background image

Hub van Doorneweg 8 • 2171 KZ Sassenheim – NL • 

T

 +31(0)252 228850 • 

F

 +31(0)252 228235 • 

E

 [email protected] • 

I

 euronormdrives.com

20

21

EURN010000_

002_C

EURN010000_

002_C

E1 group  Multi-speed, sample PLC parameter

Code

Parameter name

Setting range

Factory setting Change

E1.00

0 stage speed setting 0X

-100.0%

100.0%

0.0%

E1.01

1 stage speed setting 1X

-100.0%

100.0%

0.0%

E1.02

2 stage speed setting 2X

-100.0%

100.0%

0.0%

E1.03

3 stage speed setting 3X

-100.0%

100.0%

0.0%

E1.04

4 stage speed setting 4X

-100.0%

100.0%

0.0%

E1.05

5 stage speed setting 5X

-100.0%

100.0%

0.0%

E1.06

6 stage speed setting 6X

-100.0%

100.0%

0.0%

E1.07

7 stage speed setting 7X

-100.0%

100.0%

0.0%

E1.08

8 stage speed setting 8X

-100.0%

100.0%

0.0%

E1.09

9 stage speed setting 9X

-100.0%

100.0%

0.0%

E1.10

10 stage speed setting 10X

-100.0%

100.0%

0.0%

E1.11

11 stage speed setting 11X

-100.0%

100.0%

0.0%

E1.12

12 stage speed setting 12X

-100.0%

100.0%

0.0%

E1.13

13 stage speed setting 13X

-100.0%

100.0%

0.0%

E1.14

14 stage speed setting 14X

-100.0%

100.0%

0.0%

E1.15

15 stage speed setting 15X

-100.0%

100.0%

0.0%

E1.16

PLC Simple PLC running mode

0:  Stop after single running;
1:  Hold final value after single 
2: Circulating

0

E1.17

PLCmemory selection

Units:power-down memory;
0:  Power-down without memory;
1:  Power-down memory;
Tens:stop with memory;;
0:  Stop without memory; 1:Stop memory

11

E1.18

0 stage running time ~

0.0s(h) ~ 6500.0s(h)

0.0s(h)

E1.19

0 stage ac/deceleration time selection

0:  F0.13, F0.14;        1:  F7.08, F7.09;
2:  F7.10, F7.11;        3:  F7.12, F7.13

0

E1.20

1 stage running time T1

0.0s(h)  ~ 6500.0s(h)

0.0s(h)

E1.21

1 stage ac/deceleration time selection

Same to E1.19

0

E1.22

2 stage running time T2

0.0s(h)  ~ 6500.0s(h)

0.0s(h)

E1.23

2 stage ac/deceleration time selection

Same to E1.19

0

E1.24

3 stage running time T3

0.0s(h) ~ 6500.0s(h)

0.0s(h)

E1.25

3 stage ac/deceleration time selection

Same to E1.19

0

E1.26

4 stage running time T4

0.0s(h) ~ 6500.0s(h)

0.0s(h)

E1.27

4 stage ac/deceleration time selection

Same to E1.19

0

E1.28

5 stage running time T5

0.0s(h) ~ 6500.0s(h)

0.0s(h)

E1.29

5 stage ac/deceleration time selection

Same to E1.19

0

E1.30

6 stage running time T6

0.0s(h) ~ 6500.0s(h)

0.0s(h)

E1.31

6 stage ac/deceleration time selection

Same to E1.19

0

E1.32

7 stage running time T7

0.0s(h) ~ 6500.0s(h)

0.0s(h)

E1.33

7 stage ac/deceleration time selection

Same to E1.19

0

E1.34

8 stage running time T8

0.0s(h) ~ 6500.0s(h)

0.0s(h)

E1.35

8 stage ac/deceleration time selection

Same to E1.19

0

E1.36

9 stage running time T9

0.0s(h) ~ 6500.0s(h)

0.0s(h)

E1.37

9 stage ac/deceleration time selection

Same to E1.19

0

E1.38

10 stage running time T10

0.0s(h) ~ 6500.0s(h)

0.0s(h)

E1.39

10 stage ac/deceleration time selection Same to E1.19

0

E1.40

11 stage running time T11

0.0s(h) ~ 6500.0s(h)

0.0s(h)

E1.41

11 stage ac/deceleration time selection Same to E1.19

0

E1.42

12 stage running time T12

0.0s(h) ~ 6500.0s(h)

0.0s(h)

E1.43

12 stage ac/deceleration time selection Same to E1.19

0

E1.44

13 stage running time T13

0.0s(h) ~ 6500.0s(h)

0.0s(h)

E1.45

13 stage ac/deceleration time selection Same to E1.19

0

E1.46

14 stage running time T14

0.0s(h) ~ 6500.0s(h)

0.0s(h)

E1.47

14 stage ac/deceleration time selection Same to E1.19

0

E1.48

15 stage running time T15

0.0s(h) ~ 6500.0s(h)

0.0s(h)

E1.49

15 stage ac/deceleration time selection Same to E1.19

0

E1.50

Simple PLC run-time unit

0:  S(s);    1:  H(h)

0

E1.51

Multi-stage command 0 reference 
manner

0:  Function code E1.00 reference
1:  Analog AI1 reference;
5:  PID control setting;
6:  Keyboard set frequency (F0.01) setting,  
  UP/DOWN can be modified

0

Summary of Contents for JI150

Page 1: ...www euronormdrives com info euronorm nl 31 0 252 228850 Frequency Drive JI150 Manual...

Page 2: ...terminals 11 F2 group Output terminal 13 F3 group Start and stop control group 14 F4 group V F control parameter group 15 F5 group Vector control parameter group 15 F6 group Keyboard and display 16 F7...

