EACON EC590 Series, Quick Manual

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F u n c t i o n C o d e T a b l e EC590 F u n c t i o n C o d e T a b l e EC590
0 to 59 A1-07
Function selection
for AI1 used as S
0 A1-08
Function selection
for AI2 used as S
A1-12
VY1 function
selection
VY3 function
selection
VY1 output delay
Motor type
selection
A1-11
VY2 function
selection
A1-13
A1-16 0.0s to 3600.0s
0: Positive logic active
1: Negative logic active
BIT0:VD01 BIT1:VD02 BIT2:VD03
BIT3:VD04 BIT4:VD05
A1-21
VY active mode
selection
0: Common asynchronous motor
1: Variable frequency asynchronous motor
A2-00
0.1 kW to 1000.0 kW A2-01
Rated motor power
A2-03
A2-02
Rated motor current
1 V to 2000 V
Rated motor
frequency
0.01 Hz to the maximum frequency
Stator resistance
A2-04
0.001 Ω to 65.535 Ω
(AC drive power ≤ 55 kW)
0.0001 Ω to 6.5535 Ω
(AC drive power > 55 kW)
☆
☆
☆
☆
☆
☆
0000
0
0
0.0s
00000
0
0 to 59
0 to 59 A1-09
Function selection
for keyboard
used as S
A1-10
Active state
selection for AI
used as S
0: High level active
1: Low level active
BIT0:AI1 BIT1:AI2
BIT2:Pull out keyboard potentiometer
0: Short with physical Sx internally
1 to 41: See physical Y selection in
group F5
VY4 function
selection
A1-14
VY5 function
selection
A1-15
VY2 output delay
A1-17 0.0s to 3600.0s
VY3 output delay
A1-18 0.0s to 3600.0s
VY4 output delay
A1-19 0.0s to 3600.0s
VY5 output delay A1-20
0.0s to 3600.0s
A2 Motor 2 Parameters
Change
Function
Code
Setting Range
Default Parameter Name
Rated motor voltage
0.01 A to 655.35 A
(AC drive power ≤ 55 kW)
0.1 A to 6553.5 A
(AC drive power > 55 kW)
A2-05
Rated motor speed 1 rpm to 65535 rpm
A2-06
Model
dependent
Model
dependent
Model
dependent
Model
dependent
Model
dependent
Model
dependent
★
★
★
★
★
★
★
0.0s ☆
☆
0.0s
0.0s
☆
0.0s
0
0
☆
0
0
★
★
★
★
A2-07
A2-08
A2-09
A2-10
A2-27
A2-28
Rotor resistance
Leakage inductive
reactance
Mutual inductive
reactance
No-load current
Encoder pulses per
revolution
Encoder type
★
★
★
★
★
★
0.001 Ω to 65.535 Ω (AC drive power ≤ 55 kW)
0.0001 Ω to 6.5535 Ω (AC drive power > 55 kW)
0.01 mH to 655.35 mH (AC drive power ≤ 55 kW)
0.001 mH to 65.535 mH (AC drive power > 55 kW)
0.1 mH to 6553.5 mH (AC drive power ≤ 55 kW)
0.01 mH to 655.35 mH (AC drive power > 55 kW)
0.01 A to A2-03 (AC drive power ≤ 55 kW)
0.1 A to A2-03 (AC drive power > 55 kW)
1 to 65535
0: ABZ incremental encoder
2: Resolver
Model
dependent
1024
0
A2-30
A2-31
A2-34
A/B phase sequence
of ABZ incremental
encoder
Encoder installation
angle
Number of pole pairs
of resolver
0: Forward 1: Reverse
0.0 to 359.9°
1 to 65535
0
0 . 0 °
0 . 0
0
Speed loop
proportional gain 1
1 to 100
30
A2-39
Speed loop
integral time 1
☆
0.01s to 10.00s
0.50s
A2-40
Switchover
frequency 1
☆
0.00 to A2-43
20
A2-41
Speed loop
proportional gain 2 1 to 100
1.00
A2-43
Switchover
frequency 2
A2-40to the maximum frequency
A2-44
Vector control slip
compensation gain ☆
50% to 200% 100%
A2-45
SVC torque filter
constant
0.000s to 0.100s
0.000s
A2-47
Torque limit source
in speed control
0: Set by A2-48
1: AI1 2: AI2
3: Keyboard potentiometer
4: Pulse reference
5: Communication reference
6: Min. (AI1, AI2)
7: Max. (AI1, AI2)
The full scale of 1-7 corresponds to A2-48.
☆ 0
A2-48
Digital setting of
torque limit in
speed control
0.0% to 200.0%
150.0%
A2-29
Speed feedback
channel selection
0: Local PG card
1: Extension PG card
2: Pulse input (S5)
0
★
A2-36
Encoder wire-break
fault detection time
0.0s: No detection
0.1s to 10.0s
A2-37
Auto-tuning
selection
0: No auto-tuning
1: Asynchronous motor partial static
auto-tuning
2: Asynchronous complete dynamic auto-tuning
3: Asynchronous complete static auto-tuning
A2-38
Speed loop
integral time 2
A2-42
0.01s to 10.00s
Model
dependent
Model
dependent
Model
dependent
1
★
★
★
★
★
5.0Hz
10.00Hz
☆
☆
☆
☆
☆
☆