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14. Replacement Data � Difference of operationability of the KEYPAD panel Item FRENIC5000 VG5S FRENIC5000 VG7S LED Monitor LCD Monitor Touch Keys Operation Mode Unit Indication Function Code • Displays the set speed and the actual speed. • Displays the inverter’s operation status. • Alarm display. • Displays the function codes and their abbrebiations. • Displays the function data and the setting range. • Alarm display. • Displays the operation status (selection) in a graph. • Displays the operation guidance. • Function code display scrolls. • The shift of the digit is possible when the function data is changed. • Displays the list of the changed function codes. • Displays the current value and the changed value. 14-19 • Displays the set speed and the actual speed. • Displays the inverter’s operation status. • Alarm display. • Displays the function codes and their abbrebiations. • Displays the function data and the setting range. • Alarm display. • Displays the operation status (selection) in a graph. • Displays the operation guidance. • Function code display scrolls. • The shift of the digit is possible when the function data is changed. • Displays the list of the changed function codes. • Displays the current value and the Screen size : 13chr. x 4lines changed value. Screen size : 13chr. x 5lines (One line is for the indicator display). RUN Command key to operate the inverter. FWD,REV Command key to operate the inverter. STOP Command key to stop the inverter. STOP Command key to stop the inverter. ∧ ∧ ∨ • Increases/Decreases the setting value of the speed. • Up/Down the cursor (screen scrolls). • Increases/Decreases the setting value of the function. ∨ • Increases/Decreases the setting value of the speed. • Up/Down the cursor (screen scrolls). • Increases/Decreases the setting value of the function. PRG Switches the operation mode and program mode. PRG Switches the operation mode and program mode. >> Switches the unit indication. Digit shift in case of the function data change. SHIFT >> Switches the unit indication. Digit shift in case of the function data change. FUNC DATA Reads and writes the function data. FUNC DATA Reads and writes the function data. RESET Reset of the alarm state. RESET Reset of the alarm state. Displays the switching between the KEYPAD panel and external signal operation. Displays the switching between the KEYPAD panel and external signal operation. REM/LOC/COMM/JOG,etc. displays the mode. r/min,Hz,A,V,% r/min,Hz,A,V,kW,% • Fundamental function and 7 function block • The number of function codes : 165 Language Japanese/English LCD Electrical volume brightness (to be adjusted through the function code) Mode Switch − • Fundamental function and 10 function block • The number of function codes : 539 Japanese/English/German/French/Italian/ Spanish/Chinese/Korean Electrical volume (to be adjusted through the function code) • Switches remote and local. • Switches JOG mode.
14.6 Function Codes 14.6.1 Replacing VG5 FRENIC5000 VG5S FRENIC5000 VG7S Function codes Name Function codes Name 01 Speed setting F01 Speed setting N1 02 Operation method F02 Operation method 03 Max. speed F03 M1 max. speed 04 Acceleration time 1 F07 Acceleration time 1 05 Deceleration time 1 F08 Deceleration time 1 06 S-curve acceleration/deceleration 1 F67 to F70 S-curve acceleration/deceleration 1 07 Multistep speed 1 C05 Multistep speed 1 08 Multistep speed 2 C06 Multistep speed 2 09 Multistep speed 3 C07 Multistep speed 3 10 Multistep speed 4 C08 Multistep speed 4 11 Multistep speed 5 C09 Multistep speed 5 12 13 Multistep speed 6 / Creep speed 1 Multistep speed 7 / Creep speed 2 C10/C18 C11/C19 Multistep speed 6 / Creep speed 1 Multistep speed 7 / Creep speed 2 14 ASR1 (P gain) F61 ASR1-P(Gain) 15 (I gain) F62 ASR1-I (Constant of integration) 16 Constant on filtering (Speed setting) F64 ASR1 input filter 17 (Speed detection) F65 ASR1 detection filter 18 Torque limiter (Method selection) F40,41 Torque limiter mode 19 (Limiter