ADV200-HC Manual
Page 21 of 55
MENU
PAR
Description
UM
Type
Def
Min
Max
ACCESS
26.06.01
11024
Speed Up Selector
ENUM none *
*
R/W
Selector to enable the HOIST SPEED UP or POWER SPEED UP function.
0 none
1 Speed up
2 Power up
26.06.03
11070
Spd up FWD trq thr
%
INT
30
0
200
R/W
SPEED UP
Threshold (FWD), used to determine if handled load is “light.”
In V/f mode, the parameter is a % of nominal current of the motor.
In FOC CL or FOC OL mode, the Spd up FWD thr parameter is a % of nominal torque of the
motor.
26.06.04
11072
Spd up FWD speed
rpm
FLOAT 3000 0
6000 R/W
SPEED UP
Speed reference (FWD) used after it is determined that the load is “light”.
26.06.05
11076
Spd up REV trq thr
%
INT
30
0
200
R/W
SPEED UP
Threshold (REV), used to determine if handled load is “light.”
In V/f mode, the parameter is a % of nominal current of the motor.
In FOC CL or FOC OL mode, the parameter is a % of nominal torque of the motor.
26.06.06
11078
Spd up REV speed
Rpm FLOAT 3000 0
6000 R/W
SPEED UP
Speed reference (REV) used after it is determined that the load is “ligh.”.
26.06.07
11080
Spd up Test time
ms
INT
600
0
10000 R/W
SPEED UP
Duration of test, during which it is determined that the torque (current) delivered (absorbed) by
the motor is below “Spd up FWD(REV) thr.”
!! ATTENTION!!
If the entered value is too high, the test may take longer than necessary and slow the
operations.
26.06.08
11082
Spd up test speed
rpm
FLOAT 700
0
6000 R/W
SPEED UP
Speed temporarily maintained during the test.
26.06.09
11102
PWR UP FWD pwr ref
%
INT
90
0
120
R/W
POWER UP
This is the maximum power to be delivered to lift the load. Net of friction it equals the product
of:
Mass[kg]*9.81*linear speed of load [m/s]
It refers to motor power.
This parameter refers to the rise, where the load helps braking. The set default value refers to
a lift system where at nominal load 50% of motor torque is used to support the load and 50%
for acceleration.
26.06.10
11170
PWR UP REV pwr ref
%
INT
50
0
120
R/W
POWER UP
This is the maximum power to be delivered to lower the load. Net of friction it equals the product
of: