Easy maintainance. Improved control performance. Environmental Compatibility. Versatile applications. High Performance Multifunctional Inverters

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1 Maximum Engineering for Global Advantage High Performance Multifunctional Inverters Maximum Engineering for Global Advantage Characteristics Warranty Model Variations Improved control performance I Available control methods: PG vector control, sensorless vector control, dynamic torque vector control, PG ClosedLoop control, and V/f control II Improved performance in current response and speed response (vector control) III Improved durability in overload operation LD (Low duty) spec: % for min : For fans and pumps applications MD (Medium duty) spec: % for min : For constant torque applications HD (High duty) spec: % for sec / % for min : For general industry applications I Versatile applications Various functions that accommodate a broad range of applications Examples: customizable control logic through the builtin PLC functionality, pulse train input for speed and direction, ratio operation of the main speed, positioning control, output brake signal for mechanical braking control, etc... II Expanded power ratings for which the dynamic braking transistor is builtin Provided as standard on models rated up through 4Hp(LD) III Connectivity to various networks Ethernet TCP/IP, Deviceet, Profibus DP, CCLink, etc... IV Compliance with Safety Standard (E94 Cat.) Safe torque off function that shuts off the power to the inverters output coasting the motor to a stop Maximum Engineering for Global Advantage I Easy maintainance Multifunction keypad II Keypad with a USB Port (optional) III Maintenance warning signal output Reference material Options External Dimensions Function Settings Terminal Functions Basic Wiring Diagram Common Specifications Standard Specifications Inverter PC Software Keypad Functionality IV Long life cycle Environmental Compatibility I Model variation meeting customers needs Standard Inverter Inverter with DC Reactor Builtin II Compliance with RoHS Directives III Improved protection to environmental conditions

2 Best in class vector control for generalpurpose inverters Ideal for high accuracy positioning control PG vector control Effective in providing highly accurate control for applications such as printing presses. Speed control range: : Speed response: Hz Speed control accuracy: ±.% Current response: Hz Torque accuracy: ±% * The option card is required separately. * The above specifications may vary depending on the environment or conditions for use. Maximizing motor performance Speed sensorless vector control Useful for applications that require a high starting torque, such as the gondola type multilevel car parking tower Speed control range: : Speed response: Hz Speed control accuracy: ±.% Current response: Hz Torque accuracy: ±% Further Improved Fuji's original dynamic torque vector control In addition to the dynamic torque vector control, the inverter has a constant tuning mode of operation that will compensate for voltage errors in the main circuit devices. The inverter also utilizes a new magnetic flux observer for more precise operation. This allows for a high starting torque of %, even at low speed (. Hz). Improved reaction to fluctuation of an impact load When a substantial load fluctuation occurs, the inverter provides a torque response that is best in class. It controls the flux to minimize the fluctuation in motor speed while suppressing the vibration. This function is best suited for the equipment that requires stable speed operation such as a cutting machine. Example: ms Torque(%) Motor speed ( r/min) Motor speed Our previous model MEGA controls the speed and torque better than the previous models in the settled state. ms Example torque characteristics [.kw ] Improved durability in overload operation The inverter performs quick acceleration and deceleration tasks, at maximum power, by extending the overload time as compared with previous models. This improves the operation efficiency of the applications such as cutting machines and conveyors. Overload capability: % for s and % for min. The standard model is available in two specifications concerning the operation load. Classification Overload current rating Major use HD (High duty) spec % for sec, % for min Operation under heavy load MD (Medium duty) spec % for min Operation under constant torque load LD (Low duty) spec % for min Operation under light load Expanded power ratings for builtin braking transistor For models with power ratings up through 4Hp(LD) the dynamic braking transistor is builtin and is provided as standard. This functionality is utilized for applications where the load requires additional deceleration control such as vertical conveyance machines. * Power ratings on models up through Hp(LD) also include a dynamic braking resistor. ** For 46V power ratings on models of Hp(LD) through Hp(LD) the builtin dynamic braking transistor is available upon request. 4 Load torque Quicker response to the operation commands The terminal response to the operation commands has an established reputation. FREICMEGA has further shortened this response time, achieving an industrybest response time. This function is effective in shortening the tact time per cycle and effective for use in the process including frequent repetitions. Example: OFF O Approx. 4ms Response start Output current Control terminal signal (operation command) Terminal response time example per command Previous model : Approx. 4ms : Approx. 6ms Response time shortened by approx. ms

3 Maximum Engineering for Global Advantage Accommodating various applications Convenient function for operation at a specified speed The pulse train input function is provided as standard. It is possible to issue a speed command with the pulse train input (singlephase pulse and a sign of command value) from a pulse generator, etc. (Maximum pulse input: khz) PLC Pulse MEGA Motor Optimum function for preventing an object from falling The reliability of the brake signal was increased for uses such as vertical conveyance. Conventionally, the current value and the frequency have been monitored when the brake signal is output. By adding a torque value to these two values, the brake timing can be adjusted more easily. Characteristics Model Variations Keypad Functionality Speed Ratio operation The Ratio operation function is used to adjust the speed differences between two different sections of a machine/process. Using one main speed reference, two or more inverters can have their speeds modified by an analog ratio signal. On conveyor systems, one conveyor can be made to run slightly faster to match speed with another based on gear box ratio differences. Frequency input Main speed (line speed) Frequency output Ratio 9% Frequency output 9% Frequency output Input range: to +V, to V, 4 to ma Frequency Analog input (Ratio ) = input x % Frequency output 9% 8% "Total" protection of the braking circuit The inverter protects the braking resistor by monitoring the braking transistor operation. The inverter outputs an exclusive signal on detection of the braking transistor abnormality. A circuit for shutting off the input power supply must be provided outside of the inverter. When this signal is output, the power is shut off; thus protecting the braking circuit. Dancer control function optimized for winding control The PID value, which is calculated by comparing the target value and the feedback value, is added to or subtracted from the reference line speed. Since the PID calculator proportional gain can be adjusted to have a MEGA FAST response. The inverter can be applied to automatic control systems where quick response may be required. Upper limit Fixed roll Reference position Lower limit Dancer roll F Fixed roll Position information ex.v to V Potentiometer, etc. Line speed is adjusted according to the position of the dancer roll. Winding machine Rotation speed control Extended functions for various applications () Safety function meets E94 Cat.. () Analog inputs: voltage input through terminals with polarity, current input through terminal () Slow flowrate level stop function (Pressurized operation is possible before slow flowrate operation stop.) (4) onlinear V/f pattern at points () Dummy failure output function (6) Selection of up to the 4 motors (7) Scurve accel./decel. range (8) Detecting loss of PID feedback Function Settings Terminal Functions Basic Wiring Diagram Common Specifications Standard Specifications Inverter PC Software Applications with MEGA keep expanding PG option card This control function is best suited for the application that requires highly accurate positioning such as that of the conveyance machine. By combined use of the automatic position regulater (APR) and PG vector control, the position control accuracy has been remarkably improved. Shortened positioning time by this function will be helpful to reduce the tact time of a cycle. Example: Fixed length marking system Start point Moving direction Object to be marked Reference position Position detection sensor [LS] Position control section Belt conveyor Marker Target stop point Builtin PLC Functionality Logic input/output can be easily created by parameter. This makes it possible to simplify the peripheral circuits. ECLB or MCCB The interface is available in steps using inputs, output, logical operation, and the timer function. MC BS BS M Motor Introducing servo lock function (PG option card). This function is effective in adjusting the stop timing or the braking torque when the equipment such as a conveyance machine is stopped by positioning of the motor. This function is helpful when torque is applied externally or holding torque is required during the stop time. The tact time per cycle will be reduced by shortened deceleration time. R MC Warranty Reference material Options External Dimensions

