88
•Multi-function analog input characteristics
(5) Sn-29 = 04 (6) Sn-29 = 05
0V 10V
0%
100%
VBAIS
Multi-function Analog Input
(7) Sn-29 = 06 (8) Sn-29 = 07
0V 10V
0%
100%
DC Braking
Current
Multi-function Analog Input
0V 10V
1
10
Reduction
Coefficient
1V
Multi-function Analog Input
(1) Sn-29 = 00 (2) Sn-29 = 01
0V 10V
2.00
FGAIN
Multi-function Analog Input
0V
1.00
Multi-function Analog Input
0V 10V
0%
100%
Aux. Freq.
Command
(3) Sn-29 = 02 (4) Sn-29 = 03
Multi-function Analog Input
(9) Sn-29 = 08 (10) Sn-29 = 09
(11) Sn-29 = 10
(12) Sn-29 = 11
0V 10V
0%
Freq. Command
Lower Limit
100%
Multi-function Analog Input
Multi-function Analog Input
0V 10V
-10%
10%
FBAIS2
5V
0%
0V 10V
30%
200%
1.5V
Stall Prevention
Level
Multi-function Analog Input
Multi-function analog input (terminal
AUX) used as PID control reference
input (0~10V). Please refer to "PID
CONTROL BLOCK DIAGRAM"
on page 42 and 112.
Real ACC/DEC Time =
ACC/DEC Time (Bn-01~04)
Reduction Coefficient (TK)
0V 10V
0%
10%
FBAIS1
0V 10V
0%
200%
Overtorque
Detection Level
Multi-function Analog Input
0V 10V
0%
Jump
Frequency 4
100%
Multi-function Analog Input
(13) Sn-29=12 : For RS-485 communication use. The analog value of AUX (0-
1024/0-10V) can be read through RS-485 communication. (Please refer to
‘7200MA RS-485 MODBUS/PROFIBUS Application Manual’)
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