EN600 Multifuctional universal Vector frequency inverter

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User manual EN500 EN600 Manual v3.0
         
EN500 Cerificate of Conformity NO-TB14078542 EN500 Certificate of Conformity NO-TB14078543
   

 

        

Main Features

 Models

Adequate Braking Resistors
     

Mounting sizes

Panel Dimensions

Panel Dimensions

     

 

 

Main Features
Input Rating volt., frequency 1 phase 220V Grade: 1 phase 220V, 50Hz/60Hz
Allowed volt, range 3 phase 380V Grade: 3 phase 380V, 50Hz/60Hz
Output Voltage 0~380VAC
Frequency 0~600 Hz
Over loading capacity G type: 150% ofrated current for 1 minute;
  P type: 120% ofrated current for 1 minute.
Control
performance		 Control mode Vector control, PG vector control, open-loop V/F control, torque control, PG torque control
Velocity control precision ±0.5% rated synchronous speed ( vector control );
±0.1% rated synchronous speed (PG vector control);
±1% rated synchronous speed ( V/F control);
Speed regulation range 1: 2000 (PG vector control );
1: 100 ( vector control);
1: 50 (V/F control);
Start-up torque 1.0Hz: 150% rated torque (V/F control);
 0.5Hz: 150% rated torque (vector control);
0Hz:    180% rated torque (PG vector control)
Speed fluctuation ±0.3% rated synchronous speed (vector control);
±0.1% rated synchronous speed (PG vector control);
Torque control precision ±10% rated torque ( vector control, torque control);
±5% rated torque (PG vector control, PG torque control);
Torque response <20ms ( vector control);
<10ms (PG vector control);
Frequency precision Digital setting: max. frequency x ±0,0l%;
Analog setting: max.fequency x ±0,5%;
Frequency resolution Analog setting 0.1% of max. frequency
Digital setting precision 0.01Hz
Exterior impulse 0.1% of max. frequency
Torque boost Automatic torque boost; manual torque boost 0.1~1 2.0%
V/F curve
(volt. Frequency characteristic)		 Setting rated frequency at the range of 5x 650Hz, by choosing constant torque, degressive torque 1,degressive torque 2,degressive torque
3,self-defined V/F total 5 kinds ofcurve.
Acceleration / Deceleration
curve		 Two modes: straight line acceleration and deceleration; S curve acceleration and deceleration; 15 kinds of acceleration and deceleration time, time unit (0.01s, 0.1s, Is) for option , max. time for 1000 minutes.
Running function Running command
specified channel
Running frequency
specified channel
 Binding function		 Keypad specified, control terminal specified, communication specified can switch through various means
Main & auxiliary specified to a realize one main adjusting and one fine control. Digital specified, analog specified, pulse specified, pulse width specified, communication specified and others, which can be switched by many means at any time.
Run command channel and frequency specified channel can bind together randomly and switch synchronously
Input, Output
characteristic		 Digital input channel Channel 8 for universal digital input, max. Frequency lKHz, channel 1 can be used as pulse input channel, max. Input 50KHz, which can be expanded to channel 1 4 .
Analog input channel Channel 2 for analog input channel, All can choose 4~20mA or 0~10V output, AI2 is differential input channel, 4~20mA or -10~10V
for option, which can be expanded to channel 4 analog input.
Pulse output channel 0.1 ~ 20KHz pulse square signal output to achieve setting frequency, output frequency and other physical quantity output.
Analog output channel Channel 2 for analog signal output, AOl can choose 4~20mA or
0~10V, A02 can choose 4~20mA or 0~10Vto achieve setting
frequency, output frequency and other physical quantity output, which
can be expanded to channel 4 analog output.
Unique function Rapid current limit Limit inverter over current to the greatest point, and make it run more stably
Monopulse control Suitable for working site where need one button to control inverter
start and stop, first press to start, then press to stop, and that cycle
repeats. Its very simple and reliable.
Fixed length control Realize fixed length control
Timing control Timing control function: setting time range O.lMin 6500,0Min
Virtual terminal Five group virtual input & output 10 can realize simply logical control
Keypad Keypad display The parameters as setting frequency, output frequency, output voltage, output
Button Locked Lock all or part of the buttons
Protection function Motor power on Shot circuit test, input & output phase loss protection, over-current protection, over voltage protection, under voltage protection, over heat protection, overload protection, under load protection, relay absorption protection, terminal protection and no stop protection under power off.
Enviroment Application site Indoor, not bare to sunlight, no dust, no corrosive gas, no flammable gas, no vapor, no water drop or salt etc.
Altitude Under 1 000 meter. ( above 1 000 meter require to reduce volume to
use, output current reduce about 10% of rated currenvolt per 1000 meter high)
Environment temperature -10°C~+40°C (environment temperature between 40°C~50°C, need to reduce volume or strengthen heat sink )
Environment humidity Smaller than 95%RH, no drop condenses
Vibration Smaller than 5.9 M/S2(0.6g)
Storage temperature -40°C ~ +70°C
Structure Protection grade   IP20
  Cooling mode Forced air cooling and natural
Installation mode Wall hanging and cabinet installation

