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Introduction - IMB Vadkert Kft.
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1. Lm pm m 740 700 _ 600 490 860 800 650 540 75 98 8 N N 4 2 N c 19 deuo HN c 19 deuo Chapter 2 Standard specification 2 2 Standard specification Single phase 200 240V 50 60Hz three phase 200 240V 50 60Hz three phase 380 415V 50 60Hz three phase 440 Level of voltage frequency 460V 50 60Hz three phase 575V 50 60Hz three phase 660V 50 60Hz three phase 1140V 50 60Hz Allowable fluctuation Voltage 15 frequency 5 ee AC frequency vector inverterswith vector control based y the high performance of DSP Ou sus G P Z S T M type 0 00 400 0Hz P 4 The highest frequency can set among 10 00 400 0Hz V F control vector control for flux with open loop 1 Control method vector control for flux with open loop 2 vector control for PG Lifting function Torque control for low frequency 1Hz and great output of automatic torque in the control method of V F Setting method for subsections of accelerating and accelerating ang decelerating S curve the longest operation time 9600 h decelerating Operation for speed program of 16 sections the longest Control on programme operation time 888 88 h operation Figure 0 01Hz below300Hz 0 1Hz above300Hz Image resolution of simulation 0 05Hz 60Hz frequency setting Frequency accuracy Common difference of speed contr
2. 3l 3 6 Wiring preca utions uu t 32 3 Redundant SS 9 CUI OE CA 33 Chapter 4 Operation keyboard 34 4 1 Introduction of operation keyboard 34 4 2 Introduction for indicator light of the keyboard 34 4 3 Key description of operation 1 36 JE olas oues act Deo T Rr 37 First level menu Style a ul L re ae Sia Usya D 4 4 2 Form of secondary menu 38 4 4 3 Form of three level menu 38 4 4 4 Common display symbol of LED 38 4 4 5 LED displays corresponding sign 39 4 5 Password operation and 39 4 6 Display of operation panel and key 40 4 6 1 Classification of display state display state of operation panel can lS divided into 9 types See pe aod TI 40 4 6 2 Display status of operation process 41 4 7 Operation examples 42 4 7 1 Recover factory parameter
3. sep a SE jJ 140 Chapter 10 Option 10 11 Input reactor 10 11 1 Input reactor 380V MEI Rated Pressure inductance Installation KW eurrent A weight drop V mH dimension mcm TTC IM E I pep fs Lo ep pep pep o gt e w pepe gt ppm o9 w e T 1250 Pim E 2006 00 oo 0011 rS 141 1 1deuo Chapter 10 Option 10 12 utput reactor m 10 12 1 Output reactor 380V Rated Net DU drop pois KW current A weight kg a b d mm s gt gt ow p pe e gt ow oe pw 9 e sc pom gt s oo e 2 pw lt ow om poem mpm 142 ge e m Chapter 10 Option 10 13 C reactor dues V E uw mH LEON gt quu s 2 u wmo qm e u wmo e quj s d 2 mms
4. COPRPRSEFEPRSESSE O O Simple PLC sector 0 to 7 acceleration amp deceleration 0 time selection 113 9 191deuo ag Chapter 6 inverter of function parameter Simple PLC segment 8 15 Acceleration amp 0 deceleration time selection 9 10 T3 2 15 14 After the user selects the corresponding segment of acceleration deceleration time the combination of 16 bit binary number to decimal conversion set Into the corresponding function code can be 114 Chapter6 Inverter of function parameter 0 From the first paragraph starts running From the first paragraph starts running running down by the stop command failure or brownout causes and then start running after starting from the first paragraph 1 From the moment the stage interrupt frequency continues to run run shutdown or failure caused a stop command the drive automatically record the current phase of the running time re start automatically after entering the stage to the stage to continue the remaining defined frequency time of operation as shown below Si SE is Diagram 6 23 Simple PLC start mode 1 2 Operating frequency from the interrupt time continues to run 0 Second 1 Minute Define the operational phase of time units PLC These
5. 2014 100 0 Chart 6 13 corresponding relationship between simulated presetting presetting capacity Corresponding with setting frequency PID presetting and PID feedback Filtering time of All input adjust sensitivity of analog input proper increasing of this value enhance the ability of analog on anti interference but it will reduce the sensitivity of the analog input 100 06 14 Low limiting value of AD 0 00V 10 00V 0 00V 101 Pn O T lie 100 0 100 0 0 0 corresponds with the setting P06 16 Upper limiting value of 0 00V 10 00V 10 00V 103 17 UPPerlimits of AD 100 0 100 0 100 0 corresponds with the setting 93 E 9 191deuo N Chapter6 Inverter of function parameter Describing LED OLED Keyboard display Setting range Factory setting P0618 18 Filtering time of AI2 input time Filtering time of AI2 input input 000 100 _ 00s 10 00s 10s P06 19 for simulated input 1 0 00 300 00 100 00 P06 20 for simulated input 2 0 00 300 00 100 00 EN function Main and auxiliary frequency setting control unrestricted Main frequency setting 0 auxiliary frequency off working Function of AD is similar to the setting method of All Analog AD can support the input with 0 10V or 0 20mA when AI2 chooses the input with 0 mA voltage corresponding with 20mA is 10V There are 5 below multifunctional input te
6. Chapter6 Inverter of function parameter Describing LED OLED Use increasing via clockwise rotation of encoder decreasing via counterclockwise rotation of encoder and terminal to adjust the change rate at the setting frequency 9 P06 09 Low limiting value of 0 00V 10 00V 0 00V lt gt Low limits P06 10 corresponds with the 100 0 100 0 0 0 setting mo 11 P0611 Upper Upper limiting value of ATI Upper limiting value of ATI of An oov 100N 000 1000 000 00V 10 00V 00V 5 poega AN 100 0 100 0 100 0 7 with the P0613 13 Filtering time of ATI input time Filtering time of ATI input input 05 1000 00s 10 00s 10s rl above function defines the corresponding relationship between simulated input voltage and simulated input extra part will be calculated based on maximum input or minim input when the simulated voltage exceeds the scope of maximum input or minimal input When the simulated input is current input what voltage corresponds with 0mA 20mA 15 0V 10V Nominal value corresponded by 100 096 set by simulation at different application occasions will different please see the inverter of every application part for the detail The following chart explains the conditions of several suppositions According to the set Frequency PID given PID feedback 100 0 0 V 1 OV Al
7. P09 17 Detection value 0 00 P01 07 maximum 50 00Hz level of FDT frequency Times for automatic reset of the fault when AC frequency vector inverter chooses automatic reset of the fault which can be used to set the times of automatic reset When continuous reset of AC frequency vector inverter exceeds this value then the fault of AC frequency vector inverter should await the opportune moment and require manual intervention Setting for interval of automatic reset of the fault select the interval from the occurrence of the fault to the automatic reset Detection value for hysteresis of FDT 0 0 100 0 level When the output frequency exceeds certain setting frequency PDT level indicator signal of the output and output frequency reduces to a lower frequency than PDT level detection value for hysteresis of PDT level PDT and see chart5 16 for concrete wave form 0 0 100 0 maximum detection degree frequency 9 191deuo E 104 Chapter 6 inverter of function parameter Describing LED OLED Keyboard display Setting range Factory setting When the output frequency of AC frequency vector inverter outputs pulse signal within the range of plus minus detection width of the setting frequency and see the following charts for detail 1 Output frequency FDT level FDT lag Time t Time t Chart6 17 Sketch map of FDT level Output frequency The detection width Set frequency
8. 141 10 11 1 Input reactor 380V 141 Od OTOl Qu aura de SO ooo EROS a qu 142 10 1951 Output t SOY Ladies um e a Td 142 OL eats E pop A ES a ee OS UE eoa oui qs 143 10 14 Specification of breaker cable and contactor 144 Chapter 11 Quality 146 Attachment 185485 communication protocol 148 L Tntroductiorn for nter dta e d p S S uu 148 2s led da Asu lok CR d 148 Parameter address and parameter description 154 parameter Maven marae W a 154 DUPLO Pa e mus Be au E IO anil kama pa hg al SUEDE 158 Chapter 1 Inspection and Safety Precautions Chapter 1 Inspection and Safety Precautions All inverters of Shenzhen Powtech Co Ltd are given strict test and quality inspection before leaving factory Please firstly check whether the product package 1s damaged due to transportation carelessness after your purchasing and whether the specification and type is consistent with the machine you ordered Please contact with dealers of our company in various places or di
9. ime t Time t Chart 6 18 Sketch map for amplitude of frequency reaching the detection 115 0 140 096 voltage of standard generatrix 380V 130 0 Voltage of brake valve series 115 0 140 0 voltage of standard generatrix 220V 120 0 series This function code is the voltage of initial generatrix for setting dynamic braking proper adjusting for this value can effectively make brake for the load 105 9 191deuo N Chapter6 Inverter of function parameter Describing LED OLED 0 1 999 9 Display coefficient of machinery rotate speed 160 P09 21 rotate speed 120 operation 100 0 frequency P09 21 pole number machinery rotate speed 120 operation frequency P09 21 pole number this function code is used for correcting the error displayed by ruling of rotate speed and it has no effect on actual rotate speed Decrease loading 161 P09 22 frequency at low speed 0 1 1 P09 22 0Decrease loading frequency at low speed function off Decrease loading frequency at low speed function on 6 2 11 P10 group PID control group Describing LED OLED 0 keyboard presetting P10 01 1 Presetting for simulated channel All 169 P10 00 Selection for given 2 Presetting for simulated power supply of PID channel AI2 3 Presetting of remote communication 4 Presetting of multistep speed 0 keyboard presetting P10 01 1 Presetting for simulated channel 2 Presetting for simulated channel AI2
10. vibration of stabilized system what is worse it may have speed offset Parameter for speed ring PI is closed with the inertia of the system and it should be adjusted based on default PI aiming at different load features to meet the requirements of difference places P04 06 Compensation factor of VC 50 200 100 EN slippage Compensation factor of slippage 1s used for adjusting slippage frequency of the vector control and improving the accuracy for the speed control of the system proper adjusting of this parameter can effectively restrain the offset of the speed 0 0 200 0 rated Setting for the upper limit of current of AC 150 094 the torque frequency vector inverter Set 100 0 to correspond with the rated output current of AC frequency vector inverter 6 2 6 P05 group V F control parameter 85 9 191deuo N Chapter 6 inverter of function parameter Describing LED OLED Setting range Factory Keyboard display setting 0 V F curve of line V F curve of multipoints 2 1 V F curve for drooping torque of 2 power 3 1 V F curve for drooping torque of 4 power 4 1 V F curve for drooping torque of 6 power 5 1 V F curve for drooping torque of 8 power 6 2 V F curve for drooping torque of0 power Setting of V F curve When 5 00 0 V F curve of line is suitable for the load of common constant torque When PO5 00 1 curve defined by the user is applied to the load for constant torque of subsec
11. 1 Protocol content This serial communication protocol defines the information content and using format for the transmission of serial communication including polling format or broadcast of host machine coding method of host machine the content includes function code of required activity data transmission and error check The response of the subordinate machine also adopts the same structure and the content includes activity confirmation data return and error check If the subordinate machine has mistake when it receives information or it can t accomplish the activity required by host machine it will organize a fault information to feed it back to host machine as a response 2 Application mode AC frequency vector inverter connects with PC PLC control network with a host machine many subordinate machines of RS232 RS485 bus 3 Bus structure Interface mode RS232 JP8 2 3 short circuit RS485 8 1 2 short circuit hardware interface 2 transmission mode Asynchronous series and half duplex transmission mode During the same period either the host machine or the subordinate machine sends data and the other can only receive data During the communication process of asynchronous series either the host machine or the subordinate machine sends one frame one after another by means of the message format 3 Topological structure System with one host machine and many subordinate machines Setting scope for the address o
12. JP6E200 Keyboard control panel JP6C200 Keyboard control panel Chart 4 1 Display of operation panel 4 2 Introduction for indicator light of the keyboard Sign of indicator light Unit display Implication bright the AC frequency vector inverters is at a normal operation state Off the AC Status light RUN TUNE Running lights inverters stops operation flicker AC frequency vector inverters is at self learning state of parameter Bright reversal state Off forward state of FWD REV Forward running lights AC frequency vector inverters 34 Chapter 4 Operation keyboard Indicator light of keyboard terminal operation and control of remote Lights of communication MODE communication Bright control state control of remote operation Off control state of keyboard operation Flicker operation state of the terminal Current indicator light Bright current E display parameter is Green current parameter 15 voltage Bright current display parameter is Green percentage Bright flicker current display parameter is Green user defined parameter Bright current display parameter is Green temperature Bright current E display parameter is Green RPM parameter has no unit Bright current display parameter is operation frequency Hz Frequency light H Flicker curent Green display parameter is setting frequency indictor light of unit Hz A Percentage indictor light combination pa indic
13. acceleration E oU1 8 Overvoltage of deceleration E oU2 9 Overvoltage of constant speed E oU3 10 undervoltage fault of generatrix E LU 11 Motor overload E oL1 12 Overload of inverter E oL2 13 Default phase at output side E PHI 14 Default phase at input side 15 Overheating of rectification module CE oH 12 16 Fault for overheating of contravariant module 2 17 External fault E SET 18 Communication fault E CE 19 Detection fault of current E ItE 20 fault for self study of motor E tE 21 operation fault of EEPROM 22 Fault for break line of PID feedback E PId 23 Brake unit fault E bCE 24 Reservation END 61 9 191deuo Chapter6 Inverter of function parameter Describing LED OLED Reference 118 P07 10 Operation frequency of 0 00Hz current fault tput current of current P07 11 Output current of curre fault 120 P07 12 Busbar voltage of current fault 121 P07 13 State for input terminal of current fault 199 P07 14 State for output terminal of current fault 6 1 10 POS group output terminal group No Describing LED OLED Keyboard display PAARE setting Output choice for 0 No output 123 P08 00 numerical magnitude of 1 Motor is at the state of SPA forward rotation 2 Motor 15 at state of Output choice for reverse rotation P08 01 numerical magnitude of 3 Fault output SPB 4
14. 1 ground lead of AC frequency vector inverter and other electrical products should be connected with the ground well 2 Input and output power line for the motive power of AC frequency vector inverter and signal line of weak current like control wiring should not be laid horizontally and lay them vertically if necessary 3 power line for the output of AC frequency vector inverter is suggested to use shield cable or shielding power line of steel tube and the shielding layer should be connected with ground reliably leading wire for equipment disturbed is suggested to use shielding control line with twisted pair and the shielding layer should be connected with ground reliably 4 It is required to install output filter or electric reactor for the motor whose cable length is more than 100m 7 3 3 Solution for the interference of surrounding electromagnetic equipment on AC frequency vector inverter Generally speaking the reason for causing electromagnetic effect on AC frequency vector inverter is there is a lot of relays contactors or electromagnetic brakes surrounding AC frequency vector inverter the following methods is suggested to use when AC frequency vector inverter is disturbed by them and operates wrongly 1 install surge suppression on the device giving interference 2 Install filter on the input terminal of AC frequency vector inverter please refer to 7 3 6 for operation detail 3 Use shielding cable for control signal lin
15. 254 Power Dimension Installation dimension Type Seat No oy te 2N4 640 370 330 250 610 212 5 255 Power Dimension Installation dimension Seat No iy 2 5 766 500 345 300 748 014 18 Chapter 2 Standard specification 2N6 Power Dimension Installation dimension Seat No ey 132 160 110 132 2N6 786 500 353 300 748 014 a 2N7 hanging Power TET maen Seat No 185 250 160 220 1000 M 132 160 110 132 Chart 2 5 2N7 Dimension of cabinet type 19 19 deuo c 19 deuo Chapter 2 Standard specification b 2N7 cabinet type Power Dimension _ Installation dimension Type Seat No t tese ese eem qoe 9 185 250 160 220 2N7 1300 400 370 935 Q14 132 160 110 132 8 a 2N8 hanging Power Dimension Installation dimension Seat No e e 280 315 250 280 2N8 1160 650 400 370 110 014 220 250 200 220 b type Dimension Installation dimension Seat No 280 315 250 280 2N8 1460 650 400 370 110 014 220 250 200 220 239 Power Dimension Installation dimension Type Seat No oY 350 500 315 400 2N9 1650 830 480 280 350 220 315 2 3 4 Dimension figure of keyboard 20 Chapter 2 St
16. 42 et p au 42 de Password Se u etate 43 4 7 4 Password authentication 43 RASS WOLU A asocia 44 4 8 Setting method of 44 Chapter 5 Commissioning dee AE de ae Eas Dada Beate en ace ad dx as 45 Chapter 6 inverter of function parameter 47 6 1 List of function parameter dub pde HE ed RORIS 47 bl Menu ero es qunqur e la 48 6 1 2 POO group Monitoring function group 49 peus POT Bast COL OUD yQ usu EC EQ RS ED 50 6 1 4 P02 group Control group for the stop and start 52 6 1 5 03 group Group of electric machine parameter 53 6 1 6 P04 group Vector control parameter 54 POS group control parameter v ilr eee he eee ees 55 6 1 8 P06 group Input terminal group 56 6 1 10 PO8 group output terminal group 62 6 1 11 P09 group Enhancement group 64 6 1 12 P10 group control group of PID 65 6 1 14 Pl2group commun
17. Keyboard display ED e e N Output power of the Percentage for actual output 7 P00 06 AC frequency vector power of the AC frequency Inverters vector Inverters P00 07 Output torque of the Actual output torque of the N m Inverter Inverter Percentage for the given value of P00 08 Given value of PID PID adjusts the operation Percentage for feedback 00 09 Feedback value of PID value of PID adjusts the m m 4 operation P P00 10 State of input terminal State of input terminal P00 11 State of output terminal State of output terminal P00 12 Value of analog All Value of analog All V P00 13 Value of analog AI2 Value of analog AD V Current section of 15 P00 14 Current section of multiple speed multiple speed 4 10 11 12 13 14 J N 4 N P00 15 Temperature of rectifier 0 100 0 C module 1 16 Temperature of 0 100 0 C e contravariant module 19 P00 18 Total operation time of 0 65535h this machine J N 4 N 9 191deuo D Notice only IGBT module in the seventh unit in P00 16 group is effective 6 1 3 P01 group Basic group Prescribing Reference No Code LED OLED Setting range Keyboard display 0 V F control 1 vector control for open loop flux 1 20 P01 00 Control mode 2 vector control for open loop flux 2 3 closed loop vector control for
18. Or it may cause personal injury or equipment damage e Anything should be avoided to drop into the equipment during the operation process of the inverter Or it may cause equipment damage e Don t use contractor switching to control the start and stop of the actuator Or it may cause equipment damage e Please don t repair and maintain the equipment with electricity Or it will have electric shock hazard e Maintenance and preparing can be made to the actuator only after confirming the AC frequency vector inverters voltage 1s lower than 36V subject to two minutes after power failure Or residual charge on capacitance will harm people e Anybody without professional training can t make maintenance or preparing to the inverter Or it may cause personal injury or equipment damage e Parameter setting must be made after changing the inverter all pluggable parts must be inserted or seized under the condition of power failure 19 deuo 19 deuo Chapter 1 Inspection and Safety Precautions 1 3 No 1 2 3 4 5 7 Precautions Types of attention Insulation Inspection of the motor Thermal protection of the motor Operation above the power frequency Vibration of mechanical device About heating and noise of the motor Pressure sensitive device or capacitance improving the power factor at the output side Switching element such as contactor used by input and output terminal of the
19. clockwjse Press PRG rotation Press Press ESC Press PRG Press 5 Increase via Flick j leo clockwise LL Confirmation rotation Chart4 8 Password setting 4 7 4 Password authentication Suppose the function code after P00 00 had been protected by the password and the password was 5 Make the password protection for P00 00 in the above example effective and then make the password authentication based on the following process Notice please refer to RS485 communication protocol when 485 communication method is used to make the check of password Press ESC Increase vi Press Press ESC Em rar ra i clockwise rotation Li S Flicker Chart 4 9 Password authentication 43 Chapter 4 Operation keyboard 4 7 5 Password For example remove the user password P07 00 Press PRG Po Press ESC 19 deuo mi Press ESC eu r Increase via clockwise a Press PRG rotation Confirmation Confirmation Press PRG Press PRG Confirmation Flicker Chart 4 10 Password 4 8 Setting method of parameter Example 1 let s take the acceleration of P09 00 from 5 0 to 25 0 as an example 1 Under the state of POO the encoder increases with clockwise rotation to function parameter P09 00 now the above LED shows 5 0 2 Press for three times the flicker for decade
20. f drain electrode lo 24V with AVCOM AO2C 0 29mADG b The biggest load current ofO 10V sm A T x q The biggest load imp edanze of 1 PE yp 0 20 250 1 23102 circu t default 9 J22 I Il 2W 2 1 Short zircuit 0 IOV DC 2 0 10V DC Output sigaal 1 Short circuit 0 20mMADC M EY E PE H d Output signal 2 VR iono J 3 iiim L eA 1 Shart circuit 0 10V DC 2W l LSGND d g Short circuit D 20mADC d fault 27 Owutprtsigral 3 9 A 250VAC o A 30VDC c 19 deuo 19 deuo Chapter 3 Installation and redundant circuit 3 4 Main circuit terminal G type 3 4 1 Main circuit terminal of 200 1 Main circuit terminal below 7 5KW 380V e e ele e e e e el el 512 P PB U T1 V T2 W T3 Groundterminal Themainpower P P DCreactor Themainpower P O Brakeunit SUPP youtput ermina Notice classification of the above power 15 only for machine of G type 2 circuit terminal for 11K W 22KW 380V S L2 P P PB U T1 V T2 W T3 Groundterminal Themainpower P P DCreactor Themainpower input P O Brakeunit SUPP youtput ermina 3 Main circuit terminal for 30 37KW 380V 28 Chapter 3 Installation and redundant circuit e e R L13 L2 TIL P P U T1V T2WIT3 i Ground te
21. 0 0 6553 55 0 05 EX 9 1o93d u m 112 Chapter 6 inverter of function parameter Frequency setting 100 096 corresponds to the maximum frequency P01 07 When determining the PLC operation mode you need to set P11 02 P11 33 to determine its characteristics Description Simple PLC depends on the direction of multi speed setting symbols If negative then the reverse direction 6 22 Multi speed operation logic Diagram Multi speed in Fmax Fmax range continuous setting PT200 series inverter stage speed can be set to 16 by the external terminals DI4 combination of coding options corresponding to the multi step speed up speed 0 15 Figure 6 22 for the multi speed operation logic diagram DD DIB DIA OFF the frequency input mode selected by the code P01 03 DII DI2 DI4 terminal insufficiency is OFF the multi speed operation multi speed higher priority than the keyboard analog PLC communication frequency input via DI2 DI4 combination of encoding select up to 16 speeds Multi speed run time start stop determined by the same function code P01 10 multi speed control process shown in Figure 6 21 DI2 113 DIA terminal and multi speed section of the relationship as follows D m xs m N O lee ly O O O O O O spin rpm O e e a e h e
22. 0 00 100 00 10 05 Integraltime Ti 0 01 10 00s 65 Chapter6 inverter of function parameter D ibing LED OLED Ref 168 P10 06 Derivative time Td 0 00 10 00s 105 169 P10 07 Sampling period 0 01 100 00s o 106 control Detection value for 6 172 P10 10 Detection time 0 0 3600 0 1 05 107 break line of feedback TE i 6 1 13 P11 multistage speed control and simple PLC control Describing LED OLED Code Keyboard disnlay Setting range Factory setting Change ds imple PLC runnin fe r ee 0 2 method tue selection 175 P11 02 Multi speed 0 100 0 100 0 176 103 TPe0 stage running 00 6553 55 0 05 177 P11 04 Multistage speed 1 100 0 100 0 178 105 lhelstageruming 00 6553 55 0 0s time 179 P11 06 Multistage speed 2 100 0 100 0 0 0 180 P11 07 1982 stage running 00 6553 55 0 05 time 181 P11 08 Multistage speed 3 100 0 100 0 0 0 9 191deuo 182 109 TPe gt stage running 00 6553 55 0 05 183 11 10 Multistage speed 4 100 0 100 0 184 Phe 4stagerunning 00 6553 55 0 0s time 185 P11 12 Multistage speed 5 100 0 100 0 16 P1113 The stage running 00 6553 55 0 05 time 187 P11 14 Multistage speed 6 100 0 100 096 00 109 66 Chapter 6 Inverter of function parameter Descri
23. 02 parameter madhe Notice the parameter automatically returns to 0 after 1 2 operations have been finished This function code decides the method of parameter copy And copy function of the parameter is built in the outer keyboard of OLED 1 Function parameter of this machine is delivered to OLED keyboard 2 Download function parameter of OLED keyboard onto this machine Notice the parameter automatically returns to 0 after operations of parameter copy have been finished 0 JOG operation 1 Switch of forward and reverse rotation Function choice of 2 Remove increasing via clockwise rotation or decreasing via counterclockwise rotation setting Pressing is the multifunctional key function of pressing be defined via parameter setting 0 OPERATION Pressing can realize the operation of JOG 1 Switch of forward and reverse rotation Pressing can realize the switch for the direction of 9 191deuo ag frequency inverter 1 Notice the switch of forward and reverse rotation set by E won t be remembered when the power of AC frequency vector inverter 15 off after it is electrified again AC frequency vector inverter will operation based on the operation direction set by parameter 01 13 operation direction set by parameter P01 13 will be remembered when the power of AC frequency vector inverter is off 2 setting for removing increasing via clockwise rotation of encoder or decrea
24. 09 Hopping frequency iE 0 00Hz ES 149 P09 10 Range of hopping 0 00 P01 07 maximum 0 00Hz frequency frequency When the frequency set is within the scope of hopping frequency actual operation frequency will be the boundary of hopping frequency The setting of hopping frequency can make AC frequency vector inverter avoid mechanical resonance point of load And this AC frequency vector inverter can set one hopping frequency point If set all hopping frequency points to zero then this function wouldn t take effect Just as chart 5 14 A P09 11 Range of pendulous 0 0 100 0 relative setting 0 0 frequency frequency 0 1 P09 12 Range of jumping 0 0 50 0 relative range of 0 0 frequency pendulous frequency P09 13 Rise time pendulous 0 1 3600 0s sos frequency frequency 102 Chapter 6 inverter of function parameter Describing LED OLED Pendulous frequency is appropriate for industries such as textile and chemical fiber and occasions requiring traversing and winding function As chart 5 15 Function of pendulous frequency refers the output frequency of AC frequency vector inverter makes up and down swing centralizing the setting frequency track of operation frequency at the timer shaft is shown by the following chart among them the swinging range is set by P09 11 when P09 11 is set to 0 namely the swing range is 0 then pendulous frequency doesn t take effect Setfrequencyf Jump freq
