEEN zs not Whether Visually 4 4 Cooling Fan abnormal noise and Nono system or vibration audibly exists or not check Temperature Visually 4 Body Surrounding humidity check with As per conditions dust harmful smelling and Section 2 1 gas feeling Wheth P ie i Test R S input outpui s per Input output P E T and U V Voltage voltage standard terminals VW is abnormal or 3 specifications terminals not Whether these phenomenon of loose fastenings Visually overheat check Oeral discharging tighten and No abnormial much dust or clean blocked air duct exist or not N Main circuit Wheth PASS Electrolytic ius Visually appearance is No abnormal capacitance check abnormal or not Wi d TE n Whether they are Visually conducting No abnormal loose or not check bar If bolt Terminals ERRARE Tighten No abnormal are loose or not A means routine or regular check to be needed Do not disassemble or shake the device gratuitously during check and never unplug the connectors otherwise the system will not run or will enter into fault state and lead to component failure or even damage to the main switching device such as IGBT module The different instruments may come to different measu
64. e inverter rated current This parameter can be used to determine the inverter s overload protection capacity and energy efficiency for the motor It is used for the prevention of overheating caused by the self cooled motor at low speed or to correct for protecting the motor when the little change of the motor characteristics may affect the changes of the motor capacity 0 001Q to 65 535Q inverter Asynchronous Wer lt 55kW b0 06 motor stator powe i FESTSANGE 0 0001Q to 6 5535Q inverter power gt 55kW 52 User manual V1 0 PROJOY Asynchronous 0 001Q to 65 535Q inverter b0 07 motor rotor power lt 55kW i resistan 0 00010 to 6 55350 inverter aic power 55kW Asynchronous 0 01mH to 655 35mH inverter b0 08 motor leakage power lt 55kW inductance 0 001mH to 65 535mH inverter power 55kW Asynchronous 0 01mH to 655 35mH inverter 0 0 power lt 55kW i me M 0 001mH to 65 535mH inverter power 55kW Asynchronous 0 01A to b0 03 inverter power 55kW b0 10 i vnu d 0 1A to b0 03 inverter power 55kW b0 06 to b0 10 are the asynchronous motor parameters and generally these parameters will not appear on the motor nameplate and can be obtained by the inverter auto tunning Among which only three parameters of b0 06 to b0 08 can be obtained by Asynchronous Motor Parameters Still Auto Tunning however not only all five parameters but also e
65. e modified si In stop and run statuses both can be changed A Factory parameter no change about it o involved parameter introduction Change limit refers to whether the parameters are adjustable y0 01 is used for parameters protection password Parameter menu can be enter into only after inputting the right password in the function parameter mode or user change parameter mode When the y0 01 set to 0 the password is canceled F group is the basic function parameters E group is to enhance function parameters b group is a function of motor parameters d group is the monitoring function parameters PROPD series inverter some parameters for the factory reservations the serial number is not listed in the function parameter list resulting in some of the parameters in the table number is not connected Please do not attempt to modify the parameters which is not introduced in the manual to avoid errors Parameter name Monitoring function Input terminals group Output terminals group Start and stop control group V F control parameters Keyboard and display Functional Description Monitoring frequency current etc Analog and digital input functions Analog and digital output functions Start and stop control parameters V F control parameters key and display function parameters setting means the factory parameter is related to power or model Please check the de
66. e peripheral faults 2 perform identification for the motor parameters 3 increase the 3 Err 03 Deceleratog 3 the deceleration time is deceleration time overcurrent h too short 4 set the voltage to the 4 the voltage is low normal range 5 suddenly increase the 5 cancel the sudden load load in the process of 6 install braking unit and deceleration brake resistor 6 didn t install braking unit and braking resistor 1 the short circuit or earthing of inverter output happens eliminate peripheral 2 the control mode is faults vector and without 2 perform identification d identification of for the motor parameters onstant spee 4 Err04 P parameters 3 set the voltage to the overcurrent 3 the voltage is low normal range 4 whether suddenly 4 cancel the sudden load increase the load when 5 choose the inverter with running large power level 5 the type selection of inverter is small 1 didn t install braking 1 install braking unit and Acceleration 5 Err 05 unit and braking resistor brake resistor overvoltage 2 the input voltage is 2 set the voltage to the 65 PROJOY User manual V1 0 high 3 there is external force to drag the motor to run when accelerating 4 the acceleration time is too short normal range 3 cancel the external force or install braking resistor 4 increase acceleration time 1 the input voltage is high 2 there is external force to dra
67. eliminate overcurrent fault 23 Err 23 Short circuit to Motor short to ground Replace the cable or ground fault motor Cumulative Ne Clear history information Cumulative running time Pan EE 26 Err26 running time by using initialization arrival fault arrival fault function parameters Input customer fault 1 27 Err 27 Custom fault 1 signal through the multi Reset run function terminal DI 68 User manual V1 0 PROJOY Input customer fault 1 28 Err28 Custom fault2 signal through the multi Reset run function terminal DI i history inf ti Total power on Total power on time Clear BER era ia 29 Err 29 by using initialization time arrival fault reaches the set value fancti nction parameters Confirm whether the load is removed or not or The inverter running the settings for 30 Err 30 Load drop fault current is less than F8 31 parameter F8 31 F8 32 accord with the Actual operating conditions k PID feedback PID feedback is less than Check PID feedbac 31 Err31 loss when signal or set E2 11 to an the set value of E2 11 running fault appropriate value 1 whether the load is too 1 reduce the load and large or the motor stall check the motor and its Quick current EE 40 Err40 occurs mechanical conditions limiting fault 2 power level of inverter 2 choose the inverter is too small with large power level Sick met
68. equest There are many different types of level switches set parameters according to the site requirement The following are examples 1 When the sunlight is weak the frequency inverter turn into hibernation When the sunlight is strong the frequency inverter automatically wake Set E0 07 E0 08 voltage detection value Take 380V voltage level as an example Parameter settings F0 03 8 PV settings E0 00 2 MPPT mode E0 07 530 PV wake voltage E0 08 400 PV dormant voltage If the frequency inverter operate normally and when the sunlight is weak the bus voltage becomes less than 400V then the frequency inverter enters into hibernation When the sunlight is strong the bus voltage is greater than 530V the frequency inverter will automatically start running Set the voltage of PV wake and sleep according to the situation The two values can not be set at too close if setting too close the frequency inverter may start and stop frequently 2 Water level detection mode 1 Switch detection When using the switch detection the test line lead to DI terminal Then the corresponding terminal is set to 8 If used as a feedback input signal DI2 DI2 8 When filled with water DI2 signal is active the frequency inverter will free stop When the water level is below the detection value the corresponding terminal is set to 1 As with DII as the start signal DI1 1 frequency inverter starts automatically 76