4 Multifunction Keypad Features: LCD with intelligent backlight feature for better viewing Large 7segment LED with digit display for excellent visibility from a distance Quick setup parameter list that can be customer modified Fully functional Remote/Local key for switching between operation commands and speed references different parameter sets can be saved and copied Various display languages English, Spanish, French, German, Italian and Japanese Keypad with USB port Type: TPGWJ Type: TPEU (Optional) The builtin USB port allows use of a personal computer loader software for easy information control! Improved working efficiency at the manufacturing site A variety of data from the inverter can be saved in keypad can be transferred from the USB port of the keypad memory, allowing you to check the information at any directly to the computer (personal computer loader) at the time. manufacturing site. Periodical collection of life information can be carried out Example of use in the office efficiently. The realtime tracing function permits the operator to check the equipment for abnormality. Example of use in the manufacturing site Features. The keypad can be directly connected to the computer through a commercial USB cable (Mini B) without using a converter. The computer can be connected online with the inverter.. With the personal computer loader software, the inverter can support the following functions () to (). () Editing, comparing, and the function code data () Operation monitor, and realtime trace () Alarm history (indicating the latest four alarms) (4) Maintenance information () Historical trace Personal computer loader Allows operation of the inverter connected online with the PC. Remote keypad Information can be written in the keypad memory. 6

5 Maximum Engineering for Global Advantage Connectivity Builtin network functionality RS48 communication is provided as standard In addition to the RJ4 connection port which is shared with the inverter keypad, RS48 terminals are provided as standard on the control terminal board allowing multidrop network connections to be made easily. RJ4 connector Available network option cards Ethernet TCP/IP Deviceet * Design life values are calculated and not guaranteed. RS48 terminals (DX+, DX, SD) enabling multidrop connections Prolonged service life and improved maintenance alarm function ear design life Full support of maintenance warnings The design life for the replaceable components of the inverter is years. Replacement Part Main circuit capacitor Electrolytic capacitor on PCB Cooling fan CAopen CCLink Designed life years years years Conditional factors used for determining component design life are as follows: the inverter is operated in an ambient air temperature of 4 C(4 F) and the average load is 8%(LD) or %(HD) of the inverter output rating. TLink interface card PROFIBUS DP The inverter is loaded with many different functions for facilitating maintenance of the equipment. Item Purpose Cumulative inverter run time (h) umber of inverter startups Equipment maintenance warning Cumulative run time (h) umber of startups Display of inverter life warning SX bus interface card Displays the total run time of the inverter. Displays the number of times the inverter has started the equipment. Example of use: This data indicates the timing to replace the equipment parts (such as a timing belt) operating under the normal load. By inputting the signal for operation with the commercial power supply, the time outside the inverter operation time can also be measured. This makes it possible to manage the total run time of the equipment and the number of startups. Such data is usable for preparing the maintenance schedule. The displayed contents include: main circuit capacitor capacity, total run time of the cooling fan (with O/OFF compensation), total run time of the electrolytic capacitor on the printed circuit board, and total run time of the inverter. Model Variations Characteristics Warranty Reference material Options External Dimensions Function Settings Terminal Functions Basic Wiring Diagram Common Specifications Standard Specifications Inverter PC Software Keypad Functionality 7

6 Environment Friendly Designed Improved protection to environmental conditions Protection to conditions of the installation environment has been improved as compared to the previous series of general purpose inverters. () The durability of the cooling fans has been improved to provide additional coatings and connector sealing. () Copper bus bars are provided with nickel (i) and tin (Sn) plating. FREICMEGA's protection to environmental conditions has been improved compared to FREICGS/PS. However, careful examination of the installation environment prior to use of the inverter should be done under the following conditions: a. The environment is subject to sulfide gas (examples include: tire manufacturing, paper manufacturing, waste water processing, part of a textile process, etc...) b. The environment is subject to conductive dust or foreign matter (examples include: metalworking, extruding, printing, waste disposal, etc...) c. The environmental conditions exceed or do not match the environment specifications of the inverter. For applications planning to utilize the inverter in any of the above environmental conditions please consult with Fuji Electric. Compliance with RoHS Directives MEGA complies with European regulations that limit the use of specific hazardous substances (RoHS) as a standard. This inverter is environmentfriendly as the use of the following six hazardous substances is restricted. Lead, mercury, cadmium, hexavalent chromium, polybrominated biphenyl (PBB), and polybrominated biphenyl ether (PBDE) The Directive /96/EC, promulgated by the European Parliament and European Council, limits the use of specific hazardous substances included in electrical and electronic devices. Global compatibility Application to the world standards pending Europe orth America/Canada EC Directive (CE marking) UL standard (cul certified) Wide voltage range Applicable to 48V and 4V power supplies as standard 8