25. DC brake of halt 23 Choice for terminal of acceleration and deceleration time 189 24 Choice for terminal of acceleration and deceleration time 2 25 Slow down and stop 922 0606 e SO dag 5 switching value 0 Control like two lines 1 para p SS 1 Control like two lines 2 93 P06 07 of terminal m icd 2 Trilinear control 1 RD 3 Trilinear control 2 Increasing via clockwise rotation of encoder and 94 pog og 0 01 50 00Hz s 0 50Hz s 91 decreasing via counterclockwise rotation of encoder and terminal 95 6 09 Low limiting 0 00V 10 00V 0 00V 92 value of All Low limits of AII 06 10 corresponds with 100 0 100 0 0 0 92 the setting 97 po6 11 Upper limiting 0 00V 10 00V 10 00V e value of All Upper limits of P06 12 corresponds 100 0 100 0 100 0 92 with the setting 9 191deuo 57 Chapter6 Inverter of function parameter Describing RO a No Code LED OLED Setting range Factory setting Change Keyboard display page 6 13 Filtering time of 0 00s 10 00s 0 10s 92 input ioo 6 14 LOw limiting 0 00V 10 00V 0 00V 92 value of AI2 Low limits of AI2 101 06 15 corresponds with 100 0 100 0 0 0 92 the setting P06 16 Upper limiting 0 00 10 007 10 007 DEN value of Upper limits of 103 P06 17 12 corresponds 100 0 100 0 100 0 92 with the setting 104 Poc 1g 1118 time of 005 10 005 0 10s 93 input Gain for 1
26. Inverter of function parameter Describing LED OLED Setting range Factory setting Change aya Keyboard display pas overvoltage and 110 150 220V i i 120 speed reduction series Level of automatic G type 160 1 PES current limiting P type 120 Descent rate for 228 frequency of 0 00 100 00Hz s 10 00Hz s 118 current limiting BH 0 current limiting is Choice for the Ayay N 1 current limiting 15 selection of current pos Pee ineffective for constant limiting activity speed Describing LED OLED Setting range Factory setting Keyboard display Operation function 0 halt without operation of PID 1 halt with operation TENES dormancy frequency 2 14 03 maximum 10 00Hz frequency P01 07 0 0s 3600 0s 1000 08 awakening Dormancy 0 00Hz awakening 5 00Hz frequency frequency 14 01 pia o 0 0s 3600 0s 50 0 0s dormancy ms 1405 0 00 10 00Hz 0 00Hz P14 06 Effective choice of 0 3 helper motor Delay time for the 237 P14 07 start and stop of 0 0s 3600 0s helper motor 1 5 0s Delay time for the 238 P14 08 start and stop of 0 0s 3600 0s 5 0s helper motor 2 6 1 17 P15 group manufacturer s function group 71 Reference page 19 119 119 119 1 9 191deuo N 9 191deuo Chapter 6 inverter of function parameter Deseribing Reference No Code LED OLED Setting range Factory setting Change m Keyboard d
27. Level detection of 9 191deuo frequency PDT output 5 Reach Frequency 6 Zero speed operation 7 Reach frequency of upper limit 8 Reach frequency of lower limit 125 P08 02 Output choice of relay 9 frequency of lower limit setting reached 10 FDT Reached 11 Inverter ready signal 12 Motor Forward Reverse running 13 auxiliary motor start 14 auxiliary motor2 start SPB output terminal 127 08 04 signal delay 0 3600 0s 0 0s Rel t 1 338 pog os _ Relay ou put terminal 0 3600 0s 0 Os signal delay 62 Chapter6 Inverter of function parameter Describing LED OLED Factory Reference operation frequency setting frequency rotate speed of operation output current output voltage P08 06 Output choice of AOI output torque Input value of analog All 8 Input value of analog AD 9 10 Reservation 130 PO8 07 Lower limit for output of 0 go 100 096 0 0 AOI i31 pogog Lower limit corresponds ooy 10 00 0 00V with output of AOI P08 09 1 limit for output of 0 go 100 go 100 0 ofj s S Upper limit corresponds 08 10 with outpuber 0 00V 10 00V 10 00V operation frequency setting frequency rotate speed of operation output current output voltage P08 11 Output choice of AO2 output torque Input value of analog All 8 Input value of analog AD 9 10 Reservation 135 pog 12 Lower limit f
28. Receipt number of the maintenance Name of the maintenance unit The third time Address Receipt number of maintenance the 161 Telephone Signature of serviceman Telephone Signature of serviceman Telephone Signature of serviceman Information feedback of the product Dear users Thank you for concerning and purchasing the product of POWTECH we are eager to obtain your information and relative information for the pruduct purchased by you and why we want to obtain your valuable feedback is that we also want know your further requirement for POWTECH product Please log in column of TECHNOLOG and SERVICE RESOURCE DOWNLOAD to make information feedback on Http www powtech cn 1 Download and update the product introduction required by you 2 Refer to various technical data such as application method specification feature and regular question of the product 3 Sharing for the application case of the product 4 Consultation and online feedback of technical issues 5 Feedback the application information of the product and user demand information via e mail 6 Inquire the latest product and obtain various warranties and additional service of extension 162
29. Slow down and stop 9 191deuo N 89 9 19 deuo F Chapter 6 inverter of function parameter Describing LED OLED Keyboard display Setting range Factory setting This parameter is used to set the function corresponded multifunctional input terminal of the number 0 No function 1 Forward running FWD 2 Reverse run REV when the running inverter is the terminal control the run command of AC frequency vector inverter is preset by the above terminal function 3 Trilinear operation control see the inverter of trilinear function code in P06 07 for the input terminal of trilinear 4 Forward JOG 5 Reverse JOG see the inverter of P09 06 P09 08 for specific JOG frequency and deceleration time 6 Random parking after the command is in effect AC frequency vector inverter will block the output at once and the motor won t be limited to the control of AC frequency vector inverter during its halt process and this method is suggested for load with large inertia and without any requirement on the halt time and this method has the same implication with random parking introduced in P02 05 7 Fault resetting resetting function of external fault is used for the resetting of remote fault and it has the same function of 8 Input of external fault after the effectiveness of this signal AC frequency vector inverter reports it to the opening of external fault EF and stops the machine 9 UP for frequency setting 10 DOWN for frequenc
30. communication setting corresponds with double rated current of AC frequency vector inverter and 100 0 corresponds with negatively twice rated current of AC frequency vector inverter The torque control and speed control can be switched via multifunctional input terminal When the torque set by AC frequency vector inverter is bigger than the load torque output frequency of AC frequency vector inverter will rise when the output frequency of AC frequency vector inverter reaches the upper limit of frequency output frequency of AC frequency vector inverter will always operate with upper limit frequency When the torque set by AC frequency vector inverter is smaller than the load torque output frequency of AC frequency vector inverter will fall when the output frequency of AC frequency vector inverter reaches the lower limit of frequency output frequency of AC frequency vector inverter will always operate with lower limit frequency Notice AC frequency vector inverter transfers from the torque control to speed control when the machine stops 200 0 200 0 rated current Keyboard sets torque of frequency vector inverter 0 Keyboard sets upper limiting frequency P01 08 1 Analog All sets upper limiting frequency totally corresponds Choice for the with maximum frequency setting source of 2 Analog 12 sets upper limiting upper limiting frequency be the same as 1 frequency 3 Multi sections set upper limiting frequen
31. derivative time is to feedback when the signal changes and then make regulation based on the change tendency consequently it can restrict the change of feedback signal Please use the derivative regulator carefully because the derivative regulator can easily amplify the interference of the system particularly the interference with a higher change frequency 10 07 Sampling period 0 01 100 00s o control 9 191deuo E 108 Chapter 6 inverter of function parameter Describing LED OLED Sampling period T it refers sampling period for the feedback variable and the regulator calculates once in every sampling period The longer the sampling the slower the response Limit for control deviation of PID output value of PID system is corresponding with maximum deviation allowed by the given value of closed loop just as the chart shows that PID regulator stops regulating in the deviation limit Proper adjusting this function code can regulate the accuracy and stability of PID system Output frequency Hz The amount of feedback Deviation limit To the quantitative Output frequency Hz i Time t Chart 6 19 corresponding relation between the deviation limit and the output frequency Detection value for Detection time for P10 10 feedback 0 0 3600 0s 1 0s E Detection value for breakline of feedback what corresponds with this detection value is full range 100 the sy
32. explosive air liquid or solid 3 2 Installation direction and room Variable frequency inverter should be installed at a indoor place with good ventilation and used the wall mounted method moreover there must be enough room between it and its surrounding article or baffle wall It is shown as the following chart air c air out air out 2 UJ above ele m above 50mm Somm A JE m Inletair 2 Inletair Gm Chart 3 1 installation direction and room 23 Chapter 3 Installation and redundant circuit 3 3 Wiring Wiring of variable frequency inverter divides into main circuit and control loop The user must make the connection correctly following the below wiring circuit c 19 deuo 24 Chapter 3 Installation and redundant circuit 3 3 1 Wiring diagram below 7 5KW 2S1 2S2 2S3 DC reactance Brake m HER elective purchasin p 1 1 9 5 lt Breaker P P Motor 3 R L1 U T1 r M s M S L2 PT20b V T2 1 gt 6 T L3 converter W T3 G Grounded powe Main circuit Grounded motor a Isolation 5485 communication Control loop 120 1 7 is used as the terminal D15 input terminal 1 SG p used when AC frequency vector 6 o 015 interface of communication SG inverters is used as the u
33. factor Or it may have accident eThe AC frequency vector inverters must be electrified after its covered plates is covered well Or it will have electric shock hazard eThe wiring of all outside accessories must strictly follow the guidance of this manual and their wirings should be connected correctly based on the circuit connect menthol provided by this manual Or it may have accident eDon t open the cover plate after the electrifying Or it will have electric shock hazard e Don t use a wet hand to touch actuator and peripheral circuit Or it will have electric shock hazard eDon t touch any input or output terminal of the inverter Or it will have electric shock hazard e At the beginning of electrifying the AC frequency vector inverters will automatically make a security detection for outside return circuit of the strong current at that time never touch U V and W terminal blocks of the actuator or it will have electric shock hazard e Parameter identification should be made and please pay more attention to the hazard hurting people during the rotation of electric machine Or it may have accident e Please don t change manufacturer s parameter of the AC frequency vector inverters randomly Or it may have hazard of damaging the equipment eNever touch the cooling fan or discharge resistance to feel out the temperature Or it may cause burning e Non professional technicist can t detect the signal during the operation process
34. feedback variable 15 always smaller than the presetting after the stabilization of the system then increase the proportional gain continuously conversely reduce proportional gain repeat the above process until the offset Is very small it is difficult to have no offset Integral time I when there is deviation between the feedback and presetting then regulating variable of output will increase continuously if the deviation exists continuously then the regulating variable increases continuously till there is no deviation integral controller can effectively eliminate the offset If the integral controller is too strong it will cause repeated overstrike which can make the system unstable until the vibration appears Characteristics for the vibration caused by strong vibration is that the feedback signal swings up and down the presetting and its ranges increases gradually till vibration Regulation for parameter of integral time is generally from big to small and the integral time Is regulated gradually and observe the effect of the system regulation until the stable speed of the system reaches the requirement Derivative time D when the deviation between the feedback and presetting changes the output and change rate of deviation forms proportionable regulating variable this regulating variable is only related with the direction and size of the deviation change and it has nothing to do with the direction and size of the deviation The effect of
35. filter can be installed for worse condition 2 When the equipment disturbed and AC frequency vector inverter uses the same power supply it will also cause conducted interference if the methods mentioned above can t eliminate the interference then install EMC filter between AC frequency vector inverter and power supply please refer to 7 3 6 for detail of type operation 3 Independent grounding of external equipment can eliminate the interference caused by leak current which is caused by the grounding wire of AC frequency vector inverter when they share the ground together 7 3 5 Leakage current and disposal Leakage current of AC frequency vector inverter has two types one is leakage current for the ground and the other in leakage current among lines 1 Factors affecting leakage current for ground and solution The wire and the ground has distributed capacitance the bigger the distributed capacitance the bigger the leakage current effectively shorten the distance between AC frequency vector inverter and motor to reduce the distributed capacitance The bigger the carrier frequency the bigger the leakage current Reduce carrier frequency to reduce the leakage current However reducing carrier frequency can cause the increase of motor noise please pay attention to installing electric reactor is also an effective way to solve the leakage current leakage current will increase with the increase of loop current as a result corresponding
36. frequency vector inverter anti electromagnetic interference mainly makes test on conducted immunity radiated susceptibility SURGE quick and sudden EFT ESD immunity and immunity at the bottom of power supply of AC frequency vector inverter specific test project includes 1 Test on immunity for temporary reduction interruption and change of AC frequency vector inverter 2 Test on the immunity at the breach of commutation 3 Test on the immunity of harmonic wave input 4 Test on the change of input frequency 5 Test on imbalance of input voltage 6 Test on immunity of input voltage The test is made according to the strict requirement of the above IEC EN61800 3 products of our company are installed and used based on the guidance shown in 7 3 and they will have good electromagnetic compatibility under normal industrial environment 7 3 EMC guidance 7 3 1 Influence of harmonic wave Higher harmonic of the power supply will damage AC frequency vector inverter as a result it is suggested to install AC input reactor for the place with low quality of power grid 7 3 2 Electromagnetic interference and installation notes Electromagnetic interference has two types one is the interference for electromagnetic noise of the surrounding to AC frequency vector inverter and the other is the interference caused by AC frequency vector inverter to surrounding devices 122 Chapter 7 EMC Electro Magnetic Compatibility Installation notes
37. gt 4 2 noms m j s 2 v mmm m qm o 2015000 mj 143 1 1deuo Chapter 10 Option Input line output line Breaker Rated operational current A of contactor A S 380V OR 220V w amp oa 6 mw 8 ww o o 144 e m Chapter 10 Option mms ums _ maso ums LLL 145 191deuo E 191deuO Chapter 11 Quality guarantee Chapter 11 Quality guarantee The quality guarantee of the project should be transacted based on the following stipulations 1 It really belongs to the concrete content for the quality guarantee within the manufacturer s responsibility 1 1 When it is used in China calculated since the date of delivery X Guarantee for return change and maintenance within one month after the delivery X Guarantee for return and maintenance within three months after the delivery Guarantee for maintenance within 12 months after the delivery 1 2 When it is exported to foreign country it is guaranteed for maintenance at the purchasing place within six months after the delivery 2 No matter when and where the product of our company 15 used you can enjoy a lifelong servi
38. inverter Use beside rated nominal voltage value Change three phase input to two phase input Precautions contents Insulation inspection of the motor should be made for the initial use of the motor reusing after long term placing when the motor 15 used or given regular inspection to avoid damaging the AC frequency vector inverters due to the insulation failure of machine winding motor connection must be separated with the AC frequency vector inverterswhen insulation inspection is made it is suggested to use megameter with 550V voltage type and guarantee the insulation resistance detected can t be smaller than 5MQ Make sure to adjust relevant parameter value of motor protection in the AC frequency vector inverters or install thermal relay before the motor to protect the motor when the rated capacity of the selected motor doesn t match with that of the inverter particularly when the rated power of the AC frequency vector inverters is bigger than that of the motor This AC frequency vector inverters can provide OHz 400Hz output frequency If the customer wants to make operation above 50 Hz please take the endurance of the mechanical device into consideration The setting for hopping frequency in the AC frequency vector inverters can be used to avoid mechanical resonance point of the load device which might be met by the AC frequency vector inverter sat some locations of output frequency Compared with the operation of power frequ
39. its interior circuit and component to avoid electric shock hazard 5 Don t touch the circuit board or any component in the motor within five minutes shown on keyboard after the power is off what is more the meter should be used to confirm the capacitance in the motor has been discharged and then the task in the motor can be made or it may have hazard of electric shock 6 Electrostatic on human body will seriously affect MOS field effect transistor don t use your hand to touch any internal component such as printed circuit board and IGBT without anti static precautions or it may cause breakdown 19 deuo Chapter 1 Inspection and Safety Precautions Types of attention Precautions contents 7 Grounding terminal of the AC frequency vector inverters E or 7 should be correctly and reliably connected to the ground based on salty requirement of national electricity and other related standards Don t stop the motor via operating a switch or interruption of power supply and the power can be off only after the stop of the motor operation when it is used 8 It must select input filter accessory if it want to meet CE standard 1 4 Range of application X This AC frequency vector inverters be applied only to general three phase AC induction motor of industry X This AC frequency vector inverters can be only used in places approved by our company it may cause accidents like fire electric shock and explosion in the places
40. parameters determine the multi stage instruction 0 given channel 0 The function code P11 02 given 1 The function code P01 10 keyboard given 2 given 3 AD given 4 given 5 PID setpoint 6 potentiometer given In addition to multi stage instruction 0 can choose P11 02 there are many other options to facilitate the multi stage instruction given with other switch between In the multi frequency source or instruction as simple PLC 15 the frequency source can achieve two kinds of frequency source switching 6 2 13 P12 group communication parameter group Describing LED OLED 115 9 191deuo 9 191deuo Chapter 6 inverter of function parameter Describing LED OLED 5 Setting for Baud rate of communication B 0 1200bps 1 2400bps 2 4800bps 3 9600bps 4 19200bps 5 38400bps DE This parameter is used to set the transmission rate of data between upper computer and AC frequency vector inverter Notice Baud rate of upper computer and AC frequency vector inverter must be accordant or the communication can t be made The bigger the Baud rate the quicker the communication speed Setting for bit check of data 0 Without verification N 8 1 for RTU 1 Even parity check 8 1 for RTU 2 Odd parity check O 8 1 for RTU 3 Without verification N 8 2 for RTU 4 Even parity check E 8 2 for RTU 5 Odd parity check O 8 2 for RTU 6 Without verificatio
41. use voltmeter of rectifier type to measure the output voltage and use tong type ammeter to measure the output current and use electrodynamic type voltmeter to measure the power 9 2 Device required regular change In order to guarantee the reliable operation of AC frequency vector inverter the component all fans used for the cooling filter condenser used for energy storage and exchange and printed circuit board bearing physical deterioration for a long time in AC frequency vector inverter should be changed regularly The change can be made based on the stipulation in the following table for continuous use and it can be also subject to specific condition of service environment load situation and current status of AC frequency vector inverter Standard renewal period Printed circuit board 9 3 Storage and custody After the purchasing of AC frequency vector inverter if it doesn t be used at once temporary custody or long term storage the following aspects should be obtained X It should be put in a place within the stipulated temperature range and having no moisture dust mental dust and have a good ventilation X If it doesn t be used exceeding a year then the charging test should be made for it in order to renew the filter condenser of main circuit in AC frequency vector inverter Voltage regulator should be used to make the input voltage of AC frequency vector inverter rise gradually up to the rated output voltage wh
42. voltage of AC input power ts within the scope of rated input voltage of variable frequency inverter Connect the power supply with the input terminal R S and T of variable frequency inverter Select proper control method of rotation 200 frequency vector inverters Three phase input current 380v 50 60Hz 9 REV STOP FWD STOP 0 10 Frequenc j 1Ki2W Chart 5 2 control method of rotation Example voltage input of analog P01 00 1 P01 03 1 or 2 control operation of the terminal 06 01 1 P06 02 2 Frequency order is given by terminal AI1 AI2 and terminal DI2 and control forward and reversal rotation Example speed regulation of keyboard P01 01 0 1 03 7 reward and reversal switch operation of the keyboard P07 03 1 The frequency is preset by the increase of clockwise rotation and the decrease of counterclockwise rotation of the keyboard encoder FWD REV of operation keyboard change the forward and reversal rotation lt Empty running and check of speed regulation Confirm the set of the lowest and highest output frequency Inspection of inching control Affirm the acceleration and deceleration time Connect up the motor Operate with low speed and inspect the rotation direction of the motor Inspect whether the display and output during all operation processes 15 correct 46 Chapter 6 inverter of function parameter 6 inverter
43. 0 60 75 75 90 90 110 110 150 150 176 176 210 210 250 250 300 300 340 340 380 380 420 420 470 470 520 520 600 600 640 4 o 1100 Adaptive motor 15 0 18 5 18 5 22 0 22 0 30 0 30 0 37 0 37 0 45 0 45 0 55 0 55 0 75 0 75 0 93 0 93 0 110 0 110 0 132 0 132 0 160 0 160 0 185 0 185 0 200 0 200 0 220 0 220 0 250 0 250 0 280 0 280 0 315 0 315 0 350 0 350 0 400 0 500 0 560 0 630 0 Chapter 2 Standard specification 2 1 2 See the following table for rated output current with different specifications Voltage Power Kw 0 4 0 75 18 5 N a IN Q 1 gt tA N S I I 2 N N o 50 80 315 350 4 450 500 5 220 1 Current 25 4 5 7 10 16 G P H S Z T M 220V 380V 460V 240V 415V 440V cid 554 Current Current Current Current Current A N J gt ON N N N oo 92 oN ON N N N N oo 200 110 100 63 260 150 130 104 320 176 147 117 380 210 180 145 121 420 250 216 Un 150
44. 0 Invalid 1 The whole process 15 effective 2 It is invalid only for deceleration Choice of AVR function 9 191deuo 6 1 4 02 group Control group for the stop and start Describing Reference LED OLED Setting range Factory setting Change s Keyboard display page 0 direct start 1 firstly DC brake and Start operation then start mode 2 firstly tracking of rotate speed and the start Start the holding time of frequency Start front brake 0 0 150 0 current 52 Launch the start 0 00 10 00Hz 0 50Hz frequency Chapter6 Inverter of function parameter Describing Reference Code LED OLED Setting range Factory setting Change ae Keyboard display page tart the front brak time of halt 0 slow down and stop P02 05 Random parking 0 00 01 07 art frequency for P02 06 halt brake maximal 0 00Hz requency 44 P0207 Waiting time of halt 0 0s brake 45 02 08 brake current of 9 5 150 0 0 0 halt 46 P0209 brake time of o 50 05 0 05 47 210 0 0 3600 0s 0 06 reversal dead time 0 Run command of the Selection for the terminal Is invalid when rotection of It 1s electrified s P02 11 Run command of the 81 terminal with electricity terminal is valid when it is electrified 6 1 5 P03 oroup Group of electric machine parameter Describing Referente No Code LED OLED Setting range Fac
45. 0 Option e u eme 138 Chapter 10 Option 10 9 2 Input filter 690V SIE es V KW EN L W H mm a b d mm 75 1 5 IM RE GNE M pepe repe emp ep s um repe e e sme 09 r e sm l a w r 9 s e em epe ea pe pe gt mm Dee peso oe 10 10 Output filter 10 10 1 Output filter 380v Per as ee E L W H mm a b d mm 75 1 5 75 135 105144 G tata ee pm oom s _ pe mem 139 1 1deuo 193dej Chapter 10 Option 10 10 filter 690 Power Net weight Dimension Installation dimension r L W H mm a b d mm 03515 75 1 5 75 LAEGLCONGE ER AN 3 A _ uw I E WI IW I C I __ ww LUI m puel s uw pw qm
46. 00 FF e g 03 12 it address is shown as 0312 notice P00 group can only read the parameter and not change the parameter P15 group can not read the parameter nor change the parameter some parameters can t be changed no matter what the state of AC frequency vector inverter 15 much attention should be given to the scope unit and relative inverter of the parameter when the parameter of function code 15 changed In addition because EEPROM is stored frequently it will make the service life of EEPROM shorten as a result some function codes doesn t need storing in communication code what should do is to change the value in RAM Only change F at high bit to 0 for the address of this function code can realize this function Corresponding function code 15 as follow High byte 00 01 Low byte 00 FF For example function code P03 12 can t be stored into EEPROM its address 15 shown as 0312 and this address can make activity for writing RAM and it can t make activity for reading if it is read it is an ineffective address Halt operation parameter Parameter address and parameter description E I ________ 3007H Output torque 3008H Given value of PID 154 3014H Input value of external counter 3015H Torque direction 0 forward direction 1 reverse direction The set value is the percentage of relative value 10000 corresponding with 100 00 and 10000 corresponding with 100 00 Data corresponding with the f
47. 00 011G 3B 11 0 15 0 26 35 S 9 13 4 0 5 5 13 17 5 5 7 5 17 25 7 5 11 0 25 32 11 0 15 0 c 19 deuo d c 19 deuo Chapter 2 Standard specification AC frequency vector inverters Input voltage PT200 015P 3B PT200 015G 3B PT200 018P 3B PT200 018G 3B PT200 022P 3B PT200 022G 3B PT200 030P 3B PT200 030G 3 PT200 037P 3 PT200 037G 3 PT200 045P 3 PT200 045G PT200 055P 3 PT200 055G 3 PT200 075P 3 PT200 075G 3 PT200 093P 3 PT200 093G 3 PT200 110P 3 PT200 110G 3 PT200 132P 3 PT200 132G 3 PT200 160P 3 PT200 160G 3 PT200 185P 3 PT200 185G 3 Th PT200 200P 3 phase PT200 200G 3 200 220 3 PT200 220G 3 PT200 250P 3 PT200 250G 3 PT200 280P 3 PT200 280G 3 PT200 315P 3 PT200 315G 3 PT200 350P 3 PT200 350G 3 PT200 400G 3 PT200 500G 3 PT200 560G 3 PT200 630G 3 output rating kW 15 0 18 5 18 5 22 0 22 0 30 0 30 0 37 0 37 0 45 0 45 0 55 0 55 0 75 0 75 0 93 0 93 0 110 0 110 0 132 0 132 0 160 0 160 0 185 0 185 0 200 0 200 0 220 0 220 0 250 0 250 0 280 0 280 0 3 15 0 315 0 350 0 350 0 400 0 500 0 560 0 630 0 Rated input current A 35 38 38 46 46 62 62 76 76 90 90 105 105 140 140 160 160 210 210 240 240 290 290 330 330 370 370 410 410 460 460 500 500 580 580 620 N 620 670 835 92 1050 Rated output current CA 32 37 37 45 45 6
