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Toshiba G3 TOSVERT-130 manuel d'utilisation

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Table des matières du manuel d’utilisation

  • Page 1

    December, 1998 ICC #10160-001 HIGH PERFORMA NCE TRA NSISTOR INVERTER TRUE TORQUE CONTROL DRIVE SERIES PROFIBUS-DP COMMUNICA TIONS INTERFA CE[...]

  • Page 2

    1 Introduction Thank you f or purchasing t he “ Pr of ibus-DP Communicat ions I nt erf ace” f or the Toshiba TO SVERT-130 G 3 Hig h-Perf ormance T ransistor I nverter. Bef ore using the Prof ibus- DP int er f ace, please be sure t o t hor oughly read the instr uctions and precautions contained in t his m anual. In addition, please m ak e sure t[...]

  • Page 3

    2 Usage Precautions • = Please use the interf ace only w hen the ambient tem peratur e of the inverter unit into which the interfac e is installed is within the following specified tem peratur e limits : Operation : -10 ∼ +40 ° C (+14 ∼ +104 ° F) Storage : -25 ∼ +65 ° C (-13 ∼ +149 ° F) • = Avoid installation locations that m ay be [...]

  • Page 4

    3 TABLE OF CONTENTS 1. Interface Board Diagram.......................................................................... 5 2. Interface Board Installat ion / Removal ................................................... 6 2.1 Be f ore Install ation ............................................................................................6 2.2 Insta[...]

  • Page 5

    4 11.2.7 GROUP:PROTECTION FUNCTION PARAMETERS........................... 43 11.2.8 GROUP:PATTERN RUN CONTROL PARAMETERS.......................... 45 11.2.9 GROUP:FE EDB ACK CON TROL PAR AMETE RS ................................ 48 11.2.1 0 GROUP :COMMU NICA TION SETT ING PARA METER S ...................... 49 11.2.1 1 GROUP :AM/FM TE RMINAL ADJUST [...]

  • Page 6

    5 1. 1. 1. 1. Interface Boar d Dia gr am Interface Boar d Dia gr am Interface Boar d Dia gr am Interface Boar d Dia gr am Plated SHIELD connection point f or g rounding ( ref er t o Section 3). Standof f mount ing holes Standof f mount ing holes Network connector ( CN1)[...]

  • Page 7

    6 2. 2. 2. 2. Interface Boar d Installa tion / R emo val Interface Boar d Installa tion / R emo val Interface Boar d Installa tion / R emo val Interface Boar d Installa tion / R emo val The Prof ibus Communicat ions O pt ion ROM enclosed w it h t he Prof ibus k it is compatible only with G3 inverters with V120 or lat er m ain soft ware. An er r o r[...]

  • Page 8

    7 • = Setting the st andar d m ode select ion parameter w ill be referr ed t o in this manual as perform ing a TYPE X RESET , w her e X is the paramet er set ting value. 2.2 2.2 2.2 2.2 Installation Procedure Installation Procedure Installation Procedure Installation Procedure Installation of the T OSHIBA Prof ibus option RO M and interf ace boar[...]

  • Page 9

    8 6. CA UTION! The option ROM PCB assembly and interf ace boar d ar e static-sensit ive devices. Standard electrost at ic- sensit ive component handling precautions should be observed. Locat e t he opt ion RO M connector, labeled CN41, on the lower-lef t side of t he cont rol PCB. Line up the connect or on the back of the option RO M PCB with CN41.[...]

  • Page 10

    9 8. Install the Pr of ibus network cable t hrough t he access holes at t he bottom of the inverter and route t he cable in order to m ak e connections to the int erf ace boar d connector (CN1) . T ake care t o not route t he cable near any sharp edg es or in positions where it may be pinched. 9. Connect the Prof ibus cable to the int erf ace boar [...]

  • Page 11

    10 13. If a ground cable is being used, connect t he g round cable to the select ed ground point. 14. Reinstall t he invert er ’s cover ( close and lat ch the door on unit s with hing ed doors). DA NGER! D o not o perate th e unit w ith the cov er off / cabinet door open. 15. Tur n all power sources t o the inverter unit O N, and verif y that the[...]

