06 Function parameter table

0: SVC

1: V/F

2: -

0: Operation panel command channel

1: Terminal command channel

2: Serial port communication command channel

0: Operating frequency

1: Set frequency

0: Digital setting F0.08 (Adjustable terminal UP/DOWN, non-relative after power failure)

1: Digit setting F0.08 (Terminal

UP/DOWN adjustable, power down memory)

2: AI1

3: AI2

4: Keyboard potentiometer set

5: The terminal PULSE pulse is set

6: Multi-speed instruction

7: Simple PLC

8: PID

9: Communication setting

10: AI3(Expansion module)

0: Relative to the maximum frequency F0.10

1: Relative to the frequency source X

LED ones: Frequency source

selection

0: The primary frequency source

1: The result of primary and secondary operations

2: Switch between primary frequency source and secondary frequency source

3: Switch between the primary frequency source and the primary and secondary operation results

4: Switch between auxiliary frequency source and primary and secondary operation results

LED ten: Frequency source main and auxiliary operation relationship

0: Primary + secondary

1: Primary to secondary

2: Indicates the maximum value of both

3: The minimum value of both

4: Main*auxiliary

0.00Hz to Maximum frequency

F0.10

0: The same direction

1: The direction is reversed

2: Reverse prohibition

0: The number is given F0.12

1: AI1

2: AI2

3: AI3

4: Set the terminal PULSE

5: Communication setting

6: Reservations

7: Keyboard potentiometer set

0: Run at lower frequency

1: STOP

2: Zero speed operation

Bits: Select PWM mode

0: Automatic switching;

1: 7 waves;

2: 5 waves;

3: SPWM;

LED ten: Carrier is associated with the output frequency

0: Independent of output frequency

1: It depends on the output frequency

LED hundred: random PWM depth

0: OFF

1 to 8: Open, adjust depth

LED kilobit: Over modulation option

0: OFF

1: ON

0: No action is taken

1: Restore factory value (Do not restore motor parameters)

2: Clear the record information

3: Restore factory value (Restore motor parameters)

0: 1 s

1: 0.1s

2: 01s

0: Maximum frequency (F0.10)

1: Set the frequency

2: 100 Hz

Bits: Start/stop control

0: The fan runs after the inverter is powered on

1: Shutdown is related to temperature, and operation is running

2: Stop The fan stops, and the operation is related to temperature

Tens place: Enables the speed adjustment function

0: Off

1: Enable

1: 1 decimal place

2: 2 decimal place

LED bits: Boot mode

0: Start directly from the start frequency

1: Start after speed tracking and direction judgment

2: The asynchronous machine starts with pre-excitation

LED ten: Speed tracking direction

0: One to the stop direction

1: One to the starting direction

2: Automatic search

0: Slow down and stop

1: Free shutdown

0: Straight line

1: S curve

0.0 to 6000.0s

If the value is set to 6000.0s, the value remains unchanged without time limit.

0: Invalid

1: Valid

LED bits: Select the terminal run instruction when powering on

0: The terminal running instruction is invalid during power-on.

1: Terminal running instructions are valid during power-on

LED ten: Run command given channel switch terminal run instruction selection

0: The terminal running instruction is invalid

1: The terminal instruction is valid when the terminal is cut in.

0: Asynchronous machine (AM)

1: Permanent magnet synchronous motor(PM)

2: Single-phase induction motor (VF control only)

0: No operation is performed

1: Static tuning 1

2: Full tuning

3: Static tuning 2(AM calculated Lm)

0: Type G machine

1: P-type machine

Units place: encoder type

0: Expansion interface for IO module

1: Standard ABZ encoder

2: Resolver

3: UVW encoder

4: UVW encoder with reduced wiring

Tens place: encoder Direction

0: Direction same

1: Direction opposite

Hundreds place: break Detection

0: Disable

1: Enable

Thousands Digit: Reserved

0 to 5000ms

(0 Turn off stall protection)

0: Direct startup.

1: Start at an Angle

0: Speed control

1: Torque control

0: F3.48 is set

1: AI1╳F3.48

2: AI2╳F3.48

3: AI3╳F3.48

4: PUL╳F3.48

5: Keyboard potentiometer given ╳F7.01

6: RS485 communication given ╳F3.48

Units: Torque direction setting

0: The torque direction is positive

1: The torque direction is negative

Tens place: torque reversing setting

0: Torque reversal is allowed

1: Torque reversal is prohibited

0: F3.54 is set

1: AI1╳F3.54

2: AI2╳F3.54

3: AI3╳F3.54

4: PUL╳F3.54

5: Keyboard potentiometer given ╳F3.54

6: RS485 communication given ╳F3.54

0: F3.55 is set

1: AI1╳F3.55

2: AI2╳F3.55

3: AI3╳F3.55

4: PUL╳F3.55

5: Keyboard potentiometer given ╳F3.55

6: RS485 communication given ╳F3.55

7: Purchase card

0: Linear V/F curve;

1: Multi-point V/F curve

2: Square V/F curve

3-11: 1.1 to 1.9 power VF curves, respectively;

12: V/F fully separated mode

0x040E

AVR function

0: Invalid

1: Only slowing down is not effective

2: Only constant speed is effective

3: Valid

Units place: 0 is off, 1 is on

Tens place: Frequency change exit depth

Hundreds place: Reserve

Thousands place: Reserve

0: Function code F0.27 set

1: AI1 is set

2: AI2 is set

3: Reservations

4: Set the terminal PULSE

5: Multi-speed

6: Simple PLC

7: PID

8: Communication is given 100% corresponding to the rated voltage of the motor

0: The voltage/frequency is simultaneously reduced to 0;

1: The frequency decreases after the voltage drops to 0

0: Non-function

0: Non-function

1: FWD

2: REV

3: Three-wire operation control

4: FJOG

5: RJOG

6: Terminal UP

7: Terminal DOWN

8: Free break

9: RESET

10: Running pause

11: External fault input(NO)

12: Multi-speed instruction terminal 1

13: Multi-speed instruction terminal 2

14: Multi-speed instruction terminal 3

15: Multi-speed instruction terminal 4

16: Acceleration and deceleration time select terminal 1

17: Acceleration and deceleration time select terminal 2

18: Frequency source switching (terminal, keyboard)

19: The UP/DOWN setting clears zero

20: Run the command to switch terminals

21: Acceleration and deceleration prohibition

22: PID pause

23: PLC State reset

24: Swing pause

25: Counter input

26: Counter reset

27: Length count input

28: Length reset

29: Torque control prohibited

30: PULSE impulse input(only DI4)

31: Reverse

32: Immediate DC braking

33: The external fault is normally closed

34: Reverse

35: The direction of PID action is reversed

36: External parking terminal 1

37: Control command switching terminal

38: PID integration pause terminal

39: Main frequency source and preset frequency switching terminal

40: Auxiliary frequency source and preset frequency switching terminal

41: Retain

42: Retain

43: PID parameter switching terminal

44: User-defined fault 1

45: User-defined fault 2

46: Speed control/torque control switch

47: Emergency stop

48: External parking terminal 2

49: Decelerate DC braking

50: The running time is cleared

51: Timing enable

52: Timing reset

0: 0-10V

3: 0-5V

4: 0.5-4.5V

0: 0-10V

1: 4-20mA

2: 0-20mA

3: 0-5V

4: 0.5-4.5V

0: Non-function

1: FWD

2: REV

3: Three-wire operation control

4: FJOG

5: RJOG

6: Terminal UP

7: terminal DOWN

8: Free break

9: RESET

10: Running pause

11: External fault input(NO)

12: Multi-speed instruction terminal 1

13: Multi-speed instruction terminal 2

14: Multi-speed instruction terminal 3

15: Multi-speed instruction terminal 4

16: Acceleration and deceleration time select terminal 1

17: Acceleration and deceleration time select terminal 2

18: Frequency source switching (terminal, keyboard)

