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Parameter Description

1. AVI j aper pp aug Wl le ACI 10 2 5 4 AM SO SE CIB A SOURCE SD STFISTR Mo M1 M2 IRES PC Introduction of Shihlin Inverter 3 5 Installation and Wiring 3 5 1 Transport Transport the inverter by holding the fuselage instead of the cover or any other part of the inverter or 1t may be dropped and damaged 3 5 2 Stockpile This product before installing must be placed in the packaging If it is not in use change the frequency to meet the company s warranty scope and future maintenance Pay attention to the following matters for storage 1 Must be placed in a dry and dust free place 2 The environment temperature must be stored between 20 C to 65 C 3 The relative humidity of the storage location must be ranged from 0 to 95 and without condensation 4 Av
2. 8 3_ 52 4 e AGB Sn d E instalan m Es Doo V j TP ODE E 2XM3 12 Effective depth of screws hole 2 9mm 3 Screw installation of DUO6 lt Screw installation panel cutting dimension drawing gt 2377 193 V or Cutout O Area m e NO ON 2 94 E 52 4 A 146 Appendix 5 Optional Equipment 4 Snap fit installation of DUO6 lt Snap fit installation panel cutting dimension drawing Cutout Area Cutout Area 39 39 Suitable for 2mm panel thickness Suitable for 1 2mm panel thickness 5 CBL Transmission cable used with the above operation panel T Description on the ordering code NO Model Name Ordering code 1 CBLIRSGT Transmission cable 1 5M LNKSSCBLOIT 2 CBLO3GT Transmission cable 3M LNKSSCBLO3T 3 CBLOSGT Transmission cable 5M LNKSSCBLOST 147 Appendix 6 European Specification Compatibility Description This inverter qualifies the CE label Specifications Low Voltage Directive 2006 95 EC Electromagnetic Compatibility Directive 2004 108 EC 1 Electromagnetic compatibility command EMC 1 EMC compatibility description For system integration inverter is not a functi
3. al ie eH LS CLD SEAR AE ES main cricult Gp e e S HEREDES ONE block ground terminal e i e e e P CPR LATA vmr2 wrrs ERA fan and fan guard O i EE Ez ToT 7 N T mounting hole 10 Introduction of Shihlin Inverter Note 1 The enlarged figure of the control circuit terminal block is as follows AVI ACI 1012 5 4 AM SO SE CBA SOURCE SD STFISTR MO M1 M2 RES PC 2 The enlarged figure of the main circuit terminal block is as follows
4. Address Function Initial Address Register Number Mode Start 1 3 4 Check End ASCII H3A 2char 2char Achar Achar 2char ODOA RTU gt 10ms Ibyte Ibyte 2byte 2byte 2byte gt 10ms Normal response Address Function Read Data Number Read Data Mode Start 1 2 5 6 Check End ASCO H3A 2char 2char 2char 2Nx1char 2char ODOA RTU gt 10ms lbyte Ibyte Ibyte 2Nx1byte 2byte gt 10ms Message Content 1 Address Set the address for the information to be sent to O is none 2 Function code H03 3 Initial address Set to the address of the register to be read 4 Register number Set to the number of the register to be read less than 12 registers 5 Read data number Repeat 4 6 Read data Set information specified in 4 Read the data byte by the order 2 Write data H06 Address Function Initial Address Write Data Mode Start 1 3 4 Check End ASCII H3A 2char 2char 4char Achar 2char 0D 0A RTU gt 10ms Ibyte Ibyte 2byte 2byte 2byte gt 10ms 66 Parameter Description Normal response Address Function Initial Address Write Data Mod tart ode S 1 2 3 4 Check End ASCII H3A 2char 2char Achar Achar 2char OD 0A RTU gt 10ms Ibyte Ibyte 2byte 2byte 2byte gt
5. Parameter Factory Setting Setting Range Remarks 0 360s When P 21 0 7 5s 0 3600s When P 21 1 z 0 360s When P 21 0 S 0 3600s When P 21 1 50Hz When P 189 1 20 1 650Hz 60Hz When P 189 0 0 Minimum setting increment 0 01s 21 0 0 1 1 Minimum setting increment 0 1s 0 360s When P 21 0 44 9999 0 3600s When P 21 1 9999 Not chosen 0 360s When P 21 0 45 9999 0 3600s When P 21 1 9999 Not chosen lt Setting gt If P 21 0 the minimum increment of acceleration deceleration time P 7 P 8 P 16 P 44 P 45 and P 111 P 118 is 0 01 seconds If P21 1 the minimum increment of acceleration deceleration time P 7 P 8 P 16 P 44 P 45 and P 111 P 118 is 0 1 seconds If RT is on the second function is valid In this case the running characteristics of the motor are refer to as the second function If P44 9999 the default value all of the second function is disabled In this case even though RT is on the acceleration time is still the set value of P 7 and the deceleration time is still the set value of P 8 the torque boost is still the set value of P 0 and the base frequency is still the set value of P3 f P 4449999 and P 45 9999 the acceleration deceleration time is the set value of P 44 when RT is on If P 4449999 and P 46 9999 the torque boost is the set value of P O when RT is on If P 4429999 and P 4649999 the torque boost is the set value of P 46 when RT is on
6. C mounting hole fa sima fad TRUE fay Shhilhlin fay Shilhlin wy BASEBOARD n SS2 series LED screem SS2 operation panel STOP SET REST knob EH 11 22 KW CONTROL COVER 220V PHASE DANGER Risk of injure and electric shock hee 000a000 00 A SSD Read the manual and follow the safety JE Ey EVE instructions before use type nameplate Aci A Isolate from supply and wait 10 minutes before removing this cover io 2 5 4 lam La e A A Ensure proper earth connection O o O SINK TOP COVER 000000 CAUTION Risk of fire E LEE A Mount the inverter on a non combustible O surface tgi s L HL SOURCE control circult Lso stelstr mo m1 m2 Jres ec terminal block
7. H0004 P 400 P 499 e Parameter recovery description table cion except P 21 P 187 P 199 Data P 292 P 293 P 300 P 309 Another Error P operating Parameters LI content and Communication Parameters Code Note Parameter H5A5A p 999 O O X X HOPED p 998 O O O X Communication H9696 X O X X 999 H55AA Communication X O O X 998 HASAS P 996 X X X O Note Communication parameters include P 32 P 33 P 36 P 48 P 53 P 79 P 153 and P 154 72 Parameter Description e The table of the special monitor code Information Content Unit H0000 Monitor the external terminal input port state Notel H0001 Monitor the external terminal output port state Note2 H0002 Monitor the voltage which can be input across terminal 2 5 0 1V H0003 Monitor the voltage current which can be input across terminal 4 5 0 01A 0 1V H0004 Monitor the voltage which can be output across terminal AM 5 0 1V H0005 Monitor the busbar voltage value 0 1V H0006 Monitor the electronic thermal rate Note 1 Details of the external terminal input port state b15 bO RES M2 MI MO STR STF 2 Details of the external terminal output port state b15 bO ABC SO SE 5 17 Speed Display P 37 P 37 Speed display e At the output frequency monitoring mode
8. Jj wi ANGER Risk of injure and electric shock lectric sl Read the manual and follow the safety ins e Iso d wait inutes H1 H Mount thi a non combustible surface Shihlin Wiectrio INVERTER ss2 021 04x CE o MENU 30000000 Model H mm H1 mm Wmm Wl mm D mm SS2 021 0 4K SS2 021 0 75K SS2 023 0 4K SS2 023 0 75K 174 165 80 58 134 SS2 023 1 5K SS2 043 0 4K SS2 043 0 75K SS2 043 1 5K Introduction of Shihlin Inverter 3 3 2 Frame B 43 5 2XR2 5 Lol x Shihlin FEN He jet on I H1 H
9. Message Details Setting range 0 254 0 is the broadcast address and address of the inverter ranges between 1 and 254 P 36 can set the address of inverter P 36 must be set for the computer to send information from the inverter and the inverter sends feedback to the computer D Address SE2 type inverters have three functions The inverter operates according to the command from the computer The computer set up functions of the table other than the code the inverter will send an error feedback to the computer Response returned from the inverter in normal response returns to normal function When an error feedback is sent the function code should add H80 2 Function Function Name Function Code Details Read multipl ea mu 1ple H03 i registers inverter From the PC may read straight registers to From the PC may write a single register to Write single ra H06 register inverter Write multiple H10 From the PC may write straight registers to registers inverter Data can be changed according to the function code Data include the start 3 Data address the number of register and the write message ASCII mode is for the LRC checksum and RTU mode is for the CRC checksum 4 Check Error In LRC please refer to the standard Modbus protocol specification for detailed CRC checksum algorithm instructions Algorithm of LRC checksum LRC check is rela
10. 2 Waiting time is set between O and 15 and the unit is 10ms for example 5 denotes 50ms 3 Stop Character CR LF CODE For data communication between the computer and the inverter packet the last CR and LF codes by the automatic setup of the computer The inverter of the PC must be set up If only CR is selected only one register is needed If both CR and LF are chosen two registers have to be included 4 Unit O denotes that the unit is 1 1 denotes that the unit is 0 1 2 denotes that the unit is 0 01 3 denotes that the unit is 0 001 5 Error Code Error ee Code Error Item Communication error exception content HO1 Error Parity check What the inverter has received is different from the initial set H02 Sum Check Inverter side of the calculation of the received data value Sum Check Error and the Sum Check which received are different 61 Parameter Description Error a Code Error Item Communication error exception content es The information the inverter received is a syntax error or the rotoco NEC S ND H03 information is not received within the specified time or CR and LF Error mere codes are different from the initial set H04 Frame Error The STOP bit the inverter received is different from the initial set Overflow L l H05 E The inverter has not received the data for PC to write the incoming data rror Mode y Di HOA i The inv
11. Motor Capacity Recommended Wire Inverter Type BP BU Qty Sike Gan Wiring Method 1 2 0 4 1 0 75 0 5 5 5 i e Diagram A Single phase 2 1 5 2 3 2 2 3 5 5 5 1 2 0 4 1 0 75 1 0 5 5 5 220V 2 l Three phase 2 Diagram A 3 2 2 a 3 5 5 5 5 3 7 5 5 1 2 0 4 1 0 75 1 440V Three phase b 0 5 5 5 Diagram A B 2 2 2 3 3 7 ORIL1 UM Power supply oS L2 V T2 oTL3 WIT3 Diagram A Please wind each four times around the core and around the same 28 Introduction of Shihlin Inverter 3 6 6 Input output reactor Input AC Line Reactor 220V 50 60Hz Three phase kW pS Order Number of Inverter 0 4 3 LNKBALOR75K 0 75 5 1 5 8 LNKBALIR5K 2 2 11 LNKBAL2R2K 3 7 17 5 LNKBAL3R7K 440V 50 60Hz Three phase kW Relea ns Order Number of Inverter 0 4 1 5 LNKBALHOR75K 0 75 2 6 1 5 4 2 LNKBALHIRSK 2 2 6 LNKBALH2R2K 3 7 9 LNKBALH3R7K In case there is any question about use Filter please feel free to contact us 29 Introduction of Shihlin Inverter Output AC Line Reactor 220V 50 60Hz Three phase kW Pata Order Number of Inverter 0 4 3 LNKBAOOR75K 0 75 5 1 5 8 LNKBAOIRSK 2 2 11 LNKBAO2R2K 3 7 17 5 LNKBAO3R7K 440V 50 60Hz Three phase kW a Order Number of Inverter 0 4 1 5 LNKBAOHOR75K 0 75 2 6 1 5 4 2 LNKBAOHIRS5K 22 6 LNKBAOH2R2K 3 7
12. RTU gt 10ms 01 06 00 C3 13 88 74 A0 gt 10ms 69 Parameter Description Example 4 Message from the computer for reading parameters from P O to P 11 Step 1 The computer requests the inverter to read the value of P 0 P 11 The initial address is H0000 Mode Start Address Function Initial address Register number Check End H30 H30 H30 H30 H30 H46 ASCU H3A H30H DOA 2 j H31 H33 ANN H30 H30 H43 H30 ana RTU gt 10ms 01 03 00 00 00 0C 45 CF gt 10ms Step 2 After receiving and processing the data the inverter sends feedback to the computer Mode Start Address Function ae Read Read Data Check End ASCII H3A H30 H31 H30 H33 H31 H38 24x1 char 2char ODOA RTU gt 10ms 01 03 18 24x byte 2byte gt 10ms Example 5 Messages from the computer for writing parameters from P O to P 11 Step 1 The computer requests the inverter to write the value of P 0 P 11 Data Mode Start Addres Functio Mode Register Quantit Write Chec End S n Number y Data k H3 H3 H3 H3 ASCI H30 H31 0 0 0 0 H31 2Nx p fee Hat I rs a MI ete 0 0 0 3 REC ss IO A A dae a Bigs S 1 byte S Step 2 After receiving and processing the data the inverter sends feedbacks to the computer Mode Start Address Function Initial Address Register Number C
13. l P133 E 0 MO ON ox ox ON ON ON ON ox Note 1 The parameter P 100 P 101 P 108 P 111 P 118 and P 121 123 is only for programmed operation mode In the manually operation circle mode the acceleration time is determined by P 7 and the deceleration time is determined by P 8 2 The inverter will run across most of the eight section and the frequency is determined by P 131 P 138 3 When the frequency is set the inverter will run standby in this section if any section is O It means that at the third mode the value of P 131 is not 0 Like the figure above no matter what are the values of P 137 and P 138 the inverter will stop when pressing the sixth switch 4 The manually operation circle mode has a single rotation direction It has nothing to do with P 121 and STF or STR signal 5 39 Operation Panel Frequency Monitoring Selection Function P 110 P 110 Operation panel frequency monitoring selection Parameter Factory Setting Setting Range Remarks 110 0 4 When the inverter starts the operation panel enters the monitoring mode automatically and the screen displays the output frequency When the inverter starts the screen of the operation panel displays the target frequency When the inverter starts the operation panel enters the monitoring mode automatically and the screen displays the output frequency steady
14. Terminal Functi Terminal Type dh ee Remarks and Function Description Name Name STF Optional STR Optional These terminals are multi function control terminals MO Optional SINK SOURCE mode switchable M1 Optional For detailed descriptions please refer to P 80 P 84 P 86 in off Chapter 5 C M2 Optional Signal Input RES Optional SD SD Common reference ground for STF STR MO M1 M2 and RES In the Source input mode it provides a common DC24V PC PC power supply which Allow load current 50 mA for the terminals referred to above 10 The internal power is DC 10V at this terminal which Allow load current 5 mA gt The input point of voltage signal 0 5V or 0 10V is P38 di used to set the target frequency ES The input point of voltage signal 0 5V or 0 10V input Signal Input 4 points of current signal 4mA 20mA switch with P 17 is P 39 used to set the target frequency Note 1 5 The common reference ground of 2 4 10 and AM Normally points A C are always open circuit and points B C are always short circuit Contact capacity is VDC30V VAC230V 0 3A Open Collector Output Optional The terminal can also be called a multi function output terminal contact capacity is VDC24V 0 1A The function name can be set by P 40 For detailed description please refer to P 40 in Chapter 5 SE Open collector output reference ground Analog Signal Output Connected with an
15. Output frequency Z Setting p249 i frequency time l Actual i motor speed l e 3 With action sequence for the automatic switchover sequence series P 249299999 P 250 99999 STE 0 0 1 17 1 Output frequenc Setting frequency Actual motor speed MC2 MCI Parameter Description During the automatic switchover A P 247 MC Switchover interlocking time B P 248 starting waiting time C P 57 restarting free operation time D P 58 restarting elevating time Note 1 When the motor runs at 50Hz or 60Hz the commercial power supply will offer a more efficient operation than the inverter will Moreover during the inverter maintenance inspection period the commercial power supply circuit should be installed to prevent the motor from being stopped for too long 2 To prevent the inverter from setting off the over current alarm when changing between the inverter operation and the commercial power supply operation the interlock measure has to be taken Once the motor stops it will be activated via the inverter Switchover and interlock can be carried out through the inverter and a complicated commercial power supply if commercial power supply switchover sequence function that can send out the signal for electromagnetic contactor actions is used 5 59 Short Circuit Protection Function P 287 P 287 Sho
16. When the inverter starts the operation panel enters the monitoring mode automatically and the screen displays the current pressure and feedback pressure of the constant pressure system note When the inverter starts the operation panel keeps the previous mode 101 Parameter Description Note When P 110 3 the screen display shows two sections A decimal point is used to separate the boundaries What is on the left is the target pressure of the constant pressure system and what is on the right is the m MON nan O e 30 feedback pressure of the constant pressure system As shown in this figure 20 denotes H ooe that the target pressure of the constant pressure system is 2 0kg cm 30 denotes that the feedback pressure of the constant pressure system is 3 0kg cm 5 40 Zero speed Function P 151 P 152 V F P 151 Zero speed control function selection P 152 Voltage instruction when zero speed control elated parameters P 13 Starting frequency e The user must set the value of P 13 zero when using this function Parameter Factory Setting Setting Range Remarks O There are no output at zero speed 151 0 0 1 1 Control by DC Note 1 152 5 0 30 Note 2 Note 1 The output mode selected by the value of P 151 when P 151 is O there is no output when P 151 is 1 the value of P152 is the
17. Version V1 00 Published Date December 2011 150
18. PA ee eee A l 2 d I l I a I pd l I of M AT75Hz P 185 7 I l Pd d 1 i 2 ae l 50Hz 7 o E a4 Sy CREE d yrs 1 i I P d l n ea i i zr 2d I P 185 25Hz ue l Pd l 1 P P gu I I 100 l 1 Y gt OV 5V 10V In the diagram At OV the target frequency can be calculated by this formula 50Hz SOHzx50 25Hz At 5V the target frequency can be calculated by this formula 50Hz 50Hzx0 50Hz At 10V the target frequency can be calculated by this formula 50Hz 50Hzx50 75Hz Note 1 Seclection the 4 5 external analog signal voltage or current input terminals please refer to P 17 the frequency range of the external analog signal please refer to P 38 and P 39 2 Proportion linkage signal input please refer to P 240 5 49 Software Edition P 188 P 188 Software edition e Parameters are readable only not writable 109 Parameter Description 5 50_ Default Function P 189 P 189 Default function Parameter Factory Setting Setting Range Remarks 0 Apply to the 60Hz system 189 0 0 1 1 Apply to the 50Hz system e The user can select the frequency witch factory setting 50Hz or 60Hz according to the power frequency and the frequency witch motor factory setting Correlation parameter directions are presented in the table below Setting Minimum Parameter Name f f
19. Both on and turn on are used for explaining the function for the Multi function controlterminal The word on is used to describe the state that is the external switch of the terminal is in the closed state The word turn on is used to describe the action of shutting off the switch from the opened state to the closed state 6 The upper case P mentioned in this manual is an abbreviation for parameter Product Examination 2 Product Examination Each SS2 TYPE inverter is inspected strictly before delivery and is packed carefully to prevent from mechanical damage Please check as follows after opening the package Please check whether it is damaged during transport Please check whether the inverter type is identical with what is labelled on the package 2 1 Nameplate Instruction Model Type r Rated Input Rated Output D Shihiin Electric INVERTER MODEL SS2 021 0 4K C POWER 0 4KW INPUT 7 5A 1PH AC200 240V 50 60Hz OUTPUT 2 7A MAX 3PH AC200 240V 0 1 650Hz we so MIMIN 20000 KAA Manufacturing Number Serial Number 2 2 Type instruction SS2 021 0 75K Lo Suitable motor 0 4K 0 4kW 0 75K 0 75 kW eee Input voltage 021220 V 1 PHASE 023 220 V 3 PHASE 043 440 V 3 PHASE Product series 2 3 Indent Symbol Instruction For example Demand Indent Symbol Specification SS2 021 0 4K SS2 Series Single Phase
20. Example 2 Read computer communication P 195 Step 1 PC requests the inverter to read the value of P 195 The address of P 195 is HOOC3 Mode Start Address Function Initial Address Register Number Check End H30 H30 H43 H30 H30 H33 ASCII H3A H31 H33 H30H30 H33 H30 H31 H38 OD 0A RTU gt 10ms 01 03 00 C3 00 01 7436 gt 10ms Step 2 After the inverter receives the data and processes the data without encountering errors the inverter will send the value of P 195 to the computer Mode Start Address Function Read Data Read Data Check End Number H30 H30 H31 H37 H37 ASCII H3A H31 H33 H30 H32 H37 H30 H33 0D 0A RTU gt 10ms 01 03 02 17 70 B650 gt 10ms H1770 into decimal is 6000 the unit of P 195 is 0 01 6000x0 01 60 which is the value of P 195 Example 3 Change the value of P 195 to 50 Step 1 The computer requests the inverter to input 50 into P 195 Mode Start Address Function Initial Address Write Data Check End H30 H30 H43 H31 H38 H39 ASC Hee H31 H36 Hon H33 H33 H38 H42 SEU RTU gt 10ms 01 06 00 C3 13 88 74 A0 gt 10ms Step 2 After receiving and processing the data the inverter sends feedbacks to the computer Mode Start Address Function Initial Address Write Data Check End H30 H30 H43 H31 H38 H39 SSG Pa H31 H36 siete H33 H33 H38 H42 AURA
21. PU ce S82 series SS2 series MOH oA RUN m FWD FWD pe ser Es eT ES _ C lis DANGER Risk of injure and electric shock DANGER Risk of injure and electric shock Read the manual and follow the safety A Read tha manual and follow the safety instructions before use instructions before use Isolate from supply and walt 10 minutes Isolate from supply and wait 10 minutes before removing this cover before removing this cover A Ensure proper earth connection A Ensure proper earth connection CAUTION Risk of fire CAUTION Risk of fire AA Mount the inverter on a non combustible A Mount the inverter on a non combustible l surface La surface a B i v 7 Es f I ITI E TE a 15 Introduction of Shihlin Inverter Installation with screws 58 2 M4 X 8 fe n Shibin PU S82 series Hz MON A RUN v 5 STOP 165 Note 1 Please choose the screw size M4 2 Carry out the inst
22. Speed 5 Speed 7 Output frequency filtering Acceleration deceleration pattern selection Regenerative function selection Soft PWM selection Serial communication Baud rate selection Communication protocol selection Inverter station number Speed display The maximum output frequency the target frequency is set by the input signal across terminal 2 5 The maximum output frequency the target frequency is set by the input signal across terminal 4 5 Setting range 0 250 0 200 9999 0 650Hz 9999 0 650Hz 9999 0 650Hz 9999 0 650Hz 9999 0 31 0 1 2 0 254 0 5000r min 1 650Hz 1 650Hz 130 Minimum setting unit 0 1 0 1 0 01Hz 0 01Hz 0 01Hz 0 01Hz 1 O 1r min 0 01Hz 0 01Hz Default value 200 9999 9999 9999 9999 9999 50Hz 60Hz Note 50Hz 60Hz Note Appendix 1 Parameter list Parameter number Multi function output P 40 terminal pattern P 41 Up to frequency sensitivity Output frequency detection puoi een for forward rotation Output frequency detection for reverse rotation L P45 Second deceleration time P 46 Second torque boost P 47 Second base frequency P 48 Data length P 49 Stop bit length P 50 Parity check selection P51 CR and LF selection Number of communication P 52 reties Communication check time P 53 interval IAM terminal function P 54 selection Frequency monitorin pasci
23. For example if P 26 9999 the target frequency is determined by RM the setting value of P 5 Note 1 The multi speed is valid only at the external mode the combined mode 2 the combined mode 4 or the combined mode 5 2 RL RM RH and REX mentioned in this section are the function names of the multi function control terminal For example P 80 2 MO terminal is chosen to perform the RL function Please refer to P 80 P 84 P 86 for multi function selection and refer to Section 3 5 6 for wiring 5 5 Acceleration deceleration Time P 7 P 8 P 20 P 21 P 44 P 45 Related parameters P 7 Acceleration time P 3 Base frequency P 29 Acceleration deceleration pattern selection P 47 Second base frequency P 80 P 84 P 86 Multi function terminal selection P 189 Default function P 8 Deceleration time P 20 A cceleration deceleration reference frequency P 21 Acceleration deceleration time increments P 44 Second acceleration time P 45 Second deceleration time e When the output frequency of the inverter accelerates from OHz to P 20 the required time is defined as acceleration time P 7 e When the output frequency of the inverter decelerates from P 20 to OHz the required time is defined as deceleration time P 8 e P 21 is used to set the acceleration deceleration time and minimum setting increments 46 Parameter Description
24. Information Interchange and RTU Remote Terminal Unit modes Response time for INV Single PC Master Query Msssage 4 INV Slave ASCII CR LF Response Message RTU wait times gt 10ms Broadcast PC Master Query Messsage INV Slave No Response 1 Query The computer primary address sends a message to the inverter from the address with the specified address 2 Normal response After receiving the query from the computer the inverter performs the requested function from the computer and return to the normal function 3 Error response If the inverter receives an invalid function code address or data it will send feedback to the computer 64 Parameter Description 4 Broadcast The computer designated by address O can send a message to all the inverters All inverters that receive information from the computer will perform the requested function but they do not send feedback to the computer 2 Communication format e The mainframe transmit the query message to the inverter and the inverter responds to the message from the PC The address and function code will be copied during normal communication Bit 7 of the function will be set to 1 H80 and Data Byte will be set by the error code if the communication is abnormal e Message form Mode Start DAddress Function SData Error check End ASCII H3A 0D 0A 8 Bit 8 Bit nx8 Bit 2x8 Bit RTU gt 10ms gt 10ms
25. Instruction 0 Run Forward KO STH STR P 8X 29 1 Run Reverse SD 5 At the external mode the programmed operation mode is chosen when PO is on Terminal STF becomes the start signal When STF is on the inverter begins to run at the programmed operation mode at the first section When STF is off the inverter stops running and STR becomes the pause signal When STR is on the inverter pauses and continues to run at the section where the inverter paused when STR is off For details please refer to P 100 P 101 P 108 P 111 P 118 P 121 P 123 and P 131 P 138 6 At the external mode the manually operation circle mode is chosen when MPO is on For details please refer to P 100 P 101 P 108 P 111 P 118 P 121 P 123 and P 131 P 138 7 Frequency set by pulse means the inverter measure and calculate the ON times and OFF times in each PWM cycle as its frequency directive PWM cycle a gt lt ONT 1 OFE T NTD pla OFF Tr PWM cycle Relationship between PWM signals and frequency ON times Frequency Hz __ x Maximum frequency Hz PWM cycle This function is only for terminal Near the lowest frequency or maximum frequency output frequency precision which relative to the input signal will reduced avoid the use of requiring a tight frequency control 5 36 Slip Compensation Coefficient P 89 V F P 89 Slip compe
26. PU MONO RUNO AG t t e and it flashes O Hz OA Ov Read new set value Read previous set value Note At the parameter setting mode both the indicating lamp of HZ and MON will be off Please make sure to hold down the a key for more than 0 5s when writing for the set value of the parameters 4 1 6 Operating flow chart for the HELP mode with operation panel PU O O Hz PUO O Hz MONO E OA 2 wo L os RUN O ce Ujo RUN O c Ov PU O Hz Pe I O Hz MON O Do Ed MON O C Jo RUNO e joy RUN O c Cj Note 1 Browse different alarm record the screen shows the recent 4 groups different alarm code 2 For the alarm code please refer to Appendix 2 35 Primary Operation 4 2 Basic Operation Procedures for Different Modes 4 2 1 Basic operation procedures for the PU mode P 79 0 or 1 Steps Description e Change the operation mode to PU mode and the indicating lamp of PL will be lit up Note 1 When P 79 0 after the power is switched on or the inverter is reset the inverter will enter the external mode first 2 For selecting and switching the operation modes please refer to Section 4 1 Enter into the frequency setting mode and write the target frequency into the memory Note Please refer to Section 4 1 4 for the detailed setting procedures hg Press U op P to
