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Supplement to RS-485 User`s Manual

1. Code Name Format Support number Mini Eco Multi Ace MEGA Customizable Logic Task process cycle setting N N N Y N Customizable Logic Conversion point 1 X1 12 N N N Y N Y1 12 N N N Y N X2 12 N N N Y N Y2 12 N N N Y N X3 12 N N N Y N Y3 12 N N N Y N Automatic Calculation of Conversion Coefficients 1 N N N Y N Customizable Logic User Parameter 1 12 N N N Y N 2 12 N N N Y N 3 12 N N N Y N 4 12 N N N Y N 5 12 N N N Y N 6 12 N N N Y N 7 12 N N N Y N 8 12 N N N Y N 9 12 N N N Y N 10 12 N N N Y N 11 12 N N N Y N 12 12 N N N Y N 13 12 N N N Y N 14 12 N N N Y N 15 12 N N N Y N 16 12 N N N Y N 17 12 N N N Y N 18 12 N N N Y N 19 12 N N N Y N 20 12 N N N Y N Customizable Logic Strage Area 1 12 N N N Y N 2 12 N N N Y N 3 12 N N N Y N 4 12 N N N Y N 5 12 N N N Y N Customizable Logic Step No Selection 1 N N N Y N Customizable Logic Step n Logic circuit 1 N N N Y N Input 1 1 N N N Y N Input 2 1 N N N Y N Type of timer 12 N N N Y N Timer 12 N N N Y N Customizable logic ROM version Upper digit Monitor 1 N N N Y N For User setting 1 N N N Y N Customizable Logic ROM version Lower digit Monitor 1 N N N Y N For User setting 1 N N N Y N Phone 800 894 0412 Fax 888 723 4773 Web
2. Code Name Format Support number Mini Eco Multi Ace MEGA Speed Control 1 Speed command filter 7 NININ Y Y Speed detection filter 7 N N N Y Y d03 P Gain 3 N N N Y Y Integral time 7 N N IN Y Y Feed Forward Gain 5 N TN NY doe Output filter 7 NIN NIN Y Notch filter resonance frequency 1 N N N Y Y doa Notch filter attenuation level 1 N N N Y Y dO9 Speed Control Jogging Speed command filter 7 N N N Y Y Speed detection filter 7 N N N Y Y P Gain 3 N N N IY Y I Integral time 7 N N NYI Y Output filter 7 NIN NIN Y d14 Feedback Input Pulse input format 1 N N N Y Y Encoder pulse resolution 1 N N N Y Y Pulse count factor 1 1 N N N Y Y di7 Pulse count factor 2 1 N N N Y Y d21 Speed Agreement PG Error Hysteresis width 3 N N N Y Y Detection timer 5 N N N Y Y PG Error Processing 1 N N N Y Y Zero Speed Control 1 N N N Y Y ASR Switching Time 7 N N N Y Y Servo Lock Time Gain reshuffling time 7 N N N N Y d28 Gain 2 5 N N N N Y d32 Torque Control Speed limit 1 1 N N N Y Y d33 Speed limit 2 1 N N N Y Y d35 Over speed Detection Level 1 N N N Y Y d41 Application defined Control 1 N N N Y Y d51 Reserved 1 N N N Y Y d52 1 N N N Y Y 1 NININ NY d54 1 N N N N Y d55 1 N N N Y Y d59 Command Pulse Rate Input Pulse input format 1 N N N Y Y deo Encode
3. Format Support number Eco Multi Ace Speed Control 2 Speed command filter 7 NINN YY A44 Speed detection filter 7 N N N Y Y A45 Cumulative Motor Run Time 2 1 N N Y N N Speed Control 2 P Gain 3 N N N Y Y A46 Startup Times of Motor 2 1 N N Y N N Speed Control 2 I Integral time 7 N N N Y Y A47 Speed Control 2 Feed forward gain 5 N N N Y Y A48 Output filter 7 N N N N Y Notch filter resonance frequency 1 N N N Y Y A50 Notch filter attenuation level 1 N N N Y Y A51 Cumulative Motor Run Time 2 74 Y N N Y Y A52 Startup Counter for Motor 2 1 Y N N Y Y A53 Motor 2 X correction factor 1 1 N N N Y Y X correction factor 2 1 N N N N Y A55 Torque current under vector control 24 FGl N N N Y Y 19 RTU N N N Y Y P4A BUS N N Y Y A56 Induced voltage factor under vector control 1 N N N Y Y A57 Reserved 7 N N N N Y A98 Motor 2 Select function 1 N N N Y N 1 BUS The field bus option format is selected For details about the field bus option see the instruction manual for each field bus option Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 14 Table 5 23 List of data format numbers b codes Maximum Frequency 3 Format number 3 Support Eco Multi zZ Ace Base Frequency 3 3 zz Rated Voltage at Base Freque
4. Format Support SANE number Mini Eco Multi Ace MEGA Data Protection 1 Y Y Y Y Y Frequency Command 1 1 Y Y Y Y Y Operation Method 1 Y Y Y Y Y Maximum Frequency 1 3 Y Y Y Y Y Base Frequency 1 3 Y Y Y Y Y Rated Voltage at Base Frequency 1 1 Y Y Y Y Y Maximum Output Voltage 1 1 Y N Y Y Y Acceleration Time 1 12 Y Y Y Y Y Deceleration Time 1 12 Y Y Y Y Y Torque Boost 1 3 Y Y Y Y Y Electronic Thermal Overload Protection for Motor 1 Y Y Y Y Y Select motor characteristics F11 Overload detection level 24 FGI Y Y Y Y Y 19 RTU Y Y Y Y Y 24 BUS N Y Y Y Y F12 Thermal time constant 3 Y Y Y Y Y F14 Restart Mode after Momentary Power Failure 1 Y Y Y Y Y Mode selection F15 Frequency Limiter High 3 Y Y Y Y Y F16 Low 3 Y Y Y Y Y F18 Bias Frequency command 1 6 Y Y Y Y Y F20 DC Braking 1 Braking starting frequency 3 Y Y Y Y Y Braking level 1 WEN Y F22 Braking time 5 Y Y Y Y Y F23 Starting Frequency 1 3 Y Y Y YTY F24 Holding time 5 Y N Y Y Y F25 Stop Frequency 3 SSES AUR NE ES F26 Motor Sound Carrier frequency 1 Y Y Y Y Y F27 Tone 1 Y Y Y Y Y 1 BUS The field bus option format is selected For details about the field bus option see the instruction manual for each field bus option 2 The frequency of 0 75kHz will be treated as 0 Phone 800 894 0412 Fax 888 723 4773
5. WAA Z 22 22 22 22 27 ZZZS ZI z zz ZZZZZZZZZ ZZZS ZI z zz lt lt lt xx xxx Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 29 Table 5 30 List of data format numbers K codes Format Support Ge UE number Mini Eco Multi Ace MEGA LCD Monitor TP A1 Language selection 1 N N N Y N K02 Backlight OFF Time 1 N N N Y N K03 Backlight brightness control 1 N N N Y N K04 Contrast control 1 N N N Y N K08 LCD Monitor Status Display Hide Selection 1 N N N Y N K15 Sub Monitor 1 N N N Y N K16 Sub Monitor 1 1 N N N Y N K17 Sub Monitor 2 1 N N N Y N K20 Bar Graph 1 1 N N N Y N K21 Bar Graph 2 1 N N N Y N K22 Bar Graph 3 1 N N N Y N K91 Drive Mode lt Shortcut Function 1 N N N Y N K92 Drive Mode Shortcut Function 1 N N N Y N Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 30 Table 5 31 List of data format numbers S codes Format Support SE ubi number Mini Eco Multi Ace MEGA S01 Frequency Reference p u 29 Y Y Y Y Y S02 Torque Command 6 N N N Y Y S03 Torque Current Command 6 N N N Y Y S05 Frequency Reference 22 Y Y Y Y Y S06 Operation Command 14 Y Y Y Y Y S07 Universa
6. Example When the capacity is 3HP 3 x 100 300 012Cy gt 014 2Cu Consequently Data format 29 Example Speed frequency Data of 20 000 maximum speed frequency Positive Negative data of values converted into standard p u with 20 000 Data format 35 Range 0 to 9999 ROM version Data format 37 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Exponent Floating point data load rotation speed etc Mantissa Exponent 0 3 Mantissa 1 to 9999 The value expressed by this format the mantissa x 10 9P0nent2 Numeric value Mantissa Exponent OP Tu 0 01 to 99 99 1 to 9999 0 0 01 100 0 to 999 9 1000 to 9999 1 0 1 1000 to 9999 1000 to 9999 2 1 10000 to 99990 1000 to 9999 3 10 5 49 Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net Data format 40 Alarm factor 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Alarm caused by Order of alarm Alarm code See Table 5 36 multiple factors 1 to 5 occurrences 1 to 5 Data format 41 Alarm history 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Number of serial occurrences of same alarm Alarm code See Table 5 36 Indicates the content of an alarm that has occurred and the number of serial occurrence times of the alarm Data format 43 Operation command for UO check 15 14 13
7. 1 BUS The field bus option format is selected For details about the field bus option see the instruction manual for each field bus option 3 As for FRN00G10 0A E and U the terminal name changes from FMA to FM1and FMP to FM2 respectively Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 34 Table 5 33 List of data format numbers W codes Continued WA8 Terminal FMP Output Frequency 1 N Y Y Y Y W49 Terminal V2 Input Voltage 4 N Y Y Y Y W50 Terminal FMA Output Current 3 N Y N Y Y W51 Situation of Input Terminals on DIO Option 1 N N Y N N 77 N N N Y Y W52 Situation of Output Terminals on DIO Option 1 N N Y N N 78 N N N Y Y Pulse Input Master side A B phase 6 N N Y Y Y Master side Z phase 1 N N Y Y Y Slave side A B phase 6 N N Y Y Y Slave side Z phase 1 N N Y Y Y Current Position Pulse Upper column 73 N N Y Y Y Lower column 1 N N Y Y Y Stop Position Pulse Upper column 73 N N Y Y Y Lower column 1 N N Y Y Y Difference Pulse of Position Upper column 73 N N Y Y Y Lower column 1 N N Y Y Y Positioning Status 1 N N Y Y Y Difference Pulse of Servo Lock Control 2 N N N N Y Terminal FMI Output Current 3 N Y
8. lt lt lt lt lt X Z lt lt K lt lt K lt Z lt lt lt lt lt lt lt lt lt lt lt lt lt lt lt lt lt lt lt lt lt lt lt lt Reserved 7 zZ Z Z Z Z Z Z Z Z Z Z Z Z Z Z Z Z Z Z Z Z Z 27 Z lt lt lt lt lt Z lt X X lt Z lt lt Z Z lt lt lt lt Z lt lt Z 22 Z lt lt lt lt lt Z Z lt lt lt lt lt lt lt lt lt lt lt lt Z lt lt lt 1 BUS The field bus option format is selected For details about the field bus option see the instruction manual for each field bus option Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 8 Table 5 20 List of data format numbers P codes Continued PMSM Armature resistance Y N N Y N PMSM d axis inductance 24 Y N N Y N PMSM q axis inductance 24 Y N N Y N PMSM Induced voltage 1 Y N N Y N PMSM Iron loss 3 N N N Y N PMSM d axis inductance magnetic saturation correction 3 N N N Y N PMSM Reference current at starting 1 Y N N Y N PMSM Reserved 3 N N N Y N PMSM Reserved 3 N N N Y N PMSM Flux limitation value 3 N N N Y N PMSM Reserved 3 N N N Y N PMSM Reference current for polarity discrimination 1 N N N Y N PMSM Reserved
9. 1 N N N Y N PMSM Reserved 1 Y N N Y N PMSM Overcurrent protection level 24 Y N N Y N V f Dumping Control Compensation gain of d axis 5 Y N N N N V f Dumping Control Compensation gain of q axis 5 Y N N N N Control Change Level 1 Y N N N N Motor 1 Selection 1 Y Y Y Y Y Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 9 Table 5 21 List of data format numbers H codes Name Format Support number Mini Eco Multi Ace MEGA Data Initialization Method 1 N N N Y Data Initialization 1 Y Y Y Y Y Auto reset Times 1 Y Y Y Y Y Reset interval 3 Y Y Y Y Y Cooling Fan ON OFF Control 1 Y Y t4 Y Y Acceleration Deceleration Pattern 1 Y Y Y Y Y Rotational Direction Limitation 1 Y N Y Y Y Starting Mode Auto search 1 N Y Y Y Y Deceleration Mode 1 Y Y Y Y Y Instantaneous Overcurrent Limiting Mode selection 1 Y Y Y Y Y Restart Mode after Momentary Power Failure 3 Y Y Y Y Y Restart time Frequency fall rate 5 Ylyl Yy Y Y Continuous running level 1 Y Y N Y Y Allowable momentary power failure time 3 N Y Y Y Y Start Mode Pick up frequency 3 N YN N N Torque Control Mode selection 1 N N N Y Y Thermistor for motor Mode selection 1 Y Y Y Y Y Level 5