19: The UP/DOWN setting clears zero

20: Run the command to switch terminals

21: Acceleration and deceleration prohibition

22: PID pause

23: PLC State reset

24: Swing pause

25: Counter input

26: Counter reset

27: Length count input

28: Length reset

29: Torque control prohibited

30: PULSE impulse input(only DI4)

31: Reverse

32: Immediate DC braking

33: The external fault is normally closed

34: Reverse

35: The direction of PID action is reversed

36: External parking terminal 1

37: Control command switching terminal

38: PID integration pause terminal

39: Main frequency source and preset frequency switching terminal

40: Auxiliary frequency source and preset frequency switching terminal

41: Reverse

42: Reverse

43: PID parameter switching terminal

44: User-defined fault 1

45: User-defined fault 2

46: Speed control/torque control switch

47: Emergency stop

48: External parking terminal 2

49: Decelerate DC braking

50: The running time is cleared

51: Timing enable

52: Timing reset

0: Two-wire type 1

1: Two-wire type 2

2: Three-wire type 1

3: Three-wire type 2

0: Low level valid

1: High level valid

LED one place: D1 terminal

LED tens place: D2 terminal

LED hundreds place: D3 terminal

LED thousands place: D4 terminal

0: Low level valid

1: High level valid

LED one place: D5 terminal(expend)

LED tens place: D6 terminal(expend)

0: Low level valid

1: High level valid

LED one place: AI1

LED tens place: AI2

LED hundreds place: AI3(expend)

One place: AI1

Tens place: AI2

Hundreds place: AI3 (expend)

0: Straight line (default)

1: Curve 1

2: Curve 2

0: Non-function

1: FWD

2: REV

3: Three-wire operation control

4: FJOG

5: RJOG

6: Terminal UP

7: terminal DOWN

8: Free break

9: RESET

10: Running pause

11: External fault input(NO)

12: Multi-speed instruction terminal 1

13: Multi-speed instruction terminal 2

14: Multi-speed instruction terminal 3

15: Multi-speed instruction terminal 4

16: Acceleration and deceleration time select terminal 1

17: Acceleration and deceleration time select terminal 2

18: Frequency source switching (terminal, keyboard)

19: The UP/DOWN setting clears zero

20: Run the command to switch terminals

21: Acceleration and deceleration prohibition

22: PID pause

23: PLC State reset

24: Swing pause

25: Counter input

26: Counter reset

27: Length count input

28: Length reset

29: Torque control prohibited

30: PULSE impulse input(only DI4)

31: Retain

32: Immediate DC braking

33: The external fault is normally closed

34: Retain

35: The direction of PID action is reversed

36: External parking terminal 1

37: Control command switching terminal

38: PID integration pause terminal

39: Main frequency source and preset frequency switching terminal

40: Auxiliary frequency source and preset frequency switching terminal

41: Retain

42: Retain

43: PID parameter switching terminal

44: User-defined fault 1

45: User-defined fault 2

46: Speed control/torque control switch

47: Emergency stop

48: External parking terminal 2

49: Decelerate DC braking

50: The running time is cleared

51: Timing enable

52: Timing reset

AI3(Extension) Input selection

0: 0 to 10V

1: 4 to 20mA

2: 0 to 20mA

3: 0 to 5V

4: 0.5 to 4.5V

0: 0 to 10V

1: 4 to 20mA

2: 0 to 20mA

3: 0 to 5V

4: 0.5 to 4.5V

0: Internal connection with virtual vYn

1: Whether the function code setting is valid.

