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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

Содержание EC590 Series

Страница 1: ...0 in 2022 Copyright subject to change without notice Professional AC Drive Manufacturer ZHEJIANG EACN ELECTRONIC TECHNOLOGY CO LTD Address No 1 Jinhe Road Qinshan Street Haiyan County Jiaxing City Zh...

Страница 2: ...s 9 5 F4 Input Terminals 9 6 F5 Output Terminals 9 7 F6 Start stop control 9 8 F7 Operating panel and display 9 9 F8 Auxiliary Functions 9 10 F9 Fault and Protection 9 11 FA PID Function 9 12 FB Fixed...

Страница 3: ...e read carefully If you have any questions please contact with the agents of our company and our technicians are ready to serve you The instructions are subject to change without notice You can contac...

Страница 4: ...range of 0 0 6500 0s DC braking JOG control DC braking frequency 0 00 Hz to maximum frequency Braking time 0 0 100 0s Braking action current value 0 0 150 0 Simple PIC Multiple preset speeds JOG frequ...

Страница 5: ...It helps to avoid frequent overcurrent faults of the AC drive Timing control Time range 0 0 6500 0 minutes Individua lized functions Multiple communication protocols It supports Modbus Item Specifica...

Страница 6: ...171 160 130 127 4 5 1 5Kw 2 2Kw 4 0Kw 7 5Kw 18 5Kw 15Kw 126 146 170 115 131 151 320 186 256 175 243 305 158 174 198 155 171 195 4 5 6 6 30Kw 5 5Kw 11Kw 22Kw A Structure 45Kw 75Kw 180 250 120 170 489 6...

Страница 7: ...C 0V 10V 2 Impedance 22k 1 Input range DC 0V 10V 4mA 20mA decided by selection of F4 40 2 Impedance 22k voltage input 500 current input 10V GND 24V COM PLC AI1 GND AI2 GND Name External 10V power supp...

Страница 8: ...sudden load is added during operation 5 The AC drive model is of too small power class 6 Subject to external inter ference 1 Eliminate external faults 2 Perform the motor autotuning 3 Adjust the volta...

Страница 9: ...oard is faulty 4 The module is faulty 1 Eliminate external faults 2 Check whether the motor three phase winding is normal 3 Seek technical support 4 Seek technical support 13 14 Err14 Module overheat...

Страница 10: ...ameter protection password is set In the function parameter mode and user change parameter mode the parameter menu can only be entered after correctly entering the password Set FP 00 to 0 to cancel th...

Страница 11: ...anel keypad display 0 No function 1 Digital setting 2 AI1 3 AI2 4 Keyboard potentiometer 5 Pulse reference S5 6 Multi reference 7 Simple PLC 8 PID reference 9 Serial communication Tens terminal contro...

Страница 12: ...V F complete separation 11 V F half separation Default 0 Parameter Name F3 02 Cut off frequency of torque boost 0 00 Hz to the maximum frequency 50 00Hz F3 03 F3 04 F3 05 F3 06 F3 07 F3 08 Multi poin...

Страница 13: ...control switchover 47 Emergency stop 48 External STOP terminal 2 49 Deceleration DC injection braking 50 Clear the current running time 51 Two wire Three wire mode switchover 52 Reverse frequency forb...

Страница 14: ...specified count value reached 10 Length arrives 11 PLC cycle completed 0 2 F5 06 F5 07 0 Operationg frequency 1 Set frequency 2 Output current 3 Output torque torque absolute value 4 Output power 5 O...

Страница 15: ...l Change Function Code Setting Range Default Parameter Name 0 Speed tracking method 0 Start with stop frequency 1 Start from zero speed 2 Start from maximum frequency 0 F6 02 Speed tracking speed 1 10...

Страница 16: ...eference Hz BIT0 1 Bus voltage BIT0 2 S state BIT0 3 YO state BIT0 4 AI1 voltage V BIT0 5 AI2 voltage V BITO 6 Keyboard potentiometer voltage BIT0 7 Count value BITO 8 Length value BIT0 9 PLC stage BI...

Страница 17: ...d 0 00Hz F8 25 Switch over frequency of acceleration time 1 and acceleration time 2 0 00Hz to the maximum frequency F8 26 Switch over frequency of deceleration time 1 and deceleration time 2 0 00Hz to...

Страница 18: ...upon 3rd latest fault Current upon 3rd latest fault 3rd latest fault type F9 19 F9 20 Bus voltage upon 3rd latest fault S state upon 3rd latest fault Y state upon 3rd latest fault F9 21 Power on time...

Страница 19: ...reached Err29 0 Coast to stop 1 Stop according to the stop mode 2 Continue to run BIT3 Load lost Err30 0 Coast to stop 1 Deceleration to stop 2 Continue to run at 7 of rated motor frequency and restor...

Страница 20: ...d 0 00 to 60 00s 0 AI1 1 AI2 2 Keyboard potentiometer 3 AI1 AI2 4 Pulse reference S5 5 Communication reference 6 AI1 AI2 7 Max AI1 AI2 8 Min AI1 AI2 0 0 FA 03 PID operation direction 0 Forward 1 Rever...

Страница 21: ...ence 4 FC 29 FC 28 Running time of simple PLC reference 5 0 0s h to 6553 5s h Acceleration Deceleration time of simple PLC reference 4 0 to 3 Running time of simple PLC reference 6 FC 30 0 0s h to 655...

Страница 22: ...mmunication detection time FE 00 User defined parameter 0 U3 17 FE 01 User defined parameter 1 F0 00 F0 00 FC 47 Acceleration Deceleration time of simple PLC reference 14 0 to 3 Running time of simple...

Страница 23: ...ter 27 F0 00 FE 28 User defined parameter 28 F0 00 FE 29 User defined parameter 29 F0 00 F0 00 to FP xx A0 00 to Ax xx U0 00 to U0 xx U3 00 to U3 xx FP Parameter Management Change Function Code Settin...

Страница 24: ...2 10 A2 27 A2 28 Rotor resistance Leakage inductive reactance Mutual inductive reactance No load current Encoder pulses per revolution Encoder type 0 001 to 65 535 AC drive power 55 kW 0 0001 to 6 553...

Страница 25: ...0 DPWM switchover frequency upper limit 5 00 Hz to the maximum frequency 0 Asynchronous modulation 1 Synchronous modulation A5 02 Dead zone compensation mode selection 0 Disabled 1 Enabled compensatio...

Страница 26: ...ump range A7 User Programmable Card Change Function Code Setting Range Default Parameter Name 0 Disabled 1 Enabled A7 01 Control board output terminal control mode selection 0 0 AC drive control 1 Use...

Страница 27: ...tory corrected Factory corrected Factory corrected Factory corrected Factory corrected Factory corrected Factory corrected Factory corrected U Minimum Unit UO Monitoring Parameters Function Code Param...

Страница 28: ...de parameters some function codes cannot be changed only for manufacturers to use or monitor function code parameter address marking rules The rules are represented by the function code group number a...

Страница 29: ...BIT1 Y2 output control BIT2 RELAY1 output control BIT3 RELAY2 output control BIT4 Y4R output control BIT5 VY1 BIT6 VY2 BIT7 VY3 BIT8 VY4 BIT9 VY5 2001 Digital output terminal control write only Comman...

Страница 30: ...4 port is constrained by the functional parameter F5 00 and can be used as a high speed pulse output channel with a maximum output frequency of 50KHz when used as an open collector output Same specifi...

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