27. Torque boost P 46 Second torque boost P 80 P 84 P 86 Multi function terminals selection Parameter Factory Setting Setting Range Remarks 14 0 0 13 There are nine kinds of VF curve when P 14 4 13 98 3Hz 0 650Hz Ds 99 1096 0 100906 cae 162 9999 0 650Hz 9999 163 0 0 100 des 164 9999 0 650Hz 9999 165 0 0 100 wo 166 9999 0 650Hz 9999 167 0 0 100 s 168 9999 0 650Hz 9999 169 0 0 100 ne Parameter Description lt Setting gt If P 14 4 P 19 220V P 98 5Hz and P 99 10 the output voltage equals to P 99 XP 19 10 X 220V 22V when the inverter is run at 5Hz P 46 Second Torque Boost is valid if RT is on P 14 0 P 14 1 Output voltage Output voltage P O 0 P 3 Output frequency 0 P 3 Output frequency Applicable to constant torque loads Applicable to variable torque loads conveyer belt etc fans pumps etc P 14 2 P 14 3 3 0 P 3 Output frequency 0 P 3 Output frequency Ascending descending loads Ascending descending loads P 14 4 P 14 5 a o A on EA A eae 3 gt 8 E P603 a a dee E aS 2i E O l l i Output frequency 0 0 1 P 98 3 0 P 3 P98 P 162 P 164 P l66 P 168 P3 Output frequency Hz Ais 7 1 when P 14 5 l l l P 163 s l l A high startup torque or descending torque is due to the set values Note 1 51 Parame
28. HT HT HT DI HT HT HT EELUI I I T II IL 5 E Model H mm H1 mm W mm Wl mm D mm SS2 021 1 5K SS2 021 2 2K SS2 023 2 2K 174 165 110 5 58 134 SS2 023 3 7K SS2 043 2 2K SS2 043 3 7K Introduction of Shihlin Inverter 3 4 Name of Each Part 3 4 1 Nameplate and model Model Type Rated Input Rated Output MODEL SS2 021 0 4K C ON F D Shintin Electric INVERTER POWER 0 4KW INPUT 7 5A 1PH AC200 240V 50 60Hz Manufacturing Number OUTPUT 2 7A MAX 3PH AC200 240V Serial Number 0 1 650Hz we so MINIMINI 20000 SERIAL NO 50000001 VER 0 1 MADE IN TAIWAN 3 4 2 Names of the components
29. If P 4449999 and P 47 9999 the base frequency is the set value of P 3 when RT is on If P 4429999 and P 4779999 the base frequency is the set value of P 47 when RT is on Note RT in this paragraph is referred to as the multi function control terminals Please refer to P 80 P 84 P 86 for function selection and features and refer to Section 3 5 for wiring 47 Parameter Description 5 6 Electronic Thermal Relay Capacity P 9 P 9 Electronic thermal relay capacity Related parameters P 80 P 84 P 86 Multi function terminals selection e To simulate a thermal relay to prevent the motor from overheating the electronic thermal relay employs a built in program Parameter Factory Setting Setting Range Remarks 9 0 0 500A lt Setting gt Please set P 9 as the rated current of the motor at its rated frequency The rated frequency of a squirrel cage inductive motor made by different countries and areas will be different Please refer to the nameplate instruction of the motor If P 9 0 the electronic thermal relay is disabled In case the calculated heat by the electronic thermal relay exceeds the upper limit the alarm will be activated lit up the screen of the operation panel will display Hil and the output will be stopped Note 1 After resetting the inverter the thermal accumulating record of the electronic thermal relay will be reset to zero Attention should be
30. Only the external mode is valid Only the communication mode is valid Only the combined mode 1 is valid Only the combined mode 2 is valid Only the combined mode 3 is valid Only the combined mode 4 is valid o NIAJ nM 0 NTR Only the combined mode 5 is valid Please refer to Section 4 1 for details 5 35 Multi function terminals function selection P 80 P 84 P 86 P 80 P 84 P 86 Multi function terminals function selection Fact tti F ti Parameter Terminal ory petals Value O Function Description Remarks Setting Range Name At the ext 1 mod cexema mote at the programmed EODD modes Ot operation mode it is 0 STF combined mode 3 the P used as a start signal inverter runs forwards ACH when STF is on At the external mode At the programmed 80 MO iu combined mode lor operation mode it is A3 1 STR combined mode 3 the p used as a pause inverter runs reversely cal when STF is on 5 i 2 RL Multi speed RM Multi speed Please refer to P PA P 6 4 RH Multi speed 93 Parameter Description Fact tti Parameter Terminal o d AENDE Value Function Name Function Description Remarks Setting Range At the external mode combined mode 2 or combined mode 4 the 5 AU inverter target Please refer frequency is set by the to P 39 81 M1 3 0 40 s
31. R L1 o S L2 a A T L3 ajd sopoedes 128 Appendix 1 Parameter list Minimum frequency Base frequency Speed 1 high speed Speed 2 middle speed Speed 3 low speed Acceleration time Deceleration time Electronic thermal relay capacity DC injection brake operation frequency DC injection brake JOG acceleration Input signal across terminal 4 5 selection High speed maximum frequency Acceleration deceleration reference frequency Acceleration deceleration time increments Setting range 0 30 0 120Hz 0 120Hz 0 650Hz 0 650Hz 0 650Hz 0 650Hz 0 360 00s 0 3600 0s 0 360 00s 0 3600 0s 0 500A 0 120Hz 0 60s 0 30 0 60Hz 0 13 0 650Hz 0 360 00s 0 3600 0s 0 2 120 650Hz 0 1000V 9999 1 650Hz 0 1 129 Minimum setting unit 0 1 0 01Hz 0 01Hz 0 01Hz 0 01Hz 0 01Hz 0 01Hz 0 01s 0 1s 0 1s 0 01s 0 01A 0 01Hz 0 1s 0 1 0 01 Hz 1 0 01 Hz 0 1s 0 01s 0 01Hz 0 1V 0 01Hz Default value Note 120Hz OHz 50Hz 60Hz Note 60Hz 30Hz 10Hz 5s 5s 3Hz 0 5s 496 0 5Hz 5Hz 0 5s 120Hz 9999 50Hz 60Hz Note User setting Reference value page P42 P43 P43 P44 P45 P45 P45 P46 P46 P48 P48 P48 P48 P49 P50 P53 P53 P78 P43 P44 P46 P46 Appendix 1 Parameter list Offset coefficient for Stall prevention operation level at double speed
32. the screen will display the corresponding mechanical speed Parameter Factory Setting Setting Range Remarks 37 0 r min 0 1 5000r min 0 Output frequency lt Setting gt The set value of P 37 is the mechanical speed of the inverter when its output frequency is 60Hz For example If the transmitting belt speed is 950 m minute when the inverter output frequency is 60Hz P 37 shall be set to 950 At the output frequency monitoring mode the screen will display the speed of the transmitting belt Note 1 There are time discrepancies in minutes between the displayed mechanical speed and the actual one 2 Please refer to Section 4 1 for detailed operation for the operation panel working mode 3 When the output mechanical speed is more than 9998 the screen will display 9999 73 Parameter Description 5 18 Voltage Signal Selection and Target Frequency P 38 P 73 P 139 P 141 P 38 The maximum output Frequency the target frequency is set by the input signal across terminal 2 5 P 73 Voltage signal selection P 139 Voltage signal bias P 140 Voltage signal gain P 141 Bias polarity of voltage signal and reverse motion of negative bias Related parameters P 79 Operation mode selection P 80 P 84 P 86 Multi function terminals selection P 189 Default function P 194 Bias of the input signal across terminal 2 5 P 195 Gain of the input sig
33. 021 0 75K SS2 021 1 5K SS2 021 2 2K SS2 023 0 4K SS2 023 0 75K SS2 023 1 5K SS2 023 2 2K SS2 023 3 7K SS2 043 0 4K SS2 043 0 75K SS2 043 1 5K SS2 043 22K SS2 043 3 7K SS2 043 5 5K Directive 2004 108 EC EN61800 5 1 2007 EN61800 3 2004 EN55011 2009A1 2010 Applicable Standards EN61000 2 2 2002 IEC61000 4 2 2008 IEC61000 4 3 2008 IEC61000 4 4 2010 IEC61000 4 5 2005 IEC61000 4 6 2008 TEC61000 4 8 2001 VIACERT as the Third Party Authority upon the relevant request of Shihlin Electric amp Engineering Corporation Certifies that the test results of the above mentioned products comply with the requirement of the EN Standard according to EU Low Voltage Directive 2006 95 EC and Electromagnetic Compatibility Directive 2004 108 EC The manufacturer is obliged to issue a Declaration of Conformity according to the basic requirement of relative Directives and places the CE marking with his own CE All modifications to the Techyica EHe should be first submitted to the Third Party Inspection Authority to ensure further Address a d ia Trader Mark Product Name responsibility as follows Date and Place of Issue Shanghai 17 01 2011 FOR VIACERT VIACERT TESTING amp CERTIFICATION TEL 86 21 51088618 FAX 86 21 51801927 14E TIANSHAN ROAD 600 SHANGHAI P R CHINA 200051 EMAIL info via cert com 149 Revision Record Published Edition of the Date Manual Revision Content First Edition
34. 043 2 2K 300W 1609 SS2 023 1 5K 300W 600 SS2 043 3 7K 500W 1200 Note 1 The brake resistor capacity listed in the above table is based on a 10 regenerative brake duty that is in case braking lasts for 5 seconds another 45 seconds must be provided for heat dissipation The brake resistor wattage can be reduced according to the user s application quantity of heat and the regenerative brake duty But the resistance must be larger than the value list in the above table otherwise damage of the inverter thus be resulted in 2 In case frequent start and stop operations are required a larger regenerative brake duty should be set meanwhile a larger brake resistor should be employed correspondingly If there is any problem about selection of brake resistors please feel free to contact us 3 6 4 EMI filter _ Inverter Type Order Number Inverter Type Order Number SS2 021 0 4K SS2 023 2 2K LNKNF0203R7K SS2 021 0 75K LNKNF0201R5K SS2 023 3 7K SS2 021 1 5K SS2 043 0 4K SS2 021 2 2K LNKNF0203R7K SS2 043 0 75K SS2 023 0 4K SS2 043 1 5K LNKNF0403R7K SS2 023 0 75K ENKNFO201R5K SS2 043 2 2K SS2 023 1 5K SS2 043 3 7K In case there is any question about use Filter please feel free to contact us 27 Introduction of Shihlin Inverter 3 6 5 Zero phase reactor UNIT mm P41T63 38 25C
35. 10ms Message Content 1 Address Set the address for the information to be sent to 2 Function code H06 3 Initial address Set the beginning address of the register that has a writting function 4 Write dada Write the data onto the specified register that is fixed as 16 bit Note Message of normal response is the same as the query information 3 Write Multiple Registers H10 Initial Register Data Add Funct Write Dat Mode Start B A pd Address Number Quantity m NS Mid Check End 3 Nea E ASCI H3A 2char 2char Achar Achar 2char 2NX1char 2char ODOA RTU gt 10ms Ibyte Ibyte 2byte 2byte lbyte 2N X Ibyte 2byte gt 10ms Normal response Address Function Initial Address Register Number Mod tart heck End ode S 1 2 3 4 Chec n ASCI H3A 2char 2char 4char Achar 2char ODOA RTU gt 10ms Ibyte Ibyte 2byte 2byte 2byte gt 10ms Message Content 1 Address Set the address for the information to be sent 2 Function code H10 3 Initial address Set the beginning address of the register that has a writing function 4 Register number Set the number of register for writing less than 12 registers 5 Data quantity Set the range between 2 and 24 Repeat 4 6 Write dada Set data specified in 4 Write the data according to the Hi byte and Lo byte order to set and follow the starting address of the data The starting addresses 1 of the data the
36. 220V 0 5HP LNKSS20210R4K SS2 023 1 5K SS2 Series Three Phase 220V 2HP LNKSS20231R5K SS2 043 3 7K SS2 Series Three Phase 440V 5HP LNKSS20433R7K Introduction of Shihlin Inverter 3 Introduction of Shihlin Inverter 3 1 Electric Specification 3 1 1 220V Series Single Phase Model SS2 021 K 0 4K 0 75K 1 5K 2 2K Applicable Motor HP 0 5 1 2 3 Capacity kW 0 4 0 75 1 5 22 Rated output capacity kVA Note 0 95 1 5 2 5 4 2 Rated output current A Note 2 7 4 5 8 11 Output Over current capability 150 60 seconds 200 1 second reverse time characteristics Maximum output voltage 3 Phase 200 240V AC Rated power voltage Single phase 200 240V 50Hz 60Hz Power VO rave pernjissiblg Single phase 170 264V 50Hz 60Hz Power fluctuation Supply Power frequency permissible 5 fluctuation Power source capacity KVA 1 5 2 5 3 5 6 4 Cooling Method Nature cooling Forced air cooling Weight kg 1 1 1 2 1 6 1 7 3 1 2 220V Series Three Phase Model SS2 023 K 0 4 0 75 1 5 2 2 del Applicable Motor HP 0 5 I 2 3 5 Capacity kW 0 4 0 75 1 5 2 2 3 7 Rated output capacity kVA Note 1 2 2 3 2 4 2 6 7 Rated output current A Note 3 5 8 11 17 5 Output a 150 60 seconds 200 1 second Over current capability E reverse time characteristics Maximum output voltage 3 Phase 200 240V AC Rated power vol
37. 3 Note 1 The motor capacity has to be at the same level or one level below of the level of the capacity of the inverter 2 For the auto tuning function if motor operation is permitted set P 301 to 1 dynamic measurement At this point the load has to be separated from the motor If the load environment does not permit auto tuning set P 301 to 2 static measurement if motoring is running 3 Real sensorless vector control measurement by automatic Auto tuning function to enhance the control performance Set the motor parameters or do auto measurement function before set P 300 to 3 in ordor to increase the control accuracy 5 64 Motor Parameter P 302 P 309 P 302 Motor rated power P 303 Motor level P 304 Motor rated voltage P 305 Motor rated frequency P 306 Motor rated voltage P 307 Motor rated rotation speed P 308 Idling excitation current P 309 Stator resistor Parameter Factory setting Setting range Remarks 302 0 0 160 222 303 4 0 8 oe 304 220 440V 0 440V us 50Hz P 189 1 305 0 650Hz 60Hz P 189 0 306 Horsepower based 0 500A 1410 r min P 189 1 307 0 9998 r min 1710 r min P 189 0 308 Horsepower based 0 500A 309 Horsepower based 99 980 lt Setting gt e When the motor can be fully separated from the load select P 301 1 When the motor is running the motor parameter will carry out auto tuning Then press
38. 32 Primary Operation l 1 The flow chart for transferring operation modes with operation pane 4 1 P 79 0 PUO MONO it o RUNO tig fit P 79 1 PU am Hz 0006 O O A NS te te belay Note 1 At the PU mode the indicating lamp PU in the operation panel will be lit up 2 At the external mode the display screen will display GP ad 3 At the combined mode 1 2 3 4 or 5 the indicating lamp PU will flicker 4 At the JOG mode the indicating lamp PU will be lit up and at the same time the display screen will display u 6 amp while the motor is not running 5 The operation mode will be constant if P 79 is equal to 2 3 4 5 6 7 or 8 so there are no flow charts for it 4 1 2 The flow chart for transferring working modes with operation panel Power on state PUO Olz MONO C C 2o RUNO 2 Loy After 2 seconds 9 nnn e mo Of A Alloa 10 MON mola Y Di o U U J IS IS PUO O Hz PUO por PUO O Hz wxo t C t OSa a mo ft O A e E nolda L Joy uxo Lt 4 n Bf Ps S 33 Primary Operation Note 1 For detailed operating flow at monitoring mode please refer to Section 4 1 3 5 For detailed operating flow at HELP mode plea
39. 6 7 8 9 10 11 12 13 14 A Waiting Sum Stop Write data EN ae m Time Data Check Character to Inverter 2 7 3 B iti t ENQ Station Command a Econ Md Read data Numb Cod Time Check Character from Inverter pom kis 2 7 3 3 Data transmission from the computer to inverter inverter s data responses e Write data Information Number ormat 1 2 3 4 5 6 C ACK Stop Character Dina 1 Station Number 3 D NAK Sinton Numbee Error Code Stop Character Data error 5 3 60 Parameter Description e Readout data Information Number Format 1 213 4 5 6 7 8 9 10 11 12 13 Stop E STX Station Unit Sum Check Dro Do aber Readout Data 4 ETX 7 Character 3 D NAK Station Error d ik Data error 1 Number Code 5 13 Inverter s responding data when the computer performs data reading Information number Format 1 2 3 4 5 C ACK z Stop Character tat Numb No data error 1 DS 3 F NAK Stop Character Dies 1 Station Number 43 Description of Control Codes ASCII CODE Control ASCII Destino Control ASCII Desorip bn Code CODE p Code Code p NUL H00 NULL ACK H06 Acknowledge STX H02 Start of Text LF HOA Line Feed ETX H03 End of Text CR HOD Carriage Return ENQ H05 Enquiry NAK H15 Negative Acknowledge
40. 9 LNKBAOH3R7K In case there is any question about use Filter please feel free to contact us 30 Primary Operation 4 Primary Operation 4 1 Operation Modes of the Inverter e The operation modes are related to the reference source of the target frequency and the signal source of the motor starting Shihlin SS2 TYPE inverter has a total of 9 kinds of operation modes namely PU mode JOG mode external mode communication mode combined mode 1 combined mode 2 combined mode 3 combined mode 4 and combined mode 5 e The operation panel can be used to monitor the output frequency output current and output voltage and to browse the alarming information set parameters and target frequency etc Therefore there are totally five working modes for an operation panel operating mode monitoring mode frequency setting mode parameter setting mode and HELP mode Related Operation Reference Source of Target Signal Source of Motor Values Remarks Parameters Mode Frequency Starting diis r 34 FWD REV pr operation panel Press the key or on i the operation panel wo REV die ea ae The set value of P 15 Press the key or on eae the operation panel The PU mode External voltage current external mode 0 signal combination of and JOG mode multi speed stage levels are valid and External jor External JOG eterna eras interchangeable A mode Frequency set by pulse i P IPad B 82 ode Frequency of ea
41. A to adjust the value of P 187 The screen will display a progressively increase of the FM correction index Press for more than 0 5 second and the pointer will move upward Press v to adjust the value of P 187 downward and the screen will display a progressively decrease of the FM correction index Press for more than 0 5 second and the pointer will move downward When P 64 1 and P 74 1 10 the function of external terminal SO is 10 times the output function When P 74 5 and temporary running frequency is at 20Hz we can detect output impulse wave between terminal SO and SE as follows Vo R lOms so C aav lt o AYC CIOG i 1 8V 0 gt T Note 1 The multi function output terminal is SO When P 40 0 the default value it means RUN When a different value is set the corresponding function will change according to what is shown in the above table 2 The internal electrical structures for the multi function output terminals are the open collector output Please refer to Section 3 5 6 and Section 3 5 7 for wiring 3 When the set value of P 85 is 5 the default value the function of the multi function relay A B C is ALARM When the value of P 85 is revised its function changes respectively as the corresponding function listed in the table above 4 When setting P 74 to non zero SO and FM functions will be invalid 5 If the FM function is selected If the users measured by a frequency c
42. P 13 to 0 Start the motor and fix the output frequency of the inverter at OHz Read the set value of P 190 and the screen will display the current AM output bias 4 Press A and and hold these bottoms for 0 5s The finger of the meter moves upwards and the AM output bias will increase Press v to change the value of P 190 press and hold for 0 5s The finger of the meter moves downwards and the AM output bias will decrease Adjust the scale pointer position to O to complete the AM output bias correction work 5 Adjust and fix the output frequency of the inverter at 60Hz 6 Read the setting value of P 191 and the screen will display the current AM output gain 7 Press a v to adjust AM output gain press and hold for 0 5s the finger of the meter moves upwards and downwards When the finger of the meter moves to full range the checking is completed Ww 5 24 Restart Function P 57 P 58 P 150 V F P 57 Restart coasting time P 58 Restart voltage rising time P 150 Restart mode selection Parameter Factory Setting Setting Range Remarks 57 9999 0 30s 9999 9999 Restart function invalid 58 10s 0 60s 150 0 0 22 lt Setting gt When the motor is running the output voltage will not be constant once the driving power is interrupted When the power is recovered the inverter will not restart automatically if P 57 9999 If P 57 0 1 5 the motor will coast for a while the set v
43. P 177 Exception handling mode P 224 Analog feedback signal gain P 178 Sleep detects deviation P 225 Panel command e During the operation of PID control the frequency displayed on the screen is the output frequency of the inverter e The function of Stall Prevention operates according to the setting frequency before PID control Please pay attention to the Gain setting during the process of PID Gain setting for 1t is possible that the output current can not be limited absolutely e Under PID control the output frequency is also limited between the maximum frequency and the minimum frequency e Please refer to the instruction of P 60 about the input signal filter on terminal 4 5 and terminal 2 5 e The sketch map of PID function is as follows T Sampling period 10ms Factory Setting R k Setting Range DIN Parameter O PID function non selected The target value is determined by P 225 The feedback 170 0 0 1 2 value is determined by the voltage of terminal 2 5 The target value is determined by P 225 The feedback value is determined by the voltage of terminal 4 5 Negative feedback control The calculation for the deviation is target value minors the feedback value When an increase in the output frequency will increase the feedback value select this setup 171 1 y 0 Positive and feedback control The calculation for the deviation is feedback value minors the target value W
44. Range Setting Unit P3 Base frequency 0 650Hz 0 01Hz P 20 Acceleration deceleration reference frequency 1 650Hz 0 01Hz P38 me mazum oupi frequency the target frequency 1 650Hz 0 01Hz is set by the input signal across terminal 2 5 P39 The manay cure frequency ihe target frequency 1 650Hz 0 01Hz is set by the input signal across terminal 4 5 P 55 Frequency monitoring reference 0 650Hz 0 01Hz P 66 Stall prevention operation reduction starting frequency 0 650Hz 0 01 Hz P 182 Integral upper limit frequency 0 120Hz 0 01Hz P 195 Frequency corresponding to the maximum input 0 650Hz 0 01Hz voltage across the terminal 2 5 P197 Frequency corresponding to ihe maximum input 0 650Hz 0 01Hz EE voltage current across the terminal 4 5 P 305 Motor rated frequency 0 650Hz 0 01Hz Note 1 If the users have some problems from adjusting the factory setting witch in the table above deceleration time output voltage voltage signal and setting frequency may be affected 2 If the users need to adjust the factory setting to 60Hz take the following steps 1 Sett P 189 0 2 Set P 998 to resume the factory setting This time the factory setting of interrelated parameter is 60Hz and P 189 0 Please refer to P 998 in Section 4 3 If the users need to resume the 50Hz system set P 189 1 and implement Step 2 in Note 2 the factory setting of P 189 is 1 110 Parameter Description 5 51 Input Signal across Terminal 2 5 P 192 P 195 P
45. Specification Inverter Characteristics Voltage Frequency output Characteristics Control Method SVPWM control V F control facility vector control Output Frequency Range 0 1 650Hz The starting frequency setting range betwee O and 60Hz Digital If the frequency value is set below 100Hz the resolution will be 0 01Hz Freid setting If the frequency value is set above 100Hz the resolution will be 0 1Hz PROIN Analo When setting the signal DC 0 5V the resolution will be 1 500 When setting the signal DC 0 10V or 4 20mA the resolution will be setting 1 1000 Digital Maximum target frequency 0 01 Output Frequency setting A Anal do 2 S Maximum target frequency 0 5 setting Base voltage P 19 base frequency P 3 can be arbitrarily set Constant torque model and variable torque model can be selected P 14 Start Torque Torque Boost 150 3Hz 200 5Hz when using the facility vector control The torque boost setting range between 0 and 30 P 0 auto boost slip compensation Acceleration Deceleration Curve Characteristics The acceleration deceleration time P 7 P 8 resolution 0 01s 0 1s switch by P 21 The setting range between 0 01 and 360s or 0 1 3600s for selection Several acceleration deceleration curve models are available for selection P 29 DC Braking Stalling Protection The DC braking action frequency range between O and 120Hz P 10 the DC brakin
46. User Manual Shihlin Electric SS2 TYPE inverters possess many complex parameterized functions that meet most of the application requirements from the market But for users who are unfamiliar with inverters such a complex inverter may cause confusion Please read the manual carefully to master the roperation methods of the inverter In case there is any question please feel free to contact us In Chapter 3 of this manual all series and the corresponding specifications of Shihlin Electric SS2 TYPE inverters are listed in detail Section 3 5 guides the users how to install the inverter and emphasizes on safety precautions when using the inverter Chapter 4 guides the users how to use the inverter In Section 4 1 the operating mode of the inverter is outlined and how to use the operation panel is described and in Section 4 2 simple operating steps are explained Chapter 5 explains the functions of each parameter in detail Terminologies used in this manual are defined as follows 1 Output frequency target frequency steady output frequency The actual output current frequency of the inverter is referred to as the output frequency The frequency set by user through operation panels multi speed terminals voltage signals or current signals is referred to as the target frequency When the motor starts running the output frequency of the inverter will gradually accelerate to the target frequency until reaching the target frequency and b
47. and monitoring output voltage monitoring HELP mode A Alarm history monitoring Run indication lamp frequency monitoring indication lamp LED indication voltage monitoring indication lamp current monitoring indication lamp 6 lamp mode switching indication lamp and PU control indication lamp RS485 Internal RS485 communication RJ 45 connector Protection Mechanism Alarm function Output short circuit protection Over current protection P N over voltage protection voltage too low protection motor over heat protection P 9 IGBT module over heat protection braking transistor abnormality protection communication abnormality protection etc Ambient Pen 10 50 C non freezing installation side by side 10 40 C temperature APIa Below 90 Rh non condensing humidity Storage 20 4650 temperature oe ren Indoor no corrosive gas no flammable gas no flammable dust environment Environmental Amd Condition Below 1000 meters below 5 9 m s 0 6G vibration Grade or 1P20 protection The degree of environmental 2 pollution rs id Class I protection Certification C Introduction of Shihlin Inverter 3 3 Mechanical Dimensions 3 3 1 Frame A Lo 13 2XR2 5 vi Pens Shihlim 552 seres cds Ha s D VAN te ev ps loa db S
48. are necessary Note Only fully qualified electrical professional personnel can carry out installation wiring dismounting and maintenance 6 1 Daily Inspection 1 Check whether the surrounding conditions are normal including temperature humidity dust density and etc at the installment place 2 Check whether the power supply voltage is normal the voltages among R L1 S L2 and T L3 Check whether wiring is ok whether the external wiring for the main circuit board and the control board terminal is loose Check whether the cooling system is abnormal Whether there s any abnormal acoustic noise when operating whether the wiring is ok Check the indicating lamp Whether the control board indicating LED lamp the operation panel indicating LED lamp and the operation panel screen LED are normal 6 Check whether the expected performance is maintained 7 Check whether there s any abnormal vibration acoustic noise or smell during running 8 Check whether there is liquid leaking from the filter capacitors 6 2 Periodical Inspection During Stop 1 Check the connector and wiring whether the connector and wiring between the main circuit board and control board is ok 2 Check whether components on the main circuit board and the control board are overheated o O ON HN Ur mL Check whether the electrolytic capacitors on the main circuit board and control board have liquid leaki
