■Setting method (in the R mode)
Set each item as follows:
• 'CH1 Proportional band (P) setting' (Un\G431): Any value (Page 245 CH1 Proportional band (P) setting)
• 'CH1 Heating proportional band (Ph) setting' (Un\G431): Any value (Page 247 CH1 Heating proportional band (Ph)
setting)
• 'CH1 Integral time (I) setting' (Un\G432): 0 (0s) (Page 247 CH1 Integral time (I) setting)
• 'CH1 Derivative time (D) setting' (Un\G433): 0 (0s) (Page 248 CH1 Derivative time (D) setting)
■Setting method (in the Q compatible mode)
Set each item as follows:
• "Proportion Belt (P) Setting": Any value
• "Integration Time (I) Setting": 0s
• "Differentiation Time (D) Setting": 0s
[Navigation window] [Parameter] [Module Information] Target module [Application Setting] [Control basic
parameters]
PI control
PI control is a control method in which derivative elements are added to P control, and thereby corrects an offset (remaining
deviation) that remains when the temperature is stable. By setting the integral time (I) properly, the temperature process value
(PV) matches with the set value (SV).
■Setting method (in the R mode)
Set each item as follows:
• 'CH1 Proportional band (P) setting' (Un\G431): Any value (Page 245 CH1 Proportional band (P) setting)
• 'CH1 Heating proportional band (Ph) setting' (Un\G431): Any value (Page 247 CH1 Heating proportional band (Ph)
setting)
• 'CH1 Integral time (I) setting' (Un\G432): Any value (Page 247 CH1 Integral time (I) setting)
• 'CH1 Derivative time (D) setting' (Un\G433): 0 (0s) (Page 248 CH1 Derivative time (D) setting)
■Setting method (in the Q compatible mode)
Set each item as follows:
• "Proportion Belt (P) Setting": Any value
• "Integration Time (I) Setting": Any value
• "Differentiation Time (D) Setting": 0s
[Navigation window] [Parameter] [Module Information] Target module [Application Setting] [Control basic
parameters]
1 FUNCTIONS
21
1.2 Control Method
1