7 Model Variations Maximum Engineering for Global Advantage Model list ominal applied motor (HP) How to read the inverter model Code FR Code F Code G Caution LD : Low Duty spec % for min MD : Medium Duty spec % for min HD : High Duty spec % for sec, % for min Standard Inverter Threephase V series LD spec (%) HD spec (%) LD spec (%) MD spec (%) HD spec (%) FRFGSU FRGSU FRGSU FRGSU FRGSU FR7GSU FRGSU FRGSU FRGSU FRGSU FRGSU FR4GSU FRGSU FR6GSU FR7GSU FRGSU FRGSU FRGSU FRFGSU FRGSU FRGSU FRGSU FRGSU FR7GSU FRGSU FRGSU FRGSU FRGSU FRGSU FR4GSU FRGSU FR6GSU FR7GSU FRGSU FRGSU FRGSU FRFGS4U FRGS4U FRGS4U FRGS4U FRGS4U FR7GS4U FRGS4U FRGS4U FRGS4U FRGS4U FRGS4U FR4GS4U FRGS4U FR6GS4U FR7GS4U FRGS4U FRGS4U FRGS4U FRGS4U FRGS4U FRGS4U FRGS4U FRGS4U FRGS4U FRGS4U FRGS4U FRGS4U FRFGS4U FRGS4U FRGS4U FRGS4U FRGS4U FR7GS4U FRGS4U FRGS4U FRGS4U FRGS4U FRGS4U FR4GS4U FRGS4U FR6GS4U FR7GS4U FRGS4U FRGS4U FRGS4U FRGS4U FRGS4U FRGS4U FRGS4U FR4GS4U FR4GS4U Series name FREIC series ominal applide motor (LD).HP HP Applicable area High performance, multifunction Threephase 46 V series FR4GS4U FRGS4U FR6GS4U FR7GS4U FR8GS4U FR9GS4U FRGS4U FRGS4U FR6GS4U FR7GS4U FR8GS4U FRGS4U FR6GS4U FR7GS4U FR8GS4U FR9GS4U FRGS4U FR G S 4 U The contents of this catalog are provided to help you select the product model that is best for you. Before the actual use, be sure to read the User s Manual thoroughly for proper operations. Code U Code 4 Code S Code Shipping destination/ Instruction manual language USA/English Power supply voltage Threephase V Threephase 46V Enclosure Basic type (IP/IP) Development code *A multifunction keypad (TPGWJ) is included as standard equipment for inverters. Please select and use remote control keypad (TPEU) as option, if necessary. *The external DC reactor is included as standard for HP and above. DC Reactor listed on reference section in this catalog. Model Variations Characteristics Warranty Reference material Options External Dimensions Function Settings Terminal Functions Basic Wiring Diagram Common Specifications Standard Specifications Inverter PC Software Keypad Functionality 9

8 Maximum Engineering for Global Advantage Terminal Arrangement Main circuit terminals Threephase V FRFGSU FRGSU FRGSU FRGSU FRGSU FR7GSU FRGSU FRGSU FRGSU FRGSU FRGSU FR4GSU FRGSU FR6GSU FR7GSU FRGSU FRGSU FRGSU Inverter type Threephase 46 V FRFGS4U FRGS4U FRGS4U FRGS4U FRGS4U FR7GS4U FRGS4U FRGS4U FRGS4U FRGS4U FRGS4U FR4GS4U FRGS4U FR6GS4U FR7GS4U FRGS4U FRGS4U Refer to: Figure A Figure B Figure C Figure D Figure E Figure F FRGS4U Figure G FRGS4U Figure M FRGS4U Figure H FRGS4U FRGS4U Figure I FR4GS4U FRGS4U Figure J FR6GS4U FR7GS4U Figure K FR8GS4U FR9GS4U Figure L FRGS4U Model Variations Characteristics Warranty Reference material Options External Dimensions Function Settings Terminal Functions Basic Wiring Diagram Common Specifications Standard Specifications Inverter PC Software Keypad Functionality

9 Function Settings Function Settings F codes: Fundamental Functions Code ame range Protection Frequency Command Operation Method Maximum Frequency Base Frequency Rated Voltage at Base Frequency Maximum Output Voltage Acceleration Time Deceleration Time Torque Boost Electronic Thermal Overload Protection for Motor (Select motor characteristics) (Overload detection level) (Thermal time constant) Restart Mode after Momentary Power Failure (Mode selection) Frequency Limiter (High) (Low) Bias (Frequency command ) DC Braking (Braking starting frequency) (Braking level) (Braking time) Starting Frequency (Holding time) Stop Frequency Motor Sound (Carrier frequency) (Tone) Analog Output [FM] (Mode selection) (Voltage adjustment) (Function) Analog Output [FM] (Mode selection) (Voltage adjustment) Pulse Output [FMP] (Mode selection) : Disable both data protection and digital reference protection : Enable data protection and disable digital reference protection : Disable data protection and enable digital reference protection : Enable both data protection and digital reference protection : / keys on keypad : Voltage input to terminal [] ( to + VDC) : Current input to terminal [C] (4 to ma DC) : Sum of voltage and current inputs to terminals [] and [C] : Voltage input to terminal [V] ( to + VDC) 7 : Terminal command UP/DOW control 8 : / keys on keypad (balancelessbumpless switching available) : Digital input interface card (option) : Pulse train input : Keypad : Terminal command FWD or REV : Keypad (Forward direction) : Keypad (Reverse direction). to. Hz. to. Hz : Output a voltage in proportion to input voltage 8 to 4 V : Output an AVRcontrolled voltage (for V series) 6 to V : Output an AVRcontrolled voltage (for 46 V series) 8 to 4 V : Output an AVRcontrolled voltage (for V series) 6 to V : Output an AVRcontrolled voltage (for 46 V series). to 6 s ote: Entering. cancels the acceleration time, requiring external softstart..% to.% (percentage with respect to "Rated Voltage at Base Frequency ") : For a generalpurpose motor with shaftdriven cooling fan : For an inverterdriven motor, nonventilated motor, or motor with separately powered cooling fan.: Disable % to % of the rated current (allowable continuous drive current) of the motor. to 7. min : Trip immediately : Trip after a recovery from power failure : Trip after deceleratetostop : Continue to run, for heavy inertia or general loads 4 : Restart at the frequency at which the power failure occurred, for general loads : Restart at the starting frequency. to. Hz. to. Hz.% to.%. to 6. Hz % to 8% (LD/MD mode) *4, % to % (HD mode). (Disable);. to. s. to 6. Hz. to. s. to 6. Hz.7 to 6 khz (LDmode inverters of. to HP and HDmode ones of. to HP).7 to khz (LDmode inverters of 4 to HP and HDmode ones of to 8 HP).7 to 6 khz (LDmode inverters of to 9 HP and HDmode ones of 9 and HP).7 to 4 khz (LDmode inverters of HP).7 to khz (MDmode inverters of to 8 HP) : Level (Inactive) : Level : Level : Level : Output in voltage ( to VDC) : Output in current (4 to ma DC) : Output in current ( to ma DC) % to % Select a function to be monitored from the followings. : Output frequency (before slip compensation) : Output frequency (after slip compensation) : Output current : Output voltage 4 : Output torque : Load factor 6 : Input power 7 : PID feedback amount (PV) 8 : PG feedback value 9 : DC link bus voltage : Universal AO : Motor output 4 : Calibration (+) : PID command (SV) 6 : PID output (MV) 7 : Positional deviation in synchronous operation : Output in voltage ( to VDC) : Output in current (4 to ma DC) : Output in current ( to ma DC) % to % Select a function to be monitored from the followings. : Output frequency (before slip compensation) : Output frequency (after slip compensation) : Output current 4 * * * * *. * *

