Omron 3G3MX2-A2002-E, 3G3MX2-AB002-E, 3G3MX2-A2007-E, 3G3MX2-A2004-E, 3G3MX2-A4004-E Instruction Manual

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OTHER SYMBOLS:

3G3MX2-A4030-E

3G3MX2A4030E, 3G3MX2A4030 E, 3G3MX2A4030-E, 3G3MX2 A4030E, 3G3MX2 A4030 E, 3G3MX2 A4030-E,
3G3MX2-A4030E, 3G3MX2-A4030 E, 3G3MX2-A4030-E

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3G3MX2--E

Multi-function Compact Inverter

NT321XC-EN

Cat.No.

Manual Name

INSTRUCTION MANUAL

Thank you for purchasing 3G3MX2 Inverter.
To ensure the safe operation, please be sure to read the safety
precautions provided in this document along with all of the user
manuals for the inverter. Please be sure you are using the most
recent versions of the user manuals. Keep this instruction manual
and all of the manuals in a safe location and be sure that they are
readily available to the final user of the products.

OMRON Corporation

©OMRON Corporation 2012 All Rights Reserved.

MX2 Series User’ s Manual I570-E2

2272699-9B

Names of Parts

Modbus-RTU Termination resistor
selector switch

Safety function selector switch

USB connector (mini-B)

Connector for
optional board

Multi-function contact
terminal block

CHARGE indicator

Connector for
Digital Operator (RJ45)

EDM function
selector switch

Control circuit
terminal block A

Control circuit
terminal block B

Main circuit
terminal block

Disable Ù Enable

Off Ù On

Disable Ù Enable

Installation and Wiring

Dimensions

W

W1

H

H1

D

A2150-E 175336

AB007-E, AB015-E, AB022-E
A2015-E, A2022-E, A4007-E
A4015-E, A4022-E, A4030-E

350192220

[mm]

A2110-E
A4110-E, A4150-E

180 160 296 284 175

A2055-E, A2075-E
A4055-E, A4075-E

140 122 260 248 155

A2037-E
A4040-E

140 128 128 118 170.5

A4004-E

108 96 128 118

170.5

143.5

A2007-E

AB004-E
A2004-E

AB001-E, AB002-E
A2001-E, A2002-E

3G3MX2-

W W1 H H1 D

68 56 128 118

145.5

122.5

109

Standard Connection Diagram

ÚConnect a single-phase 200V AC input to terminals R/L1 and T/L3(N).
ÚFactory default settings for relay output are NC contact for AL1 and NO

contact for AL2.

Single-phase/
3-phase
power supply

Short-circuit
bar

Short-circuit bar

Motor

ELB

MC

R/L1(L1)
S/L2
T/L3(N)

AL0

7/EB

5/PTC

4/GS2

3/GS1

2

1

H

O

OI

EA

AM

E0

SN

SP

CM2

11/EDM

12

AL2

AL1

N/-

L

6

P24

DCL

PLC

L
Multi-function input
(7 contacts)

Multi-function output
(2 terminals)

Multi-function contact output

Braking resistor

NPLQ

10V DC power supply

(7 mA max.)

Analog voltage input

0 to 10 V (10 bits)

Analog voltage output

0 to 10 V (10 bits)

Type-D (200V class)
Type-C (400V class)

Analog current input
4 to 20 mA (10 bits)

Pulse input
5 to 24 V DC

(32 kHz max.)

Pulse output

0 to 10 V (32 kHz max.

)

Serial communications port
(RS485/Modbus-RTU)

RB

P/+

PD/+1

W/T3

V/T2

U/T1

M

3~

To connect the DC
reactor (DCL), remove

the short-circuit bar.
In case two or more
inverters are connected
to common I/O wiring,
special care to be taken
to avoid closed loop
circuit. Please refer to
user’s manual.

Keys

Name Description

Mode key

Increment key

Decrement key

RUN key

STOP/RESET
key

Enter key

Switches the function code group to next when
function code is displayed.
Switches to function code without data settings when
data is displayed.

Status transition

Changes the set values, parameters and Commands

Starts the operation. Forward / Reverse rotation
depends on the ‘F004’ setting.

Stops the operation. Functions as the Reset key
if an error occurs.

Enters and stores the data.

Parameter

No.

