32
(13):17-0 Proportional Gain (P) 0.0 – 10.0 rate
17-1 Integration Time (I) 0.0 – 100.0 sec
17-2 Differentiation Time (D) 0.00 – 10.00 sec
PID Parameter Adjustment Guide:
PID
Parameters
Increase Setting
Value
Decrease Setting
Value
Main
Feature
Proportional
Gain (P)
(G) Increase response time
(B) Might cause pump vibration
(G) Reduce vibration
(B) Slow down response
Increase
stabilize time
Integration
Time (I)
(G) Smooth output frequency
(B) Slow down response
(G) Fast response
(B) Change rapidly of
output frequency.
For smooth
feedback
variations
Differentiation
Time (D)
(G) Avoid overshooting
(B) System unstable or motor
vibration
(G) System stable
(B) Overshooting easily
Respond to
system rapid
variations
Notes: PID parameters can be changed during the inverter is running.
Notes: (G) means good, (B) means bad.
Stabilize deviation
Overshooting
18-0
Target Pressure Value
AI2/S6 Feedback signal
Stabilize time
Summary of Contents for JNTHBCBA0001BEAU
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Page 53: ...51 0 1 z z z z 200V 100 400V 10 z z T1 U T2 V T3 W AC z CMOS IC z z...
Page 55: ...53 2 1 2 1 1 L1 L L2 L3 N T1 T2 T3 z z z 40 z IEC 61800 3 P57...
Page 56: ...54 2 1 2 CONNECTOR 2 1 3 5 2 1 4 z z z z z z z 5...
Page 57: ...55 2 1 5 10 40 95 RH 10 50 95 RH...
Page 70: ...68 4 2 15 16 17 PID 18 19 20...
Page 81: ...79 12 16 9 0 200 min 16 9 0 min Hi p Lo p 16 9 1BrE 19 3 16 9 1BrE 1BrE...
Page 82: ...80 13 17 0 P 0 0 10 0 rate 17 1 I 0 0 100 0 sec 17 2 D 0 00 10 00 sec P I D PID 18 0...
Page 84: ...82 16 17 7 0 0 10 0 sec 17 8 0 01 2 50 Bar 17 9 0 01 2 50 Bar 17 7 0 0 sec 17 7 17 8...
Page 93: ...91 32 20 A 0 1 2 3 4 5 PID FEEDBACK 20 B 0 200 TM2 0 10Vdc 20 A 20 B...
Page 96: ...94 5 2 L1 L L2 L3 N T1 T2 T3 T1 T2 T3 U V W AC...
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