49. error The following errors in the data issued by the computer can be detected by the inverter but there is no feedback from the inverters for detecting errors Error detection list Error item Error content Parity error Parity received by the inverter is different from the initial set of the inverter The stop bit lengths of the data that the inverter has received do not match to the Frame error sieht initial set of stop bits of the inverter When the inverter has not yet received the data but the computer starts to write Overflow error i i the incoming data The inverter s data calculated according to the received LRC CRC check result Check error is inconsistent with the received LRC CRC checksum 68 Parameter Description e Communications examples Example 1 Write CU communication mode by Communication Step 1 Modify the inverter mode by the computer Mode Start Address Function Initial Address Write Data Check End H30 H30 H30 H30 H30 H45 ASCII H3A H31 H36 H31H30 H30 H30 H30 H39 OD OA RTU gt 10ms 01 06 10 00 00 00 8DOA gt 10ms Step 2 The inverter responds to the computer after receiving and processing the data Mode Start Address Function Initial Address Write Data Check End H30 H30 H30 H30 H30 H45 ASCII H3A H31 H36 H31H30 H30 H30 H30 H39 OD OA RTU gt 10ms 01 06 10 00 8DOA gt 10ms
50. except multi speed or PU target frequency lt Setting gt Remote setting function 1 Whether the remote setting function is valid and whether the frequency setting storage function in the remote setting mode is used is selected by P 61 Set P 61 1 3 remote setting function is valid the function of terminals RM RH and RL are changed to acceleration RH deceleration RM and clear RL As shown in the following Figure Inverter Forward rotatio Acceleration Deceleration Wiring of remote control setting 86 Parameter Description 2 At the remote setting the output frequency of the inverter is Target Frequency set by external terminals Frequency set by RH RM operation external set frequency other than multi speeds Target Frequency set by operation panel PU set frequency external set frequency other than multi speeds Frequency setting storage function The frequency setting storage function is to store the remote set frequency frequency set by RH RM operation in memory EEPROM Once the power supply is shut off the inverter can start running again at the remote set frequency When P 61 1 Frequency setting storage condition 1 The frequency when the start signal STF STR is off 2 When the signals RH acceleration and RM deceleration are either off or on the remote set frequency is stored per minute The current frequency set value and the last frequency set value is compared at each
51. external analog meter to indicate the output frequency or current Contact capacity is 0 10VDC 2mA Please refer to P 54 P 55 P 56 P 191 and P 192 in Chapter 5 Communication Terminal Communication terminal for DUOG or PC 22 Introduction of Shihlin Inverter 3 5 7 Wiring precautions Main circuit wiring 1 Do not connect the power supply wires to the inverter output terminals U T1 V T2 W T3 that are designed for connecting motors otherwise the inverter may be damaged 2 Please do not mount filtering capacitors surge absorbers and electromagnetic contactors at the output end of the inverter 3 Please do not use electromagnetic contactors or no fuse switches with an online power to start or stop the motor 4 Please ensure that the case of inverter and the motor are grounded to avoid electric shock 5 To appropriately select the diameter of the main wires and the corresponding wire terminals the no fuse switches and the electromagnetic contactors please refer to Section 3 6 And if the inverter is far away from the motor please employ a wire with larger diameter to ensure the voltage drop along the wire is within 2V The total length of the wire shall not exceed 500 meters 6 Pressing connection terminals with insulated sleeve shall be utilized for the wiring at the power source side and the loading side 7 High voltage still exists between the P N terminals shortly after shutting off
52. i eference i P 58 Retry voltage rising time 5 Minimum Setting range Default value setting unit 0 10 1 0 0 100 0 1 10 0 650Hz 0 01Hz 6Hz 0 650Hz 9999 0 01Hz 9999 0 360 00s 0 01s 9999 0 3600 0s 9999 0 1s 0 360 00s 0 01s 9999 0 3600 0s 9999 0 1s 0 30 9999 0 1 9999 0 650Hz 9999 0 01Hz 9999 0 1 1 0 0 1 1 0 0 1 2 1 0 1 2 1 1 0 10 1 1 0 999 8s 0 1s 9999 9999 0 4 1 0 50Hz 60Hz 0 650Hz 0 01Hz Note Related output 0 500A 0 01A current 0 30s 9999 0 1s 9999 0 60s 0 1s 10s 131 User setting value Reference page Appendix 1 Parameter list Parameter number Name Input signal filtering constant Remote setting function selection ero current detection level ero current detection time Pulse output selection Retry selection Stall prevention operation eduction level starting frequency Number of retries at alarm occurrence Retry waiting time Retry accumulation times Special regenerative brake duty Idling braking and linear braking selection Carrier frequency Voltage signal selection 10X output selection Stop or Reset function selection Parameters write protection Selection of forward reverse rotation prevention Setting range 0 200 9999 0 05 60s 9999 0 1 0 4 0 650Hz 0 10 0 360s 0 1 2 0 1 2 132 Minimum setting unit 0 1 0 01Hz Default value 31 5 0 5s 50Hz 60Hz Note User settin
53. in a sudden motor current increase or regenerative status To avoid backlash temporarily stop the acceleration deceleration Set the acceleration deceleration stopping frequency and time in P 229 to P 233 Outpot Backlash compensation function frequency P 23 2 UERITAS time P 233 Note When setting up backlash compensation acceleration deceleration time only in part time longer 113 Parameter Description 5 54 Triangular Wave Function P 234 P 239 V F P 234 Triangular wave function selection P 235 Maximum amplitude P 236 Amplitude compensation for deceleration P 237 Amplitude compensation for acceleration P 238 Amplitude acceleration time P 239 Amplitude deceleration time Factory Setting Setting Range Remarks 237 1096 0 50 10s 0 360s If P 21 0 the minimum increments of 0 3600s P 238 and P 239 is 0 01 seconds 10s E ee P 21 1 the minimum increments of 0 3600s P 238 and P 239 is 0 1 seconds lt Setting gt The triangular wave function is effective if the value of parameter P 234 is 1 and the signal is on Please set 36 to any parameter P 80 P 84 P 86 corresponding to the external terminal assigned for TRI signal If the value of the parameter is 2 it means the triangular wave function is effective all the time triangular wave Output 4 Operation f0 Setting value of frequency frequency EINE ON LLL fl Generated amplitude for i i setting f
54. inverter operation to commercial power supply operation When P 249 is set to 99990 there is no automatic switchover When P 250299999 automatic switchover is valid during the operation P 249499999 After the inverter operation is switched bypass operation if the frequency command is lower than P 249 P 250 the operation will be switched to inverter operation and run by the frequency of the frequency command Inverter activation when the inverter start command STF STR is turned off the operation is also switched to the inverter operation When P 250 99999 it is valid during automatic switchover operation P 249499999 When the inverter start command STF STR is turned off after the operation is changed from inverter operation to commercial power supply operation the operation will be changed to the inverter operation and the motor will decelerate until it stops Examples for the commercial power supply frequency switchover function The following diagram is the representative wiring diagram for altering the commercial power supply operation P 80 37 P 81 38 P 40 10 P 85 9 n NFB R S a E p Me EE F Wo MCI mb CREE so STE L DC24V L M1 SE MO KI A MC2 SD STO B T DCAV gt 92 c O ds Please pay attention to the capacity of the output terminals The terminals are used according to the different settings for P 40 a
55. mode programmed operation mode is chosen when PO is On 34 RES_E When the alarms occur external Reset became effective 86 RES 30 0 40 43 35 MPO At the external mode manually operation circle mode is chosen when MPO is on 36 37 TRI GP_BP Triangle wave function is chosen when TRI is on Automatic switchover frequency between inverter and commercial power supply operation 38 CS Manual switch for commercial power supply 39 STF STR STOP At the external mode it is used with RUN The inverter runs reverse when STF STR is on and stops when STF STR is off If you need runs forwards you should RUN again 40 41 P_MRS P_FRE When P_MRS is turned on the output stop immediately Frequency set by pulse P_MRS isa pulse signal Only for terminal M2 43 RUN_EN When RUN_EN is turned on terminals for external operation signal became effective 95 Parameter Description Note 1 The default values are P 80 2 RL P 81 3 RM P 82 4 RH P 83 0 STF P 84 1 STR P 86 30 RES 2 When changing the value of P 80 P 84 P 86 the functions of the terminals will be changed For example P 80 2 means that the function of MO is RL but if P 80 8 its function changes to RT as a second function selection terminal P 83 0 means that the STR terminal is chosen as running forward terminal When P 83 6 its f
56. or on the keyboard panel for the inverter to automatically calculate the following parameter P 308 P 309 When the motor cannot be fully separated from the load select P 301 2 When the motor is stopped the motor parameter will carry out auto tuning Then press orf on the keyboard panel for the inverter to automatically calculate the following parameter P 308 P 309 The users can use the motor s nameplate to calculate the idling current The motor nameplate parameters used in the calculation are rated voltage U rated current I rated frequency f and power factor Idling current J 2 Zx 41 77 123 Parameter Description Note 1 When the inverter is used with a motor of a different level verify the input motor s nameplate parameter P 302 P 307 The vector control method is heavily dependent upon motor parameters To achieve a good control performance the controlled motor s correct parameters have to be acquired 2 When any or many values of P 302 P 309 are manually revised perform the function of P 997 to reload the new values of the parameters 5 65 Parameter Copy Function P 994 and P 995 DU06 operation panel needs to be purchased P 994 Parameter copy readout P 995 Parameter copy write in e Parameter copy function is valid only when the motor is stop P 77 0 and under the PU mode When using same parameters for several inverter value setting use P 994 and P 995 to quickly copy the val
57. paid 2 When two or more motors are connected to the inverter they cannot be protected by the electronic thermal relay Install an external thermal relay to each of the motors 3 When a special motor is employed the electronic thermal relay is no longer valid Install an external thermal relay to each of the motors 4 For information related to the wiring for an external thermal relay refer to P 80 P 84 P 86 5 7_DC injection Brake P 10 P 11 P 12 P 10 DC injection brake operation frequency P 11 DC injection brake operation time P 12 DC injection brake voltage Parameter Factory Setting Setting Range Remarks 10 3Hz 0 120Hz 11 0 5s 0 60s 12 4 0 30 48 Parameter Description lt Setting gt The stop signal please refer to Chapter 4 for the primary operation will cause a gradual decrease of the output frequency of the inverter In case the output frequency reaches the DC injection brake operation frequency P 10 the DC injection brake will be activated During DC injection brake a DC voltage will be injected into the motor windings by the inverter which is used to lock the motor rotor This voltage is called DC injection brake voltage P 12 The larger the P 12 value is the higher the DC brake voltage and the stronger the brake capability The DC brake operation will last for a period the set value of P 11 to overcome motor inertia To ach
58. prohibited for control board terminals 3 The value of the insulation resistance shall be greater than SMQ Note Please do not carry out a high voltage test because the built in semiconductor components will be damaged by such a test 6 5 Motor insulation resistance measurement 1 Before measurement please dismount the motor and demonstrate wiring in the way as the right figure 2 The insulation resistance shall be greater than 5MQ 127 Inspection and Maintenance 6 6 IGBT Module Test Before check first dismount the external wires for the main circuit terminals Then set your multi meter to the ohm testing position Positive Negative Normal Positive Negative Normal voltage voltage result voltage voltage result R L1 HP Conducting U TI HP Conducting S L2 P Conducting V T2 HP Conducting T L3 HP Conducting W T3 P Conducting Not Not P R Ll HP U T1 l conducting conducting Not Not P S L2 HP V T2 conducting conducting Not Not f P T L3 f P W T3 Terminal conducting Terminal conducting mark Not mark Not R Ll N f U T1 N conducting conducting Not Not S L2 N V T2 N l conducting conducting Not Not T L3 N W T3 N conducting conducting N R L1 Conducting N U T1 Conducting N S L2 Conducting N V T2 Conducting N T L3 Conducting N W T3 Conducting o P
59. proportional control and increase PID proportion Gain progressively for the system to gain critical concussion 2 Adjust 80 PID proportion Gain setting in 1 and increase PID integration Gain progressively until the desired movement performance 3 To keeps PID integration Gain adjust PID proportion Gain and observe control process improvement If there is any improvement continue it until reaching the desired level If not increase the original PID proportion Gain then adjust PID integration Gain to improve the control process Do it repeatedly until reaching a desired level of the PID proportion Gain and PID integration Gain 4 The control process does not use PID differential Gain in general When using PID differential Gain PID proportion Gain and PID integration Gain have to be adjusted properly Repeat the same steps with differential time setting until reaching the desired control process 5 47 Disconnection Processing Function of Terminal 4 5 P 184 P 184 Disconnection processing function of terminal 4 5 Parameter Factory Setting Setting Range Remarks 184 0 0 3 lt Setting gt When P 184 0 this function is useless If the terminal 4 5 is disconnected the inverter will slow down to OHz If it is connected to terminal 4 5 again the inverter will accelerate to the corresponding frequency When P 184 1 the keyboard panel should be shown AErr if the terminal 4 5 is disconnecte
60. relay external thermal relay and thermal relay Uit operates the motor for matching operates 2 Reduce the load 1 Abnormal communication The maximum OPT communication retry Peripheral nor number is violated Correctly set the devices are ra 2 Interrupted communication communication parameters abnormal The maximum communication check time interval is violated EEP Memory is t t D The memory ROM fails Send it back to the factory abnormal P External electromagnetic CPU ro u z Improve external disturbance CPU error Lg disturbance is too strong L 1 Reduce the load of the OLS nin The load of the motor is too Stall prevention me 23 motor heavy protection 2 Increase the value of P 22 SCP The output current is two times Check Terminals U T1 V T2 di p larger than the rated current of and W T3 for short circuit such as the motor wiring 142 Appendix 2 Alarm Code List Code Screen Display Cause Troubleshooting 1 Exchange a larger capacity inverter and motor 2 Check the value which setting of PID feel back signal Gain setting the value again 1 The capacitr of inverter and motor is not enough 2 Setting PID target PIDE A E inc according to PID feed back p rue value and feed back PID abnormal signal Gain value unreasonable 3 Check whether the external 3 peripheral equipment feedback device such as failure f sensor regulation resistance and circuit is nor
61. run the motor At this time the indicating lamp of RUN Y will flicker indicating that the motor is running The operation panel then enters into the monitoring mode automatically Please refer to P 110 in Chapter 5 for detailed descriptions Note 1 Please refer to Section 4 1 3 for the operating flow of the monitoring mode 2 The frequency setting mode is valid while the motor is running and thus the target frequency can be changed to regulate the motor speed stor RESET Press and the motor will start to decelerate until it stops The indicating lamp of RUN will stay on until the inverter stops outputting voltages 4 2 2 Basic operation procedures for external mode P 79 0 or 2 Steps Description e The indicating lamp of EXT will be lit up when changing the operation mode to the external mode Note 1 When P 79 0 press to switch to the operating mode after the power is turned on or the inverter 1 is reset The inverter will enter the external mode first then press a or v to shift to PU mode 2 When P 79 2 the inverter will always be at the external mode 3 Please refer to Section 4 1 for selecting and switching the operation modes Please refer to P 39 in Chapter 5 if the target frequency is set by the input signal across terminal 4 5 Please refer to P 4 in Chapter 5 if the target frequency is set by multi speed stage levels 2 Please refer to P 38 in Chapter 5 if the targe
62. the inverter will decrease correspondingly Output current percentage std P22 eve eoreasing i region 100 P 66 Output frequency Level percentage A Bx pees x eee LU P 22 B 100 _ P 66xP 22A Be P 66xP 22A Output frequency 400 5 12 Output Frequency Filtering Constant P 28 P 28 Output frequency filtering constant e Decreasing the acceleration deceleration time or altering the output frequency from high frequency to low frequency or vice versa can cause machine vibration and thereby affecting the product quality e To reduce the machine vibration the output frequency can be filtered when altering from high frequency to low frequency or vice versa by setting the output frequency filtering as a constant P 28 The bigger the set value of P 28 the better the filtering effect but the corresponding response delay will increase The filtering function is invalid if the set value of P 28 is 0 Parameter Factory Setting Setting Range Remarks 28 0 0 31 54 Parameter Description 5 13 Acceleration deceleration Pattern Selection P 29 P 29 Acceleration deceleration Related parameters r P 3 Base frequency pattern selection P 7 Acceleration time P 8 Deceleration time P 20 Acceleration deceleration reference frequency P 44 Second acceleration time P 45 Second deceleration time Parameter Factory Setting
63. the inverter will follow the amp acceleration deceleration curve after pressing 5 Deceleration time Time set in P 8 etc Output frequency Hz DC break Time Operation signal ON OFF 5 30 Carrier Frequency P 72 P 72 Carrier frequency Parameter Factory Setting Setting Range Remarks 12 5 1 15 lt Setting gt e The higher the carrier frequency is the lower the motor acoustic noise is Unfortunately larger leakage current and larger noises generated by the inverter are resulted in e The higher the carrier frequency is the more energy is dissipated and the higher the temperature of the inverter is e In case a mechanical resonance occurs in a system with the inverter P 72 is helpful for improving the performance by adjusting the values e The higher Carrier frequency the inverter rated current will decline which was to prevent the inverter to overheat and extend the life of IGBT so that protection measures are necessary The carrier frequency In 8kHz and below rated current of a inverter for 100 as the carrier frequency increase rating current as the decline will accelerate product heat to protect the inverter Rated current and carrier frequency relation curve shown in the following figure 90 Parameter Description Rated current 100 90 80 70 60 50 40 gt 2kHz 4kHz 6kHz 8kHz 10
64. the power supply thus please do not touch them within 10 minutes after the shut off to avoid electric shock Control circuit wire arrangement 1 For wiring of signal input insulated wires must be used and the metal mesh of which must be grounded 2 For wiring of the control board wire with a diameter of 0 3 0 75 mm is recommended For stripping off the insulating layer please follows the instruction of the following figure 10mm 3 The control board wire including signal input wire shall be away from the main circuit board wire as much as possible Binding the control board wire together with the main circuit wire 1s strictly forbidden 4 In the inverter terminal SD terminal SE and the terminal 5 are the reference grounds for the inner power sources isolated from each other 23 Introduction of Shihlin Inverter 5 Wiring installation Slotted screwdriver _ _ First insert slotted screwdriver with terminal blocks pressing terminal blocks down and then insert the electric wires 6 Wiring demounting Slotted screwdriver First insert slotted screwdriver with terminal blocks and pressing terminal blocks down and then pull out the wire Note 1 Screwdriver use small slotted screwdriver the tip thickness 0 4mm tip width 2 5mm 2 If you use the screwdriver tip width too narrow and may cause Terminal damage 3 Please alignment terminals pressing dowm with the slotted screwdriver head of the slid
65. to P 2 When the operation frequency is more than P 1 the operation frequency should equal to P 1 Note 1 Basic frequency is set by the target frequency reference source operation panel communications analog signal 2 5 4 5 input or combination of multi speed gears 2 The proportion linkagefunction please refer to P 185 3 Seclection the 4 5 external analog signal voltage or current input terminals please refer to P 17 the frequency range of the external analog signal please refer to P 38 and P 39 5 56 DC Injection Brake Function before Starting P 242 P 244 V F P 242 DC injection brake function before starting selection P 243 DC injection brake time before starting P 244 DC injection brake voltage before starting Parameter Factory Setting Setting Range Remarks 242 0 0 1 243 0 5s 0 60s 244 4 0 30 lt Setting gt If P 242 0 the DC injection brake function before starting is not selected If P 242 1 the DC brake injection function before starting is selected When the output frequency reached the starting frequency P 13 a DC voltage P 244 will be injected into the motor windings by the inverter which is used to lock the motor rotor The DC brake operation will last for a period the set value of P 243 before the motor start 115 Parameter Description As shown as follows Output frequency P 13 time DC injection brake voltage P 244 time
66. value number setting unit value page Runtime of section 2 in 0 6000s 0 1s Os P99 programmed operation mode Runtime of section 3 in 0 6000s Os P99 programmed operation mode Runtime of section 4 in 0 6000s Os P99 programmed operation mode Runtime of section 5 in 0 6000s Os P99 programmed operation mode Runtime of section 6 in 0 6000s Os P99 programmed operation mode Runtime of section 7 in 0 6000s Os P99 programmed operation mode Runtime of section 8 in 0 6000s Os P99 programmed operation mode Operation panel frequenc P PP P 4 y 0 4 1 0 P101 monitoring selection Acceleration deceleration 0 600s 0 01s or S time of section 1 0 6000s 0 1s Acceleration deceleration 0 600s 0 01s i ner S time of section 2 0 6000s 0 1s Acceleration deceleration 0 600s 0 01s A e S time of section 3 0 6000s 0 1s Acceleration deceleration 0 600s 0 01s i boo S time of section 4 0 6000s 0 1s Acceleration deceleration 0 600s 0 01s a S time of section 5 0 6000s 0 1s Acceleration deceleration 0 600s 0 01s 2s S time of section 6 0 6000s 0 1s Acceleration deceleration 0 600s 0 01s i a S time of section 7 0 6000s 0 1s Acceleration deceleration 0 600s 0 01s i uo S time of section 8 0 6000s 0 1s 134 Appendix 1 Parameter list Parameter Minimum User setting Reference Name Setting range f Default value number setting unit value page P 120 The output signal delay time 0 3600s 0 1s P121 Run direction in ea
67. voltage is between P N or the over current occurs After a period of waiting time the set value of P 68 the retry is executed When P 65 4 retry is effective When alarm occurs the voltage output is stopped After a period of waiting time the set value of P 68 the retry is executed e When P 67 0 retry is invalid e When P 67 0 given continuous alarm occurs for times within the pre defined upper limit of P 67 retries will be valid However once the upper limit is exceeded retry is valid no more For each time the retry occurs the value of P 69 will be increased by one automatically so the number of P 69 read from the memory indicates the number of retry accumulation times If P 69 is rewritten with 0 the number of retry executed is erased Note The inverter will retry until the return wait time of P 68 is completed Therefore the operation may cause danger if this function is selected Please be careful 5 29 Brake Selection P 71 P 71 Idling braking and linear braking selection Parameter Factory Setting Setting Range Remarks 71 1 0 1 lt Setting gt 89 Parameter Description When P 71 0 the brake is idling The output of the inverter will be terminated immediately after pressing and the motor will be racing Output frequency Hz Motor coasts stop l Time Operation signal ON OFF e When P 71 1 it is now beeline brake The output of
68. voltage output dc voltage to keep the torque 2 Suppose that P 152 6 then the output voltage is P 19 X 6 at zero speed 5 41 Over Torque Detection P 155 P 156 P 155 Over torque detection level P 156 Over torque detection time P 40 Multi function output terminal pattern Related parameters P 85 Function selection for multi function relay e When the value of P 155 is not 0 the function of over torque detection is selected e When the output current is in the excess of the over torque detection level P 155 and the over torque detection time P 156 the display screen of the inverter will display fand the motor stops 102 Parameter Description Parameter Factory Setting Setting Range Remarks 0 No detection of over torque When detecting the over torque vie 1 2 ve ee 0 1 200 alarm is displayed and the motor stopped 156 Is 0 60s A full load current level 100 Output current P 155 Invertor display the OL2 alarm and the output stopped the motor stopped too i q time gt P 156 4 output OL Overload alarm Reset signal e O 5 42 External Terminal Filter Function P 157 P 157 External terminals filter function selection Parameter Factory Setting Setting Range 157 4 0 200ms P 157 selects response time to the signal of external terminal 5 43 E
69. when the alarm goes off When P 290 5 P 291 X 100 corresponds to the P N voltage when the alarm goes off 291 0 Ss If both P 288 and P 290 are 0 P 289 and P 291 will be displayed as 0 Abnormal code corresponded alarm condition Abnormal Alarm Abnormal Alarm Abnormal Alarm Abnormal Alarm Number Code Number Code Number Code Number Code 00 H00 Noalarm 33 H21 OV2 64 H40 EEP 160 HAO OPT 16 H10 OCI 34 H22 OV3 66 H42 PIDE 179 HB3 SCP 17 H11 OC2 35 H23 OVO 97 H61 OLS 192 HCO CPU 18 H12 OC3 48 H30 THT 98 H62 OL2 193 HCl CPR 19 H13 OCO 49 H31 THN 129 H81 AErr 32 H20 OVI 50 H32 NTC 144 H90 OHT 5 61 Accumulative motor operation time function P 292 P 293 P 292 Accumulative motor operation time minute P 293 Accumulative motor operation time day Parameter Factory Setting Setting Range Remarks 292 0 0 1439min 293 0 0 9998day lt Setting gt P 292 means the minutes of accumulative motor operation execute P 998 shut off the power and the updated value cannot change the value of P 292 The only way to clear the accumulation of time is to set P 292 to 0 120 Parameter Description P 293 is about the accumulative motor operation time in days The updated value cannot be modified by executing P 998 or power shutdown To clear the accumulated time make P 293 0 5 62 Pas