  • Page 12

    11 2.3 2.3 2.3 2.3 Removal Removal Removal Removal Removal of t he Pr of ibus inter f ace board f rom a T OSVERT- 130 G 3 inverter should only be perform ed by a qualified t echnician fam iliar with the m aint enance and operation of the G3. I n or der t o protect t he interf ace board connector’s r eliabilit y, do not repeatedly connect and disc[...]

  • Page 13

    12 5. CA UTION! The option ROM PCB and Profibus int er f ace board ar e static-sensit ive devices. Standard electrost at ic- sensit ive component handling precautions should be observed. Release the 4 cor ners of t he int er f ace board fr om t he st andoff s by pressing down on the standof f lock ing t abs with a small f lat- headed screwdriver. B[...]

  • Page 14

    13 10. Reinstall t he invert er ’s cover ( close and lat ch the door on unit s with hing ed doors). DA NGER! Do not operate unit w ith t he cover off / cabi net door open. 11. Tur n all power sources t o the inverter unit O N, and verif y that the inverter funct ions proper ly. If t he inverter unit does not appear t o power up, or does not funct[...]

  • Page 15

    14 3. 3. 3. 3. Gr ounding Gr ounding Gr ounding Gr ounding Grounding is of particular im por tance f or r eliable, stable operat ion. Communication system characteristics m ay vary from system t o system, depending on the system environment and gr ounding method used. T he Prof ibus int erf ace car d is pr ovided with a plated SHIELD connection poi[...]

  • Page 16

    15 5. 5. 5. 5. Maintenance And Inspection Maintenance And Inspection Maintenance And Inspection Maintenance And Inspection Preventive maintenance and inspection is req uired to m aint ain the Prof ibus communication int er f ace in its opt im al condit ion, and t o ensure a long oper at ional lifet im e. Depending on usage and oper ating condit ion[...]

  • Page 17

    16 6. 6. 6. 6. Stor ag e And W ar r anty Stor ag e And W ar r anty Stor ag e And W ar r anty Stor ag e And W ar r anty 6.1 6.1 6.1 6.1 Storage Storage Storage Storage Observe the f ollowing points when the Profibus int er f ace board is not used immediately af t er purchase or when it is not used f or an extended period of time. • = Avoid storing[...]

  • Page 18

    17 7. 7. 7. 7. G3 P ar ameter Settings G3 P a r ameter Settings G3 P a r ameter Settings G3 P a r ameter Settings Prof ibus int er f ace board comm unications are enabled by setting par ameter COMMUNICATION SELECTION in GROUP:COMMUNICATION SETTING PARAMETERS to 2 (Prof ibus, Modbus, DeviceNet). None of t he Tosline-F10 com m unicat ion parameter se[...]

  • Page 19

    18 8. 8. 8. 8. F ea tur e Summary F ea tur e Summary F ea tur e Summary F ea tur e Summary The Toshiba Pr of ibus-DP inter f ace provides a wide array of network dat a access and drive control f eatures. Com bined with the flexible conf ig uration and hig h- speed data transf er capabilities of the Prof ibus network , t his allows pow erf ul net wo[...]

  • Page 20

    19 Indicators 1 green LED is pr ovided to indicat e when the inter f ace has achieved the DATA_EXCHANG E st at e with the network mast er . This serves as a convenient indicator that t he master and dr ive are conf igur ed pr oper ly and are exchanging data. Isolatio n The network int e r f ace portion of the Pr of ibus-DP board is f ully optically[...]

  • Page 21

    20 9. 9. 9. 9. Ex c hang ed Da ta Structur es Ex c hang ed Da ta Str uctures Ex c hang ed Da ta Str uctures Ex c hang ed Da ta Str uctures 9.1 9.1 9.1 9.1 Output (Control) Data Format Output (Control) Data Format Output (Control) Data Format Output (Control) Data Format The output dat a st r ucture f rom the net work m ast er t o the G3 Prof ibus i[...]