10. 1 MEGA only 25 N N N N Y Rated current 24 FGl Y N Y Y Y I19 RTU Y N Y Y Y PA BUS N N Y Y Y Auto tuning 21 Y N Y Y Y Online Tuning 1 N N Y Y Y No load current 24 FGI Y N Y Y Y 19 RTU Y N Y Y Y PA BUS N N Y Y Y A21 R1 5 Y N Y Y Y X 5 Y IN TY YY Slip compensation gain for driving 3 Y N Y Y Y Slip compensation response time 5 Y N Y Y Y Slip compensation gain for braking 3 Y N Y vy y A26 Rated slip frequency 5 X N Y Y Y Iron loss factor 1 5 N TN NYI Y A28 Iron loss factor 2 5 N N N N Y Iron loss factor 3 5 N N N N Y Magnetic saturation factor 1 3 N N N Y Y A31 Magnetic saturation factor 2 3 N N N Y Y Magnetic saturation factor 3 3 N N N Y Y A33 Magnetic saturation factor 4 3 N N N Y Y Magnetic saturation factor 5 3 N N N Y Y A35 Magnetic saturation extension factor a 3 N N N N Y A36 Magnetic saturation extension factor b 3 N N N N Y Magnetic saturation extension factor c 3 N N N N Y Y N Y Y Y N N Y Y Y Y N Y Y Y N N Motor Parameter Switching 2 Mode selection 1 zZ Z lt 1 BUS The field bus option format is selected For details about the field bus option see the instruction manual for each field bus option 5 13 Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net Table 5 22 List of data format numbers A codes Continued
11. lt lt lt lt lt lt x x lt lt lt lt x lt x lt lt lt lt lt x lt 2 Z Z lt Z 2 lt lt lt lt lt lt lt lt lt lt lt lt lt lt lt lt Input terminal 43 Input terminal com 14 Output terminal com 15 Running status 2 76 Speed detection 29 X78 Running status 3 44 X89 Customizable Logic Digital input output 95 X90 Timer monitor 5 Analog input 1 12 X92 Analog input 2 12 X93 Analog output 12 X94 Relay Out Put Data 91 X97 Terminal PTC Input Voltage 4 1 BUS The field bus option format is selected For details about the field bus option see the instruction manual for each field bus option Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 38 Table 5 35 List of data format numbers Z codes Format Support number Eco Multi Ace Z00 Info on Alarm 2nd last Output frequency 22 Y Y Y Z01 Output current 24 FGI Y 19 RTU 24 BUS Output voltage 1 Torque 2 Set frequency 22 Running status Cumulative ope time Number of startups DC link circuit voltage Internal air temperature Heat sink temperature 16 1 1 1 1 1 Input terminal 43 Output terminal 15 Input term
12. N N N N Y Magnetic saturation factor 3 3 N N N N Y r33 Magnetic saturation factor 4 3 N N N N Y Magnetic saturation factor 5 3 N N N N Y N N N N Y N N N N Y N N N N Y N N N N Y N N N N Y N N N N Y N N Y Motor Parameter Switching 4 Mode selection 1 Zz Z 1 BUS The field bus option format is selected For details about the field bus option see the instruction manual for each field bus option 5 17 Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net Table 5 24 List of data format numbers r codes Continued Support Eco Multi Ace Speed Control 4 Speed command filter 7 NI NIN YY Speed detection filter 7 N N N Y Y P Gain 3 N N NY Y Integral time 7 N N N YY Feed forward gain 5 NIN Output filter 7 NIN NY r49 Notch filter resonance frequency 1 N N N Y Y r50 Notch filter attenuation level 1 N N N Y Y r51 Cumulative Motor Run Time 4 74 N N N N Y r52 Startup Counter for Motor 4 1 N N N N Y r53 Motor 4 X correction factor 1 1 N N N N Y X correction factor 2 1 N N N N Y r55 Torque current under vector control 24 FGI N N N N Y 19 RTU N N N N Y 24 BUS N N N N Y r56 Induced voltage factor under vector control 1 N N N N Y r57 Reserved 7 N N N N Y 1 BUS The
13. SCH 1 the terminal name changes from FMA to FM1and FMP to FM2 respectively 4 Not applicable with FRNooG1c oA E and U m Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 35 Table 5 33 List of data format numbers W codes Continued Format Support number Eco Multi Ace W87 Inverters ROM Version 35 Y Y Y Y Y W88 Inverter s ROM Version CPU2 35 N N N Y N W89 Remote Keypad s ROM Version 35 Y Y Y Y Y W90 Option 1 ROM Version 35 N Y Y Y Y W91 Option 2 ROM Version 35 N N N N Y W92 Option 3 ROM Version 35 N N N N Y W94 Contents of RS 485 Ch2 Error 20 N Y Y Y Y W95 Number of Option Errors 1 1 N Y Y Y Y W96 Option Error Factor 1 1 N Y Y Y Y W97 Option Error Factor 2 1 N N N N Y W98 Number of Option Errors 3 1 N N N N Y W99 Option Error Factor 3 1 N N N N Y Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 36 Table 5 34 List of data format numbers X codes Format number Support Eco Multi Ace KOO Alarm History The No of The Serial Occurrences of an 41 Y Y Y Y Y Identical Alarm
14. U04 Type of timer 12 N N N Y N U05 Timer 12 N N N Y N U06 Customizable Logic Step 2 Logic circuit 1 N N N Y N U07 Input 1 1 N N N Y N U08 Input 2 1 N N N Y N U09 Type of timer 12 N N N Y N U10 Timer 12 N N N Y N U11 Customizable Logic Step 3 Logic circuit 1 N N N Y N U12 Input 1 1 N N N Y N U13 Input 2 1 N N N Y N U14 Type of timer 12 N N N Y N U15 Timer 12 N N N Y N U16 Customizable Logic Step 4 Logic circuit 1 N N N Y N U17 Input 1 1 N N N Y N U18 Input 2 1 N N N Y N U19 Type of timer 12 N N N Y N U20 Timer 12 N N N Y N U21 Customizable Logic Step 5 Logic circuit 1 N N N Y N U22 Input 1 1 N N N Y N U23 Input 2 1 N N N Y N U24 Type of timer 12 N N N Y N U25 Timer 12 N N N Y N U26 Customizable Logic Step 6 Logic circuit 1 N N N Y N U27 Input 1 1 N N N Y N U28 Input 2 1 N N N Y N U29 Type of timer 12 N N N Y N U30 Timer 12 N N N Y N U31 Customizable Logic Step 7 Logic circuit 1 N N N Y N U32 Input 1 1 N N N Y N U33 Input 2 1 N N N Y N U34 Type of timer 12 N N N Y N U35 Timer 12 N N N Y N U36 Customizable Logic Step 8 Logic circuit 1 N N N Y N U37 Input 1 1 N N N Y N U38 Input 2 1 N N N Y N U39 Type of timer 12 N N N Y N U40 Timer 12 N N N Y N U41 Customizable Logic Step 9 Logic circuit 1 N N N Y N U42 Input 1 1 N N N Y N U43 Input 2 1 N N N Y N U44 Type of timer
15. to the special additional data in the standard frame or for forward rotation enter a space ASCII Example When maximum frequency 60Hz and MO9 output frequency 60 00Hz forward rotation 60 00 x 100 6000 17704 Consequently gt 1 71710 Positive data is in the same data format as data format 5 Data format 24 Floating point data 15 14 18 12 11 10 9 Mantissa Exponent Exponent 0 3 Mantissa 1 to 9999 The value expressed by this format the mantissa x 10 9P0nent2 Numeric value Mantissa Exponent 1 o exponent 2 0 00 to 99 99 0 to 9999 0 0 01 100 0 to 999 9 1000 to 9999 1 0 1 1000 to 9999 1000 to 9999 2 1 10000 to 99990 1000 to 9999 3 10 Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 48 Data format 25 As shown in the table below the capacity HP is multiplied by 100 Table 5 42 Capacities and data for HP Capacity code for HP Code Capacity HP Code Capacity HP Code Capacity HP 7 007 300 30 40000 400 reserved 15 0 15 4000 40 45000 450 reserved 25 0 25 5000 50 50000 500 50 0 5 6000 60 60000 600 100 1 7500 75 60700 700 200 2 10000 100 60750 750 300 3 12500 125 60800 800 500 5 15000 150 60850 850 750 7 5 17500 175 60900 900 1000 10 20000 200 60950 950 1500 15 25000 250 61000 1000 2000 20 30000 300 61050 1050 2500 25 35000 350
16. 1 NIN Y DI Option DI function selection 1 N N N Y Y DO Option DO function selection 1 N N Y Y Y Response Error Operation mode selection 1 N Y Y Y Y Timer 3 N Y YY Y Bus Setting Parameter 01 1 N Y Y Y Y 031 02 1 N Y Y Y 03 1 N YYY Y 04 1 N Y Y Y Y 034 05 1 NIYIY Y Y 06 1 N Yy Yy yY 036 07 1 N Y Y Y Y 08 1 N OY 038 09 1 N Y Y Y Y 039 10 1 N Y Y Y Y o40 Write Code Assignment 1 1 N Y Y Y Y 041 2 1 NY yY Y 8 1 N Tas Y 043 4 1 NT Y 5 1 NEISES 6 1 Ny Yyy Y 7 1 N Y Y Y Y 047 8 1 N Y Y Y Y 048 Read Code Assignment 1 1 N Y Y Y Y 2 1 N Y Y Y Y 050 3 1 N Y vY vYlvY 4 1 N Y Y Y Y 5 1 N YYY Y 053 6 1 NY Y Y 7 1 N Y Y Y Y 055 8 1 N Y Y Y Y 9 1 NIvY viviY 057 10 1 N Y Y Y Y 11 1 N Y Y Y Y 059 12 1 N Y Y Y Y 060 Terminal 32 Extended Function 1 N N N Y Y Offset 4 NIN NY Y 062 Gain 5 NIN N Y Y Filter time constant 5 N NIN Y Y 064 Gain base point 5 N N N Y Y Polarity 1 NININ Y Y 66 Bias value 6 NIN NYA Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 28 Table 5 29 List of data format numbers o codes Continued Support Eco Multi Ace Terminal 32 Extended Function Bias base point 5 N N N Y ul Display unit 1 N N N Y 1
17. 12 N N N Y N U45 Timer 12 N N N Y N U46 Customizable Logic Step 10 Logic circuit 1 N N N Y N U47 Input 1 1 N N N Y N U48 Input 2 1 N N N Y N U49 Type of timer 12 N N N Y N U50 Timer 12 N N N Y N Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 24 Table 5 27 List of data format numbers U codes Continued Code Name Format Support number Mini Eco Multi Ace MEGA U51 Customizable Logic Step 11 Logic circuit 1 N N N Y N U52 Input 1 1 N N N Y N U53 Input 2 1 N N N Y N U54 Type of timer 12 N N N Y N U55 Timer 12 N N N Y N U56 Customizable Logic Step 12 Logic circuit 1 N N N Y N U57 Input 1 1 N N N Y N U58 Input 2 1 N N N Y N U59 Type of timer 12 N N N Y N U60 Timer 12 N N N Y N U61 Customizable Logic Step 13 Logic circuit 1 N N N Y N U62 Input 1 1 N N N Y N U63 Input 2 1 N N N Y N U64 Type of timer 12 N N N Y N U65 Timer 12 N N N Y N U66 Customizable Logic Step 14 Logic circuit 1 N N N Y N U67 Input 1 1 N N N Y N U68 Input 2 1 N N N Y N U69 Type of timer 12 N N N Y N U70 Timer 12 N N N Y N U71 Customizable Logic Output Signal 1 Output selection 1 N N N Y Y U72 2 Output selection 1 N N N Y Y
