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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 data structure from the G3 Profibus interface card to the network master is 
comprised of 16 bytes structured as 7 words and 2 independent bytes: 

 
 

Offset Data 

Explanation 

Status word 

high byte 

Status word 

low byte 

Bit-level drive status word (refer to Table 2 :  
Status Word Format) 

Output frequency 

high byte 

Output frequency 

low byte 

Drive’s current operating frequency 

IV input terminal 

value high byte 

IV input terminal 

value low byte 

Continuously reports the value of the drive’s IV 
analog input terminal.  0 

 100% terminal input 

corresponds to data values of 0x0000 

 0xFFFF 

RR input terminal 

value high byte 

RR input terminal 

value low byte 

Continuously reports the value of the drive’s RR 
analog input terminal.  0 

 100% terminal input 

corresponds to data values of 0x0000 

 0xFFFF 

Input terminal 

monitor high byte 

Input terminal 

monitor low byte 

Bit-level status word of drive’s digital input 
terminals (refer to Table 3 :  Input Terminal 
Monitor Word Format) 

10 

Drive output 

current monitor 

0x00 

 0xFF corresponds to 0 

 255% drive 

rated load current 

11 

Drive output 

voltage monitor 

0x00 

 0xFF corresponds to 0 

 255% drive 

rated output voltage 

12 

Parameter number 

/ action high byte 

13 

Parameter number 

low byte 

Parameter action bits and upper 4 bits of the 
parameter register number.  Refer to section 10 
for a detailed explanation of this data word 

14 

Parameter data 

response high byte 

15 

Parameter data 

response low byte 

During parameter register reads, this word 
contains the requested data response.  Refer to 
section 10 for a detailed explanation of this data 
word 

 

Summary of Contents for G3 TOSVERT-130

Page 1: ...December 1998 ICC 10160 001 HIGH PERFORMANCE TRANSISTOR INVERTER TRUE TORQUE CONTROL DRIVE SERIES PROFIBUS DP COMMUNICATIONS INTERFACE ...

Page 2: ...ntained in this manual In addition please make sure that this instruction manual is delivered to the end user of the inverter unit into which the Profibus DP interface kit is installed and keep this instruction manual in a safe place for future reference or inverter inspection This instruction manual describes the device specifications wiring methods maintenance procedures supported functions and ...

Page 3: ...e refer to the section in this manual pertaining to grounding section 3 Route the communication cables separate from the inverter input output power wiring To avoid the possibility of electric shock due to leakage currents always ground the inverter unit s E GND terminal and the motor To avoid misoperation do not connect the Profibus interface board s shield terminal to either of the above mention...

Page 4: ... 20 9 1 Output Control Data Format 20 9 2 Input Status Data Format 22 9 3 Diagnostics 24 10 Parameter Register Access 25 10 1 Parameter Number Action Output Words 25 10 2 Parameter Number Action Input Words 26 10 3 Parameter Access Procedure 27 10 4 Register Access Error Codes 28 11 Parameter Registers 29 11 1 Read Only Registers 31 11 2 Read Write Registers 33 11 2 1 GROUP FUNDAMENTAL PARAMETERS ...

Page 5: ...AMETERS 45 11 2 9 GROUP FEEDBACK CONTROL PARAMETERS 48 11 2 10 GROUP COMMUNICATION SETTING PARAMETERS 49 11 2 11 GROUP AM FM TERMINAL ADJUSTMENT PARAMS 50 11 2 12 GROUP UTILITY PARAMETERS 51 11 2 13 GROUP MOTOR RATING PARAMETERS 53 11 3 Inverter Fault Codes 55 12 GSD File 57 13 Notes 59 ...

Page 6: ... Board Diagram Interface Board Diagram Interface Board Diagram Interface Board Diagram Plated SHIELD connection point for grounding refer to Section 3 Standoff mounting holes Standoff mounting holes Network connector CN1 ...