One place: Virtual VDI1

Tens place: Virtual VDI2

Hundred bit: Virtual VDI3

Thousands: Reserved

0: Invalid;

1: Valid

Units bit: Virtual VDI1

Tens place: Virtual VDI2

Hundreds place: Virtual VDI3

Thousands place: Reserved

LED one place: free shutdown terminal recovery mode

0: Restore the original command after it is invalid

1: The original instruction is not restored if invalid

LED tens place: emergency stop terminal recovery mode

0: Restore the original command after disconnection

1: The original command is not restored after the disconnect

LED hundreds place: Select terminal operation mode after fault reset

0: The terminal control can be started directly

1: Stop the terminal control before starting

LED thousands place: Reserve

0: Pulse output

1: Open collector output (FMR)

0: No output

1: The inverter is in operation

2: Fault output (Fault shutdown)

3: Frequency level detection FDT1 Output

4: Frequency reaches

5: Zero speed running 1

6: Motor overload forecast alarm

7: Inverter overload forecast alarm

8: Set meter value reached

9: The specified count value is reached

10: Length reached

11: The PLC cycle is complete

12: The accumulated running time reaches

13: Reservations

14: Torque limit

15: Ready to run

16: AI1 > AI2

17: The upper frequency reaches

18: The lower limit frequency reaches 1

19: Output in undervoltage state

20: Communication control

21: Positioning completed (reserved)

22: Positioning close (reserved)

23: Zero speed running 2

24: The cumulative power-on time reaches

25: Frequency level detection FDT2 output

26: Frequency reaches 1 output

27: Frequency reaches 2 output

28: Current reaches 1 output

29: Current reaches 2 output

30: timed to reach output

31: Reserved

32: Reserved

33: Running direction

34: Reserved

35: The module temperature reaches

36: Reserved

37: The lower limit frequency reaches 2

38: Fault output 2

39: Reserved

40: The running time arrives

41: User-defined output 1

42: User-defined output 2

43: Timer output

44: Running forward

45: Reverse running

One place: AO1

0: 0 to 10V

1: 4.00 to 20.00mA

2: 0.00 to 20.00mA

Tens place: AO2 (expend)

0: 0 to 10V

1: 4.00 to 20.00mA

2: 0.00 to 20.00mA

0: Run frequency

1: Setting frequency

2: Output current

3: Output torque

4: Output power

5: Output voltage

6: Reserve

7: AI1

8: AI2

9: AI3(Expansion module)

10: PULSE input value

11: Reserve

12: Communication setting

13: Motor speed

14: Output current (0-1000A, corresponding to 0-10V)

15: Output voltage (0-1000V, corresponding to 0-10V)

16: Bus voltage (0-1000V, corresponding to 0-10V)

0: Positive logic

1: Reverse logic

One place: FDOR

Tens place: RL1

Hundreds place: RL2 (Extended)

Thousands place: -

0: Positive logic

1: Reverse logic

One place: VDO1

Tens place: VDO2

Hundreds place: VDO3

Thousands palce: -

0: The running frequency

1: Set the frequency

2: Bus voltage

3: Output voltage

4: Output current

5: Output power

6: Output torque

7 to 8: Reserved

9: AI1 input

10: AI2 input

11: AI3 input(expansion module)

Units: Compare test methods

0: Equal to (EX == X1)

1: The value is greater than or equal to

2: Less than or equal to

3: Interval comparison (X1 ≤ EX ≤ X2)

4: Bit test (EX & X1=X2)

Tens: output mode

0: False value output

1: Truth output

0: The running frequency

1: Set the frequency

2: Bus voltage

3: Output voltage

4: Output current

5: Output power

6: Output torque

7 to 8: Reserved

9: AI1 input

10: AI2 input

11: AI3 input(Expansion module)

One place: Compare test methods

0: Equal to (EX == X1)

1: The value is greater than or equal to

2: Less than or equal to

3: Interval comparison (X1 ≤ EX ≤ X2)

4: Bit test (EX & X1=X2)

Tens: output mode

0: False value output

1: Truth output

0: Second

1: Min

2: Hour

0: No operation is performed

1: The function parameters of the machine are uploaded to the LCD keyboard

2: LCD keyboard function parameters download to the machine

0: ENT is invalid.