  • Page 22

    21 Table 1 : Co mmand Word Format Bit Functi on Setting 0 RUN command 0: Stop 1: Run 1 STOP Com m and ( has pr ior ity over RUN command) 0: run enabled 1: stop 2 Forward / reverse run selection 0: rev erse 1: f or ward 3 Acc/dec #1 / #2 selection 0: Acc / dec #1 1: Acc / dec #2 4 Reserved 5 Reserved 6 Reserved Value is ignored Low Byte 7 Jog mode s[...]

  • Page 23

    22 9.2 9.2 9.2 9.2 Input (Status) Data Format Input (Status) Data Format Input (Status) Data Format Input (Status) Data Format The input dat a st r uct ure f r om t he G 3 Prof ibus int er f ace card t o t he net work m aster is comprised of 16 bytes str uct ured as 7 words and 2 independent bytes: Offset Dat a Explanation 0 Status word high byte 1[...]

  • Page 24

    23 In order t o det er mine the drive’s actual output f req uency, the data contained in t he output f requency word (of f sets 2 and 3) m ust f irst be converted fr om hexadecimal t o decimal, and then divided by 100. For example, if the output fr eq uency high byte is 0x12 and the output f requency low byte is 0x34, then 0x1234 converted to dec[...]

  • Page 25

    24 Table 3 : Input Terminal Monitor Word Format Bit T erminal Value 0 F 0: Ter m inal – CC open 1: Ter m inal – CC shor ted 1 R 0: Ter m inal – CC open 1: Ter m inal – CC shor ted 2 S1 0: Term inal – CC open 1: Ter m inal – CC shor ted 3 S2 0: Term inal – CC open 1: Ter m inal – CC shor ted 4 S3 0: Term inal – CC open 1: Ter m ina[...]

  • Page 26

    25 10. 10. 10. 10. Pa r a m e t e r R e g i s t e r Pa r a m e t e r R e g i s t e r Pa r a m e t e r R e g i s t e r P ar ameter R e gister Access Access Access Access 10.1 10.1 10.1 10.1 Parameter Number / Action Output Words Parameter Number / Action Output Words Parameter Number / Action Output Words Parameter Number / Action Output Words To ac[...]

  • Page 27

    26 10.2 10.2 10.2 10.2 Parameter Number / Action Input Words Parameter Number / Action Input Words Parameter Number / Action Input Words Parameter Number / Action Input Words The response by the G3 int er face car d t o par am et er read and write req uest s is placed in 2 input words of the input data struct ur e. The struct ure of t hese 2 input [...]

  • Page 28

    27 10.3 10.3 10.3 10.3 Parameter Access Procedure Parameter Access Procedure Parameter Access Procedure Parameter Access Procedure In order t o r ead fr om a par am et er or write to a par am et er, 2 contr ol bit s are provided. These bits, labeled Req 1 and Req0 in t he Par am et er number / act ion word, can have the f ollowing values: Req1 Req0[...]

  • Page 29

    28 • = If an er r or occurred dur ing the read or write r eq uest, t his will be indicated to the master by Resp1:Resp0 chang ing f rom 0:0 t o 1: 1. The paramet er number response ( 12 bit s ) will equal t he par am et er number t hat t he master was attempting t o access, and an error code ref lecting t he f ailure cause will be placed in the d[...]

  • Page 30

    29 11. 11. 11. 11. Pa r a m e t e r R e g i s t e r s Pa r a m e t e r R e g i s t e r s Pa r a m e t e r R e g i s t e r s Pa r a m e t e r R e g i s t e r s How To Use This Section: This section cont ains t ables which describe all of the paramet er r egisters accessible fr om t he Pr ofibus net work . T he descriptions f or the columns in t he l[...]