18. 12 11 10 9 8 7 6 5 4 3 2 1 0 0 0 O EN2 EN1 X9 X8 X7 X6 X5 X4 X3 X2 REV FWD Unused EN input General purpose input All bits are turned ON when set to 1 Data format 44 Operation status 2 15 14 13 12 11 AG 9 8 7 6 5 4 3 2 1 0 0 ID2 IDL ID OLP LIFE OH TRY FAN KP OL IPF SWM2 RDY FAR All bits are turned ON or become active when set to 1 Description Support i Description Support Multi Multi Freguency bd Retry in arrival signal operation Frequency Y Heat sink level detection overheat early warning Inverter ready Lifetime alarm to run 2nd motor is Overload selected prevention control Auto restarting Current after recovery detection of power Motor overload Low level early warning current detection Running per Current keypad detection 2 Cooling fan in operation Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 50 Data format 45 Floating point data 5 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Mantissa Exponent Exponent 0 3 Mantissa 0 to 9999 The value expressed by this format the mantissa x 10 9 ent Numeric value Mantissa Exponent OCR 0 000 to 9 999 0 to 9999 0 0 001 10 0 to 99 9 1000 to 9999 1 0 01 100 0 to 999 9 1000 to 9999 2 0 1 1000
19. Adjustment for C1 C1 function Gain 5 N N Y Y N C38 Analog Input Adjustment for C1 Filter time constant 5 Y Y N N Y Analog Input Adjustment for C1 C1 function 5 N N Y Y N Filter time constant C39 Analog Input Adjustment for C1 Gain base point 5 Y Y N N Y Analog Input Adjustment for C1 C1 function 5 N N Y Y N Gain base point C40 Analog Input Adjustment for C1 C1 function 1 Y N N Y Y Range selection C41 Analog Input Adjustment for V2 Offset 4 N Y N N Y Analog Input Adjustment for C1 V2 function Offset 4 N N Y Y N C42 Analog Input Adjustment for V2 Gain 5 N b N N Y Analog Input Adjustment for C1 V2 function Gain 5 N N Y T N C43 Analog Input Adjustment for V2 Filter time constant 5 N Y N N Y Analog Input Adjustment for C1 V2 function 5 N N Y Y N Filter time constant C44 Analog Input Adjustment for V2 Gain base point 5 N Y N N Y Analog Input Adjustment for C1 V2 function 5 N Y N Gain base point C45 Analog Input Adjustment for V2 Polarity 1 N N N Y Y C50 Bias Frequency command 1 Bias base point 5 Y h Y Y Y C51 Bias PID command 1 Bias value 6 Y Y Y N Y C52 Bias base point 5 Y Y Y N Y C53 Selection of Normal Inverse Operation 1 N Y Y Y Y Frequency command 1 C55 Analog Input Adjustment for 12 Bias 6 N N N Y N Bias base point 5 N N N Y N C58 Display unit 1 N N N Y N Maximum scale 12 NIN N YIN
20. C60 Minimum scale 12 N N N Y N C61 Analog Input Adjustment for C1 C1 function Bias 6 N N N Y N Bias base point 5 N N N Y N C64 Display unit 1 N N N Y N Maximum scale 12 NIN N YIN C66 Minimum scale 12 N N N Y N C67 Analog Input Adjustment for V2 V2 function Bias 6 N N N Y N C68 Bias base point 5 N N N Y N Display unit 1 NIN NI YN Maximum scale 12 NIN NI YIN C72 Minimum scale 12 N N N Y N Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 6 Table 5 19 List of data format numbers C codes Continued Format Support Mame number Mini Eco Multi Ace MEGA Rotatory Direction and Time of Speed Up and Slowing 1 N N N N Y Down Stage 1 Stage 2 1 N N N N Y Stage 3 1 N N N N Y Stage 4 1 N N N N Y Stage 5 1 N N N N Y Stage 6 1 N N N N Y Stage 7 1 N N N N Y Frequency Compensation 1 Numerator 2 N N N Y N Frequency Compensation 2 Denominator 2 N N N Y N Jump Frequency 4 3 Y N N N N Frequency 5 3 Y N N N N Frequency 6 3 Y N N N N Multi requency 1 22 Y N N N N Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 7 Table 5 20 List of data format numbers P codes Motor 1 No of poles Rated Capacity When P99 1 MEGA only Rated current P0
21. Latest X01 Multiple Alarm Latest 40 Y Y Y Y Y X02 Multiple Alarm2 Latest 40 Y Y Y Y Y X03 Sub Code Latest 1 Y Y Y Y Y X04 Multiple Alarm Sub Code Latest 1 N N N Y N X05 Alarm History The No of The Serial Occurrences of an 41 Y Y Y Y Y Identical Alarm Last Multiple Alarm1 Last 40 Y Y Y Y Y Multiple Alarm2 Last 40 Y Y Y Y Y Sub Code Last 1 Y Y Y Y Y Multiple Alarm Sub Code Last 1 N N N Y N Alarm History The No of The Serial Occurrences of an 41 Y Y Y Y Y Identical Alarm 2nd last Multiple Alarm1 2nd last 40 Y Y Y Y Y Multiple Alarm2 2nd last 40 Y Y Y Y Y Sub Code 2nd last 1 Y Y Y Y Y Multiple Alarm Sub Code 2nd last 1 N N N Y N Alarm History The No of The Serial Occurrences of an 41 Y Y Y Y Y Identical Alarm 3rd last Multiple Alarm1 3rd last 40 Y Y Y Y Y Multiple Alarm2 3rd last 40 Y Y Y Y Y Sub Code 3rd last 1 Y Y Y Y Y Multiple Alarm Sub Code 3rd last 1 N N N Y N Latest Info on Alarm Output frequency 22 Y Y Y Y Y Output current 24 FGI Y Y Y Y Y 19 RTU Y Y Y Y Y 24 BUS N Y Y Y Y X22 Output voltage 1 Y Y Y Y Y Torque 2 Y YYY Y X24 Set frequency 22 Y Y Y Y Y Running status 16 Y xq Y Cumulative ope time 1 Y Y Y Y Y X27 Number of startups 1 Y Y Y Y Y DC link circuit voltage 1 6 X29 Internal air temperature 1 N Y N Y Y Heat sink temperature 1 Y Y Y Y Y X31 Input terminal 4
22. Mode selection 1 Operation condition 1 Timer 5 Brake Signal Brake OFF current 1 5 Brake OFF frequency speed 3 Brake OFF timer 3 5 Brake ON frequency speed 3 Brake ON timer 3 5 Z ZZ Zl 22 Z Zl l 27 Z 27 27 Z l 2 7 7 l Zl 27 elel Z lt lt Z 2 lt lt lt lt Z Z lt lt lt lt lt lt z zi i z zzzzzzzzzzzz zzzzzz z zzzzzzzi z lt lt 2 lt lt Z lt lt lt lt x 2 2 2 2 lt zZ lt zzzZZZZ lt lt lt lt zzZ lt lt lt lt lt lt Z zaa za lt lt lt x lt x Z lt x zz x 2 lt zix zix x 2 lt lt x x 2 Z el x lt z lt lt 2 lt Z lt zziz Z Z lt x lt x Z 2 2 Z zix 22 lt lt lt lt 1 The value of 999 will be treated as 7FFF4 Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 19 Table 5 25 List of data format numbers J codes Continued Format Support number Eco Multi Ace Positioning Control Start timer 3 N NI YIN Start point upper digits 73 N N Y Y N Start point low
23. Time 2 2 Acceleration Deceleration Time 3 3 Acceleration Deceleration Time 4 Unused gt 0 foward 1 reverse Example C22 Stage1 Run time 10 0s Rotation direction Reverse Acc dec time Time2 Rotation direction Reverse bit15 1 Acc dec time Time2 bit13 0 bit12 1 Exponent 0 1 bit11 0 bit10 1 Run time data 100 64 90004 0400 0064 94644 Consequently gt 94 644 Data format 91 Relay output signals 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 o o Y12A Y11A Y10A Y9A Y8A Y7A Ysa o Y4A Y3A Y2A Y1A Data format 93 Floating point data 5 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Exponent Mantissa Exponent 0 3 Mantissa 0 to 9999 The value expressed by this format the mantissa x 10 9Ponent1 Numeric value Mantissa Exponent t 000 0 to 999 9 0 to 9999 0 0 1 1000 to 9999 1000 to 9999 1 1 10000 to 99990 1000 to 9999 2 10 100000 to 999900 1000 to 9999 3 100 Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 54 Data format 95 Custmizable logic status 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Step Reserve Output species Reserve Inputspecies2 Reserve Input species2 Digital Digital Digital enable output input 2 input 1 bm Digital input 1 0 OFF 21 ON biti Digital input 2 0 OFF 21 ON bit2 D
24. U73 3 Output selection 1 N N N Y Y U74 4 Output selection 1 N N N Y Y U75 5 Output selection 1 N N N Y Y 76 6 Output selection 1 N N N Y N U77 7 Output selection 1 N N N Y N U78 8 Output selection 1 N N N Y N U79 9 Output selection 1 N N N Y N U80 10 Output selection 1 N N N Y N U81 Customizable Logic Output Signal 1 Function selection 1 N N N Y Y U82 2 Function selection 1 N N N Y Y U83 3 Function selection 1 N N N Y Y U84 4 Function selection 1 N N N Y Y U85 5 Function selection 1 N N N Y Y U86 6 Function selection 1 N N N Y N U87 7 Function selection 1 N N N Y N U88 8 Function selection 1 N N N Y N U89 9 Function selection 1 N N N Y N U90 10 Function selection 1 N N N Y N U91 Customizable Logic Timer Monitor Step selection 1 N N N Y Y U92 Customizable Logic Calculation Coefficient 8 N N N Y N Mantissa of calculation coefficient KA1 U93 Exponent of calculation coefficient KA1 2 N N N Y N U94 Mantissa of calculation coefficient KB1 8 N N N Y N U95 Exponent of calculation coefficient KB1 2 N N N Y N U96 Mantissa of calculation coefficient KC1 8 N N N Y N U97 Exponent of calculation coefficient KC1 2 N N N Y N Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 25 Table 5 27 List of data format numbers U100 to U199 only FRENIC Ace
25. XR XF 0 EN X9 X8 X7 X6 X5 X4 X3 X2 REV FWD REV FWD 1 General purpose Unused EN General purpose input FWD Forward input terminal command Alarm reset REV Reverse command All bits are turned ON when set to 1 Example When S06 operation command FWD X1 ON 0000 0000 0000 0101 0005 Consequently gt 004 05 Data format 15 General purpose output terminal 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 0 Y3A Y2A Y1A 0 0 0 30 0 0 0 YB Y4 Y3 Y2 Y1 Unused Relay option output Unused T Unused General purpose output Eco only Alarm general purpose output All bits are turned ON when set to 1 Example When M15 general purpose output terminal Y1 ON 0000 0000 0000 0001 00014 Consequently gt 004 01 Data format 16 Operation status 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 BUSY O O RL ALM DEC ACC IL VL O NUV BRK INT EXT REV FWD All bits are turned ON or become active when set to 1 Phone 800 it Symbol Description Support Bit Symbol Description Support Mini Eco Multi Ace MEGA Mini Eco Multi FWD During forward Y Y Y Y Y 8 IL During current Y Y Y rotation limiting REV During reverse Y Y Y Y Y 9 ACC During Y Y Y rotation acceleration EXT Du
26. Y N 4 N N N Y N 4 N N N Y N d98 1 N N N N Y d99 1 NININ YY 5 22 Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net Table 5 27 List of data format numbers U codes only FRENIC MEGA Code Name Format Support number Mini Eco Multi Ace MEGA UOO Customizable Logic Mode selection 1 N N N Y Y UO1 Customizable Logic Step 1 Input 1 1 N N N N Y U02 Input 2 1 N N N N Y U03 Logic circuit 1 N N N N Y U04 Type of timer 1 N N N N Y U05 Timer 5 N N N N Y U06 Customizable Logic Step 2 Input 1 1 N N N N Y U07 Input 2 1 N N N N Y U08 Logic circuit 1 N N N N Y U09 Type of timer 1 N N N N Y U10 Timer 5 N N N N Y U11 Customizable Logic Step 3 Input 1 1 N N N N Y U12 Input 2 1 N N N N Y U13 Logic circuit 1 N N N N Y U14 Type of timer 1 N N N N Y U15 Timer 5 N N N N Y 16 Customizable Logic Step 4 Input 1 1 N N N N Y U17 Input 2 1 N N N N Y U18 Logic circuit 1 N N N N Y U19 Type of timer 1 N N N N Y U20 Timer 5 N N N N Y U21 Customizable Logic Step 5 Input 1 1 N N N N Y U22 Input 2 1 N N N N Y U23 Logic circuit 1 N N N N Y U24 Type of timer 1 N N N N Y U25 Timer 5 N N N N Y U26 Customizable Log