48. 05 P06 19 simulated input 0 00 300 00 100 00 93 1 K1 Gain for 106 P06 20 simulated input 0 00 300 00 100 00 93 2 K2 Main and 107 06 21 auxiliary control 0 1 93 function 6 1 9 P07group Human computer interface group Describing LED OLED Reference L S e e 109 7 01 OLED shows language 0 Chinese E choice English 9 191deuo E 0 No operation 1 Function parameter of this machine is delivered to OLED keyboard 2 Download function iii P07 02 Copy of function parameter of OLED 94 parameter keyboard onto this machine Notice the parameter automatically returns to 0 after 1 2 operations have been finished 58 Chapter 6 Inverter of function parameter Describing LED OLED Keyboard display Function chotce of Function choice for halt STOP RESET of Choice for parameter showed by operation State fe Setting range Reference 0 JOG operation 1 Switch of forward and reverse rotation 2 Remove increasing via clockwise rotation or decreasing via counterclockwise rotation setting 0 it is only effective for panel control 1 it is effective for panel control and terminal control 2 it is effective for panel control and communication control 3 it is effective for all control modes 0 0 7 0 operation frequency setting frequency BIT2 busbar voltage BIT3 output voltage BIT4 output current BIT5 rotate speed of ope
49. 13 00 P13 10 P14 group P14 00 P14 08 Protection area of Obvious hidden area of manufacturer s user defined function P15 group P15 00 password code P15 area 37 19 deuo i Chapter 4 Operation keyboard 4 4 2 Form of secondary menu 19 deuo 0 0 Function code area Group number in the area separator Index in the group Chart4 3 Form of secondary menu e Data display or setting form of secondary menu Decimal display setting Sign can be displayed or set by data bits 1 5 1s 0 9 4 4 3 Form of three level menu O Data bit 1 0 0 Data bit 2 Decimal point Data bit 3 Chart4 4 Form of three level menu 4 4 4 Common display symbol of LED Besides function code the first level menu secondary menu and three level menu the operation panel will show some prompting character and see following table for detail The AC frequency vector inverters instantly show PT200 to represent PT200 product after electrifying U phase protection of contravariant unit V phase protection of contravariant unit W phase protection of contravariant unit Overcurrent of acceleration Overcurrent of deceleration Overcurrent of constant speed Overvoltage of acceleration Overvoltage of deceleration Overcurrent of constant speed Undervoltage fault of generatrix EE Default phase at the input side E PHo Default phase at the output side Overheating of rectifier module Overhe
50. 19 deuo Three phase220 V Three phase380 V 3 2S3 I CUM M DIESEN 16 Chapter 2 Standard specification Chart2 3 Dimension of 2S3 Power kW P 5 5 Level of power supply Type Single phase 220V CA x es E i Three phase 220V Three phase380V lt 2 3 3 PT200 series three phase power voltage 380 415V 50 60Hz 1 2N1 2N8 W _ D 7 Dod b H 5 Chart2 4 Dimension of 2N1 2N8 c 19 deuo a Chapter 2 Standard specification 1 2NI Power Dimension Installation dimension Type Seat No 00 miza c 19 deuo 15 18 5 2N1 345 203 230 150 325 2 252 Power Dimension Installation dimension Type Seat No my 18 5 22 2N2 430 263 255 170 407 15 18 5 2N3 Power Dimension _ Installation dimension Seat No ia a 2N3 49 310 274 190 468 Q10 18 5 22 4
51. 25 19 deuo 19 deuo Chapter 3 Installation and redundant circuit 3 32 Wiring diagram for 11KW 22KW 2N1 2N2 reactance Brake resistor my Sclective purchasing Breaker uc ui SS 5 48 R L1 U T1 5 S L2 ae T 2796 gt 0 T L3 converter 9 Groundcd power Main circuit Dl amp input erminal 1 Control loop pe laplation R5485 communicetion DI5input mimi DIG 245 5 120 7 is used as the terminal 015 A interface ol communication Itisused when AC frequency vector 014 input terminal E s Tura ass is usedas the usterminal PC He 145 ____ termina 013 lenninul 4 DIS 2 Communication COM DI2 japut icrminal 3 COM pere NE ble __ 2 Drein output ef ihort TX232 Source 1 circuit default Ji COM ___ a Drive of drain electrode E I 2 3Source output of Jp7 J 6 co PC terminal o 1 24V short circuit Jumper for terminal resistance en OM EUIS cnthepanclDisconrection is DMinput terminal ised as thetcrminal Short circuir is used as the terminal JP6 1 jShort circuit 2 ee 1 25 used for manufacturzrs tcst hor circuit 5232 3 Nerma working Lime faul c DH I l 424V PLC conrect w
52. 3 Presetting of remote communication 4 Presetting of multistep speed When the frequency source selects PID namely the selection of P01 03 is 5 the function in this group takes effect And this parameter decides the given channel for target value of process PID Value for target setting of process PID is the relative value and 100 set is corresponding with 100 for the feedback signal of the controlled system The system always makes calculation according to relative value 0 100 0 Notice presetting of multistep speed can be achieved via the parameter in P10 group Keyboard presets the PID presetting 0 09 100 0 0 0 9 191deuo Select P10 00 0 namely the target source is the presetting of keyboard And this parameter need resetting Base value of this parameter is the feedback variable of the system 106 Chapter 6 inverter of function parameter Describing LED OLED 0 Feedback for simulated channel All 1 Feedback for simulated 164 P10 02 2 2 channel AI2 2 Feedback of AI1 AI2 3 Feedback of remote communication 0 Feedback for simulated channel 1 Feedback for simulated channel AI2 2 Feedback of 2 3 Feedback of remote communication Select feedback channel of PID via this parameter Notice the given channel can t be coincidence with the feedback channel or PID can t be controlled effectively 165 P10 03 Selection for output 0 PID output is positive characteristics of P
53. 5 200V 230V 12 0 380V 460V 12 s 9 8 80 185 180 8 90 90 125 135 193dej Chapter 10 Option 20 mo aso 39 pm on w on e se s ie 10 4 Noise filter This filter is used to restrict the conduction for the electromagnetic interference noise caused by AC frequency vector inverter it can also restrict external radio interference and the interference to this machine coming from surge of temporary impact Before the use please firstly confirm the power supply belongs to three phase three wire system or three phase four wire system if it belongs to single phase its ground wire should be as stubby as possible and the filter should be close the AC frequency vector inverter to the greatest extent This filter can be applied to the occasions such as residential area commercial area research and development institution and place which has a high requirement on the interference of radio interference as well as the situation where meets CE UL and CSA standard but without enough device to fight against the interference If you want to purchase this product please contact with our company 10 5 Contactor Shut off the power at the movement for the protection function of the system to prevent the fault expanding Don t use the contactor to control the start and stop of the motor 10 6 Brake unit and brake resi
54. Advantage of high carrier frequency ideal current waveform few current harmonics and less motor noise Disadvantage of high carrier frequency increasing switching loss rising temperature of AC frequency vector inverter influenced output capacity of AC frequency vector inverter and under high carrier AC frequency vector inverter should be used via derating meanwhile increasing leak current of AC frequency vector inverter and its increasing interruption on external electromagnetism Adopting low carrier frequency is opposite to the above mentioned status too low carrier frequency will cause the fluctuation of the operation with low frequency torque reduction or even vibration The carrier frequency has been set reasonably when AC frequency vector inverter leaves the factory Generally speaking it is unnecessary for the user to change the parameter When the user uses carrier frequency exceeding the default it should be used by derating and the derating should be 2096 with every 1K carrier 79 9 191deuo N Chapter6 Inverter of function parameter Describing LED OLED Setting range Factory setting Keyboard display 0 No operation 1 Recover default value beside the group of electric machine parameter 2 Recover default value including the group of electric machine parameter 3 Eliminate fault files Recovery of function parameter 0 No operation 1 AC frequency vector inverter recovers default value for all p
55. Before self study of motor parameter acceleration and deceleration time 01 11 P01 12 should be set properly according to the inertia of the motor or during the self study period of motor parameter will have overcurrent and overvoltage fault Set 11 as 1 and the press to start the self study of motor parameter now LED shows TUN and flicks Press K to start the self study of parameter now it shows TUNE0 TUNE1 and then the motor begins to operation and flicks After the self study of parameter it shows and then it shows returning to the interface of halt state When flicks press to exit the state of self study During the self study period can be pressed to terminate the operation for self study of parameter Notice the start and stop for self study of parameter can be only controlled by the keyboard after the self study of parameter this function will automatically reset to 0 Static self study of parameter during the period for the static self study of parameter it is unnecessary to separate the motor with the load and make the motor have a static and unloaded state or the result for self study of motor parameter may be wrong Before self study of motor parameter nameplate parameter 03 01 03 05 of the motor must be input correctly rotator resistance of the motor can be detected after the self study However the mutual inductance and no load current can t be detected and the user can in
56. C frequency vector inverter and presetting frequency is zero at the same time the ON signal will be output 7 Reach frequency of upper limit when the operation frequency reaches the upper limiting frequency the ON signal will be output 8 Reach frequency of lower limit when the operation frequency reaches the lower limiting frequency the ON signal will be output 9 frequency of lower limit setting reached 11 Inverter ready signal 12 Motor Forward Reverse running 13 auxiliary motor start 14 auxiliary motor2 start 126 pog o3 PA output terminal 0 3600 0s 0 05 signal delay SPB output terminal 27 08 04 signal delay 0 3600 0s 0 0s 128 pogos Relay output 0 3600 05 0 0s terminal signal delay 99 9 191deuo N 9 191deuo Chapter 6 inverter of function parameter Describing LED OLED operation frequency setting frequency rotate speed of operation output current P08 06 Output choice of AOI output volage output power output torque Input value of analog All Input value of analog AI2 9 10 Reservation Standard output of simulated output is 0 20mA or 0 10V and current and voltage output can be chosen via jumping line JP4 the scope for corresponding capacity represented by it 15 shown as following 130 8 07 Lower limit for output 0 100 0 0 094 of AOL Lower limit 131 P08 08 corresponds with 0 00V 10 00V 0 00V output of AOI 132 09 Upper l
57. DI2 terminal Function selection of DI3 terminal Function selection of DIA terminal Function selection of 015 terminal inverter of function parameter Describing LED OLED SONO TARUE Factory chas Reference Keyboard display Sane setting 5 page P05 10 V F voltage point 1 0 0 100 095 Selection for energy saving Keyboard display 0 0 0 0 0 Failure to actuate 1 Automatic energy saving operation Setting range Factory setting No function Forward running 1 Reverse run Trilinear operation control Forward JOG Reverse JOG 2 Random parking 7 Fault resetting 8 Input of external fault 4 9 UP for frequency setting 10 DOWN for frequency setting 11 Removal for UP and DOWN of frequency setting 12 Terminal of multiple speed 1 13 Terminal of multiple speed 2 14 Terminal of multiple speed 3 15 Terminal of multiple speed 4 DE 56 Chapter6 Inverter of function parameter Describing Reference No Code LED OLED Setting range Factory setting Change pra Keyboard display pas 16 Temporary stop of PID control 17 Temporary stop of pendulous frequency stop at current frequency 18 Resetting of pendulous frequency return to central frequency 19 Prohibition of acceleration Function and deceleration 91 06 05 selection of DI6 20 Prohibition of torque control 88 terminal 21 Temporary removal for UP and DOWN setting of frequency 22
58. During the operation process of AC frequency vector inverter actual descent rate for rotate speed of motor is lower than descent rate of output frequency due to the influence of load inertia at this moment motor will feedback the electric energy to AC frequency vector inverter it will cause the rise for generatrix voltage of AC frequency vector inverter if measures won t be taken for this it will cause the rise of genertrix voltage and the tripping and overvoltage fault of of AC frequency vector inverter 118 Chapter 6 inverter of function parameter Speed reduction protection of overvoltage refers making comparing with speed reduction point of overvoltage defined in P13 07 with respective to standard generatrix voltage via detecting the generatrix voltage during the operation process of AC frequency vector inverter if it exceeds the speed reduction point of the overvoltage then the output frequency of of AC frequency vector inverter will stop falling and it will continuously decelerate until it detects the generatrix voltage 15 lower than the speed reduction point of overvoltage As chart 5 22 221 Level of automatic nm G type 160 Py 0 P13 08 current limiting 100 200 P type 120 2 228 Descent rate for P13 09 d 000 10 00Hz s During operation process of AC frequency vector inverter actual rate of rise for rotate speed of motor is lower than the ri
59. EEUU Pa a all urka d IngutAC renetor i 59 gt tbc i C ln 1 m POR TEC H Inverter Gnam DU ru pack the mutes ike nz Ex Calpe side af 132 different service conditions and requirements see the following chart for their Erakim nes Do Brakiag ci iorwg cocdbeck mni incl Tp u max pee aae LL Baz mil kum un DSC 15 Chapter 10 Option 10 1 Optional components See relative inverter of optional component for detailed function and inverter of optional component if the above optional components 1s required please make explanation in your order Built in brake the product Used for dynamic Bait e unit baki unit is standard oe R configuration Apply universally for PT200 series RS485 interface Display of outer LED and operation keyboard Operation panel of outer LED Display of outer OLED and RS485 operation interface keyboard Operation panel of outer OLED parameter copy parameter copy General RS485 interface Standard network cable with 8 cores and it can be connected with the keyboard If the extension function of other function modules for example I 0 clip PG clip and EPS clip is required please choose PT200 series AC frequency vector inverter pl
60. Having PG V F control r Having PG vector contro Fault phenomenon Failure for the jumping of electrifying Operation failure Failure after Fault time Operating a period of acceleration oFailure of deceleration Failure types Overcurrent OC 2 DE oU overvoltage under voltage DE oL overload Fault of DE oH Coverheating OE SET external fault GE PHI Input the protection of other default phase OE PHo Output the protection of default phase displays error Panel No display for electrifying Smoking after electrifying No actuation failure for relay of power panel Keyboard failure r1 Unable change of the parameter n Display default writing failure ri Knob failure 1 2 DE oC3 Device Machine explosion Unable rotation of the fan No actuation for relay of main failure circuit Burning out of power resistor Abnormal No output voltage Unbalance of output voltage oSerious vibration of motor output Insufficient motor capacity Please describe the detail of your fault here if it is not listed in the above Fault description Maintenance record should be filled by the following maintenance agencies 160 Maintenance record Name of the maintenance unit The first name Address Receipt number of the maintenance Name of the maintenance unit The second Address time
61. ID 1 PID output is negative 0 PID output is positive when the feedback signal is bigger than the presetting of PID output frequency of AC frequency vector inverter will reduce to make PID in balance 1 PID output is negative when the feedback signal is bigger than the presetting of PID output frequency of AC frequency vector inverter will rise to make PID in balance P tional P10 05 05 Integral time TD _ time Integral time TD _ 0 01 10 008 01 10 00s 106 107 9 191deuo Chapter6 inverter of function parameter Describing LED OLED Proportional gain Kp decides the regulation strength of the whole PID regulator the bigger P the bigger the regulation strength If the parameter is 100 it shows when the bias between the feedback variable and given variable of PID is 10095 the regulation range of PID regulator on the inverter of output frequency is maximum frequency ignoring integral action and derivative action Integral time Ti decides the speed of integral regulation for the bias between the feedback variable and given variable of PID regulator integral time refers when the bias between the feedback variable and given variable of PID is 100 integral controller 1gnoring integral action and derivative action makes continuous regulation via this period and then the regulation variable reaches maximum frequency P01 07 The shorter the integral time the stronger the regulation strength Der
62. Introduction Thank you for choosing PT200 variable frequency inverter of Shenzhen Powtech Co Ltd And this product is a kind of variable frequency inverter which can be applied to various industrial machineries drive control of fan and pump and heavy load of grinding with intermediate frequency and it Is designed by Shenzhen Powtech Co Ltd via its professional production and sales experience for many years This introduction includes two series of PT200 general type and specific type among them general type can be divided into P G M and H type based on different load and specific type can be divided into S T and Z type and the detailed description is as follow P type light load G type standard load M type heavier load H type heavy load S type specific type for textile machine T type specific type for winding machine Z type specific type for injection molding machine This specification provides related notices such as parameter setting of installation and operation diagnosis of malfunctions daily maintenance and safe use for user Please read this operation introduction in detail before install it in order to guarantee install and operate this variable frequency inverter correctly Please contact with dealers of our company in various places or directly contact with our company if there is any difficult during your using process and our professionals are glad to make service for you Please submit this intr
63. K Enabling switch Control switch of positive and reverse rotation SB1 Operation button Din is a multi functional input terminal with No 3 function three line operation control 3 Three line control model 2 DIn is enabling terminal in this model the operation command is produced by SB1 or 583 and direction is controlled by them at the same time Stop command 15 controlled by switch K Figure 6 12 FWD PT200 PT200 Din Series Series Inver ter Inverter REV COM Figure 6 11 Three line control model 1 Figure 6 12 Three line control model 2 Once K is off FWD and REV control is invalid and frequency converter stops Once K is on FWD and REV control is valid Once SBI is pressed FWD terminal rises which means positive rotation command Once SB2 is pressed FWD terminal rises which means reverse rotation command K Enabling switch SB1 Operation button of positive rotation SB2 Operation button of reverse rotation Prompt As for double line operation model once FWD REV terminal is valid other source sends out stop command and stops the frequency converter the frequency converter is not operated upon vanishing of stop command even through control terminal FWD REV remains valid FWD REV is triggered for the second time to operate the frequency converter Increasing via clockwise rotation of encoder and terminal or decreasing via 0 01 50 00Hz s 0 50Hz s counterclockwise rotation of encoder and terminal
64. able to cord of the keyboard prolong the keyboard Inputting Operation i signal method Keyboard terminal communication Six frequency source in total setting of keyboard analogue voltage analogue current operation for multiple sections PID control remote communication and presetting of keyboard potentiometer can be changed via multiple methods Starting Corotation and inversion signal Speed for 16 sections can be set at most using 11 Frequency setting c 19 deuo Chapter 2 Standard specification Standard multiple multifunction terminal or program execution sections Acceleration of multiple sections Interrupt controller output Operation of pendulous Operation of process control frequency Operation with low speed Fault Automatically or manually reset the fault state when the resetting protection function is at an effective state PID feedback Including DC 0 10V DC 1 5 DC 0 20mA and DC signal 4 20mA Motor situation showing stop acceleration and deceleration constant speed and state of programme operation Output of sensitive point AC 250V 5A DC 30V 5A Two analog outputs can choose 8 signals such as frequency current voltage and so on and output signal scope can be set randomly among 0 10V 0 20mA Acceleration 4 sections can be set at most using multifunction terminal 19 deuo Operating condition Outputting signal Output of digital quantity U
65. accomplishing the output frequency of mini AC frequency vector inverters during the debugging period of the control system 0 valid moreover the AC frequency vector inverters saves without power supply It can set frequency inverter what is more it can saves this frequency value after the power failure of the inverter and it can automatically combine with current setting frequency after next electrifying 1 valid moreover the AC frequency vector inverters doesn t save without power supply It can set frequency inverter what the difference is that this frequency value can t be stored after the power failure of the inverter 2 Invalid increasing via clockwise rotation of encoder and terminal or decreasing via counterclockwise rotation of encoder and terminal as well increasing or decreasing of the terminal of encoder is invalid and the setting will automatically reset 3 the setting for increasing via clockwise rotation of encoder and terminal or decreasing counterclockwise rotation of encoder and terminal as well increasing or decreasing of the terminal of encoder at operation state is valid the setting for increasing via clockwise rotation of encoder and terminal or decreasing via counterclockwise rotation of encoder and terminal as well increasing or decreasing of the terminal of encoder at halt state reset Notice after the user makes the operation on recovering the default value for the function parameter of AC fr
66. ains the current output frequency 20 Prohibition of torque control AC frequency vector inverter changes from the control model of torque to the control mode of the speed 2 Temporary removal for UP and DOWN setting of frequency when the terminal closes the frequency value set via increasing of clockwise rotation and decreasing of counterclockwise rotation can be removed and it can make the given frequency recover to the frequency preset by the inverter channel of the frequency When the terminal breaks it will return to the frequency value after the setting for UP and DOWN of the frequency 22 DC brake of halt during the process of deceleration halt when the terminal closes it will make AC frequency vector inverter make brake immediately and working condition of the braking can be decided among 02 07 02 09 23 Choice for terminal of acceleration and deceleration time 1 24 Choice for terminal of acceleration and deceleration time 2 25 Slow down and stop 90 Chapter 6 Inverter of function parameter Describing LED OLED Filtering times of switching value Set filtering time for the sampling of DIA terminals This parameter should be increased under the condition of serious interference to prevent fault operation 0 Double line control model 1 Operation mode of terminal 1 Double line control model control 2 2 Three line control model 1 3 Three line control model 2 This parameter defines fou
67. andard specification JP6C200 dimension figure c 19 deuo 35 59 L 7 09 1 8 B EE DIGITAL PANEL Ee PRO RN MODE ERR P0015 5 Vp Chart 2 6 JP6C200 dimension JP6E200 dimension pu n 17 5 7 _ 5 C3 DIGITAL PANEL RUNAONE DE Es Chart2 7 JP6E200 dimension 21 Chapter 2 Standard specification JP6D200 dimension figure of keyboard cabin c 19 deuo The keyboard has keyboard bin and it needs dimension with square hole 74 79 0 1 X 123 88 0 1 Chart 2 8 JP6D200 dimension 22 Chapter 3 Installation and redundant circuit Chapter 3 Installation and redundant circuit 3 1 Service environment 1 Environment temperature 10 40 2 Prevent electromagnetic interference and be far away from interference source 3 Prevent the invasion of water drop vapor dust dirt cotton fiber and lemel 4 Prevent the invasion of oil salt and corrosive gas 5 Avoid vibration 6 Avoid high temperature and humidity and there is drench from the rain and the humidity is smaller than 90 RH without condensation 7 Prohibit being used in environment with inflammable combustible and
68. arameters beside P03 group 2 AC frequency vector inverter recovers default value for all parameters including P03 group 3 AC frequency vector inverter eliminates recent fault files 0 Invalid Choice of AVR 1 The whole process is effective function 2 It is invalid only for deceleration AVR function is the automatic adjustment function of output voltage When AVR function is invalid output voltage will change with the change of input voltage or DC bus voltage When AVR function is valid output voltage will not change with the change of input voltage or DC bus voltage and output voltage will basically keep constant within scope of the output capacity Notice when the motor stops with deceleration it will automatically stabilize the voltage and AVR function closes and it will stop the machine in much shorter time without overvoltage 6 2 3 P02 group control group of the start and stop Describing LED OLED 0 direct start 1 firstly DC brake and then 37 P02 00 Start operation mode start 2 firstly tracking of rotate speed and the start 0 direct start start with starting the frequency 1 firstly DC brake and then start firstly make DC brake based the setting of 02 03 and 02 04 9 19 1deuo and then start with starting the frequency It is applied to the place with small inertia load and it may cause reverse rotation at the start 2 firstly tracking of rotate speed and the start AC frequency
69. ating of contravariant module External fault Fault of current detection Fault for self study of motor Operation fault of EEPROM Break line fault for feedback of PID Brake unit fault Chapter 4 Operation keyboard AC frequency vector invertersoverload 0 0 0 0 0 Protection of user password Notice the menu specially shows the implication of 0 0 0 0 0 If the starting shows five points beside the data it means it has password protection The function code which can make password input is P15 which is retention parameter area of manufacturer and P07 16 the setting area of user password Please contact with the local agency or the manufacturer when prompt which is not listed In the above table is met 4 4 5 LED displays corresponding sign Correspondence between the sign showed by LED and character or number 15 as following Corresponding Letter Corresponding Letter Corresponding 7 1 2 gt 4 5 Password operation and key Set password enter into function code of password Verify password Enter into function code of password and the parameter in the password protection can be seen via inputting the password once please refers to inverter of the password Clear password After successively inputtin sword directly enter Into the menu enter Into the menu via enter Into the function code of password to set 00000 after successfully clearing the pas