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 Models
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NOTE

G type: General Purpose   P type: Pumps and Fans
Inveter type

Output current

Power (KW)

Power supplay

Output
EN600-2S0015 7 1,5 220VAC 3x220VAC
EN600-2S0022 10 2,2 220VAC 3x220VAC
EN600-2S0037 15 3,7 220VAC 3x220VAC
EN600-4T0015G/0022P 3,7/5 1,5 / 2,2 3x380VAC 3x380VAC
EN600-4T0022G/0037P 5/8,5 2,2/3,7 3x380VAC 3x380VAC
EN600-4T0055G/0075P 13/17 5,5/7,5 3x380VAC 3x380VAC
EN600-4T0075G/0110P 17/25 7,5/11 3x380VAC 3x380VAC
EN600-4T0110G/0150P 25/33 11/15 3x380VAC 3x380VAC
EN600-4T0220G/0300P 45/60 22/30 3x380VAC 3x380VAC
EN600-4T0300G/0370P 60/75 30/37 3x380VAC 3x380VAC
EN600-4T0370G/0450P 75/91 37/45 3x380VAC 3x380VAC

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Mounting Sizes

Figure A

Figure B

 

Type

H

H1

W

W1

W2

D

N1

N2 

M1

M2

Figure
 

mm 

  

EN500-4T0750G/0900P

570 

546 

340 

237 

-- 

320 

-- 

-- 

Φ12 

Φ18 

A

EN500-4T0900G/1100P 

EN500-4T1100G/1320P

650

628

400

297

--

340

--

--

Φ12

Φ18

EN500-4T1320G/1600P

EN500-4T1600G/2000P

980

953

480

370

--

400

Φ38

Φ19

Φ9

Φ18

EN500-4T2000G/2200P

1030

1003

500

370

--

400

Φ38

Φ19

Φ

Φ18

EN500-4T2200G/2500P

EN500-4T2500G/2800P

1368

1322

700

500

440

430

Φ52

Φ19

Φ12

Φ22

B

EN500-4T2800G/3150P

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Panel Dimensions

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Failure type and the countermeasure

Code

Failure type

Possible reason

Countermeasure

E-01

Overcurrent during
accelerating process

Accelerating time is too short

Prolong accelerating time

Improper V/F curve

Adjust V/F curve setting,adjust manual torque boost or change to automatic torque boost

Restart rotating motor

Set speed checking restart function

Low power source voltage

Check input power supply

Too small power of the inverter

Choose inverter with high-power

E-02

Overcurrent during
decelerating process

Decelerating time is too short

Prolong decelerating time

Have potential energy load or big inertia load

Increase braking power of external energy consumption braking subassembly

Power of inverter is a bit small

Choose inverter with high-power
E-03 Overcurrent during constant speed process Load change suddenly or have unwonted phenomena Check or reduce break of the load
Accel/Decel time is set to too short

Prolong accelerating decelerating time properly
Low power source voltage

Check input power supply
Power of inverter is a bit small Choose inverter with high-power

E-04

Overvoltage during
accelerating process

Unwonted input voltage

Check input power supply

Accel time is set to too short

Prolong accelerating time properly

Restart rotating motor

Set speed checking restart function

E-05

Overvoltage during
decelerating process

Decelerating time is too short

Prolong decelerating time

Have potential energy load or big

inertia load

Increase braking power of external  energy consumption braking subassembly

E-06

Overvoltage during constant speed process

Unwonted input voltage

Check input power supply

Accel/Decel time is set to too short

Prolong accelerating decelerating time properly

Input voltage change abnormally

Assemble reactor

Load inertia is a bit big

Use energy consumption subassembly

E-07

Inverter control
power supply overvoltage

Unwonted input voltage

Check input power supply or look for service

E-08

Low-voltage

when running

Input voltage is too low

Check the input voltage

E-09

Inverter overload

Accel time is set to too short

Prolong accelerating time

DC injection braking is too big

Reduce DC injection braking current,

prolong braking time

Improper V/F curve

Adjust V/F curve and torque boost

Restart rotating motor

Set speed checking restart function

Power source voltage is too low

Check power source voltage

Load is too big

Choose inverter with high-power

E-10

Motor overload

Improper V/F curve

Adjust V/F curve and torque boost

Power source voltage is too low

Check power source voltage

General motor run at low speed with big load

Can choose frequency conversion motor for long time low speed run

Motor overload protection factor set incorrectly

To set motor overload protection factor correctly

Motor blocked up or load change too suddenly and quickly

Check the load
E-11

Motor underload
protection

 The operating current of inverter less than underload threshold

Confirm whether the parameters F19.08, F19.09 setting are reasonable

load divorced from motor

Checking whether the load divorced from motor

E-12

The input phase lose

 The three-phase input power supply is abnormal Check the three-phase input power line is off or poor contact
Power supply board anomaly

