[39] Tracking error When the difference between calculated speed and actual speed in par 4-35 is larger than selected
the digital output/relay is active.
[40] Out of ref range Active when the actual speed is outside settings in par 4-52 to 4-55.
[41] Below reference, low Active when actual speed is below speed reference setting.
[42] Above ref, high Active when actual speed is above speed reference setting.
[43] Extended PID Limit
[45] Bus ctrl. Controls digital output/relay via bus. The state of the output is set in par. 5-90 ‘Digital & Relay Bus
Control’. The output state is retained in the event of bus time-out.
[46] Bus ctrl, 1 if timeout Controls output via bus. The state of the output is set in par. 5-90
Digital & Relay Bus Control
. In
the event of bus time-out the output state is set high (On).
[47] Bus ctrl, 0 if timeout Controls output via bus. The state of the output is set in par. 5-90
Digital & Relay Bus Control
. In
the event of bus time-out the output state is set low (Off).
[51] MCO controlled Active when a MCO 302 or MCO 305 is connected. The output is controlled from option.
[60] Comparator 0 See par. group 13-1* (Smart Logic Control). If Comparator 0 in SLC is TRUE, the output will go high.
Otherwise, it will be low.
[61] Comparator 1 See par. group 13-1* (Smart Logic Control). If Comparator 1 in SLC is TRUE, the output will go high.
Otherwise, it will be low.
[62] Comparator 2 See par. group 13-1* (Smart Logic Control). If Comparator 2 in SLC is TRUE, the output will go high.
Otherwise, it will be low.
[63] Comparator 3 See par. group 13-1* (Smart Logic Control). If Comparator 3 in SLC is TRUE, the output will go high.
Otherwise, it will be low.
[64] Comparator 4 See par. group 13-1* (Smart Logic Control). If Comparator 4 in SLC is TRUE, the output will go high.
Otherwise, it will be low.
[65] Comparator 5 See par. group 13-1* (Smart Logic Control). If Comparator 5 in SLC is TRUE, the output will go high.
Otherwise, it will be low.
[70] Logic rule 0 See par. group 13-4*(Smart Logic Control). If Logic Rule 0 in SLC is TRUE, the output will go high.
Otherwise, it will be low.
[71] Logic rule 1 See par. group 13-4*(Smart Logic Control). If Logic Rule 1 in SLC is TRUE, the output will go high.
Otherwise, it will be low.
[72] Logic rule 2 See par. group 13-4*(Smart Logic Control). If Logic Rule 2 in SLC is TRUE, the output will go high.
Otherwise, it will be low.
[73] Logic rule 3 See par. group 13-4*(Smart Logic Control). If Logic Rule 3 in SLC is TRUE, the output will go high.
Otherwise, it will be low.
[74] Logic rule 4 See par. group 13-4*(Smart Logic Control). If Logic Rule 4 in SLC is TRUE, the output will go high.
Otherwise, it will be low.
[75] Logic rule 5 See par. group 13-4*(Smart Logic Control). If Logic Rule 5 in SLC is TRUE, the output will go high.
Otherwise, it will be low.
[80] SL digital output A See par. 13-52 ‘Smart Logic Control Action’. Output A is low on Smart Logic Action [32]. Output A
is high on Smart Logic Action [38].
[81] SL digital output B See par. 13-52 ‘Smart Logic Control Action’. Output B is low on Smart Logic Action [33]. Output B
is high on Smart Logic Action [39].
[82] SL digital output C See par. 13-52 ‘Smart Logic Control Action’. Output C is low on Smart Logic Action [34]. Output C
is high on Smart Logic Action [40].
[83] SL digital output D See par. 13-52 ‘Smart Logic Control Action’. Output D is low on Smart Logic Action [35]. Output D
is high on Smart Logic Action [41]
VLT
®
AutomationDrive FC 300 Operating
Instructions
4 How to Programme
MG.33.AG.02 - VLT
®
is a registered Danfoss trademark
67
4
To Next Page
Loading...