70. bing LED OLED 3 Reference No Code sanu Setting range Factory Change 9 191deuo N 82 15 stage Acceleration and deceleration time selection 208 11 35 0 0xFFFF P11 15 E stage running 0 6553 ss 0 0s 1116 Multistage speed 7 100 0 100 0 0 0 gt 11 17 stage running 0 655355 0 06 1118 Multistage speed 8 100 0 100 0 0 0 1119 8 stagerunning 00 6553 s 0 0s P11 20 Multistage speed 9 100 0 100 0 0 0 gt eee 0 0s P11 22 Multistage speed 10 100 0 100 0 0 0 o P11 23 s stage running 0 0 6553 5s 0 06 P11 24 Multistage speed 11 100 0 100 0 0 0 1125 stage running 6553 5 0 05 9 P11 26 Multistage speed 12 100 0 100 096 0 0 gt P1127 aja 0 0 6553 5s 0 05 11 28 Multistage speed 13 100 0 100 0 0 0 P11 29 m stage running 0 0 6553 5s 0 06 gt P11 30 Multistage speed 14 100 0 100 0 0 0 11 31 ine 19 stage running 9 0 6553 5s 0 0s P11 32 Multistage speed 15 100 0 100 0 0 0 p1133 the 15 stagerunning 9 0 6553 5s 0 05 9 Simple PLC the 207 P11 34 0 7 stage Acceleration 0 0xFFFF 0 112 deceleration time Simple PLC the 112 ON 4 9 191deuo N Chapter 6 inverter of function parameter Describing LED OLED EE Reference Keyboard display t doo Prise We selection selection MIA CEN
71. ce with payment 3 Sale manufacturing and agency unit of our company all over the country can provide after sale service for the product and the service condition is as following 3 1 Make three level inspection service at the place where the company 15 including fault removal 3 2 It should be made according to the relative responsibility requirement in the contract content signed by our company with the agency 3 3 You can ask agencies of POWTECH for after sale service with payment whether the product 15 maintained or not 4 If the responsibility for quality and product accident of the product appears responsibilities in article 1 1 or 1 2 can be undertaken at most if the user requires more warranties of professional liability please insure property insurance in insurance company in advance 5 warranty period of the product is a year since the date of dispatch 6 If the fault is caused by the following reasons it will be maintained with money even if it is within the warranty period 6 1 Incorrect operation subject to the inverter or the problem caused by voluntary repairing or transformation without authority 6 2 The problem caused by using AC frequency vector inverter exceeding the requirement of standard specification 6 3 Damage caused by falling or improper movement after the purchasing 6 4 Device aging or fault caused by bad environment 6 5 Damage caused by earthquake fire wind and water disaster lightning s
72. ck 126 1 Increase acceleration time 2 Look for help 3 Inspect whether peripheral equipment has strong interference source 1 Increase acceleration time 2 Inspect input power 3 Select AC frequency vector inverter with a larger power 1 Increase deceleration time 2 Add suitable dynamic braking component 3 Select AC frequency vector inverter with a larger power 1 Inspect the load or reduce the mutation of the load 2 Inspect input power 3 Select AC frequency vector inverter with a larger power 1 Inspect input power 2 Avoid stopping and restarting 1 Increase deceleration time 2 Increase dynamic braking component 3 Inspect input power 1 Install input reactor 2 Add suitable dynamic braking component Undervoltage fault 1 Low network voltage 1 Inspect input power of of generatrix 2 1 Inspect network voltage 2 Set rated current of the motor again 3 Inspect load and adjust lifting capacity of the torque 4 Select proper motor Chapter 8 Failure checking and removal Failure type Possible reason of the failure 1 increase acceleration time 1 Acceleration is to fast 2 Restart 2 Avoid stopping and the motor in rotation restarting 3 Low network voltage 3 Inspect network voltage 4 Too big load 4 Choose AC frequency vector inverter with a much bigger power 1 Inspect input power 2 Inspect installation wiring overload of AC frequency vector inverter Default phase a
73. cy be the same as 1 4 Remote communication sets upper limiting frequency be the same as 1 9 191deuo N Selection for given source of upper limiting frequency Particularly at the state of torque control output power of AC frequency vector inverter can be changed via changing the upper limiting frequency frequency It is used to set the highest frequency of AC frequency vector inverter and it is the base for setting the frequency and the speed of acceleration and deceleration The user should pay more attention to it Upper limiting of 2 operation P01 09 P01 07 Maximum 50 00Hz frequency frequency The upper limiting value for output frequency of AC frequency vector inverter and it should be smaller or equal to maximum output frequency 11 9 191deuo Chapter 6 inverter of function parameter Describing LED OLED Setting range Factory setting Change Keyboard display L limiti pol 29 P01 09 ower Imiting of 0 00Hz POL 08 limiting 0 00Hz operation frequency of operation frequency Lower limiting value of operation frequency When the frequency set is lower than the lower limiting frequency the lower limiting frequency operates Maximum output frequency should be bigger or equally to upper limiting frequency which is bigger or equal to lower limiting frequency Keyboard sets the 0 00 Hz P01 07 Maximum 30 P01 10 frequency frequency 50 00Hz When the f
74. d operating frequency in order to meet process requirements The inverters can achieve 16 speed change control there are four kinds of acceleration and deceleration time for selection Set by the PLC to complete a cycle the switch output terminal will output an ON signal 173 PIL00 Pumpe 0 2 Operation mode 0 Stop after the first run The inverter automatically shut down after completing a round robin you need to run the command is given before starting again 1 The final value after the first run to keep running Inverter automatically after completing a round robin at the operating frequency of the last paragraph direction 2 The loop runs After the completion of a cycle inverter automatically starts the next cycle until the shutdown command the system downtime CUED Pll 11 03 11 07 9 191deuo Diagram 6 21 Simple PLC description selection 0 Power off no memory 1 Power off memory PLC down memory refers to the memory of the PLC before power operation phase the operating frequency time PUO Multi speed Multi speed 1 100 0 100 1000 10004 0 00 PILOS PILOS Mulisped2 Mulisped2 100 0 100 1000 10004 0096 110 Chapter 6 Inverter of function parameter time time time time time time time 9 191deuo N Chapter6 Inverter of function parameter 206 P11 33
75. e when analog selects 0 20mA for the input what voltage corresponded by 20mAis 10V 100 096 Set by simulated input corresponds with maximum frequency P01 07 and 100 0 corresponds with maximum frequency of the response Please refer to the inverter of P06 19 and P06 20 for KI K2 4 simple PLC run set please check P11 group instruction for reference 5 Setting for operation of multiple speed the AC frequency vector inverter will operation via the method of multistep speed after selecting this setting method of the frequency It is necessary to set the parameter for control group of multistep speed in and P11 for determine the corresponding relation between the given percentage and given frequency 6 Setting of PID control operation mode of AC frequency vector inverter is the control of process PID if this parameter is selected At this moment it is necessary to set PID control group in P10 group The operation frequency of AC frequency vector inverter is the frequency value after the effect of PID Please refer to the inverter of PID function for the implication of given source fixed amount and feedback source of PID 7 Setting of remote communication the frequency is preset by the upper computer via communication method Please see Attachment I communication protocol for detail 8 Presetting for keyboard encoder Corresponding value for the starting point and end point of keyboard encoder can be used as positive and negati
76. e and leading wire for detection circuit of AC frequency vector inverter and connect the shielding layer to the ground reliably 7 3 4 Solution for the interference of AC frequency vector inverter on its surrounding electromagnetic equipment the noise in this part Is divided into two types one 15 the radiated interference of AC frequency vector inverter and the other is the conducted interference of AC frequency vector inverter the interference makes the surrounding electrical equipment have electromagnetic or electrostatic induction then the interference can further make the device have wrong operation Please refer to the following solutions for different interferences 1 generally speaking meter receiver and sensor used for measuring has weak signal and they are easy to interfere and cause wrong operation when they are near to AC frequency vector inverter or in the same control cabinet with AC frequency vector inverter it is suggested to use the following methods to solve it be away from the interference as far as possible don t lay the signal line and power line horizontally in particular don t bind them together signal line and power line uses shielding cable and connects with the ground well add ferrite bead to the output side of AC frequency L 19 deuo 123 L 19 deuo Chapter 7 EMC Electro Magnetic Compatibility vector inverter blanketing frequency should be within 30 1000 2 and roll 2 3 rings EMC output
77. e set as to switch the function then this key could be used to change the rotation direction Under the operation state if press and at the same time it would make the AC frequency vector inverters stop freely 1 inverter channel of terminal LED flicks forward rotation reverse rotation of multifunction terminal forward jog and reverse job make inverter control 2 inverter channel of communication LED lightens operation inverter is controlled by upper computer via communication 0 valid moreover the AC frequency vector inverters saves without power supply 1 valid moreover the AC frequency vector inverters doesn t save without power supply 2 increasing decreasing invalid setting 3 Setting is valid for the operation reset when the machine stops Increasing via clockwise rotation of encoder and terminal 22 01 02 or decreasing via counterclockwise rotation of encoder and terminal setting 74 Chapter6 Inverter of function parameter Describing LED OLED Setting range Factory setting Keyboard display Set the frequency by means of increasing via clockwise rotation of encoder and terminal decreasing via counterclockwise rotation of encoder and terminal as well increasing or decreasing of the terminal increasing frequency setting or decreasing frequency setting of encoder it has the highest authority and it can combine with channels set by any frequency It is used mainly for
78. e the match between AC frequency vector inverter and motor in order to guarantee the control performance if their difference is very obvious the control performance of AC frequency vector inverter will obviously reduce Notice resetting rated power P03 01 of the motor will initialize motor parameter of 03 06 P03 10 me Stator resistor of 0 001 65 535Q Type setting motor mar Rotor resistance of 0 001 65 535Q Type setting motor Stator and rotor i ms inductance of motor ME 56 9 191deuo Mutual inductance for 59 stator and rotor of 0 176553 5mH Type setting motor 0 01 655 35A Type setting motor After normal self study of motor parameter setting value of P03 06 P03 10 will automatically update These parameters are basic parameters for vector control with high performance and they have direct effect on the performance of the control 0 No operation 1 Comprehensive self study of self study of motor parameter parameter 2 Static self study of parameter 83 9 19 deuo F Chapter 6 inverter of function parameter Describing LED OLED 5 dtes Setting range Factory setting 0 No operation 1 Self study of rotate parameter nameplate parameter ofthe motor P03 01 P03 05 must be input correctly before self study of motor parameter and separate the motor with the load and make the motor have a static and unloaded state or the result for self study of motor parameter may be wrong
79. ease appoint function module card required in your order For 1m 3m Extension cable 5m and 10m Apply Keyboard with the universally for function of PT200series 10 2 Moulded case circuit breaker MCCB or earth leakage circuit breaker ELCB Being the power switch of AC frequency vector inverter MCCBor ELCB can also protect the power supply notice MCCB or ELCB can t be used to control the start and stop of AC frequency vector inverter 10 3 AC reactor AC reactor can restrict higher harmonic for the input current of AC frequency vector inverter and obviously improve the power factor of AC frequency vector inverter It is suggested to use AC reactor in the following situation Proportion between power capacity at the place of AC frequency vector inverter and capacity of AC frequency vector inverter is higher than 10 1 Thyristor load or power factor compensation device with ON OFF control is connected to the same power supply Unbalance factor for the voltage of three phase supply is too high 2396 Dimension for AC input reactor with regular size is as follow 133 193dej Chapter 10 Option 4 9D4L 5 e m 134 Chapter 10 Option Dimension mm Size mm of AC frequency vector inverter Specification B Chapter 10 weight kg B B EUM Q az Q Q ON 8 1 12 s 90 8 80 185 180 12 8 90 90 80 12
80. ectrical machine parameter Parameter of vector control P05 V F controls parameter User defined Parameter of vector control Analog and digital input function Input terminal group Human computer Parameter set of user menu interface group Chapter6 Inverter of function parameter Describing LED OLED 1 jJ j disnlay Function description Reference page Analog and digital input function Acceleration and deceleration and jog of pendulous frequency Control group of multiple Set of multiple speed and PLC speed operation Communication interface Set for communication function group of MODBUS Protection parameter P Set of protection parameter group Function group of water Set for the parameter of supply constant pressure water supply Manufacturer s function Set of manufacturer s group parameter Describing LED OLED Keyboard display 9 19 deuo N Currently actual output vector inverters Currently actual constant frequency of Inverter P00 02 DC bus voltage Estimated value of DC bus voltage Output voltage of AC P00 03 frequency vector Actual output voltage of Inverter inverters Output current of Actual output current of P00 04 inverter inverter Actual rotate speed of Actual running speed of the 00 05 the motor motor 49 P00 00 Operation frequency frequency of the AC frequency 0 Chapter6 Inverter of function parameter Describing LED OLED Setting range
81. en it 1s charged and the charging time should be more than 1 2 hours The test mentioned above should be made once every year Pressure test can t be made randomly it will make the lifetime of AC frequency vector inverter shorten As for insulation test it can be measure by means of a 500V megger before the use and its insulation resistance can t be smaller than 4 9 4 Measurement judgment X When normal meter is used for measure the current the current at the input terminal will have imbalanced phenomenon it belongs to a normal phenomenon when the difference is within 10 if the differency is 30 the original factory 130 Chapter 9 Maintenance and overhauling should be informed to change the rectifier bridge or check whether the deviation of three phase voltage exceeds 5V When three phase voltage of the output adopts is measured by normal multimeter the data read by it 1s not inaccurate due to the interference of carrier frequency and it can be only used for reference 131 6 19 deuo E 1 1deuo Chapter 10 Option Chapter 10 Option The user can install the peripheral equipment for the products of this group due to their connections Vhree phase store curent supply EA ade S La on n m 1 MOC Prev ple E moque m
82. ency the temperature rise noise and vibration of the motor will increase slightly because the output voltage of the AC frequency vector inverters is PWM wave If the side the AC frequency vector inverters has capacitance improving the power factor or voltage dependent resistor for lighting protection it will cause instant over current of the AC frequency vector inverters or damage the AC frequency vector inverters because the output voltage of the AC frequency vector inverters is PWM wave Please don t use it If contactor between the power supply and input end of the AC frequency vector inverters is installed then it won t allow this contactor to control the start and stop of the inverter If it is necessary to use this contactor to control the start and stop of the inverter the interval can t be bigger than one hour Frequent charge discharge easily shortens the service life of the capacitor in the AC frequency vector inverters If switching element such as contactor installed between output terminal and the motor it should be guaranteed that the switching operation of the AC frequency vector inverters should be made without output Or it easily causes the module damage in the inverter It is improper to use PT200 AC frequency vector inverters by and the voltage range stipulated in this manual or it easily causes the device damage in the inverter If it is necessary please use corresponding rising and dropping equipment to make transforma
83. ency vector inverters based on the rated current of the motor 2 Cooling fan 3 Zx67y non variable frequency motor and rotor spindle is connected with the same axis cooling effect of the fan reduces when the rotate speed reduces therefore install powerful cooling fan or replace variable frequency motor when the motor 15 too hot 3 The AC frequency vector inverters has been installed with standard parameter of adaptive motor it is necessary to make parameter identification or modify default value according to practical situation to correspond with the actual value or it may affect the operation effect or protection performance 4 shortcircuit in the cable or motor will cause the alarm of the AC frequency vector inverters or even explosion of the motor so please make a short circuit test of insulation for the motor with initial installation and it is necessary to make such a test in daily maintenance Notice make sure to completely disconnect the AC frequency vector inverters with the part required to be testing when such a test is made 1 Never connect alternating current power supply with terminals like U V and W for output end of the inverter 2 The panel must be fixed and locked before electrifying in order to avoid personal injury caused by harmful components like internal capacitance 3 Tasks such as wiring and inspection can t be made after the power 15 connected 4 After the electrifying of this device please don t touch
84. equency vector inverter frequency set by increasing decreasing of the encoder and terminal automatically reset 0 Keyboard setting 1 Setting of analog 2 Setting of analog AI2 3 K1 AI1 K2 AI2 4 Simple PLC run set 5 Setting for operation of multiple speed 6 Setting of PID control 7 Setting of remote communication 8 Presetting for keyboard potentiometer 9 Analog All and Ascending UP Descending Down 10 Analog AI2 and Ascending UP Descending Down 11 KI AII K2 AI2 and Ascending UP Descending Down Selection of frequency inverter 75 9 191deuo N Chapter6 Inverter of function parameter Describing No Code LED OLED Setting range Factory setting Change Keyboard display Select the channel for inverter input of A frequency of AC frequency vector inverter and there are seven given frequency channels 0 Keyboard setting achieve the aim that the keyboard sets the frequency via altering the value of function code P01 03 keyboard sets the frequency 1 Setting of analog All 2 Setting of analog AD 3 Setting for analog K1 AI1 K2 AI2 it means that the frequency is determined by the input terminal of the analog Standard configuration of PT200 AC frequency vector inverter provides two simulated input terminals among them is the voltage input with 0 10V 0 4 20mA and 2 is the input with 0 10V 0 4 20mA and input of current or voltage can be switched via jumper JP2 and 1 1 Notic
85. erters and power source should separated by circuit breaker or it may cause fire alarm ePlease confirm that the power source is at zero energy state before the wiring or it will have electric shock hazard ePlease make a correct and standard ground connection for the AC frequency vector inverters based on the standard it will have electric shock hazard e Never 2 connect Input power with output terminals U V and W danger of the Inverter Pay attention to the sign of terminal blocks don t connect the wire with mistake or it may cause the damage of the actuator eMake sue circuit matched meets the requirement of EMC and the safety standard in its region Please refer to the suggestion of this manual for wire diameter of the wire used Or it may have accident e Never connect break resistor between and terminals of DC bus or it may cause fire alarm eEncoder must use shielded wire moreover shielding layer must guarantee reliable ground connection of a single terminal Chapter 1 Inspection and Safety Precautions Before electrifying After electrifying In service Maintenance ePlease confirm whether the voltage class of input power Is consistent with rated voltage class of Inverter whether the circuit connected is firm enough or it may cause the damage of the actuator e There is no need in making pressure test for any part of the inverter the product is made such as test when it leaves the
86. esponse 15 shorter than the processing time of the system then the delay of response is subject to the processing time of the system if the delay of response 1s longer than the processing time of the system then it will prolong the waiting after the system disposes the data until it is time for the delay of response and then can the data be sent to upper computer Delayed fault time of 216 communication 0 0 invalid 0 1 100 0s When the setting of this function code is 0 0s parameter for timeout of communication 15 invalid When this function code is set to an effective value if the interval time between a communication and next communication exceeds timeout of the communication the system will report fault error of communication E CE Generally speaking it is set to a invalid state If set this parameter in the system of continuous communication it can monitor the communication condition 0 alarm and random parking 1 No alarm and continuous operation 2 Halt according the halt method without alarm only for communication method 3 Halt according the halt method without alarm for all control methods Disposal for 217 um transmission error 9 191deuo N 0 alarm and random parking 1 No alarm and continuous operation 2 Halt according the halt method without alarm only for communication method 3 Halt according the halt method without alarm for all control methods AC frequency vector inverter can choose whether
87. f subordinate 1s 1 247 0 1s the address of broadcast communication The address of subordinate machine must be unique in the network As the following chart 148 Matching resistor E 120ohm 1 4W E L RX RS485 T4 T GND __ SG 503 50 504 s 504 18 2 N Inverter Inverter verter PC Inverte 4 Protocol inverter Communication protocol of PT200 series AC frequency vector inverter is a kind of principal and subordinate MODBUS communication protocol of asynchronous series and there is only one device host machine in the internet which can establish protocol it 1s called as query or command Other devices subordinate machine can only response to the query command of the host machine via providing data or make corresponding activities based on query command of host machine Host machine refers industrial control equipment or programmable logic controller PLC on personal computer PC and subordinate machine refers to PT200 AC frequency vector inverter Host can not only make communication with a subordinate machine but also issue the broadcast message to all subordinate machines The subordinate machine will give a message it is called response for query command with independent visit as for the broadcast information given by host machine it is unnecessary for the subordinate machine to feed it back to the host machine 5 Structure of communication material 149 xipueddy ill xipuoddy C
88. f the inverter 2 analog AI2 sets torque be the same as 1 3 analog 2 sets torque be the same as 1 4 setting of multi torques be the same as 1 5 Remote communication sets torque be the same as 1 200 0 200 0 rated current of the inverter 50 0 0 Keyboard sets upper limiting frequency P01 07 1 Analog sets upper limiting frequency totally corresponds with maximum frequency 2 Analog 12 sets upper limiting frequency be the same as 1 3 Multi sections set upper limiting frequency be the same as 1 4 Remote communication sets upper limiting frequency be the same as 1 5 9 191deuo N Chapter6 inverter of function parameter Describing LED OLED Keyboard display 09 01 76 01 08 Upper frequency limit Oro mn 50 00Hz frequency Pawaq a p ancy 0 00Hz ELM limit 1 1 77 P01 10 Keyboard sets the 0 00 Hz P01 07 maximum 50 00Hz perry ora frequency 0 Operate towards defaulted Choice of operation 33 P01 13 directi p 1 Operate towards opposite direction 2 Prohibit reversal operation P01 14 0 5 15 0kHz Type setting frequency 0 No operation 1 Recover default value beside the Recovery of function group of electric machine parameter 2 Recover default value including parameter group of electric machine parameter 3 Eliminate fault files Reference
89. factor 50 200 NM NM of VC slippage 0 P04 07 Setting for upper limit 0 0 200 0 rated current 150 0 84 of torque of Inverter 54 Chapter 6 Inverter of function parameter 6 1 7 P05 group V F control parameter Describing LED OLED Factory Reference 00 V F curve of line V F curve of multipoints 2 1 V F curve for dropping torque of 2 power 3 1 V F curve for dropping torque of 4 power 70 P05 00 Setting of V F curve 4 1 V F curve for dropping torque of 6 power 5 1 V F curve for dropping torque of 8 power 6 2 V F curve for dropping torque of 0 power 0 o7 0 0 7 50 0 rated 72 P05 02 Deadline of torque boost frequency of relative motor i Sorenson Ig s 0 0 V F slippage Threshold value for low P05 04 frequency of restricting 0 500 5 vibration Threshold value for high 75 P05 05 frequency of restricting 0 500 100 vibration P05 06 Clipping value of restricting 0 10000 5000 DEM vibration 87 Demarcation frequency for 0 00Hz P05 07 low and high frequency of PO1 07 maximum 12 50Hz restricting vibration frequency 87 0 restricting vibration is 78 P05 08 Restrict vibration ake l J restricting vibration 15 Invalid P05 09 V F frequency point 1 0 00HZ P05 11 0 00HZ EXEE 55 9 191deuo N 9 191deuo Chapter 6 operation Describing LED OLED Function selection of DII terminal Function selection of
90. facturer s function Describing LED OLED Code Keyboard display Setting range Factory setting Change Manuf id TT ibd a This group is the manufacturer s parameter the user should not try to open the parameter in this group or it will make abnormal operation or damage of AC frequency vector inverter 121 9 191deuo L 19 deuo Chapter 7 EMC Electro Magnetic Compatibility Chapter7 EMC Electro Magnetic Compatibility 7 1 Definition Electromagnetic compatibility refers to the operation of electrical equipment in the environment with electromagnetic interference it doesn t disturb the electromagnetic environment and stabilize its ability on realizing its function 7 2 Introduction of EMC standard Based on the requirement of national standard GB T12668 3 AC frequency vector inverter should meet the requirement of electromagnetic interference and anti electromagnetic interference The existing products of our company implements the latest international standard IEC EN61800 3 2004 CAdjustable speed electrical power drive systems part 3 EMC requirements and specific test methods and national standard GB T12668 3 IEC EN61800 3 mainly inspects AC frequency vector inverter from electromagnetic interference and anti electromagnetic interference Electromagnetic interference makes test on the radiated interference conducted interference and harmonic interference of AC frequency vector inverter for civil AC