69. er and the motor should be within 50 meters if the carrier frequency is greater than 4kHz the distance should be reduced appropriately it is best to lay the wiring inside metal tube When the inverter is additionally equipped with peripherals filter reactor etc firstly measure its insulation resistance to ground by using 1000 volt megger so as to ensure the measured value is no less than 4 megohms X When the inverter need to be started frequently do not directly turn power off only the control terminal or keyboard or RS485 operation command can be used to control the start stop operation in order to avoid damage to the rectifier bridge X Do not connect the AC input power to the inverter output terminals U V W To prevent the occurrence of an accident the ground terminal must be earthed firmly grounding impedance should be less than 10 ohms otherwise the leakage current will occur The specifications on wires used by the main circuit wiring shall comply with the relevant provisions of the National Electrical Code The motor s capacity should be equal to or less than the inverter s capacity 80 Chapter 9 Maintenance and Repair 9 1 Inspection and Maintenance During normal use of the inverter in addition to routine inspections the regular inspections are required e g the overhaul or the specified interval and the interval shall not exceed 6 months please refer to the following table to implement the preventiv
70. f the contactor or switch is terminals equipped between output terminals and motor the inverter should be turned on off without output status otherwise which easily lead to damage to the inverter module PI series inverter is not suitable for use beyond the allowable Use other 8 than the rated operating voltage described in this manual which easily voltage cause damage to the parts inside inverter If necessary please 8 use the corresponding transformer to change voltage N h ever change Never change PROPD series 3 phase inverter to 2 phase one 3 phase input Ge pc des 9 for application Otherwise it will lead to malfunction or to 2 phase damage to the inverter Input The series inverter is equipped with lightning over current Lightning protection device so it has the ability of self protection to 10 surge lightning induction For the area where lightning is frequent protection user should also install the extra protection in the front of the inverter When the inverter is used in areas over 1000m altitude it is High altitude required to reduce frequency because the thin air will 11 and derating s decrease the cooling effect of inverter Please consult our application i t technician for details on the application If the user need to use methods other than the suggested 12 Special use wiring diagram provided in this manual such as common DC bus please consult our technician
71. g is selected as the frequency source The inverter output is blocked at the time the 8 Free stop parking process of motor is not controlled by the inverter This way is same as the principle of free stop described in F3 07 The function makes use of terminal for fault reset It has same function with RESET key on Fault reset RESET T A BESET the keyboard This function can be used to realize remote fault reset The inverter slows down and stops but all operating parameters are memorized Such as 10 Run pause PLC parameters PID parameters This terminal signal disappears the inverter reverts to the previous state of running before parking 28 User manual V1 0 PROJOY When the signal is sent to the inverter inverter trips fault Err 15 and performs troubleshooting according to fault protection action details refer to function code F8 17 External fault normally 11 open input Option 12 5lomitted If more choices needed pleasecontact us Two wire type 1 Two wire type 2 1 F1 10 Terminal command mode 0 Three wire type 1 2 Three wire type 2 3 This parameter defines four different modes to control inverter operation through external terminals 0 Two wire type 1 This mode is the most commonly used two wire mode The forward reverse operation of motor is determined by terminal DIx Dly The terminal function is set as follows
72. g the motor to run 1 set the voltage to the normal range 2 cancel the external force or install braking 6 Err 06 Deceleration when decelerating resistor overvoltage ub E 3 the deceleration time is 3 increase the too short deceleration time 4 didn t install braking 4 install braking unit and unit and braking resistor brake resistor 1 there is external force 1 cancel the external Constant to drag the motor to run force or install braking 7 Err 07 speed when running resistor overvoltage 2 the input voltage is 2 set the voltage to the high normal range Control power The range of input oe qu gn 8 Err 08 E voltage is not within the es failure requirements of specification D M specification 1 the momentary power cut 2 the inverter s input voltage is not within the specification reset fault 3 the bus voltage is not gt adj h i Under voltage normal EIDE UIS you ID 9 Err 09 i i the normal range fault 4 the rectifier bridge and buffer resistance are 3 seek for technical abnormal support 5 the drive panel is abnormal 6 the control panel is abnormal 1 the type selection of 1 choose the inverter 10 Err 10 Inverter overload inverter is small with large power level 2 whether the load is too large or the motor stall 2 reduce the load and check the motor and its 66 User manual V1 0 PROJOY occurs mechanical conditions 11 Err 11 1 power grid
73. ge 100 0 within this time the regulation value of the deviation regulator is maximum frequency E2 16 Proportional gain KP2 0 0 200 0 200 x E2 17 Integration time Ti2 0 01s 10 00s 2 008 x E2 18 Differential time Td2 0 00s 10 000s 0 000s Xx No switch action 0 E2 19 ie Switch via DI terminal 1 0 te Switch automatically according d 2 to the deviation 47 PROJOY User manual V1 0 E220 PD parameter 5 oo 9521 20 0 xx switching deviation 1 E221 PD parameter 79 100 0 80 0 xk switching deviation 2 In some applications one set of PID parameters can not meet the needs of the entire operation so need to adopt different PID parameters under different circumstances This group parameters are used for switching two sets of PID parameters The way of setting of regulator parameters E2 16 E2 18 are similar to the parameters E2 13 E2 15 Two sets of PID parameters can be switched by multi functional digital terminals DI and also can be switched automatically according to the PID deviation When DI multi functional terminal selected multi function terminal function to be set to 43 PID parameter switching terminal select the parameter 1 E2 13 E2 15 when the terminal is invalid select the parameter 2 when the terminal is valid E2 16 E2 18 When automatic switch selected when the deviation absolute value of given value and
74. he inverter output frequency rang is 0Hz to 3200Hz Maz vector control only supports 300Hz If the user 3 power is required to run at 50Hz or more please consider the frequency s endurance of your mechanical devices Vibrations of Inverter output frequency may be encountered mechanical 4 mechanical resonance point of the load device you can set jump device frequency parameter inside inverter to avoid the case The inverter output voltage is PWM wave that contains a 5 Motor heat certain amount of harmonics so the temperature rise noise and noise and vibration of motor show a slight higher than frequency power frequency operation 6 Output side The inverter output is PWM wave if the piezo resistor for with piezo lightning protection or the capacitor for improving power User manual V1 0 PROJOY resistor or capacitor for improving power factor factor is installed in the output side which easily cause the inverter instantaneous over current or even cause damage to the inverter Please do not use Contactor or switch used in If contactor is installed between power supply and inverter the contactor is not allowed to start stop the inverter Necessarily need to use the contactor to control the inverter start stop the interval should not be less than one hour 7 the inverter Frequent charging and discharging may reduce the service input output life of the inverter capacitor I
75. hronous motor parameters still auto tunning The inverter can obtain b0 06 to b0 08 three parameters before performing asynchronous motor parameters still auto tunning 53 PROJOY User manual V1 0 2 asynchronous motor parameters comprehensive auto tunning During asynchronous motor parameters comprehensive auto tunning the inverter firstly performs parameters still auto tunning and then accelerates up to 80 of the rated motor frequency according to the acceleration time F0 13 after a period of time and then decelerates till stop according to the deceleration time F0 14 to end auto tunning Before preforming asynchronous motor parameters comprehensive auto tunning not only motor type and motor nameplate parameters b0 00 to b0 05 must be set properly but also encoder type and encoder pulses b0 29 b0 28 For asynchronous motor parameters comprehensive auto tunning the inverter can obtain b0 06 to b0 10 five motor parameters as well as the AB phase sequence b0 31 of encoder vector control current loop PI parameters F5 12 to F5 15 5 1 16 yO Function code management group Factor Gian Code Parameter name Setting range y ge range Limit No operation 0 Restore the factory parameters not including 1 motor parameters Clear history 2 Restore default parameter values including motor 3 parameters Backup current user parameters Restore user backup 50 parameters 1 0 Clear keyboard stor
76. install Before e Gently carry with care otherwise there is the risk installation Danger of damage to equipment e Please do not use the damaged driver or the frequency inverter with missed pieces otherwise there is the risk of injury e Do not use your hand to touch the control system components otherwise there is the risk of electrostatic damage e Please install the unit on the metal or flame retardant objects away from combustible material Danger Failure to do so may cause a fire e Never twist the mounting bolts of the equipment components especially the bolt with the red mark e Do not let the lead wires or screws fall into the When driver Otherwise which may cause damage to the installing driver An e Keep the driver installed in the place where less ote vibration avoid direct sunlight e When two or more converters are installed in a cabinet please pay attention to the installation location ensure the good heat dissipation effect e Must comply with this manual s guidance any construction shall be performed by a professional electrician otherwise there would be the unexpected risk e A circuit breaker must be set between the inverter and the power supply to separate them otherwise it may cause a fire e Verify if power is a zero energy status before wiring otherwise there is a risk of electric shock When wiring Danger e The inverter shall be grounded correctly according to standard s
77. ion 5 1 2 F0 Group Basic function group Chan Parameter Factory Code Setting range ge name range Limit Vector control W O PG 0 F0 00 Motor control Reserved 1 2 manner V F control 2 0 Vector control without PG Refers to the open loop vector control for high performance control applications typically only one inverter to drive a motor 1 Reserved 2 V F control Suitable for less precision control applications such as fan and pump loads Can be used for an inverter drives several motors occasions Note Vector control mode the drive capacity and the level of motor capacity difference can t be too large the drive motor can power level than the big two or a small one otherwise it may result in degradation of the control performance or the drive system does not work properly 25 PROJOY User manual V1 0 Keyboard set 0 00Hz to F0 19 maximum frequency 50 0 F0 01 Ww frequency 0 OHz Frequency setting by Keyboard FO 01 UP DOWN can be o modified power down without memory Frequency set by Keyboard F0 01 UP DOWN can be 1 modified power down without memory Analog AII setting 2 Frequency F0 03 source master Analog AD2 setting 3 0 setting Panel potentiometer setting 4 High speed pulse setting 5 Multi speed operation setting 6 Simple PLC program setting 7 PV setting g PID control setting Remote communications setting 9
78. ion 0 ON 1 This parameter relates to the security features of the inverter If this parameter is set to 1 and if the running command is active e g the terminal running command is closed before power on when the inverter is in power on the inverter will not respond to the running command you must firstly cancel the running command when the running command is active again the inverter will respond In addition if the parameter is set to 1 and if the running command is active when the inverter resets fault the inverter will not respond to the running command you must firstly cancel the running command in order to eliminate running protection status The parameter is set 1 you can prevent the danger caused by that the inverter unknowingly responds to the running command in the event of power on and fault reset 5 1 9 F8 Group Fault and protection Factor Chan Code Parameter name Setting range y ge range Limit F8 00 Overcurrent stall gain 0 to 100 20 x F8 01 Overcurrent stall 100 to 200 150 ve protection current In the process of the inverter acceleration when the output current exceeds the overcurrent stall protection current the inverter stops ac deceleration process and remains in the current operating frequency and then continues to ac decelerate upon the decline of the output current Overcurrent stall gain is used for adjusting inhibition overcurrent capability duri
79. magnetic interference and anti electromagnetic interference Our existing products adopt the latest international standards IEC EN61800 3 2004 AdjPstable sPeed electrical Power drive systems Part 3 EMC reqPirements and sPecific test methods which is equivalent to the Chinese national standards GB T12668 3 EC EN61800 3 assesses the inverter in terms of electromagnetic interference and anti electronic interference Electromagnetic interference mainly tests the radiation interference conduction interference and harmonics interference on the inverter necessary for civil inverter Anti electromagnetic interference mainly tests the conduction immunity radiation immunity surge immunity EFTB Electrical Fast Transient Burs immunity ESD immunity and power low frequency end immunity the specific test items includes 1 Immunity tests of input voltage sag interrupt and change 2 commutation notch immunity 3 harmonic input immunity 4 input frequency change 5 input voltage unbalance 6 input voltage fluctuation The tests shall be conducted strictly in accordance with the above requirements of IEC EN61800 3 and our products are installed and used according to the guideline of the Section 7 3 and can provide good electromagnetic compatibility in general industry environment 6 3 EMC directive 6 3 1 Harmonic effect The higher harmonics of power supply may damage the inverter Thus at some places where the quality of power system is rela
80. me public earth end otherwise the EMC effect may be greatly affected 2 The filter shall be installed at a place close to the input end of the power supply as much as possible 63 Chapter 7 Troubleshooting PROPD Series can provide effective protection when the equipment performance is played fully The following faults may appear in the process of use please refer to the following table to analyze the possible causes and then trouble shoot In case of damage to the equipment and the reasons that can not solved please contact with your local dealers agents or directly contact with the manufacturers to seek solutions 7 1 Fault alarm and countermeasures PROPD series can provide effective protection when the equipment performance is played fully In case of abnormal fault the protection function will be invoked the inverter will stop output and the faulty relay contact of the inverter will start and the fault code will be displayed on the display panel of the inverter Before consulting the service department user can perform self check analyze the fault cause and find out the solution according to the instructions of this chapter If the fault is caused by the reasons as described in the dotted frame please consult the agents of inverter or directly contact with our company Fault No ue Failure type Possible causes Solutions L the short circuit of 1 eliminate peripheral inverter output happens faults 2 the
81. ncoder phase sequence and current loop PI parameters can be obtained by Asynchronous Motor Parameters Comprehensive Auto Tunning When modifying the motor s rated power b0 01 or rated voltage b0 02 the inverter will automatically calculate and modify the parameter values of b0 06 to b0 10 and restore these 5 parameters to the motor parameters of commonly used standard Y Series If the asynchronous motor parameters auto tunning can not be achieved on site you can enter the corresponding above parameters according to the parameters provided by the manufacturer No operation 0 Asynchronous motor b0 27 Motor parameter parameters still auto tunning 0 k auto tunning Asynchronous motor parameters comprehensive auto 2 tunning If the motor is able to disengage the load in order to obtain a better operating performance you can choose comprehensive auto tunning otherwise you can only select parameters still auto tunning Firstly set the parameter according to load condition and then press RUN key the inverter will perform parameters auto tunning Parameters auto tunning can be performed only under keyboard operation mode is not suitable for terminal operation mode and communication operation mode 0 no operation which prohibits parameters auto tunning 1 asynchronous motor parameters still auto tunning Motor type and motor nameplate parameters b0 00 to b0 05 must be set correctly before performing async
82. nd Din Minimum input value for sames as single digit Hund DI3 terminal active reds status setting 0 to 1 digit sames as single digit Thou DIA terminal active sands status setting 0 to 1 Phils eT 0 00V to F1 14 0 00V xx F1 13 oe setting for 166 90 to 100 0 0 0 x Maximum input value i EE PA el F1 12 100 10 00V sx F1 15 E setting for o6 00 to 100 0 100 0 xk F1 16 Minimum input value for 9 00V to pi 14 0 00V x AIC2 F1 17 setting for 56 00 to 100 0 0 0 F1 18 Maximum input for F1 12 100 10 00V X AIC2 i i F1 19 oe setting for 00 00 to 100 0 100 0 ve Single DII terminal digit activestatus setting High level active 0 Low level active 1 i T DI2 terminal active F135 DI terminal valid mode ens status setting 0 to 1 00000 X i selection 1 digit 31 PROJOY User manual V1 0 digit sames as single digit 25 DIS terminal active thous status setting 0 to 1 ands sames as single digit digit F1 37 DII delay time 0 0s to 3600 0s 0 0s k F1 38 DI2 delay time 0 0s to 3600 0s 0 0s F1 39 DI3 delay time 0 0s to 3600 0s 0 0s x F1 40 Define the input terminal O unrepeatable 0 x repeat 1 repeatable 5 1 4 F2 Group Output terminals group Factory chan Code Parameter name Setting range ge range Limit SPB terminal High speed pulse
83. ng ac deceleration The greater this value the stronger inhibition overcurrent capability Under the premise that the overcurrent does not occur the best is the smaller gain setting For the small inertia load the overcurrent stall gain should be small otherwise which 40 User manual V1 0 PROJOY cause the slower system dynamic response For the big inertia load the overcurrent stall gain should be large otherwise the poor inhibitory effect may cause overcurrent fault When the overcurrent stall gain is set to 0 the overcurrent stall function will bd canceled Prohibit 0 F8 02 Motor overload protection 1 Allow 1 F8 03 iren overload protection 0 20 to 10 00 1 00 F8 02 0 no motor overload protection function there may be the risk of damage to the motor due to overheating it is recommended that the thermal relay is installed between the inverter and the motor F8 02 1 the inverter will determine whether the motor is overloaded or not according to the inverse time curve of motor overload protection Inverse time curve of motor overload protection 220 x F8 03 x rated motor current if this lasts for 1 second the alarm of motor will be prompted overload fault 15096 x F8 03 x rated motor current if this lasts for 60 seconds the alarm of motor overload will be prompted User shall correctly set the value of F8 03 according to the Actual motor overload capacity if the value
84. nition 2 DOWN key setted by parameter F6 19 TJ gt Running key For starting running in the mode of keyboard control status For stopping running in the running status for top Reset E Hose resetting the operation in fault alarm status The y function of the key is subject to F6 00 Enter Key Enter into levels of menu screen confirm settings n query status function parameter increasing or decreasing Keyboard n modified status the function parameter or encoder modified position increasing or decreasing n monitoring status frequency setting increasing or decreasing 3 4 Examples of parameter settings 3 4 1 Instructions on viewing and modifying function code PROPD series inverter s operation pane is three levels menu for parameter setting etc Three levels function parameter group Level 1 function code level 2 function code setting level 3 The operation is as following 17 PROJOY User manual V1 0 Power on aa v N Shutdown parameter display A PRG PRG Change parameter group VA First level menu display PRG ENTER ange function parameter selection VA v Second level menu displa Change function ENTE PRG ENTER parameter value Z WA Third level menu display AS P el re 3 2 P ply status and operatio Nel 3 Description Back to the level 2 menu trom level 3 menu by PRG key or ENTER key
85. o be warranty 3 1 No product nameplate or product nameplate blurred beyond recognition 3 2 Not according to the purchase contract agreement to pay the money 3 3 For installation wiring operation maintenance and other users can not describe the objective reality to the company s technical service center 4 In return replacement repair service shall be returned the company confirmed the attribution of responsibility can be returned or repair 84 Warranty Card Sincerely thank you purchase Projoy products This product has passed the strict quality inspection by Projoy According to the instructions of this warranty card Projoy will be responsible for free maintenance for all hardware failures caused by product quality problem under normal use during the warranty period Product Model Serial Number Warranty period Date of purchase Year Month Day Invoice Number User Name Or company name Address Zip Phone Fax Dealer Name Address Zip Phone Fax Dealer stamp 85 Customer Feedback Form of Projoy Inverter Failure Dear Customer please fill out the form below in details so that we may better serve you Load and control situation Frequency Electrical Rated motor range ower nd poles current under no
86. one must input the motor s parameters in the nameplate accurately before running the inverter PROPD series frequency inverter will match the motor s standard parameters according to its nameplate The vector control is highly depend on motor s parameters The parameters of the controlled motor must be inputted accurately for the good control performance Motor parameter auto tunning steps are as follows Firstly select command source F0 11 0 as the comment channel for operation panel then input the following parameters according to the actual motor parameters selection is based on the current motor Motor Parameters Selection Motor b0 00 motor type selection b0 01 motor rated power 19 PROJOY User manual V1 0 b0 02 motor rated voltage b0 03 motor rated current b0 04 motor rated frequency b0 05 motor rated speed For asynchronous motors If the motor can NOT completely disengage its load please select 1 asynchronous motor parameter static auto tunning for b0 27 and then press the RUN key on the keyboard panel If the motor can completely disengage its load please select 2 asynchronous motor parameter comprehensive auto tunning for b0 27 and then press the RUN key on the keyboard panel the inverter will automatically calculate the motor s following arameters Motor Selection Parameters b0 06 asynchronous motor stator resistance b0 07 asynchronous motor rotor resistan