Page 7: ...apability and installation of the option ROM may cause incorrect operation or inverter damage Please note that due to internal mechanical clearances not all Profibus connectors can be used on all inverter units Ensure that the Profibus connector that you plan on using does not come into contact with any of the drive s internal components circuit boards or brackets Toshiba has determined that conne...

Page 8: ...the installation process Option ROM version Record the standard ROM version number prior to option ROM installation The standard ROM version can be read from parameter ROM VERSION in GROUP UTILITY PARAMETERS Standard ROM version 2 CAUTION Verify that all input power sources to the inverter have been turned OFF and are locked and tagged out 3 DANGER Wait at least 5 minutes for the inverter s electr...

Page 9: ... ROM by pressing gently but firmly on the option ROM PCB until a slight click is felt Verify that the option ROM PCB is seated properly and firmly in CN41 If the option ROM connector does not appear to be mating with CN41 properly verify that the ROM is oriented properly and that there are no obstructions in either connector 7 Install the 4 nylon standoffs into the holes provided in the control bo...

Page 10: ...h high voltage inverter components or inverter components that may heat up during operation and damage the cable insulation 10 Install the interface board into the inverter by carefully aligning the 4 nylon standoffs with the 4 mounting holes provided in the interface board Ensure that connector CN5A on the back side of the interface board is aligned with connector CN5 on the front side of the con...

Page 11: ...er Then verify all connections Contact Toshiba International Corporation for assistance if the problem persists 16 To perform final verification that the option ROM is installed properly display the value of the ROM VERSION parameter in GROUP UTILITY PARAMETERS This number should match the option ROM version number that was recorded in step 1 If this parameter value does not match the option ROM v...

Page 12: ...tings the user should access the user changed parameter group to display and record all the parameters and setting values that have been changed from factory defaults Even if the current settings are saved using the TYPE 5 RESET function they will be erased from memory during the re initialization of the inverter after the option ROM has been removed 2 3 2 2 3 2 2 3 2 2 3 2 Removal Procedure Remov...

Page 13: ...1 on the lower left side of the control PCB Gently work the option ROM PCB up and down while pulling on it until the ROM releases from the control PCB option ROM connector IMPORTANT NOTE Do not remove the option ROM on inverter units that were received from the factory with option ROMs pre installed Units that are shipped from the factory with option ROMs pre installed H3 and 600V G3 units for exa...

Page 14: ...remove all power from the inverter Then verify all connections Contact Toshiba International Corporation for assistance if the problem persists 12 To re initialize the inverter after the ROM has been removed perform a TYPE 3 reset After the initialization sequence display the value of the ROM VERSION parameter in GROUP UTILITY PARAMETERS This number should match the standard ROM version number tha...

Page 15: ...lease be sure to consider the following points for making proper ground connections Grounding method checkpoints 1 Make all ground connections such that no ground current flows through the inverter case 2 Ensure that all grounds are connected to points that are at the same potential as inverter grounds 3 Do not connect the Profibus interface board s SHIELD connection point to a power ground or any...

Page 16: ...e source power has been removed Inspection Points Check that the network connector screws are not loose Tighten if necessary Check that there are no defects in any attached grounding wire terminal crimp points Visually check that the crimp points are not scarred by overheating Visually check the wiring and cables for damage Clean off any accumulated dust and dirt Place special emphasis on cleaning...

Page 17: ...ities of dust or metallic dust Store the interface board in a well ventilated location When not using the Profibus interface board for an extended period of time turn the power on at least once every two years and confirm that it still functions properly 6 2 6 2 6 2 6 2 Warranty Warranty Warranty Warranty The Profibus communications interface kit is covered under warranty for a period of 12 months...

Page 18: ...nterface card will trip OPTION PCB ERROR upon initialization To correct this error set the INVERTER ID NUMBER parameter to a value from 0 to 125 To implement any parameter changes in GROUP COMMUNICATION SETTING PARAMETERS the drive must be reset after making the changes If the drive into which a Profibus communications interface board is installed trips OPTION PCB ERROR for any reason during initi...