  • Page 31

    30 Example Table Excerpt: Register Function / Title Bank Mask A djustment Range M ultipl i er 26 MAXIMUM OUTPUT FREQUENCY ( ∗ ∗ ∗ ∗ ) 0 / 1 FFFF 0BB8 ∼ 9C40 (30.00 ∼ 400.00) 0.01 27 BASE FREQUENCY #1 0 / 1 FFFF 09C4 ∼ 9C40 (25.00 ∼ 400.00) 0.01 28 BASE FREQUENCY VOLTAGE SELECT ( ∗ ∗ ∗ ∗ ) 0 / 1 0030 0000: Input vol t age lev[...]

  • Page 32

    31 11.1 11.1 11.1 11.1 Read Read Read Read- - - -Only Registers Only Registers Only Registers Only Registers Register Bit Functi on Bank Mask Adjustment Range Mul tiplier 01 ∼ 09 w ord Reserved     0A w ord RX terminal analog i nput value 0 FFFF 0000 ~ 7FFF (-100% ~ 0%) 7FFF ~ FFFF (0% ~ 100%) 1 0B word Frequency com mand monit or 0 F[...]

  • Page 33

    32 ( Note 3 ) If the input / output power units dat a is 0, t he monit ored dat a is in 0. 01k W units , and the mul t iplier is 0.01. If the input / out put power units data i s 1, the m onitored data i s in 0.1kW units, and the m ul t i pl i er is 0.1. These values are aut omat i c ally set ac cording to t he inverter’s c apacity. Table 4: Outp[...]

  • Page 34

    33 11.2 11.2 11.2 11.2 Read/Write Registers Read/Write Registers Read/Write Registers Read/Write Registers 11.2.1 11.2.1 11.2.1 11.2.1 GROUP:FUNDAMENTAL PARAMETERS #1 GROUP:FUNDAMENTAL PARAMETERS #1 GROUP:FUNDAMENTAL PARAMETERS #1 GROUP:FUNDAMENTAL PARAMETERS #1 Register Function / Title Bank Mask A djustment Range M ultipl i er 26 MAXIMUM OUTPUT F[...]

  • Page 35

    34 11.2.2 11.2.2 11.2.2 11.2.2 GROUP:FUNDAMENTAL PARAMETERS #2 GROUP:FUNDAMENTAL PARAMETERS #2 GROUP:FUNDAMENTAL PARAMETERS #2 GROUP:FUNDAMENTAL PARAMETERS #2 Register Function / Title Bank Mask A djustment Range M ultipl ier 34 BASE FREQUENCY #2 0 / 1 FFFF 09C4 ∼ 9C40 (25.00 ∼ 400.00) 0. 01 35 MAXIMUM OUTPUT VOLTAGE #2 0 / 1 FFFF 0000 ∼ 0258[...]

  • Page 36

    35 11.2.4 11.2.4 11.2.4 11.2.4 GROUP:TERMINAL SELECTION PARAMETERS GROUP:TERMINAL SELECTION PARAMETERS GROUP:TERMINAL SELECTION PARAMETERS GROUP:TERMINAL SELECTION PARAMETERS Register Function / Title Bank Mask A djustment Range M ultip l i er 44 INPUT TERMINAL SELECTION 0 / 1 0001 0000: Standard f unctions (0) 0001: Indivi dual s electi ons (1) ?[...]

  • Page 37

    36 Register Function / Title Bank Mask A djustment Range M ultipl ier 60 “OUT” CONTACTS HOLD TIME 0 / 1 00FF 0001 ∼ 0064 (1 ∼ 100) 1 61 LOW SPEED SIGNAL OUTPUT FREQ 0 / 1 FFFF 0 ∼ Fmax 0.01 62 ACC/DEC COMPLETE DETECT BAND 0 / 1 FFFF 0 ∼ Fmax 0.01 63 SPEED REACH MAXIMUM FREQUENCY 0 / 1 FFFF 0 ∼ Fmax 0.01 64 SPEED REACH MINIMUM FREQUENC[...]