87. ote that additional installation of reactor is also an effective method to solve leakage current problem The leakage current may increase with the increase of circuit current Therefore when the motor power is higher the corresponding leakage current will be higher too 2 Factors of producing leakage current between the cables and its solutions There is the distributed capacitance between the output cables of the inverter If the current passing lines has higher harmonic it may cause resonance and thus result in leakage current If the thermal relay is used it may generate error action The solution is to reduce the carrier frequency or install output reactor It is recommended that the thermal relay shall not be installed in the front of the motor when using the inverter and that electronic over current protection function of the inverter shall be used instead 6 3 6 Precautions on installing EMC input filter at the input end of power supply 1 Note when using the inverter please follow its rated values strictly Since the filter belongs to Classification I electric appliances the metal enclosure of the filter and the metal ground of the installing cabinet shall be well earthed in a large area and have good conduction continuity otherwise there may be danger of electric shock and the EMC effect may be greatly affected Through the EMC test it is found that the filter ground end and the PE end of the inverter must be connected to the sa
88. ou must disconnect DIn terminal signals Of which DIx Dly and Din are the multi function input terminals of DI1 to DI10 DIx and Dly are for active pulse Din is for active level SB2 mo _ DIx Forward run ST A Three wire operation DIn SB3 control Fri L 4 pty Reverse run L6 COM Digital common terminals Three wire control mode I Of which SB1 Stop button SB2 Forward button SB3 Reverse button 3 Three wire control mode 2 In the mode Din is the enabled terminal the running commands are given by Dix the direction is determined by the state of Dly The terminal function is set as follows Terminals Set value Description DIx 1 Forward run FWD Dly 2 Reverse run REV Din 3 Three wire operation control To run firstly close Din terminal the motor run signal is generated by the ascendant 30 User manual V1 0 PROJOY SB2 7 F d SBI DIx Forwar ry t Din Three wire rj operation DIy Keverse L 6 COM Digital common Three wire control mode 2 Of which edge of DIX the motor direction signal is generated by Dly status To stop you must disconnect DIn terminal signals Of which DIx Dly and Din are the multi function input terminals of DI1 to DI10 DIX is for active are for active level K Command FWD 1 REV SB1 Stop button SB2 Run button pulse DIy a
89. pecifications otherwise there is a danger of electrical shock e Ensure that the distribution line meets the regional safety standards of EMC requirements The diameter of used wire shall refer to the recommendations of this manual Otherwise it may cause an accident e Never directly connect braking resistor to the DC bus P and P terminals Otherwise it may cause User manual V1 0 PROJOY e Encoder must use the shielded wire and the shielding layer must ensure the single ended grounded Before energizing A note e Please confirm whether the input power voltage is same as the inverter rated voltage wiring positions of power input terminals R S T and output terminals U V W are correct or not and note that if there is a short circuit in the peripheral circuit connected to driver if the connected lines are tight otherwise it may cause damage to the driver e Do not need to perform withstand voltage test for any part of the inverter this product has been tested before leaving factory Otherwise it may cause an accident Danger e The inverter s cover plate must be closed before power on Otherwise it may cause an electric shock e Wiring of all external accessories must comply with the guidance of this manual please correctly wiring in accordance with the circuit connection methods described in this manual Otherwise it may cause an accident After energizing Danger e
90. per limit frequency The upper limit frequency can be set from either digital setting F0 21 or analog input channels If the upper limit frequency is set from analog input the set 100 of analog input is relative to F0 21 To avoid the Runaway the setting of upper limit frequency is required when the inverter reaches up to the set upper limit frequency value the inverter will remain operation at the upper limit frequency no further increase F021 Upper limit F0 23 lower limit frequency to 50 0 frequency F0 19 maximum frequency 0Hz Lower limit 0 00Hz to F0 21 upper limit 0 00 F0 23 x frequency frequency Hz When the frequency command is lower than the lower limit frequency set by F0 23 the inverter can shut down and then run at the lower limit frequency or the zero speed the running mode can be set by F7 18 NUM same direction 0 F0 24 Running direction 0 x opposite direction 1 By changing the parameters the motor steering can be achieved without changing the motor wiring which acts as the adjustment of any two lines U V W of the motor to achieve the conversion of the motor rotation direction Note after the parameter is initialized the motor running direction will be restored to its original status When the system debugging is completed please use with caution where the change of motor steering is strictly prohibited 5 1 3 F1 Input terminals group
91. put Outputs ON signal too when the inverter is in the sate of stop When the inverter occurs failure and 38 Alarm output continues to run the inverter alarms output Motor When the motor temperature reaches 39 MENO ae F8 35 motor overheat pre alarm threshold dian pe pre the output ON signal Motor temperature by ee d0 41 view SA Outputs ON signal when the inverter s Current running time 1 40 current running time exceeds the set time by arrival F7 45 F2 06 High speed pulse output 01017 0 function selection F2 07 DAI output function 0 to 17 0 ut selection F2 08 DA2 output function 0 to 17 1 selection High speed pulse output frequency range is 0 01kHz to F2 09 maximum frequency of high speed pulse output F2 09 can be set between 0 01kHz to 100 00kHz Analog output DA1 and DA2 output range is OV to 10V or OmA to 20mA The range of pulse output or analog output and the corresponding calibration relation are shown in the following table Hu Function Description 0 Running frequency 0 to maximum output frequency 1 Set frequency 0 to maximum output frequency 2 Output current 0 to 2 times rated motor current 3 Output torque 0 to 2 times rated motor torque 4 Output power 0 to 2 times rated power 5 Output voltage 0 to 1 2 times rated inverter voltage dug eo pulse 0 01kHz to 100 00kHz 7 All OV to 10V 8 AD OV to 10V or 0 to 20mA 9 Reserve 10
92. rement results when measuring It is recommended that the pointer voltmeter shall be used for measuring 81 PROJOY input voltage the rectifier voltmeter for output voltage the clamp on ammeter for input User manual V1 0 current and output current and the electric wattmeter for power 9 2 Parts for regular replacement To ensure the reliable operation of inverter in addition to regular care and maintenance some internal mechanical wear parts including cooling fan filtering capacitor of main circuit for energy storage and exchange and printed circuit board shall be regularly replaced Use and replacement for such parts shall follow the provisions of below table also depend on the specific application environment load and current status of inverter Name of Parts Standard life time Cooling fan 1 to 3 years Filter capacitor 4 to 5 years Printed circuit board PCB 5 to 8 years 9 3 Storage The following actions must be taken if the inverter is not put into use immediately temporary or long term storage after purchasing X It should be store at a well ventilated site without damp dust or metal dust and the ambient temperature complies with the range stipulated by standard specification Voltage withstand test can not be arbitrarily implemented it will reduce the life of inverter Insulation test can be made with the 500 volt megger before using the insulation resistance shall not be less than 4MQ