Page 19: ... the next freeze command or an unfreeze command is received Used primarily for synchronized monitoring of multiple Profibus nodes Sync mode Output control data values are held constant at the drive until the next sync command or an unsync command is received Used primarily for synchronized control of multiple Profibus nodes Clear_Data All output control data values are cleared to 0 Address Change ...

Page 20: ...d internally connected to the interface board s isolated ground 6 VP power supply 5v internally connected to the interface board s isolated P5 8 Profibus network A negative data line In out 1 2 7 9 No connection In addition to the above signals the metallic housing of the DB9 connector is connected to the shield section of the interface board The shield section contains a plated connection point w...

Page 21: ...this data word 6 Parameter data to write high byte 7 Parameter data to write low byte During parameter register writes this word contains the data to write Refer to section 10 for a detailed explanation of this data word The data contained in the frequency command word must be the desired frequency command multiplied by 100 and then converted to hexadecimal In other words if a frequency command of...

Page 22: ... mode selection 0 Normal acc dec mode 1 Jog mode 8 Feedback control 0 Feedback valid 1 Feedback invalid 9 Compulsory DC injection braking mode 0 No compulsory DC injection braking 1 Compulsory DC injection below DC INJECTION START FREQUENCY A Fundamental parameter switching 0 V F 1 1 V F 2 B Gate block coast stop command 0 Normal 1 Gate block C Emergency off command 0 Does nothing 1 Emergency off ...

Page 23: ...7 RR input terminal value low byte Continuously reports the value of the drive s RR analog input terminal 0 100 terminal input corresponds to data values of 0x0000 0xFFFF 8 Input terminal monitor high byte 9 Input terminal monitor low byte Bit level status word of drive s digital input terminals refer to Table 3 Input Terminal Monitor Word Format 10 Drive output current monitor 0x00 0xFF correspon...

Page 24: ...mat Bit Function Value 0 Run stop status 0 Stopped 1 Running 1 Run enable status 0 Run enabled 1 Stopped 2 Forward reverse status 0 Reverse 1 Forward 3 Accel decel 1 2 selection status 0 Accel decel 1 1 Accel decel 2 4 Reserved Always 0 5 Fault status 0 Faulted 1 Not Faulted 6 Reserved Always 0 Low Byte 7 Jog mode status 0 Normal accel decel mode 1 Jog mode 8 Feedback enable status 0 Feedback inva...

Page 25: ... 1 Terminal CC shorted Low Byte 7 S6 option 0 Terminal CC open 1 Terminal CC shorted 8 Reserved 9 Reserved A Reserved B Reserved C Reserved Always 0 D S7 option 0 Terminal CC open 1 Terminal CC shorted E RES 0 Terminal CC open 1 Terminal CC shorted High Byte F ST 0 Terminal CC open 1 Terminal CC shorted 9 3 9 3 9 3 9 3 Diagnostics Diagnostics Diagnostics Diagnostics When the drive trips 1 byte of ...

Page 26: ...s To access inverter parameters 2 output words are provided in the output data structure The structure of these 2 output words is as follows Parameter number action word Bit 15 14 13 12 11 8 7 4 3 0 Reserved Reserved Req1 Req0 Parameter number action high byte offset 4 Parameter number low byte offset 5 Parameter data write word Bit 15 12 11 8 7 4 3 0 Parameter data to write high byte offset 6 Par...

Page 27: ... of the input data structure The structure of these 2 input words is as follows Parameter number action response word Bit 15 14 13 12 11 8 7 4 3 0 0 0 Resp1 Resp0 Parameter number action response high byte offset 12 Parameter number response low byte offset 13 Parameter data error code response word Bit 15 12 11 8 7 4 3 0 Parameter data response high byte offset 14 Parameter data response low byte...