91. feedback of sensor 0 Inverter channel of keyboard LED goes out 2 P01 01 Operation inverter 1 inverter channel of terminal channel LED flicks 2 inverter channel of communication LED lightens 50 Chapter 6 Describing LED OLED Keyboard display Increasing or decreasing of decoder and terminal set Selection of frequency inverter Selection for the setting of torque Keyboard sets the torque Choice for the setting source of upper limiting frequency inverter of function parameter Setting range Factory setting no I 0 valid moreover the AC frequency vector inverters saves without power supply 1 valid moreover the AC frequency vector inverters doesn t save without power supply 2 increasing decreasing invalid setting 3 Setting 1s valid for the operation reset when the machine stops 0 Keyboard setting 1 Setting of analog All 2 Setting of analog AI2 3 K1 AI1 K2 AI2 4 Simple PLC run set 5 Setting for operation of multiple speed 6 Setting of PID control 7 Setting of remote communication 8 Presetting for keyboard potentiometer 9 Analog All and Ascending UP Descending Down 10 Analog AI2 and Ascending UP Descending Down 11 2 12 and Ascending UP Descending Down 0 Keyboard sets torque corresponding with P01 05 1 analog AII sets torque totally corresponds with two times as the rated current o
92. frequency is 0 1 Random parking after the halt inverter is valid AC frequency vector inverter stops the output instantly The load stops freely based on mechanical inertia P02 06 Start frequency for halt 0 00 P01 07 Maximum 0 00Hz brake frequency P02 07 Waiting time for halt 0 0 50 0s brake P0209 09 DC DC braking time of halt time DC braking time of halt halt 00 5048 0000000 0 50 0s 9 191deuo Start frequency braking of halt during the halt process of when this Is reached DC braking of the halt starts Start frequency for the braking of halt is 0 then the DC braking is invalid and the AC frequency vector inverter stops the machine based on the deceleration time set Waiting time for halt brake before the DC brake of the halt AC frequency vector inverter blocks the output it will start DC brake after this time delay which is used to prevent overcurrent fault caused by DC brake which is started with high speed DC braking current of halt it refers to the increased DC braking capacity The bigger of this value the bigger the torque of the braking torque DC braking time of halt it refers to the time for the duration of DC braking capacity It is shown as Chart 6 4 and reverse rotation 8l Chapter6 Inverter of function parameter Describing LED OLED Keyboard display Setting range Factory setting Set the transient time at zero frequency of the output d
93. giving up carry bit participating in the check Standard structure of ASCII frame 150 Communication address 8 bit the address is composed by two ASCII codes Address Lo function 8 bit the address is composed by two ASCII codes DATA 1 Data content nx8 bit Data content is composed by 2n ASCII codes n lt 16 32 ASCII codes at most DATA 0 LRC check code 8 bit check code is composed by two ASCII codes LRC CHK Lo Terminator END Hi CR 0x0D END Lo LF 0x0A CMD command inverter and DATA description for data word Command code 03H read N words Word it can read 16 words at most For example the start address 0107 for AC frequency vector inverter whose address of subordinate is 01 reads two value continuously the host machine orders the message RTU and the host machine orders the message CMD 03H END 1 2 3 4 response message of subordinate machine START T1 T2 T3 T4 ADDR High position for data address 0007H Low position for data address 0007H High position for data address 0008H Low position for data address 0008H CRC CHK low position Its CRC CHK value need calculating CRC CHK high position END T1 T2 T3 T4 Command message for ASCII host machine START ADDR 151 xipuoddy B xipuoddy 1 1 High position of the start address High position of the start address o X 4 High position for number of the date KO High position for the number
94. ication module E oH1 16 Fault for overheating of contravariant module E oH2 17 External fault CE SET 18 Communication fault E CE 19 Detection fault of current 20 fault for self study of motor E tE 21 operation fault of EEPROM 22 Fault for break line of PID feedback E PId 23 Brake unit fault E bCE 24 Reservation END Record recent fault types of AC frequency vector Inverter 0 Fault free 1 24 is about 24 different faults see fault inspection and removal for detail 118 P07 10 Operation frequency of 0 00Hz current fault 97 E 9 191deuo Chapter 6 inverter of function parameter Describing LED OLED Keyboard display range Factory setting setting m P07 11 Output current of current fault 190 P07 12 Busbar voltage of 0 0V current fault State for input 121 P07 13 terminal of current fault State for output 122 P07 14 State for input terminal of current is a decimal number state order for all digital input terminal when it hows the latest fault is Current input terminal is ON and its corresponding bit is 1 OFF is 0 and the state for digital input signa can be known via this value State for output terminal of current is a decimal number state order for all digital input terminal when it hows the latest fault is Current output terminal is ON and its corresponding bit is 1 OFF 15 0 and the state for digital output ignal can be known via
95. ication 129 DI amp nput terminal Control loop a JP is uscd as the terminal DI5inpu termina DI6 SG Itisusec when AC frequency vector 015 A interface of commun ca ion SG inverters is sed as the us terminal JP1 pe Q 5V 100mA DISinput termina 5 1 54 ACIDUM DI3 2 Cammaunicatian DI2inpu termin 3 COM card optionali 5 012 1 2Drain outpu of c 6261 terminal short cireuit default IDriveof drain electrode 2 3Sourcc output J gt 7 O t24V 1 ofshortcircoi of Jumper for terminal resistance 5 LN E onthepanel Disconnesticn is gocs Dll input terminal 2 not used as the terminalShort N circuit is used as the termiral 2 0 011 I 1 hort sireuiRS48 3 hort zircuiRS23 I ce 0 PLC can cunect Par with 24 or COM COM it can be alco _ used as exrernal r T COM power 1835 Source diver 4 JP4 2 1 2Short AO1V 0 12V DG 1 Sbort circuit 25 used fer marulacturersiesl 3 Normal working time fault 2 3Short circuit AO1CO 20mADC 4019 GND 1 f Analog output AO The bigges load current 2 10 SmA The biggest loac imp 2dance cf QU z mA 250 nd 1 should share Satan L rOPLC 2 3Short circuit d ma the same ground JP5 Analog 402 rive
96. ication parameter 68 6 1 15 P13 group Protection function grouD 70 6 1 16 P14 group function group of water supply 71 6 1 17 P15 group manufacturer s function group T1 6 2 inverter of function 2 6 2 1 group monitoring function 72 6 2 2 P01 group basic function 73 6 2 3 P02 group control group of the start and 80 6 2 4 group motor parameter 82 6 2 5 P04 group parameter of vector control 84 6 2 6 P0O5 group V F control parameter 85 6 2 7 P06 group input terminal group 88 6 2 8 PO7group human computer interface group 94 6 2 9 POS group output terminal group 98 6 2 10 P09 group enhancement group 101 6 2 11 P10 group PID control group 106 6 2 12 P11 group control group of multistep speed 110 6 2 13 P12 group communication parameter group 115 6 2 14 P13 group protection function group 118 6 2 15 P14 group wa
97. imit for output 100 0 100 0 of AOL Upper limit 133 08 10 corresponds with 0 00V 10 00V 10 00V output of AOI The above function defines the corresponding relationship between simulated input voltage and simulated input extra part will be calculated based on maximum input or minima input when the simulated voltage exceeds the scope of maximum input or minimal input When the simulated output is current output what voltage corresponds with 1mA is 0 5V Simulated output capacity corresponded by 100 0 of the output value at different application occasion will be different please see the inverter of every application part for the detail Analog output I 100 0 For quantitative chart6 14 corresponding relation between fixed variable and analog output 100 Chapter 6 inverter of function parameter Describing LED OLED operation frequency setting frequency rotate speed of operation output current PORTE lamama a akay n o output power output torque Input value of analog All Input value of analog AI2 9 10 Reservation Lower limit for output gt Lower limit 136 P08 13 corresponds with 0 00V 10 00V 0 00V output of AO2 137 8 14 Upper limit for output 100 0 100 0 of AO2 Upper limit 138 08 15 corresponds with 0 00V 10 00V 10 00V output of AO2 There are one multifunctional output termi
98. in P14 04 When AC frequency vector is at a dormancy state and the current operation command is effective and the setting frequency 15 bigger or equal to awakening frequency in P14 01 AC frequency vector inverter begins to start after the delay time in P14 02 As a general rule please make the awakening frequency bigger or equal to the dormancy frequency Suppose awakening frequency and dormancy frequency were 0 00Hz then the dormancy and awakening function is invalid When the dormancy function is started 1f frequency source uses PID the calculation for dormancy state is influenced by function code P14 00 at this moment PID must be used to select PID to operate enabling P14 00 10 235 P14 05 Droop control 0 00 10 00Hz 0 00H 0 00Hz 14 06 Effective choice of helper motor 0 3 0 237 P14 07 Delay time for the start and stop of helper motor 1 0 0 3600 0 5 0s 5 0s 238 P14 08 Delay time for the start and stop of helper motor 2 0 0 3600 0 5 0s 5 0s When the same load is driven by many AC frequency vector inverters unbalanced distribution of the load will be caused due to different speed consequently it will AC frequency vector inverter with higher load bear heavier load Characteristic of droop control is that it can make the speed droop change with the increase of the load and make a balanced distribution for the load 6 2 16 15 group manu
99. ine fault of PID PID 0019 Retaining Data for information description of communication fault fault code The when the device makes the response the function code used 15 to show it 1s normal response without mistake or a mistake occurs it is called dissent response The equipment responses corresponding function code data address or subfunction code for normal code The equipment returns a code which is equal to normal code for dissent response but the first position is 1 For example the message sent from a host equipment to the subordinate equipment is required to read the address data for the function code of AC frequency vector inverter and the following function code will be produced 00000011 hexadecimal 03H corresponding with normal response and subordinate equipment responses with the same function code As for dissent response it returns 10000011 hexadecimal 83H the subordinate equipment will response to the abnormal code of a byte except the function code 15 changed due to the dissent error and this defines the reason for producing the abnormal phenomenon After the application of principle equipment receives the dissent response typical treating process is to send the message again or change the command aiming the corresponding fault Abnormal code of MODBUS When the function code received by upper computer is not allowed to Illegal function operate or the subordinate machine deals with the requirement in a
100. isplay pas password 6 2 inverter of function parameter 6 2 1 P00 group monitoring function group Describing LED OLED Currently actual output 1 P00 00 Operation frequency frequency of the inverter Currently actual setting 2 P00 01 Set the frequency frequency of the Inverter P00 02 DC bus voltage Estimated value of DC bus fe voltage Output voltage of AC P00 03 frequency vector ccu 3 inverter inverters inverter inverter P00 05 Actual rotate speedof Actual running speed of the the motor motor Output power of the Percentage for actual output 7 P00 06 AC frequency vector power of the AC frequency inverters vector inverters P00 07 Output torque of the Actual output torque of the Inverter Inverter percentage for the given value P00 08 Given value of PID of PID adjusts the operation percentage for the feedback 10 P00 09 Feedback value of PID mue of PID adjusts the operation rene saote uestem ren v V 72 Chapter6 Inverter of function parameter Describing LED OLED 15 P00 14 Current section of Current section of multiple multiple speed speed 16 POIs nb or 0 100 0 C rectifier module 16 Temperature of 0 100 0 C contravariant module mur L A fficial version Version number B Special edition 19 00 8 200 ope
101. ith 24 or JP4 2 Shortcircuit Analog output AOI AQ COM it can be 3 AO1C 0 20mA DC The biggest load currentof D IOV 5mA Source drier A SD Tte bizmest load imped f gt H 2 20 2507 80 1835Y and 1 2Shor circuit default E L le ppc share ua groun wit 57 circui ee 24 24VCOM The biggest load current of C 10V 5mA 3 M naque S 1 2 xD biggest load impedancc of 2Shart circ ri die fau 1 J 20mA 2501 AO2V 0 10V DC Analog vulpul A02 VR 41 OV 1K I ISAI JP2 Shortcircuit 9 1 0V DC 2 f 17 eaul Output signal 1 11 2W 5 CND Saertcircui 20mADC _ Li CL E PE Fj 1 utput signa XS Fur Dee OPES 1K ICAI2 1 Short circuit 0 10V DC 2W 2 Shortcirewit 0 20 default Beg Outout signal 5A 250VAC 5 26 Chapter 3 Installation and redundant circuit 3 3 3 Wiring diagram for 30kW 630kW 2N3 2N10 Brake unit EE z Selective purchasirg Breakcr Me P Mo cr R R 1 o gt lt 6 5 2 v T2j T lt PTT L3 converter W T3 G Grounded power e Main circuit Grounded motor Isolation RS485 commun
102. ivative time Td decide the strength for PID regulator to regulate the change rate of bias between the feedback variable and given variable of PID Derivative time refers if the change of the feedback variable 15 100 during this period regulation variable of differential regulator is maximum frequency P01 07 1gnoring integral action and derivative action The longer the derivative time the stronger the regulation strength PID is a control method which is frequently used PID every part of PID has different effect the following is a brief introduction about its work principle and regulation method Proportional control P when there is deviation between the feedback and presetting the output and deviation forms proportionable regulating variable if the deviation is constant then the regulating variable is also constant Proportional regulation can quickly response to the change of feedback however the control without deviation can t be obtained only by means of proportional regulation The bigger the proportional gain the quicker the regulating speed of the system if the proportional gain is too big it will cause vibration Adjusting method is to firstly set a very long time for the integral time and set derivative time to 0 use proportional regulation to make the system operate and then change the presetting observe the stable deviation offset if the offset is at the change direction of the presetting e g increase the presetting the
103. leakage current will be big when the motor power 15 large 2 Factors affecting leakage current among lines and solution Output wirings have distributed capacitance if the current passing through the circuit includes higher harmonic then it 1s very likely to cause resonance and then result in leakage current At this moment if thermal relay is used it may make it have wrong action The solution is to reduce carrier frequency or install output reactor It is suggested not to install thermal relay before the motor when AC frequency vector inverter is used And use the protective function for overcurrent of electron of AC frequency vector inverter 7 3 6 Precautions for installing EMC input filter at the input terminal of the power supply 1 Notice rated value must be strictly followed when the filter is sued mental case ground of filter should be connect with metal ground of installation cabinet because filter belongs to I electrical equipment moreover it should have good continuousness of electric conduction or it may have electric shock hazard or seriously affect EMC effect it 1s discovered via EMC test that filter ground and ground at PE terminal of AC frequency vector inverter should be connected to the same public ground or it will seriously affect EMC effect 124 Chapter 7 EMC Electro Magnetic Compatibility 2 Install the filter at the input terminal for the power supply of AC frequency vector inverter as close as pos
104. ltage is abnormal LED OLED display Inspection method Visual sense Visual sense and hearing Visual sense sense of Measure terminal ofR S T and U V and W Judgment standard Confirm based on the use condiition No abnormalities Based on 2 1 clause Based on the stipulation of standard regulation 6 19 deuo Whether the fastener loosens has overhearin 5 Visual trace electric contract General discharge I T fastening No abnormalities view phenomenon and Os cleanin dust and whether its circuit air flue is blocked Electrolytic Whether its Visual surface is contract Conducting Whether 1t Visual T U No abnormalities bar of wire loosens contract Whether Terminal boltorscrew Fastening No abnormalities A means it needs daily or regular Inspection The device can t be disassembled or shaken without excuse connector can t be taken out randomly or it won t work normally or enter into the display state of fault and the fault of component what is worse it may cause the fault of the device or the damage for IGBT module of main switching element Much attention should be given when the measurement is required that different meters may obtain different measurement result with obvious 129 6 19 deuo Chapter 9 Maintenance and overhauling differences Indictor voltmeter Is recommended to measure the input voltage and
105. lue independently or if LSB is 0 it won t make the inspection The whole process should be made for eight times When the last bit the 8 bit is completed 8 bits for PT200 user manual of next attachment will be different from the current value in register independently finally the value in the register will be CRC value after all bits in the message have been implemented When CRC is added to the message low byte should be firstly added and then the high byte Simple function of CRC is as follow unsigned int crc chk value Cunsigned char data value unsigned char length unsigned int crc value OxFFFF int 1 while Clength crc value data value for 1 0 1 lt 8 1 1 if value amp 0x0001 i crc crc gt gt 1 0xa001 else i crc value crc gt gt 1 j j j return crc value j Definition for the address of communication parameter This part is the communication part and is used for controlling the operation of AC frequency vector inverter the setting for the state of AC frequency vector inverter and relative parameters Read and write the parameter of function code some function code can t be changed and only be used for the manufacturer Marking principle for parameter address of function code Expression rule for parameter address by using group number and mark number of function code High byte 00 01 153 xipuoddy Ixipuoddv Low byte
106. ly shows the effect of this function code reete ir s a binary number with 16 bits 1 0x1FF BITO setting frequency BIT1 busbar voltage BIT2 state of input terminal BIT3 state of output terminal BIT4 given value of PID BITS feedback value of PID BIT6 value of analog BIT7 value of analog AI2 BIT8 Current section of multiple speed BIT9 Setting value of torque BIT10 BIT15 Reservation 9 19 deuo Choice for parameter showed by halt state Under the halt state parameter of PT200series AC frequency vector inverter only shows the effect of this function code P07 07 First two fault types 0 24 0 Fault free P07 08 The first two fault types 96 Chapter 6 inverter of function parameter Describing LED OLED P07 09 Current fault type 9 191deuo N 1 Protection for U phase of contravariant unit E oUP 2 Protection for V phase of contravariant unit E oUP 3 Protection for W phase of contravariant unit E oUP 4 Overcurrent of acceleration E oC1 5 Overcurrent of deceleration E oC2 6 Overcurrent of constant speed E oC3 7 Overvoltage of acceleration E oU1 8 Overvoltage of deceleration E oU2 9 Overvoltage of constant speed E oU3 10 undervoltage fault of generatrix E LU 11 Motor overload CE oL1 12 Overload of inverter E oL2 13 Default phase at output side E PHI 14 Default phase at input side 15 Overheating of rectif
107. multiple functions Only 200 LCB Input signal control panel has DI6 PLC controls the driving form of DI PLC Drain driver PLC connects with 24 DC or terminal external power supply Source driver PLC connects with COM Supplement a The biggest output is 24V 200mA never make a P PPY short circuit between and GND under any 5 SUppy 5 Out put Signal for open collector of output when it moves signal SPA COM Output signal 1 24V DC 150Ma common terminal is COM and function is set by P08 00 and P08 01 SPB COM Output signal 2 condition Chapter 3 Installation and redundant circuit EE TA1 TC1 normally open TB1 TC1 normally porem close and output function is set by P08 02 Provide 10V power supply externally and the PUT Simulated power biggest output current 0 supply It is generally used as external potentiometer and scope for resistance value of potentiometer is 1K Short circuit for JP2 1 2 it can be adjusted among 0 10V Simulated input Short circuit for JP2 2 3 it can be adjusted among signal with 0 20mA multiple P06 09 P06 12 sets the scope of input voltage or functions 1 current P06 11 sets the setting value corresponded by input signal Short circuit for JP3 1 2 it can be adjusted among Input and 0 10V output Simulated input Short circuit forJP3 2 3 it can be adjusted among 0 signal of AD signal with 20mA analog multiple P06 14 P06 17sets the scope of input v
108. n N 7 l for ASCII 7 Even parity check 7 1 for ASCII 8 Odd parity check O 7 1 for ASCII 9 Without verification N 7 2 for ASCH 10 Even parity check E 7 2 for ASCH 11 Odd parity check O 7 2 for ASCH 12 Without verification N 8 1 for ASCH 13 Even parity check E 8 1 for ASCH 14 Odd parity check O 8 1 for ASCH 15 Without verification N 8 2 for ASCH 16 Even parity check E 8 2 for ASCH 17 Odd parity check O 8 2 for ASCH Data format of upper computer and AC frequency vector inverter must be accordant or the communication can t be made Communication address of this method 12 247 0 15 the broadcast address 116 Chapter 6 Inverter of function parameter Describing LED OLED When host machine 15 writing frame setting for communication address of from machine is zero namely communication address of broadcast all from machines on MODBUS will receive this frame but the from machine makes no response Notice the address of from machine can t be set as 0 Communication address of this machine is unique in the network which is the base for realizing point to point communication between upper computer and AC frequency vector inverter Delay for communication 0 200ms 5ms response Delay of response it refers to the interval from the accomplishment for data acceptance of AC frequency vector inverter to sending response data to upper computer If the delay of r
109. nals of the number and one multifunctional output terminal of relay well as a multifunctional output terminal of of analog in the standard unit of PT200 series AC frequency vector inverter 6 2 10 P09 group enhancement group 0 1 3600 05 Type setting As for the acceleration and deceleration time please choose P01 11and P01 12 and the acceleration and deceleration time mentioned above please refer to relative inverter of PO1 11and P01 12 Acceleration and deceleration time 1 and acceleration and deceleration time 2 3 and 4 be switched via multifunctional input terminal of the number Please see P06 group input terminal group for detail P09 06 Operation frequency of 0 00 P01 07 maximum 5 00Hz JOG frequency Acceleration time of P09 07 TOG operation 0 1 3600 05 setting 101 9 191deuo N 9 191deuo u Chapter 6 inverter of function parameter Describing LED OLED ESKA Keyboard display range Factory setting setting Deceleration time of P 0 1 Type settin Define the presetting frequency and acceleration and deceleration time for the JOG operation The start and stop method of JOG operation is direct start and halt with deceleration Acceleration time of JOG refers to the time required by AC frequency vector inverter from 0Hz to maximum output power P01 07 Deceleration time of JOG refers to the time required by AC frequency vector inverter from maximum output power to P01 07 P09
110. nc Starting temperature for the fan can be set 12 Input terminal Protection AC frequency vector function inverters protection Chapter 2 Standard specification Less than 15 millisecond Continuous operation tant fall insi sa Qi and More than 15 millisecond automatically detect the motor then restarting speed and restart after instant power failure Tracking method of Automatically track motor speed at the start of the inverter parameter setting supervisor password and decode 18 monitoring objects of the operation in total operation frequency setting frequency rated current of the motor current percentage DV bus voltage output voltage actual Operation speed of the motor accumulative operation time IGBT information temperature PID given value feedback value of PID state of input terminal state of output terminal value of analog value of analog AI2A current number for speed of multiple sections and setting value of torque Keep five error messages at most and inquire fault type Error message voltage current frequency and working condition when the fault occurs LED display Display parameter OLED display Options available inverter in Chinese English LED O LED show keyboar d Using special keyboard of parameter copy can realize the Parameter copy quick copy of the parameter limited too OLED Realize partial or complete lock of the button define the effec
111. ncy vector inverter after the initialization Notice the user must choose this function carefully because it may cause serious consequence 6 2 4 P03 group motor parameter group Describing LED OLED Keyboard display Setting range Factory setting 0 G type load type of constant Type of AC frequency torque Type setting vector inverter 1 P type load type of fan and pump 9 19 deuo F 0 It is applied to the load of constant torque with assigned rated parameter 1 It is applied to the load of variable torque with assigned rated parameter Notice the user can set the parameters in this group for changing the type and realizing the integration of G P AC frequency vector inverter with 220V is only for G type 82 Chapter6 Inverter of function parameter Describing LED OLED P03 01 Rated power of motor 0 4 900 0Kw Type setting P03 02 Rated frequency of 0 01 Hz P01 07 maximum 50 00Hz motor frequency paw gas Type setting E motor Rated voltage of 0 460V Type setting E Rated current of ee 0 1 2000 0 setting E Notice please make the setting based on the nameplate parameter of the motor Excellent control performance of vector control requires accurate motor parameter AC frequency vector inverter provides function for self study of parameter Accurate self study of parameter comes from correct input for the nameplate parameter of the motor Please guarante
112. nformation Refer to 4 4 5 LED displays corresponding sign cue Modification state of Under display of the stop and parameter press the shuttle key to enter via direct parameter eft rotation and right rotation 4 6 2 Display status and ot of operation process Under the three level menu and the state of password authentication IS used for the bit choice of the data editing Automatic switch of the state It automatically returns to the display state of the stop parameter or operation parameter without key operation for one minute After removing the editing state of the menu it returns to the display state of the stop parameter or operation parameter without key operation for one minute If it has the password setting or lock device of the key it will automatically returns to the password protection and lock state of the operation panel without the key operation for 5 minutes e Display state and operation process 41 19 deuo i p 19 deuo mi Chapter 4 Operation keyboard Power on Y The stop machine parameters display RUN T The exit STOP altered by RESET time PRG 3 EET CES Directfrequencynodification Shuttle buttonto the lefito the altered by time right ES 1 1 Transport level parameters displayed PRG A transport levelparameters displayed h E PRG function ese School PRG 2 E password codeby 1 ESC Password verification status PRG func