93. rmal working FancTextile machineoExtruder Speed Keyboard Terminal Load type M control Pumpolnjection mode PID GHost computer machineoOther load Control V F control Vector control without PG Vector control method with PG Failure phenomenon When power on start run in operation failure occurs accelerate decelerate Failure type Abnormal current Err 02 GErr 03 oErr 04c0Err 40 Abnormal voltage Err05 oErr 06 cErr 07 oErr 09 Other display Err 14 GErr 15 oErr 200Err 21oErr 31 failure Board no display after power on osmoking after power on failure power board relay does not pull in Keyboard button malfunction parameter can not be modified failure imperfect display knob malfunction Device burnt ofan does not work cmain circuit relay or contactor does not failure ull in power resistors burned out Abnormal no output voltage output voltage unbalance motor with large output vibrations amotor power inadequate If your failure is not listed above Please describe in the following Failure description The following fields shall be filled out by maintenance agency Maintenance records Full name of
94. rounded install ferrite magnetic ring with suppressing frequency of 30 to 1 000M HZ at the output side of the inverter and wind it 2 to 3 turns install EMC output filter in more severe conditions 2 When the interfered equipment and the inverter use the same power supply it may cause conduction interference If the above methods cannot remove the interference it shall install EMC filter between the inverter and the power supply refer to Section 6 3 6 for the selection operation 3 The surrounding equipment shall be separately grounded which can avoid the interference caused by the leakage current of the inverter s grounding wire when common grounding mode is adopted 6 3 5 Remedies for leakage current There are two forms of leakage current when using the inverter One is leakage current to the earth and the other is leakage current between the cables 1 Factors of affecting leakage current to the earth and its solutions There are the distributed capacitance between the lead cables and the earth The larger the distributed capacitance the larger the leakage current the distributed 62 User manual V1 0 PROJOY capacitance can be reduced by effectively reducing the distance between the inverter and the motor The higher the carrier frequency the larger the leakage current The leakage current can be redUced by reducing the carrier frequency However the carrier frequency reduced may result in the increase of motor noise Please n
95. s motor This inverter can only be used in those occasions recognized by this company an unapproved use may result in fire electric shock explosion and other accidents If the inverter is used in such equipments e g equipments for lifting persons aviation systems safety equipment etc and its malfunction may result in personal injury or even death In this case please consult the manufacturer for your application User manual V1 0 PROJOY Only the well trained personnel can be allowed to operate this unit please carefully read the instreltions on safety installation operation and maintenance before use The safe operation of this unit depends on proper transport installation operation and maintenance Chapter 2 Standard specifications 2 1 Technical specifications Inverter Rated Rated Adaptive PEN Input voltage output output SAR power kW current A PROPD 2ST400 PROPD 2ST750 1 phase or 3 phase AC 220V PROPD 2ST1500 10 PROPD 2ST2200 recommend PROPD 2ST4000 DC 200V 450V PROPD 2ST5500 PROPD 4T750 PROPD 4T1500 PROPD 4T2200 AC380V PROPD 4T4000 10 PROPD 4T5500 recommend PROPD 4T7500 DC 350V 750V PROPD 4T11K PROPD 4T15K X Remarks The power of solar modules should be up to 1 2 times higher than inverter power 2 2 Standard specifications Items Specifications Voltage and Single phase 220V 10 50 60Hz 5 El fegueneyilevels Three phase 220V 10 50 6
96. ser Parameters parameter display selection 00 display 0 not displays 1 displays Function code Modifiable 0 y0 04 a E Not modifiable 1 0 properties User can set whether function code parameter can be modified or not so as to prevent the risk that function parameters are altered unexpectedly If the function code is set to 0 all function code can be modified while it is set to 1 all function code can only be viewed can not be modified 5 1 17 yl Fault query group Factory Change Code Parameter name Setting range range Limit yl 00 Type of the first fault 0 to 51 e y1 01 Type of the second 54 5 A Type of the third at 1 02 to 51 e E last fault dis Failure type table No Failure type 0 No fault 1 Inverter unit protection 2 Acceleration overcurrent 3 Deceleration overcurrent 4 Constant speed overcurrent 5 Acceleration overvoltage 6 Deceleration overvoltage 7 Constant speed Record the type of the last three faults of inverter 0 for no fault Please refer to the related instructions for the possible causes and solutions for each fault code 56 User manual V1 0 PROJOY overvoltage 8 Control power failure 9 Undervoltage 10 Inverter overload 11 Motor Overload 12 Input phase loss 13 Output phase loss 14
97. so small capacitor is enough 2A The instruction of using resisitor incandescent lights to charge frequency inverters When charge the DC bus capacitor of drive system by connecting power directly then the time should not be less than 60 minutes The operation should be carried on under the condition of normal temperature and without load and moreover should be added resistor in the power supply cycle 380V drive system use 1K 100W resistor When the power is less than 380v 100w incandescent lights is also suitable When using incandescent lights the lights will extinct or become very weak R Voltage invert AC 380V Mem 380V Drive equipment charging circuit example 9 5 Measuring and readings If a general instrument is used to measure current imbalance will exists for the current at the input terminal generally the deviation is not more than 1096 that is normal If the deviation exceeds 3096 please inform the original manufacturer to replace rectifier bridge or check if the deviation of three phase input voltage is above 5V or not If a general multi meter is used to measure three phase output voltage the reading is not accurate due to the interference of carrier frequency and it is only for reference 83 Chapter 10 Warranty The product quality shall comply with the following provisions 1 Warranty terms 1 1 The product from the user the date of purchase
98. tage V L Bus voltage v Reserve C O0utput voltage V L Count L Output current A Length L Output power kW Load speed Output torque PID Setting DI Input status If the above parameters need to be displayed in operation firstly set its position to 1 and then set at F6 01 after converting the binary number to the hexadecimal number F6 03 Stop status display 0000 FFFF 0033 15 14 13 12 11 10 9 18 716 5 312 0 Length L Setting frequency Hz L PIC range Bus voltage V L Load speed L DI input situation PID setting L DO output situation High speed pulse AIl voltage V i cer Hz AT2 voltage V emain L Remain emain Count value If the above parameters need to be displayed on operation firstly set its position to 1 and then set at F6 03 after converting the binary number to the hexadecimal number F6 06 Inverter module 0 0 c to 100 0 e radiator temperature Display the inverter module IGBT temperature The different models of the inverter module vary IGBT overtemperature protection values F6 07 Total run time Oh to 65535h e Display the total run time of inverter When the run time reaches the set time F7 21 the inverter s multi function digital output func
99. tails in the Referenc e page User manual V1 0 PROJOY Parameter name Functional Description Auxiliary function To set Jog frequency avoid and other group auxiliary function parameters Fault and protection To set fault and protection parameters F9 Communication To set MODBUS communication parameter group function FB Control optimization To set parameters of optimizing the E parameters control performance Solar pump special 0 Solar pump special parameter setting PID function group To set Built in PID parameters Virtual DI Virtual Virtual I O parameter setting To set password parameter initialization and parameter group display Fault query Fault message query 5 1 1 d0Group Monitoring function group Function code management Parameter name Functional description lo d0 00 Running frequency Actual output frequency d0 01 Set frequency Actual set frequency Referenc e page O1 N on AR I I I gt I Ke J c O1 w O1 Q Unit 0 01Hz 0 01Hz d0 02 DC bus voltage Detected value for DC bus voltage voltage 23 PROJOY User manual V1 0 Parameter name Functional description 0 04 Effective value for Actual motor 001A current current Lm d0 05 Calculated value for motor 0 1kW E power i 006 06 Reserved EN EE RE ps foom D EE TS is uro ER ETS E d0 11 Panel potentiometer voltage 0 01V N fis ao 12 us hls 13 Reserved a 14 Actu
