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Startup methods



ADXL supports two main start/stop methods:

Torque ramps (P05.01 = ON)

When ADXL is set to work in torque ramp mode, it controls the output voltage with a PID closed-loop control to ensure that the motor delivers a variable torque to the shaft which
follows the programmed acceleration and deceleration ramps. In this case, the resisting torque of the mechanical load defines the maximum torque demand during starting. If we
set

P01.04 Acceleration ramp

to 10 sec, this means that the system will take 10 seconds to ramp up from 0 to 100% of the motor's nominal torque. If the load is lower and requires

only 50% of motor torque, the starting process, for the same ramp up slope, will require proportionately less time to complete (in this case, 5 sec). If we start the motor without any
load, the ramp will complete in a very short time and the starter will connect full voltage and the bypass in just a few seconds. The same criteria apply to the deceleration ramp,
which also has a constant slope and variable duration.

Voltage ramps (P05.01 = OFF)

If, on the other hand, the ADXL is set to work in voltage ramp mode, is delivers a ramp with an open loop criterion, and thus delivers from minimal to 100% voltage in the time set in
P01.04, with gradual growth, without varying the ramp duration in relation to the motor load. The same constant time criterion also applies to the deceleration ramp. In this case,
even if the motor is running with no load, the bypass will close after a fixed time. The voltage ramp thus behaves in a more repeatable manner than the torque ramp, but it has the
disadvantage of delivering the mechanical force in a non-linear fashion, thus providing a less gradual acceleration than the torque ramp.



Together with these two starting methods, there is the maximum starting current limitation function:

Current limit (P01.02)

If the current delivered by the highest of the three phases reaches or exceeds the set limit, the ADXL reduces its voltage on the motor so as to remain below the maximum limit
setting (P01.02). This behaviour has priority over both torque and voltage ramps, and thus momentarily flattens them both

Obviously, reducing the current also reduces the motor's

torque delivery: if the current limit is set too low, the torque delivery may be insufficient to overcome the resistant load and start the machine. One must therefore find the right
compromise when setting this parameter.



There are minimum voltages and torques below which the motor will not turn at all, and which are therefore completely useless in practical terms (the motor makes noise and heats up

without actually running). There are thus two steps for regulating the initial voltage/torque (P01.03) and the final voltage/torque (P01.06). ADXL switches from zero to P01.03 immediately
when starting up, and from P01.06 to zero during deceleration .



For further details on the starting parameter settings, refer to the description of the parameters in

P01 GENERAL

menu.