70. will be restored automatically which is called retry 88 Parameter Description e Inverter retry is a conditional execution For example when the first alarm occurs the retry will be executed A second alarm occurs successively within P 68 lt 5 seconds is defined as continuous alarms The occurrence of a continuous alarm that is more frequent than the pre defined upper limit indicates a significant malfunction In this case special measures should be taken manually and retry will not be executed any more The number of pre defined times is called the number of retries at alarm occurrence P 67 e If the alarm is not a continuous alarm the inverter can perform unlimited number of reset e The period from the moment of alarm to the retry is defined as the retry waiting time Parameter Factory Setting Setting Range Remarks 65 0 0 4 67 0 0 10 68 6s 0 360s lt Setting gt e When P 65 0 retry is invalid When alarm occurs the voltage output is stopped the alarm lamp is lit up and all the inverter functions are disabled When P 65 1 the voltage output is stopped if the over voltage between P N occurs After a period of waiting time the set value of P 68 the retry is executed e When P 65 2 the voltage output is stopped if over current occurs After a period of waiting time the set value of P 68 the retry is executed e When P 65 3 the voltage output is stopped if the over
71. 149 ooooonconccocconnonnoononnaonnonncnncnnaonnonncnnconornoonnonncnn Na 45 5 5 Acceleration deceleration Time P 7 P 8 P 20 P 21 P 44 P 45 ooooconooccconooocccononncnononnnncononncnconannnoconnnnnnono 46 5 6 Electronic Thermal Relay Capacity P 9 sese ener enne enhn ennenne nne 48 SA DC injection Brake P 10 PTT B 12 e d bananas 48 3 0 Starting Frequency B 13 teo IGI RE EET er eC OR e red ee ER een 49 5 9 Load pattern selection P 14 P 98 P 99 P162 P 169 nner a a 50 3 10 JOG Mode PASTO 5 5i e REA eh E Cre re COR UR ede E Fo P POR UR C Pee e Fre Po Ic 53 5 11 Stall Pr vention P22 P23 B 66 e eri er eE E EAE E aE ERE E EAE E i RE 53 5 12 Output Frequency Filtering Constant P 28 sssssssssessssessssesessssestsrestsresesrsesteresterestnresesreentsresrseesrsessent 54 5 13 Acceleration deceleration Pattern Selection P 29 cecccecssccsssceseeeeeeeeeeecsseecseeeceeseeesseeeseeeeeaeeesaeeeaes 55 3 14 Regenerative Brake P 30 P 7O etica eite et t e e dida dia 56 5 15 Carrier Frequency Action Choice P 31 oe essent nennen nen etre teen 57 5 16 Communication Function P 32 P 33 P 36 P 48 P 53 P 153 P 154 sese 58 DLE SpeedDisplay P 37 3 25 oit ede mette tee me ttai die 73 5 18 Voltage Signal Selection and Target Frequency P 38 P 73 P 139 P 141 sse 74 5 19 The Input Signal across Terminal 4 5 and the Target Frequency P 17 P 39 sss
72. 192 Minimum input voltage across terminal 2 5 P 193 Maximum input voltage across terminal 2 5 P 194 Frequency corresponds to the minimum input voltage across terminal 2 5 P 195 Frequency corresponds to the maximum input voltage across terminal 2 5 Parameter Factory Setting Setting Range Remarks 192 0 0 10 193 0 0 10 194 0 0 60Hz 50Hz P 189 1 195 0 650Hz 60Hz P 189 0 lt Setting gt Emendation steps 1 Make sure that the voltage signal is correctly inputted 2 Assume that the input voltage equals Value A and the expected output frequency is 20Hz then adjust the signal to Value A and write 20 into P 194 Also Value A will be written into P 192 3 Assume that the input voltage equals Value B and the expected output frequency is 60Hz then adjust the signal to Value B and write 60 into P 195 also Value B will be written into P 193 Running frequency set value P 195 Value A Value B Singal across terminal 2 5 Running frequency P 194 Note 1 The equation for the above curve is Voltage value Value A 2 If the user can not provide the actual stability of the signal input the user can set up the parameters P 192 and P 193 manually The value of P 192 corresponds to the frequency of the P 194 set The value of P 193 corresponds to the frequency of the P 195 set When setting up the parameters manually verify the range of P 194 and P 195 and then adj
73. 3 Backlash Compensation Function P 229 P 233 coconiccoccoccoconononnconcnnonanonncnncnncnnnonnonncnnannnonncnncnn conc cnncnn n 113 5 54 Triangular Wave Function P 234 P 239 essent nennen nennen SENS aiei aoise 114 5 5 Auxihary Frequency Function P 240 5 e eee eee Re ne edd erede 115 5 56 DC Injection Brake Function before Starting P 242 P 244 essere nenne 115 5 57 Options for Stopping the Cooling Fan P 245 sese nennen 116 5 58 Commercial Power Supply Frequency Operation Function P 247 P 250 sess 116 5 59 Short Circuit Protection Function P 287 sessi eene nennen tentent eene een 119 5 60 Alarm History Parameters P 288 P 291 isses enne eerte eterne eene nest 119 5 61 Accumulative motor operation time function P 292 P 293 cocncciccnccocanancnncononnnonncnnonncanornnonn corona cnn nonncnnos 120 5 62 Password Protection Function P 294 and P 295 cccecscccsssccsseceesceeeseeceeseeeeseecseeceeecseneeeeseeenseeceeeenseeeees 121 5 63 Motor Control Mode P 300 and P 301 eecceesccessscessseeessecssneceenecensecenseecseeceeeceeaeeeeseeenseessaeeseaeeeeaeeesaes 121 5 64 Motor Parameter P 302 P 309 siehe iiaeie aee a i e eie L E ENEE EE 123 5 65 Parameter Copy Function P 994 and P 995 DU06 operation panel needs to be purchased 124 3 66 Alarm Log Deletion P 996 ici A Re Deve Y ede e e re e edu e Ue eee duke nein
74. 32 P 36 P 52 P 53 and P 153 are applied to both protocols P 48 P 51 is only applied to the Shihlin protocol while P 154 is only applied to Modbus protocol e For continuous communication please set the following listed parameters correctly otherwise it cannot carry out normal continuous communication Parameter jns Setting Range Remarks Setting 0 Baud rate 4800bps 1 Baud rate 9600bps 32 1 0 3 2 Baud rate 19200bps 3 Reserved 0 Modbus protocol 33 1 0 1 1 Shihlin protocol 36 0 0 254 Note 1 0 Data length 8 bit 48 0 0 1 1 Data length 7bit 0 STOP bit length 1 bit 49 0 0 1 1 STOP bit length 2 bit 0 Not Given 50 0 0 2 1 Odd 2 Even 58 Parameter Description Factor Parameter Setting Range Remarks Parameter Setting 1 Only CR 51 1 1 2 2 CR and LF 52 1 0 10 Note 2 Conduct communication overtime test 0 999 8 0 999 8s according to the set value 53 9999 END 9999 9999 No communication overtime test 9999 Note 3 0 Warn and call to stop 153 0 0 1 1 No warning and keep running Modbus ASCII mode Protocol lt 1 7 N 2 gt 0 Note 4 1 Modbus ASCII mode Protocol lt 1 7 E 1 gt 154 4 0 5 2 Modbus ASCII mode Protocol lt 1 7 0 1 gt 3 Modbus RTU mode Protocol lt 1 8 N 2 gt 4 Modbus RTU mode Protocol lt 1 8 E 1 gt 5 Modbus RTU mode Protocol lt 1 8 0 1 gt Note 1 The wiring method and match
75. 42 P 149 Speed 8 to 15 Related parameters P 1 Maximun frequency P 2 Minimum frequency P 29 Acceleration deceleration pattern selection P 79 Operation mode selection P 80 P 84 P 86 Multi function terminals selection Parameter Factory Setting Setting Range Remarks 4 60Hz 0 650Hz 5 30Hz 0 650Hz 6 10Hz 0 650Hz 24 27 9999 0 650Hz 9999 9999 is not chosen 142 OHz 0 650Hz 143 149 9999 0 650Hz 9999 9999 is not chosen lt Setting gt If all the setting values of P 24 P 27 and P 142 P 149 are not equal to 9999 the 16 speed operation will be activated It means that there are a total of 16 kinds of speeds from the combination of RL RM RH and REX For the setting of the target frequency of the inverter please refer to the figure below gt Es a 3 High speed E D 5 e s o Speed O REX dl ls 4 PRE gu LON AA EXE RM RL Lm E Lim Dm 45 Parameter Description Provided that the values of P 24 P 27 and P 142 P 149 are all defaulted the 3 speed operation is active In this case the target frequency can be set as follows the priority for the terminals is RL gt RM gt RH P24 P25 P26 P 27 P 142 P 143 P 144 P 145 P 146 P 147 P 148 P 149 9999 9999 9999 9999 9999 9999 9999 9999 9999 9999 9999 9999 RH P 4 2
76. 78 5 20 Multi function Output P 40 P 64 P 74 P 85 P 120 and P 187 esee 79 5 21 Up to frequency Sensitivity P 41 eeesesseeseeseeseeeseeee enne neret enne ENNE e tenens ener ener etes eterne 82 5 22 Output Frequency Detection P 42 P 43 esses eene nennen nennen then E 82 5 23 AM Terminal P 54 P 56 P190 P 19D coi A dee nes 83 5 24 Restart Function P 57 P38 P130 ccsccccccosesisccescsdscvsssesvevactedsevetscdesvetectessetecdessetecdeveedecdsntecvedsatecvedsatesves 84 5 25 Input Signal Filter Constant P 60 2 ie ettet Ett ento nido enn theta eio npo tte e iden irs 85 5 26 Remote Control Function B 61 eoe et e te eii 86 5 27 Zero Current Detection P 62 P 63 erinin i conan nn cnn nro nr rentre ernst 88 5 28 Retry P05 P607 P08 P 09 untiin n E C HC ET e a Ari 88 5 20 Brake Select om PITO A AA A tete liii 89 23 30 Carrier Frequency P72 AAA 90 25 1 Stop Function Selection P75 rre 91 3 32 Parameters write protection B 77 ei desierit tini tii t e n nee EUER ene EYE era 92 5 33 Selection of Forward Reverse Rotation Prevention P 78 cccscccsssccessecesseceeeceeeeeeseeceeecsceceeaeeeeeeeaes 92 3 34 Operation Mode Selection P79 ccccccciccencoticeusceviewassevsceuacevlovviosViosaacavlosuacdvdesvacevecsbesVieduacaveestacaeicduacaeee 93 5 35 Multi function terminals function selection P 80 P 84 P 86 oooooonocccinoccnocccconcccononcnoncononcononcnnanonc
77. Ani 3 2 2 Type MSUUCHON ss as coves eter eerte dee dci Dl Pure RE ere e ipt here e ated roe aen tds 3 2 3 Indent Symbol Instruction 3 3 Introduction of Shihlin Inverter o eno eb eet deu eet eee ene etel neu aie dentem 4 S A Electric Specification ore tee Fed ee Pe mee Tee n et e ef e ED Fe EUER edes 4 3 2 Common Specification Inverter Characteristics essent rennen 6 3 3 Mechanical Dimensions ote tee E ene eere e Oeo EURO ORE en decease P lc ios 8 3 4 Name ot Each Part ena orden n aieo p on pa 10 35installation and Witinig rein tet UR etis EA E CORR e Pe OR CR rra ER Rc vos ORNs Etro FORT A 12 3 6 Selection of Peripheral Equipments esses nne enre trennen een eneenn streiten nne 25 A Primary Operation rennen erg ette be ir aeuo tte eode repite bai deed 31 4 1 Operation Modes of the Inverter ceo ete ee eee dee en e tes 31 4 2 Basic Operation Procedures for Different Modes sss rennen 36 4 3 Oper tion E poo eet Med ons ite e Meet Ge ddd ade sag Map erat 40 5 Parameter Description on TR ER RD ei dea HE e tube Y UP ret ete Ree e e eR CERE ted ee E e Re Ee ER TRES 42 osLTorque Boost B O P 46 NE 42 5 2 Range of the Output Frequency P 1 P 2 P 18 aenn i a i E cnnonn crono etre nennen 43 5 3 Base Frequency and Base Voltage P 3 P 19 P 47 ooonconncccoccnocacocanocaonnconnconnconcconcconnconnconnconnconnconccnncconccnnos 44 5 4 Multi speed P 4 P 6 P 24 P 27 P 142 P
78. DC injection brake voltage before starting Cooling fan operation selection MC switch interlock time Start waiting time Automatic switchover frequency A 3 5 ga E ji from inverter to bypass operation Automatic switchover frequency range from bypass to inverter Alarm history number The latest alarm status selection Accumulative motor operation time minutes Accumulative motor operation time days Decryption parameter Password setup Motor control mode selection Motor parameter auto tuning function selection Motor rated frequency Motor level Short circuit protection function The latest alarm status Setting range 0 1 0 60s 0 30 0 3 0 1 100s 0 1 100s 0 60Hz 9999 0 10Hz 9999 0 5 0 1439min 0 9998day 0 9998 2 9998 0 160 0 8 139 Minimum Default value setting unit 1 s 9 1 User setting value page P115 P115 P115 P116 P116 P116 P116 P116 P119 P119 P119 P119 P119 P120 P120 P121 P121 P121 P121 P123 P123 a S O 3 le O Appendix 1 Parameter list Parameter Minimum Setting range Default value number setting unit P 304 Motor rated voltage 0 440V 1V 220 440V 50Hz 60Hz P 305 Motoe rated frequency 0 650Hz 0 01Hz NES ote P 306 Motor rated current 0 500A 0 01 A Horsepower based 1410 1710 r min P 307 Motor rated rotation speed 0 65535 r min 1 r min NS ot
79. In this case the motor may not small run smoothly When the voltage between P and N is too high the three 1 Add a brake resistor EE a lights on the right side of the between P and PR Voltage stall mo e screen flicker indicating that 2 Check if the values of p T the inverter is in voltage stall P 7 and P 8 are too mode Then the motor may not small run smoothly LV I Supply with the normal Lu Input voltage is low Low voltage voltage When the output current is more 1 Please increase the than twice the rated current but acceleration decelerati we e 1t doesn t reach the stall level on time in case of LT motion eL Je all the six lights on both side of abrupt Sticker the screen flicker indicating acceleration decelera t that the inverter is in LT mode ion Then the motor may not run 2 Avoid abrupt load smoothly increasing Note The above phenomenas are to show the working state of the inverter and the inverter will not stop To get around the above troubles please adjust the parameters properly or check the power supply and load carefully 144 Appendix 4 Troubles and Solutions Troubles Check points Motionless motor Reversed motor rotation Check whether the power supply voltage between Terminals R L1 S L2 and T L3 is normal Check whether the Power light is on Check whether the wiring between the inverter and the motor
80. O function P 64 1 P 74 0 FM function 14 0 0710 P 64 1 P 74 1 10 10X function 85 5 0 10 120 Os 0 3600s 187 220 0 9998 The calibrating values therefore the default value for each machine may differ slightly lt Setting gt When set different value to P40 P 85 the function of the SO SE SO function A B C terminal is below Parameter function RUN Inverter running Signal will be output when the output frequency is equal i to or higher than the starting frequency 1 SU Up to frequency Signal will be output once the output frequency has reached the set region of frequency 2 FU Output frequency detection Signal will be output once the output frequency has reached or exceeded the detection frequency set OL Overload detection Signal will be output once the current limit function is P 40 P 85 3 triggered OMD Zero current detection If the output current percentage of the inverter is 4 less than the set value of P 62 and lasts for the pre defined time the setting value of P 63 OMD will output signal 5 ALARM Alarm detection Alarm detection POI Section detection At the programmed operation mode POI signal will be output in the end of each section 79 Parameter Description Parameter function 7 PO2 Periodical detection At the programmed operation mode PO2 signal will be output at the end of each cycle 8 PO3 Pause detect
81. P 189 1 55 0 650Hz 60Hz When P 189 0 56 Rated current 0 500A Y 190 0 0 8192 Parameters P 190 and P 191 are the calibrating values Therefore the default ra 929 Orel value for each machine may differ slightly lt Setting gt When P 54 0 a voltage of 10V is output at terminal AM if the output frequency of the inverter is the set value of P 55 When P 54 1 a voltage of 10V is output at terminal AM if the output current of the inverter is the set value of P 56 When P 54 2 the output corresponds to the busbar voltage value If the voltage between P and N reaches the OV alarm level the terminal AM will output a voltage of 10V When P 54 3 the output corresponds to the accumulation rate of temperature increase of the inverter If the temperature of the IGBT module of the inverter is too high and reaches the NTC level a voltage of 10V will be sent out at terminal AM 83 Parameter Description When P 54 4 the output corresponds to the electronic thermal rate If either the electronic thermal relay when P 9 0 or the electronic thermal relay of the inverter s IGB module when P 9 0 is running and a voltage of 10V will be sent out at terminal AM AM output 10V P 55 output frequency P 56 output current e AM terminal checking steps 1 Connect an electric meter whose full graduation is 10V between terminal A and terminal 5 Set P 54 to 0 and then check the meter because of the difference of the accessory 2 Set
82. P 243 5 57 Options for Stopping the Cooling Fan P 245 P 245 Cooling fan operation selection Parameter Factory setting Setting range Remarks 245 0 0 3 lt Setting gt When P 245 0 the fan will be turned on by the RUN signal The fan will be turned off 30 seconds after the inverter stops When P 243 1 turning on the power will turn on the fan When the power is turned off the fan will be off too When P 245 2 the fan will be turned on if the temperature of the heat sink is higher than 40 C When the fan is turned off the fan will be turned off too When P 245 3 the fan will be turned on when the temperature of the heat sink is higher than 40 C When the temperature of the heat sink is lower than 40 C the fan will be turned off 5 58 Commercial Power Supply Frequency Operation Function P 247 P 250 V F P 247 MC switch interlock time P 248 Start waiting time P 249 Automatic switchover frequency from inverter to commercial power supply frequency P 250 Automatic switchover frequency range from commercial power supply to inverter 116 Parameter Description Parameter Factory setting Setting range Remarks 247 Is 0 1 100s mm lt Setting gt P 249 is used to switch the frequency from inverter operation to commercial power supply operation Between starting and P 249 inverter operation an output frequency greater than P 249 will automatically change the
83. Parameters write protection P 77 P 77 Parameters write protection Parameter Factory Setting Setting Range Remarks 17 0 0 2 lt Setting gt If P 77 0 all parameters except P 188 can be written when the motor stops When the motor runs only P 4 P 6 P 24 P 27 P 54 P 56 P 77 P 131 P 138 P 142 P 149 P 161 P 190 P 199 P 223 P 225 P 230 P 232 P 288 and P 290 can be written f P 77 1 parameter writing is forbidden except P 77 when the motor runs When the motor stops only P 77 and P 79 can be written If P 77 2 all parameters except P 188 can be written when the motor stops When the motor runs only P 22 P 72 P 78 P 79 P 155 and P 188 can not be written 5 33 Selection of Forward Reverse Rotation Prevention P 78 P 78 Selection of forward reverse rotation prevention Parameter a nous Remarks Setting Range O Forward rotation and reverse rotation are both permitted 78 0 0 2 1 Reverse rotation is prohibited Press Pto stop the motor 2 Forward rotation is prohibited Press to stop the motor 92 Parameter Description 5 34 Operation Mode Selection P 79 P 79 Operation mode selection Parameter Factory Setting Setting Range Remarks 79 interchangeable The PU mode external mode and JOG mode are valid and The PU mode and JOG mode are active and interchangeable
84. Preface Thank you for your continuous use and support of our company s products Our company s R amp D group s long term technical collaboration with domestic research institutes and the world s major companies enables us to steadily work on the research and development of various products Indeed Shihlin Electric s FA related products have reached international standard With years of effort in promoting inverters and accommodating customer requirements as well as detailed planning and design now we are launching the SS2 021 SS2 023 SS2 043 series inverter Whether it is product R amp D stage final product verification or product manufacturing all the processes are conducted under tight and systemic control The quality of Shihlin Electric products wins customer trust and thus Shihlin Electric products are your best choice Please contact us if you have any special need For tasks entrusted by our customers we will design inverters specifically meeting the customers needs in a short period of time with excellent professional background and rigorous attitude To fully deliver the superior performance of the products as well as for the safety considerations for people and equipments please read this manual carefully and keep it for later calibration or maintenance Contents Te UserManual 2 4 5t Pete ep PRI Pane einer 1 2 Product EXA ON ia ERE e peel OP dort a ind 3 2 1 Name plate ImStrucuon tres oit E te n ae
85. S P21 SS2 043 3 7K 440V 5HP 10 4KVA BM30SN3P20A S P21 25 Introduction of Shihlin Inverter 3 6 2 Power cable specification pressing connection terminals specification Power Cable Specification PVC cables standard Power supply terminal Pressing connection terminal specification used by powe cables Loading terminal Inverter Type En Se Bd a au a uae da Gir Teens Cam Tues a mia mm Kgf cm mm Kgf cm 8S82 021 0 4K 2 5 12 2 2 5 12 2 2 3 5 2 3 5 SS2 021 0 75 K 25 12 2 2 5 12 2 2 3 5 2 3 5 SS2 021 1 5K 2 3 18 2 5 18 2 4 2 4 SS2 021 2 2K 4 18 4 18 5 5 4 2 4 SS2 023 0 4K 2 5 12 2 2 5 122 2 3 5 2 3 5 SS2 023 0 75K 2 5 12 2 25 12 2 2 3 5 2 3 5 SS2 023 1 5K 2 3 12 2 2 5 12 2 2 3 5 2 3 5 SS2 023 2 2K 4 18 2 5 18 3 5 4 2 4 SS2 023 3 7K 4 18 4 18 5 5 4 5 5 4 SS2 043 0 75K 2 5 12 2 2 5 12 2 2 3 5 2 3 5 SS2 043 1 5K 2 5 12 2 2 5 12 2 2 3 5 2 3 5 SS2 043 2 2K 2 5 18 2 5 18 2 4 2 4 SS2 043 3 7K 2 9 18 2 5 18 2 4 2 4 26 Introduction of Shihlin Inverter 3 6 3 Brake resistors Inverter Type Brake Resistor Specification Inverter Type Brake Resistor Specification SS2 021 0 4K 100W 2200 SS 2 023 2 2K 300W 600 SS2 021 0 75K 150W 1200 SS2 023 3 7K 400W 40 SS2 021 1 5K 300W 600 SS 2 043 0 4K 80W 10000 SS2 021 2 2K 300W 600 SS2 043 0 75K 100W 8000 SS2 023 0 4K 100W 2200 SS2 043 1 5K 200W 3200 SS2 023 0 75K 150W 1200 SS2
86. Setting Range Remarks 29 0 0 2 lt Setting gt The Linear acceleration deceleration curve when P 29 0 The acceleration slope is constructed by combining P 7 and P 20 The deceleration slope is constructed by combining P 8 and P 20 The target frequency increases and decreases linearly as the acceleration and the deceleration slopes presented in the figure below Output frequency P 7 P 8 Time S shape acceleration deceleration curve 1 when P 29 1 The acceleration slope is formed by combining P 7 and P3 The deceleration slope is formed by combining P 8 and P 3 The acceleration and deceleration curves are in an S shape The equation for the ascending S shape curve between 0 and Pr3 is f 1 eoa 215 cs P The equation for the ascending S shape curve above Pr3 is 4 P7 2 5 i X X X ad Ge t Time f Output frequency 55 Parameter Description P 7 Time Note This pattern is applicable to the mainframes of working machines The S shape acceleration deceleration curve 2 when P 29 2 An acceleration slope is formed by combining P 7 and P 20 A deceleration slope is formed by combining P 8 and P 20 The target frequency increases and decreases as the acceleration and deceleration slopes presented in the figure below As shown in the figure below adjusting the setting value of the inverter from f0 to f2 will result in S shape acceleration with a time equal to P 7x f2 f0 P 20 On the othe
87. allation wire arrangement dismounting and maintenance by qualified electrical professional personnel 3 Follow the installation notice In case the installation notice has not been fully complied with and damage of the inverter or dangerous accidence thus be resulted in our company will not undertake any legal responsibility In case there is any question when installing please feel free to contact us 16 Introduction of Shihlin Inverter 3 5 5 System wire arrangement Power LII FUSE NFB Magnetic contactor Input AC Line Reactor Zero phase Reactor EMI filter S L2 T L3 Please follow the specific Power power supply requirement supply shown in this manual There may be an inrush Fuse NFB current during power up Please refer to 3 6 1 and select the correct fuse NFB Please do not use a Magnetic Magnetic contactor as the I O switch of contactar the AC motor drive as it will reduce the operating life cycle of the AC drive AC line reactor should be Input AC installed to improve the input Line Reactor power factor The wiring distance should be less than 10m Please refer to 3 6 6 Zero phase reactors are used to reduce radio noise especially when audio equipment installed near the inverter Effective for Zero phase j Reactor noise reduction on both the input and output sides Attenuation quality is good for a wide range from AM band to 10MHz Please re
88. alue of P 57 and then the inverter will restart the motor automatically 84 Parameter Description Once the motor is automatically restarted the output frequency of the inverter will be the target frequency but the output voltage will be zero Then the voltage will be increased gradually to the expected voltage value The period for the voltage increase is called the restart voltage rising time P 58 Instantaneous power failure time I Power supply LI S L2 e YA Motor speed N r min l l l I Inverter output I frequency f Hz l l l l l Inverter output l voltage E v l l ps9 Restart cushion time P 58 setting Coasting time 7 P 57setting The output shut off timing differs according to the load condtion P 150 has four digits and each digit has a distinct meaning Their positions are presented as following P 150 No frequency search 0 mies 2 Cheapen voltage One electrify Every starting 0 Ei 2 Stop momentary Note 1 P 150 must be set when using the restart function 2 When the value of P 150 is not 0 default linear acceleration deceleration curve 3 If the single digit of P 150 is 1 P 150 cannot write in 5 25 Input Signal Filter Constant P 60 P 60 Input signal filter constant e When the running frequency is set by a voltage signal or a current signal the voltag
89. an select what is the screen will display at the monitoring output voltage mode by set different value to P 161 The details are below Parameter pes mide Remarks O The current output voltage value The current voltage between P and N 2 The accumulation rate of temperature increase of the inverter 3 The current target pressure of the constant pressure system 4 The current feedback pressure of the constant pressure system 5 The current operation frequency 6 Thecurrent electronic thermal accumulation rate 161 0 0 13 7 The value of the input signal across terminal 2 5 V 8 The value of the input signal across terminal 4 5 mA V 9 Reserved 10 Reserved 11 Operating condition d r amp u and 575 12 The current inverter module temperature 13 The current electronic thermal accumulation rate of motor 104 Parameter Description AAA AAA AAA 5 46 PID Control P 170 P 183 P 223 P 225 P 170 PID selection P 179 Sleep detects duration time P 171 PID feedback control method selection P 180 Revival level P 172 PID proportion Gain P 181 Outage level P 173 PID integration Gain P 182 Upper integral P 174 PID differential Gain P 183 Deceleration step length of pressure P 175 Abnormal deviation level stability P 176 Exception duration time P 223 Analog feedback signal bias
90. arameter Description 5 67 Inverter Reset P 997 P 997 Inverter reset e Once P 997 is read out after the read out the screen will displayr E 57 and rewritten in the inverter is reset After resetting the inverter the values of the two relays electronic thermal relay and IGBT module thermal relay will be set to zero 5 68 Restoration of the Parameters to the Default Values P 998 and P 999 P 998 Restoring the parameters to the default values P 999 Restoring some parameters to the default values e Once P 998 is read out after the read out the screen will display LLE and rewritten in all the parameters will be restored to the default values except P 21 P 188 P 189 P 292 and P 293 e Once P 999 is read out after the read out the screen will display CLE and rewritten in all the parameters will be restored to the default values except P 21 P 188 P 189 P 190 P 191 P 192 P 195 P 196 P 199 P 292 P 293 and P 300 P 309 e After performing P 998 and P 999 the screen will display m z indicating that the parameters have been restored to the default values 125 Inspection and Maintenance 6 Inspection and Maintenance In order to avoid the malfunction and security problems resulting from aging of the devices which is caused by environmental factors such as temperature oil fog dust vibration humidity and etc daily inspection and periodical inspection