1: Switch between the instruction channel of the operation panel and the remote instruction channel (the remote instruction channel includes communication and terminal control)

2: Reverse switch

3: Forward jog

4: Reverse jog

5: Menu mode switch

6: Reverse operation

LED one place: Terminal control selection

0: The terminal instruction is invalid

1: Valid for the terminal command

LED tens place: Communication control selection

0: The communication instruction is invalid.

1: Valid for communication instructions

LED hundreds place: Reserved

LED thousands place: Reserved

LED one place: First group display

0: Output frequency

1: Given frequency

2: Bus voltage

3: Output voltage

4: Output current

5: Output power

6: Output torque

7: DI input status

8: DO output status

9: AI1 voltage

A: AI2 voltage

B: AI3 voltage(expansion module)

C: Reserved

D: Reserved

E: Motor speed

F: PID setting

LED tens place: second group display

LED hundreds place: Third group display

LED thousands place: Fourth group display

LED one place: First group display

0: Not displayed

1: PID feedback

2: PLC stage

3: PULSE input pulse frequency

4: Feedback speed

5: Reserved

6: Reserved

7: Reserved

8: Reserved

9: Current power-on time

A: Current running time

B: Reserved

C: Communication setting

D: Reserved

E: Main frequency X display

F: Auxiliary frequency Y display

LED ten: Second group display

LED hundreds place: Third group display

LED thousands place: Fourth group display

LED one place: First group display

0: Output frequency

1: Given frequency

2: Bus voltage

3: Output voltage

4: Output current

5: Output power

6: Output torque

7: DI input status

8: DO output status

9: AI1 voltage

A: AI2 voltage

B:AI3 voltage(Expansion module)

C: Motor speed

D: PID setting

E: PID feedback

F: PLC stage

LED tens place: Second group display

LED hundreds place: Third group display

LED thousands place: Fourth group display

Power consumption

=F7.14*65535+F7.15

Units: kWh

0 to Power display percentage (%)

1 to Power display kilowatts (KW)

0: Temperature independent

1: Temperature dependent

0: Invalid

1: Valid

0: Continue to run

1: Fault warning

0: Continue to run

1: Fault warning

0: Continue to run

1: Fault prompt

0.0% to 100.0%

(Maximum frequency)

0.0% to 300.0%

(Motor rated current)

0.0% to 300.0%

(Motor rated current)

0.0% to 300.0%

(Motor rated current)

0.0% to 300.0%

(Motor rated current)

0.0% to 300.0%

(AC drive rated current)

0: Keyboard number PID given F9.01

1: AI1

2: AI2

3: Reserve

4: Terminal pulse setting

5: Communication setting

6: Multi -stage speed setting

7: Keyboard potentiometer setting

0: AI1

1: AI2

2: Reserve

3: AI1-AI2

4: Terminal pulse setting

5: Communication setting

6: AI1+AI2

7: MAX(|AI1|, |AI2|)

8: MIN(|AI1|, |AI2|)

9: Keyboard potentiometer setting

LED units: Feedback characteristic selection

0: Positive action

1: Reaction

LED tens: PID adjustment direction selection

0: Reverse prohibition

1: Reverse permit

LED hundreds digit: Alignment selection

0: Off-center alignment

1: Center alignment

LED kilobit: Reserve

0: Do not switch

1: Terminal switching

2: Automatic switching based on deviation

0: The PID continues to run and no fault is reported

1: Stop and report fault (Manual reset)

2: Continue PID operation, output alarm signal

3: Run at the current frequency, output alarm signal

4: Stop and report fault (Automatic reset)

0: No operation at stop

1: Operation at stop

0: Normal PID

1: Dormant PID

0: F0.14(Lower frequency)