113. ng LED OLED Keyboard display Disposal for transmission error Disposal for transmission response 0 alarm and random parking 1 No alarm and continuous operation 2 Halt according the halt method without alarm only for communication method 3 Halt according the halt method without alarm for all control methods 0 writing operation with response 1 writing operation without response 6 1 15 P13 group Protection function group Describing No Code LED OLED Keyboard display Input the protection 219 P13 00 selection of default phase Output the 220 P13 01 protection selection of default phase rotection selection 221 P13 02 e of motor overload 222 P13 03 Protective current of motor overload Under clocking 223 P13 04 point for instant power failure Descent rate for instant power failure Protection for 225 P13 06 overvoltage and speed reduction 226 P13 07 Protective for voltage of Setting range 0 Prohibit Permit 0 Prohibit Permit 0 No protection 1 Ordinary motor having compensation with low speed 2 variable frequency motor without compensation with low speed 20 0 120 0 rated current of motor 70 0 110 0 voltage of standard generamatrix 0 00Hz P01 07 Maximum frequency 0 Prohibit Permit 110 150 380V series 70 Chapter 6 inverter of function parameter Reference page Reference Chapter 6
114. ng for data of function code Under stopping operating state increasing for frequency presetting or presetting of closed loop Under first level menu decreasing of function code 15 Decreasing of Under the second level menu increasing for labeling of function code counterclockwise Under the third level menu decreasing for data of function code rotation Under stopping operating state decreasing for frequency presetting or presetting of closed loop mn Increasing of clockwise rotation Potentiometer Key the function is the same with 36 Chapter 4 Operation keyboard 4 4 Menu style Menu display adopts three level menu style and they are shown as following respectively 1 Group number of function code first level menu 2 Label of function code secondary menu 3 Set value of function code three level menu 4 4 1 First level menu style Structure of first level menu P 0 0 Function code Group number in the area area Chart4 2 Structure of first level menu inverter for area of first level menu Active area of Area of function code Group number Scope of function code password in the area 06 group P06 00 P06 18 Protection area of user User s operation password 00 14 area P00 P 14 07 group 07 00 07 14 08 group P08 00 P08 12 P09 group 09 00 09 21 10 group 10 00 10 10 P11 group 11 00 11 50 12 group 12 00 12 06 group P
115. nnect again 6 look for service 7 look for service 8 look for service External fault 1 Activity for external input 1 Inspect the input of terminal of SI external equipment 1 Improper setting of Baud rate 2 Adopt the communication mistake of serial communication fault 2 Press to reset and Set proper Baud rate Communication Ww 3 Long term interrupt of communication 127 look for service q 1o9 deuo q 19 deuo Chapter 8 Failure checking and removal Failure type Possible reason of the failure No N Failure code Fault of current detection on circuit Fault for self study of motor Reading and writing fault of EEPROM Break line fault for feedback of PID Brake unit fault Shutdown display 1 Bad contact for connector of control panel 2 Damage of auxiliary power 3 Damage of Hall device 4 Abnormal amplifying circuit 1 Mismatching between the motor capacity and capacity of AC frequency vector inverter 2 Improper setting for rated parameter of the motor 3 Large deviation between the parameter obtained by self study and standard parameter 4 Overtime self study 1 Mistake for the reading and writing of control parameter 2 Damage of EEPROM 1 Break line for feedback of PID 2 Disappearance for feedback source of PID 1 Fault of brake circuit and damage of brake pipe 2 Small external brake resistor value 1 Low input voltage 2 Impro
116. nor injury and damage of the equipment Type of safety matters Content of safety precautions ePlease don t install when it is found that control system has water the part is insufficient or damaged when the box is opened ePlease don t install when the packing list 1s in consistent with the matter time el ift and put lightly when it is moved or there will be Preinstallation danger of destroying the equipment ePlease don t use the actuator with damage or AC frequency vector inverters with missing parts or there will be danger of being injured e Don t touch the component of the control system with your hand or there will be danger of static destroy ePlease install on flame retardant objects like metal Be far away from combustible material Or it may cause fire alarm AN eDon t screw fixed bolt of the equipment component randomly particularly the bolt with red sign e Don t drop wire head or screw into the actuator Or it may cause the damage of the actuator e Please install the actuator at a certain place with litter A vibration and direct sunlight otice e Please pay attention to the installation location when put two inverters into one cabinet to guarantee the effect of heat dissipation ePlease follow the guidance of this manual and the construction should be made by professional electrical engineering staff or unexpected danger will appear e AC frequency vector inv
117. not approved by our company If it used for the equipment e g Lifting appliance aviation system and safety equipment which may cause personal injury due to the AC frequency vector inverters failure such an occasion must be cautiously disposed and reported to our company 19 deuo This device is only allowed to be operated by the staff with qualified training Please carefully read the content about safety installation operation and maintenance in this introduction before your use Safe operation of this device depends on the correct transportation installation operation and maintenance Chapter 2 Standard specification Chapter 2 Standard specification 2 1 Technical specifications 2 1 1 Technical specifications of PT200 ae s DET output Rated input vector inverters rating Kw current A type PT200 0R4G 1B 4 PT200 0R7G 1B Single phase 220V 15 PT200 1R5G 1B PT200 2R2G 1B PT200 004G 1B PT200 0R7G 2B PT200 1R5G 2B PT200 2R2G 2B PT200 004G 2B PT200 5R5G 2B PT200 7R5G 2B PT200 011G 2B Three phase PT200 015G 2B PT200 018G 2B PT200 022G 2 PT200 030G 2 PT200 037G 2 PT200 055G 2 PT200 0R7G 3B Three phase 380V PT200 1R5G 3B 15 l Notice PT200 2R2G 3B motor type T PT200 004G 3B above PT200 5R5P 3B Gncluding 405 10 15 PT200 5R5G 500 3B PT200 Can t 5 5 7 5 15 20 7R5P 3B integrate PT200 7R5G 3B PT200 011P 7 5 11 0 20 26 3B PT2
118. oduction to ultimate user and ask the user to keep it properly which will be beneficial for later maintenance and other applied occasions If there is any trouble during the warranty period please fill in the warranty card and fax it to the dealer or our company The information may be changed during the improving period of this project without prior notice Please consult the website of our company if you want to obtain the latest information Please consult http www powtech cn for information of our other products Shenzhen Powtech Co Ltd CATALOGUE Chapter 1 Inspection and Safety 1 5 1 Lol INSPEC ater unboXID9 c us Dp D dp ded ae Save anne ate 1 1 1 Explanative to nameplate 1 1 1 2 1 1 LOB cu du a duis ad BO Os BCR ay uda efus 2 One ua m ih Oa d e OR 4 l A Range at bo doe b ote Ee AD Rk RN 6 Chapter 2 Standard lt 1 1 11 7 2 Technical specifications ei 7 2 1 1 Technical specifications of 200 T 2 1 2 See the following table for rated output curren
119. of function parameter 6 1 List of function parameter Function of PT200 series AC frequency vector inverters can be divided into 15 groups namely P01 P15 according to the function and every function group includes several function codes The function code adopts three level menu for example P08 08 means the eighth function code in P08 function group and P15 is the manufacturer s function parameter and the user has no right to visit the parameter in this group In order to make convenience for the setting of function code group number of the function number of function code and parameter of function code respectively corresponds with the first level menu the secondary menu and three level menu when the operation panel is used for operation 1 inverter for the content in the line of menu is as following NUMBER in the first line it 15 the serial number for this function code in the whole function code meanwhile it also shows the register address for the communication CODE the second line it Is the serial number for the parameter group of the function and parameter DESCRIBING LED OLED KEYBOARD DISPLAY in the third line it is the detailed description of this function parameter SETTING RANGE in the fourth line it is the effective setting range of the function parameter and it is shown on OLED liquid crystal screen of the operation panel FACTORY SETTING the fifth line it is the original set value for the function
120. of the above LED 16 0 3 Increase with clockwise rotation until the decade of LED shows 2 Press PRG Press ESC Press ESC Increase via ncrease via clockwise clockwise a Flicker rotation Press PRG rotation Press SHIFT key ncrease via n s clockwise ane J k G j Press ESC Press PRG rotations Y Confirmation Flic lick TF icker Flicker Flicker cke cke Chart4 11 Parameter setting 44 Chapter 5 Commissioning Chapter 5 Commissioning Commissioning y Selectiwontrol method set PO 100 Set the motor parameter PO L0O 7 perdoop correctly te Vector control P 3group 0 Select proper accerleration V F control and deceleration time 1 1 1 12 5 for 4 jSelFstudy of motor parameter set P0101 set P03 11 Selectrpoper frequeny order setPO1 02 P01 03and so ori select the start and stop method of the motor set P02 00 select proper accerleration and deceleration time setF L11 P01 12 NO Select the stop method of the motor setPO2415 Start the motor sud observe the phenomenon Please refer to disposal for abnormal fault if abnormal phenomenon appears Achieve the required control _ VES End Chart 5 1 Commissioning 45 J91deuo J91deuo Chapter 5 Commissioning Before Connect the power supply with the variable frequency inverter please firstly confirm the
121. of the date 2 LRC CHK Lo _______ END Hi END Lo response message of subordinate machine of ASCII START ADDR The number of byte 1 High position for data address 0004H 5 ue High position for data address 0005H Verification mode CRC verification mode CRC Cyclical Redundancy Check When RTU frame format is used the message includes error detection field which is based on CRC CRC field inspects the content of the whole message CRC is two bytes and includes binary value with 16 bits It is added to the message after the calculation of transmission equipment The receiving equipment will calculate CRC again which receives the message andmake a comparison with the received value in CRC field if two CRC value is different it means the transmission is erroneous CRC is stored into OxFFFF in advance and then use a process to compare the 152 41 4 3 8 3 2 continuous 8 bytes in the message with value in current register Only the data with 8 Bit 15 effective for the character the start bit stop bit and parity check bit 15 invalid During the producing process of CRC every character with 8 bits is different from the register content independently or XOR the result moves towards the direction of least significant bit and the most significant bit is filled by 0 LSB is drawn to make an inspection if LSB is 1 the register will be different from the preset va
122. ol 0 01 25 10 V F curve method User defines V F curve for linear and multiple power G S type rated current 150 1 minute rated current 200 0 1 second P type rated current 120 1 minute rated current 150 0 1 second Z M T type rated 180 minute rated curren250 0 1 second H type rated current 250 1 minute rated current 300 0 1 second Overload capacity Ev TM Sippe 50 100 compensation for automatic slippage The highest frequency isis MEIN MEN 0 5KHz 15KHz carrier frequency can be adjusted 4 y based on the load characteristics Figure setting 0 01Hz simulation setting the highest frequency x 0 1 Image resolution of output frequency G motor 0 5 2 180 P motor 0 5 2 120 Speed range 1 200 Accuracy of speed Vector control for flux with open loop lt 0 5 rated 10 stabilizing Chapter 2 Standard specification accuracy of speed control synchronous speed vector control for flux with open loop lt 0 3 rated Stability of speed control synchronous speed lt 40ms vector control for with open loop Torque response Automatic torque boost manual torque boost 0 1 96 Torque boost 30 0 Acceleration and deceleration method for line for acceleration and acceleration and deceleration time time scope for deceleration line acceleration and deceleration 0 0s 3600 0s DC braking frequency 0 0Hz maximum f
123. oltage or functions 2 current P06 16the setting value corresponded by input signal Simulated output Short circuit for JP4 1 2 0 10V signal with Short circuit forJP4 2 3 0 20mA multiple 08 03 sets the setting for analog output functions 8 04 08 07 sets the scope of output signal Short circuit for JP5 1 2 0 10V Short circuit for JP5 2 3 0 20mA P08 08 sets the setting for analog output PO8 09 P08 12sets the scope of output signal Simulated output signal with multiple functions 2 3 5 2 Arrangement of control circuit terminal 1 Control circuit terminal of 200LCB panel 10 AI2 AGND 2 DIA 116 485 485 SPA SPB COM amp O60 0 0 60 0 ee OOOO LE 1 1 lll gd L i AOI AO2 AGND DII P DIS 24V PLC COM TAI 31 19 deuo 19 deuo Chapter 3 Installation and redundant circuit 2 Control circuit terminal of 200SCB panel 01 10V DH DB DH DI SPA SPB 00000000 GND GND 485 485 DI2 24V PLC COM TAI 3 6 Wiring precautions gt Don t install absorption apparatus of static capacitance or resistance capacitance at the U V and W output terminal of the inverter The input power supply of the AC frequency vector inverters must be off when the motor 15 changed X Don t drop the metal chip or thread residue into the AC frequency
124. ommunication data format for MODBUS protocol of PT200 AC frequency vector inverter is RTU module of remote terminal unit and ASCII CAmerican Standard Code for Information International Interchange 1 In RTU mode the format for every byte is as follow Instant messaging should start within the interval time of at least 3 5 characters when RTU mode is used Multiple character time under Baud rate of the internet is easiest to realize it is shown as the following T1 T2 T3 T4 The first zone of transmission is equipment address And transmission character which can be used 15 hexadecimal 0 9 A F network equipment constantly detects network bus including the time of pause interval When the first address field is received every device will decode to judge whether address field 1s sent to it After the transmission of the last character the pause for at least the interval of 3 5 characters shows the completion of the message And a new message can start again after the pause The whole message frame must be transmitted as a continuous flow If there still a pause with the interval time of 1 5 characters before the completion of the frame the receiving equipment will renew incomplete information and suppose that next character would be the address field of a new message Similarly 1 a new message starts after the period which is shorter than the interval time of 3 5 characters of the previous message the receiving equipment will regard it as
125. on place for sealing fin ofthe protection optional Location hole of the whole machine Nameplate of POWTECH AC frequency vector inverters e gt XE 2 gt Chart 2 1 Dimension of 2S1 14 Chapter 2 Standard specification Power Level of power supply Type 0 4 1 5 i Single phase 0 4 0 75 220V H 0 4 P 0 75 1 5 G 0 4 1 5 Three phase 220V H 0 4 P 0 75 1 5 2 2 0 75 2 2 Three phase380V 0 75 2 2 lt 0 75 2 2 2 292 c 19 deuo 209 220 WARNING Read instruction manual carefully before instal ation and operation inside Maintaince should be d lined 9 0 High vol performed well trai Make sure to connect the ground terminol before connecting other terminals R e 1 2 n after the Perform maintenance or inspectio LS charge LED turns off fully discharged C J J Chart 2 2 Dimension of 2S2 Chapter 2 Standard specification Level of power supply Single phase 220V c
126. or output oF 4 go 199 0 0 0 mt pos 00 0 00 with output of 2 137 pog 14 Upper limit for output of o 100 0 Upper limit corresponds sn m or Oe 0 00V 10 00V 10 00V 63 9 191deuo N Chapter6 Inverter of function parameter 6 1 11 09 oroup Enhancement group Describing LED OLED ise P09 00 00 09 00 Acceleration time2 Acceleration time 2 2 01 36006 1 3600 05 Type setting setting O EIS e bs rem pessime oem Ile P09 05 05 P09 05 Deceleration time4 Deceleration time4 _ 4 01 36006 1 3600 05 Type setting setting O P09 06 Operation frequency of 0 00 01 07 maximum 5 00Hz JOG frequency Acceleration time of P09 07 JOG operation 0 1 3600 0s Type setting Deceleration time of P09 08 JOG operation 0 1 3600 0s Type setting Ln 09 09 Hopping frequency 0 00Hz frequency P09 10 Range of hopping 0 00 P01 07 maximum 0 00Hz frequency frequency Range of pendulous 0 0 100 0 relative 0 0 100 frequency setting frequency 9 191deuo frequency frequency P09 Times for automatic reset of the fault Setting for interval of P09 16 automatic reset of the 0 1 100 05 Detection value for 0 00 01 07 maximum levelof FDT frequency Detection value for 0 0 100 0 FDT hyste
127. p to three output signals every output signal has nine signals for choice Limiting frequency avoiding frequency slippage Operation function compensation invert protection self adjusting and PID control Built in PID adjusts brake current and protects sufficient Braking of direct current braking torque without overcurrent Three channels presetting of operation panel control Run command channel terminal and serial communication The change via various methods Six digital input terminals can be compatible with active loudspeaker PNP or two input terminals of analog of NPN input method among them All and AI2 can be input as voltage or current if it necessary to expand the function of input and output terminals please use IO expansion cards One digital output terminal bipolar output a relay output terminal and an analog output terminal can respectively Output terminal choose 0 4mA 20mA or 0 2V 10V and realize the output of physical quantities such as setting frequency output frequency and rotate speed Overvoltage protection low voltage protection over current protection overload protection overheat protection protection of overcurrent and speed reduction protection of overvoltage and speed reduction protection of default phase optional functions external fault communication error abnormal feedback signal of PID and PG fault IGBT temperature display Display current IGBT temperature Control of AC freque
128. parameter when it leaves the factory ALTERATION in the sixth line it is the alternative attributive of the function parameter i e whether it allows alternation and alternating condition and the inverter is as follow lt gt shows the set value of the parameter can be alternated whenever the AC frequency vector inverters 15 stopped or operated o shows the set value of the parameter can t be alternated when the AC frequency vector inverters operated m shows the value of the parameter is actual record value of the detection and it can t be changed the AC frequency vector inverters has made an automatic check and restriction on alternative attributive of every parameter and it can help the user to avoid wrong alternation 2 Parameter system is decimal system if the parameter is shown via hexadecimal every data is independent mutually when the parameter 15 edited value range of partial bits be hexadecimal 0 3 Factory setting shows the value after the parameter of the function code 1s updated when the operation of recovering factory parameter parameter or record value 47 9 191deuo 9 19 deuo F Chapter 6 inverter of function parameter of actual detection can t be updated 4 In order to protect the parameter more effectively the AC frequency vector inverters provides password protection for the function code After the user namely parameter for user password P07 00 is not 0 15 se
129. per setting of parameter 3 Shutdown display 3 Inspect the wire at the communication interface 1 Inspect connector and insert the cable again 2 Look for service 3 Look for service 4 Look for service 1 Change the type of AC frequency vector inverter 2 Set rated parameter based on the nameplate of motor 3 Make the motor empty and recognize it again 4 Check motor connection and parameter setting 1 Press to reset and look for service 2 Look for service 1 Inspect break line for feedback of PID 2 Inspect feedback source of PID 1 Inspect brake unit and renew new brake pipe 2 Increase brake resistor 1 Inspect whether the voltage is correct 2 Inspect whether the parameter is correct Manufacturer preservation 128 Chapter 9 Maintenance and overhauling Chapter 9 Maintenance overhauling 9 1 Inspection and maintenance Under the normal use of AC frequency vector inverter it needs regular inspection e g Overhauling of the machine or 6 months at most based on the stipulation besides daily inspection please implement it based on the following table to prevent the potential danger Inspection matter Inspection Inspection Been aa part item EN sem system Input and output terminal Whether the display has exception Whether it Fan has abnormal sound or Temperature surrounding moisture dust and Whether the input and Voltage output vo
130. put corresponding value depending on their experience 6 2 5 P04 group parameter of vector control Describing LED OLED ring 1 3 04 01 Integral time of speed ring 1 0 01 10 00s 055 4 04 02 Low frequency of low switch 0 00Hz P04 05 5 00Hz P04 03 Proportional gain of speed 0 100 ring 2 P04 04 Integral time of speed ring 2 0 01 10 00s 1 00 Chapter 6 inverter of function parameter Describing LED OLED P04 02 67 04 05 High frequency of low switch PO1 07 maximum 10 00Hz frequency The above parameters can be only applied to vector control mode Below switching frequency 1 P04 02 parameter of speed ring PI is P04 00 and P04 01 above switching frequency 2 P04 05 parameter of speed ring PI is P04 03 and P04 04 among them PI parameter can be obtained via the change of two parameter lines it is shown as the following chart PI Parameter 04 00 04 01 04 03 04 04 gt P04 02 P04 05 Output frequency Hz Chart 6 6 Sketch map for parameter of PI Dynamic response of vector control can be adjusted via setting the proportionality coefficient and integral time of speed regulator Dynamic response of speed ring can be strengthened via increasing proportional gain and reducing the integral time however too large proportional gain or too small integral time will easily cause the system vibration and overstrike Too small proportional gain can also cause the
131. r different methods for controlling the operation of AC frequency vector Inverter by means of external terminal 0 Control like two lines Enabling and the direction unifies And this code 15 a code with two lines which is used most common Defined terminal command of FWD and REV decides the forward reverse rotation of the motor as chart6 9 Select channel for operation order Series Inverter 9 191deuo ag Select channel for operation order PT200 Series Inverter Forward run Reverse operation chart 6 10 control like two lines enabling is separated from the direction 1 Double line control model separates the energy and direction The defined FWD is enabling terminal The defined REV status has to confirm the direction Figure 6 10 2 Three line control model 1 DIn is enabling terminal in this model the operation command is 9 9 19 deuo F Chapter 6 inverter of function parameter Describing LED OLED Keyboard display Setting range Factory setting produced by FWD and direction is controlled by REV DIn is a closed input Figure 6 11 Once K is off FWD and REV control is invalid and frequency converter stops Once K is on FWD and REV control is valid Once SBI is pressed FWD terminal rises which means operation command Once is off REV terminal is off which means positive reverse rotation command Once is on REV terminal is on which means positive reverse rotation command
132. r load of fan and pump The function code in this group is only valid for V F control P01 00 0 6 2 7 P06 group input terminal group Describing LED OLED Function selection of 0 No function P06 00 terminal 1 Forward running 2 Reverse run 87 01 Function selection of DI2 3 Trilinear operation control terminal 88 Chapter 6 inverteroffunction 0 P06 02 Function selection of terminal P06 03 Function selection of 014 terminal P06 04 Function selection of DIS terminal P06 05 Function selection of DI6 terminal Describing LED OLED 4 Forward JOG 5 Reverse JOG 6 Random parking 7 Fault resetting 8 Input of external fault 9 UP for frequency setting 10 DOWN for frequency setting 11 Removal for UP and DOWN of frequency setting 12 Terminal of multiple speed 1 13 Terminal of multiple speed 2 14 Terminal of multiple speed 3 15 Terminal of multiple speed 4 16 Temporary stop of PID control 17 Temporary stop of pendulous frequency stop at current frequency 18 Resetting of pendulous frequency return to central frequency 19 Prohibition of acceleration and deceleration 20 Prohibition of torque control 21 Temporary removal for UP and DOWN setting of frequency 22 DC brake of halt 23 Choice for terminal of acceleration and deceleration time 1 24 Choice for terminal of acceleration and deceleration time 2 25
133. r6 Inverter of function parameter Describing LED OLED Factory Code Keyboard display rauge setting pas og Ppp vane ot 0 10000 5000 restricting vibration Boost value for voltage of restricting vibration be limited via setting P05 06 Demarcation frequency for low and high 0 00Hz P01 07 maximum frequency of restricting frequency vibration 12 50Hz P05 07 is the cut off point for function code P05 04 and P05 05 0 restricting vibration is valid Restrict vibration 1 restricting vibration is invalid 0 Restricting vibration is valid 1 Restricting vibration is invalid Function of restricting vibration is for VF control common motor regularly has current shock for the no load or light load operation which can cause the abnormal operation of the motor what is worse it can also cause the overcurrent of AC frequency vector inverter When 05 08 0 enabling restricts the vibration and AC frequency vector inverter will control the vibration of the motor appeared based on the parameter in P05 04 P05 07 function group E ura 0 Failure to actuate 1 Automatic energy saving operation 9 191deuo E Selection for energy saving operation During the process of no load or light load operation the motor can properly adjust output voltage to each the aim of automatic energy saving via detecting the load current Notice this function is particularly effective fo
134. ranon 1 of this machine All of these function codes can be only referred without any change Temperature of rectifier module it shows the temperature of rectifier module different rectifier module of different types may have different protective value of over temperature protection Temperature of contravariant module it shows the temperature of rectifier module different contravariant module of different types may have different protective value of over temperature protection Software version version number of DSP software Total operation time of this machine so far it shows the total operation time of the inverter 6 2 2 01 group basic function group Describing No Code LED OLED Setting range Factory setting Keyboard display 9 191deuo 0 control 1 vector control for open loop flux 1 20 P01 00 Control mode 2 vector control for open loop flux 2 3 closed loop vector control for feedback of sensor 73 9 19 deuo F Chapter 6 inverter of function parameter Describing No Code LED OLED Setting range Factory setting Change Keyboard display Select the operation mode of Inverter 0 V F control it is appropriate for the occasion which has no high requirement on accuracy such as the load of the fan and pump and it can be also applied to the place where one AC frequency vector Inverters can drive many motors 1 vector control for open loop flux 1 it is suitable for general place
135. ration BIT6 output power BIT7 output torque BIT8 given value of PID BIT9 feedback value of PID BIT10 state of input terminal BIT11 state of output terminal BIT12 value of analog All BIT13 value of analog AI2 BIT14 Current section of multiple speed 5 Setting value of torque 9 191deuo ag 59 Chapter6 Inverter of function parameter Describing LED OLED S Sas Reference Keyboard display EAE y 5 1 O0x1FF BITO setting frequency BIT1 busbar voltage BIT2 state of input terminal BIT3 state of output terminal BIT4 given value of PID Choice for parameter BITS feedback value of showed by halt state PID BIT6 value of analog BIT7 value of analog AI2 8 Current section of multiple speed BIT9 Setting value of torque BIT10 5 Reservation 115 P07 07 First two fault types 0 24 0 Fault free 116 P07 08 The first two fault type 1 Protection for U phase 114 9 191deuo 60 Chapter 6 117 Inverter of function parameter Describing LED OLED Keyboard display P07 09 Current fault type Reference Setting range TED Factory setting of contravariant unit E oUP 2 Protection for V phase of contravariant unit E oUP 3 Protection for W phase of contravariant unit E oUP 4 Overcurrent of acceleration E oC1 5 Overcurrent of deceleration E oC2 6 Overcurrent of constant speed 3 7 Overvoltage of