91. arameter Description Step2 The inverter responds to the computer using format C after receiving and processing the data Station Number ACK CR 0 H06 H30 H30 HOD Example 3 PC communication for reading P 195 Step1 PC sends inputting page change command to the inverter via format A Station Number Command Code a Data ENQ Waiting Time Sum Check CR 0 HFF H0001 H05 H30 H30 H46 H46 H30 H30 H30 H30 H31 H44 H44 HOD P 195 is in page 1 Step2 After receiving and processing the data the inverter responds to the computer via the formatC Station Number ACK CR 0 H06 H30 H30 HOD Step3 The computer requests the inverter to read the value of P 195 via format B Station Number Command Code T ENQ Waiting Time Sum Check CR 0 H5F H05 H30 H30 H35 H46 H30 H30 H42 HOD First deduct 100 from 195 and get 95 Next invert 95 to hexadecimal H5F Finally convert 5 and F to ASCII CODE H35 and H46 Step4 After the inverter receiving the information and processes it correctly the inverter will send the value of P 195 to the computer via format E Station Number Read Data f STX Unit ETX Sum Check CR 0 H1770 60Hz H02 H30 H30 H31 H37 H37 H30 H32 H03 H36 H31 HOD Example 4 Change the value of P 195 to 50 the initial value is 60 Stepl and 2 of this example are similar to Stepl and 2 of Example 3 Step 3 T
92. ation value for stopping the machine and the set time in seconds for stopping 1 SH 10H 2 VH SEA the machine for detection is reached the inverter will take the P 183 step to reduce the frequency 223 0 0 100 When P 170 1 2 et zo terminal to OV or the corresponded value when 4 5 terminal is 4mA When P 170 1 2 set 2 5 terminal to 5V or the corresponded m me aoe value when 4 5 terminal is 20mA 225 20 0 100 The pressure command is not entered by an analog input but by the code used for setting up the operation panel 106 Parameter Description j pa Kr P 172 contravariance U CR e 0 Y M OUT PI z K limit EA O E S RESI e gicas Gal EDO e s pcd Kp P 174 Set Output y PID module frequency L a eg ee AE frequency Feedback value O O O 2 44 5 feedback quantity convertor e When the feedback value is lower than the abnormal deviation level and continue exception duration time P 176 the PID is exceptional This time the screen will display P and it will select freedom or brakes according to P 177 For example If P 175 60 P 176 30s P 177 0 and the feel back value is lower than 60 of the target feel back value and continue 30s the screen will display and freedom stop the target feel back value the feel back _ value Maximum freq
93. bit then translated to decimal form and stored in P 121 1 denotes run forward and 0 denotes run reverse The highest bit is the run direction of section 8 and the lowest bit is the direction of section 1 For example Suppose that section 1 for run forward section 2 for run reverse section 3 for run reverse section 4 for run forward section 5 for run reverse section 6 for run forward section 7 for run forward and section 8 for run reverse then the value in binary form is 01101001 P 121 0x27 1x26 1x25 0x24 1x23 0x22 0x21 1x20 105 When P 122 0 it won t run circularly When the value of P 122 is 1 8 it is the initialization section of the cycle running For example When P 122 3 the inverter will run circularly from the third section to the eighth section after 1t finishes the running from the first section to the eighth section When P 123 0 the acceleration time is determined by P 7 and the deceleration time is determined by P 8 When P 123 1 the acceleration time and deceleration time are both determined by P 111 P 118 2 Manually operation circle mode SD Wiring pattern for manually operation circle mode terminals Connect an impulse type switch between RL and SD After turning on the power set P 80 35 according to the terminal wiring At this time inverter is at standby 100 Parameter Description The mode of operation is presented in the figure below frequency P132 P 131 l
94. ch section Selection i P79 in Programmed operation External terminal STF mode P 131 P 138 P d The PU de Y lt E Equal to the PU mode when P 79 0 d PU and JOG mode lid and Joe Equal to the JOG mode when P 79 0 ene Hid interchangeable External mode Equal to the External mode when P 79 0 PAD Communication mode Communication Communication LU 31 Primary Operation Related Parameters Operation Mode Reference Source of Target Frequency Signal Source of Motor Starting Remarks Operation Mode Selection P 79 Combined mode se rt operation panel External terminals Combined mode 2 Hd External voltage current signal combination of multi speed stage levels or frequency set by pulse P 82 wo REV Press the key or on the operation panel Combined mode 3 H3 Communication combination of multi speed stage levels or External JOG P 15 External terminals Combined mode 4 CAR External voltage current signal combination of multi speed stage levels or frequency set by pulse P 82 Communication Combined mode 5 CHS Operation panel combination of multi speed stage levels or external JOG P 15 External terminals Note If P 79 0 the inverter is in the external mode P nd when starting and the operating mode can be shifted by setting P 79
95. ch section 0 255 1 P 122 Cycle selection 1 time setting selection reverse motion of negative bias P 143 0 650Hz 9999 0 01Hz 9999 Do ES P 147 P 148 P 149 P 150 olo gt Ns T o SY N N N N N N N N by d EN N Speed 13 0 650Hz 999 0 0IHz 9999 P Speed 14 0 650Hz 9999 0 01Hz 9999 EL P45 Speed 15 0 650Hz 9999 0 01Hz 9999 o s E ero speed control function P 151 j 0 1 1 0 P102 selection Voltage instruction when P 152 0 30 0 1 5 zero speed control 135 Appendix 1 Parameter list Parameter Minimum User setting Reference Name Setting range f Default value number setting unit value page P 153 Communication error handling 1 0 oo 3 P 154 Modbus protocol selection 1 4 o o P 155 Over torque detection lelve 0 200 0 1 0 A P102 Over torque detection time 0 1s 1 P102 External terminals filter P 157 f 0 200ms Ims 4ms P102 function selection P 158 External terminal power enable 1 0 D P102 P 159 energy saving control function 1 0 q P104 p 161 Multi function display selection 1 0 pros P 162 Middle frequency 2 0 650Hz 99999 0 01Hz 99999 EPEE P50 Voltage output 2 at middle P 163 0 100 0 1 0 P50 frequency P 164 Middle frequency 3 0 650Hz 99999 0 01Hz 99999 P5 Voltage output 3 at middle 0 196 0 P50 P166 Middle frequency 4 0 650Hz 99999 0 01Hz 99999 DE P50 Voltage output 4 at middle P 167 0 0 1 0 P50 frequency P 168 Middle frequen
96. cy 5 0 650Hz 99999 0 01Hz 99999 EN P50 Voltage output 5 at middle P 169 0 0 1 0 P50 frequency P 170 PID selection 0 1 2 1 0 pros PID feedback control method P 171 0 1 selection P 172 PID proportion Gain 1 100 1 20 o omes P173 PID integration Gain 0 100s 0 1s Is omes P 174 PID differential Gain 0 1000ms lms 0 o omes P175 Abnormal deviation level 0 100 0 1 70 o omes 13 Nn O ha cA nN frequency o i o 2 5 D ES e S SN um e S SN e H S A a Appendix 1 Parameter list Parameter Minimum Name Setting range i number setting unit P 176 Exception duration time 0 600s 0 1s P 177 Exception handling mode 1 P 178 Sleep detect deviation 0 100 0 1 P 179 Sleep detect duration time 0 1s P 180 Revival level 0 1 P181 Outage level 0 01Hz Upper integral 0 120Hz 0 01Hz Deceleration step length of P 183 0 10Hz 0 01Hz pressure stability Disconnection processing P 184 S f 0 3 0 function of terminal 4 5 User setting Reference Default value value page em mo 50Hz 60Hz P105 Note ac a 00 N 0 P 185 Proportion linkage gain 0 100 1 0 P 187 FM calibration parameter 0 9998 1 220 pss e e o TENE 0 d PEE P 190 AM output bias 0 8192 1 P 191 AM output gain 0 8192 1 Minimum input voltage across P 192 3 0 10 0 01 terminal 2 5 Maximum input voltage across P 193 i 0 10 0 01 terminal 2 5 0 P8 625 A P83 F
97. d and the inverter will slow down to OHz If it is connected to terminal 4 5 again the alarm code will disappear and the inverter will be accelerated to the current corresponding to the frequency e When P 184 2 the keyboard panel should be shown AErr if the terminal 4 5 is disconnected The inverter will be stopped immediately and need to be reset When P 184 3 the keyboard panel should be shown AErr if terminal 4 5 is disconnected The frequency before disconnecting from the inverter will operate continuously Reconnect the line and the alarm will go off Note When P 17 1 and 2 terminal 4 5 is set by voltage and this function will be useless 108 Parameter Description 5 48 Proportion Linkage Function P 185 P 185 Proportion linkage gain Parameter Factory Setting Setting Range Remarks 185 0 0 100 lt Setting gt By external analog signal input terminals on the function of setting frequency multiplier effects If many inverters operation proportionally take advantage of this function on the instructions of the master inverter to the salve inverter for fine tuning more effective After the setting frequency multiplier effects by the setting of P 185 then perform addition and subtraction operations If P 185 0 the function is invalid For example When the setting frequency is 50Hz P 185 50 and external analog signal input for 100
98. e P 308 Motor excitation current 0 500A 0 001A Horsepower based P 309 Stator resistor 0 99 80 Horsepower based Refer to P 994 Parameter copy readout Chapter 5 e Refer to P 995 Parameter copy write in Chapter 5 Refer to P 996 Abnormal record deletion Chapter 5 Refer to P 997 nverter reset Chapter 5 P998 Restoring the parameters to the Refer to default values Chapter 5 p999 Restoring some parameters to Refer to i the default values Chapter 5 Note The default value is determined by the set value of P 189 When P 189 0 the default value is 60Hz which is applicable to 60Hz systems When P 189 1 the default value is 50Hz which is applicable to 50Hz systems 140 Appendix 2 Alarm Code List Code Screen Display Cause Troubleshooting 1 Under voltage for power supply 2 TheRES is on 1 Provide a normal power supply Bad connection 2 Shut off RES between the operation 3 Ensure firm connection between ERR t rr panel and main the operation panel and the main machine machine 4 Internal circuit 4 Replace the inverter malfunction 5 Restart the inverter 5 Wrong operation of CPU OC1 The inverter may be disturbed Please nac restart the inverter If the alarm Over current ULL repeated please send the inverter back when stop to the factory OCI Over current nf i1 during ves The output current is two In case the time for acceleration or acceleration times larger tha
99. e current signal would be processed by an AD converter Due to the effect of device accuracy or noises the external voltage signal or current signal may fluctuate and as a result the running frequency fluctuates too e The input signal filter constant setting P 60 is used to filter the fluctuation of the running frequency caused by the above factors The larger the P 60 set value is the better the filter performance is but a larger delay would be resulted in Parameter Factory Setting Setting Range Remarks 60 31 0 31 85 Parameter Description 5 26 Remote Control Function P 61 P 61 Remote setting function selection e If the operation box is located away from the control box contact signals can be used to perform the continuous variable speed operation without using analog signals at the external mode the PU mode the combined mode 1 or the combined mode 5 Remarks Erne Factory Setting SE ES mote Se Setting Range Nod nen ME Frequency Setting Storage Function 0 No 1 Yes 61 0 0 3 2 No Yes No 3 The remote setting frequency is cleared by turning off STF STR Output frequency Hz P 61 2 gt 5 3 J l Time i I O y O Acceleration RH T LEN Deceleration RM T l Clear RL f l ON ON ON ON Forward rotation STF Power supply ON E ON external target frequency
100. e input is OV the output frequency is 10 Hz At the mid point the potentiometer will give 40 Hz Once the maximum output frequency is reached any further increase of the potentiometer or signals will not increase the output frequency To use the full potentiometer range please refer to Example 3 The value of external input voltage current 0 8 33V corresponds to the setting frequency 10 60Hz Max output frequency 60Hz Parameter setting P 38 60Hz Max operation frequency P 73 1 Voltage signal selection P 139 16 7 Bias adjustment P 140 100 Gain adjustment P 141 0 Positive Bias p 139 10Hz 100 10Hz p 38 N Qai Bias em adjustment OHZ OV 5V 10V Example 3 This is another frequently used method The whole scale of the potentiometer can be used as desired Max output frequency 6z Parameter setting f P 38 60Hz Max operation frequency cd P 73 1 Voltage signal selection j P 139 22096 Bias adjustment oe P 140 83 3 Gain adjustment eS P 141 0 Positive Bias 30Hzp 74 E wiwer OE eS 1 P38 7 100 Bias WHA 7 P 139 a 100 adjustment 0Hz d i P 38 P 140 OV 5V 10V 75 Parameter Description Example 4 This example shows a potentiometer range between OV and 5 V Instead of adjusting gain as the example below the user can set P 38 to 120Hz or P 73 to O to achieve the same result Max output frequency 60Hz k Parame
101. e when starting the motor because the output voltage of the inverter is inadequate In this case improve the output voltage by setting up a proper torque boost P 0 to obtain a better starting torque Parameter Factory Setting Setting Range Remarks 6 0 4Kw 0 75Kw 4 1 5Kw 3 7Kw 0 30 46 9999 0 30 9999 9999 function invalid Output voltage 100 the set value of P O P 46 Base frequency Output frequency lt Setting gt If P 0 6 and P 19 220V and output frequency of the inverter is 0 2Hz the output voltage will be 0 2Hz P 19 X o PO 220V X 0 004 6 14 08V Z If RT is Nn P 46 Second Torque Boost will be valid Note 1 A too large set value of P 0 may cause actions of the current protection of the inverter or the inverter will be disabled for a smooth start 2 The second function is valid only when P 44 is not equal to 9999 3 RT in this paragraph is referred to as the multi function control terminals For selecting the function and using the multi function control terminal please refer to P 80 P 84 P 86 For the wiring please refer to Section 3 5 6 42 Parameter Description 5 2 Range of the Output Frequency P 1 P 2 P 18 elated parameters P 1 Maximum frequency P 2 Minimum frequency P 18 High speed maximum frequency e The upper limit and the lower limit of the output frequenc
102. ecoming steady The output frequency at this time is referred to as the steady output frequency 2 More detailed instructions on parameter settings are presented in Chapter 5 Please note that arbitrary adjustment of the parameters may result in abnormal operations All parameters can be reset to their default values by the parameter P 998 For offsetting this parameter please refer to P 998 in Chapter 5 3 The operating mode of inverter and the working mode of the operation panel The operating mode determines the reference source for the target frequency and the signal source for starting Shihlin inverter has totally nine operating modes Please refer to Section 4 1 for details The operation panel is used for numeric value monitoring parameter setting and target frequency setting Shihlin operation panel has totally five working modes Please refer to Section 4 1 for details 4 The difference between terminal name and function name A set of printed letters can be found near the terminals of the control board or the main board These letters are used to distinguish each terminal and thus called terminal name For multi function control terminal and multi function output terminal function names have to be defined in addition to terminal names A function name indicates the actual function of the terminal Function name is used to explain the functions of a terminal User Manual 5 The difference between on and turn on
103. efer 3 5 7 5 The SO terminal can select to FM or 10X function please refer to P 64 P 74 18 Introduction of Shihlin Inverter Note 1 For multi function control terminals please refer to P 80 P 84 P 86 and for multi function output terminals please refer to P 40 in Chapter 5 2 For SS2 TYPE series inverters the multi function control terminals have both the sink input mode and the source input mode There is a jumper that can be used to alternate between those two modes If the jumper is on the left side the sink input mode is chosen while the source input mode is chosen if the jumper is on the right side Shown as follows Sink hput Source Input No matter what kind of multi function control terminal is used all of its outside wire arrangement can be considered as a simple switch If the switch is on the control signal will be put into the terminal If the switch is off the control signal is shut off If the sink input mode is selected the function of the terminal is active when it is shorted with SD or connected to the external PLC At this mode the current flows out of the corresponding terminal when it is on Terminal SD is common the contact input signals When using an external power supply for transistor please use terminal PC as a common to prevent misoperation caused by leakage current Inverter Inverter Sink Input the multi function control Sink Input the mul
104. ege 124 2 67 Inverter Reset P807 i eter ots deett ee dritter elitsed vette aes vous 125 5 68 Restoration of the Parameters to the Default Values P 998 and P 999 sssssssssssssseeeeenee 125 Inspection and Maintenance etie ette e det dc DA Saai a ideas eds 126 6 Inspection and Maintenance ss ee SOR HO ee e Ut Re He tame 126 6 1 Daily Inspection 45 ote RE a ete teet teo vet tei ie dee tee teg ede 126 6 2 Periodical Inspection During Stop oreroraa nennen enne nennen trennen nnne enne nne 126 6 3 Regular Replacement for Some Components eese nennen en etre 127 6 4 Inverter Insulation Resistance Measurement sese eterne reete teens 127 6 5 Motor insulation resistance measurement nee en eerte tentent tne teen eene nnne 127 6 6 IGBT Module Testi Aa 128 Appendix Parameter list 2 2 en ett ee get rrt e eere Ree ette eto terea Fedex 129 Appendix 2 Alarm Code Lluis td oim eet bep ied t E ta e tege eget eret 141 Appendix 3 Warning Code Listene eee oe eee ne bete dede em 144 Appendix 4 Troubles and Solutions rti e rm pier een ie Ee Ee Eve Ee Eee ene 145 Appendix 5 Optional Equipment Det e prt eto leds sent Pep orto bedesaul Meson geben ih repo bnt ngo qp nde eto eb deabus 146 Appendix 6 European Specification Compatibility Description eeesssseseeeeseeseeeeeere nennen eerte 148 REVISION RECOIL Gs 41 onere oe o da e bos rod etel e Msg RUE ee PA Mer da M eds 150 User Manual 1
105. erate the motor till it stops The indicating lamp RUN will stay on until the motor has stopped putting out voltages Note 1 Please refer to Section 4 1 3 for the operation procedures of the monitoring mode 2 The target frequency at the JOG mode is the value of P 15 and the acceleration deceleration time is the value of P 16 Please refer to P 15 in Chapter 5 4 2 4 Basic operation procedure for the communication mode 4 s P 79 3 e At the communication mode the user can set up parameters run stop and reset the inverter by communication Please refer to P 33 for details 37 Primary Operation ase 4 2 5 Basic operation procedured for combined mode 1 7 P 79 4 Steps Description At the combined mode 1 the indicating lamp of PU will flicker Note Please refer to Section 4 1 for selecting and switching the operation modes gt I Enter into the frequency setting mode and write the target frequency into the memory Note For operation procedures of the frequency setting mode please refer to Section 4 1 4 Set up the target frequency by the operation panel and start the inverter by the external 3 terminals The indicating lamp of RUN Y will flicker indicating that the motor is running Note For operating procedures of the monitoring mode please refer to Section 4 1 3 Turn off STF or STR for the motor to decelerate till it stops 4 e The indicating lamp of RUN Y will stay on until the i
106. erter is running or is not at a correct operation mode for writing Exceptions Command HOB The input command codes cannot be handled by the inverter Code Error Data Range Sa HOC Error d The set parameter and frequency data are outside the specified range 6 When the parameters have 9999 properties write or read HFFFF instead of 9999 7 Sum check code ASCII data transformation code Add a binary code The result sum of the next bit the low 8 bit is transformed into a 2 bit ASCII code hexadecimal which is referred to as the Sum Check Code e Communication examples Example 1 The computer sends a forward command to the inverter Stepl FA commands sent by the computer using format A Station Number Command Code M Data ENQ Waiting Time Sum Check CR 0 HFA H0002 H05 H30 H30 H46 H41 H30 H30 H30 H30 H32 H44 H39 HOD Calculation Sum Check H30 H30 H46 H41 H30 H30 H30 H30 H32 H1D9 Take the lower 8 bits D9 to convert to ASCII code H44 H39 Step2 The inverter responds to the computer using format C after receiving and processing the data Station number ACK CR 0 H06 H30 H30 HOD Example 2 The computer sends a stop command to the inverter Stepl FA commands sent by the PC via format A Station Number Command Code i Data ENQ Waiting Time Sum Check CR 0 HFA H0000 H05 H30 H30 H46 H41 H30 H30 H30 H30 H30 H44 H37 HOD 62 P
107. fer to 3 6 5 Used to reduce electromagnetic EMI filter interference Braking unit Used to reduce stopping time of the motor Output AC Line Reactor Motor surge voltage amplitudes depending on motor cable length The output AC line reactor is necessary to install on the inverter output side Please refer to 3 6 6 17 Introduction of Shihlin Inverter 3 5 6 Terminal wire arrangement NEB MCCB MC 4d O O m m R LI Power S O On S L2 input gt T L3 1 RUN forward I l t t I RUN reverse STR l Reset 1 0O ORES Multi seped 1 gt Control 1 OO Multi 42 MO terminals l ulti seped 2 MI M2 D y 1KQ 2W and Note5 and above S00 10 Multi function output terminal 0 5SV 10V Input 2 m L DC12 24V gt Analog 4 20mA O 0 5V 10V Input RJ 45 connector O 2 Communication terminal gt Analog 1 for DUO6 or PC Re MAS signal onput 1 2 3 Reserve DC0 10V itd T M 4 DA 5 DA 6 DUO6 detection signal T 45M 8 GND 4 signal input 1 In the above figure the thickness of wire of the main circuit and the control circuit wiring or the ground wiring should be noted 2 For the usage of the external thermal relay please refer to P 80 P 84 P 86 in Chapter 5 3 Make sure not to short circuit the PC and SD 4 In the above figure Dotted line metal please r
108. g value Reference page EM a gt 2 e E X p az e e e e e ar n Parameter Minimum User setting Reference Name Setting range Default value number setting unit value page P 79 Operation mode selection 0 8 1 0 Multi function terminal P 80 0 40 43 1 2 P93 MO function selection Multi function terminal P 81 0 40 43 1 3 P93 M1 function selection Multi function terminal P 82 0 41 43 1 4 P93 M2 function selection Multi function terminal P 83 0 40 43 1 0 P93 STF function selection Multi function terminal P 84 0 40 43 1 1 P93 STR function selection Function selection for P 85 0 10 1 5 P79 multi function relay Multi function terminal P 86 0 40 43 1 30 P93 RES function selection Slip compensation P 89 2 0 10 1 0 P97 coefficient P 91 Frequency jump 1A 0 650Hz 9999 0 01Hz 9999 P98 P 92 Frequency jump 1B 0 650Hz 9999 0 01Hz 9999 P98 P 93 Frequency jump 2A 0 650Hz 9999 0 01Hz 9999 P98 P 94 Frequency jump 2B 0 650Hz 9999 0 01Hz 9999 P 95 Frequency jump 3A 0 650Hz 9999 0 01Hz 9999 P96 Frequency jump 3B 0 650Hz 9999 0 01Hz 9999 P98 Middle frequency 1 0 650Hz 0 01Hz 3Hz P50 Voltage output 1 at middle P 99 0 100 0 1 10 P50 frequency P 100 Minute second selection 0 1 1 1 P99 Runtime of section 1 in P 101 0 6000s 0 1s Os programmed operation mode 133 Appendix 1 Parameter list Parameter Minimum User setting Reference Name Setting range k Default
109. g time is 0 60 Seconds P 11 and the DC braking voltage is 0 30 P 12 Linear braking and idling braking selection P 71 The stalling protection level can be set between 0 and 250 P 22 Target Frequency Setting Operation panel setting DC 0 5V signal setting DC 0 10V signal setting DC 4 20mA signal setting two voltage input or one voltage and one current input are available for selection Multi speed stage level setting communication setting PID Control Please refer to P 170 P 183 in Chapter 5 Multifunction Control Terminals Motor starting STE STR the second function RT 16 speed operation RL RM RH REX external thermal relay OH reset RES etc can be set by the user P 80 P 84 P 86 Multi function SO SE P40 Inverter running RUN output frequency detection output terminals FU Up to frequency SU overload detection OL zero current detection OMD alarm ALARM Multi function Secs Multi function Section detection POI Periodical detection PO2 Output A B C P85 i M output relay and Pause detection PO3 Inverter output BP Commercial power supply output GP Multi function DC 0 10V Analog output AM 5 adan WEG Output output frequency output current P 54 Introduction of Shihlin Inverter Operation Panel Communication Function Running status Output frequency monitoring output current monitoring
110. he computer requests the inverter to enter 50 into P 195 via format A Station Number Command Code m Data ENQ Waiting Time Sum Check CR 0 HDF H1388 H05 H30 H30 H44 H46 H30 H31 H33 H38 H38 H45 H45 HOD 1 Deduct 100 fr m 195 and get 95 Convert 95 to hexadecimal H5F Add H5F to H80 and get HDF 1 The minim m unit of P 195 is 0 01 therefore the product of 50 and 100 is 5000 2 Convert 5000 to hexadecimal H1388 Convert 1 3 8 8 to ASCII CODE before data transmission 63 Parameter Description Step 4 The inverter responds to the computer using format C after receiving and processing the data Station Number ACK CR 0 H06 H30 H30 HOD Example 5 Change the value of P 195 to 500 parameter range 0 400 Stepl and step 2 of Example 5 are similar to Stepl and Step2 of Example 3 Step 3 The computer requests the inverter to enter 500 into P 195 via format A Station Number Command Code F Data ENQ Waiting Time Sum Check CR 0 HDF HC350 H05 H30 H30 H44 H46 H30 H43 H33 H35 H30 H46 H35 HOD Step 4 After processing the inverter will send feedbacks about the out of range data i e incorrect data to the computer via format D Station Number Error Code NAK CR 0 HOC H15 H30 H30 H43 HOD 2 Modbus protocol 1 Information form e Modbus serial transmission can be divided into two kinds ASCII American Standard Code for
111. he frequency jump is invalid 98 Parameter Description P 100 Minute second selection P 101 P 108 Runtime of each section P 111 P 118 Acceleration deceleration time of each section P 121 Run direction in each section P 122 Cycle selection P 123 A cceleration deceleration time setting selection P 131 P 138 Frequency of each section Related parameters P 7 Acceleration time P 8 Deceleration time P 21 Acceleration deceleration time increments P 80 P 84 P 86 Multi function terminals selection Parameter Factory Setting Setting Range Remarks 0 The running time minimum increment is 1 100 1 0 1 a 2 1 The running time minimum increment is 1 second 101 108 Os 0 6000s 0 600s When P 21 0 111 118 Os 0 6000s When P 21 1 0 Cycle function invalid e j decem 1 8 Run circularly 122 0 0 8 123 0 0 1 131 138 0 0 650Hz lt Setting gt 1 Programmed operation mode The calculation methods of runtime and acceleration deceleration time in each section are presented in the figure below 99 Parameter Description frequency P 111 P 112 P 113 P 114 P 116 P 117 P 118 z lol el e E o gt ec amp E F 2 z gt 2 dt 5 P 101 P 102 pause P 103 P 104 P 105 22 P 107 gt The run direction is set in binary form 8