  • Page 38

    37 Table 7: Input T er minal Selections Setting Value Data (Hex) Function Setting Value Data (Hex) Function 0 10C8 R (reverse run) 28 04AF B i nary bi t #6 1 011C SS1 (preset speed selec tion) 29 08AF Binary bit #7 2 021C SS2 (preset speed selec tion) 30 10AF Binary bit #8 3 041C SS3 (preset speed selec tion) 31 20AF Binary bit #9 4 081C SS4 (prese[...]

  • Page 39

    38 Table 8: Output T erminal Selections ( RCH, LOW , FL, O UT relay contacts ) Setting Value Data (Hex) Function Setting Value Data (Hex) Function 0 0000 Lower lim it f requenc y 32 C5B 7 Executi ng em ergency of f 1 0100 / Lower limit f requency 33 CDB7 / E xecuting em ergenc y off 2 0200 Upper l i m it f requency 34 B5BB Executing retry 3 0300 / [...]

  • Page 40

    39 11.2.5 11.2.5 11.2.5 11.2.5 GROUP:SPECIAL CONTROL PARAMETERS GROUP:SPECIAL CONTROL PARAMETERS GROUP:SPECIAL CONTROL PARAMETERS GROUP:SPECIAL CONTROL PARAMETERS Register Function / Title Bank Mask A djustment Range M ultip l i er 69 START-UP FREQUENCY 0 / 1 FFFF 0000 ∼ 03E8 (0.00 ∼ 10.00) 0.01 6A ∼ 6F Reserved     70 END FREQUEN[...]

  • Page 41

    40 11.2.6 11.2.6 11.2.6 11.2.6 GROUP:FREQUENCY SETTING PARAMETERS GROUP:FREQUENCY SETTING PARAMETERS GROUP:FREQUENCY SETTING PARAMETERS GROUP:FREQUENCY SETTING PARAMETERS Register Function / Title Bank Mask A djustment Range M ultipl i er 81 FREQUENCY PRIORITY SELECTION #1 0 / 1 0007 0001: RR (1) 0002: IV (2) 0003: RX (3) 0004: PG (4) 0005: BIN (5)[...]

  • Page 42

    41 Register Function / Title Bank Mask A djustment Range M ultipl i er 98 BINARY INPUT STD OR ADJUSTABLE 0 / 1 0001 0000: Standard (0) 0001: Adjus t able (1)  99 1 BINARY REF SETTING POINT #1 0 / 1 00FF 0000 ∼ 0064 (0 ∼ 100) 1 9A BINARY REF POINT #1 FREQUENCY 0 / 1 FFFF -F max ∼ Fmax 0.02 9B BINARY REF SETTING POINT #2 0 / 1 00FF 0000 ∼ [...]

  • Page 43

    42 Register Function / Title Bank Mask A djustment Range M ultipl i er 10F 8 or higher PRESET SPEED #8 FREQUENCY 1 FFFF LL ∼ UL 0.01 110 PRESET SPEED #8 OPERATING MODE 1 040C S ame as PRESET SPEED #1 OPERATING MODE 1 111 9 or higher PRESET SPEED #9 FREQUENCY 1 FFFF LL ∼ UL 0.01 112 PRESET SPEED #9 OPERATING MODE 1 040C S ame as PRESET SPEED #1 [...]

  • Page 44

    43 11.2.7 11.2.7 11.2.7 11.2.7 GROUP:PROTECTION FUNCTION PARAMETERS GROUP:PROTECTION FUNCTION PARAMETERS GROUP:PROTECTION FUNCTION PARAMETERS GROUP:PROTECTION FUNCTION PARAMETERS Register Function / Title Bank Mask A djustment Range M ultipl i er 11F DYNAMIC BRAKING SELECTION 0 / 1 0003 0000: no dynam ic braki ng (0) 0001: with dynam ic brak i ng, [...]

  • Page 45

    44 Register Function / Title Bank Mask A djustment Range M ultipl i er 135 UNDERVOLTAGE TRIP SELECTION 0 / 1 0080 0000: Trip dis abl ed (0) 0080: Trip (during run) (1)  136 UNDERVOLTAGE DETECT TIME 0 / 1 FFFF 0000 ∼ 03E8 (0.00 ∼ 10.00) 0.01 137 LOW CURRENT DETECT SELECTION 0 / 1 0008 0000: Trip dis abl ed (0) 0008: Trip on detec t ion (1) ?[...]

