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Tens digit: Stop memory selection
0: Stop without memory
1: Stop with memory
0 stage ac/deceleration time selection
0:F0.13, F0.14;
1:F7.08, F7.09;
2:F7.10, F7.11;
3:F7.12, F7.13
1 stage ac/deceleration time selection
2 stage ac/deceleration time selection
3 stage ac/deceleration time selection
4 stage ac/deceleration time selection
5 stage ac/deceleration time selection
6 stage ac/deceleration time selection
7 stage ac/deceleration time selection
8 stage ac/deceleration time selection
9 stage ac/deceleration time selection
10 stage running time T10
10 stage ac/deceleration time selection
11 stage running time T11
11 stage ac/deceleration time selection
12 stage running time T12
12 stage ac/deceleration time selection
13 stage running time T13
13 stage ac/deceleration time selection
14 stage running time T14
14 stage ac/deceleration time selection
15 stage running time T15
15 stage ac/deceleration time selection
0: S (seconds) 1: H (hours)
Multi-stage command 0 reference
manner
0: Function code E1.00 reference
1: Analog AI1 reference
3: Panel potentiometer setting
4: High-speed pulse setting
5: PID control setting
6:Keyboard set frequency (F0.01) setting,
UP/DOWN can be modified
E2 group PID functional parameter group
0: E2.01 setting
1: Analog AI1 reference
3: Panel potentiometer setting
4: High-speed pulse setting
5: Communications reference
6: Multi-stage command reference
0.Analog AI1 reference
2. Panel potentiometer setting
4: High-speed pulse setting
5: Communications reference
PID setting feedback range
PID inversion cut off frequency
0.00 to F0.19(Maximum frequency)
PID differential limiting
PID reference change time
PID feedback loss detection value
0.0%: not judged feedback loss
0.1% to 100.0%
PID feedback loss detection time
PID parameter switching conditions
0:No switching;
1:Switching via terminals
2: Automatically switching according to
deviation.
PID parameter switching deviation 1
PID parameter switching deviation 2
Units digit: Integral separation
0: Invalid; 1: Valid
Tens digit: Whether stop integration when
output reaches limit
0: Continue; 1:Stop