112. heck End H30 H31 H30 H30 H30 H45 ASCI H3A H30H DOA PE H31 H30 SORAN H30 H30 H43 H33 a RTU gt 10ms 01 10 00 00 00 0C 0018 gt 10ms 3 Communication command list e Set the following command codes and data to control various operations monitoring and so on Modbus It Shihlin Protocol Information Content and Modbus code ES Code Functions Address Read out operation H0000 CU HUS mode TUB H0001 OPnd H0002 JOG H1000 H06 H10 Write operation mode HFB H0003 H1 H3 H5 H0004 H2 H4 H03 Special monitor select WD HOOD HOON Monor H1013 codes read out selected information 70 Special monitor select read out HF3 codes as described in the special monitoring code table Special monitor select H06 H10 e codes write in Parameter Description Modbus PUR i Modbus Item Protocol Information Content and Functions Code Code Address H0000 HOOFF b8 b15 reserved b7 Alarm occurrence b6 Frequency detection H03 T ET H7A b5 Parameters to default values end H1001 b4 Overload b3 Frequency achieved b2 Reverse rotation bl Forward rotation b0 Operation Set frequency H73 H0000 H9C40 H1002 Output frequency Output current H70 H0000 HFFFF H1004 Output voltage H71 H0000 HFFFF H1005 H0000 HFFFF H74 H1007 Error code 1 and 2 H74 pis b8 b7 bo H1007 H6F H0000 H9C40 H1003 H03 Monitoring Error code 2 Error code 1 H75 H1008 Erro
113. heck whether the torque boost P 0 is set too high the motor Check whether the maximum frequency P 1 is effective Unsmoothed Check whether the acceleration deceleration time P 7 P 8 is correct acceleration e Check whether the acceleration deceleration curve selection P 29 is correct deceleration Check whether the voltage current input signals are affected by noises Overlarge motor current Check whether the load is too heavy Check whether the capacity of the inverter and of the motor are well matched Check whether the torque boost P 0 is set too high Speed variation during the operation Check whether the voltage current input signals are affected by noises Check whether the load varies Check whether the wiring length of the main circuit is too long 145 Appendix 5 Optional Equipment Operation panel operation panel installation dimensions and transmission cable 1 DUO6 operation panel apo Jo lt gt m ford na CES Shihlin PU o MONO I DUOG RUN o o o Description on the ordering code NO Model Name 1 LNKDUO06 DU06 operation panel 2 Outline drawing of DUO6 lt Outline drawing
114. hen an increase in the output frequency will decrease the feedback value select this setup 105 Parameter Description Factory Setting R k Setting Range pre Parameter This gain determines the proportion controller s impact on 172 20 1 100 feedback deviation The greater the gain the faster the impact Yet a gain that is too big will cause vibration This parameter is use to set integral controller s integral time When the integral gain is too big the integral effect will be too 173 Is 0 100s weak to eliminate steady deviation When the integral gain is too small the system vibration frequency will increase and therefore the system may be unstable This gain determines deviation controller s impact on the amount of change of the deviation Appropriate deviation time 174 0 0 1000ms can reduce the overshooting between the proportion controller and the integral controller Yet when the deviation time is too large system vibration may be induced 175 0 0 100 176 30s 0 600s 0 Free stop 177 0 0 1 2 1 Decelerate and stop 2 Continue to run when the alarm goes off 178 0 0 100 179 Is 0 255s 180 90 0 100 181 40Hz 0 120Hz 50 Hz P 189 1 When the deviation value accumulated with the 182 0 120Hz integral time an upper limit for deviation 60Hz P 189 0 accumulation should be set When the feedback pressure satisfies the devi
115. hen installing Y 10cm Shihlin Inverter 5cm 5cm 10cm 4 Correct position for installing in a protection cabin Ventilating xl hole 5 Do not install the inverter on a surface of inflammable material such as wood 6 Do not install the inverter at place exposed to explosive gas or inflammable dust 7 Do not install the inverter at place with airborne oil mist and dust 8 Do not install the inverter at place exposed to corrosive gas and salt laden air 9 Do not install the inverter in the environment of high temperature and high humidity 10 Please refer to the installation method as follows 14 Introduction of Shihlin Inverter Orbit determination installation 1 Orbit determination installation 2 Orbit determination removes as C aa Lens as anon y BE Shihlim Shit
116. ieve an optimum control P 11 and P 12 should be set properly As shown below Stop signal input P 10 Time DC braking _____2 ____ voltage ut Time Note Users must set P 11 and P 12 appropriately in order to obtain the best control characteristics 5 8 Starting Frequency P 13 Related parameters P 13 Starting frequency P 2 Minimum frequency e When starting the motor the instant output frequency of the inverter is referred to as the starting frequency Parameter Factory Setting Setting Range Remarks 13 0 5Hz 0 60Hz lt Setting gt The motor will not run if the target frequency of the inverter is lower than the setting value of P 13 Inputting the motor starting signal will cause an increase of the output frequency from the value of P 13 49 Parameter Description Output frequency Hz P 13 Time Start signal ON 5 9 Load pattern selection P 14 P 98 P 99 P 162 P 169 P 14 Load pattern selection P 98 Medium frequency 1 P 99 Voltage output at medium frequency 1 P 162 Medium frequency 2 P 163 Voltage output at medium frequency 2 P 164 Medium frequency 3 P 165 Voltage output at medium frequency 3 P 166 Medium frequency 4 P 167 Voltage output at medium frequency 4 P 168 Medium frequency 5 P 169 Voltage output at medium frequency 5 Related parameters P 0
117. ignal input across 43 terminal 4 5 when AU is on 6 OH Note 3 When MRS is turned on 7 MRS the output terminates When RT is on the 8 RT characteristics are the Please refer same as the second to P 44 function At the external mode the target frequency is t by P 15 and th 82 M2 4 Lina 9 EM fre i 43 External JOG SAO deceleration time is set by P 16 when EXJ is on Note 4 10 STF EXJ 11 STR EXJ 12 STF RT 13 STR RT 14 STF RL The multiplexed 15 STR RL function is the 16 STF RM ee several basic 17 TR RM 18 RN functions It 19 STR RH Multiplexed function means that one multiplexed 83 STF 0 0 40 20 STF RL RM AN 43 21 STR RL RM used to realize 22 STF RT RL several basic 23 STR RT RL functions 24 STFHRT RM 25 STR RT RM 26 STF RT RL RM 27 STR RT RL RM 94 Parameter Description Parameter 84 Terminal STR Factory Setting Setting Range 0 40 43 Value 28 Name RUN Function At the external mode the inverter runs when RUN is on Instruction 29 STF STR At the external mode it is used with RUN The inverter runs forwards when STF STR is on and runs reversely when STF STR is off Run forward reverse control signal 30 RES External Reset 31 STOP At the external mode it can be used as a three wire mode with the RUN signal or the STF STR terminal note 4 32 REX Multi speed 33 PO At the external
118. ing Grounding is not only for equipment safety but also the simplest efficient and inexpensive method for solving the EMC problem and therefore it should be prioritized Please refer to the terminal wiring section 5 Carrier Wave The leakage current contains leakage currents from line to line or over the ground It depends on the size of the capacitance and the carrier frequency of the wiring system When the carrier frequency is higher the motor cable will be longer the cable cross sectional area will be larger and the leakage current will be larger Reduce the carrier frequency to effectively reduce the leakage current When using a long line of motor 50m or above the output side should be connected to an AC reactor or a sine wave filter If the motor line is longer than 50 m a reactor should be installed at every distance At the same time carrier frequency reduction can effectively reduce the conduction and radiation interference The 5K carrier frequency can satisfy the limit value of the conduction and radiation stated by the CE 13 Introduction of Shihlin Inverter 3 5 4 Installation notice 1 Please install in an upright direction A Shihiin 3 The ambient temperature shall not exceed the permissible value Shihlin emperature measuring point Snl 2 Clear the surroundings w
119. ing may cause damage or injury accident inverter 4 Only qualified electrical professional personnel can carry out the installation wire arrangement dismounting and maintenance 5 Please follow the wire arrangement notice In case the installation has not been fully complied with and damage of the inverter or dangerous accidence thus be resulted in our company will not undertake any legal responsibility In case there is any question on the wire arrangement please feel free to contact us 24 Introduction of Shihlin Inverter 3 6 Selection of Peripheral Equipments 3 6 1 No fuse switch irat rape Motor Capacity Power Source Applicable NEBMECe Applicable ME Capacity Type Shihlin Type Shihlin SS2 021 0 4K 220V 0 5HP 1 5kVA BM30SN3P5A S P11 SS2 021 0 75K 220V 1HP 2 5KVA BM30SN3P10A S P11 SS2 021 1 5K 220V 2HP 3 5KVA BM30SN3P15A S P11 SS2 021 2 2 220V 3HP 6 4kVA BM30SN3P20A S P11 S P12 q SS2 023 0 4K 220V 0 5HP 1 5kVA BM30SN3P5A S P11 SS2 023 0 75K 220V 1HP 2 5KVA BM30SN3P10A S P11 SS2 023 1 5K 220V 2HP 4 5KVA BM30SN3P15A S P11 SS2 023 2 2K 220V 3HP 6 4kVA BM30SN3P20A S P11 S P12 SS2 023 3 7K 220V 5HP 10kVA BM30SN3P30A S P21 SS2 043 0 4K 440V 0 5HP 1 5kVA BM30SN3P3A S P11 SS2 043 0 75K 440V 1HP 2 5KVA BM30SN3P5A S P11 SS2 043 1 5K 440V 2HP 4 5KVA BM30SN3P10A S P11 SS2 043 2 2K 440V 3HP 6 9KVA BM30SN3P15A
120. ing resistance determines the number of inverters controlled by the communication interface of the host computer Once Modbus protocol is selected please set P 33 to none zero values 2 If the time of communication errors exceeds the set value of P 52 while P 153 is set to 0 alarm will be activated and the screen of DU06 will display 0 Pr 3 When P 53 9999 there is no time limit 4 For Modbus protocol protocol 1 is the start bit 7 is the data bits No is the parity bit 2 is the stop bit N means no parity E means 1 bit even parity and O means 1 bit odd parity 1 Shihlin protocol e Automatic ASCII code hexadecimal conversion for communication between PC and the inverter e Follow the steps below for data communication between the inverter and the computer PC Data reading H_ iS _ i ipi La Inverter time Inverter Data writing 59 Parameter Description Steps for different communication type with or without data format RRT Operation Operation Write TM Read Out No Description Reset Monitoring Command Frequency Parameter Parameter Computer sends out communication request to QD Computer data processing Lind EN IN IN No error from computer no process check errors of Error SSENIERCINRRCA D Communication requests from computer to inverter Information number Format 1 PM MES 4 2
121. ion Setting 121 Parameter Description When P 300 0 no motor parameter auto tuning function is required for normal V F curve operation For general magnetic vector control please set P 300 to 2 The frequency will be altered due to elevated voltage and increased compensatory motor load For executing the motor parameter auto tuning function set P 301 to 1 or 2 and press the forward rotation or the reverse rotation key During the measuring process the operation panel will flicker and display TUN If the measurement is success the operation panel will display TEND and flicker If the measurement fails the operation panel will flicker FAL Press down for 1s return to normal display Procedures for motor parameter auto tuning are presented below Confirm the wiring Please refer 2 5 6 Set motor parameters P 302 P 307 Press down wo Or REY The screen of the operation panel will display TUN If failure the operation If succeed the operation panel will display FAL panel will display and flicker TEND and flicker ES Press down 355 Press down for 1s return to normal for 1s return to normal display display Manually adjust parameter values Manual input parameters P 308 P 309 and then wtite in P 997 122 Parameter Description If you need real sensorless vector control you should set P 300 to
122. ion At the programmed operation mode PO3 signal will be output when the inverter pauses BP Inverter output Switch between the inverter operation and commercial 9 power supply operation function During the inverter operation BP will output signals P 40 P 85 GP Commercial power supply output Switch between the inverter operation and 10 commercial power supply operation function During the commercial power supply operation GP will output signals When P 120 0 the signal will be output directly if the set condition of P 40 P 85 is met When P 120 0 1 3600 the signal will be output after the set time if the set condition of P 40 P 85 is met For example FU Output frequency detection function For example P 42 P 43 40Hz Output frequency detection value P 42 P 43 At least 100ms Time s OFF ON OFF ON OFF FU When P 64 1 and P74 0 the function of external terminal SO is FM function The user can insert an electricity meter current load 1mA or a frequency counter between terminal SO and SD to display the output frequency or the output currency of the inverter FM output 2300Hz I9junoo Kouenborq z P 55 output frequency P 56 output current When P 54 0 and if the output frequency of the inverter is set as P 55 a pulse of 1440 Hz will be produced at terminal SO if FM terminal function is selected Whe
123. is correct Main circuit Check whether the load is too heavy Load dl Check whether the motor rotor is locked Check whether the starting frequency P 13 is set too big Check whether the operation mode P 79 is correct Paramet ts e Check whether the maximum frequency P 1 is zero Check whether the reverse rotation prevention is restricted Setting Check whether the bias and gain P 192 P 199 setting is correct Check that the frequency jump P 91 P 96 setting is correct Check whether the output stop signal MRS is on Related parameter P 80 P 84 P 86 Check whether the RES function is ON Related parameter P 80 P 84 P 86 Check whether the external thermal relay is operating or not Check whether the reset has been performed or not after the set off of the alarm the ALARM light in on Check whether the voltage current signals are correctly wired Check whether the functions of STF and STR are correct related parameter P 80 P 84 P 86 Check whether the wiring for the control circuit is disconnected or has a poor contact Control circuit Check whether the phase sequence of output terminals U T1 V T2 and W T3 is correct Check whether the start signal STF and STR are connected correctly Failure to increase the rotation speed of Check whether the load is too heavy Check whether the stall prevention level P 22 is correct C
124. ity are not identical These equipments have to be classified into strong noise quipments and noise sensitive equipments Similar equipments must be installed in the same area while inhomogeneity equipments must be kept at a distance greater than 20 cm 2 Input noise filter input and output magnet ring zero phase reactor Increase noise filter in the input terminal which will isolate the inverter and other equipment can effectively reduce the conduction and radiation ability of the inverter Install the input reactor as what is recommended by this manaul with better EMI Suppression Increase the ferrite of the input and output terminals refer to Section 3 6 5 and at the same time increase the zero phase reactor refer to Section 3 6 5 and 4 turns Hitachi metals nano magnetic ring to reduce the interference in motor side then can satisfy the limited value of conduction and radiation that is stated by the CE 3 Shielding Good shielding and grounding can greatly reduce inverter interference and improve the anti interference capacity of the inverter Use the good electricity conducting sheet metal box sealing the inverter good contacts to metal and let the sheet metal grounded to satisfy the limits value of radiation stated by the CE Input and output lines used cable with shielding good grounding and shielding to satisfy the limits value of radiation stated by the CE 4 Grounding Inverter at work must have a safe and reliable ground
125. kHz 12kHz 14kHz 16kHz Carrier frequency Note The optimum carrier frequency shall be eight times greater than the target frequency 5 31 Stop Function Selection P 75 P 75 Stop function selection Parameter Factory Setting Setting Range Remarks 75 1 0 1 lt Setting gt When P 75 0 it is only suitable for the PU mode and the H2 mode combined mode 2 Pressing ss during running can stop the motor When P 75 1 it is only suitable for the chosen mode Press 5 during running can stop the motor Note 1 When the alarm goes off press for second to reset the inverter In normal or abnormal conditions the reset can be executed by P 997 2 There are two built in programs for emulation thermal accumulating relay the electronic thermal relay and the IGBT module thermal relay Once reset occurs the values of the two relay for the electronic thermal relay and the IGBT module thermal relay will be set to zero 3 In any modes other than the external mode or the H2 mode the motor can be stopped by pressing o when P 75 1 The inverter would display EO and all the functions of the inverter are disabled It can restart by 1 Terminate external STF STR command At the programmed operation mode there s no need to terminate the start signal The inverter will continue to run at the section where it stopped after reset stop 2 Press amp for 1 0s Parameter Description 5 32
126. ll be adopted For 440V series special type of grounding shall be adopted Note 4 20 Introduction of Shihlin Inverter Note 1 For SS2 TYPE series of inverters brake resistor is not included For information related to brake resistor please refer to 3 6 3 N For information related to regenerative voltage please refer to P 30 in Chapter 5 W P and N are the positive and negative terminals of the internal DC voltage of the inverter In order to strengthen the braking capability during deceleration it is suggested to purchase an optional brake unit to be mounted between terminals P and N The brake unit can effectively dissipate the feedback energy from the motor to the inverter when decelerating In case there is any problem on purchasing the brake unit please feel free to contact us 4 For safety and noise reduction grounding terminals of inverter must to be well grounded To avoid electric shocks and fire accidents external metal wire of electrical equipment should be short and thick and it should be connected to the special grounding terminals of inverter If many of the inverters are placed together all inverters must be connected to the common ground Please refer to the following diagram and do not form s circuit between the grounding terminals O O x Best Average Poor 21 Introduction of Shihlin Inverter Control terminals
127. make sure that the functions of the terminals before changing the functions 87 Parameter Description 5 27 Zero Current Detection P 62 P 63 P 62 Zero current detection level Keragd palameteis P 40 Multi function output P 63 Zero current detection time N nz RE NELLE NCC M MCI EL terminal pattern P 85 Function selection for multi function relay Parameter Factory Setting Setting Range Remarks 62 5 0 200 9999 9999 Function invalid 63 0 5s 0 05 60s 9999 9999 Function invalid lt Setting gt Assume that the rated full load current of the inverter is 20A P 62 5 P 63 0 5s and the output current is lower than 20X 5 1A for more than 0 5s a signal OMD is output as shown in the figure below A full load current level 100 Oster ANA Y a N Time gt P 63 O 2 AAA g 3 Output OMD aue f the set value of P 62 or P 63 is 9999 the zero current detection 1s disabled Note In this section OMD is one of the function names of the multi function output terminal Please refer to P 40 for function selection and features and Section 3 5 6 for wiring 5 28 Retry P 65 P 67 P 68 P 69 P 65 Retry selection P 67 Number of retries at alarm occurrence P 68 Retry waiting time P 69 Retry accumulation times e When an alarm occurs the previous states before the alarm
128. mal or abnormal NTC 1 Reduce the environment temperature and improve the The IGBT or The temperature of IGBT i air condition module is L module is too high heati 2 Check whether the fan of the overheatin p inverter is damaged CPR _ 1 Check the wiring CPU ab l L p r CPU software abnormal 2 Check the parameter setting abnorma 3 Improve external disturbance Too heavy load of motor Alleviate the load of motor OL2 2 The setting value of na 7 Adjustment the setting value Over torque TER 2 P 155 and P 156 is of P 155 and P 156 properly abnormal unreasonable AErr The disconnection abmormal acc h aalan fas Please refer to the parameter Abnormal of GEC y simulation given of 4 PIRA 4 5 terminal terminal E Note 1 When the above alarms occur the inverter will stop Please deal with these alarms according to the methods mentioned above 2 The abnormal number of alarm code can refer to P 288 P 291 143 Appendix 3 Warning Code List Code Screen Display Cause Troubleshooting When the output current is larger than Stall prevention 1 Check if the values of operation level the three lights P 22 P 23 and P 66 on the left side of the screen are proper Current stall ie Br n u ey flicker indicating that the 2 Check if the values of v Flicker inverter is in current stall mode P 7 and P 8 are too
129. minute If they are different then the current frequency set value is written in the memory No writing if RL is on Note 1 The frequency can be varied by RH acceleration and RM deceleration between O and the maximum frequency The upper limit of the setting frequency is the maximum frequency as shown below Hz Output frequency Setting frequency F OHz Acceleration RH Ee T Deceleration RH l ON Forward rotationSTF ON 2 When the acceleration or deceleration signal is on the output frequency acceleration deceleration times are determined by P 7 first acceleration time and P 8 first deceleration time When RT is off 3 When P 4429999 the second acceleration time and P 4549999 the second deceleration time the acceleration deceleration times are due to P 44 P 45 4 When the start signal STF STR is off the target frequency will also change if RH acceleration RM deceleration is on 5 When the start signal STF STR is changed from on to off or the frequency is continually changed by RH RM make the frequency setting storage function invalid P 61 2 3 6 If the frequency setting storage function is valid P 61 1 the life of the EEPROM will be shortened because of frequent writing of frequency onto EEPROM 7 Signals RH RM and RL are determined by P 80 P 84 P 86 If the functions of the terminals are changed other functions are likely to be affected Please
130. n P 54 1 and if the output current of the inverter is set as P 56 a pulse of 1440 Hz will be produced at terminal SO if FM terminal function is selected When P 54 2 the output corresponds to the busbar voltage value If the voltage between P N reaches the OV alarm level and the function of external terminal SO is FM function terminal SO will output a 1440Hz pulse 80 Parameter Description When P 54 3 the output corresponds to the accumulation rate of temperature increase of the inverter If the temperature of the IGBT module of the inverter is too high and reaches the NTC level the function of external terminal SO will be FM function and a pulse of 1440Hz will be sent out When P 54 4 the output corresponds to the electronic thermal rate If either the electronic thermal relay when P 9 0 or the electronic thermal relay of the inverter s IGBT module when P 9 0 is running the function of external terminal SO will be FM function terminal SO will output a 1440Hz pulse e FM terminal calibration procedures 1 Insert an electric meter with a full graduation of 1mA or a frequency counter across terminal SO and terminal SD and set P 64 to 1 P 54 to O and P 74 to O Calibrate the header for accessory variation 2 Start the motor and fix the output frequency of the inverter to 60 Hz 3 When the motor runs steadily read the set value of P 187 At this point the screen will display the FM correction index Press
131. n names of the multi function control terminals For the corresponding functions for selection and features please refer to P 80 P 84 P 86 For wiring please refer to Section 3 5 6 77 Parameter Description 5 19 The Input Signal across Terminal 4 5 and the Target Frequency P 17 P 39 P 17 Input signals across terminal 4 5 selection P 39 The maximum output frequency the target frequency is set by the input signal across terminal 4 5 e SS2 TYPE series inverters have two analog input channels terminal 2 5 and terminal 4 5 Only voltage signals can across terminal 2 5 but both voltage signals and current signals can across terminal 4 5 The function of the terminal 4 5 determined by P 17 and the switch AVI ACI e The set value of P 39 is the target frequency value of the inverter when the input signal of terminal 4 5 is 20mA or 5V 10V The input signal across terminal 4 5 can switch by the P 17 and the switch AVI ACI When the AVI ACI switched to ACI and P 17 0 the current signal across terminal 4 5 When the AVI ACI switched to AVI the voltage signal across terminal 4 5 if P 17 2 the range is 0 5V if P 17 1 the range is 0 10V Parameter Factory Setting Setting Range Remarks 0 Current signal valid 17 0 0 2 1 0 10V voltage signals across terminal 2 0 5V voltage signals across terminal 50Hz P 189 1 39 1 650Hz 60Hz P 189 0 P 17 1 I P 17 2H Setting freq
132. n the rated np f deceleration is too short please OC2 current of the inverter M 7 rolong it Over current at n L g E 2 Avoid abrupt increase of load constant speed 0C3 3 Check Terminals U T1 V T2 and W T3 for short circuit Over current nia during ues deceleration O was n n Check whether the power supply is ver voltage a pon normal or abnormal when stop OV1 1 Incase the time for acceleration or Over voltage n i deceleration is too short please TETEE Over voltage between during prolong it Terminal P and Terminal N acceleration Check the brake resistor between terminal P and PR for loose OV2 Over voltage at hn J ae E uut 3 Check whether the values of P 30 constant speed 141 and P 70 are right or not Appendix 2 Alarm Code List Over current the inverter Code Screen Display Cause Troubleshooting OV3 Over voltage n j Over voltage between Terminal uua Please refer to OV1 OV2 during P and Terminal N deceleration ada Avoid the inverter long timely The IGBT rur The IGBT module thermal f i H i operating under overload module is accumulating relay acts a condition overheating 1 Check whether the set THN value of the P 9 is correct run The electronic thermal relay Motor h H T or not the set value should operates overheating comply the actual motor 2 Reduce load OHT Check the capacity of the The external Nur The external thermal
133. nal across terminal 2 5 Parameter Factory Setting Setting Range Remarks 50Hz When P 189 1 38 1 650Hz 60Hz When P 189 0 0 The range for the input voltage signal 73 1 0 1 terminal 2 5 is 0 5V f 1 The range for the input voltage signal terminal 2 5 is 0 10V 139 0 0 200 140 100 0 1 200 141 0 0 11 lt Setting gt P 141 has two digits and each digit has its distinct meaning Their relevant positions are presented as follows P141 0 Positive Bias 1 Negative Bias 0 Negative Bias REV Motion Disenabled 1 Negative Bias REV Motion Enabled e Set the frequency by using negative bias benefits to significantly avoid noise interference In harsh environments the user is advised to avoid using the actuator signal which is below 1V of the operating frequency 74 Parameter Description Here are some examples Example 1 This is the most used setting When the inverter is at the external mode the combined mode 2 or the combined mode 4 the frequency is set by terminal 2 5 Max output frequency eg Parameter setting P 38 60Hz Max operation frequency P 73 1 Voltage signal selection P 139 0 Bias adjustment P 140 100 Gain adjustment 30Hzp P 141 0 Positive Bias OHz 0V 5V 10V Example 2 This example shows the effect of changing the bias When th