10 Maximum Engineering for Global Advantage F codes: Fundamental Functions Code ame range Analog Output [FM] (Function) Load Selection/ Auto Torque Boost/ Auto Energy Saving Operation Stop Frequency (Detection mode) (Holding Time) Torque Limiter Drive Control Selection Current Limiter (Mode selection) (Level) Electronic Thermal Overload Protection for Braking Resistor (Discharging capability) (Allowable average loss) (Resistance) Switching between LD, MD and HD drive modes The shaded function codes ( ) are applicable to the quick setup. * 6. s for inverters of 4 HP or below;. s for those of HP or above * The motor rated current is automatically set. See Table B (P/A7/b7/r7). *. min for inverters of 4 HP or below;. min for those of HP or above : Output voltage 4 : Output torque : Load factor 6 : Input power 7 : PID feedback amount (PV) 8 : PG feedback value 9 : DC link bus voltage : Universal AO : Motor output 4 : Calibration (+) : PID command (SV) 6 : PID output (MV) 7 : Positional deviation in synchronous : Variable torque load : Constant torque load : Auto torque boost : Auto energy saving (Variable torque load during ACC/DEC) 4 : Auto energy saving (Constant torque load during ACC/DEC) : Auto energy saving (Auto torque boost during ACC/DEC) : Detected speed : Reference speed. to. s % to %; 999 (Disable) % to %; 999 (Disable) : V/f control with slip compensation inactive : Dynamic torque vector control : V/f control with slip compensation active : V/f control with speed sensor 4 : Dynamic torque vector control with speed sensor : Vector control without speed sensor 6 : Vector control with speed sensor : Disable (o current limiter works.) : Enable at constant speed (Disable during ACC/DEC) : Enable during ACC/constant speed operation % to % (The data is interpreted as the rated output current of the inverter for %.) (Braking resistor builtin type), to 9 kws, OFF (Disable). to kw. to 999Ω : HD (High Duty) mode : LD (Low Duty) mode : MD (Medium Duty) mode E codes: Extension Terminal Functions Code ame range Terminal [X] Function Terminal [X] Function Terminal [X] Function Terminal [X4] Function Terminal [X] Function Terminal [X6] Function Terminal [X7] Function * 6. s for inverters of 4 HP or below;. s for those of HP or above * The motor rated current is automatically set. See Table B (P/A7/b7/r7) * *6.. *4 % to % for inverters of HP or below * 6% for inverters of HP or below; % for those of HP or above *6 for inverters of HP or below; OFF for those of HP or above Selecting function code data assigns the corresponding function to terminals [X] to [X7] as listed below. () : Select multifrequency ( to steps) (SS) () : Select multifrequency ( to steps) (SS) () : Select multifrequency ( to 7 steps) (SS4) () : Select multifrequency ( to steps) (SS8) 4 (4) : Select ACC/DEC time ( steps) (RT) () : Select ACC/DEC time (4 steps) (RT) 6 (6) : Enable wire operation (HLD) 7 (7) : Coast to a stop (BX) 8 (8) : Reset alarm (RST) 9 (9) : Enable external alarm trip (9 = Active OFF, 9 = Active O) (THR) () : Ready for jogging (JOG) () : Select frequency command / (Hz/Hz) () : Select motor (M) : Enable DC braking (DCBRK) 4 (4) : Select torque limiter level / (TL/TL) : Switch to commercial power ( Hz) (SW) 6 : Switch to commercial power (6 Hz) (SW6) 7 (7) : UP (Increase output frequency) (UP) 8 (8) : DOW (Decrease output frequency) (DOW) 9 (9) : Enable data change with keypad (WEKP) () : Cancel PID control (Hz/PID) () : Switch normal/inverse operation (IVS) () : Interlock (IL) () : Cancel torque control (Hz/TRQ) 4 (4) : Enable communications link via RS48 or fieldbus (option) (LE) () : Universal DI (UDI) 6 (6) : Enable auto search for idling motor speed at starting (STM) () : Force to stop ( = Active OFF, = Active O) (STOP) () : Preexcitation (EXITE) () : Reset PID integral and differential components (PIDRST) 4 8 Model Variations Characteristics Warranty Reference material Options External Dimensions Function Settings Terminal Functions Basic Wiring Diagram Common Specifications Standard Specifications Inverter PC Software Keypad Functionality