Page 3: ...requency inverter The diagrams of these operating instructions are used for convenience of explanation and may be slightly different from the product due to product upgrades Please take this manual to...

Page 4: ...installation position mm Weight kg L W H A B d E JI150 0R7G4 Z 0 75 138 72 123 5 127 61 5 62 1 1 JI150 1R5G4 Z 1 5 JI150 2R2G4 Z 2 2 JI150 004G4 Z 4 185 72 134 175 45 5 82 1 3 JI150 5R5G4 Z 5 5 0 75 5...

Page 5: ...ance vector control inverter based on DSP Control method V F control vector control W O PG Automatic torque boost function Realize low frequency 1Hz and large output torque control under the V F contr...

Page 6: ...trol Jog frequency range 0 00Hz to max frequency jog Ac deceleration time 0 0 6500 0s Built in PID Easy to realize closed loop control system for the process control Automatic voltage regulation AVR A...

Page 7: ...n At most save three error message and the time type voltage current frequency and work status can be queried when the failure is occurred Key lock and function selection Lock part or all of keys defi...

Page 8: ...wiring requirements correct selection of accessories such as Voltmeter input power supply etc After completing the wiring please check it correctly and make sure that it is correct before powering it...

Page 9: ...put status DO output status d0 09 AI1 voltage AI1 input voltage value 0 01V d0 12 Count value Actual pulse count value in counting function d0 13 Length value Actual length in fixed length function d0...

Page 10: ...nning 0 Running frequency 1 Set frequency 0 F0 11 Command source selection Keyboard control LED off 1 Terminal block control LED on 2 Communications command control LED flashes 3 Keyboard control Comm...

Page 11: ...rminal 1 The setting of 16 stage speed or 16 kinds of other command can be achieved through the 16 states of the four terminals 13 Multi speed terminal 2 14 Multi speed terminal 3 15 Multi speed termi...

Page 12: ...then switches directly to DC braking status 50 Clear current running time If the terminal is valid the inverter s current running time is cleared Table 1 Multi command functions description Over 4 se...

Page 13: ...Ready to run When the inverter main circuit and control circuit power supply has stabilized and the drive does not detect any fault information the drive is in an operational state output ON signal 1...

Page 14: ...Relay 1 output delay time 0 0s 3600 0s 0 0s F2 15 DO terminal active status selection Units digit Reserve Tens digit Relay 0 Positive 1 Negtive 00000 F2 16 DA1 zero bias coefficient 100 0 100 0 20 0...

Page 15: ...00 80 F4 11 V F oscillation suppression gain 0 100 0 F4 12 V F separation voltage source 0 9 0 F4 13 V F separation voltage digital setting 0V motor rated voltage 0V F4 14 V F separation voltage rise...

Page 16: ...F6 06 Inverter module radiator temperature 0 0 100 0 F6 07 Total running time 0h 65535h F6 08 Total power on time 0h 65535h F6 09 Total power consumption 0 65535 F6 10 Product number Inverter product...

Page 17: ...22 Start protection selection 0 OFF 1 ON 0 F7 23 FDT1 detection value 0 00Hz F0 19 Max frequency 50 00Hz F7 24 FDT1 detection hysteresis value 0 0 100 0 FDT1 level 5 0 F7 25 Frequency reaches detectio...

Page 18: ...8 12 Automatic fault reset 0 1s 100 0s 1 0s F8 25 Abnormal reserve frequency 60 0 100 0 100 F8 26 Momentary power cut action selection 0 Invalid 1 Deceleration 2 Deceleration and stop 0 F8 28 Recovery...

Page 19: ...on 1 Compensation mode 1 2 Compensation mode 2 1 Fb 06 Upper limiting frequency for DPWM switching 0 00 15 00Hz 12 00Hz Fb 07 PWM modulation mode 0 Asynchronous 1 Synchronous 0 Fb 08 Random PWM depth...

Page 20: ...2 stage ac deceleration time selection Same to E1 19 0 E1 24 3 stage running time T3 0 0s h 6500 0s h 0 0s h E1 25 3 stage ac deceleration time selection Same to E1 19 0 E1 26 4 stage running time T4...

Page 21: ...l gain KP1 0 0 to 200 0 80 0 E2 14 Integration time Ti1 0 01s to 10 00s 0 50s E2 15 Differential time Td1 0 00s to 10 000s 0 000s E2 16 Proportional gain KP2 0 0 to 200 0 20 0 E2 17 Integration time T...

Page 22: ...rter power 55kW 0 01mH to 655 35mH Inverter power 55kW Motor parameters b0 10 Asynchronous motor no load current 0 01A to b0 03 Inverter power 55kW 0 1A to b0 03 Inverter power 55kW Motor parameters b...

Page 23: ...back loss when running 40 Fast current limiting timeout 41 Switch motor when running 42 Too large speed deviation 43 Motor overspeed 45 Motor over temperature 51 Initial position error COF communicati...

Page 24: ...ens 2 The control mode is vector and without identification of parameters 3 The deceleration time is too short 4 The voltage is low 5 Suddenly increase the load in the process of deceleration 6 didn t...

Page 25: ...he existing problems in the peripheral line 2 replace the drive the power board or contactor 18 Err 18 Current detection fault 1 Check Hall device 2 The drive panel is abnormal 1 Replace the drive pan...

Page 26: ...___________________________________________________________________ ____________________________________________________________________________________________________________________________________...

Page 27: ...Hub van Doorneweg 8 2171 KZ Sassenheim NL T 31 0 252 228850 F 31 0 252 228235 E sales euronorm nl I euronormdrives com 27 EURN010000_002_C Delivery program...

Page 28: ...www euronormdrives com Hub van Doorneweg 8 Sassenheim...

Reviews: