Fuling BD618-011-4 11kW Inverter Parameters

Group F00 — Standard Function Parameters
F00.00 = 2 Speed control mode = 2: V/F control
F00.01 = 1 Operation command source = 1: Terminal control
F00.02 = 0 Run command source = 0: Terminal run
F00.03 = 700 Max. output frequency = 700 Hz
F00.04 = 700 Run frequency upper limit = 700 Hz
F00.05 = 0 Run frequency lower limit = 0 Hz
F00.06 = 6 Frequency source A selection = 6: Multi-speed running
F00.07 = 0 Frequency source B selection = 0: Frequency A
F00.08 = 0 Frequency reference relation = 0: Relative to max frequency
F00.09 = 0 Frequency source combination mode = 0: Frequency A
F00.10 = 400 Keypad setting frequency = 400 Hz
F00.11 = 1 Frequency reference resolution = 1: 0.1 Hz
F00.12 = 3 Acceleration time 1 = 3 (time unit set by F00.14)
F00.13 = 4 Deceleration time 1 = 4 (time unit set by F00.14)
F00.14 = 1 Accel/Decel time unit = 1: 0.1 s
F00.15 = 0 Base frequency of Acc/Dec = 0: Max frequency (F00.03)
F00.16 = 0 Rotation direction selection = 0: Same direction
F00.17 = 6 Carrier frequency = 6 kHz
F00.18 = 1 Carrier frequency auto-adjust = 1: Enabled

Group F01 — Start / Stop Control Parameters
F01.00 = 0 Start mode = 0: Direct start
F01.01 = 0 Startup frequency = 0.00 Hz
F01.02 = 0 Startup frequency holding time = 0.0 s
F01.03 = 10 Startup torque boost = 10 %
F01.04 = 0 Startup torque boost holding time = 0.0 s
F01.05 = 0 Acc/Dec mode = 0: Linear
F01.06 = 30 S-curve start segment ratio = 30 %
F01.07 = 30 S-curve end segment ratio = 30 %
F01.08 = 0 Stop mode = 0: Deceleration stop
F01.09 = 10 Initial frequency of stop DC braking = 10 Hz
F01.10 = 0 Stop DC braking delay time = 0.0 s
F01.11 = 10 Stop DC braking current = 10 %
F01.12 = 1 Stop DC braking time = 1.0 s
F01.13 = 0 Rotational speed tracking mode = 0: From stop frequency
F01.14 = 20 Time proportion of S-curve end segment = 20 %
F01.15 = 100 Brake usage rate = 100 %
F01.16 = 500 Pre-excitation current / DC braking current (internal scale)
F01.17 = 800 Pre-excitation time / DC braking time (internal scale)
F01.18 = 100 Waiting time of stop DC braking
F01.19 = 30 Reserved / internal control parameter

Group F02 — Motor 1 Parameters
F02.00 = 0 Motor type selection = 0: Common asynchronous motor
F02.01 = 11 Rated motor power = 11 kW
F02.02 = 400 Rated motor frequency = 400 Hz
F02.03 = 12000 Rated motor speed = 12000 rpm
F02.04 = 380 Rated motor voltage = 380 V
F02.05 = 25 Rated motor current = 25 A
F02.06 = 410 Stator resistance of motor (measured / preset)
F02.07 = 220 Rotor resistance of motor (measured / preset)
F02.08 = 2.6 Leakage inductance of motor
F02.09 = 77.6 Mutual inductance of motor

Group F05 — Input Terminal Function Assignment
F05.00 = 1 S1 terminal function = 1: Forward run
F05.01 = 2 S2 terminal function = 2: Reverse run
F05.02 = 12 S3 terminal function = 12: Multi-speed terminal 1
F05.03 = 13 S4 terminal function = 13: Multi-speed terminal 2
F05.04 = 14 S5 terminal function = 14: Multi-speed terminal 3
F05.05 = 4 S6 terminal function = 4: Fault reset
F05.06 = 0 Reserved / unused
F05.07 = 0 Reserved / unused
F05.08 = 0 Reserved / unused

Group F12 — Simple PLC / Multi-speed Control
F12.00 = 0 Simple PLC running mode = Disabled
F12.01 = 0 Simple PLC retentive selection = Disabled
F12.02 = 0 Multi-speed 0 = 0 %
F12.03 = 25 Multi-speed 1 = 25 %
F12.04 = 37.5 Multi-speed 2 = 37.5 %
F12.05 = 50 Multi-speed 3 = 50 %
F12.06 = 67 Multi-speed 4 = 67 %
F12.07 = 75 Multi-speed 5 = 75 %
F12.08 = 87 Multi-speed 6 = 87 %
F12.09 = 100 Multi-speed 7 = 100 %
F12.10 = 0 Multi-speed 8 = 0 %
F12.11 = 0 Reserved

Group F06 - Output Terminal
F06.02 = 18 Relay TA output selection (TA*TB*TC) = AC drive running
F06.03 = 3 Relay RA output selection (RA*RB*RC) = fault output (stop)