56
2. If Fn_84=xxx1, Fn_56~Fn_58=0~2 or 16~18 and pulse signal is received on multi-function
input, T-verter will run at a certain to time (set by Fn_85~Fn_91) at a certain frequency *set by
Fn_17~Fn_23) then return to frequency set by keypad or external VR or(Fn_84=xx0x) or jump
back to zero speed(Fn_84=xx1x).
3. If Fn_84=x0x1,Fn_56~Fn_58=14 or 30 and pulse signal is received on multi-function input,
T-verter will operate in process1=>2=>3=>4….sequence till all process time is over then returns
to frequency set by keypad or external VR or jump back to zero speed(Fn_84=xx1x or xx0x), VR
(Fn_84=xx0x) or jump back to zero speed(Fn_84=xx1x).
4. If Fn_84=x1x1, Fn_56~Fn_58=14 or 30 the sequence control cycle will repeat, operate in
process1=>2=>3=>4…1=>2=>3=>4.. till zero stop command input the T-verter will stop.
Fn_85: Process Timer: 1 0.1 sec. ~ 0 to 3600 sec.
Fn_86: Process Timer: 2 0.1 sec. ~ 0 to 3600 sec.
Fn_87: Process Timer: 3 0.1 sec. ~ 0 to 3600 sec.
Fn_88: Process Timer: 4 0.1 sec. ~ 0 to 3600 sec.
Fn_89: Process Timer: 5 0.1 sec. ~ 0 to 3600 sec.
Fn_90: Process Timer: 6 0.1 sec. ~ 0 to 3600 sec.
Fn_91: Process Timer: 7 0.1 sec. ~ 0 to 3600 sec.
Fn_92: Vibration Control Time: 1 ~ 100
Fn_93: Vibration prevention gain: 0 - 100 %
Fn_94: Vibration prevention bias: 0 - 30 %
Note:
1. Adjusting (Fn_92) (unit: 2ms) to 1/4 of machine‘s vibration cycle can provide the optimal
performance.
2. Adjusting (Fn_93) according to the amplitude of vibration can reduce vibration to a minimum.
Fn_95: Factory Adjustments only:
Fn_96: Factory Adjustments only:
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