  • Page 46

    45 11.2.8 11.2.8 11.2.8 11.2.8 GROUP:PATTERN RUN CONTROL PARAMETERS GROUP:PATTERN RUN CONTROL PARAMETERS GROUP:PATTERN RUN CONTROL PARAMETERS GROUP:PATTERN RUN CONTROL PARAMETERS Register Function / Title Bank Mask A djustment Range M ultipl i er 146 PATTERN RUN SELECTION 0 / 1 0008 0000: OFF (0) 0008: ON (1)  147 1 PATTERN RUN CONTINUE MODE 0 /[...]

  • Page 47

    46 Register Function / Title Bank Mask A djustment Range M ultipl i er 169 PATTERN GROUP #4 SPEED #0 1 00FF 0000: Skip (0) 1 16A PATTERN GROUP #4 SPEED #1 0001 ∼ 000F: Speeds 1 ∼ 15 16B PATTERN GROUP #4 SPEED #2 16C PATTERN GROUP #4 SPEED #3 16D PATTERN GROUP #4 SPEED #4 16E PATTERN GROUP #4 SPEED #5 16F PATTERN GROUP #4 SPEED #6 170 PATTERN GR[...]

  • Page 48

    47 Register Function / Title Bank Mask A djustment Range M ultipl i er 182 SPEED #9 CONTINUE MODE 1 00FF Sam e as SPEED #1 CONTINUE MODE  183 < 4 SPEED #9 DRIVE TIME 1 FFFF 0000 ∼ 1F40 (0 ∼ 8000) 1 184 SPEED #10 CONTINUE MODE 1 00FF Sam e as SPEED #1 CONTINUE MODE  185 < 4 SPEED #10 DRIVE TIME 1 FFFF 0000 ∼ 1F40 (0 ∼ 8000) 1 186[...]

  • Page 49

    48 11.2.9 11.2.9 11.2.9 11.2.9 GROUP:FEEDBACK CONTROL PARAMET GROUP:FEEDBACK CONTROL PARAMET GROUP:FEEDBACK CONTROL PARAMET GROUP:FEEDBACK CONTROL PARAMETERS ERS ERS ERS Register Function / Title Bank Mask A djustment Range M ultipl i er 190 FEEDBACK CONTROL SELECTION 0 / 1 0060 0020: No feedbac k (0) 0040: PID c ontrol (1) 0060: Speed feedbac k (2[...]

  • Page 50

    49 11.2.10 11.2.10 11.2.10 11.2.10 GROUP:COMMUNICATION SETTING PARAMETERS GROUP:COMMUNICATION SETTING PARAMETERS GROUP:COMMUNICATION SETTING PARAMETERS GROUP:COMMUNICATION SETTING PARAMETERS Register Function / Title Bank Mask A djustment Range M ultipl i er 1D0 ∼ 200 Reserved     201 RS232 BAUD RATE 1 0018 0000: 2400 baud (0) 0008: 4[...]

  • Page 51

    50 Register Function / Title Bank Mask A djustment Range M ultipl i er 211 TOSLINE-S20 COMM ERROR MODE 1 0002 0000: Data cleared (0) 0002: Data retai ned (1) 1 212 TOSLINE-S20 COMM OPTION RESET 1 0004 0000: No effect (0) 0004: Reset (1) 1 213 RS485/12-BIT BINARY BIAS,GAIN 0 / 1 0020 0000: OFF (0) 0020: ON (1)  214 1 RS485/12-BIT BINARY POINT #1 [...]

  • Page 52

    51 11.2.12 11.2.12 11.2.12 11.2.12 GROUP:UTILI GROUP:UTILI GROUP:UTILI GROUP:UTILI TY PARAMETERS TY PARAMETERS TY PARAMETERS TY PARAMETERS Register Function / Title Bank Mask A djustment Range M ultipl i er 21C INDUSTRIAL APPLICATIONS (previous set ting m onitor for read use only) 0 / 1 00FF 0000: Std. S hpm t. s etting (0) 0001: Pum p applicat i o[...]