Page 28: ...knowledge Resp1 0 and Resp0 0 2 If the action is to be a data write set the parameter data in the parameter data write word If the action is to be a data read the parameter data write word value is irrelevant 3 Set the parameter register number 12 bits and action code Req1 and Req0 For a list of parameter register numbers refer to section 11 4 Once the G3 Profibus interface receives the read or wr...

Page 29: ... the drive the drive will ignore all data in the Parameter number action word and Parameter write data word Also as long as the master sends the no action code the drive will loop back in the parameter number action response word and parameter data error code response word whatever data is sent to it in the corresponding output words 10 4 10 4 10 4 10 4 Register Access Error Codes Register Access ...

Page 30: ... high byte bits 8 F Function Describes the function accessed through this parameter register Bank 0 RAM volatile 1 EEPROM nonvolatile 0 1 RAM EEPROM 2 3 and 6 code space read only IMPORTANT the inverter s EEPROM has a life span of 10 000 write cycles Do not write to a read write holding register whose bank is listed as 1 or 0 1 more than 10 000 times Mask The data bits within a register that are n...

Page 31: ...pectively Reading from or writing to registers marked as Reserved will generate an invalid register error error code 0x0003 Certain parameter registers cannot be written to while the inverter is running These registers will be indicated by the character If an attempt is made to write to these registers while the inverter is running a cannot execute error error code 0x0001 will be generated The par...

Page 32: ... 01 16 word Excitation current monitor 0 00FF 00 FF 0 255 1 17 word PID feedback value 0 FFFF Note 2 0 02 18 word Motor overload ratio 0 FFFF 0 65535 100 65535 19 word Inverter overload ratio 0 FFFF 0 65535 100 65535 1A word DBR overload ratio 0 FFFF 0 65535 100 65535 1B word Input power 0 FFFF 0 6553 5 0 1 1C word Input power kW 0 FFFF Note 3 1D word Output power 0 FFFF Note 2 0 1 1E word Output ...

Page 33: ...nning 0001 bit 1 unused always 0 bit 2 forward reverse reverse forward 0004 bit 3 acc dec 1 2 acc dec 1 acc dec 2 0008 bit 4 for inverter use bit 5 for inverter use bit 6 for inverter use bit 7 jog normal mode normal acc dec jog mode 0080 Upper Byte Bit Inverter Status 0 1 Single Bit Read Mask bit 0 feedback ON OFF OFF feedback active 0001 bit 1 DC inj braking OFF DC inj braking active 0002 bit 2 ...

Page 34: ...erse allowed 0 0020 Reverse not allowed 1 2B UPPER LIMIT FREQUENCY 0 1 FFFF 0000 Fmax 0 01 2C LOWER LIMIT FREQUENCY 0 1 FFFF 0000 UL Fmax 0 01 2D VOLTS PER HERTZ PATTERN 0 1 000F 0000 Constant torque 1 0001 Variable torque 2 0002 Auto torque boost 3 0006 3 w auto energy savings 4 000A Vector control 5 000E 5 w auto energy savings 6 2E 1 2 VOLTAGE BOOST 1 0 1 FFFF 0000 012C 0 0 30 0 0 1 2F ACCELERA...

Page 35: ...EA60 0 1 6000 0 0001 EA60 0 01 600 00 0 1 0 01 3C ACC DEC PATTERN 2 SELECTION 0 1 0030 0000 Linear 0 0010 Self adjusting 1 0020 S Pattern 1 2 0030 S Pattern 2 3 3D ACC DEC 1 2 SWITCH FREQUENCY 0 1 FFFF 0000 Fmax 0 01 11 2 3 11 2 3 11 2 3 11 2 3 GROUP PANEL CONTROL PARAMETERS GROUP PANEL CONTROL PARAMETERS GROUP PANEL CONTROL PARAMETERS GROUP PANEL CONTROL PARAMETERS Register Function Title Bank Ma...

