185
Learning Advanced Features
Code
Description
(SW2) 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]
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)
EPI-07 EPID1 Ref
Set
Set the EPI control reference type (EPI-
06) to ‗0 (Keypad)‘ to enter the
reference value.
EPI-09 EPID1 P-
Gain
Sets the output ratio for differences (errors) between the reference
and feedback. If the P-Gain x 2 is set to 50%, then 50% of the error is
output. The setting range for P-Gain is 0.0-1,000%.
EPI-08 EDPID1 Fdb
Src
Selects the feedback input for the EPID control. When the V1 terminal
is set to an EPID feedback source (PID F/B Source), V1 cannot be set
as the PID reference source (PID Ref Source). To set V1 as a
reference source, change the feedback source.
Setting
Function
0
Keypad
Keypad
1
V1
-10-10 V input voltage terminal
3
V2
I2 analog input terminal [When 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 voltage]
4
I2
5
Int. 485
RS-485 input terminal
7
FieldBus
Communication command via a communication
option card
EPI-10 EPID1 I-
Time
Sets the time to output accumulated errors. When the error is 100%,
the time taken for 100% output is set. When the integral time (EPID I-
Time) is set to 1 second, 100% output occurs after 1 second of the
error remaining at 100%. Differences in a normal state can be reduced
by EPID I Time.
All the accumulated errors can be deleted by setting the multi-function
terminal block to ‗42 (EPID1 ITerm Clr)‘ or ‗48 (EPID2 ITerm Clr)‘.
EPI-11
EPI1 D-Time
Sets the output volume for the rate of change in errors. If the
differential time (EPID1 D-Time) is set to 1 ms and the rate of change
in errors per sec is 100%, output occurs at 1% per 10 ms.
EPI-12 EPID1 FF-
Gain
Sets the ratio that adds the target to the EPID output. Adjusting this
value leads to a faster response.
Summary of Contents for H100
Page 14: ......
Page 18: ...Preparing the Installation 4 37 90 kW 3 Phase ...
Page 27: ...Preparing the Installation 13 ...
Page 47: ...33 Installing the Inverter ...
Page 48: ...Installing the Inverter 34 Input and Output Control Terminal Block Wiring Diagram ...
Page 61: ...47 Installing the Inverter ...
Page 71: ...Learning to Perform Basic Operations 57 ...
Page 88: ...Learning to Perform Basic Operations 74 ...
Page 103: ...89 Learning Basic Features Code Description V1 Quantizing ...
Page 129: ...115 Learning Basic Features ...
Page 140: ...Learning Basic Features 126 ...
Page 148: ...Learning Basic Features 134 ...
Page 171: ...157 Learning Advanced Features Deceleration dwell operation ...
Page 183: ...169 Learning Advanced Features ...
Page 184: ...Learning Advanced Features 170 PID Command Block ...
Page 185: ...171 Learning Advanced Features PID Feedback Block ...
Page 186: ...Learning Advanced Features 172 PID Output Block ...
Page 187: ...173 Learning Advanced Features PID Output Mode Block ...
Page 197: ...183 Learning Advanced Features ...
Page 201: ...187 Learning Advanced Features Code Description 100 EPID1 Control block ...
Page 202: ...Learning Advanced Features 188 EPID2 Control block ...
Page 237: ...223 Learning Advanced Features Time Period Schedule AP3 38 Except3 Day 01 01 ...
Page 244: ...Learning Advanced Features 230 ...
Page 259: ...245 Learning Advanced Features Code Description Code Description Volt ...
Page 362: ...Learning Protection Features 348 ...
Page 415: ...401 RS 485 Communication Features Item Standards Parity check None ...
Page 524: ...Table of Functions 510 ...
Page 533: ...Table of Functions 519 ...
Page 547: ...533 Troubleshooting ...
Page 585: ...Technical Specification 571 ...
Page 594: ...580 ...
Page 595: ...581 ...
Page 596: ...582 ...