27. Y Y N Terminal V2 Extended Function 1 N Y N N Y Terminal C1 Extended Function V2 function 1 N N Y Y N Saving of Digital Reference Frequency 1 N Y N Y Y Reference Loss Detection Continuous running frequency 1 N Y Y Y Y Direct Current Intermediate Voltage Detection Level 1 N N N Y Y Torque Detection 1 Level 1 N N N Y Y Timer 5 N N N X Y Torque Detection 2 Low Torque Detection Level 1 N Y N Y Y Timer 5 N Y N Y Y Terminal FWD Function 1 Y Y Y Y Y E99 REV Function 1 Y Y Y Y Y 2 BUS The field bus option format is selected For details about the field bus option see the instruction manual for each field bus option 3 The value 999 will be treated as 7FFF Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 4 Table 5 19 List of data format numbers C codes N Format Support ame number Mini Eco Multi Ace MEGA Jump Frequency 1 3 Y Y Y Y Y Frequency 2 3 Y Y Y Y Y Frequency 3 3 Y Y Y Y Y Hysteresis width 3 Y Y Y Y Y Multi Frequency 1 5 N Y Y N N 22 Y N N Y Y 2 5 N Y Y N N 22 Y N N Y Y 3 5 N Y Y N N 22 Y N N Y Y 4 5 N Y Y N N 22 Y N N Y Y 5 5 N Y Y N N 22 Y N N Y Y 6 5 N Y Y N N 22 Y N N Y Y 7 5 N
28. Y Y Y Y Y Droop Control 4 N N Y Y Y Communications Link Function Mode selection 1 Y Y Y Y Y Capacitance of DC Link Bus Capacitor 1 Y Y Y Y Y Cumulative Run Time of Cooling Fan 1 N N N 74 Y Y5 v v Y Startup Counter for Motor 1 1 Y N Y Y Y Mock Alarm 1 Y N Y Y Y Starting Mode Auto search delay time 2 3 N N N Y Y Initial Capacitance of DC Link Bus Capacitor 1 Y Y Y Y Y Cumulative Run Time of Capacitors on Printed Circuit 1 N Y N N N Boards 74 YlY Y yY Y Starting Mode Auto search delay time 1 3 N Y Y Y Y Non linear V f Pattern 1 Frequency 3 Y Y Y Y Y Voltage 1 Y Y Y Y Y Non linear V f Pattern 2 Frequency 3 Y N Y Y Y Voltage 1 Y N Y Y Y ACC DEC Time Jogging 12 Y N Y N N Acceleration Time Jogging 12 N N N Y Y Deceleration Time Jogging 12 N N N Y Y Deceleration Time for Forced Stop 12 N Y Y Y Y 1st S curve Acceleration Range Leading edge 1 N N N Y Y 2nd S curve Acceleration Range Trailing edge 1 N N N Y Y 1st S curve Deceleration Range Leading edge 1 N N N Y Y 2nd S curve Deceleration Range Trailing edge 1 N N N Y Y UP DOWN Control Initial frequency setting 1 Y N Y Y Y Low Limiter Mode selection 1 Y Y Y Y Y Lower limiting frequency 3 Y Y Y Y Y Non linear V f Pattern 3 Frequency 3 N N N Y Y Voltage 1 N N N Y Y 1 The value of 999 will be treated as 7FFF 2 Applicable with the FRENIC Eco ROM version 1399 and older 9 Applicable with
29. field bus option format is selected For details about the field bus option see the instruction manual for each field bus option Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 18 Table 5 25 List of data format numbers J codes Format number PID Control lt Mode selection Remote command SV P gain Integral time D Differential time 5 Feedback filter 3 Pressurization starting frequency 3 lt lt 1 7 3 Pressurizing time 1 Anti reset windup 1 Select alarm output 1 Upper level alarm AH 2 Lower level alarm AL 2 Stop frequency for slow flowrate 1 3 Slow flowrate level stop latency 1 Starting frequency 1 3 Upper limit of PID process output 1 2 Lower limit of PID process output 1 EI Dew Condensation Prevention Duty 1 Commercial Power Switching Sequence 1 PID Control Starting feedback deviation level 3 Starting latency from the flow rate stop 1 Speed command filter 5 Dancer reference position 2 Detection width of dancer position deviation 1 P Gain 2 7 Integral time 2 3 D Derivative time 2 5 PID control block selection Overload Stop Detection value 1 Detection level 1 1
30. www ctiautomation net Email info ctiautomation net 5 26 Table 5 28 List of data format numbers y codes Code Name Format Support number Mini Eco Multi Ace MEGA y01 RS 485 Communications 1 Station address 1 Y Y Y Y Y y02 Communications error processing 1 Y Y Y Y Y y03 Timer 3 Y Y Y Y Y y04 Baud rate 1 Y Y Y Y Y y05 Data length 1 Y Y Y Y Y y06 Parity check 1 Y Y Y Y Y y07 Stop bits 1 Y Y Y Y Y y08 No response error detection time 1 Y Y Y Y Y 09 Response interval 5 Y Y Y Y Y y10 Protocol selection 1 Y Y Y Y Y y11 RS 485 Communications 2 Station address 1 N Y Y Y Y y12 Communications error processing 1 N Y Y Y Y y13 Timer 3 N Y Y Y Y y14 Baud rate 1 N Y Y Y Y y15 Data length 1 N Y Y Y Y y16 Parity check 1 N Y Y Y Y y17 Stop bits 1 N Y Y Y Y y18 No response error detection time 1 N Y Y Y Y y19 Response interval 5 N Y Y Y Y y20 Protocol selection 1 N Y Y Y Y y21 Bulit in CAN Communication Station address 1 N N N Y N y24 Response Error Timer 1 N N N Y N y25 Bulit in CAN Communication 1 N N N Y N Assign writing function code No 1 y26 Assign writing function code No 2 1 N N N Y N y27 Assign writing function code No 3 1 N N N Y N y28 Assign writing function code No 4 1 N 2
31. 3 N N N N Y r03 Rated Voltage at Base Frequency 4 1 N N N N Y r04 Maximum Output Voltage 4 1 N N N N Y r05 Torque Boost 4 3 N N N N Y Electronic Thermal Overload Protection for Motor 4 1 N N N N Y 06 gude Select motor characteristics r07 Overload detection level 24 FGI N N N N Y 19 RTU N N N N Y 24 BUS N N N Y r08 Thermal time constant 3 N N N N Y r09 DC Braking 4 Braking starting frequency 3 N N N N Y Braking level 1 N N N N Y Braking time 5 N N N N Y Starting Frequency 4 3 N N N N Y Load Selection Auto Torque Boost Auto Energy Saving 1 N N N N Y Operation 4 Drive Control Selection 4 1 N N N N Y Motor 4 No of poles 1 N N N N Y Rated Capacity r39 0 2 to4 11 N N N N Y r39 1 25 N N N N Y Rated current 24 FGI N N N N Y 19 RTU N N N N Y 241 BUS N N N Y Auto tuning 21 N NN IN Y Online Tuning 1 N No load current 24 FGI N N N N Y ER 19 RTU N N N N Y 24 BUS N N N N Y R1 5 N N TN NIY r22 X 5 N N N N Y Slip compensation gain for driving 3 N NN NY r24 Slip compensation response time 5 N N N N Y Slip compensation gain for braking 3 N 26 Rated slip frequency 5 N N N N Y Iron loss factor 1 5 NINININ Y r28 Iron loss factor 2 5 N N N N Y Iron loss factor 3 5 N N N N Y Magnetic saturation factor 1 3 N N N N Y Magnetic saturation factor 2 3
32. 3 Y Y Y Y Y Output terminal 15 YTYTYTYTY Input terminal com 14 Yy X34 Output terminal com 15 Y Y Y Y Y Input power 24 yilylylflytly X36 Running status 2 76 Y N N Y Y Speed detection 29 N N N Y Y X38 Operation status 3 44 Y N N Y N Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 1 BUS The field bus option format is selected For details about the field bus option see the instruction manual for each field bus option 5 37 Table 5 34 List of data format numbers X codes Continued Support Code Eco Multi Ace Last Info on Alarm Output frequency 22 X61 Output current 24 FGI lt lt lt lt 19 RTU 24 BUS 1 2 22 16 1 1 1 1 1 Output voltage Torque Set frequency Running status Cumulative ope time Number of startups DC link circuit voltage Internal air temperature Heat sink temperature Output terminal 15 2 2 2 2 2 z lt Z lt lt lt lt lt lt z lt lt lt lt lt lt lt z lt lt ZZZZZZZZZZ lt lt lt lt lt lt lt lt lt lt x lt x lt lt z z ziz z z z z 2 Zz lt lt lt x lt lt z lt x lt lt x lt lt lt
33. 4 Auto tuning P05 Online Tuning No load current R1 X Slip compensation gain for driving Slip compensation response time Slip compensation gain for braking Rated slip frequency Iron loss factor 1 Iron loss factor 2 Iron loss factor 3 Magnetic saturation factor 1 Magnetic saturation factor 2 Magnetic saturation factor 3 Magnetic saturation factor 4 Magnetic saturation factor 5 Magnetic saturation extension factor a Magnetic saturation extension factor b Magnetic saturation extension factor c PMSM drive Magnetic pole position detection mode X correction factor 1 X correction factor 2 Torque current under vector control P17 Induced voltage factor under vector control Format number 1 Z lt 11 25 24 FGI 19 RTU 24 BUS 21 1 24 FGI 19 RTU 24 BUS 5 5 3 5 3 5 5 5 5 3 3 3 3 3 3 3 3 1 1 1 24 FGI 19 RTU 24 BUS 1 Z Z Z Z Z 22 22 Z Z Z Z 27 22 27 22 22 22 lt lt lt lt Z lt Z lt 2 lt X Z lt ZI Z Z Z Z 2 Z Z Zz Zz 27 22 27 Z Z Z lt lt lt lt lt lt lt
34. 5 5 3 5 3 5 5 5 5 3 3 3 3 3 3 3 3 Motor 3 Selection 1 Slip Compensation 3 Operating conditions 1 Output Current Fluctuation Damping Gain for Motor 3 5 22 22 22 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 Z Z Z Z Z Z Z Z Z Z Z Z ZZ 27 27 27 2 7 Z Z 7 27 27 27 lt lt lt lt lt lt x lt x x lt x x E x x lt x x x lt lt lt x x IR x x x x xix Motor Parameter Switching 3 Mode selection 1 Zz 22 22 12 222222222222 2 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 zZ Z Z Z Z Z Z Z ZZ Z ZZ 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 z z 27 lt 1 BUS The field bus option format is selected For details about the field bus option see the instruction manual for each field bus option 5 15 Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net Table 5 23 List of data format numbers b codes Continued Format Support number Eco Multi Ace 7 7 3 7 5 7 zZ Speed Control 3 Speed command filter Speed detection filter P Gain Integral time Feed forward gain Output filter Notch filter resonanc
35. 9 Assign writing function code No 5 1 N N NY N y30 Assign writing function code No 6 1 N N NY N y31 Assign writing function code No 7 1 N NIN YN y32 Assign writing function code No 8 1 N YN y33 Operation selection 1 N N N y34 Communications error processing 1 N N N Y N y35 No response error detection time 3 N N N Y N y36 Operation Selection in abort status 1 N N N Y N y95 Data Clear Processing for Communications Error 1 N N N Y N y96 Reserved 1 N N N N Y y97 Communications Data Storage Selection 1 Y N N Y Y y98 Bus Link Function Mode selection 1 N Y Y Y Y y99 Loader Link Function Mode selection 1 Y Y Y Y Y 1 Not applicable with FRNooE2c 0C FRNooE20 o0GB Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 27 Table 5 29 List of data format numbers o codes ane E Mini Eco Multi Ace MEGA Terminal O1 Function 1 N N N Y N Terminal O2 Function 1 N N N Y N Terminal O3 Function 1 N N N Y N Terminal O4 Function 1 N N N Y N Terminal O5 Function 1 N N N Y N Terminal O6 Function 1 N N N Y N Terminal O7 Function 1 N N N Y N Terminal O8 Function 1 N N N Y N DI Option