Page 36: ...L TERMINAL FUNCTION 51 R S1 S7 TERMINAL RESPONSE TIME 0 1 00FF 0001 0064 1 100 1 52 F INPUT TERMINAL RESPONSE TIME 0 1 00FF 0001 0064 1 100 1 53 RES INPUT TERMINAL RESPONSE TIME 0 1 00FF 0001 0064 1 100 1 54 ST INPUT TERMINAL RESPONSE TIME 0 1 00FF 0001 0064 1 100 1 55 RCH CONTACTS FUNCTION 0 1 FFFF 0 FFFF 0 63 Refer to Table 8 page 38 56 RCH CONTACTS DELAY TIME 0 1 00FF 0001 0064 1 100 1 57 RCH C...

Page 37: ...SPEED REACH MINIMUM FREQUENCY 0 1 FFFF 0 Fmax 0 01 65 COMMERCIAL POWER INV SWITCHING OUTPUT 0 1 00C0 0000 OFF 0 0040 Auto switch on trip 1 0080 At COMMERCIAL POWER INV SWITCH FREQ 2 00C0 Both 1 and 2 3 66 2 3 COMMERCIAL POWER INV SWITCH FREQ 0 1 FFFF 0 Fmax 0 01 67 FP OUTPUT TERMINAL PULSE FREQUENCY 0 1 0003 0000 48f 0 0001 96f 1 0002 360f 2 68 RR INPUT SPECIAL FUNCTION SELECT 0 1 00E0 0000 Standa...

Page 38: ...ck control ON OFF 41 20C7 RUN 14 10CE Pattern run selection 1 42 30C9 Binary data write 15 20CE Pattern run selection 2 43 0198 LOCAL REMOTE key 16 40CE Pattern run selection 3 44 0298 MON key 17 80CE Pattern run selection 4 45 0498 PRG key 18 02CE Pattern run continue signal 46 0898 UP key 19 01CE Pattern run step trigger signal 47 1098 DOWN key 20 0AC9 JOG forward run 48 2098 READ WRITE key 21 0...

Page 39: ...ult other than earth fault or load end overcurrent 45 1700 Non severe fault overload overcurrent overvoltage 14 95B5 Overcurrent pre alarm 46 E5D8 Commercial power inverter switching output 1 15 9DB5 Overcurrent pre alarm 47 EDD8 Commercial power inverter switching output 1 16 85C5 Inverter overload pre alarm 48 F5D8 Commercial power inverter switching output 2 17 8DC5 Inverter overload pre alarm ...

Page 40: ... FREQUENCY HYSTERESIS 0 1 FFFF 0000 0BB8 0 00 30 00 0 01 73 ENABLE JUMP FREQUENCIES 0 1 0080 0000 Function OFF 0 0080 Function ON 1 74 1 JUMP FREQUENCY 1 0 1 FFFF 0000 Fmax 0 01 75 JUMP FREQUENCY 1 BANDWIDTH 0 1 FFFF 0000 0BB8 0 00 30 00 0 01 76 JUMP FREQUENCY 2 0 1 FFFF 0000 Fmax 0 01 77 JUMP FREQUENCY 2 BANDWIDTH 0 1 FFFF 0000 0BB8 0 00 30 00 0 01 78 JUMP FREQUENCY 3 0 1 FFFF 0000 Fmax 0 01 79 J...

Page 41: ...UENCY 0 1 FFFF 0000 Fmax 0 01 89 IV TERMINAL STANDARD OR ADJUSTABLE 0 1 0004 0000 Standard 0 0004 Adjustable 1 8A 1 IV REFERENCE SETTING POINT 1 0 1 00FF 0000 0064 0 100 1 8B IV REF POINT 1 FREQUENCY 0 1 FFFF 0000 Fmax 0 01 8C IV REFERENCE SETTING POINT 2 0 1 00FF 0000 0064 0 100 1 8D IV REF POINT 2 FREQUENCY 0 1 FFFF 0000 Fmax 0 01 8E RX TERMINAL STANDARD OR ADJUSTABLE 0 1 0008 0000 Standard 0 00...