Look for service from manufacturer or agent
The control board anomaly

Look for service from manufacturer or agent

E-13

The output phase lose

The cable from inverter to motor anomaly

Checking the cable

When the motor runs inverter
three-phase output unbalanced

Check whether the motor three-phase winding is balance

Power supply board anomaly

Look for service from manufacturer or agent

The control board anomaly

Look for service from manufacturer or agent

E-14

Inverting module protection

Transient overcurrent of the inverter

Refer to countermeasure for overcurrent

Phase to phase short circuit or earthing short circuit of output 3 phase

Wiring again

Air-path blocked or fan damaged

To clear air-path or replace the fan

Ambient temperature is too high

Lower ambient temperature

Connecting wire or insert on control board loose

Check and connect the wire again

Unwonted control wave caused by missing output phase etc.

Check wiring

Assistant power supply damaged and drive voltage lacking

Look for service from manufacturer or agent

Unwanted control board

Look for service from manufacurer or agent
E-15

Short circuit to ground
when operation

Motor short circuit to ground

The replacement of cable or motor
E-16 Short circuit to ground when power on

Motor short circuit to ground

The replacement of cable or motor
E-17 Inverter overheat Duct blockage

Cleaning or to improve the ventilation duct

The ambient temperature is too high

To improve the ventilation conditions, decreasing the carrier frequency

Fan damage

Change new one

External fault emergency stop terminal closed

External fault disconnect after external fault terminal

E-18

External device failure

Sudden stop terminal for external failure closed

Isključite spoljnji signal greške

E-19

Current detecting circuit
failure

Connecting wire or insert on control board loose

Check and connect the wire again

Assistant power supply damaged

Look for service from manufacturer or agent

Hall component damaged

Look for service from manufacturer or agent

Unwonted amplifying circuit

Look for service from manufacturer or agent
E-20

External interference failure

 External disturbance serious

Press "STOP/RESET" button to reset or add external power supply filter from power input side
E-21

External interference failure

 External disturbance serious

Power off and restart, if the failure persists, seek the manufacturer or dealer service
E-22

PID Given loss

 PID given loss threshold setting is not reasonable To reset the relevant parameters
External given disconnection Check external given wiring
The control board anomaly Look for service from manufacturer or agent
E-23 PID feedback loss PID feedback loss threshold
setting is not reasonable 		To reset the relevant parameters
Feedback signal disconnection Check external feedback signal wiring
The control board anomaly Look for service from manufacturer or agent
E-24 PID error
amount abnormal		 PID error abnormal detection
threshold setting is not reasonable 		To reset the relevant parameters
E-25 Start terminal protection Terminal command effective when power on Check the external input terminal state

E-26

Communication failure

Baud rate set improperly

Set Baud rate properly

Serial port communication error

Press STOP/RESET key to reset,

look for service

Failure warning parameter set improperly

Modify F05.04, F5.05

Upper device doesn’t work

Check if upper device work and wiring is correct

E-27

Reserved

    

E-28

Reserved

    
E-29 Reserved    

E-30

E2 PROM

read and write wrongly

Mistake take place when read or write control parameter

Reset by pressing “STOP/RESET”
Look for service from manufacturer or agent

E-31

Temperature detecting
disconnection

Temperature sensor fault

Look for service from manufacturer or agent

The temperature detection circuit anomaly

Look for service from manufacturer or agent
E-32 Self tuning failure Parameter setting not according to the motor nameplate Set parameter correctly according to the motor nameplate

E-33

 

Contactor anomaly

 

Power board anomaly

Look for service from manufacturer or agent

Contactor anomaly

Replace contactor

E-34

The fault 1

Debugging use in factory

 

E-35

The fault 2

Debugging use in factory

 
E-36 The bus capacitor overheating Poor cooling environment Improve the inverter heat dissipation environment
E-37
to
E-50		 Reserved    
A-51 The main and auxiliary given frequency channel exclusiveness alarm Parameter setting error F01.00 and F01.03 cannot be set to the same channel (9: terminal encoder given except)
A-52 Terminal function exclusiveness alarm Terminal function parameters setting repeatedly Check the terminal function settings

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