36. Data format 19 Current value Current values are decimal data positive The minimum step is 0 01 for an inverter capacity of 22kW 30HP or less and 0 1 for an inverter capacity of 30 40HP or more When inverter capacity is 22kW 30HP or less any data higher than 655A cannot be written No correct value can be read out when a direction for write data higher than 655A is issued Current data is rounded down on and after the fifth digit inside the inverter Ex When a writing direction of 107 544 is issued to an inverter with a capacity of 22kW 30HP 107 5A is written Ex When F11 electronic thermal operation level 107 0A 40HP 107 0x10 1070 042E consequently gt 044 2 Ex When F11 electronic thermal operation level 2 3 60A 1HP 3 60x10 360 01684 consequently gt 01 684 Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 46 Data format 20 Communications error Table 5 39 Communications error codes common to both protocols Code Description Code Description Checksum error CRC error Framing error overrun error buffer gt No response full gt No response Parity error gt No response Table 5 40 Communications error codes for Fuji general purpose inverter protocol Code Description Code Description Format error Function code error Command error Write disabled Link priority error Data
37. FS Supplement to RS 485 User s Manual FRENIC MEGA FRENIC ECO FRENIC Multi FRENIC Ace FRENIC Mihi co This document is a supplement to the RS 485 Communication User s Manual 24A7 E 0082 MEH448 and is comprised of section 5 2 Data Format to which content has been both added and changed For pages that are not included in this document please refer to the RS 485 Communication User s Manual to ensure correct use 24A7 E 0099 Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 2 Data Formats 5 2 1 List of data format numbers The following table shows the communications data format numbers for function code data Create data according to the data format specifications described below For the data setting range and setting unit see the Users Manual of each inverter type Chapter 9 for FRENIC Mini Mini C2 Eco Multi and Chapter 5 for FRENIC Ace MEGA The Support column of the table indicates whether each function is supported by the respective models or not Y indicates the function is supported and N indicates the function is not supported RTU and FGI in the Format number field mean the Modbus RTU protocol and the Fuji general purpose inverter protocol respectively Table 5 17 List of data format numbers F codes
38. Maximum scale 12 N N N Y 1 Minimum scale 12 N N N Y 1 Terminal C2 Extended Function Range selection 1 N N N Y 1 Function 1 N N N Y N Offset 4 N N N Y N Gain 5 N N N Y N Filter time constant 5 N N N Y N Gain base point 5 N N N Y N Bias value 6 N N N Y N Bias base point 5 N N N Y N Display unit 1 N N N Y N Maximum scale 12 N N N Y N Minimum scale 12 N N N Y N Terminal Ao CS2 Function 1 N N N Y N Voltage adjustment 1 N N N Y N Polarity 1 N N N Y N Terminal CS CS1 Function 1 N N N Y N 097 Voltage adjustment 1 N N N Y N 0101 Terminal I1 Function 1 N N N Y N 0102 Terminal 12 Function 1 N N N Y N 0103 Terminal I3 Function 1 N N N Y N 0104 Terminal 14 Function 1 N N N Y N 0105 Terminal 15 Function 1 N N N Y N 0106 Terminal 16 Function 1 N N N Y N 0107 Terminal I7 Function 1 N N N Y N 0108 Terminal 18 Function 1 N N N Y N 0109 Terminal I9 Function 1 N N N Y N 0110 Terminal 110 Function 1 N N N Y N o111 Terminal 111 Function 1 N N N Y N 0112 Terminal 112 Function 1 N N N Y N 0113 Terminal 113 Function 1 N N N Y N 1 is as follows Format Support number Eco Multi Ace Z Z Terminal C2 Function Offset Gain Filter time constant Gain base point Terminal Ao CS2 Function Voltage adjustment Polarity Terminal CS CS1 Function Voltage adjustment lt lt
39. Operation Status 16 Y Y Y Y Y General purpose Output Terminal Information 15 Y Y Y Y Y Alarm Contents Latest 10 X Y Y Y Y Last 10 Y Y Y Y Y 2nd last 10 Y Y Y Y Y 3rd last 10 Y Y Y Y Y Cumulative Operation Time 1 Y Y Y Y Y DC link Circuit Voltage 1 Y Y Y Y Y Motor Temperature 2 N N N N Y Model Code 17 Y Y Y Y Y Capacity Code 11 Y Y Y Y Y ROM Version 35 Y Y Y Y Y Transmission Error Transaction Code 20 Y Y Y Y Y Frequency Reference on Alarm p u Final Command 29 Y Y Y Y Y Torque Command on Alarm Final Command 6 N N N Y Y Torque Current Command on Alarm Final Command 6 N N N Y Y Flux Command on Alarm Final Command 6 N N N Y Y Frequency Reference on Alarm Final Command 22 Y Y Y Y Y Output Frequency 1 on Alarm p u 29 Y Y Y Y Y Torque Value on Alarm 6 Y Y Y Y Y Torque Current Value on Alarm 6 N N N Y Y Output Frequency on Alarm 23 FGI Y Y Y Y Y 22 RTU Y Y Y Y Y P BUS N Y Y Y Y Input Power on Alarm 5 Y Y Y Y Y Output Current Effective Value on Alarm 5 Y Y Y Y Y Output Voltage Effective Value on Alarm 3 Y Y Y Y Y Operation Command on Alarm 14 Y Y Y Y Y Operation Status on Alarm 16 Y Y Y Y Y Output terminal Information on Alarm 15 Y Y Y Y Y Cumulative Operation Time on Alarm 1 Y Y Y Y Y DC Link Circuit Voltage on Alarm 1 Y Inverter Internal Air Temperature on Alarm 1 N Y N Y Y Heat Sink Temperature on Alarm 1 Y Y Y Y Y 1 BUS The fie
40. Speed 37 N Y Y Y Y Load Shaft Speed 37 Y Y Y Y Y Line Speed 37 Y N Y Y Y PID Process Command 12 Y Y Y Y Y PID Feedback Value 12 Y Y Y Y Y Level of Torque Value A 1 N N Y N N 2 N N N Y Y Level of Torque Value B 1 N N Y N N 2 N N N Y Y Ratio Value 5 N N N Y Y Motor Speed Set Value 37 N Y Y Y Y Load Shaft Set Value 37 Y Y Y Y Y Line Speed Set Value 37 Y N Y Y Y Constant Feed Time Set Value 37 Y N Y Y N Constant Feed Time 37 Y N Y Y N Input Power 24 Y Y Y Y Y Motor Output 24 N Y Y Y Y Load Rate 2 N Y Y Y Y Torque Current 2 N N N Y Y Flux Command Value 2 N N N Y Y Timer Operation Remaining Time 1 Y N Y Y N Operation Command Source 67 Y Y Y Y Y Frequency and PID Command Source 68 Y Y Y Y Y Speed at Percentage 5 N Y Y Y Y Speed Set Value at Percentage 5 N Y Y Y Y PID Output 4 Y Y Y Y Y Analog Input Monitor 12 N Y N Y Y Terminal 32 Input Voltage 4 N N N Y Y Terminal C2 Input Current 3 N N N N Y 4 N N N Y N Terminal AO Output Voltage 4 N N N Y Y Terminal CS Output Current 3 N N N Y Y Terminal X7 Pulse Input Monitor 6 N N N Y Y Control Circuit Terminal Input 43 Y Y Y Y Y W41 Output 15 Y Y Y Y Y W42 Communications Control Signal Input 14 Y Y Y Y Y Output 15 Y Y Y Y Y Terminal 12 Input Voltage 4 Y Y Y Y Y Terminal C1 Input Current 3 N Y Y N N 4 Y N N Y Y Terminal FMA Output Voltage 3 Y Y Y Y Y Terminal FMP Output Voltage 3 N Y N Y Y
41. Web www ctiautomation net Email info ctiautomation net 5 1 Table 5 17 List of data format numbers F codes Continued Analog Output EMA Format Support number Eco Zz Mode selection Multi Ace Analog Output FM Mode selection zz Analog Output FMA Voltage adjustment Analog Output FM Voltage adjustment Analog Output FMA Function Analog Output FM Function Analog Output FM2 foe Pulse Output FMP wo Pulse rate Analog Output FM Pulse rate 4zi ziz a za z Pulse Output FMP 5 Gain to output voltage Analog Output FM2 Voltage adjustment 52 Pulse Output FMP 5 Function Mode selection Analog Output FM2 Function lt Z Z 22 ZIZ 27 Z Z lt Z lt x 27 lt Z Z Z Z lt ZI lt lt 22 lt SX 2 lt S z zix lt zix zxz Load Selection Auto Torque Boost Auto Energy Saving Operation 1 Stop Frequency Detection mode Holding time Limiting level for driving Torque Limiter 1 Torque Limiter 1 1 Torque Limiter 1 Torque Limiter 1 2 Drive Control Selection 1 Limiting level for braking Current Limiter Mode selection Level Electronic Thermal Overload Protection for Braking Resistor Discharging capability Allowable average loss zzzzxa z Z
42. Y Y N N 22 Y N N Y Y 8 5 N N Y N N 22 Y N N Y Y 9 5 N N Y N N 22 Y N N Y Y 10 5 N N Y N N 22 Y N N Y Y 11 5 N N Y N N 22 Y N N Y Y 12 5 N N Y N N 22 Y N N Y Y 13 5 N N Y N N 22 Y N N Y Y 14 5 N N Y N N 22 Y N N Y Y 15 5 N N Y N N 22 Y N N Y Y Jogging Frequency 5 N N Y N N 22 Y N N Y Y Timer Operation Pattern Operation Selection 1 Y N Y Y Y Pattern Operation Selection Stage1 84 N N N Y N 12 N N N N Y Stage2 84 N N N Y N 12 N N N N Y Stage3 84 N N N Y N 12 N N N N Y Stage4 84 N N N Y N 12 N N N N Y Stage5 84 N N N Y N 12 N N N N Y Stage6 84 N N N Y N 12 N N N N Y Stage 84 N N N Y N 12 N N N N Y Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 5 Table 5 19 List of data format numbers C codes Continued Name Format Support number Mini Eco Multi Ace MEGA Frequency Command 2 1 Y Y Y Y Y Analog Input Adjustment for 12 Offset 4 N N Y Y Y Gain 5 Y Y Y Y Y Filter time constant 5 Y Y Y Y Y Gain base point 5 Y Y Y Y Y Polarity 1 N N Y Y Y Analog Input Adjustment for C1 Offset 4 N Y N N Y Analog Input Adjustment for C1 C1 function Offset 4 N N Y Y N C37 Analog Input Adjustment for C1 Gain 5 Y Y N N Y Analog Input
43. Y Y Y N Ke LED Display Filter 3 Y N Y Y Y LED Monitor Item selection 1 Y Y Y Y Y E44 Display when stopped 1 N N N Y Y E45 LCD Monitor Item selection 1 Y Y Y N Y E46 Language selection 1 Y Y Y N Y E47 Contrast control 1 Y Y Y N Y E48 LED Monitor Speed monitor item 1 Y Y Y Y Y E49 Choise of the torque polarity 1 N N N Y Y E50 Coefficient for Speed Indication 5 Y Y Y Y Y 1 Not applicable with FRN G1L L A E and U 2 BUS The field bus option format is selected For details about the field bus option see the instruction manual for each field bus option Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 3 Table 5 18 List of data format numbers E codes Continued Format Support Name number Mini Eco Multi Ace MEGA Display Coefficient for Input Watt hour Data 45 Y Y Y Y Y Keypad Menu display mode 1 Y SNP AEN UE E54 Frequency Detection 3 Level 3 N N N Y Y E55 Current Detection 3 Level 24 FGI N N N Y Y 19 RTU N N N Y Y 24 BUS N N N Y Y Timer 5 N N N Y Y Switch Function of C1 Terminal 1 N N Y Y N Built in Potentiometer Function selection 1 Y N N N N Terminal 12 Extended Function 1 Y Y Y Y Y Terminal C1 Extended Function 1 Y Y N N Y Terminal C1 Extended Function C1 function 1 N N