100. the warranty period of 12 months limited to domestic market 1 2 Export products and non standard products warranty period is 12 months or according to the agreement of warranty execution 1 3 The product from the user the purchase date guarantee to return replacement repair service within one month after the date of shipment 1 4 The product from the user the date of purchase replacement repair within three months after the date of shipment 1 5 The product from the user the purchase date enjoy lifelong compensable service 2 Exceptions clause If belongs to the quality problems caused by following reasons products not within the warranty 2 1 The user is not in accordance with the products manual is used method of operation caused the failure 2 2 Users without permission to repair or alteration caused by product failure 2 3 Users beyond the standard specifications require the use of the inverter caused by product failure 2 4 Users to buy and then fell loss or damage caused by improper handling 2 5 Because the user use environment device caused by aging lead to product failure 2 6 Due to the fault cause of earthquake fire lightning wind or water disaster abnormal voltage irresistible natural disasters 2 7 Damaged during shipping Note the transport mode specified by the customer the company to assist to handle cargo transfer procedures 3 The following conditions manufacturers have the right not t
101. tion 12 outputs ON signal F6 08 Total power on time 0 to 65535 h e Display the total power on time of inverter When the total power on time reaches the set power on time F7 21 inverter s multi function digital output function 24 output ON signal F6 10 Part number Inverter product number Software version Control panel software version F6 11 e number number Keyboard type 0 keypad single row LED F6 15 selection 1 big keyboard double row LED 0 ig 1Kbit 100bit 10bit 1bit F6 16 Monitor selection 2 parameter parameter d0 04 e number series number 39 PROJOY User manual V1 0 The parameter of motor selection2 can be showed in the bottom of double LED or LCD F6 17 Power correction 6 00 10 00 100 coefficient Frequency converter with motor running the display output power d0 05 is different with the actual output power through the parameters adjust the converter display power and the actual output power corresponding relation 5 1 8 F7 Group Auxiliary function group Factor oran Code Parameter name Setting range y ge range Limit F7 00 Jog running 0 00Hz to F0 19 maximum 2 00Hz vs frequency frequency F7 01 Jog acceleration time 0 0s to 6500 0s 20 0s F7 02 Jog deceleration time 0 0s to 6500 0s 20 0s F7 17 Reverse rotation Allow 0 0 control Prohibit 1 OFF 0 F7 22 Start protect
102. tion of inverter If the drive is in the state of fast current limiting for a long period of time the inverter may be damaged by overheating and others this case is not allowed so the inverter will alarm fault with fault ID Err 40 it indicates that the inverter exists overload and needs to be shut down FB 01 Undervoltage point 50 0 to 140 0 100 0 setting Used to set the voltage value of inverter undervoltage fault with fault ID Err 09 the different voltage levels of inverter 100 0 corresponds to the different voltage points are as follows Single phase 220V or three phase 220V 200V three phase 380V 350V Three phase 480V 450V three phase 690V 650V FB 02 Overvoltage point 599 ov to 2500 0V 810V setting Deadband No compensation 0 FB 03 compensation Compensation mode 1 1 1 mode selection Compensation mode 2 2 FB 04 Current detection 0 to 100 5 she compensation 5 1 12 E0 Solar water pump special group 44 User manual V1 0 PROJOY Factor Cien Code Parameter name Setting range y ge range Limit Sol Control mode invalid 0 0 00 OT operation CVT Mode 1 0 mode selection MPPT Mode 2 0 PV invalid Photovoltaic effect does not work when normal operation model need to set E0 00 0 1 CVT mode Bus voltage is constant as a given value F0 03 is set to 8 photovoltaic mode bus voltage is given as E0 01
103. tively poor it is recommended to install AC input reactor 6 3 2 Electromagnetic interference and installation precautions There are two kinds of electromagnetic interferences one is the interference from electromagnetic noise in the surrounding environment to the inverter and the other is the interference from the inverter to the surrounding equipments Installation Precautions 1 The earth wires of the Inverter and other electric products ca shall be well grounded 2 The power cables of the inverter power input and output and the cable of weak current signal e g control line shall not be arranged in parallel but in vertical if possible 3 Itis recommended that the output power cables of the inverter shall use shield cables or steel pipe shielded cables and that the shielding layer shall be grounded reliably the lead cables of the equipment suffering interferences shall use twisted pair shielded control cables and the shielding layer shall be grounded reliably 4 When the length of motor cable is longer than 30 meters it needs to install output filter or reactor 61 PROJOY User manual V1 0 6 3 3 Remedies for the interferences from the surrounding electromagnetic equipments to the inverter Generally the electromagnetic interference on the inverter is generated by plenty of relays contactors and electromagnetic brakes installed near the inverter When the inverter has error action due to the interferences the following meas
104. unction code F2 00 SPB SPB COM High speed terminal output mode selection pulse output As a high speed pulse output the highest frequency up to 100kHz T A1 N Il Pi Contactor drive capacity normally closed T C1 open terminals Relay N Il contact 5A AC 250V normally open output T B1 di contact 3 A AC 250V 1A DC 30V COSo closed T Cl 0 4 terminals 485 card Auxiliar J12 interface 26 pin terminal y P interface J13 Gicard 12 pin terminal interface 73 PROJOY User manual V1 0 Wiring diagram lt 7 5kW Solar panels DC Reactor Brake Resistor re Optional a MOCB 9 9 P P RB Moter bre R L1 Urt S L2 V T2 Solar Pump Inverter nv T L3 W T3 Earthing Power a g over o Moin circuit O 1 Earthing Motor Control circuit DI1 Input digital terminal OTTO DH DI Inpuldigitaltemimal lt LT c i m 2 PLC DI3 Input digital terminal Fg pia d 1 COM DI4 Input digital terminal bg big 2 3Shorted Drain Output Default I 1 2Shorted Source Output DIS Inputdigital terminal DIS High speed Pulse Input DI Input digital terminal Jf PG NE DI6 992292 Communic ni a Interface Loa ue it L EPE 10 s2 asas 10s 2 J12 La st fo tpr100 485 Default Communication Interface B PT100 ET 2 II bi LI EE
105. ures is recommended 1 Install surge suppressor on the devices generating interference 2 Install filter at the input end of the inverter please refer to Section 6 3 6 for the specific operations 3 The lead cables of the control signal cable of the inverter and the detection line shall use the shielded cable and the shielding layer shall be grounded reliably 6 3 4 Remedies for the interferences from the inverter to the surrounding electromagnetic equipments These noise interferences are classified into two types one is the radiation interference of the inverter and the other is the conduction interference of the inverter These two types of interferences cause that the surrounding electric equipments suffer from the affect of electromagnetic or electrostatic induction Further the surrounding equipment produces error action For different interferences please refer to the following remedies 1 Generally the meters receivers and sensors for measuring and testing have more weak signals If they are placed nearby the inverter or together with the inverter in the same control cabinet they easily suffer from interference and thus generate error actions It is recommended to handle with the following methods away from the interference source as far as possible do not arrange the signal cables with the power cables in parallel and never bind them together both the signal cables and power cables shall use shielded cables and shall be well g