value selection) F42,43 Torque limiter value selection 20 Torque limiter (Level 1) F44 Torque limiter (Level 1) 21 (Level 2) F45 (Level 2) 22 Motor electronic thermal (Select) F10 M1 motor electronic thermal (Select) 23 (Level) F11 (Level) 24 Restart after momentary power failure F14 Restart after momentary power failure (Operation selection) 25 DC brake (Time) F22 DC brake (Braking time) 26 (Level) F21 (Operation level) 27 Pre-excitation (Time) F74 Pre-excitation time 30 Function block (31-44) selection − 31 Droop control H28 Droop control 32 Filtering time constant (ASR output) F66 ASR1 output filter 33 Acceleration time 2 C46 Acceleration time 2 34 Deceleration time 2 C47 Deceleration time 2 35 S-curve acceleration/deceleration 2 C49,C50 S-curve acceleration/deceleration 2 36 Ratio setting F17 Gain (Speed setting signal 12) 37 ASR2 (P gain) C40 ASR2-P (Gain) 38 (I gain) C41 ASR2-I (Constant of integration) 39 ASR1,2 switching characteristic C70 ASR switching time 40 Torque bias (Level1) F47 Torque bias T1 41 (Level2) F48 Torque bias T2 42 Selection between torque control and torque current control H41,H42 Torque command and torque current command selection 43 Magnetic-flux command (Select) H43 Magnetic-flux command selection 44 Magnetic-flux command at light load F73 Magnetic-flux level at light load 50 Function block (51-55) selection − 51 ASR tuning (Action selection) H46 Observer type selection 52 (Operation selection) H01 Tuning operation selection 53 Observer data (Compensation gain) H47,H48 Observer settings (Compensation gain) 54 (Integration time) H49,H50 (Integration time) 55 (Load inertia) H51,H52 (Load inertia) 60 Function block (61-74) selection − 61 Motor overheat protection (temp.) E30 Motor overheat protection (temp.) 62 Motor overheat early warning (temp.) E31 Motor overheat early warning (temp.) 63 Inverter overload early warning (Level) E33 Inverter overload early warning 64 Motor overload early warning (Level) E34 Motor overload early warning 65 Zero speed detection (Level) F37 Stop speed 14-20
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12. Operation Data 12.1 Frequency R
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12. Operation Data 12.5 Impact load
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12. Operation Data 12.8 Speed-torqu
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12. Operation Data 12.11 Comparison
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13.2 Function Code List 13.2.1 Func
Page 13 and 14: Communication Control type: Availab
Page 21 and 22: Communication address Fcode Functio
Page 23 and 24: Fcode Communication address 485 num
Page 25 and 26: H: High Performance Functions Commu
Page 27 and 28: Communication address Fcode 485 Lin
Page 33 and 34: Communication address Fcode Functio
Page 35 and 36: 13.3 Function Code List Dedicated t
Page 37 and 38: 485 Min increment Unit Type number
Page 39 and 40: Type [14]: Cause of alarm 15 12 8 7
Page 41 and 42: Type [29]: Inverter model (common t
Page 43 and 44: Type [35]: X function normally open
Page 46 and 47: 14. Replacement Data When replacing
Page 48 and 49: 14. Replacement Data 14.2.2 Replaci
Page 50 and 51: 14. Replacement Data 14.3 Terminal
Page 56 and 57: 14. Replacement Data 14.4 Terminal
Page 58 and 59: 14. Replacement Data Cat- ego- ry T
Page 60 and 61: 14. Replacement Data Cat- ego- ry A
Page 66 and 67: 14. Replacement Data FRENIC5000 VG5
Page 70 and 71: 14. Replacement Data FRENIC5000 VG3
Page 72 and 73: 14. Replacement Data � 400V serie
Page 80 and 81: 14. Replacement Data 14.9 Options 1
Page 82: 14. Replacement Data 14.9.3 Replaci
Page 85 and 86: 2 Noise A summary of the noise gene
Page 87 and 88: C C Figure 5 Electrostatic Noise (3
Page 89 and 90: Table 1 Noise Prevention Methods Wi
Page 91 and 92: 3.3 Specific Examples Table 2 lists
Page 93 and 94: No. Target device Phenomena Noise p
Page 95 and 96: Appendix 2. Effect on Insulation of
Page 97 and 98: 4 Countermeasures Against Surge Vol
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