44. ation 1 Dynamic torque e ctor control 2 V f control with slip compensation 3 V f control with speed sensor 4 Dynamic torque vector control with speed sensor 5 Vector control without speed sensor 6 Vector control with speed sensor 10 Torque control vector control without speed sensor 11 Torque control e ctor control with speed sensor Other than the above Reserved Motor selection Selected motor is shown Y N N Y Y 005 Motor 015 Motor 105 Motor 115 Motor4 Speed limit ON 1 is set during speed limit N N N Y Y Direction limit OM 1 is set during direction limit Y N Y Y Y Motor class fication 0 Induction motor Y N N Y Y 1 Synchronous motor STO circuit check 0 Check disable N N N Y N 1 Check Data format 77 Optional input terminals 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 M6 15 114 113 112 11 110 I9 18 I7 16 I5 l4 I3 12 11 Data format 78 Optional output terminals 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 0 0 0 0 0 0 0 0 08 07 06 05 04 03 02 01 Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net Unused 5 53 Data format B4 Paturn operation 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Direction 0 ACC DEC Exponent Data Y Y yvy Y Y 0 0 01 1 0 1 Run time data 000 to 999 2 1 3 10 Acceleration Deceleration Time 1 0 1 Acceleration Deceleration
45. ction 1 Aiba ae aie X4 Function 1 N NY NY NY NY E05 X5 Function 1 N Y Y Y Y X6 Function 1 N N NINI Y E07 X7 Function 1 N N N N Y X8 Function 1 N N NINI Y X9 Function 1 N N N N Y Acceleration Time 2 12 Y N Y Y Y Deceleration Time 2 12 Y N Y Y Y Acceleration Time 3 12 N N N Y Y Deceleration Time 3 12 N N N Y Y Acceleration Time 4 12 N N N Y Y Deceleration Time 4 12 N N N Y Y Torque Limiter 2 Limiting level for driving 1 N N Y Y N Torque Limiter 2 1 2 N N N N Y Torque Limiter 2 Limiting level for braking 1 N N Y Y N Torque Limiter 2 2 2 N N N N Y Terminal Y1 Function 1 Y Y Y Y yY Y2 Function 1 N Y Y Y Y Y3 Function 1 N Y N N Y Y4 Function 1 N N N N Y Y5A C Function 1 N Y N N Y 30A B C Function Relay output 1 Y Y Y Y Y Frequency Arrival Delay Time 5 N N Y Y N Frequency Arrival Hysteresis width 3 Y N Y Y Y E31 Frequency Detection 1 Level 3 Y Y Y Y Y E32 Hysteresis width 3 Y Y Y Y Y E34 Overload Early Warning Current Detection Level 24 FGI Y Y Y Y Y 19 RTU Y Y Y Y Y 24 BUS N Y Y Y Y E35 Timer 5 Y Y Y Y Y E36 Frequency Detection 2 Level 3 N N N Y Y E37 Current Detection 2 Low Current Detection Level 24 FGI Y N Y Y Y 19 RTU Y N Y Y Y 24 BUS N N Y Y Y Timer 5 Y N Y Y Y Coefficient for Constant Feeding Rate Time 7 Y N Y Y N PID Display Coefficient A 12 Y Y Y N Y PID Display Coefficient B 12
46. dback Value 29 Y Y Y Y Y M73 PID Output 29 Y Y Y Y Y M74 Running Status 2 76 Y N N Y Y M76 Service Life of DC Link Bus Capacitor Elapsed time 74 N N N Y Y Remaining time 74 N N N Y Y Rotation Speed Command 2 N N N Y Y Rotation Cpeed 2 N N N Y Y Remaining Time Before The Next Motor 1 Maintenance 74 Y N N Y Y Remaining Startup Times Before The Next Maintenance 1 Y N N Y Y Light Alarm Contents Latest 10 N N N N Y 41 N N N Y N Last 10 N N N N Y 41 N N N Y N 2nd last 10 N N N N Y 41 N N N Y N 3rd last 10 N N N N Y 41 N N N Y N 1 BUS The field bus option format is selected For details about the field bus option see the instruction manual for each field bus option Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 33 Table 5 33 List of data format numbers W codes Name Format Support number Mini Eco Multi Ace MEGA Running Status 16 Y Y Y Y Y Frequency Reference 22 Y Y Y Y Y Output Frequency Before slip compensation 22 Y Y Y Y Y Output Frequency After slip compensation 22 Y N Y Y Y Output Current 24 FG Y Y Y Y Y 19 RTU Y Y Y Y Y P4 BUS Y Y Y Y Output Voltage 3 Y Y Y Y Y Torque 2 N Y Y Y Y Motor
47. detection USB port transmittion error Charging resistor overheat Drought protection Control of maximum starts per hour End of curve protection Anti jam Filter clogging error External PID control 1 feedback error detection External PID control 2 feedback error detection External PID control 3 feedback error detection DC fan lock detected Motor overload warning Cooling fin overheat warning Life warning Command loss PID warning output Low torque detected Thermistor detected PTC Machine life accumulated operation hours Machine life No of starting times PID control 1 warning output PID control 2 warning output Mutual operation slave inverter alarm External PID control 1 warning output External PID control 2 warning output External PID control 3 warning output Forced operation Password protection Simulated error U EN el Di RM P MA D Ie 0 IHAIN Example In the case of overvoltage during acceleration Li 6 00064 Consequently gt 004 06 Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 43 Data format 11 Capacity code unit kW As shown in the table below the capacity KW is multiplied by 100 Table 5 37 Capacities and data Capacity kW Data Capacity kW Da
48. e N N N Terminal FM2 Output Current 3 N N N Y N Terminal FMA2 Output Current 3 N N N N vi Difference Pulse of Synchronous Operation 4 N N N Y Y Cumulative Run Time of Capacitors on Printed Circuit 74 Y Y Y Y Y Boards Cumulative Run Time of Cooling Fan 74 Y Y Y Y Y Surface Speed Monitor 37 N N N N Y W70 Cumulative Operation Time 1 Y Y Y Y Y W71 DC link Circuit Voltage 1 Y Y Y Y Y W72 Internal Air Highest Temperature 1 N Y N Y Y W73 Heat Sink Maximum Temperature 1 Y Y Y Y Y W74 Maximum Effective Current Value 24 FG Y Y Y Y Y 19 RTU Y Y Y Y Y 24 BUS N Y Y Y Y W75 Main Circuit Capacitor s Capacitor 3 Y Y Y Y Y W76 Cumulative Ope Time of Capacitor on PC Board 1 Y Y Y Y N W77 Cumulative Ope Time of Cooling Fan 1 Y Y Y Y N W78 Number of Startups 1 Y Y Y Y Y W79 Cumulative Ope Time of Motor Driving 1 Y Y Y N N w80 Standard Fan Life 1 N Y N N N W81 Integrating Electric Power 45 Y Y Y N Y 93 N N N Y N w82 Data Used Integrating Electric Power 45 Y Y Y Y Y W83 Number of RS 485 Ch1 Errors 1 Y Y Y Y Y W84 Contents of RS 485 Ch1 Error 20 Y Y Y Y Y w85 Number of RS 485 Ch2 Errors 1 N Y Y Y Y w86 Number of Option Errors 2 1 N N N N Y 1 BUS The field bus option format is selected For details about the field bus option see the instruction manual for each bos bus option 2 Applicable only with FRN A E and U 3 As for FRN00G10 0A
49. e frequency 1 Notch filter attenuation level 1 Cumulative Motor Run Time 3 74 Startup Counter for Motor 3 1 Motor 3 X correction factor 1 1 X correction factor 2 1 Torque current under vector control 24 FGI 19 RTU 24 BUS Induced voltage factor under vector control 1 Reserved 7 zz Z ZZ ZZ Z Z ZZZZZZZZ ZZZZZZZZZZZZZZ lt lt lt lt lt lt lt lt lt lt lt lt lt lt lt lt ZZ Z l zZ Z Z Z Z Z ZZZzzz ZZ Z Zi 2 Z Z 22 27 lt Z lt lt lt lt lt Z z lt 1 BUS The field bus option format is selected For details about the field bus option see the instruction manual for each field bus option Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 16 Table 5 24 List of data format numbers r codes Format number Magnetic saturation extension factor a Magnetic saturation extension factor b Magnetic saturation extension factor c 3 3 3 Motor 4 Selection 1 Slip Compensation 4 Operating conditions 1 Output Current Fluctuation Damping Gain for Motor 4 5 r01 Maximum Frequency 4 3 N N N N Y r02 Base Frequency 4
50. eak Detection 3 Y Y Y Y Y Continuity of Running P DI Y Y NY Y H93 1 KM Y Y N YiIY H94 Cumulative Motor Run Time 1 1 N Y Y N N 74 Y N N Y Y H95 DC Braking Braking response mode 1 Y Y Y Y Y H96 STOP Key Priority Start Check Function 1 Y Y Y Y Y H97 Clear Alarm Data 1 Y Y Y Y Y H98 Protection Maintenance Function Mode selection 1 Y Y Y Y Y H99 Password 2 setting check 1 N N N Y N H101 Destination 1 N N N Y N H111 UPS operation level 1 N N N Y N H114 Automatic Deceleration Operation level 3 N N N Y N H147 Speed Control Jogging FF Gain 5 N N N Y N H154 Torque Bias Function selection 1 N N N Y N Set level 2 NINN YIN Set level2 2 N NIN YIN Set level3 2 N N NT YN Mechanical loss compensation 1 N N N Y N Startup timer 5 NINN YIN Shutdown timer 5 NIN N YN H162 Limiter 1 N N N Y N H173 Magnetic Flux Level at Light Load 1 N N N Y N H180 Brake Signal Brake operation check time 5 N N N Y N 1 The value of 999 will be treated as 7FFF Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 11 Table 5 21 List of data format numbers H codes Continued Name Format Support number Mini Eco Multi Ace User initial value Save 1 N N N Y H194 Protection 1 N N N Y N DC Braking Braking time at the startup 5 N N N Y N Res
51. effective as the main setting Data format 73 Integer data positive negative sign bit Resolution 1 The high order digit of position control data 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Polarity 0 Data Y Position data 0000 to 9999 Unused 0 Positive 1 Negative Data format 74 Integer data positive by 10 hours Example M81 Maintenance remaining hours M1 12340 hours 12340 10 204D2 Consequently gt 044 D24 Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 52 Data format 75 Integer data positive P Exception for position control Based on the positive integer data setting of 1 is permitted exceptionally When 1 is set on the touch probe or the loader P is displayed Data format 76 Operating status 2 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Motor STO Spare Spare Spare Spare Spare Directi Speed Spare Select Control method classfi circuit on limit motor cation check limit ON ON Spares are always set to 0 Signal name Description Mini Eco Multi Ace MEGA Control method The final control method including set values and Y N N Y Y terminal conditions are shown below 0 V fcontrol without slip compens
