168
Learning Advanced Features
Code
Description
feedback source.
Setting
Function
0
Keypad
Keypad
1
V1
-10-10 V input voltage terminal
3
V2
I2 analog input terminal
When the analog voltage/current input terminal
selection switch (SW4) at the terminal block is set to I
(current), input 0-20 mA current. If it is set to V
(voltage), input 0–10 V.
4
I2
5
Int. 485
RS-485 input terminal
7
FieldBus
Communication command via a communication
option card
8
Pulse
TI Pulse input terminal (0-32 kHz Pulse input)
9
E-PID
Output
External PID output
10
V3
V3 analoge input terminal of Extension IO option
When the analog voltage/current input terminal
selection switch (SW2) at the terminal block is set to
I3(current), input 0-20 mA current. If it is set to V3
(voltage), input 0–10 V.
11
I3
PID-11 PID Ref Set
A reference value can be entered if the PID reference type (PID-10) is set to ‘0
(Keypad)’.
PID-12 PID
Ref1AuxSrc
Selects the external input source to be used as the reference for a PID control.
If an external input source is selected, the reference is determined using the
input value at the source (set at PID-10) and the value set at PID-13 PID
Ref1AuxMod.
Setting
Function
0
None
Not used
1
V1
-10-10 V input voltage terminal
3
V2
I2 analog input terminal
[If the analog voltage/current input terminal selection
switch (SW4) at the terminal block is set to I (current),
input 0-20 mA current. If it is set to V (voltage), input
0–10 V]
4
I2
6
Pulse
TI Pulse input terminal (0-32 kHz Pulse input)
7
Int. 485
RS-485 input terminal
8
FieldBus
Communication command via a communication
option card
10
EPID1
External PID 1 Output
Summary of Contents for 6731001500
Page 1: ......
Page 17: ...Preparing the Installation 4 37 90kW 3 Phase ...
Page 18: ...Preparing the Installation 5 110 132kW 3 Phase ...
Page 19: ...Preparing the Installation 6 160 185kW 3 Phase ...
Page 20: ...Preparing the Installation 7 220 250kW 3 Phase ...
Page 21: ...Preparing the Installation 8 315 400kW 3 Phase ...
Page 22: ...Preparing the Installation 9 500kW 3 Phase ...
Page 34: ...21 Installing the Inverter 400 V 220 500kW ...
Page 50: ...37 Installing the Inverter Inputand OutputControlTerminalBlockWiringDiagram 5 5 90kW ...
Page 66: ...Perform BasicOperations 53 ...
Page 106: ...93 Learning BasicFeatures 0 10V InputVoltageSettingDetails V1 Quantizing ...
Page 107: ...94 Learning BasicFeatures ...
Page 187: ...174 Learning Advanced Features PIDCommandBlock ...
Page 188: ...175 Learning Advanced Features ...
Page 189: ...176 Learning Advanced Features PIDFeedbackBlock ...
Page 190: ...177 Learning Advanced Features PIDOutputBlock ...
Page 191: ...178 Learning Advanced Features PIDOutputModeBlock ...
Page 205: ...192 Learning Advanced Features EPID1Controlblock ...
Page 206: ...193 Learning Advanced Features EPID2Controlblock ...
Page 228: ...215 Learning Advanced Features ...
Page 244: ...231 Learning Advanced Features TheTime Chartfor the Exception Day ...
Page 260: ...247 Learning Advanced Features SpeedSearchOperation SettingDetails ...
Page 405: ...392 RS 485 Communication Features 7 3 9 2 Control Area Parameter Read Write ...
Page 555: ...Table ofFunctions 542 8 16 4 CoolingTower MC4 Group ...
Page 558: ...Tableof Functions 545 8 16 5 Circulation Pump MC5 Group ...
Page 562: ...Tableof Functions 549 8 16 6 Vacuum Pump MC6 Group ...
Page 588: ...575 Troubleshooting ...
Page 608: ...TechnicalSpecification 595 11 3 External Dimensions 0 75 30kW 3 phase 37 90kW 3 phase ...
Page 609: ...TechnicalSpecification 596 110 185kW 3 phase ...
Page 632: ...TechnicalSpecification 619 400 V 37 500 kW Current Derating Rate ...
Page 643: ...630 ...
Page 644: ...631 ...
Page 645: ...632 ...