1: 0Hz

Units place: integral separation

0: Invalid

1: Valid

Tens: output to the limit, whether to stop integrating

0: Continue to integrate

1: Stop collecting points

0: Time

1: Switch according to AI1 feedback value

0: Off

1: On

0: Off

1: On

Unit: Excessive suppression enable

Tens: Over current suppression enable

Hundreds: Judge the input of brakes

Thousands: Excessive suppression of fast rising frequency

0: Invalid

1: Valid

0:Disable

1: Enable

0:Disable

1: Enable

One place: Enable voltage prediction compensation

Tens place: PWM update mode

0: Single sample update

1: Double sample and double update

Hundreds place: Random carrier mode

0: Random carrier

1: Random 0 vector

One place: Hardware current limit(CBC)

0: Disable

1: Enable

Tens places: -

Hundreds place: FAU filtering time

1 to F

Thousands place: TZ filtering time

1 to F

One place: Power loss ride-through selection function enable

0: Disable

1: Enabled

Tens place: Power loss ride-through function selection

0: Continue to operation

1: Shut down

LED one-place: Swing frequency control

0: The swing frequency control is invalid

1: Swing frequency control is valid

LED tens place: Swing frequency input mode

0: Automatic input

1: Manual input

LED hundreds-place: Swing control

0: Variable swing

1: Fixed swing

LED thousands place: Reserved

0: 300 bps

1: 600 bps

2: 1200 bps

3: 2400 bps

4: 4800 bps

5: 9600 bps

6: 19200 bps

7: 38400 bps

8: 57600 bps

9: 115200 bps

0: (8.N.2) 8 data bits, no parity, 2 stop stops

1: (8.E.1) 8 data bits, even parity, 1 stop position

2: (8.O.1) 8 data bits, odd parity, 1 stop stop

3: (8.N.1) 8 data bits, no parity, 1 stop stop

LED units place: Modbus communication master-slave selection

0: Slave 1: Host

0: Alarm and free parking (manual reset)

1: No alarm and continue running

2: Alarm and free parking (automatic reset)

3: Parking does not alarm (based on F1.10 parking)

Units place: Write operation response

0: Response to the write operation

1: No response to write operation

Tens Place: Communication exception response​​

0: Response to exception

1: No response to exception

Hundreds place: Communication exception response protocol​

0:8001 1:83

LED units place: 1st group sending frame selection

LED tens place:2st group sending frame selection

LED hunderds place: 3st group sending frame selection

0: Invalid

1: Running command given

2: Host given frequency

3: Host output frequency

4: Host upper limit frequency

6: Host output torque

9: Host given PID  A: Host feedback PID

0: Configure to Modbus Communication

1: Quota is serial communication

2: UART_OSC

0: Stops after a single run

1: Maintain the final value at the end of a single run

2: Keep cycling

Ones Slot:

0: Power failure does not memory

1: Power failure memory

Ten places:

0: Stop and does not remember

1: Shutdown memory

LED units: timing unit

0: s(seconds)

1: h(hours)

2: min(minutes)

0: Function code FD.00 is given

1: AI1

2: AI2

3: AI3 (expansion)

4: Terminal pulse PULSE given

5: PID

6: Preset frequency (F0.08) given, UP/DOWN modifiable

7: Keyboard potentiometer given

0: Invalid

1: Valid

0: Not locked

1: The function parameter is locked

0:Default macro

1: Pressure machine macro

2: Spring machinery macro

3: woodworking machinery macro

0: Invalid

1: Valid

0: 4 to 20mA（AI2）

1: 0 to 10V（AI1）

0: Disable

1: Sleep mode 1

2: Sleep mode 2

1

0xA409

0: Disable

1: Judging by frequency and current

2: Judging by frequency and pressure

0: Invalid

1: Valid

One place: Turn on protection

0: Disable 1: Enable

Tens place: Current detected

0: Total current 1: Torque current

0010

LED one place: Running direction

0: Forward

1: Reverse

LED tens place: Running status

0: Stop

1: Steady speed

2: Speed up

3: Slow down

Down time

(Count from this power-on)

Down time

(From total running time)

0: Default macro

1: Pressure tile machinery macro

2: Spring machinery macro

3: Woodworking machinery macro