52. er digits 75 Preset point upper digits 73 N N Y Y N Preset point lower digits 75 GERS e af Creep speed SW point upper digits 1 N N Y Y N Creep speed SW point lower digits 1 N N Y Y N Creep speed 1 N N Y Y N End point upper digits 73 Y YIN End point lower digits 1 N N Y Y N Positioning allowance 1 NINI Y YIN End timer 5 NIN YI N Coasting Compensation 1 N N Y Y N End point command 1 Y Y N Preset positioning requirement 1 N N Y Y N J88 Position detection direction 1 N N Y Y N Overload Stop Function P Gain 7 N N Y Y N J91 I Integral time 7 NIN Y Y N J92 Level adjustment 3 N N Y Y N J95 Brake Signal Brake OFF torque 1 N N N N Y 5 N N NT YN J96 Speed condition selection 1 N N N Y Y J97 Servo lock Gain 5 N N NTN Y 7 N N N YTN Completion timer 7 N NIN Y Y J99 Completion width 1 N N N Y Y J105 PID Control Display unit 1 N N N Y N Maximum scale 12 NININIvIN J107 Minimum scale 12 N N N Y N J136 PID Command Multistep command 1 12 N N N Y N Multistep command 2 12 N N TNT YN Multistep command 3 12 N N N TY N Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 20 Table 5 26 List of data format numbers d codes
53. error Function code data write right error Error during writing Table 5 41 Communications error codes for RTU protocol Code Description Code Description Improper FC Improper data range error Improper address function code NAK link priority no right write error disabled Example In case of an improper address 2 00024 Consequently gt Data format 21 Auto tuning 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 0 0 0 0 0 O REV FWD Data part Not used _ When FWD is 1 this data is the forward rotation command When REV is 1 this data is the reverse rotation command However if both FWD and REV are 1 the command is not effective Both FWD and REV are 0 for reading Ex When P04 motor 1 automatic tuning 1 forward rotation 0000 0001 0000 0001 0101 Consequently gt 01 01 Data format 22 Frequency data Decimal data positive Resolution 0 01Hz Ex When C05 multistep frequency 1 50 25Hz MEGA 50 25x100 5025 13A1 consequently gt Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 47 Data format 23 Polarity decimal data positive for Fuji general purpose inverter protocol Decimal data positive Resolution 0 01Hz 16 bit binary data 4 digit ASCII code For reverse rotation add a negative sign ASCII
54. erved 7 N N N Y N User password 1 Selection of protective operation 1 N N N Y N H198 Setting check 1 N N N Y N H199 User password protection valid 1 N N N Y N Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 12 Table 5 22 List of data format numbers A codes Motor 2 Selection 1 Slip Compensation 2 Operating conditions 1 Output Current Fluctuation Damping Gain for Motor 2 5 Nar Format Support number Mini Eco Multi Ace MEGA Maximum Frequency 2 3 Y N Y Y Y Base Frequency 2 3 Y N Y Y Y Rated Voltage at Base Frequency 2 1 Y N Y Y Y Maximum Output Voltage 2 1 Y N Y Y Y Torque Boost 2 3 Y N Y Y Y Electronic Thermal Overload Protection for Motor 2 1 Y N Y Y Y Select motor characteristics A07 Overload detection level 24 FGI Y N Y Y Y 19 RTU Y N Y Y Y 24 BUS N N Y Y Y Thermal time constant 3 Y N Y Y Y DC Braking 2 Braking starting frequency 3 Y N Y Y Y Braking level 1 Y N Y Y Y Braking time 5 Y N Y Y Y Starting Frequency 2 3 Y N Y Y Y Load Selection Auto Torque Boost Auto Energy Saving 1 Y N Y Y Y Operation 2 Drive Control Selection 2 1 Y N Y Y Y Motor 2 No of poles 1 N N Y Y Y Rated Capacity 11 Y N Y Y Y When A39
55. ic Step 6 Input 1 1 N N N N Y U27 Input 2 1 N N N N Y U28 Logic circuit 1 N N N N Y U29 Type of timer 1 N N N N Y U30 Timer 5 N N N N Y U31 Customizable Logic Step 7 Input 1 1 N N N N Y U32 Input 2 1 N N N N Y U33 Logic circuit 1 N N N N Y U34 Type of timer 1 N N N N Y U35 Timer 5 N N N N Y U36 Customizable Logic Step 8 Input 1 1 N N N N Y U37 Input 2 1 N N N N Y U38 Logic circuit 1 N N N N Y U39 Type of timer 1 N N N N Y U40 Timer 5 N N N N Y U41 Customizable Logic Step 9 Input 1 1 N N N N Y U42 Input 2 1 N N N N Y U43 Logic circuit 1 N N N N Y U44 Type of timer 1 N N N N Y U45 Timer 5 N N N N Y U46 Customizable Logic Step 10 Input 1 1 N N N N Y U47 Input 2 1 N N N N Y U48 Logic circuit 1 N N N N Y U49 Type of timer 1 N N N N Y U50 Timer 5 N N N N Y Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 23 Table 5 27 List of data format numbers U00 to U50 only FRENIC Ace Format Support idi GE number Mini Eco Multi Ace MEGA UOO Customizable Logic Mode selection 1 N N N Y Y U01 Customizable Logic Step 1 Logic circuit 1 N N N Y N U02 Input 1 1 N N N Y N U03 Input 2 1 N N N Y N
56. igital output 0 OFF 1 ON bit3 4 Input species 1 0 No function assgined 1 Digital 2 Analog Il o bit7 8 Input species 2 No function assgined 1 Digital 2 Analog bit11 12 Output species 0 No function assgined 1 Digital 22 Analog bit15 Step enable 0 Disable 21 Enable Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 55 MEMO Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net Fuji Electric Co Ltd 2014 12 Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net
57. imal data positive Minimum step 0 1 Example When F17 gain frequency set signal 100 0 100 0 x 10 1000 03 8 Consequently gt 034 Data format 4 Decimal data positive negative Minimum step 0 1 Example When C31 analog input offset adjustment 5 0 5 0 x 10 50 FFCE Consequently gt FFH Data format 5 Decimal data positive Minimum step 0 01 Example C05 multistep frequency 50 25Hz Mini Eco Multi 50 25 x 100 5025 13A1 Consequently gt 134 Ala Data format 6 Decimal data positive negative Minimum step 0 01 Example When MO7 actual torque value 85 38 85 38 x 100 8538 DEA6 Consequently gt DE A6H Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 41 Data format 7 Decimal data positive Minimum step 0 001 Example When F51 electronic thermal permissible loss 0 105kW 0 105 x 1000 105 0069 Consequently gt 004 694 Data format 8 Decimal data positive negative Minimum step 0 001 Example When the data is 1 234 1 234 x 1000 1234 FB2E u Consequently gt FBu 2 Data format 10 Alarm codes Table 5 36 List of alarm codes Description No alarm Overcurrent during acceleration Overcurrent during deceleration Overcurrent during constant speed operation Ground fault Overvo
58. inal com 14 Output terminal com 15 Running status 2 76 Speed detection 29 Z18 Running status 3 44 Z40 Cumulative Run Time of Motor 1 74 Sa m NA 7 5 eier Nu SS A A m mad lt Z lt lt lt lt lt lt Z lt lt lt Z lt zz Z 2 Z 2 Z 2 lt lt lt lt xi lt lt x z lt Z Z Z lt lt lt lt lt lt lt lt lt lt lt lt x lt lt 2 z 2 2 2 z 2 2 Z Z 2 2 lt lt lt lt x x lt x lt x lt lt Z Z 2 lt lt lt lt lt Z lt lt lt lt lt lt lt lt lt lt z z z z 2 z z z Z Z Z Z lt lt lt Z lt lt xx xx xxx lt lt lt lt x lt lt x lt lt x lt x x x Z 2 lt 2 Z x lt lt lt lt lt lt x x lt Z lt lt lt lt lt lt lt lt Z Z lt Z lt lt lt xXx lt x xx x lt 4 2 74 42 8 74 Z43 4 74 Z44 Number of Startups 2 1 3 1 46 4 1 Z48 Retry History Latest 41 Z49 Retr
59. l DO 15 N rer N Y Sos Acceleration Time F07 3 Y Y Y Y Y S09 Deceleration Time F08 3 Y Y Y Y Y S10 Torque Limiter 1 Drive 1 N N Y N N Torque Limiter 1 1 6 N N N Y Y S11 Torque Limiter 1 Brake 1 N N Y N N Torque Limiter 1 2 6 N N N Y Y 512 Universal Ao 29 N Y Y Y Y S13 PID Command 29 Y Y Y Y Y S14 Alarm Reset Command 1 Y Y Y Y Y S19 Speed Command 2 N N N Y Y 1 Not applicable with the FRENIC Multi ROM version 0799 or older Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 31 Table 5 32 List of data format numbers M codes Name Format Support number Mini Eco Multi Ace MEGA Frequency Reference p u Final command 29 Y Y Y X Y Torque Command Final command 6 N N N Y Y Torque Current Command Final command 6 N N N Y Y Flux Command 6 N N N Y Y Frequency Reference Final command 22 Y Y Y Y Y Output Frequency 1 p u 29 Y Y Y Y Y Torque Value 6 N Y Y Y Y Torque Current Value 6 N N N Y Y Output Frequency 23 FGI Y Y Y Y Y 22 RTU Y Y Y Y Y 22 BUS N Y Y Y Y Input Power 5 Y Y Y Y Y Output Current Effective Value 5 Y Y Y Y Y Output Voltage Effective Value 3 Y Y Y Y Y Operation Command Final command 14 Y Y Y Y Y
60. ld bus option format is selected For details about the field bus option see the instruction manual for each field bus option Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 32 Table 5 32 List of data format numbers M codes Continued Format Support number Eco Multi Ace M46 Life of Main Circuit Capacitor 3 Y Y Y Y Y M47 Life of PC Board Electrolytic Capacitor 1 Y Y Y N N 74 N N N Y Y M48 Life of Cooling Fan 1 Y Y Y N N 74 N N N Y Y M49 Input Terminal Voltage 12 p u 29 Y Y Y Y Y M50 Input Terminal Current C1 p u 29 Y Y Y Y Y M52 Input Terminal Voltage 32 p u 29 N N N Y Y M53 Input Terminal Voltage C2 p u 29 N N N Y Y M54 Input Terminal Voltage V2 p u 29 N Y Y Y Y M61 Inverter Internal Air Temperature 1 N Y N Y Y M62 Heat Sink Temperature 1 Y Y Y Y Y M63 Load Factor 6 N Y Y Y Y M64 Motor Output 6 N Y Y Y Y M65 Motor Output on Alarm 29 N Y Y Y Y M66 Speed Detection 29 N N N Y Y M67 Transmission Error Transaction Code RS 485 port2 20 N N N Y Y M68 PID Final Command 29 Y Y Y Y Y M69 Inverter Rated Current 24 FGl Y Y Y Y Y 19 RTU Y Y Y Y Y BUI N Y Y Y Y M70 Operation Status 2 44 Y Y Y Y Y M71 Input Terminal Information 14 Y Y Y Y Y M72 PID Fee
61. lt lt Z Z Z Z Z Z Z zixzi xiz lt lt lt lt zazua lt lt lt lt Z lt Z lt lt Resistance Switching between HD MD and LD Drive Modes MEGA Switching between HD ND HHD and HND Drive Modes Ace 1 As for FRNo0G10 0A E and U the terminal name changes from FMA to 2 Applicable only with FRNooG1o 0A E and U 3 Not applicable with FRN E and U 4 Not applicable with FRNooG1o0 oA E and U 5 Applicable only with FRN E and U 6 As for E and U the terminal name changes from FMP to FM2 7 The value of 999 will be treated as 7FFFy 8 Applicable only with FRNooE2o 0C FRN ziz lt z 2 7 ZI ZI Zl lt lt lt z lt lt z lt E20 0GB Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 2 Table 5 18 List of data format numbers E codes Format Support number Mini Eco Multi Ace MEGA Terminal X1 Function 1 YY Ye ey Y E02 X2 Function 1 Y Y Y Y Y X3 Fun