11 Function Settings Function Settings E codes: Extension Terminal Functions Code ame range Terminal [X7] Function Acceleration Time Deceleration Time Acceleration Time Deceleration Time Acceleration Time 4 Deceleration Time 4 Torque Limiter Torque Limiter Terminal [] Function Terminal [] Function Terminal [] Function Terminal [4] Function Terminal [A/C] Function Terminal [A/B/C] Function (Relay output) 4 (4) : Hold PID integral component (PIDHLD) () : Select local (keypad) operation (LOC) 6 (6) : Select motor (M) 7 (7) : Select motor 4 (M4) 9 : Protect motor from dew condensation (DWP) 4 : Enable integrated sequence to switch to commercial power ( Hz) (ISW) 4 : Enable integrated sequence to switch to commercial power (6 Hz) (ISW6) 47 (47) : Servolock command (LOCK) 48 : Pulse train input (available only on terminal [X7] (E7)) (PI) 49 (49) : Pulse train sign (available on terminals except [X7] (E to E6)) (SIG) 9 (9) : Enable battery operation (BATR) 7 (7) : Cancel constant peripheral speed control (Hz/LSC) 7 (7) : Hold the constant peripheral speed control frequency in the memory (LSCHLD) 7 (7) : Count the run time of commercial powerdriven motor (CRUM) 7 (7) : Count the run time of commercial powerdriven motor (CRUM) 74 (74) : Count the run time of commercial powerdriven motor (CRUM) 7 (7) : Count the run time of commercial powerdriven motor 4 (CRUM4) 76 (76) : Select droop control (DROOP) 77 (77) : Cancel PG alarm (PGCCL) 8 (8) : Cancel customizable logic (CLC) 8 (8) : Clear all customizable logic timers (CLTC) : o function assigned (OE) () : Servo lock gain selection (SLG) () : Force to stop only by terminal (STOPT) Setting the value in parentheses ( ) shown above assigns a negative logic input to a terminal.. to 6 s ote: Entering. cancels the acceleration time, requiring external softstart and stop. % to %; 999 (Disable) % to %; 999 (Disable) Selecting function code data assigns the corresponding function to terminals [] to [A/C] and [A/B/C] as listed below. () : Inverter (RU) () : Frequency (speed) arrival signal (FAR) () : Frequency (speed) detected (FDT) () : Undervoltage detected (Inverter stopped) (LU) 4 (4) : Torque polarity detected (B/D) () : Inverter output limiting (IOL) 6 (6) : Autorestarting after momentary power failure (IPF) 7 (7) : Motor overload early warning (OL) 8 (8) : Keypad operation enabled (KP) () : Inverter ready to run (RD) : Switch motor drive source between commercial power and inverter output (For MC on commercial line) (SW88) : Switch motor drive source between commercial power and inverter output (For secondary side) (SW) : Switch motor drive source between commercial power and inverter output (For primary side) (SW) () : Select AX terminal function (For MC on primary side) (AX) () : Inverter output limiting with delay (IOL) () : Cooling fan in operation (FA) 6 (6) : Autore (TR) 7 (7) : Universal DO (UDO) 8 (8) : Heat sink overheat early warning (OH) 9 (9) : Synchronization completed (S) () : Lifetime alarm (LIFE) () : Frequency (speed) detected (FDT) () : Reference loss detected (REF OFF) () : Inverter output on (RU) 6 (6) : Overload prevention control (OLP) 7 (7) : Current detected (ID) 8 (8) : Current detected (ID) 9 (9) : Current detected (ID) 4 (4) : Low current detected (IDL) 4 (4) : PID alarm (PIDALM) 4 (4) : Under PID control (PIDCTL) 44 (44) : Motor stopped due to slow flowrate under PID control (PIDSTP) 4 (4) : Low output torque detected (UTL) 46 (46) : Torque detected (TD) 47 (47) : Torque detected (TD) 48 (48) : Motor selected (SWM) 49 (49) : Motor selected (SWM) () : Motor selected (SWM) () : Motor 4 selected (SWM4) () : Running forward (FRU) () : Running reverse (RRU) 4 (4) : In remote operation (RMT) 6 (6) : Motor overheat detected by thermistor (THM) 7 (7) : Brake signal (BRKS) 8 (8) : Frequency (speed) detected (FDT) 9 (9) : Terminal [C] wire break (COFF) * * * * * *

12 Maximum Engineering for Global Advantage E codes: Extension Terminal Functions Code ame range Terminal [A/B/C] Function (Relay output) Frequency Arrival (Hysteresis width) Frequency Detection (Level) (Hysteresis width) Overload Early Warning/Current Detection (Level) Frequency Detection (Level) Current Detection / Low Current Detection (Level) PID Display Coefficient A PID Display Coefficient B LED Display Filter LED Monitor (Item selection) (Display when stopped) LCD Monitor (Item selection) (Language selection) (Contrast control) LED Monitor (Speed monitor item) Coefficient for Speed Indication Display Coefficient for Input Watthour Keypad (Menu display mode) Frequency Detection (Level) Current Detection (Level) Terminal [] Extended Function Terminal [C] Extended Function Terminal [V] Extended Function Saving of Digital Reference Frequency Reference Loss Detection (Continuous frequency) Torque Detection (Level) Torque Detection / Low Torque Detection (Level) 7 (7) : Speed valid (DZS) 7 (7) : Speed agreement (DSAG) 7 (7) : Frequency (speed) arrival signal (FAR) 76 (76) : PG error detected (PGERR) 8 (8) : Positioning completion signal (PSET) 84 (84) : Maintenance timer (MT) 98 (98) : Light alarm (LALM) 99 (99) : Alarm output (for any alarm) (ALM) (): Enable circuit failure detected (DECF) (): Enable input OFF (E OFF) (): Braking transistor broken (DBAL) (): Customizable logic output signal (CLO) (): Customizable logic output signal (CLO) (): Customizable logic output signal (CLO) 4 (4): Customizable logic output signal 4 (CLO4) (): Customizable logic output signal (CLO) Setting the value in parentheses ( ) shown above assigns a negative logic output to a terminal.. to. Hz. to. Hz. to. Hz. (Disable); Current value of % to % of the inverter rated current. to 6.s. to. Hz. (Disable); Current value of % to % of the inverter rated current. to 6. s 999 to. to to. to 999. to. s : Speed monitor (select by E48) : Output current 4 : Output voltage 8 : Calculated torque 9 : Input power : PID command : PID feedback amount 4 : PID output : Load factor 6 : Motor output 7 : Analog input : Torque current (%) 4 : Magnetic flux command (%) : Input watthour : Specified value : Output value : Running status, rotational direction and operation guide : Bar charts for output frequency, current and calculated torque Type: TPGWJ : Japanese : English : German : French 4 : Spanish : Italian (Low) to (High) : Output frequency (Before slip compensation) : Output frequency (After slip compensation) : Reference frequency : Motor speed in r/min 4 : Load shaft speed in r/min : Line speed in m/min 7 : Display speed in %. to.. (Cancel/reset),. to 9999 : Function code data editing mode (Menus #, #, and #7) : Function code data check mode (Menus # and #7) : Fullmenu mode. to. Hz. (Disable); Current value of % to % of the inverter rated current. to 6. s : one : Auxiliary frequency command : Auxiliary frequency command : PID command : PID feedback amount 6 : Ratio 7 : Analog torque limit value A 8 : Analog torque limit value B : Torque command : Torque current command : Analog input monitor : Automatic saving (when main power is turned OFF) : Saving by pressing key : Decelerate to stop, % to %, 999: Disable % to %. to 6. s % to %. to 6. s *. 6. * * Model Variations Characteristics Warranty Reference material Options External Dimensions Function Settings Terminal Functions Basic Wiring Diagram Common Specifications Standard Specifications Inverter PC Software Keypad Functionality