136. rectly contact with our company if there is any problem 1 1 Inspect after unboxing Inspect it includes one machine an manual and a warranty card Inspect name board at the side of variable frequency inverter to confirm the product you obtain is the product you ordered 1 1 1 Explanative to nameplate 4 z TYPE PT200 5RSGITR5SP 3B SOURCE oo 380V 50Hz 60Hz OUTPUT 5 5KW 13A 0 00 400 0 2 lilii SHENZHEN FEAS TECH LTD PONNVTECH CN MADE IU SHENZHEN CHINA Inverter type Input voltage specifications Power output specifications Production serial number 1 1 2 Type inverter 209 004 G b 1 Mudel Code a Sumdeni form 4 Single board m Mirinur ect aothixg 1 breke unit Supply veinge 1 Single phase 27287 2 Three phase 2208 V 3 Timwe plane 388 V 4 5 Tie plume 575V 6 Thece phase 6609 T Theee phase 11407 Z type type for injeet am melding machire 19 deuo 19 deuo Chapter 1 Inspection and Safety Precautions 1 2 Safety attentions Safety precautions 1s divided into following two types in this manual Danger the danger caused by not operating as required can cause serious injury or even death Notice the danger caused by not operating as required can cause moderate arm or mi
137. regular change 130 0 3 Storage and c stod oat a LS QQ 130 9 4 Measurement and judgment 130 Chapter dU DID eau ek des 132 10 1 Optional componentS 133 10 2 Moulded case circuit breaker earth leakage circuit breaker ELCB 133 TOS Oe AG react Lana Qa u uqa 133 Nose 136 OP Suet 2 136 10 6 Brake unit and brake resistor 136 LOS EMI filter fU EDU Eee ao bue eck PSR 137 vates aede ED 137 Jut PT Pose ue ataqu ma ce tnr 137 1050 17 Input filter 137 1050 52 Input filter c690V bin tut Draw E Gh tios t peu ce doin aq s 139 Output Piter rti OY 139 10 10 1 Output filter 380v 139 10 10 2 Output filter C690v2 4255 ES tp a 140 TUI Input SR Ur UR is bod Shee ang auton
138. requency braking tine DC braking 0 0 36 0 second current value for braking movement 0 0 100 0 Range of jog frequency 0 00Hz maximum frequency Electronic control Acceleration and deceleration time of jog 0 0s 3600 0s Realize the maximum operation of 16 sections via Realize closed loop control system with process control Automatic voltage Automatically make the output voltage constant when the network voltage changes Excavator characteristics automatic limitation on torque during the operation period and prevention for frequent overcurrent trip and vector model of close loop can realize the torque control Torque limitation and control Self checking for outside Realize the security detection of electrifying on outside equipment safety of device like ground connection and short circuit electrifying Function of DC bus Realize the function for many inverters to share DC bus ES Programmable key function choice for positive and Personalized key negative operation and jog operation function Pendulous control of textile Multi control functions of triangular wave Built in current limiting algorithm of waveband reduces Current limiting function the probability for the AC frequency vector inverters to of the carrier report over current and improve the whole motor s ability on resisting disturbance Timing control function setting time scope 0h 65535h Standardization for extension The customer can use the standard network c
139. requency dimension and this percentage is the percentage corresponding with maximum frequency P0 10 Data corresponding with the torque dimension the percentage 15 P2 10 setting for upper limiting number of the torque Input the control command into AC frequency vector inverter only for writing Address of command word Command function 0001H forward rotation 0002H reverse rotation 0003H normal inching turning 0004H point turning of inversion 1000H halt 0007H fault resetting 0008H inching stop Read the state of AC frequency vector inverter only for reading Address of status word and function of status word Address of status word and function of status word 1001H Check for the lock of parameter on password Cif the return is 8888H it means the password check is passed Password address Input the content of password Parameter locks the command only for writing Lock the address of password command Lock the content of password command 4001 55 Control for digital output terminal only for writing Description for fault of C frequency vector inverter Fault address of AC frequency vector Fault code Fault information of AC frequency vector inverter inverter 0000 No fault 0001 U phase protection of contravariant unit CoUP 0002 phase protection of contravariant unit 0005H 0006H random halt emergency stop 08H 155 xipuoddy B 0017 Break l
140. requency inverter selects KEYBOARD SETTING then the value of the function code is the initial value set by the figure for the frequency of AC frequency vector inverter Acceleration time of JOG refers to the time required by AC frequency vector inverter from 0Hz to maximum output power P01 07 Deceleration time of JOG refers to the time required by AC frequency vector inverter from maximum output power to OHz P01 07 It is shown as following 4 Output frequency Hz f i ype selection Aciual Time t Actual deceleration time aceeleratiod time set the Setthe acceleration time deceleration time Chart6 1 Sketch map for acceleration and deceleration time When the frequency set is equal to maximum frequency actual acceleration and deceleration time is in accordance with acceleration and deceleration time set When the frequency set is smaller than maximum frequency actual acceleration time is smaller than deceleration time set Actual acceleration time deceleration time set setting frequency or maximum frequency PT200 AC frequency vector inverter has four acceleration and deceleration time The first group P01 11 P01 12 the second group P09 00 P09 01 The third group P09 02 P09 03 the fourth group P09 04 P09 05 The acceleration and deceleration time can be selected via the combination for the selection terminal of acceleration and deceleration time in the digital input terminal with multifunctions 0 Operate toward
141. resis of FDT level 64 0 0 50 0 relative 100 5 2 D PINE range of pendulous 0 0 frequency Chapter6 Inverter of function parameter Describing LED OLED Code Setting range Factory setting Change Frequency reaches 0 0 100 0 maximum 158 P09 19 ee 0 0 102 detection degree frequency 115 0 140 0 voltage of standard generatrix 130 0 103 380V series 159 P09 20 Voltage of brake valve 115 0 140 0 voltage of standard generatrix 120 0 220V series 0 1 999 9 I i machinery rotate speed 160 po9 21 Display coefficientof Z0 operation 100 0 P frequency P09 21 pole number Decrease loading 161 P09 22 frequency at low speed 6 1 12 P10 group control group of PID Describing LED OLED Reference 0 keyboard presetting P10 01 1 Presetting for simulated channel All 162 P10 00 Selection for given 2 Presetting for simulated power supply of PID channel AI2 3 Presetting of remote communication 4 Presetting of multistep speed 163 10 01 Keyboard presets the 100 0 PID presetting 0 Feedback for simulated channel All 1 Feedback for simulated 164 P10 02 2 Sm channel AI2 105 2 Feedback of 2 3 Feedback of remote communication 9 19 deuo N 165 P10 03 Selection for output 0 PID output is positive characteristics of PID 1 PID output is negative Proportional gain 166 P10 04
142. rminal P P Resistance ofdirect current Output terminal of lo aram main power supply brake unit Input terminal of main power supply 4 Maincircuit terminal for 45 220KW 380V ES Input terminal of main power supply 7 1 15 12 3 ulii olola lol los P P U TIV T2W TS3E K2 Ground terminal Y vY Y Y Y P P Resistance Output terminal of direct current P brakeunit Notice standard configuration of P P is the state of short circuit if it is necessary to connect resistance of direct current it should firstly stop it and then connect 5 Main circuit terminal for 250 630kW 380V 29 19 deuo 19 deuo Chapter 3 Installation and redundant circuit eee 69 69 69 69 e SSO S Rut Urn wm wj 1 f 1 Ground terminal DC reactor The main power The main power Brake unit input supply output 3 4 2 Explanation for the function of terminal blocks Input terminal of AC frequency Connect with three phase power supply and connect vector inverters single phase with R and T Connection end for resistance of Aivect current Connect with resistance of direct current removing short circuit 3 5 Control circuit terminal 3 5 1 Explanation for control circuit terminal DII DIG DIO6 input See function P06 00 P06 05 for the detail of input terminal terminal with
143. rminals of the number and 2 input terminals of analog in the standard unit of PT200 series AC frequency vector inverter 6 2 8 P07group human computer interface group Describing LED OLED When the setting 15 any number except 0 the password protection takes effect 00000 remove the user password value set before and make the protection function of password effective and resetting to factory can also remove the password After the user password is set and effective the user can t enter into the parameter menu if the user password is wrong the user can view and change the parameters only by inputting correct user password Please remember the user password set carefully 9 19 deuo Exit the editing state of function code then the password protection will take effect in one minute press to enter into the editing state of function code after the password takes effect it will show 0 0 0 0 0 the operator must input the password correctly or the operator can t enter OLED shows language 0 Chinese 1 English 0 Chinese 1 ENGLISH The above function is only effective for outer keyboard of OLED It is used for choose languages of liquid crystal display 94 Chapter6 Inverter of function parameter Describing LED OLED 0 operation 1 Function parameter of this machine Is delivered to OLED keyboard hinaman 2 Download function parameter of OLED keyboard 110 P07
144. s defaulted direction 1 Operate towards opposite direction 2 Prohibit reversal operation Choice of operation 33 P01 13 direction 78 Chapter6 Inverter of function parameter Describing LED OLED Setting range Factory setting Keyboard display 0 Operate towards defaulted direction AC frequency vector inverter will operate towards actual direction after it is electrified 1 Operate towards opposite direction It is used for changing the direction of motor its effect is to change the rotate direction of the motor via adjusting two random motor lines Notice after the parameter initialization the operation direction of the motor will return to its original state please use it carefully for the place where the rotation direction of the motor is banned after the debug of the system 2 Prohibit reversal operation Prohibit reversal operation of AC frequency vector inverter and it can be applied to specific place where the reverse rotation is prohibited Setting of carrier 1 0 15 0kHz Type f frequency selection Carrier Noise r Electromagnetic Noise Cooling degree PeQueney noise leakage current KHz Large k Small Small LOKHz L6KHz Y Small Y Large Large Chart 6 2 relation scheme for influence of carrier on the environment Model Max Min Factory default 1 5 11 KW 15 0 SKHz 15 55KW AKHz 0 15 185KW 0 5 2KHz 0 200 315KW KHz Chart6 3 Relation form between the type and carrier
145. s terminal Didmputermina 2 2 F 014 TsolationR TIN j Di3nput termina Dis 1 244 Communicatid DIanput terminal 3 COM FA 1 2 Drain output of Source diver COM short circuit default 2 3 Source output jp i PC terminal 24 of short circuit g Jumper for terminal resistant an page Lit E the panelDisconnection is not used as thc terminal Short input termingl 15 used as the terminal DI1 JPG Short circuit 1 xxhort circuit 8485 5 used for manufacturer s test 2 R52321 3 Normal working time fault Tar f Y Analog output AOI PLCcanconneci JPA 2 2shortcircuin default 0 171 The biggest load current of 0 10V Sourcedrier with 07 10 0 Y The biggest load impedance of MOM 1 1 ZShortcircuit g pg y 0 20mA 250 1 r 2 external powe AO1CO 20mADC T OGOM S3SV and it lii ishould share the Drive of drain electrode LC same ground wil La E ut RM E PE VR 10 Short circuit 10V JP2 DO default 243 1 Output signal 1 ew LJ GND 2 short circuit 20mA DC i_ Output signal 2 VR 10V 1 p 1K 2 115 circuit 10 DC 2W D 2 short circuit 20 default o Output signal 3 5A 250VAC BA 30VDC
146. se rate of output frequency due to high load if measures won t be taken for this it will cause overcurrent fault with acceleration and the tripping of AC frequency vector inverter During the operation process of AC frequency vector inverter automatic current limit function will make a comparison with the current limit level point defined in P13 08 via detecting the output current if it exceeds the level point of the current limit then the output frequency of of AC frequency vector inverter will reduce based on droop rate of overfrequncy P13 09 it will return to to normal operation after it detects the current is lower than the level point of current limit As chart 5 23 Output current AJ Overvoltage stall point Output frequency Hz Time t ev e A ON Time t Chart6 21 Speed reduction function of overvoltage 119 Chapter6 inverter of function parameter Output current 4 A Automatic current limiting horizontal points Time t Output frequency Hz Frequency drop rate P13 09decision gt Time t Chart6 22 Speed reduction function of overcurrent 0 current limiting is always effective 1 current limiting is ineffective for constant speed Choice for the selection of current limiting activity Function of automatic current limit is always effective under the state of deceleration whether the function of automatic current limit is effective is decided by the
147. selection 6 1 14 P12group communication parameter group Describing LED OLED i PI Keyboard display pag 0 1200bps 1 2400bps 2 4800bps 3 9600bps 4 19200bps 5 38400bps Setting for Baud 212 P12 00 rate of communication 68 Chapter 6 Describing No Code LED OLED Keyboard display Setting for bit check of data Inverter of function parameter Communication 214 P12 02 address of this method Delay for 215 P12 03 communication response Setting range Factory setting Reference 0 Without verification N 8 1 for RTU 1 parity check E 8 1 for RTU 2 Odd parity check O 8 1 for RTU 3 Without verification N 8 2 for RTU 4 Even parity check E 8 2 for RTU 5 Odd parity check O 8 2 for RTU 6 Without verification N 7 l for ASCII 7 Even parity check E 7 l for ASCII 8 Odd parity check O 7 1 for ASCII 9 Without verification N 7 2 for ASCII 10 Even parity check E 7 2 for ASCI 11 Odd parity check O 7 2 for ASCII 12 Without verification N 8 1 for ASCII 13 Even parity check E 8 1 for ASCII 14 Odd parity check O 8 1 for ASCII 15 Without verification N 8 2 for ASCII 16 Even parity check E 8 2 for ASCII 17 Odd parity check O 8 2 for ASCII 1 247 0 15 broadcast address 12 04 Delayed fault time 0 0 Cinvalid 0 1 of communication 100 0s 69 9 191deuo N 9 191deuo Describi
148. selection of automatic current limit P13 100 P13 10 0 shows current limit is effective when constant speed operates P13 10 1 shows current limit is ineffective when constant speed operates When the current limit operates output frequency may change to some extent so it is not suitable to use the function of current limit for the place where requires statable output frequency for constant speed When current limit is effective it may affect the overload capacity due to the lower setting of current limit level 9 191deuo E 6 2 15 P14 group water supply function No Code pud Setting range Factory setting Change 230 0 halt without operation 1 P14 00 CDCTGHODUUHGHOIEOE halt with operation 0 231 dormancy frequency P14 01 Awakening frequency P14 03 maximum 10 00Hz D frequency P01 07 232 i pagos Pes ume 0 0s 3600 0s 1000 08 awakening 233 D 0 00Hz wakening P14 03 S frequency 5 00Hz PRRI P14 01 E 0 0s 3600 0s 5000s n dormancy The parameter in this group is used to realize the dormancy and awakening function for function of water supply During the operation process of AC frequency vector inverter when the setting frequency is smaller or equal to dormancy frequency in P14 03 AC frequency vector inverter enters into dormancy 120 Chapter 6 inverter of function parameter state and stops automatically after the delay time
149. sible 125 L 19 deuo Chapter 8 Failure checking and removal Chapter 8 Failure checking and removal 8 1 Failure information and removal method Failure type Possible reason of the failure 1 Acceleration 15 to fast U phase protection E oUP of contravariant unit V phase protection this phase E oUP of contravariant 3 Interference causes wrong unit activity 2 Internal breakdown for IGBT of W phase protection 4 whether the grounding 15 good E oUP of contravariant enough unit Overcurrent of acceleration t of Overcurrent constant speed Overcurrent of constant speed Overvoltage of acceleration 01 E 0U2 Overvoltage of deceleration constant speed q 19 deuo B Motor overload 1 Acceleration 15 to fast 2 Low network voltage 3 Low power of AC frequency vector inverter 1 Deceleration is to fast 2 Large torque of load inertia 3 Low power of AC frequency vector inverter 1 Mutation or abnormality of the load 2 Low network voltage 3 Low power of AC frequency vector inverter 1 Abnormal input voltage 2 Restart the motor in rotation after instant power off 1 Deceleration is to fast 2 Large inertia of load 3 Abnormal input voltage 1 Abnormal change of input voltage 2 Large inertia of load 1 Low network voltage 2 Incorrect setting for rated current of the motor 3 Motor block or too large load sudden change 4 High power heavy tru
150. sing via counterclockwise rotation of encoder And pressing can remove the setting value of increasing clockwise rotation of encoder or decreasing via counterclockwise rotation of encoder 0 it is only effective for panel control it is effective for panel control and terminal control Function choice for halt 2 it is effective for panel control and communication aT of control 3 it is effective for all control modes 95 Chapter6 inverter of function parameter Describing LED OLED STOP This function code defines effective choice for halt function of 0 it is only effective for panel control 1 it is effective for panel control and terminal control 2 it is effective for panel control and communication control 3 it is effective for all control modes is effective under any condition for fault resetting 0 0 7 0 operation frequency BITI setting frequency BIT2 busbar voltage BIT3 output voltage BIT4 output current BITS rotate speed of operation BIT6 output power BIT7 output torque Choice for parameter BITS8 given value of PID showed by operation BIT9 feedback value of PID state BIT10 state of input terminal BIT11 state of output terminal BIT12 value of analog All BIT13 value of analog AI2 BIT14 Current section of multiple speed BIT15 Setting value of torque Under the operation state parameter of PT200series AC reete ir s vector Inverter on
151. stem will always detect the feedback variable of PID when the detection variable is smaller or equal to the detection value for the break line of feedback the system begins to inspect the timing When the detection time exceeds the detection time for the break line of feedback the system will report the fault E PId for break line of feedback 9 191deuo N PID control is a common method for the process control it make proportional integral and derivative calculation via the deviation between the feedback variable of controlled variable and signal of the targeted variable to adjust the output frequency of AC frequency vector inverter form negative feedback system and make the controlled variable stabilize at the targeted variable it is suitable for process control such as flow control pressure control and temperature control Framework for basic principle of the control is as follow Output frequency Tothequantitanve Set frequency Control algorithm Percentage gt P nirnl algorithm i Filter Fo Chart 6 20 Functional block diagram of process PID The amount feedback 109 Chapter 6 inverter of function parameter 6 2 12 P11 group control group of multistep speed Description of LED OLED p SETTING RANGE d Keyboard display SETTING Simple PLC function is inverter built a programmable controller PLC to complete the multi frequency logic for automatic control You can set operating time running direction an
152. stor When the user chooses the type with brake the inside of AC frequency vector inverter has brake unit and its maximum brake torque is 50 The user can refer to the following table for separately purchasing brake resistor to make a match with it Specification of Power of Brake resistor ne vector value 0 Brake resistor power W 3000 m Un m 136 Chapter 10 Option If a bigger brake torque of the above built in brake 1s required please choose brake unit of please see the inverter for brake unit of POWTECH for detailed material Other types with high power don t have built in brake Please choose brake unit of POWTECH if the type with high power requires brake function 10 7 EMI filter of output It is used to restrict the interfering noise caused by the output side of AC frequency vector inverter and leakage current of the wire 10 8 AC output reactor When the wiring between frequency vector inverter and motor is too long more than 20 m it is used to restrict the overcurrent caused by distributed capacitance Meanwhile it can also restrict the radio interference of AC frequency vector inverter 10 9 Input filter 10 9 1 Input filter 380V Ao Voltage Power Current Net weight Dimension peta danon V KW A L W H mm dimension 5 a b d mm 137 e m 1 1deuo Eu Chapter 1
153. sword it is unnecessary to Input password for verification when the password 39 19 deuo 19 deuo mi Chapter 4 Operation keyboard protection area 1s entered Effective method of password protection Two of the following methods can be chosen randomly un ESC T at the same time 2 There is no key operation for successive five minutes 3 Electrify again lock and unlock 1 Key lock it can be locked by pressing T at same time SHIFT 2 Key unlock it can be unlocked by pressing ES t At the same time 4 6 Display of operation panel and key operation 4 6 1 Classification of display state display state of operation panel can be divided into 9 types Implication Display state for the stop parameter PP Display parameter can be changed via ial and P07 06 can set display parameter Display state for the operation parameter m Display state for the first level menu Press Or to enter when the key is unlocked ENTER AX Edit status of Press or to enter under the display state of the first secondary menu level menu ENTER Ax Edit status of three or to enter under the display state of the level menu secondary menu Chapter 4 Operation keyboard Press or to enter under the display state of the first State of password level menu when it has password protection authentication State of i
154. t Input R S and T has default the input side phase Output for U V and W default phase or load three phase 15 seriously asymmetric 1 Instant overcurret of AC frequency vector inverter 2 Output three phase has Refer to countermeasures interphase or grounded short of overcurrent circuit 2 Wire again 3 Block of air channel or fan 3 Dredge air flue or damage replace the fan Overheating of 4 Too high temperature 4 Reduce environment rectifier module 5 Looseness for cable of control temperature panel or plug in unit 5 Inspect and connect 6 Damage of auxiliary power again supply and undervoltage driving 6 look for service voltage 7 look for service 7 Direct connection for bridge 8 look for service arm of power module 8 Abnormal control panel 1 Instant overcurret of AC frequency vector inverter 2 Output three phase has interphase or grounded short circuit 3 Block of air channel or fan Overheating of damage contravariant 4 Too high temperature module only for 5 Looseness for cable of control 11 kw 37kw panel or plug in unit 6 Damage of auxiliary power supply and undervoltage driving voltage 7 Direct connection for bridge arm of power module 8 Abnormal control panel Default phase at the output side 1 Inspect output wiring 2 Inspect motor and cable 1 Refer to countermeasures of overcurrent 2 Wire again 3 Dredge air flue or replace the fan 4 Reduce environment temperature 5 Inspect and co
155. t the system will firstly enter into the state of user password authentication when the user press to enter into the editing state of the function code and then what is shown is 0 0 0 0 0 the operator must input user password correctly or the user can t enter It is unnecessary to Input manufacturer s password correctly for the parameter zone set the manufacturer warning the user can t try to change the parameter set by the manufacturer if the parameter 15 not set properly it will easily cause the abnormal work or even destroy of the AC frequency vector inverters The user password can be changed randomly under the condition that the password protection is unlocked the user password is subject to the value input last Setting P07 00 to 0 can cancel the user password if P07 00 is not 0 when electrify then it shows the parameter is protected by password 5 Function of user password also follows the above principle when the serial communication is used to change the parameter of the function code rd 6 1 1 Menu grouping Describing LED OLED Keyboard display Function description Reference page Monitor frequency current and Monitoring function gro ge EUM ETOUp so on 18 monitoring objects Frequency set control method acceleration and deceleration Basic function group time and so on Control group of start Parameter control of the start stop and stop parameter group of Set of electrical machine el
156. t scope of partial buttons to prevent wrong operation Key lock and function choice It can choose isolated RS485 RS232 communication a RS485 RS232 module to realize the communication with the upper computer 10 C 40 C environment temperature is among 40 C Environment temperature 50 C please use it with Environment humidity Less than 90 not exceeding 90 Environment Height vibration Below 1000 m below 5 9m s 0 6g Indoor without sunlight or corrosivity explosive gas or Application place water vapor dust combustible gas oil mist water vapor dropping water or salinity Pollution degree The product implements Product safety standard IEC61800 5 1 2007 standard The product implements EMC standard IEC61800 3 2005 Cooling method Forced cooling and natural air cooling 2 3 Dimension 2 3 1 outline drawing of the product and dimension of installing hole 13 c 19 deuo N c 19 deuo Chapter 2 Standard specification Complete plate of the activity Controlling um 24 cable inlet NND 57 19 Air inlet of we ll air duct X 2 3 2 200 series 1 251 253 251 5 120 I 552 _ 108 _ S DIGITAL PANEL LIN J Z J Upper cover plate Operation interface Installati
157. t with different COL LONG ae toL ates a 9 2 2 Standard Tos boite e orba ACAD ba Ceo Bade ya edad A 10 Ze sed etica n Sd E I E c 13 2 3 1 outline drawing of the product and dimension of installing hole 13 2 3 4 Dimension figure of keyboard 20 Chapter 3 Installation and redundant circuit 23 service environment ai d nu EXC e CRF 23 3 2 Installation direction and 23 Chart 3 1 installation direction and room 23 373 We EUS S iu TII 24 3 9 1 Wiring diagram below 7 53KW 252 253 3 So ben uu ae 25 3 3 2 Wiring diagram for 11KW 22KW 2 172 2 26 3 3 3 Wiring diagram for 630kW 2N3 2N10 21 3 4 Main circuit terminal G type 28 3 4 1 Main circuit terminal of 200 28 3 4 2 Explanation for the function of terminal blocks 30 circuit terminal tee dnt dba teur dU D dU Roa bir anre arae turas des 30 3 5 1 Explanation for control circuit terminal 30 3 5 2 Arrangement of control circuit terminal
158. ter supply 3 inverter for isolation RS 385 4 inverter of RS232 5 inverter of Ethernet card 6 inverter of Profibus card 7 inverter of tension card 8 inverter for card of injection molding machine 9 inverter for data reading card of USB AC frequency vector inverter See specific inverter for the above content 158 Product warrant card of POWTECH product Thank you sincerely for purchasing the product of POWTECH This product has been passed the strict quality inspection of POWTECH warranty period any hardware fault caused by the quality of this product within the normal use based on the inverter of this guarantee card POWTECH will provide free maintenance for the fault Product type Serial number Warranty period Purchasing date Year Month Date Invoice number Customer name or company name Post code Telephone Fax Address Telephone Fax Agency seal 159 User s feedback form for the fault of POWTECH AC frequency vector Inverter Dear users please fill in the following form for us to provide a better service for you Condition of load and control Motor power and poles Rated current Frequency range of the motor of normal work ofanotextile machineo speed control terminal extruder Speed speed control Load type adjustment Opumpoinjection molding mode OPID speed control nspeed control of machine loads upper computer No PG V F control