62. ltage during acceleration Overvoltage during deceleration Overvoltage during constant speed operation or stopping Under voltage Input phase loss Fuse blown Charging circuit fault Heat sink overheat External alarm Internal air overheat Motor protection PTC NTC thermistor Braking resistor overheat Motor overload Motor overload motor 2 Inverter overload Over speed protection PG disconnection NTC disconnection error Memory error Keypad communications error CPU error Option communications error Option error Run operation error Tuning error RS 485 communications error communications port1 Step out detection Motor selecting error Motor overload motor 3 Motor overload motor 4 Output phase loss Following error excessive speed deviation Position of magnetic pole error Data save error on insufficient voltage RS 485 communications error Option Communications port 2 Hardware error CAN communications failure Positioning control error EN circuit error Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 42 Table 5 36 List of alarm codes Continued Description PID feedback disconnection detected DB transistor trouble Customizable logic failure PID control 1 feedback error detection PID control 2 feedback error
63. ncy 3 1 Maximum Output Voltage 3 1 Torque Boost 3 3 Electronic Thermal Overload Protection for Motor 3 Select motor characteristics Overload detection level Thermal time constant 1 zz zz zzz ZI l l l 2 22 22 22 22 24 FGI 19 RTU 24 BUS 3 DC Braking 3 Braking starting frequency Braking level Braking time 3 1 5 Starting Frequency 3 3 Load Selection Auto Torque Boost Auto Energy Saving Operation 3 1 zzz zzz Zi z z Z 2 2 2 2 2 zzz xxx xxx Drive Control Selection 3 1 Motor 3 No of poles Rated Capacity b39 0 2 to4 b39 1 Rated current Auto tuning Online Tuning No load current R1 X Slip compensation gain for driving Slip compensation response time Slip compensation gain for braking Rated slip frequency Iron loss factor 1 Iron loss factor 2 Iron loss factor 3 Magnetic saturation factor 1 Magnetic saturation factor 2 Magnetic saturation factor 3 Magnetic saturation factor 4 Magnetic saturation factor 5 Magnetic saturation extension factor a Magnetic saturation extension factor b Magnetic saturation extension factor c 1 11 25 24 FGI 19 RTU 24 BUS 21 1 24 FGI 19 RTU 24 BUS
64. r pulse resolution 1 N N N Y Y d61 Filter time constant 7 N N N Y Y Pulse count factor 1 1 N N N Y Y d63 Pulse count factor 2 1 N N N Y Y d67 Starting Mode Auto search 1 N N N Y Y de8 Reserved 3 N N N N Y d69 3 N N N Y Y d70 Speed Control Limiter 5 N N N Y Y d71 Synchronous Control Main speed regulator gain 5 N N N Y Y d72 APR P gain 5 N N N Y Y APR positive output limiter 1 N NTN Y Y d74 APR negative output limiter 1 N N N Y Y Z phase alignment gain 5 N N N Y Y Synchronous offset angle 1 N N N Y Y d77 Synchronization completion detection angle 1 N N N Y Y d78 Excessive deviation detection width 1 N N N Y Y Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 21 Table 5 26 List of data format numbers d codes Continued Format Support Ge number Mini Eco Multi Ace MEGA Reserved 1 N TN TNT Y IN d81 1 N N N N Y d82 Field Weakning Control PG less vector control 1 N N N N Y d83 Field Weakning Lower Limit PG less vector control 1 N N N N Y d84 Reserved 1 N N N N Y d85 1 N N N N Y d86 Acceleration and Deceleration Output Filter 7 N N N N Y d88 Reserved 5 N N N Y N d90 Magnetic Flux Level During Deceleration Vector control 1 N N N Y Y d91 Reserved 5 N N N Y Y 5 N N N Y Y 5 N N N Y N 5 N N N Y N 5 N N N
65. ring DC Y Y Y Y Y 10 DEC During Y Y Y braking deceleration or during pre exciting INT Inverter shut Y Y Y Y Y 11 ALM Alarm relay Y Y Y down for any fault BRK During braking N Y Y Y Y 12 RL Communicati Y Y Y fixed to 0 for ons effective FRENIC Mini NUV DC link circuit Y Y Y Y Y 13 0 voltage established 0 undervoltage TL During torque N N Y Y Y 14 0 N N N limiting VL During voltage Y Y Y Y Y 15 BUSY During Y Y Y limiting function code data writing 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 45 Data format 17 Model code 5 4 3 13 11 40 9 8 7 6 5 4 3 2 1 0 Model Generation Destination Input power supply Table 5 38 List of model codes P H H AR 1667Hz 3000Hz Generation 11 series 7 series 1 series Eco 2 series RHRA PLUS series series RHC C series Destination Japan China Europe Taiwan standard Three Three phase phase phase 100V 200V 400V Example When the inverter type is FRN1 5C 2 S 2 J L Destination Japan Input power supply 3 phase 200V Structure Standard Generation 2 series Model C Since model C is represented by code 5 generation 2 series by code 5 destination Japan standard by 1 and input power supply 3 phase 200V by 3 the model code is 55134
66. ta Capacity kW Data 0 06 6 2 220 280 28000 0 1 10 30 3000 315 31500 0 2 20 37 3700 355 35500 0 4 40 45 4500 400 40000 0 75 75 55 5500 450 45000 1 5 150 75 7500 500 50000 2 2 220 90 9000 550 55000 3 7 370 110 11000 600 60000 5 5 550 132 13200 650 60650 7 5 750 160 16000 700 60700 11 1100 200 20000 750 60750 15 1500 220 22000 800 60800 18 5 1850 250 25000 1000 61000 Example When the capacity is 2 2 kW 2 20 x 100 220 00DC4 Consequently gt 00 DCH Data format 12 Floating point data accel decal time PID display coefficient 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Pott E edd AE SAC ii Polarity 0 0 0 Exponent Mantissa L Unused 4 Polarity 0 gt Positive 1 gt Negative Exponent 0 to 3 Mantissa 1 to 999 Value expressed in this form polarity Mantissa x Exponent 2 power of 10 Value Mantissa Exponent Exponent 2 power of 10 0 01 to 9 99 1 to 999 0 0 01 10 0 to 99 9 100 to 999 1 0 1 100 to 999 100 to 999 2 1 1000 to 9990 100 to 999 3 10 Example When F07 acceleration time 1 20 0 seconds 20 0 200 x 0 1 gt 0000 0100 1100 1000 0408 3 Consequently 04 08 Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 44 Data format 14 Operation command 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 RST
67. the FRENIC Eco ROM version 1400 and higher Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 10 Table 5 21 List of data format numbers H codes Continued Name Format Support number Mini Eco Multi Ace MEGA Auto Energy Saving Operation Mode selection 1 N N N N Y H68 Slip Compensation 1 Operating conditions 1 N N Y Y Y H69 Automatic Deceleration Mode selection 1 Y Y Y Y Y H70 Overload Prevention Control 5 Y xe Y H71 Deceleration Characteristics 1 Y Y Y Y Y H72 Main Power Down Detection Mode selection 1 N N N Y Y H73 Torque Limiter Operating conditions 1 N N N N Y Control target 1 N N N Y Y H75 Target quadrants 1 N N N N Y H76 Torque Limiter Frequency increment limit for braking 3 Y N Y Y Y H77 Service Life of DC Link Bus Capacitor Remaining time 74 N N N Y Y H78 Maintenance Interval M1 74 Y N N Y Y H79 Preset Startup Count for Maintenance M1 1 Y N N Y Y Output Current Fluctuation Damping Gain for Motor 1 5 Y Y Y Y Y Light Alarm Selection 1 1 N N N Y Y Light Alarm Selection 2 1 N N N Y Y Pre excitation Initial level 1 N N N Y Y Time 5 N N N Y Y Reserved 1 N Y N Y Y 3 N Y N N Y 1 N Y N N Y 1 Y Y Y Y Y 1 N Y Y N Y PID Feedback Wire Br
68. to 9999 1000 to 9999 3 1 Data format 67 Description Operation command source codes Remarks Keypad operation Rotating direction Depends on the terminal input Same with the selections for F02 Terminal operation Keypad operation CW Keypad operation CCW Operation command 2 Forced operation Reserved RS 485 channel 21 RS 485 channel2 22 Bus option 23 FRENIC Loader Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 51 Data format 68 Frequency command source codes Code Description Remarks 0 Keypad key operation Same with the selections 1 Voltage input Terminal 12 SEN 2 Current input Terminal C1 3 Voltage input Terminal 12 Current input Terminal C1 4 Inverter body volume 5 Voltage input Terminal V2 7 UP DOWN 8 Keypad key operation Balanceless bumpless functions are activated 11 Digital input option 12 Pulse train input 20 RS 485 channel 21 RS 485 channel2 22 Bus option 23 FENIC Loader 24 Multi step 25 JOG 30 PID TP 31 PID analog 1 32 PID analog 2 33 PID UP DOWN 34 PID communications command 963 PID multi step 39 Forced operation 1 Under the PID dancer control the inverter monitors the PID command source although the frequency command becomes
69. tric Power 45 Y N N N Y 93 N N N Y N Z89 Control Circuit Terminal Input EN2 terminal 43 N N N N Y Z90 Current Position Pulse Upper column 73 N N N Y Y Z91 Lower column 1 N N N Y Y Z92 Stop Position Pulse Upper column 73 N N N Y Y 98 Lower column 1 N N N Y Y Z94 Difference Pulse of Position Upper column 73 N N N Y Y Lowercolumn 1 N IN IN Y Y 1 BUS The field bus option format is selected For details about the field bus option see the instruction manual for each field bus option Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 40 5 2 2 Data format specifications The data in the data fields of a communications frame are 16 bits long binary data as shown below 16 bit binary data For the convenience of description 16 bit data is expressed in hexadecimal with one upper order byte eight bits from 15 to 8 and one lower order byte eight bits from 7 to 0 For example the following data is 1234H in hexadecimal and expressed as 12H 34 0 0 0 1 0 0 1 0 0 0 1 1 0 1 0 0 Data format 1 nteger data positive Minimum step 1 Example When base frequency voltage 200V 200 00C8 Consequently gt 00H 08 Data format 2 Integer data positive negative Minimum step 1 Example When the value is 20 20 FFEC Consequently Data format 3 Dec
70. y History Last 41 50 Info on Alarm 3rd last Output frequency 22 Z51 Output current 24 FGI 19 RTU 24 BUS Output voltage 1 Z53 Torque 2 Set frequency 22 Z55 Running status 16 Cumulative ope time 1 Z57 Number of startups 1 DC link circuit voltage 1 Internal air temperature 1 Z60 Heat sink temperature 1 Input terminal 43 Z62 Output terminal 15 Input terminal com 14 Z64 Output terminal com 15 Running status 2 76 Speed detection 29 68 Running status 3 44 1 BUS The field bus option format is selected For details about the field bus option see the instruction manual for each field bus option Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 39 Table 5 35 List of data format numbers Z codes Continued Name Format Support number Mini Eco Multi Ace Reserved 2 N N N Y N 79 2 Z80 Speed Detection 2 N N N Y Y Z81 Torque Real Value 6 N N N Y Y Z82 Load Factor 6 N N N Y Y Z83 Motor Output 6 N N N Y Y Z84 Output Current 24 FG Y N N Y Y 19 RTU Y N N Y Y P4J BUS N N N Y Z85 PID Feedback Value 12 Y N N Y Y Z86 Input Power 24 Y N N Y Y Z87 PID Output 4 Y N N Y Y Z88 Integrating Elec

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