19
Commissioning
Operating instructions I510-Cabinet
Display code
Name
Possible settings/
value ranges
Keypad code
Information
P203.03
Stop method
Coasting
[0]
The motor has no torque (coasts down to standstill).
Standard ramp
[1]
The motor is brought to a standstill with the deceleration time 1 P221.00 (or deceleration time 2 P223.00 if activated).
Quick stop ramp
[2]
The motor is brought to a standstill over the deceleration time set for the “Quick stop” P225.00 function.
Switch-off positioning
[3]
Is similar to the stop method “standard ramp [1]“. Depending on the actual output frequency, however, the inverter delays the beginning of the
down-ramping so that the number of motor revolutions until standstill is reached and thus the stopping position is always relatively constant.
P208.01
Mains voltage
230 Veff
[0]
Selection of the mains voltage for actuating the inverter.
400 Veff
[1]
480 Veff
[2]
120 Veff
[3]
P210.00
Min. Frequency
0.0 ... 599.0 Hz
Lower limit value for all frequency setpoints.
P211.00
Max. frequency
Device for 50-Hz mains:
50 Hz *
Device for 60-Hz mains:
60 Hz *
Upper limit value for all frequency setpoints.
P220.00
Acceleration 1
0.0 ... 5.0 ... 3600.0 s
Acceleration time 1.
P221.00
Deceleration 1
0.0 ... 5.0 ... 3600.0 s
Deceleration time 1
P300.00
Motor ctrl mode
Servo control (SC ASM)
[2]
This control mode is used for servo control of an asynchronous motor. This motor control mode is described in the commissioning manual. Lenze
Doc Finder
Sensorless control
(SL PSM)
[3]
This control type is used for the sensorless control of a synchronous motor. This motor control mode is described in the commissioning manual.
Lenze Doc Finder
Sensorless vector control
(SLVC)
[4]
This control type is used for sensorless vector control of an asynchronous motor. Observe parameters
P327.04
and
P327.05
for this purpose.
V/f characteristic control
(VFC open loop)
[6]
This control mode is used for the speed control of an asynchronous motor via a V/f characteristic and is the simplest control mode.
P302.00
V/f characteristic
shape
Linear
[0]
Linear characteristic for drives with constant load torque over the speed.
Square-law
[1]
Square-law characteristic for drives with a square-law load torque over the speed.
Eco
[3]
Linear characteristic with energy optimization in the partial load operational range.
P303.01
Base voltage
0 ... 230 ... 5000 V *
Base voltage and base frequency define the V/f ratio and thus the gradient of the V/f characteristic.
• The V/f base voltage is usually set to the rated motor voltage.
• The V/f base frequency is usually set to the rated motor frequency.
P303.02
Base frequency
Device for 50-Hz mains: 50
Hz * Device for 60-Hz mains:
60 Hz *
Base voltage and base frequency define the V/f ratio and thus the gradient of the V/f characteristic.
• The V/f base voltage is usually set to the rated motor voltage.
• The V/f base frequency is usually set to the rated motor frequency.
P304.00
Limitation of rotation
Only clockwise (CW)
[0]
The motor can only be rotated clockwise (CW). The transfer of negative frequency and PID setpoints to the motor control is prevented.
Both rotation directions
[1]
Both directions of motor rotation are enabled.
P305.00
Switching frequency
8 kHz var/opt/4 *
Selection of the inverter switching frequency.
P306.01
Overload selection
Heavy duty
[0]
Load characteristic for high dynamic requirements.
Light Duty
[1]
Load characteristic for low dynamic requirements.
P308.01
Max. load for 60s
30 ... 150 ... 200 %
Maximum permissible thermal motor utilization (max. permissible motor current for 60 seconds). With regard to rated motor current (
P323.00
).
P316.01
Fixed V/f boost
0.0 ... 2.5 ...20.0 % *
Constant voltage boost for the V/f characteristic control without feedback.
Default setting = bold print | * Default setting is device-dependent