134. nd P 85 output terminal function selection When the output terminal function selects 10 connect the relay driving the commercial power supply operation When the output terminal function selects 9 connect the relay driving the inverter operation When the external input terminal function selects 37 switch the inverter to commercial power supply operation When the external input terminal function selects 38 manually switch the signal CS 117 Parameter Description Warning 1 MC1 and MC2 must be mechanically interlocked the running direction of the inverter operation and the commercial power supply operation should be consistent 2 Use the commercial power operation switchover function under the external operation mode 3 STF STR is effective when the CS signal is ON Here are some typical sequence diagrams for the switchover of the commercial power supply frequency 1 No action sequence for the automatic switchover sequence P 249 99999 Power supply MRS STF cs MC2 MCI P248 P 58 i id 1 P 247 a P 57 y the commercial power supply operation l t l T I l gt I P 247 I The motor speed Inverter Free l Free l Inverter stop operation operation operation operation 2 With action sequence for the automatic switchover sequence P 249499999 P 250 99999 STF
135. ng out Check the IGBT module on the main circuit board Clean the dust and contaminants on the circuit board Check the insulation resistor Check whether the cooling system is abnormal Whether the wiring is firm clean the air filter etc Check screws and belts Check the external wires and the terminal banks for damage 126 Inspection and Maintenance 6 3 Regular Replacement for Some Components The corresponding ar Items Description period for replacement For the axle of a fan the standard lifetime is about 10 35 thousand Cooling fan 2 years hours With reference to the time of 24 hours one day it is sure that the fan should be replaced every 2 years The filter capacitor is an electrolytic capacitor and will deteriorate Filter 5 years with time The deterioration speed is contingent on the ambient capacitor conditions Generally it shall be replaced every 5 years Relay If bad contact occurs please replace it immediately Note Please send the inverters to the factory when replacement of the parts is necessary 6 4 Inverter Insulation Resistance Measurement 1 Before measurement first dismount the wiring of the main circuit Shihlin terminals and the control board Then execute wiring in the way as jg Invertor 1 the right figure 2 The measurement is only suitable for the main circuit Such High resistance meter measurement is
136. ning the following aspects 1 A correct motor rotation direction 2 A smooth motor rotation no abnormal noise or vibration 3 A smooth acceleration and deceleration If there is no abnormal condition increase the frequency to test the motor in a continuous running state Start the operation if no abnormal condition is found from the above commissioning Note If the inverter or the motor runs anomalous stop the operation immediately Check the causes according to the Fault Diagnosis Though the inverter is stopped power terminal R L1 S L2 T L3 of the main circuit is still connected In this case electric shock may occur when touching the output terminals U T1 V T2 W T3 of the inverter Because the filter capacitor has recharging voltage and a complete discharging takes some times electric shock may happen even if the major loop power has been shut off So after shutting off the major loop power use a DC voltage meter to test the intermediate DC loop Confirm the safe voltage value before handling the circuit inside inverter 41 Parameter Description 5 Parameter Description 5 1 Torque Boost P 0 P 46 V F elated parameters P 0 Torque Boost P 46 Second Torque Boost P 3 Base frequency P 19 Base Voltage P 47 Secone base frequency P 80 P 84 P 86 Multi function terminals selection e For an inverter controlled by the V F mode the starting torque is usually inadequat
137. nnnncnnnos 93 5 36 Slip Compensation Coefficient P 89 esses nnne E ettet teen 97 5 37 Frequency Jump BP 91 BP 96 1 dtt ente iet i eei i RR eo neben an inen ide 98 5 38 Programmed Operation Mode P 100 P 108 P 111 P 118 P 121 P 123 P 131 P 138 99 5 39 Operation Panel Frequency Monitoring Selection Function P 110 sees 101 5 40 Zero Speed Function P 151 P AS Linda iria e t ee ee ied miens 102 541 Over Torque Detection P 155 P 156 i eet A tete ette np oto dons 102 5 42 External Terminal Filter Function P 157 ccccccccsccssssceescceeseecsseecsenecseseeeeseeceseeceneceeseceeaeeeseeeseeeenseeenes 103 5 43 External Terminal Power Enable Function P 158 esses enne enne 103 3 44 Energy saving Control B 159 i nent ete Dd LER er ERI RC e Cnr I Ies 104 5 45 Multi function Display P 161 esses nennen aena eea aE iana TReni an 104 5 46 PID Control E T70 P183 B 223 B 225 eti eee tee HOO te EH ret ee et 105 5 47 Disconnection Processing Function of Terminal 4 5 P 184 sse 108 5 48 Proportion Linkage Function P 185 aia 109 5 49 Software Editon P188 ayro eee a e s e RE Me P TA PRIM ux II visi 109 3 30 Default Function da 110 5 51 Input Signal across Terminal 2 5 P 192 P 195 mieni a etre nennen 111 5 52 Input Signal across Terminal 4 5 P 196 P 199 sess nrenee nennen nnne 112 5 5
138. nsation coefficient e Setting up this parameter appropriately enables the rotation speed of the motor under rated current to be closer to the set rotation speed Parameter Factory Setting Setting Range Remarks 0 Slip compensation is forbidden 89 0 0 10 E Io SS UM 10 Compensation value is 3 of the target frequency 97 Parameter Description A 5 37 Frequency Jump P 91 P 96 P 91 P 96 Frequency jump e To avoid the system mechanical resonance frequency three sets of jump frequencies are presented P 91 and P 92 the first set P 93 and P 94 the second set and P 95 and P 96 the third set Parameter Factory Setting Setting Range Remarks 91 96 9999 0 650Hz 9999 9999 invalid Output frequency Hz l P 91 P 92 P 93 P 94 P 95 P 96 lt Setting gt For example Suppose that P 91 45 and P 92 50 If the target frequency 4 Hz the steady output frequency the target frequency If 45Hz lt target frequency 58Hz the steady output frequency 45Hz If 50Hz target frequency the steady output frequency the target frequency Note 1 During acceleration deceleration the output frequency of the inverter will still pass through the jump frequency 2 If P 91 9999 or P 92 9999 the first set of the frequency jump is invalid If P 93 9999 or P 94 9999 the second set of the frequency jump is invalid If P 95 9999 or P 96 9999 the third set of t
139. nverter has stopped putting out voltages 4 2 6 Basic operation procedures for the combined mode 2 42 P 79 Steps Description e At the combined mode 2 the indicating lamp of PU will flicker Note For selecting and switching the operation mode please refer to Section 4 1 The target frequency is set by external terminals f the target frequency is set by the input signal across terminal 4 5 please refer to P 39 in Chapter 5 2 e Ifthe target frequency is set by multi speed stage levels please refer to P 4 in Chapter 5 f the target frequency is set by the input signal across terminal 2 5 please refer to P 38 in Chapter 5 f the target frequency is set by pulse please refer to P 82 in Chapter 5 A Aii FWD e Press or to run the motor The indicating lamp of RUN will flicker indicating that the motor is running Note 1 For operating procedures of the monitoring mode please refer to Section 4 1 3 2 The frequency setting mode is valid in case the motor is running and thus the target frequency can be changed to regulate the motor speed TIN STOP Y ARESET b 4 4 Press to decelerate the motor till it stops ndicating lamp of RUN will stay on until the inverter has stopped putting out voltages 38 Primary Operation 4 2 7 Basic operation procedures for combined mode 3 13 P 79 6 e The target frequency is determined by communica
140. of the scale Using the settings in this example to disable the external FWD and REV controls Max output frequency 60Hz 7 Forward direction 10V Parameter setting P 38 60Hz Max operation frequency P 139 50 Bias adjustment P 140 200 Gain adjustment P 141 2 11 Negative Bias can reverse T l IRA 30Hz P 73 1 Voltage signal selection l l Reverse direction l l e pt pl a 60Hz Example 8 This example shows the use of negative slope Negative slopes are used for controlling pressure temperature or flow The input connected sensor generates a large signal 10V at high pressure or flow At negative slope settings the AC motor drive will slowly stop the motor With these settings the AC motor drive will run in one direction reverse only This can only be changed by exchanging the two wires of the motor Max output frequency 60 Hz Parameter setting P 38 60Hz Max operation frequency P 73 1 Voltage signal selection P 139 100 Bias adjustment P 140 100 Gain adjustment P 141 11 Negative Bias can reverse OHz OV 10V Note 1 At the external mode combined mode 2 or combined mode 4 the inverter target frequency is set by the input signal across terminal 2 5 4 5 if RH RM RL and REX are all off If AU is on the input signal across terminal 4 5 will have a higher priority 2 RL RM RH REX AU and RUN are the functio
141. oid storing the product in an environment with corrosion gas or liquid 5 The best storage location is on shelves or pallets Note 1 To meet the standard requirements such as humidity temperature changes also occurred hurriedly condensation and icy may occur in this place should be avoided 2 Do not place the product directly on the ground Place the product on appropriate shelves If the storage environment is not optimal place the product in desiccant bags 3 If the custody period is more than 3 months the ambient temperature shall not be higher than 300C It is to avoid electricity deposit in the electrolytic capacitors The higher the temperature is the easier the degradation 4 When not in use the inverter installed in the control device or the plate in construction which especially the extra humid and dust should be removed and stored in an environemtn with the above mentioned storage conditions 5 The characteristics of electrolytic capacitors can be degraded if there is no electricity for a long time Make sure that the electricity off state does not last more than one year 3 5 3 EMC Installation instructions Inverter is similar to other electrical and electronic equipments In a power system an inverter is the electromagnetic interference source and also the electromagnetic receiver An inverter will produce certain electromagnetic interference and noises In order to guarantee that the inverter to the elect
142. onally independent device unit It is usually a unit in the control box It is combined with other devices to control a machine or equipment Therefore our company does not consider that all the EMC commands should be directly applied on the inverter As a result the CE label of this inverter is not extensible 2 Compatibility The inverter does not need to cover all the EMC commands Yet for certain machine equipment that needs to use EMC commands and the inverter the machine has to be equipped with CE label In addition the company can provide the electromagnetic inspection data and operation manual that covers the required electromagnetic compatibility specifications for a quick and easy installation of the machine equipment of this inverter 3 Installation outline Please follow the following notes for installing the inverter Use a noise filter qualifying the EU standard to coordinate with the inverter The wire between the motor and the inverter has to be stored in shielded cable or metal tube In addition ground the motor terminal and the inverter terminal together Please shorten the wire as much as possible Please put this inverter in a metal cabinet that is already grounded It can prevent radiation interference The line to line noise filter at the power source terminal and the online magnetic iron core at the control row are used for suppressing noises All the signals and the EU qualified filter specifica
143. ounter the value serious fluctuation please short SE and 5 terminals 6 When P 74 1 the output will be 1 fold The inverter can provide an output between 1 and 400 Hz with a 1 precision The larger the rate of P 74 the larger the operation frequency and the poorer the precision 7 Resistor R must be greater than 3 10KQ 81 Parameter Description 5 21 Up to frequency Sensitivity P 41 Related parameters P 41 Up to frequency sensitivity P 40 Multi function output terminal pattern P 85 Function selection for multi function relay Parameter Factory Setting Setting Range Remarks 41 10 0 100 lt Setting gt If P 41 5 a signal SU is output when the output frequency enter the 5 region near the target frequency For example the target frequency is set to 60Hz and P 41 5 then if the output frequency is between the 60 60x5 63Hz and 57Hz region the SU signal is output Output frequency Target frequency Hz Adjustment scope P 41 Output OMIT TN O Time s OFF ON OFF SU Note In this paragraph SU is the function name of the multi function output terminal Please refer to P 40 for function selection and features About wiring please refer to Section 3 5 6 5 22 Output Frequency Detection P 42 P 43 Related parameters P 42 Output frequency detection for forward rotation P 40 Multi function output ape ee te
144. r code 3 and 4 b15 b8 b7 bO H75 Error code 4 Error code 3 H1008 Alarm item Error code can reference the table in alarm history parameters H0000 HFFFF b8 b15 reserved b7 scram MRS b6 2 Acceleration Declaration Selection RT H06 H10 Operation command HFA b5 High Speed RH H1001 b4 Mid Speed RM b3 Low Speed RL b2 REV Rotation STR b1 FWD Rotation STF b0 reserved H9696 The function of P 997 Communicate with the computer the inverter H06 H10 Inverter reset HFD H1101 71 can not send data back to the computer because 1t has been reset Parameter Description Modbus PD Modbus Item Protocol Information Content and Functions Code Address Code Hoo Do re HEE H0000 H9C40 write in P430 H1002 frequency write in H5A5A H1104 Inverter parameter S i H9966 H1103 H06 H10 and error code HFC dp dd H9696 H1106 description table erased H55AA H1105 HA5A5 H1102 H03 Parameter read out H00 H63 P 0 P 499 for the range and decimal point oO TL please refer to the parameter list H0000 MN Every parameter modbus address is the 16 HOG HIO Parameter writein H80 HE3 band parameter number For example the HO1F3 modbus address of P 138 is HOO8A H0000 P O P 99 H0001 P 100 P 199 Write read Read H7F P t iu i x __ _ H0002 P200 P299 E s Write HFF H0003 P 300 P 399
145. r hand adjusting the setting value of the inverter from f2 to f3 will result in S shape acceleration with a time equal to P 7x f3 f2 P 20 See the figure below Output frequency fo Time Note This s shape pattern enables a substantial motor vibration reduction during the acceleration deceleration and thus extends the life span of the belts and the gears 5 14 Regenerative Brake P 30 P 70 P 30 Regenerative function selection P 70 Special regenerative brake duty e Changing the output frequency from high to low will cause the motor speed to be greater than the output frequency of the inverter due to load inertia and thereby inducing the generator effect In this case a high voltage will exist between the main circuit terminals P and N and damage the inverter Therefore a proper brake resistor shall be mounted between terminals P and PR to dissipate the feedback energy 56 Parameter Description e There is a built in transistor a k a brake transistor in the inverter The conducting time ratio of the transistor is referred to as the regenerative brake duty The higher the regenerative brake duty is the more energy the brake resistor consumes and the stronger the brake capability is Parameter Factory Setting Setting Range Remarks 0 If regenerative brake duty is 3 fixed the value 30 0 osi of parameter 70 is invalid 1 The regenerative brake duty is the value of parameter 70
146. r to Section 4 1 for entering into the JOG mode 5 11 Stall Prevention P 22 P 23 P 66 P 22 Stall prevention operation level P 23 Offset coefficient for Stall prevention operation level at double speed P 66 Starting frequency for reducing the stall prevention operation level Related parameters P 189 Default function e The motor speed often fail to closely follow the output frequency when starting the motor or increasing the target frequency if there is heavy load Increase the output current to improve the output torque if the motor speed is smaller than the output frequency However the motor torque will decrease if the difference between the output frequency and the motor speed is too large which is referred to as stall 53 Parameter Description Parameter Factory Setting Setting Range Remarks 22 200 0 250 23 9999 0 200 9999 When pi stall prevention operation level is the set value of P 22 50Hz When P 189 1 66 0 650Hz 60Hz When P 189 0 lt Setting gt During the period of starting a motor or increasing the output frequency the output current of the inverter will increase Once the output current exceeds the pre set upper limit as in the following figure adjustment of the output frequency will be paused automatically and will not proceed until the motor has reached the output frequency at this moment the output current of
147. requency f0 XP 235 Compensation from acceleration to deceleration f1 XP 236 Compensation from deceleration to acceleration f1 XP 237 Note 1 The output frequency will be limited by the maximum frequency and minimum frequency when the triangular wave function is effective 2 If the amplitude compensation P 236 or P 237 is too larger over voltage trip and stall prevention operation will run automatically Thus the inverter can not run according to the triangular wave function 114 Parameter Description 5 55 Auxiliary Frequency Function P 240 P 240 Auxiliary frequency function selection Factory Setting Setting Range Remarks lt Setting gt When the value of P 240 is 0 auxiliary frequency function is not selected When the value of P 240 is 1 operation frequency basic frequency auxiliary frequency 2 5 When the value of P 240 is 2 operation frequency basic frequency auxiliary frequency 4 5 When the value of P 240 is 3 operation frequency basic frequency auxiliary frequency 2 5 When the value of P 240 is 4 operation frequency basic frequency auxiliary frequency 4 5 When the value of P 240 is 5 2 5 terminals given as a proportion linkage signal When the value of P 240 is 6 4 5 terminals given as a proportion linkage signal When the operation frequency is less than P 2 the operation frequency should be equal
148. requency corresponds to the minimum input voltage across 0 60Hz 0 01Hz terminal 2 5 Frequency corresponds to the P195 maximum input voltage across 0 650Hz 0 01Hz 50Hz 60Hz P111 Note OHz E P112 terminal 2 5 Frequency corresponds to the P196 minimum input current voltage 0 60Hz 0 01Hz across terminal 4 5 137 Appendix 1 Parameter list Parameter number Frequency corresponds to the maximum input currentvoltage across terminal 4 5 Amplitude compensation for deceleration Amplitude compensation for acceleration Amplitude acceleration time Amplitude deceleration time Auxiliary frequency function selection 0 650Hz 0 100 0 100 0 100 0 650Hz 0 650Hz 0 25 0 50 0 50 0 360s 0 3600s 0 360s 0 3600s 138 Minimum setting unit 0 01s 0 1s 0 01s 0 1s Default value 50Hz 60Hz Note 0 100 20 1Hz 0 5s 1Hz 0 5s 10 10 10 10s 10s n O n O et T i ga value w 2 O ge O 5 Q e page P112 P112 P112 P105 P105 P105 P113 P113 P113 P113 P113 P114 P114 P114 P114 P114 P114 P115 Appendix 1 Parameter list Parameter number P 242 P 243 P 244 P 245 P 247 P 248 P 249 P 250 P 293 P 294 P 295 P 300 P 302 P 303 Name DC injection brake function before starting selection DC injection brake time before
149. rminal pattern P 43 Output frequency detection for P 85 Function selection for multi function relay reverse rotation Parameter Factory Setting Setting Range Remarks 42 6Hz 0 650Hz 43 9999 0 650Hz 9999 9999 same as P 42 setting lt Setting gt If P 42 30 and P 43 20 then a signal FU is output when the forward rotation output frequency exceeds 30Hz or when the reverse rotation output frequency exceeds 20Hz 82 Parameter Description If P 42 30 and P 43 9999 the default value then a signal FU is output when the forward or reverse rotation output frequency exceeds 30Hz Output frequency Hz Run forward P 42 P 43 Time s OFF Run reverse Output signal OFF ON OFF ON EU Note In this section FU is the function names of the multi function output terminals Please refer to P 40 for function selection and features About wiring please refer to Section 3 5 6 5 23 AM Terminal P 54 P 56 P 190 P 191 P 54 AM terminal function selection P 55 Frequency monitoring reference P 56 Current monitoring reference P 190 AM output bias P 191 AM output gain e Between terminal AM and terminal 5 an electric meter can be connected to indicate the outputcurrent value or the output frequency Parameter Factory Setting Setting Range Remarks 54 0 0 4 aa 50Hz When
150. romagnetic environment in certain work it must be designed to have a certain electromagnetic interference ability To achieve a normal operation of the drive system and to satisfy what is quareenteed by the CE attain the following criteria for the installation 1 Field wiring Power line from power transformer independent power supply generally uses a five core or a four core It is forbidden for the neutral and the ground to share a common wire 12 Introduction of Shihlin Inverter In general signal wires weak and power lines heavy are located in the control cabinet For inverters the electric line of force is divided into incoming lines and tail wires For wiring signal wires and power lines should be distributed in different and closed region within 20cm Parallel lines and interlace lines are strictly forbidden and they should not be tied together If the signal cable must pass through the power lines they have to be maintained at a 90 degree Angle to the power lines The parallel lines and interlace lines can not crisscross the power lines or be tied together if a noise filter is installed it will make coupled noises when electromagnetic noises pass through the distributed capacitance In this case the noise filter will be out of action Generally for same controllers with different electric equipments such as inverter filter PLC measurement instruments the transmitter electromagnetic noise to external and the bearing capac
151. rt circuit protection function selection Parameter Factory setting Setting range Remarks 287 1 0 1 lt Setting gt e Set P 287 to 0 to cancel the output end short circuits protection function When P 287 is set to 1 if the output end is short the operation panel will display the SCP abnormal alarm and the inverter will stop the output 5 60 Alarm History Parameters P 288 P 291 P 288 Alarm code display option P 289 Abnormal code P 290 Status message display option for the occurring alarm P 291 Status message for the occurring alarm e This paragraph provides the users with parameter related information on alarm codes for frequency current voltage as well as the 12 alarm codes mentioned earlier If P 996 operation is executed the abnormal codes and the status messages for the occurred alarms recorded by this set of parameters will be all cleared 119 Parameter Description Parameter Setting range Remarks 288 0 0 12 Factory setting The value of P 288 1 12 corresponds to the 289 0 abnormal codes of P 289 s alarm E1 E12 When P 290 1 P 291 corresponds to the frequency when the alarm goes off When P 290 2 P 291 corresponds to the current when the alarm goes off When P 290 3 P 291 corresponds to the output 290 0 0 5 voltage when the alarm goes off When P 290 4 P 291 corresponds to the accumulation rate of temperature increase
152. se refer to Section 4 1 6 2 For detailed operating flow at frequency setting mode please refer to Section 4 1 4 3 For detailed operating flow at parameter setting mode please refer to Section 4 1 5 4 For detailed operating flow at operating mode please refer to Section 4 1 1 4 1 3 Operation flow chart for the monitoring mode with operation panel e PU mode as an example Display output frequency Display output voltage display the current alarm code Nn For the alarm codes please refer to Appendix 2 the screen will display the current output voltage value 3 At the monitoring output current mode the indicating lamp of MON and OA will be lit up and the screen will display the current output current value 4 At the browsing alarm record mode the indicating lamp of MON will be lit up and the screen will PU e i ser Pe O Hz MON O f1 fi fioi we f fi file RUNO u uo RUNO gq uj qe r ajo tz se Pe O Hz ON e C fio MONO f1 fifio RUN O Evo RUNO U U ui Aalarm record pt a Note 1 At the monitoring output frequency mode the indicating lamp of MON and HZ will be lit up and at the same time the screen will display the current output frequency 2 At the monitoring output voltage mode the indicating lamp of MONO and V will be lit up and 4 1 4 Opera
153. setting 70 0 0 30 Note 1 In occasions where frequent start stop occurs a high capacity brake resistor is required 2 For brake resistor options please refer to Section 3 6 3 5 15 Carrier Frequency Action Choice P 31 P 31 Carrier frequency action choice e Soft PWM is a method for eliminating motor noises Parameter Factory Setting Setting Range Remarks 0 No action 1 Soft PWM selected when P 72 lt 5 this function is only valid under the V F mode 31 0 When P 72 gt 5 if inverter module temperature is too high 2 carriers frequency will automatically reduce after the module temperature falling carrier frequency will automatically restore the value which P 72 set 57 Parameter Description 5 16 Communication Function P 32 P 33 P 36 P 48 P 53 P 153 P 154 P 32 Serial communication Baud rate selection P 33 Communication protocol selection P 36 Inverter station number P 48 Data length P 49 STOP bit length P 50 Parity check selection P 51 CR LF selection P 52 Number of communication retries P 53 Communication check time interval P 153 Communication error handling P 154 Modbus protocol selection e Reset the inverter after revising the communication parameters e The SS2 type inverters have two optional communication protocols Shihlin protocol and Modbus protocol Corresponding P
154. spects before the operation 1 Check the wiring Make sure that the AC motor driver output terminals U T1 V T2 W T3 are not connected to the power and the grounding terminals are well grounded Check whether the terminals or the exposure of charged has short circuit Make sure the terminal connections plug connectors optional and screws are well fastening Make sure the motor is not connected to the mechanical device All switches must be disconnected before turning on the power Make sure not to start the inverter and if there is any abnormal action 6 Turn on the power only after cover installation 7 Do not touch the operation switch with wet hands 8 Make sure that the following aspects are followed when power on Operation panel should be shown no fault The indicating lamp of HZ and MON are all lit up when the keyboard panel is not chosen nA BW bh 4 3 2 Operating methods For various operating methods please refer to Chapter 4 for basic operating procedures and chapter 5 for parameter descriptions Selects the most appropriate operation method according to the application requirements and regulations Commonly used operating methods are shown below Signal Source of Motor Operating Methods Reference Source of Target Frequency Starting Operation Panel the knob on the operation panel fw or EY e MO Parameter seting ec MI P 4 40 Ext 1 Terminal P 5 30 Input by external terminals