13 Function Settings Function Settings E codes: Extension Terminal Functions Code ame range Terminal [FWD] Function Terminal [REV] Function The shaded function codes ( ) are applicable to the quick setup. * 6. s for inverters of 4 HP or below;. s for those of HP or above * The motor rated current is automatically set. See Table B (P/A7/b7/r7). Selecting function code data assigns the corresponding function to terminals [FWD] and [REV] as listed below. () : Select multifrequency ( to steps) (SS) () : Select multifrequency ( to steps) (SS) () : Select multifrequency ( to 7 steps) (SS4) () : Select multifrequency ( to steps) (SS8) 4 (4) : Select ACC/DEC time ( steps) (RT) () : Select ACC/DEC time (4 steps) (RT) 6 (6) : Enable wire operation (HLD) 7 (7) : Coast to a stop (BX) 8 (8) : Reset alarm (RST) 9 (9) : Enable external alarm trip (9 = Active OFF, 9 = Active O) (THR) () : Ready for jogging (JOG) () : Select frequency command / (Hz/Hz) () : Select motor (M) : Enable DC braking (DCBRK) 4 (4) : Select torque limiter level / (TL/TL) : Switch to commercial power ( Hz) (SW) 6 : Switch to commercial power (6 Hz) (SW6) 7 (7) : UP (Increase output frequency) (UP) 8 (8) : DOW (Decrease output frequency) (DOW) 9 (9) : Enable data change with keypad (WEKP) () : Cancel PID control (Hz/PID) () : Switch normal/inverse operation (IVS) () : Interlock (IL) () : Cancel torque control (Hz/TRQ) 4 (4) : Enable communications link via RS48 or fieldbus (LE) () : Universal DI (UDI) 6 (6) : Enable auto search for idling motor speed at starting (STM) () : Force to stop ( = Active OFF, = Active O) (STOP) () : Preexcitation (EXITE) () : Reset PID integral and differential components (PIDRST) 4 (4) : Hold PID integral component (PIDHLD) () : Select local (keypad) operation (LOC) 6 (6) : Select motor (M) 7 (7) : Select motor 4 (M4) 9 : Protect motor from dew condensation (DWP) 4 : Enable integrated sequence to switch to commercial power ( Hz) (ISW) 4 : Enable integrated sequence to switch to commercial power (6 Hz) (ISW6) 47 (47) : Servolock command (LOCK) 49 (49) : Pulse train sign (SIG) 9 (9) : Enable battery operation (BATR) 7 (7): Cancel constant peripheral speed control (Hz/LSC) 7 (7) : Hold the constant peripheral speed control frequency in the memory (LSCHLD) 7 (7) : Count the run time of commercial powerdriven motor (CRUM) 7 (7) : Count the run time of commercial powerdriven motor (CRUM) 74 (74) : Count the run time of commercial powerdriven motor (CRUM) 7 (7) : Count the run time of commercial powerdriven motor 4 (CRUM4) 76 (76) : Select droop control (DROOP) 77 (77) : Cancel PG alarm (PGCCL) 8 (8) : Cancel customizable logic (CLC) 8 (8) : Clear all customizable logic timers (CLTC) 98 : Run forward (FWD) 99 : Run reverse (REV) : o function assigned (OE) Setting the value in parentheses ( ) shown above assigns a negative logic input to a terminal C codes: Control Functions of Frequency Code ame range Jump Frequency (Hysteresis width) Multifrequency to. Hz. to. Hz. to. Hz V/f w/o PG w/ PG

14 Maximum Engineering for Global Advantage C codes: Control Functions of Frequency Code ame range Jogging Frequency Frequency Command Analog Input Adjustment for [] (Offset) (Gain) (Filter time constant) (Gain base point) (Polarity) Analog Input Adjustment for [C] (Offset) (Gain) (Filter time constant) (Gain base point) Terminal [C] Range Selection Analog Input Adjustment for [V] (Offset) (Gain) (Filter time constant) (Gain base point) (Polarity) Bias (Frequency command ) (Bias base point) Bias (PID command ) (Bias value) (Bias base point) Selection of ormal/inverse Operation (Frequency command ) P codes: Motor Parameters. to. Hz : Enable / keys on the keypad : Voltage input to terminal [] ( to + VDC) : Current input to terminal [C] (4 to ma DC) : Sum of voltage and current inputs to terminals [] and [C] : Voltage input to terminal [V] ( to + VDC) 7 : Terminal command UP/DOW control 8 : Enable / keys on the keypad (balancelessbumpless switching available) : Digital input interface card (option) : Pulse train input.% to.%.% to 4.%. to. s.% to.% : Bipolar : Unipolar.% to.%.% to 4.%. to.s.% to.% : 4 to ma : to ma.% to.%.% to 4.%. to. s.% to.% : Bipolar : Unipolar.% to.%.% to.%.% to.% : ormal operation : Inverse operation Code ame range Motor Motor (o. of poles) (Rated capacity) (Rated current) (Autotuning) (Online tuning) (oload current) (%R) (%X) (Slip compensation gain for driving) (Slip compensation response time) (Slip compensation gain for braking) (Rated slip frequency) (Iron loss factor ) (Iron loss factor ) (Iron loss factor ) (Magnetic saturation factor ) (Magnetic saturation factor ) (Magnetic saturation factor ) (Magnetic saturation factor 4) (Magnetic saturation factor ) (Magnetic saturation extension factor "a") (Magnetic saturation extension factor "b") (Magnetic saturation extension factor "c") (%X correction factor ) (%X correction factor ) (Torque current under vector control) (Induced voltage factor under vector control) Motor Selection The shaded function codes ( to poles. to kw (when P99 =,, or 4). to HP (when P99 = ). to A : Disable : Tune while the motor stops. (%R, %X and rated slip frequency) : Tune while the motor is rotating under V/f control (%R, %X, rated slip frequency, noload current, magnetic saturation factors to, and magnetic saturation extension factors "a" to "c") : Tune while the motor is rotating under vector control (%R, %X, rated slip frequency, noload current, magnetic saturation factors to, and magnetic saturation extension factors "a" to "c." Available when the vector control is enabled.) : Disable : Enable. to A.% to.%.% to.%.% to.%. to. s.% to.%. to. Hz.% to.%.% to.%.% to.%.% to.%.% to.%.% to.%.% to.%.% to.%.% to.%.% to.%.% to.% % to % % to %. to A % to % : Motor characteristics (Fuji standard motors, 8series) : Motor characteristics (HP rating motors) : Motor characteristics (Fuji motors exclusively designed for vector control) : Motor characteristics (Fuji standard motors, 6series) 4 : Other motors ) are applicable to the quick setup. The motor parameters are automatically set, depending upon the inverter's capacity. See Table B. *8 8% for inverters of HP or less; 9% for those of 7 HP or above. *9 Factory use. Do not access these function codes. * * * * * * * * * * * * * * (9) *8 Model Variations Characteristics Warranty Reference material Options External Dimensions Function Settings Terminal Functions Basic Wiring Diagram Common Specifications Standard Specifications Inverter PC Software Keypad Functionality 9