159. ter supply function 120 6 2 16 P15 group manufacturer s function 121 Chapter 7 EMC Electro Magnetic Compatibility 122 Tel loh Aaah Oe ee eM del 122 12 Dutroductrtonepr MOS tanda cos aue d ec Mob tede i Seda 122 PAE UAC thes ed tech E E ES Ped ste E EE 122 T Inphdencesoc Harmonic Ea 122 7 3 2 Electromagnetic interference and installation notes 122 7 3 3 Solution for the interference of surrounding electromagnetic equipment on AC frequency vector inverter 125 7 3 4 Solution for the interference of AC frequency vector inverter on its surrounding electromagnetic equipment 123 195320 Leakage current and disposal 124 7 3 6 Precautions for installing input filter at the input terminal of LHe DOWEr supply Sous demus dedita ad dre Say eR UR RA home a AG 124 Chapter 8 Failure checking and removal 126 8 1 Failure information and removal method 126 Chapter 9 Maintenance and overhauling 129 9 1 Inspection and maintenance 129 9 2 Device required
160. the continuation of the previous message This will cause a mistake because the last value appearing in CRC field is wrong Frame format of RTU Frame header START T1 T2 T3 T4 transmission time for 3 5 bytes Address field of subordinate machine Communication address 0 247 decimal system 0 is ADDR broadcast address ae 03H read the parameter of the subordinate machine u MD 06H write the parameter of the subordinate machine Data field Data for 2 N bytes and this part is the main content of the DATA N 1 communication and it is also the core for data exchange in the DATA 0 communication CRC CHK low post high post Estimated value CRC proof test value 16 Frame END T1 T2 T3 T4 transmission time for 3 5 bytes 2 In ASCII mode the format for every byte 15 as follow In ASCII mode frame header is 0x3A and frame default is CRLF 0xOD 0x0A In ASCII mode all data bytes are transmitted by means of ASCII mode except frame header and end ten bytes at the first four highest place will be firstly sent and then ten bytes at the last four highest place will be sent In ASCII mode the data has 8 bit As for A F adopt the ASCII coder of their capital letter Now the data should be checked by using LRC And the check covers the address of subordinate machine and partial information of the data The checksum is equal to complement code for character sum of all data
161. this value P08 group output terminal group Describing LED OLED Output choice for 0 No output numerical magnitude of 1 Motor is at the state of SPA forward rotation 2 Motor is at the state of reverse rotation Output choice for numerical magnitude of 3 Fault output SPB 98 Chapter 6 inverter of function parameter Describing LED OLED 4 Level detection of frequency and PDT output 5 Reach Frequency 6 Zero speed operation 7 Reach frequency of upper limit 8 Reach frequency of lower limit P08 02 Output choice of relay Sn M 10 Reached 11 ready signal 12 Motor Forward Reverse running 13 auxiliary motor start 14 auxiliary motor2 start 0 No 1 Forward rotation of AC frequency vector inverter If there is frequency is output when the AC frequency vector inverter rotates forward then ON signal will be output 2 Reverse rotation of AC frequency vector inverter If there is frequency is output when the AC frequency vector inverter rotates reversely then ON signal will be output 3 Fault output when AC frequency vector inverter has fault the ON signal will be output 4 Frequency level detects the reach of PDT and please refer to the detailed inverter for function code of P09 17 and P09 18 5 please refer to the detailed inverter for function code of P09 17 and P09 18 for the reach of frequency 6 During the operation of zero speed when the output frequency of A
162. tifier bridge X Don t connect AC input power with output terminals of inverter U V and 32 Chapter 3 Installation and redundant circuit W X In order to avoid the accident ground terminal must be connected to the ground reliably ground impedance should be less than or leakage will appear Choice for specification of wiring diameter should be according to related stipulation of National Electric Code when main circuit wiring is made X Electric motor capacity should be equal to or less than the capacity of the inverter 3 7 Redundant circuit It will cause serious halt loss or other sudden failures due to the fault or tripping of the inverter In order to avoid such a condition appears please increase the following circuit backup for the sake of safety Notice redundant circuit should be confirmed in advance and its operation feature should be tested in advance to guarantee the consistence between phase sequence of power frequency and variable frequency Three phase power supply MCC1 R lt R U S PT200 AC frequency vector V L m ds T inverters W MCC2 Mutually interlocking AC contactor 33 19 deuo Chapter 4 Operation keyboard Chapter 4 Operation keyboard 4 1 Introduction of operation keyboard DIGITAL PANEL FWO REW ALARM e DIGITAL PANEL RUNITUNE FWDIREW MODE ALARM Main menu P00 Monitoring Functi 19 deuo mi
163. tion Nopasswordor verified codeby 1 Two menu display Three menu display 4 7 Operation examples Display parameter for the stop in the following example is the set frequency and the factory setting is 50 00Hz Anything with underline in the diagram represents current editing bit 4 7 1 Recover factory parameter For example set P01 15 1 Recover all parameters in P area beside parameter of generator system to the factory setting Increase via s Increase via Press PRG S TA Press PRG gt clockwise rotation Press ESC Press PRG a Increase via Press ESC Press PRG clockwise La iei Confirmation rotation Flicker Chart 4 6 Recover factory parameter 4 7 2 Setup set frequency For example set P01 10 50Hz to 40Hz 42 Chapter 4 Operation keyboard The first step P01 03 O0 the default 15 7 which shows the decoder is effective The second step see the following chart Increase via Increase via Press PRG clockwise Press PRG clockwise a z5 rotations Press PRG Press ESC Counterclockwise Press ESC Press PRG rotation declinen Twice Flicker 39 SHIFTk Confirmation EP Flicker I Chart4 7 Setup set frequency 4 7 3 Password setting For example set the user password from P07 00 to 0005 Notice it can be effective only after the second electrifying when thesetting 1s ncrease via Press PRG
164. tion disposal Don t change three phase AC frequency vector inverters of PT 200 to two phase for use Or it may cause breakdown or damage the inverter Chapter 1 Inspection and Safety Precautions No Types of attention Precautions contents Protection of lightning impulse Use of altitude and derating Some special usages Attention for the abandonment types of AC frequency vector inverters About adaptive motor The AC frequency vector inverters has protection device for lighting strike and over current and it has certain self defensive ability for the inductive thunder The customer should install protection device before the AC frequency vector inverters at frequent occurrence of the lightning It is necessary to use it via derating in the region where the altitude is above 1000m due to the weakening cooling effect of the AC frequency vector inverters caused by thin air Please make a technology consulting to our company for such a condition Please consult our company if it is necessary for the customer to use the connection method beyond the suggestions provided in this manual like DC bus It may cause explosion when the electrolytic capacitor of main circuit and printed board burn And the burning of plastic parts will cause poisonous gas Please dispose it as industrial refuse 1 Standard adaptive motor is asynchronous induction like a quadrupole squirrel cage If it is not the above motor please select the AC frequ
165. tion with low speed protection selection of motor 2 variable overload frequency motor without compensation with low speed 0 No protection Have no protective feature of motor overload please use it carefully at this moment AC frequency vector inverter has no overload protection for the load motor 1 Ordinary motor having compensation with low speed Corresponding thermal protection of the electron should be adjusted properly because heat dissipation for common motor becomes weaker so called compensation with low speed herein refers adjusting protective value value for motor overload whose operation frequency 15 lower than 30HZ 2 Variable frequency motor without compensation with low speed It is unnecessary to adjust the protection value of the operation with low speed because the heat dissipation for the motor exclusively used by variable frequency is not influenced by the rotate speed 229 20 0 120 0 Protective current of P13 03 current of motor 223 TESTOR ME 7 aspas qq COIS OF P13 04 for instant power ahire standard generamatrix ot 0 00Hz P01 07 maximum P13 05 frequency of Instant i frequency m 226 power failure Protection for 0 Prohibit P13 06 overvoltage and speed 1 Permit reduction 0 1 Protective for voltage i s 120 LEN P13 07 of overvoltage and speed reduction 110 150 220V series P13 06 0 Prohibit 1 Permit
166. tions When 5 00 2 5 curve with 1 2 power and 1 8 power is applied to liquid load of other mediums When 5 00 6 curve with 2 0 power is appropriate for centrifugal load such as fan and pump Output voltage V Straight line 227 2 timesthe power 4 timesthe power 6 times the power 8 times the power times the power gt fb 3 fb Output frequency Hz Voltage Vbi 9 19 deuo F l L E 1 F2 F3 Fb Frequency Noto F1 lt F2 lt F3 lt Fb V1 lt V2 lt V3 lt 100 Chart 6 7 Sketch map of V F curve 86 Chapter6 Inverter of function parameter Describing LED OLED 5 Factory Keyboard display range setting 07 1 07 0 0 0 72 P05 02 Deadline of torque boost 06 209 fau 20 0 frequency of relative motor Torque boost is mainly used below cut off frequency P05 02 and V F curve after updating is shown as following and the torque boost can improve torque feature with low frequency of V F the torque capacity should be chosen properly based on the load the boost can be increased for large load however the boost value can t be too big if the torque boost is too big the motor will operate with overexcitation output current of AC frequency vector inverter will increase motor heating will increase and the efficiency will reduce When the setting of torque boost is 0 0 AC frequency vector inverter has automatic torque boost Cut off point of the torq
167. to shield CE fault halt or maintain continuous operation via setting disposal activities of communication error under abnormal communication condition 0 writing operation with Disposal for response transmission response 1 writing operation without response When the unit for LED of this function code is set to 0 AC frequency vector inverter responses to the reading and writing order of upper computer When the unit for LED of this function code is set to 1 AC frequency vector inverter only responses to the reading order of upper computer and has no response to writing order and this method can improve the communication efficiency 117 9 191deuo Chapter 6 inverter of function parameter 6 2 14 P13 group protection function group Describing LED OLED Keyboard display Setting range Factory setting Change 219 Input the protection A Prohibit P13 00 selection of default 2 BIO i 1 o 1 Permit phase Select whether to protect the default phase of the input 18 5KW AC frequency vector inverter for G type of of POWTECH or above this power can have the protection function of input default no matter the setting of P13 00 is 0 or 1 power below 18 5KW P type has no protection function of input default Output the protection 0 Prohibit selection of default 1 Permit Select whether to protect the Input default 221 0 No protection 1 Ordinary motor having compensa
168. tor light Temperature indictor light Time indictor light Hz A V unit Bright the AC frequency vector Inverters has fault Off the AC frequency vector ALARM Alarm light Inverters has no fault Red Flicker previous fault of the AC frequency vector Inverters hasn t been confirmed RPM 35 p 19 deuo i Chapter 4 Operation keyboard Parameter setting Escape key Exit the data modification of function item Return to state display menu via submenu or function menu SHIFT gt gt Te Under third level menu use to move data edit bit of SHIFT function code Under stop operation state recurrently select display parameter to make state of stop run display inquiry see 07 05 07 06 for refer meaning of display Forward Inch runs of inverter Operation Key Switch between forward and reverse rotation of inverter Reverse Inverter eliminate setting of increasing of clockwise rotation Operation Key decreasing of counter clockwise rotation 19 deuo B gt Shift key Confirm Key of the data Operation key Use for operation under the method of keyboard operation Actuator stops operation Stop Reset Key Abnormal reset Fault confirmation Enter menu screen each level and confirm setting of parameter Under the first level menu increasing of function code P00 P15 Under the second level menu increasing for labeling of function code Under the third level menu Increasi
169. tory setting Mr Keyboard display 9 19 deuo N 0 G type load type of constant AC frequency vector torque inverters type 1 P type load type of fan and pump pose 0 4 900 0KW Type setting motor P03 00 Type setting P03 03 Rated rotate torque 0 36000 Pm Type setting of motor P03 04 Rated voltage of 0 460V Type setting motor 53 PE i 82 gt P03 02 Rated frequency of 0 01Hz P01 07 maximum 50 00Hz motor frequency DES Chapter 6 inverter of function parameter Describing LED OLED Setting range Factory setting Change ee Keyboard display pas motor DES Rotor resistance of 0 001 65 5350 Type setting motor 58 P03 08 Stator and rotor 0 1 6553 5mH Type setting inductance of motor Mutual inductance Type setting 59 P03 09 for stator and rotor 0 1 6553 5mH 82 of motor P03 10 No load current of 0 01 655 35A Type setting DES the motor 0 No operation 1 Comprehensive self study of 61 P03 11 parameter 82 P 2 Static self study of parameter 6 1 6 04 eroup Vector control parameter Describing LED OLED Reference P04 00 Proportional gain of 0 100 speed ring 1 ring 1 4 02 Low frequency of low 9 oor poa gs 5 00Hz ep switch P04 03 Proportional gain of speed ring 2 9 191deuo P04 04 Integral time of speed 0 01 10 00s ring 2 P04 05 e frequency of low P04 02 P01 07 10 00Hz witch maximum frequency P04 06 Compensation
170. troke abnormal voltage or other natural disaster or the reasons for the disaster 6 6 Damage occurred during the transportation period notice the transportation method should be designed by the customer and our company will assist in handling procedure of goods transportation 6 7 Damage or non identification for brand trademark sequential number 146 Chapter 11 Quality guarantee nameplate signed by the manufacturer 6 8 Pay off the money according to the purchasing contract 6 9 The installation firing operation maintenance or other use conditions can t be objectively described to the service unit of our company 7 The goods with guarantee for return change and maintenance must be returned to our company and the goods can be only returned or maintained after the attribution of liability 1s decided 147 11 19 deuO Attachment RS485 communication protocol 1 Introduction for use PT200 series AC frequency vector Inverter provides RS232 RS485 communication interface and adopts MODBUS communication with international standard to make principal and subordinate communication The user can realize centralized control via PC PLC control for upper computer set control inverter operation frequency of AC frequency vector inverter and the change for relative function code parameter working condition of AC frequency vector inverter and motoring of fault information to fit specific application requirement 2 Specification
171. ue boost under such a frequency point the torque boost is effective and the torque boost will be invalid exceeding such a frequency set Output voltage V Vb Vi pgrada Output frequency Hz Chart 6 8 Sketch map for manual torque boost 73 03 Limit for compensation of 200 0 0 0 V F slippage The setting of this parameter can compensate change of motor speed caused by load at V F control and improve the hardness of mechanical properties And such a value should be set as the rated slip frequency of the motor the calculation of rated slip frequency is as follow 05 03 60 In formula FB is rated frequency of the motor and its corresponding function code is P03 02 n is motor norm speed and its corresponding function code is and P is the pole paries of the motor 9 191deuo N Threshold value for low frequency of restricting vibration Threshold value for high frequency of restricting vibration However most motors can easily have current shock when they operate in some frequency sections the slight cause caused by this is unstable operation of the motor or even the overcurrent of AC frequency vector inverter severely When P05 08 0 enabling restricts the vibration when the setting of P05 04 and 05 05 is too small the effect on restricting the vibration is very obvious when the setting 15 too big the effect on restricting the vibration is very weak Chapte
172. uency 1 2 Jump amplitude 2 Jump amplitude Time t Chart 6 15 sketch map of hopping frequency A Output frequency f Traverse freq Sudden jump amplitude s Wobble amplitude Center frequency Press Deceleration deceleration time To wobble and acceleration lower frequency time to Pendulum Pendulum accelerate frequency frequency falltime rise time Time t Chart 6 16 Sketch map for the operation of pendulous frequency Range of pendulous frequency operation frequency of pendulous frequency is limited to upper and lower limit frequency The swing range is relative to center frequency swing range AW center frequency swing range P09 11 Jumping frequency swing range AWxrange of jumping frequency P09 12 namely when the pendulous frequency operates the value corresponded by the jumping frequency to the swing range Rising time of pendulous frequency the time required from the lowest point of pendulous frequency to the highest point of pendulous frequency Fall time of pendulous frequency the time required from the highest point of pendulous frequency to the lowest point of pendulous frequency Times for automatic reset of the fault 07 3600 e Setting for interval of 155 P09 16 automatic reset of the 0 1 100 05 1 0s fault 103 9 191deuo N Chapter 6 inverter of function parameter Describing LED OLED Keyboard display range Factory seting setting
173. uring the forward and reverserotation of AC frequency vector inverter It is shown as chart 5 4 frequency Hz Output frequencviHx True Stary Dead time Vi braking EN Starting DM waiting time Reversion Time Braking Chart 6 4 sketch map of DC braking Chart 6 5 Sketch map for dead time of forward and reverse rotation 0 Run command of the terminal 1s invalid when it 1s electrified 1 Run command of the terminal is valid when it 1s electrified Selection for the protection of terminal with electricity When the channel of operation inverter is the terminal control the system will automatically detect the state of the running terminal during the electrifying process of AC frequency vector inverter 0 Run command of the terminal is invalid when it is electrified frequency vector inverter won t operate even if it detects the command terminal is valid during the electrifying process of AC frequency vector inverter and the system will be at a state of running protection and AC frequency vector inverter will operate only after this terminal of run command is canceled and then use this terminal 1 Run command of the terminal is valid when it is electrified Namely using the electrifying process of AC frequency vector inverter if it detects the command terminal is valid the system will automatically start the operation of AC freque
174. ve effect 9 Analog All and Ascending UP Descending Down Overlay 10 Analog AI2 and Ascending UP Descending Down Overlay 11 KI AII K2 AI2 and Ascending UP Descending Down Overlay 9 191deuo 0 Keyboard sets torque corresponding with P01 05 1 analog All sets torque totally corresponds with two times as the rated current of the inverter 2 analog AD sets torque be the 1 94 P01 04 Selection for the same as 1 setting of torque 3 analog AI1 AI2 sets torque be the same as 1 4 setting of multi torques be the same as 1 5 Remote communication sets torque be the same as 1 76 Chapter6 Inverter of function parameter Describing LED OLED Setting range Factory setting Keyboard display The torque control is effective only for P01 00 2 and only then can function code of P01 04 be effective At the torque control AC frequency vector inverter output the torque based on the torque inverter set and the output frequency is limited by upper limiting frequency when the load speed is higher than the upper limiting frequency set output frequency of AC frequency vector inverter is restricted and at this moment the output torque is different from the torque set When the torque inverter is the keyboard setting 1 e 01 04 0 the torque inverter can be obtained via setting the function code P01 05 when the torque setting is negative the motor will rotate reversely 100 096 Set by analog multistage speed and
175. vector inverters when the wiring is made or the AC frequency vector inverters may have fault due to this gt The motor or power supply of power frequency can be changed only after the AC frequency vector inverters stops outputting x It should consider installing absorption apparatus of surging when the electromagnetic contactor and relay is near to the AC frequency vector inverters in order to reduce the influence of the electromagnetic interference 2 External control line of the frequency vector Inverters must isolating device or adopt shielded wire X Cable for signal of input order should have independent routing beside shieldling and it 1s better to be far away main circuit wiring gt The maximal distance between the AC frequency vector Inverters and motor should be within 50m when the carrier frequency is smaller than3K Hz and such a distance should be shortened when the carrier frequency is bigger than 4KHz and it 1s better for this wiring to be laid in metal pipe X When peripheral equipment filter electric reactor is installed on the inverter it should firstly use 1000 V megameter to measure its insulation resistance to the ground and it should be guaranteed it is no less than megohm 2S Please don t close the power supply under the condition of frequent start of the inverter control terminal or keyboard or RS 485 must be used to operate the order to make start stop operation so that it can t destroy the rec
176. vector inverter makes speed identification on the motor which is rotating and it directly tracks the start for the identified frequency during the start process the current voltage is smooth without any crash 2 01 Launch the start 0 00 10 00Hz 0 50Hz NEM frequency frequency 80 Chapter 6 Inverter of function parameter Describing LED OLED AC frequency vector inverter begins its start via starting frequency P02 01 and accelerate to the targeted frequency based on the acceleration time set after it starts the storage time of the frequency if targeted frequency is smaller than the start frequency AC frequency vector inverter will be at a holding state And the value for the start frequency is not limited by the lower limiting frequency current P0204 04 Start Start front brake time brake Start front brake time o0 s00s 05 02 03 of current for starting DC brake 15 percentage rated current frequency vector Inverter 02 04 Duration for DC current If the DC braking time is set to 0 then DC braking is invalid The bigger the current of DCC braking the stronger the braking force 0 Slowing down and Selection of halt mode stopping 1 Random parking 0 Slowing down and stopping after the halt inverter is valid AC frequency vector inverter reduces the output frequency according to the deceleration method and deceleration time defined and the machine stops when the
177. with high performance where has no encoder PG and one AC frequency vector inverters can only drive one motor such as the load of machine tool centrifugal machine drawbench and injection molding machine 2 vector control for open loop flux 2 it is appropriate for the occasion which has no high requirement on accuracy of torque control like wire wound and drawbench Under the mode of torque control the motor speed is controlled by the motor load and its acceleration and deceleration isn t decided y acceleration and deceleration time of AC frequency vector inverters any more 3 closed loop vector control for feedback of sensor Notice you must have self study of motor parameter when you choose mode of vector control Only accurate motor parameter 1s obtained can develop the advantage for mode of vector control More excellent performance can be obtained via adjusting the parameter group of speed regulator 0 inverter channel of keyboard LED goes 1 inverter channel of terminal LED flicks 2 inverter channel of communication LED lightens Operation inverter 21 P01 01 channel Change the channel for control inverter of inverter Control inverter of the AC frequency vector inverters includes start halt forward rotation reverse rotation JOG and fault resetting 0 inverter channel of keyboard LED goes out operate via EJ Eg panel of the keyboard Command control If multifunction key wer
178. wrong state The data address required by the upper computer Is unallowable address 02H Illegal data address in particular the combination between the register address and byte number transmitted is invalid When the data field received includes un allowable value Notice it never 03H Illegal data value means there is a value beyond the expectation of application program for the data in the register submitted to store 156 0 6H 10H Abnormal code of MODBUS Implication Busy S Busy AC frequency vector inverter EPPROM 15 being stored equipment The password input for the validation address of password is different from the password set by 07 00 user When RTU format CRC check bit or ASCII format and LRC check bit is different from check computation of lower computer in the frame information sent by upper computer and report the wrong information of the check In writing command of parameter sent by upper computer when the data sent is beyond the scope of the parameter or current writing address is at a unchangeable state Set the user password when the upper computer reads or writes if it is set the user password and had no unlock for password lock it will report the lock of the system Wrong password Wrong verification Invalid change of the parameter The lock of the system 157 xipuoddy xipuoddy N inverter 1 Inverter of PG card 2 inverter for control of variable frequency wa
179. y setting 11 Removal for UP and DOWN of frequency setting three functions mentioned above are mainly used for changing given frequency via using external terminal and UP is the inverter of increasing while UP is the inverter of decreasing resetting for UP and DOWN of the frequency is used to reset the frequency value set via increasing of clockwise rotation and decreasing of counterclockwise rotation and it can make the given frequency recover to the frequency preset by the inverter channel of the frequency 12 13 14 and 15 1 4 terminal of multiple speed can realize the setting for speed of 16 sections Notice 1 at the multiple speed terminal is a low post and 4 at the multiple speed terminal is a high poset multistage multistage multistage multistage speed 4 speed 3 speed 2 speed 1 Pri pof 16 Temporary stop of PID control PID is invalid temporarily and AC frequency vector inverter maintains the current frequency output 17 Temporary stop of pendulous frequency temporary stop of AC frequency vector inverter after the withdrawal of current output and function it will begin the operation of pendulous frequency with current frequency 18 Resetting of pendulous frequency setting frequency of AC frequency vector inverter returns to central frequency 19 Prohibition of acceleration and deceleration protect that AC frequency vector inverter 1s not affected by external signal except the halt command and maint
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