  • Page 53

    52 Register Function / Title Bank Mask A djustment Range M ultipl i er 22D ACC/DEC TIME UNITS SELECTION 0 / 1 0004 0000: 0.1 sec . (0) 0004: 0.01 s ec . (1)  22E CURRENT UNITS SELECTION 0 / 1 0008 0000: % (0) 0008: A (1)  22F VOLTAGE UNITS SELECTION 0 / 1 0010 0000: % (0) 0010: V (1)  230 BLIND FUNCTION SELECTION 0 / 1 0001 0000: Blind (0)[...]

  • Page 54

    53 11.2.13 11.2.13 11.2.13 11.2.13 GROUP:MOTOR RATING PARAMETERS GROUP:MOTOR RATING PARAMETERS GROUP:MOTOR RATING PARAMETERS GROUP:MOTOR RATING PARAMETERS Register Function / Title Bank Mask A djustment Range M ultipl i er 242 NUMBER OF MOTOR POLES 0 / 1 00FF 0001: (2) 0002: (4) 0003: (6) 0004: (8) 0005: (10) 0006: (12) 0007: (14) 0008: (16) 2 243 [...]

  • Page 55

    54 Table 9: Inverter T ypeform Codes 230v Class 460v Class 600v Class Inve rte r Model Ty peform Data (H ex) Inverte r Model Ty peform Data (H ex) Inv erter Model Ty peform Data (H ex) G3-2010 ×× 21 G3-4015 ×× 42 G3-6060 ×× 65 G3-2015 ×× 22 G3-4025 ×× 43 G3-6120 ×× 67 G3-2025 ×× 23 G3-4035 ×× 44 G3-6160 ×× 68 G3-2035 ×× 24 G3-40[...]

  • Page 56

    55 11.3 11.3 11.3 11.3 Inverter Fault Codes Inverter Fault Codes Inverter Fault Codes Inverter Fault Codes LCD Display Message Data (Hex) Explanation NO ERROR ×× 00 No erro r has been recorded si nc e the las t i nvert er reset or t ri p c lear OVERCURRENT (ACCEL) (PRESS CLEAR) ×× 01 Overcurrent during acc eleration OVERCURRENT (DECEL) (PRESS C[...]

  • Page 57

    56 LCD Display Message Data (Hex) Explanation CURRENT DETECT ERROR (PRESS CLEAR) ×× 1A Output current detec tion ci rcuit error OPTION PCB ERROR (PRESS CLEAR) ×× 1B Option P CB error OPTION ROM ERROR ×× 1C Option ROM error LOW CURRENT TRIP (PRESS CLEAR) ×× 1D Low current UNDERVOLTAGE TRIP (PRESS CLEAR) ×× 1E Main circ uit undervolt age ?[...]

  • Page 58

    57 12. 12. 12. 12. GSD File GSD File GSD File GSD File The f ollowing is a copy of the G3 Pr of ibus inter f ace card’s GSD f ile, which is used for network comm issioning and administrat ion. An electronic version of this f ile can be downloaded vi a t he internet f rom h t tp :/ / www. ic cd es ig ns . co m . ;==================================[...]

  • Page 59

    58 Sync_Mode_supp = 1 Auto_Baud_supp = 1 Set_Slave_Add_supp = 1 Min_Slave_Intervall = 1 ; Modular_Station = 0 Max_Module = 1 Max_Input_Len = 16 Max_Output_Len = 8 Max_Data_Len = 24 ; ; Module Definition: Max_Diag_Data_Len = 8 Slave_Family = 0 OrderNumber = "INV3-PROFIBUS" Module = "Toshiba ASD:5w2b2w In, 2w2w Out" 0x54,0x11,0xD1[...]

  • Page 60

    59 13. 13. 13. 13. Notes Notes Notes Notes[...]

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    60[...]

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