155. starting address 2 of the data to set the order 67 Parameter Description 4 Abnormal response Abnormal responses are obtained because the query information received from the inverter is incorrect in terms of the function address and data Address Function 2 Error Code Mod tart heck End ai H80 Function code 3 nee E ASCII H3A 2char 2char 2char 2char OD OA RTU gt 10ms Ibyte Ibyte Ibyte 2byte gt 10ms Message Content 1 Address Set the address for the information to be sent to 2 Function code Function code H80 3 Error code Set the code from the following table List of error codes Resource Code Meaning Remarks Invalid function The inverter can not handle the code from the query H01 message issued by the computer H03 H06 H08 and H10 code are the function codes The inverter can not handle address coming from the query Invalid data message issued by the computer For addresses not listed in Inverter H02 address the table retention parameters parameters cannot be used to Response P read and write The inverter can not handle the data coming from the query message issued by the computer There is a specified mode and errors when the data are outside the writing range of the parameters H03 Invalid data Note Reading more than one parameters even reading the retention parameters are not considered as an
156. sword Protection Function P 294 and P 295 P 294 Password input P 295 Password setup Parameter Factory setting Setting range Remarks 294 0 0 9998 295 0 2 9998 lt Setting gt P 294 is the parameter that provides the decrypt function P 294 will be zero if the decryption is successful Use P 295 to set the password Enter the initial password into P 294 to decrypt the parameter password and to modify or to set up various parameters P 295 is the parameter for setting up the password The password has to be greater than 1 Once the password setup is completed P 295 will display 1 After deleting the password P 295 will display 0 Once the password is set no parameter can be modified except P 294 P 998 and power shutdown have no effect on the password The parameters can be revised only after the decryption Note Bring the inverter to the factory for decryption if the password is forgotten 5 63 Motor Control Mode P 300 and P 301 P 300 Motor control mode selection P 301 Motor parameter auto tuning function selection Parameter Factory setting Setting range Remarks O V F control 300 0 0 2 2 General flux vector control O Motorless parameter auto tuning function 1 Motor parameter auto tuning measuring the 301 0 0 3 running motor 2 Motor parameter auto tuning measuring the stopped motor 3 Online auto measurement funct
157. t frequency is set by the input signal across terminal 2 5 Please refer to multi function terminals P 80 P 84 P 86 in Chapter 5 if programmable operating mode is chosen 36 Primary Operation Steps Description Turn on STF or STR To run the motor At this time the indicating lamp of RUN Y will flicker indicating that the motor is running Note 1 Please refer to P 78 and multi function terminal P 80 P 84 P 86 in Chapter 5 for advanced setting for starting terminals STF and STR 2 Please refer to Section 4 1 3 for the operating procedure of the monitoring mode 3 Choose the programmed operation mode to have STF as the starting signal and STR as the pause signal They will no longer act as the run forward or run reversely terminals Turn off STF or STR and the motor will decelerate till it stops 4 e The indicating lamp of RUN Y will stay on until the inverter has stopped putting out voltages 4 2 3 Basic operation procedured for the JOG mode v i Pr79 0 or 1 Steps Description e Change the operation mode to the JOG mode and the indicating lamp of PU will be 1 lit up The screen will display vob before the motor runs Note Please refer to Section 4 1 for selecting and changing the operation modes YA ams Va x Press or to run the motor The indicating lamp of RUN Y will flicker indicating that the motor is running x g y Release or to decel
158. tage 3 Phase 200 240V 50Hz 60Hz PON EVONA SD 3 Phase 170 264V 50Hz 60Hz Power fluctuation Supply Power frequency permissible d 5 fluctuation Power source capacity KVA 1 5 29 4 5 6 4 10 Nat Cooling Method gt ET Forced air cooling cooling Weight kg 1 1 1 2 1 2 1 6 1 7 4 Introduction of Shihlin Inverter 3 1 3 440V Series Three Phase Model SS2 043 K 0 4 0 75 1 5 2 2 3 7 Applicable Motor HP 0 5 1 2 3 5 Capacity kW 0 4 0 75 1 5 22 3 7 Rated output capacity kVA Note 1 2 3 4 6 6 9 Rated output current A Note 1 5 2 6 4 2 6 9 Output 150 60 Seconds 200 1 Second Over current capability E reverse time characteristics Maximum output voltage 3 Phase 380 480V Rated power voltage 3 Phase 380 480V 50Hz 60Hz P lt issibl RR ae 323 528V 50Hz 60Hz Power fluctuation Supply Power frequency permissible 15 fluctuation Power source capacity kVA 1 5 2 5 4 5 6 9 10 4 Cooling Method Nature cooling Forced air cooling Weight kg 1 1 1 1 1 2 1 6 1 7 Note The test conditions of rated output current rated output capacity and frequency converter inverter power consumption are the carrier frequency P 72 is at factory setting value the frequency converter inverter output voltage is at 220V 440V the output frequency is at 60Hz and the ambient temperature is 50 C Introduction of Shihlin Inverter 3 2 Common
159. ter Description P 14 6 7 8 P 14 9 10 gt Output voltage Output frequency Output frequency 0 0 1 30 P 3 When P 14 6 A is 8 7 when P 14 7 A is When P 14 9 A is 20 0 when P 14 10 A is 10 4 when P 14 8 A is 12 0 25 0 P 14 11 12 13 Output voltage Output frequency When P 14 11 A is 9 3 when P 14 12 A is 12 7 when P 14 13 A is 16 1 Note 1 According to the diagram above set up the values of P 98 P 99 if one point is required set up values of P 98 P 99 P162 P 163 1f two points are required set up the values of P 98 P 99 P162 P 163 P164 P 165 1f three points are required and so forth 2 If P 14 is set between 4 and 13 the curve will be invalid when the value of P O is larger than the value of A and the value of P 14 will be equal to P O 52 Parameter Description AAA AAA 5 10 JOG Mode P 15 P 16 Related parameters P 15 JOG frequency P 16 JOG acceleration deceleration time P 20 Acceleration aceleraci n NARRAR reference frequency P 21 Acceleration deceleration time increments e At the JOG mode the output frequency is the set value of P 15 and the acceleration deceleration time is the set value of P 16 Parameter Factory Setting Setting Range Remarks 15 5Hz 0 650Hz 0 360s When P 21 0 16 5s 0 3600s When P 21 1 Output frequency P 20 i Note Please refe
160. ter setting P 38 60Hz Max operation frequency P 73 1 Voltage signal selection P 139 0 Bias adjustment P 140 200 Gain adjustment 30Hz 2 P 141 0 Positive Bias p 10V D P 140 100 200 7 sv p 4 27 Gain A adjustment x l OHz d I Example 5 In this example a 1V negative bias is used In a noisy environment it is advantageous to use the negative bias to provide a noise margin 1V in this example Max output frequency 6 54Hz Parameter setting P 38 60Hz Max operation frequency P 73 1 Voltage signal selection P 139 10 Bias adjustment P 140 100 Gain adjustment P 141 1 Negative Bias can not reverse 1V P 139 100 10V OHz Negative 10V Bias 6Hz 6Hz Example 6 In this example a negative bias is used to provide a noise margin Also a potentiometer frequency gain is used to reach the maximum output frequency Max output frequency P Bias Y adjustment 4 d Parameter setting 7 P 38 2 60Hz Max operation frequency E y P 73 1 Voltage signal selection Z P P 139 10 Bias adjustment 7 P 140 111 Gain adjustment P 9 P 141 1 Negative Bias can not reverse E P 140 mE 100 111 1 TA 0 7 1V 10V Negative 2 Bias 6 6Hz 76 Parameter Description Example 7 In this example the input is programmed to run a motor in both forward and reverse directions The motor will idle when the potentiometer position is at the mid point
161. the signal input parameters P 198 and P 199 can be set up manually The value of P 198 corresponds to the frequency of the P 196 set The value of P 199 corresponds to the frequency of the P 197 set When setting up the parameters manually verify the range of P 196 and P 197 and then adjust the voltage values of P 198 and P 199 3 After any resetting of P 196 P 197 the curve of P 39 becomes invalid 4 For selecting the input signal across terminal 4 5 please refer to P 17 112 Parameter Description 5 53 Backlash Compensation Function P 229 P 233 V F P 229 Backlash compensation function selection P 230 The backlash acceleration stopping frequency P 231 The backlash acceleration stopping time P 232 The backlash deceleration stopping frequency P 233 The backlash deceleration stopping time Parameter Factory Setting Setting Range Remarks LO The function is invalid 229 0 0 1 T 1 The backlash compensation function is selsectd 233 0 5s 0 360s e Backlash countermeasures What is the Backlash compensation Reduction gears have an engagement gap and have a dead zone between forward rotation and reverse rotation This dead zone is called backlash and this gap disables the mechanical system from following motor rotation More specifically a motor shaft develops excessive torque when the direction of rotation changes or when constant speed operation shifts to deceleration resulting
162. ti function control terminal terminal is shorted directly with SD is connected directly with open collector PLC Inverter Sink Input the multi function control terminal is connected with open collector PLC and external power supply 19 Introduction of Shihlin Inverter If the source input mode is selected the function of the multi function control terminal is active when it 1s shorted with PC or connected with the external PLC At this mode the current flows into the corresponding terminal when it is on Terminal PC is common to the contact input signals When using an external power supply for transistor output please use terminal SD as a common to prevent misoperation caused by leakage current Source Input the multi function control Source Input the multi function control terminal terminal is shorted directly with PC is connected directly with open emitter PLC Source Input the multi function control terminal is connected with open emitter PLC and external power supply Terminal name Main circuit terminals Remarks R L1 S L2 T L3 Connect to the commercial power supply U T1 V T2 W T3 Connect to three phase squirrel cage motor P PR Connect to brake resistors Notel 2 P N Connect to brake unit Note3 The grounding terminal for the case of the inverter For 220V series the third type of grounding sha
163. ting flow chart for the frequency setting mode with operation pane Read previous target frequency ahs IN y RNOR Ar e L Read new target frequency PU MON O RUN O jn md JU UI LE Ov l high frequency is needed change the upper frequency first Note 1 When running the inverter the frequency can be changed by the knob on the operation panel 2 At the frequency setting mode the indicating lamp HZ will be lit up but MON will be off 3 When setting up the frequency at the PU mode the set value can not exceed the upper frequency When 34 Primary Operation 4 1 5 Operating flow chart for the parameter setting mode with operation panel pue MONO RUNO o et Pi loy a The first bit flashes PUO MONO RUNO aan fu DO The second bit flashes The third bit flashes PU6 5 MONO o RUNO Z OH OA Ov LESS pue O Hz PU O Hz PU O Hz MONO P ffl MONO p OA MONO p f L k lo y RUN O U uU ly RUNO Ov RUNO OA PU PU O Hz 5 PUO O Hz MONO MONO 51 OA gt MONO Mon RUNO RUNO t l5v ro ov Enter the next setting mode Set value written ES
164. tion When MO M1 M2 and REX are On the target frequency will be determined by the combination of multi speed stage levels Please refer to_P 4 P 6 P 80 P 84 P 86 When EXJ is On the target frequency will be determined by the set value of P 15 Acceleration deceleration time is set by the value of P 16 The starting of the inverter is determined by external terminals The functions of P 996 P 998 and P 999 can be accomplished by communication 4 2 8 Basic operation procedured for combined mode 4 47 P 79 7 e The target frequency of the inverter is determined by the external terminals external voltage signals external current signals frequency set by pulse P 82 or the combination of multi speed stage level terminals The starting of the inverter is determined by communication including Reset 4 2 9 Basic operation procedures for combined mode 5 5 P 79 8 e The target frequency is determined by the operation panel When MO M1 M2 and REX are On the target frequency is determined by the combination of multi speed stage levels Please refer to P 4 P 6 P 80 P 84 P 86 When EXJ is On the target frequency will be determined by the set value of P 15 Acceleration deceleration time is set by the value of P 16 The starting of the inverter is determined by external terminals 39 Primary Operation 4 3 Operation 4 3 1 Checking and preparation before operation Examine the following a
165. tions are described in details in the operation manual Please contact your agent 2 Low voltage command LVD 1 Low voltage command compatibility description This inverter is compatible with low voltage commands 2 Compatibility Our company qualifies the low voltage command specification 3 Description Do not rely on leakage protection only for preventing electric shocks Grounding is required for the protection Ground each inverter individually do not connect more than two including two ground cables Please use non fuse switch and electromagnetic contactor that qualify EN or IEC specifications Please use the inverter under an environment of over voltage level 2 condition with contamination level 2 or better For the style and dimensions of the input and output end of the inverter cable please refer to the specifications listed in the operation manual 148 Appendix 5 European Specification Compatibility Description CE Certification Statement ViacerT VERIFICATION OF CONFORMITY CERTIFICATE NO VC 2011 12 0003 CE Shihlin Electric amp Engineering Corporation 16F No 88 Sec 6 ChungShan N Rd Taipei Taiwan Shihlin Electric amp Engineering Corporation No 234 ChungLun HsinFun HsinChu Taiwan Suzhou Shihlin Electric amp Engineering Corporation 22 Huoju Road Suzhou New District Jiangsu ED sninn O the NE snihtin o Shihlin Electric O Applicant S2 021 0 4K SS2
166. tively simple It is at the ASCII mode for detecting messages except the beginning of the colon field and the end of the carriage return line number It only needs to transmit the data of each byte stack and if the result is greater than hexadecimal H100 after removal of the excess such as the results obtained for the hexadecimal H136 only to take H36 can be reversed then plus 1 65 Parameter Description Algorithm of CRC checksum 1 Installation of a 16 bit register and all bits are 1 2 beginning of 8 bit byte was put into the register 3 The 16 bit register shifts 1 bit towards the right The 16 bit operation result an exclusive OR between the 16 bit register high byte and the If the first digit on the right hand side mark bit is 1 the exclusive OR is between the generator polynomial 1010000000000001 and the register operated If the first digit on the right hand side is 0 then go back to Step 3 5 Repeat Step 3 and 4 until there is no more 8 bit 6 Let exclusive OR between another 8 bit and this 16 bit register 7 Repeat Step 3 to 6 until all bytes of the packet have exclusive OR the 16 bit register and have been shifted eight times 8 The 2 byte CRC error checking of the 16 bit registers is added to the most significant bit of the message To add CRC to the message start from the low byte to the high byte e Communication format 1 Read data H03
167. uency P 176 OHZ If P 178 0 the values of P 179 P 180 and P 181 are invalid If the value of P 178 is not O PID sleep function is selected When the feedback value and the target feedback absolute value is lower than the sleep detect deviation and continue sleep detect duration time P 179 the output frequency will be diminished gradually by the inverter When the output frequency is lower than the outage level P 181 the inverter will be stopped When the feedback value is lower than revival level P 180 the output frequency of inverter will select PID control function again For example P 178 5 P 179 30s P 180 90 P 181 40Hz When the feedback value is larger than 95 of the target feedback value and is lower than 105 of the target feedback value for 10s continuously the output frequency will be diminished gradually by the inverter When the output frequency is lower than 40Hz the inverter will be stopped When the feedback value is lower than 90 of the target feedback value the inverter will revival and the output frequency of the inverter will select PID control function again the target feel back value Revival level FP P t Poe Red a in S feedback below P 179 actually P 179 Output Minishing the output frequency frequency gradually Outage PA level E ae Revival proccess process 107 Parameter Description lt Setting gt PID gain easy setting 1 Use pure
168. uency Setting frequency Setting frequency 4mA 20mA Input signal across 9V 10 V Input signal across OV 5 V Input signal across terminal 4 5 terminal 4 5 terminal 4 5 Note 1 At the external mode the combined mode 2 or the combined mode 4 the target frequency of the inverter is set by the input signal across terminal 4 5 if AU is on 2 At the external mode the combined mode 2 or the combined mode 4 the multi speed has higher priority if AU and one of RH RM RL and REX are both valid 3 RL RM RH REX and AU are the function names of the multi function control terminal For the corresponding function of selection and features please refer to P 80 P 84 P 86 For wiring please refer to Section 3 5 6 78 Parameter Description 5 20 Multi function Output P 40 P 64 P 74 P 85 P 120 and P 187 P 40 Multi function output terminal pattern P 64 Pulse output selection P 41 Up to frequency sensitivity P 74 10X output selection P 42 Output frequency detection for forward rotation Related parameters P 85 Function selection for multi function P 43 Output frequency detection for reverse rotation relay P 62 Zero current detection P 120 The output signal delay time P 63 Zero current detection time P 187 FM calibration parameter Parameter Factory Setting Setting Range Remarks 40 0 0 10 ae 64 0 0 1 P 64 0 P 74 0 S
169. ues to other inverters e Parameter copy operation procedure 1 When the first inverter is in the PU mode the value of P 994 is readout the screen will display rip and then written in The screen will display the parameter mumber one by one Those indicating the parameters are copied from the inverter to the operation panel When the parameter copying is completed the screen will display stand flickering 2 When the second inverter is in the PU mode the value of P 995 is readout the screen will display ro B and then written in The screen will display the parameter mumber one by one Those indicating the parameters are copied from the operation panel to the inverter When the parameter copying is completed the screen will display s zJand flickering Note 1 If the version of the inverter is updated pick inverter parameters of the lower version inverter among inverters of different versions for parameter copying 2 Parameters cannot be copied between inverters of different series 3 When parameters cannot be copied DU06 operation panel will display the alarm code or Err These alarm codes are not the abnormal alarm codes When these alarm codes are displayed inverter reset is not required 5 66 Alarm Log Deletion P 996 P 996 Alarm log deletion eOnce P 996 is read out after reading out the parameter the screen will displayE r L L and rewrite 1t All the abnormal record will be erased 124 P
170. unction changes to OH and becomes the external thermal relay terminal 3 External thermal relay OH wiring In traditional wiring a thermal relay is added to the motor to prevent the motor from being too hot Its wring is presented in the right figure When the external thermal relay is separated the inverter will induce the alarm and OHT will be displayed on the screen 4 There are four kinds of operating modes for driving the inverter 1 means close terminals 0 means open terminals X 0 1 2 3 4 6 1 Two wire control mode 1 STF P 8X 0 STR P 8X 1 SD Operating Instrnctions vore RUN P 8X 28 Stop STF STR P 8X 29 Sop Run Forward SD Run Reverse 3 Three wire control mode 2 with self maintaining function K1 STOP signal normally closed If it is open the inverter will stop K2 RNU signal normally open and the pulse signal are active KO K1 STF P 8X 0 STR P 8X 1 STOP P 8X 31 SD 96 Parameter Description 4 Three wire control mode2 with self maintaining function K1 STOP signal normally close If K1 is opened the inverter will be stoped K2 RNU signal normally opened and the pulse signal is active If the external terminal corresponds to the parameters settings for 39 the motor will stop until the user starts again when reversing Kl K2 j RUN P 8X 28 O ti KO peral ing STOR P 8X 31
171. ust the voltage value of P 192 and P 193 3 After resetting any of P 192 P 195 the curve of P 38 will be invalid P 195 P 194 Value B Value A 111 Parameter Description 5 52 Input Signal across Terminal 4 5 P 196 P 199 P 196 Frequency corresponds to the minimum input current voltage across terminal 4 5 P 197 Frequency corresponds to the maximum input current voltage across terminal 4 5 P 198 Minimum input current voltage across terminal 4 5 P 199 Maximum input current voltage across terminal 4 5 Parameter Factory Setting Setting Range Remarks 196 0 0 60Hz 50Hz P 189 1 197 0 650Hz 60Hz P 189 0 198 0 0 20 199 0 0 20 lt Setting gt Emendation steps 1 Make sure that the current signal is correctly inputted 2 Assume that the input current equals Value A and the expected output frequency is 20Hz Adjust the signal to Value A and write 20 into P 196 Also Value A will be written into P 198 3 Assume that the input current equals to Value B and the expected output frequency is 60Hz Adjust the signal to Value B and write 60 into P 197 Also Value B will be written into P 199 P 197 Running frequency set value Value A Value B Signal across terminal 4 5 Note 1 The equation for the above figure is Running frequency P 196 P 197 P 196 Current value Value A Value B Value A 2 If the user can not provide the actual stability of
172. ut voltage of the inverter will increase with the output frequency If the output frequency has reached the base frequency P 3 P 47 the output voltage will be equal to the base voltage If the output frequency exceeds the base frequency and increase continuously the output voltage will be clamped to the base voltage Parameter Factory Setting Setting Range Remarks 50Hz When P 189 1 3 0 650Hz 60Hz When P 189 0 19 9999 0 1000V 9999 9999 Change according to the power source voltage 47 9999 0 650Hz 9999 function invalid Output voltage V Output frequency P 3 P 47 lt Setting gt The base frequency is set through P 3 and P 47 If RT is on P 47 Second Base Frequency is valid Note 1 The base voltage is set through P 19 Note 2 Note 1 The second function is valid only when P 4429999 2 If P 19 9999 the maximum output voltage of the inverter will depend on the value of the power supply voltage 3 RT in this paragraph is referred to as the multi function control terminals For selecting the function and use of the multi function control terminal please refer to P 80 P 84 P 86 For the wiring please refer to Section 3 5 6 44 Parameter Description 5 4 Multi speed P 4 P 6 P 24 P 27 P 142 P 149 P 4 Speed 1 high speed P 5 Speed 2 medium speed P 6 Speed 3 low speed P 24 P 27 Speed 4 to 7 P 1
173. xternal Terminal Power Enable Function P 158 P 158 External terminal power enable Parameter Factory Setting Setting Range 158 0 0 1 f P 158 1 select the external terminal power enabling function At this situation if the multi function terminal function is STF STR RUN or MPO and the opposite terminal is connected before the power is on then the inverter will not run The user should connect it to the terminal again and the inverter will start running If P 158 1 the terminal is connected before the power is on and if the power is on the inverter will run immediately 103 Parameter Description 5 44 Energy saving Control P 159 V F P 159 Energy saving control function Parameter Factory Setting Setting Range Remarks 0 Normal running mode 159 0 1 Energy saving running mode At the energy saving running mode the inverter will control the output voltage automatically in order to reduce the output power losses when the inverter is running Note 1 After selecting the energy saving running mode the deceleration time will be longer than the setting value probability Also the regular torque load property will produce abnormal voltage easily please set the deceleration time longer 2 Big load purposes or frequent deceleration machine may cost more energy 5 45 Multi function Display P 161 P 161 Multi function display selection e The user c
174. xternal Terminals 6 Sienal Operati e m2 P6 10 STF SD ignal Operation E P STR SD SD 2 5 4 5 40 Primary Operation 4 3 3 Trial Run Check the cables and make sure that there are no abnormalities before the operation The inverter will be at the external mode after turning on the power 1 After turning on the power make sure that Operation panel shown no fault the indicating lamp of OHZ and MON are all lit up when the keyboard panel is not chosen Pick up a switch between STF and SD or STR and SD Pick up a potentiometer among 2 5 10 or provide 0 5V DC between 2 and 5 Adjust the potentiometer to a minimum value between or 0 and 5V DC under 1V There is a forward rotation if STF is on or a reverse rotation if STR on Turn off STF or STR for the motor to decelerate till it stops 6 Make sure of the following aspects 1 Motor rotation direction is correct 2 A smooth motor rotation no abnormal noise or vibration 3 A smooth acceleration and deceleration nA AUN Set up the DU06 operation panel as follows 1 Properly connect the DUOG operation panel to the inverter 2 Change the operation mode to the PU mode after turning on the power and the screen will display 50 60Hz 3 Press v to set the target frequency to 5Hz EA STOP RESET dii ili FWD s REV n 5 B 4 Press for forward rotation press for reverse rotation press Y for motor decelerate till it stops 5 Exami
175. y can be restricted P 13 Starting frequency Parameter Factory Setting Setting Range Remarks 1 120Hz 0 120Hz ac 2 OHz 0 120Hz 18 120Hz 120 650Hz Output frequency Hz p2 P 1 P 18 Setting frequency Hz lt Setting gt If the target frequency S P 2 the steady output frequency P 2 If P 2 lt target frequency X P8 the steady output frequency the target frequency f P 1 P 18 lt target frequency the steady output frequency P 1 Note 1 The maximum frequency and the high speed maximum frequency are interrelated P 1 must be used the setting range of P 1 is 0 120H2 if the target upper limit frequency is in the range of 0 120Hz P 18 must be used the setting range of P 18 is 120 650Hz if the target upper limit frequency is in the range of 120 650Hz 2 If P 1 lt P 2 the steady output frequency will be clamped to P 1 3 The set frequency value can not exceed the value of P 1 43 Parameter Description 5 3 Base Frequency and Base Voltage P 3 P 19 P 47 Related parameters P 3 Base Frequency P 19 Base Voltage P 47 Second base frequency P 14 Load pattern selection P 80 P 84 P 86 Multi function terminals selection P 189 Default function e The maximum output voltage of the inverter is referred to as the base voltage e If the output frequency is lower than the base frequency the outp

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