Faults / Alarms 02.00
10-14 SIEMENS AG 6RX1700-0AD76
SIMOREG DC Master Operating Instructions
Fault Description
No.
Cause as a function of fault value
(r047.001, r949.001 or r949.009 with acknowledged error)
Further information (r047.002 to r047.016)
11 A lower field current limit of ≥ 50% of P102 (I
F,motor
) is applied
(for this reason, it is not possible to plot a minimum of 9 field weakening measuring points)
Possible cause:
• P103 ≥ 50% of P102
Check P614 !
12 The drive has reached the positive torque limit even though the applied field current setpoint is still ≥ 50% of P102
(I
F,motor
)
Possible cause:
• Armature current is very “unsteady”, e.g. due to high speed controller P gain setting in P225 (on drive with high
integral-action time). In this case, setting a lower actual speed filtering value in P200 and execution of another speed
controller optimization run (P051=26) may help.
• Check torque limits
13 The drive has reached the positive armature current limit even through the applied field current setpoint is still ≥ 50% of
P102 (I
F,motor
)
Possible cause:
• Armature current is very “unsteady”, e.g. due to high speed controller P gain setting in P225 (on drive with high
integral-action time). In this case, setting a lower actual speed filtering value in P200 and execution of another speed
controller optimization run (P051=26) may help
• Check armature current limits
14 The speed has changed by more than 12.5% at a constant speed setpoint even through the applied field current setpoint
is still ≥ 50% of P102 (I
F,motor
)
Possible cause: as for fault value 12
15 The EMF setpoint is too small to plot a field characteristic
EMF
set
= U
A
– I
A,motor
*
R
A
= P101 – P100
*
P110 < 10% of 1.35
*
P078.i001
(e.g. P078.i001 = 400 V . . . minimum EMF
set
= 54 V)
16 Field weakening operation is not allowed in operation without a tachometer (P083=3)
17 The field current controller cannot be optimized because the field circuit time constant cannot be determined (actual field
current does not decay after switch-off to below 0.95*initial value within approximately 1s or to below 0.8 * 0.95*initial
values within approximately 2 s)
Possible cause:
• Setting in P103 is too high
• Field circuit inductance is too high
• Fault in actual field current sensing circuit (gating board or A7001 electronics board defective)
• Ratio r073.02 / P102 is too high (change P076.02 if necessary)
18 Field weakening range is too wide, i.e. during power-up (at full field) to a speed setpoint of +10% n
max
, the |EMK| is >
77% of setpoint EMF (P101 – P100
*
P110)
Possible cause:
• Maximum speed setting is incorrect
• Pulse encoder parameters are incorrect (P140 to P143)
• Parameters for tachometer adaptation are incorrect (P741)
• Setpoint EMF is not correct (P101, P100, P110)
• An excessively high load torque (in positive or negative direction, e.g. a suspended load) causes the drive to rotate,
one of the armature current or torque limits may be parameterized too low
19 A steady-state actual speed of +10%, +20%, +30% . . . or +100% of the maximum speed cannot be reached within 3
minutes (or maximum value of the three set acceleration times) in speed-controlled operation (the speed setpoint/actual
value difference averaged over 90 firing cycles must equal <0.1% n
max
for a specific time period)
Possible cause:
• Acceleration time is set too low (P303, P307, P311)
• Drive is blocked
• An excessively high load torque (in positive or negative direction, e.g. a suspended load) causes the drive to rotate,
one of the armature current or torque limits may be parameterized too low
• Poor speed controller setting (P225, P226, P228) or speed controller is parameterized as pure P controller or with
droop
• A band elimination filter (P201, P202 or P203, P204) is active
• Command “Ramp-function generator enable” =0 or ”Ramp-function generator STOP” =1 is applied
To Next Page
Loading...