15 Function Settings Function Settings H codes: High Performance Functions Code ame range Initialization Autoreset (Times) (Reset interval) Cooling Fan O/OFF Control Acceleration/Deceleration Pattern Rotational Direction Limitation Starting Mode (Auto search) Deceleration Mode Instantaneous Overcurrent Limiting (Mode selection) Restart Mode after Momentary Power Failure (Restart time) (Frequency fall rate) (Continuous level) (Allowable momentary power failure time) Torque Control (Mode selection) Thermistor (for motor) (Mode selection) (Level) Droop Control Communications Link Function (Mode selection) Capacitance of DC Link Bus Capacitor Cumulative Run Time of Cooling Fan Startup Counter for Motor Mock Alarm Starting Mode (Auto search delay time ) Initial Capacitance of DC Link Bus Capacitor Cumulative Run Time of Capacitors on Printed Circuit Boards Starting Mode (Auto search delay time ) onlinear V/f Pattern (Frequency) (Voltage) onlinear V/f Pattern (Frequency) (Voltage) Acceleration Time (Jogging) Deceleration Time (Jogging) Deceleration Time for Forced Stop st Scurve acceleration range (Leading edge) nd Scurve acceleration range (Trailing edge) st Scurve deceleration range (Leading edge) nd Scurve deceleration range (Trailing edge) UP/DOW Control (Initial frequency ) Low Limiter (Mode selection) (Lower limiting frequency) onlinear V/f Pattern (Frequency) (Voltage) Auto Energy Saving Operation (Mode selection) : Disable initialization : Initialize all function code data to the factory defaults : Initialize motor parameters : Initialize motor parameters 4 : Initialize motor parameters : Initialize motor 4 parameters : Disable; to. to. s : Disable (Always in operation) : Enable (O/OFF controllable) : Linear : Scurve (Weak) : Scurve (Arbitrary, according to H7 to H6 data) : Curvilinear : Disable : Enable (Reverse rotation inhibited) : Enable (Forward rotation inhibited) : Disable : Enable (At restart after momentary power failure) : Enable (At restart after momentary power failure and at normal start) : ormal deceleration : Coasttostop : Disable : Enable. to. s.: Deceleration time selected by F8,. to. Hz/s, 999: Follow the current limit command to V for V series 4 to 6 V for 46 V series. to. s 999: Automatically determined by inverter : Disable (Speed control) : Enable (Torque current command) : Enable (Torque command) : Disable : PTC (The inverter immediately trips with displayed.) : PTC (The inverter issues output signal THM and continues to run.) : TC (When connected). to. V 6. to. Hz Frequency command Run command : F/C F : RS48 (Port ) F : F/C RS48 (Port ) : RS48 (Port ) RS48 (Port ) 4 : RS48 (Port ) F : RS48 (Port ) RS48 (Port ) 6 : F/C RS48 (Port ) 7 : RS48 (Port ) RS48 (Port ) 8 : RS48 (Port ) RS48 (Port ) Indication for replacement of DC link bus capacitor to 6 Indication for replacement of cooling fan to 9999 hours Indication of cumulative startup count to 6 times : Disable : Enable (Once a mock alarm occurs, the data automatically returns to.). to. s Indication for replacement of DC link bus capacitor to 6 Indication for replacement of capacitors to 9999 hours (The cumulative run time can be modified or reset.). to. s.: Cancel,. to. Hz to 4 : Output an AVRcontrolled voltage (for V series) to : Output an AVRcontrolled voltage (for 46 V series).: Cancel,. to. Hz to 4 : Output an AVRcontrolled voltage (for V series) to : Output an AVRcontrolled voltage (for 46 V series). to 6 s. to 6 s. to 6 s % to % % to % % to % % to % :. Hz : Last UP/DOW command value on releasing the run command : Limit by F6 (Frequency limiter: Low) and continue to run : If the output frequency lowers below the one limited by F6 (Frequency limiter: Low), decelerate to stop the motor..: Depends on F6 (Frequency limiter, Low). to 6. Hz.: Cancel,. to. Hz to 4 :Output an AVRcontrolled voltage (for V series) to :Output an AVRcontrolled voltage (for 46 V series) : Enable during at constant speed : Enable in all modes. * * * *.6.

16 Maximum Engineering for Global Advantage H codes: High Performance Functions Code ame range Slip Compensation (Operating conditions) Automatic Deceleration (Mode selection) Overload Prevention Control Deceleration Characteristics Main Power Down Detection (Mode selection) Torque Limite (Operating conditions) (Control target) (Target quadrants) (Frequency increment limit for braking) Service Life of DC Link Bus Capacitor (Remaining time) Maintenance Interval (M) Preset Startup Count for Maintenance (M) Output Current Fluctuation Damping Gain for Motor Light Alarm Selection Light Alarm Selection Preexcitation (Initial level) (Time) PID Feedback Wire Break Detection Continuity of Running (P) (I) Cumulative Motor Run Time DC Braking (Braking response mode) STOP Key Priority/ Start Check Function Clear Alarm Protection/Maintenance Function (Mode selection) : Enable during ACC/DEC and at base frequency or above : Disable during ACC/DEC and enable at base frequency or above : Enable during ACC/DEC and disable at base frequency or above : Disable during ACC/DEC and at base frequency or above : Disable : Torque limit control with Forcetostop if actual deceleration time exceeds three times the specified one : DC link bus voltage control with Forcetostop if actual deceleration time exceeds three times the specified one 4 : Torque limit control with Forcetostop disabled : DC link bus voltage control with Forcetostop disabled. :Follow the deceleration time selected. to. Hz/s 999: Cancel : Disable : Enable : Disable : Enable : Enable during ACC/DEC and at constant speed : Disable during ACC/DEC and enable during at constant speed : Enable during ACC/DEC and disable during at constant speed : Motorgenerating torque limit : Torque current limit : Output power limit : Drive/brake : Same for all four quadrants : Upper/lower limits. to. Hz to 876 hours : Disable; to 9999 hours : Disable; to 6 times. to. to FFFF (hex.) to FFFF (hex.) % to 4%.: Disable;. to. s.: Disable alarm detection. to 6. s. to. times; 999. to. s; 999 to 9999 hours (The cumulative run time can be modified or reset.) : Slow : Quick STOP key priority Start check function : Disable Disable : Enable Disable : Disable Enable : Enable Enable : Disable : Enable (Setting "" clears alarm data and then returns to ".") to : Display data in decimal format Bit : Lower the carrier frequency automatically (: Disabled; : Enabled) Bit : Detect input phase loss (: Disabled; : Enabled) Bit : Detect output phase loss (: Disabled; : Enabled) Bit : Select life judgment threshold of DC link bus capacitor (: Factory default level; : User setup level) Bit 4: Judge the life of DC link bus capacitor (: Disabled; : Enabled) Bit : Detect DC fan lock (: Enabled; : Disabled) Bit 6: Detect braking transistor error (for 4 HP or below) (: Disabled; : Enabled) Bit 7: Switch IP/IP4 enclosure (: IP; : IP4) * 6. s for inverters of 4 HP or below;. s for those of HP or above The motor parameters are automatically set, depending upon the inverter's capacity. See Table B *9 Factory use. Do not access these function codes. * The factory default differs depending upon the inverter's capacity. See Table A. A codes: Motor Parameters Code ame range Maximum Frequency Base Frequency Rated Voltage at Base Frequency Maximum Output Voltage Torque Boost Electronic Thermal Overload Protection for Motor (Select motor characteristics) (Overload detection level) (Thermal time constant) DC Braking (Braking starting frequency) (Braking level) (Braking time) Starting Frequency. to. Hz. to. Hz : Output a voltage in proportion to input voltage 8 to 4 : Output an AVRcontrolled voltage (for V series) 6 to : Output an AVRcontrolled voltage (for 46 V series) 8 to 4 : Output an AVRcontrolled voltage (for V series) 6 to : Output an AVRcontrolled voltage (for 46 V series).% to.% (percentage with respect to "A: Rated Voltage at Base Frequency ") : For a generalpurpose motor with shaftdriven cooling fan : For an inverterdriven motor, nonventilated motor, or motor with separately powered cooling fan.: Disable % to % of the rated current (allowable continuous drive current) of the motor. to 7. min. to 6. Hz % to 8% (LD/MD mode)*4, % to % (HD mode).: Disable;. to. s. to 6. Hz * *... Model Variations Characteristics Warranty Reference material Options External Dimensions Function Settings Terminal Functions Basic Wiring Diagram Common Specifications Standard Specifications Inverter PC Software Keypad Functionality

17 Function Settings Function Settings A codes: Motor Parameters Code ame range Load Selection/ Auto Torque Boost Auto Energy Saving Operation Drive Control Selection Motor Motor (o. of poles) (Rated capacity) (Rated current) (Autotuning) Motor (Online tuning) (oload current) (%R) (%X) (Slip compensation gain for driving) (Slip compensation response time) (Slip compensation gain for braking) (Rated slip frequency) (Iron loss factor ) (Iron loss factor ) (Iron loss factor ) (Magnetic saturation factor ) (Magnetic saturation factor ) (Magnetic saturation factor ) (Magnetic saturation factor 4) (Magnetic saturation factor ) (Magnetic saturation extension factor "a") (Magnetic saturation extension factor "b") (Magnetic saturation extension factor "c") Motor Selection Slip Compensation (Operating conditions) Output Current Fluctuation Damping Gain for Motor Motor/Parameter Switching (Mode selection) Speed Control (Speed command filter) (Speed detection filter) P (Gain) I (Integral time) (Output filter) (otch filter resonance frequency) (otch filter attenuation level) Cumulative Motor Run Time Startup Counter for Motor Motor (%X correction factor ) (%X correction factor ) (Torque current under vector control) (Induced voltage factor under vector control) : Variable torque load : Constant torque load : Autotorque boost : Autoenergy saving operation (Variable torque load during ACC/DEC) 4 : Autoenergy saving operation (Constant torque load during ACC/DEC) : Autoenergy saving operation (Autotorque boost during ACC/DEC) : V/f control with slip compensation inactive : Dynamic torque vector control : V/f control with slip compensation active : V/f control with speed sensor 4 : Dynamic torque vector control with speed sensor : Vector control without speed sensor 6 : Vector control with speed sensor to poles. to kw (when A9 =,. or 4). to HP (when A9 = ). to A : Disable : Tune while the motor stops. (%R, %X and rated slip frequency) : Tune while the motor is rotating under V/f control (%R, %X, rated slip frequency, noload current, magnetic saturation factors to, and magnetic saturation extension factors "a" to "c") : Tune while the motor is rotating under vector control (%R, %X, rated slip frequency, noload current, magnetic saturation factors to, and magnetic saturation extension factors "a" to "c." Available when the vector control is enabled. : Disable : Enable. to A.% to.%.% to.%.% to.%. to.s.% to.%. to. Hz.% to.%.% to.%.% to.%.% to.%.% to.%.% to.%.% to.%.% to.%.% to.%.% to.%.% to.% : Motor characteristics (Fuji standard motors, 8series) : Motor characteristics (HP rating motors) : Motor characteristics (Fuji motors exclusively designed for vector control) : Motor characteristics (Fuji standard motors, 6series) 4 : Other motors : Enable during ACC/DEC and at base frequency or above : Disable during ACC/DEC and enable at base frequency or above : Enable during ACC/DEC and disable at base frequency or above : Disable during ACC/DEC and at base frequency or above. to. : Motor (Switch to the nd motor) : Parameter (Switch to particular A codes). to. s. to. s. to. times. to s. to. s to Hz to db to 9999 hours (The cumulative run time can be modified or reset.) Indication of cumulative startup count to 6 times % to % % to %. to A to * The motor rated current is automatically set. See Table B (P/A7/b7/r7). *. min for inverters of 4 HP or below;. min for those of HP or above *4 % to % for inverters of HP or below The motor parameters are automatically set, depending upon the inverter's capacity. See Table B. *8 8% for inverters of HP or less; 9% for those of 7 HP or above. *9 Factory use. Do not access these function codes. * * * * * (9) *8 b codes: Motor Parameters Code ame range Maximum Frequency Base Frequency. to. Hz. to. Hz 6. 6.