106. urrent value 0 0 to 100 0 Jogging control Jog Frequency Range 0 00Hz to max frequency Jog Ac deceleration time 0 0s to 6500 0s Multi speed operation Achieve up to 16 speed operation through the control terminal Built in PID Easy to realize closed loop control system for the process control Automatic voltage regulation AVR Automatically maintain a constant output voltage when the voltage of electricity grid changes The specific function of solar pump inveter the biggest Optical power tracking Light weak auto sleep Light intensity automatically wake up High water level automatic stop Low water level automatic run under load protection Peronalization function Self inspection of peripherals after power on After powering on peripheral equipment will perform safety testing such as ground short circuit etc Common DC bus function Multiple inverters can use a common DC bus Quick current limiting The current limiting algorithm is used to reduce the inverter overcurrent probability and improve whole unit anti interference capability PROJOY User manual V1 0 Items Specifications Timing control Timing control function time setting range 0m to 6500m Running Runni TES Keyboard terminal communication method 10 frequency settings available including adjustable DC 0 Frequency to 10V
107. ve digit To define the output logic for output terminal SPA SPB relay 1 relay 2 and expansion DO 0 positive logic It is active status when the digital output terminal is connected with the corresponding common terminal inactive when disconnected 1 anti logic It is inactive status when the digital output terminal is connected with the corresponding common terminal active when disconnected 5 1 5 F3 Group Start and stop control group Factor Can Code Parameter name Setting range y ge range Limit 36 User manual V1 0 PROJOY Direct startup F3 00 Start up mode Speed tracking restart 1 0 Pre excitation start AC 2 asynchronous motor F3 03 Start frequency 0 00Hz to 10 00Hz 0 00Hz pig Hold time for start O Os to 100 0s 0 0s x frequency F3 05 DCpre excitation 0 to 100 0 current F3 06 DCpre excitation 0 0s to 100 0s 0 0s time Start DC braking generally is used to restart the motor after it stops Pre excitation is used to create magnetic field for asynchronous motor and then start the motor to improve the response speed Start DC braking is only active when the start mode is the direct startup The inverter firstly performs DC braking at the set value of DC braking current after the start DC braking time is passed and then start running If the DC braking time is set to 0 the inverter will directly start and negle
108. vel when input voltage of AI is lower than 3V AI terminal status will be low level For between 3V 7V hysteresis E3 10 is to determine that when the AI is used as DI AI is made valid by means of the high level state or the low level of valid states As for AI as DI feature set same as the ordinary DI Settings please refer to the F1 group setting instructions related DI With the physical internal Virtual VDOI sub DIS 0 E3 11 output function 0 selection See F2 group p hysical DO 1to40 output option i With the physical internal Virtual VDO2 sub DIx 0 E3 12 output function 0 selection Mods group p hysical DO 1to40 output option With the physical internal Virtual VDO3 sub DIx 0 E3 13 output function 0 selection See F2 group p hysical DO 1to40 output option With the physical internal Virtual VDO4 sub DIx 0 E3 14 output function 0 selection SES I2 group p hysical DO 1to40 output option With the physical internal Virtual VDOS sub DIx 0 E3 15 output function 0 selection odia group B eae 1to40 output option Units digit VPO Positive logic 0 Negative logic 1 Tens VDO output digit VDO2 0 to 1 same as above E3 16 terminal effective Hund 00000 status selection reds VDO3 0 to 1 same as above digit Thou sands VDO4 0 to 1 same as above digit Tens VDO5 0 to l same as 51 PROJOY User manual V1 0
109. viation limit 0 0 100 0 0 0 Ww When the deviation of PID given value and feedback value is smaller than E2 06 PID will stop regulating action so the output frequency keeps steady it is quite effective for some close loop control applications E2 07 PID Differential limit 0 0096 100 0096 0 10 Ww Differentiation is a very sensitive role in PID regulator it is easy to cause the system oscillation therefore generally need to limit it in a small range E2 07 is used to set the range of PID differential outputs PID reference change time 0 00s 650 00s 0 00s E2 08 PID reference change time is the time of PID given value changes from 0 0 to 46 User manual V1 0 PROJOY 100 0 When PID given value changes PID given value changes lineal in accordance with a given reference change time reduce the adverse effects to the system E2 09 AL feedback filter 9 00s 60 00s 0 00s x E2 10 PID output filter time 0 00s 60 00s 0 00s E2 09 is for PID feedback value filtering the filter help to reduce the impact on the amount of feedback is interference but the process will bring the affect the responding performance of closed loop system E2 10 is for PID output frequency filtering the filter will diminish the mutation of output frequency but the same process will bring the performance of closed loop system response decreased
110. voltage is too low 2 whether the setting motor protection check the power grid voltage 2 correctly set this Motor Overload parameters F8 03 is parameter appropriate onor 3 reduce the load and 3 whether the load is too check the motor and its large or the motor stall mechanical conditions occurs 1 the drive panel is 1 replace the drive the abnormal power board or contactor 2 the lightning protection 2 seek for technical 12 Err 12 Input phase loss plate is abnormal support u 3 the main control panel 3 check and eliminate is abnormal the existing problems in 4 the three phase input the peripheral line power is not normal the lead wires from the inverter to the motor is me 1 eliminate peripheral not normal faults 2 the inverter s three h 2 check the motor s Output phase PT ompuri three phase winding is 13 Err 13 put p unbalanced when the P 8 loss i normal or not and motor 1s running E a li eliminate faults the drive panel is P 3 seek for technical abnormal support 4 the module is abnormal 1 the air duct is blocked L clean up the air duct 2 the fan is damaged 2 replace the fan 3 the ambient i Module temperature is too high 3 decrease the ambient 14 Err l4 heati P temperature overheating 4 the module thermistor 4 replace the thermistor is damaged 5 replace the inverter 5 the inverter module is module damaged E Input external fault signal 15
111. y level Please refer to the instructions of function detection FDT2 output code F7 26 F7 27 26 Frequency 1 reaches Please refer to the instructions of function output value code F7 28 F7 29 27 Frequency 2 reaches Please refer to the instructions of function output value code F7 30 F7 31 28 Current 1 reaches Please refer to the instructions of function output value code F7 36 F7 37 29 Current 2 reaches Please refer to the instructions of function output value code F7 38 F7 39 Timer reaches output Outputs ON signal When timer F 7 42 is 30 active and after the inverter s current running value time reaches the set time Outputs ON signal when the analog input _ ATII value is greater than F7 51 AII input i E exceed lti protection sd limit or less than F 75 0 All input protection limit Outputs ON signal when the inverter is in Load droping the load drop status Outputs ON signal when the inverter is in 33 Reverse running the reverse running status 34 Zero current Stans i ed pis 2 the instructions of function Outputs ON signal when the inverter 35 aa Hepes module radiator temperature F6 06 reaches the set temperature F7 40 36 Software current Please refer to the instructions of function 34 ser manual V1 0 overrun PROJOY code F7 34 F7 35 Lower limit frequency Outputs ON signal when the operating frequency reaches the lower limit frequency 9 arrival stop with out
Download Pdf Manuals
Related Search