Page 42: ... 102 PRESET SPEED 1 OPERATING MODE 1 040C 0004 0 0000 1 000C 2 0008 3 0404 4 0400 5 040C 6 0408 7 1 103 2 or higher PRESET SPEED 2 FREQUENCY 1 FFFF LL UL 0 01 104 PRESET SPEED 2 OPERATING MODE 1 040C Same as PRESET SPEED 1 OPERATING MODE 1 105 3 or higher PRESET SPEED 3 FREQUENCY 1 FFFF LL UL 0 01 106 PRESET SPEED 3 OPERATING MODE 1 040C Same as PRESET SPEED 1 OPERATING MODE 1 107 4 or higher PRES...

Page 43: ...or higher PRESET SPEED 11 FREQUENCY 1 FFFF LL UL 0 01 116 PRESET SPEED 11 OPERATING MODE 1 040C Same as PRESET SPEED 1 OPERATING MODE 1 117 12 or higher PRESET SPEED 12 FREQUENCY 1 FFFF LL UL 0 01 118 PRESET SPEED 12 OPERATING MODE 1 040C Same as PRESET SPEED 1 OPERATING MODE 1 119 13 or higher PRESET SPEED 13 FREQUENCY 1 FFFF LL UL 0 01 11A PRESET SPEED 13 OPERATING MODE 1 040C Same as PRESET SPE...

Page 44: ...ON 1 128 EMERGENCY OFF MODE SELECTION 0 1 0030 0000 Coast stop 0 0010 Decelerated stop 1 0020 DC injection stop 2 129 2 EMERGENCY OFF DC INJECTION TIME 0 1 00FF 0000 0064 0 0 10 0 0 1 12A NUMBER OF RETRY ATTEMPTS 0 1 00FF 0000 000A 0 10 1 12B Other than 0 TIME BETWEEN RETRY ATTEMPTS 0 1 00FF 0000 0064 0 0 10 0 0 1 12C REGENERATION POWER RIDE THROUGH 0 1 0008 0000 OFF 0 0008 ON 1 12D 1 REGENERATION...

Page 45: ... 0 255 1 140 OUTPUT SHORT CIRCUIT DETECTION SELECT 0 1 0003 0000 Standard motor 0 0001 High speed motor 1 0002 Positioning use standard motor 2 0003 Positioning use high speed motor 3 141 OVERTORQUE TRIP SELECTION 0 1 0040 0000 Trip disabled 0 0040 Trip enabled 1 142 OVERTORQUE TRIP LEVEL 0 1 00FF 0000 00C8 0 200 1 143 FAULT TRIP EEPROM SAVE ENABLE 0 1 0002 0000 Data cleared when powered OFF 0 000...

Page 46: ...PEED 5 154 PATTERN GROUP 1 SPEED 6 155 PATTERN GROUP 1 SPEED 7 156 PATTERN GROUP 1 NUMBER OF CYCLES 0 1 00FF 0001 00FF 1 255 1 157 PATTERN GROUP 2 SPEED 0 1 00FF 0000 Skip 0 1 158 PATTERN GROUP 2 SPEED 1 0001 000F Speeds 1 15 159 PATTERN GROUP 2 SPEED 2 15A PATTERN GROUP 2 SPEED 3 15B PATTERN GROUP 2 SPEED 4 15C PATTERN GROUP 2 SPEED 5 15D PATTERN GROUP 2 SPEED 6 15E PATTERN GROUP 2 SPEED 7 15F PA...

Page 47: ...l next step command 5 173 4 SPEED 1 DRIVE TIME 1 FFFF 0000 1F40 0 8000 1 174 SPEED 2 CONTINUE MODE 1 00FF Same as SPEED 1 CONTINUE MODE 175 4 SPEED 2 DRIVE TIME 1 FFFF 0000 1F40 0 8000 1 176 SPEED 3 CONTINUE MODE 1 00FF Same as SPEED 1 CONTINUE MODE 177 4 SPEED 3 DRIVE TIME 1 FFFF 0000 1F40 0 8000 1 178 SPEED 4 CONTINUE MODE 1 00FF Same as SPEED 1 CONTINUE MODE 179 4 SPEED 4 DRIVE TIME 1 FFFF 0000...

Page 48: ... SPEED 1 CONTINUE MODE 187 4 SPEED 11 DRIVE TIME 1 FFFF 0000 1F40 0 8000 1 188 SPEED 12 CONTINUE MODE 1 00FF Same as SPEED 1 CONTINUE MODE 189 4 SPEED 12 DRIVE TIME 1 FFFF 0000 1F40 0 8000 1 18A SPEED 13 CONTINUE MODE 1 00FF Same as SPEED 1 CONTINUE MODE 18B 4 SPEED 13 DRIVE TIME 1 FFFF 0000 1F40 0 8000 1 18C SPEED 14 CONTINUE MODE 1 00FF Same as SPEED 1 CONTINUE MODE 18D 4 SPEED 14 DRIVE TIME 1 F...

Page 49: ...G TIME CONSTANT 0 1 00FF 0000 00FF 0 255 1 196 PID LOWER LIMIT FREQUENCY 0 1 FFFF 0 Fmax 0 01 197 PID DEVIATION LIMIT SELECTION 0 1 0080 0000 No PID deviation limit 0 0080 PID deviation limited 1 198 1 PID DEVIATION UPPER LIMIT 0 1 00FF 0000 0032 0 50 1 199 PID DEVIATION LOWER LIMIT 0 1 00FF 0000 0032 0 50 1 19A PG INPUT NUMBER OF PULSES 0 1 FFFF 0001 270F 1 9999 1 19B PG INPUT NUMBER OF PHASES 0 ...

Page 50: ... 0004 0000 Normal mode 0 0004 High speed mode 1 208 2 TOSLINE F10 COMMAND INPUT 1 0003 0000 OFF 0 0001 Frequency command 1 0002 Command input 2 0003 Both 1 and 2 3 209 TOSLINE F10 MONITOR OUTPUT 1 003C 0000 0 0020 8 0004 1 0024 9 0008 2 0028 10 000C 3 002C 11 0010 4 0030 12 0014 5 0034 13 0018 6 0038 14 001C 7 003C 15 20A TOSLINE F10 COMM ERROR MODE 1 0080 0000 Data cleared 0 0080 Data retained 1 ...

Page 51: ...TERMINAL ADJUSTMENT PARAMS GROUP AM FM TERMINAL ADJUSTMENT PARAMS GROUP AM FM TERMINAL ADJUSTMENT PARAMS Register Function Title Bank Mask Adjustment Range Multiplier 218 FM TERMINAL FUNCTION SELECTION 0 1 FFFF 1194 Pre comp ref frequency 0 6686 Post comp output freq 1 1500 Frequency setting 2 2576 Output current 3 2689 DC voltage 4 5668 Output voltage 5 3684 Torque current 6 2688 Excitation curre...

Page 52: ...Initialize typeform 7 21F COMMAND MODE SELECTION 0 1 0007 0000 Only RS232C valid 0 0001 Terminal input valid 1 0002 Panel input valid 2 0003 Communication interface input valid 3 0004 local remote valid 4 220 FREQUENCY MODE SELECTION 0 1 0038 0000 Only RS232C valid 0 0008 Terminal input valid 1 0010 Panel input valid 2 0018 Communication 12 bit binary interface input valid 3 0020 local remote vali...

Page 53: ... Unblind 1 236 PROTECTION FUNCTION PARAMS BLIND 0 1 0008 0000 Blind 0 0008 Unblind 1 237 PATTERN RUN CONTROL PARAMS BLIND 0 1 0010 0000 Blind 0 0010 Unblind 1 238 FEEDBACK CONTROL PARAMS BLIND 0 1 0020 0000 Blind 0 0020 Unblind 1 239 COMMUNICATION PARAMS BLIND 0 1 0040 0000 Blind 0 0040 Unblind 1 23A INDUSTRIAL APPL PUMP PARAMS BLIND 0 1 0080 0000 Blind 0 0080 Unblind 1 23B INDUSTRIAL APPL FAN PAR...

Page 54: ...OR RATED CAPACITY 0 1 FFFF 0001 270F 0 1 999 9 0 1 244 MOTOR TYPE 0 1 0030 0000 Toshiba EQPIII motor 0 0010 Toshiba STD motor 1 0020 Other 2 245 2 MOTOR RATED VOLTAGE 230 460v units 0 1 00FF 0012 0078 90 600 5 246 575v units 001A 00AC 130 860 247 MOTOR RATED FREQUENCY 0 1 00FF 0000 00C8 0 400 2 248 MOTOR RATED RPM 0 1 FFFF 0000 270F 0 9999 1 249 AUTO TUNING ENABLE 0 0008 0000 Auto tuning disabled ...

Page 55: ... 6400 6C G3 2160 28 G3 4220 49 G3 6500 6D G3 2220 29 G3 4270 4A G3 6600 6E G3 2270 2A G3 4330 4B G3 6750 6F G3 2330 2B G3 4400 4C G3 610K 70 G3 2400 2C G3 4500 4D G3 612K 71 G3 4600 4E G3 615K 72 G3 4750 4F G3 620K 73 G3 410K 50 G3 412K 51 G3 415K 52 G3 420K 53 G3 425K 54 G3 430K 55 Note Due to the continual capacity expansion of the Toshiba adjustable speed drive family newly released drive model...

Page 56: ...circuit LOST INPUT PHASE PRESS CLEAR 08 Lost input phase option LOST OUTPUT PHASE PRESS CLEAR 09 Lost output phase option OVERVOLTAGE ACCEL PRESS CLEAR 0A Overvoltage during acceleration OVERVOLTAGE DECEL PRESS CLEAR 0B Overvoltage during deceleration OVERVOLTAGE RUN PRESS CLEAR 0C Overvoltage during constant speed run INVERTER OVERLOAD PRESS CLEAR 0D Inverter overload MOTOR OVERLOAD PRESS CLEAR 0...

Page 57: ...ULT SOFT PRESS CLEAR 21 Earth fault software EARTH FAULT HARD PRESS CLEAR 22 Earth fault hardware OPEN FUSE TRIP PRESS CLEAR 23 Open fuse DBR OVERCURRENT TRIP PRESS CLEAR 24 Dynamic braking resistor overcurrent DC OVERCURRENT ACC PRESS CLEAR 25 Overcurrent in DC section during acceleration DC OVERCURRENT DEC PRESS CLEAR 26 Overcurrent in DC section during deceleration DC OVERCURRENT RUN PRESS CLEA...

Page 58: ...ame ICC087B GSD Rev 1 11 30 98 DH Initial file entry Profibus_DP Unit Definition List GSD_Revision 1 Vendor_Name TOSHIBA Model_Name G3 VFA5 Inverter Interface Revision Rev 1 Ident_Number 0x087B Protocol_Ident 0 Station_Type 0 FMS_supp 0 Hardware_Release Rev A Software_Release Ver 1 0 9 6_supp 1 19 2_supp 1 93 75_supp 1 187 5_supp 1 500_supp 1 1 5M_supp 1 3M_supp 1 6M_supp 1 12M_supp 1 MaxTsdr_9 6 ...

Page 59: ... 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 0x61 0xE1 EndModule ...

Page 60: ...59 13 13 13 13 Notes Notes Notes Notes ...

Page 61: ...60 ...

Page 62: ...TOSHIBA INTERNATIONAL CORPORATION INDUSTRIAL DIVISION 13131 West Little York Rd Houston TX 77041 Tel 800 231 1412 Fax 713 466 8773 Telex 762078 World Wide Web http www tic toshiba com Printed in U S A ...

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