Function name Monitor or data range

Regenerative braking load
rate monitor

d001 Output frequency monitor 0.00 to 400.0
d002 Output current monitor 0.0 to 655.3
d003 Rotation direction monitor F: forward /o: stop /r: reverse
d004 PID feedback value monitor 0.00 to 9999.
d007 Output frequency monitor

(after conversion)

0.00 to 9999.

d008 Real frequency monitor -400. to 400.
d009 Torque reference monitor -200. to +200.
d010 Torque bias monitor -200. to +200.
d012 Output torque monitor -200. to +200.
d013 Output voltage monitor 0. to 600.
d014 Input power monitor 0.0 to 100.0
d015 Integrated power monitor 0.0 to 9999.
d016 Total RUN time 0.0 to 9999.
d017 Power ON time 0.0 to 9999.
d018 Fin temperature monitor -20.0 to 150.0
d029 Position command monitor -268435455 to 268435455

(Displays MSB 4 digits including)

d030 Current position monitor -268435455 to 268435455

(Displays MSB 4 digits including)

d080 Fault counter 0. to 9999.

d081

to d086

Fault monitor1 (latest)

~ Fault monitor6

Error code (condition of occurrence)

ĺ2XWSXWIUHTXHQF\ĺ2XWSXWFXUUHQW
ĺ,QWHUQDO'&YROWDJHĺ581WLPHĺ21WLPH

d090 Warning monitor Warning code
d102 DC voltage monitor 0.0 to 999.9
d103 0.0 to 100.0

d104 Electronic thermal monitor 0.0 to 100.0
F001 Output frequency setting Starting frequency to max. frequency
F002 Acceleration time1 0.01 to 3600.
F003 Deceleration time1 0.01 to 3600.
F004 Operator rotation direction

selection

00: forward
01: reverse

A001 Frequency reference

selection

00: Digital Operator(volume)
(Enable when 3G3AX-OP01 is used) /
01: Terminal /02: Digital Operator(F001) /
03: Modbus communication /04: Option /
06: Pusle train frequency /07: Drive
Programming /10: Frequency operation result

A002 RUN command selection 01: Terminal /02: Digital Operator /

03: Modbus communication /04: Option

A003 Base frequency 30.0 to max. frequency
A004 Maximum frequency Base frequency to 400.
A005 O/OI selection 00:Switch between O and OI terminals

02:Switch between O terminal and keypad
potentiometer /03:Switch between OI terminal
and keypad potentiometer

A019 Multi-step speed selection 00: Binary(16-step selection with 4 terminals)

01: bit (8-step selection with 7 terminals)

A020 Multi-step speed reference 0 0.00, /Starting frequency to max. frequency
A021

to A035

Multi-step speed reference 1 to 15

0.00, /Starting frequency to max. frequency

A038 Jogging frequency Starting frequency to 9.99
A039 Jogging stop selection 00: Free running on jogging stop, Disabled in

operation /01: Deceleration stop on jogging
stop, Disabled in operation /02: DC injection
braking on jogging stop, Disabled in operation/
03: Free running on jogging stop, Enabled in
operation /04: Deceleration stop on jogging
stop, Enabled in operation /05: DC injection
braking on jogging stop, Enabled in operation

A045 Output voltage gain 20. to 100.

A097/A098 Acceleration / Deceleration

pattern selection

00: Linear /01: S-shape curve /02: U-shape
curve /03: Inverted U-shape curve /
04: EL-S-shape curve

b001 Retry selection 00: Alarm /01: 0Hz start /02: Frequency

matching start /03: Trip after frequency
matching deceleration stop /04: Active
Frequency matching

b002 Allowable momentary power

interruption time

0.3 to 25.0

b083 Carrier frequency 2.0 to 15.0 / 10.0
b084 Initialization selection 00: Disabling /01: Clearing the trip history /

02: Initializing the data /03: Clearing the trip
history and initializing the data /04: Clearing
the trip history and initializing the data and
Drive Programming

b130 Overvoltage LAD stop function 00: Disable /01: DC voltage kept constant /

02: Acceleration enabled

b131 Overvoltage LAD stop function

level

200V class: 330. to 395.
400V class: 660. to 790.

Parameter

No.

Function

name

Monitor or data range

C001

to C007

Multi-function
input 1 to 7
selection

00:FW(forward RUN/Stop) /01:RV(reverse RUN/Stop) /02:CF1(Multi­speed Select, Bit0(LSB)) / 03:CF2(Multi-speed Select, Bit1) /04: CF3
(Multi-speed Select, Bit2) /05:CF4(Multi-speed Select, Bit3(MSB)) /
06:JG(jogging) /07:DB(External DC braking) /08:SET(Set (select) 2nd
Motor Data) /09:2CH(2-stage Acceleration and Deceleration) /11:FRS
(Freerun Stop) /12:EXT(External Trip) /13:USP(Unattended Start
Protection) /14:CS(Commercial power source switchover) /15:SFT
(Software Lock) /16:AT(Analog Input Voltage/Current Select) /18:RS
(Reset Inverter) /19:PTC(PTC thermistor Thermal Protection(C005
only)) /20:STA(Start(3-wire interface)) /21:STP(Stop(3-wire interface)) /
22:F/R(FWD, REV(3-wire interface) /23:PID(PID Disable) /24:PIDC
(PID Reset) /27:UP(UP/DWN function accelerated) /28:DWN(UP/DWN
function decelerated) /29:UDC(Remote Control Data Clearing) /
31:OPE(Operator Control) /32:SF1(Multi-speed Selection, Bit operation
Bit1) /33:SF2(Multi-speed Selection, Bit operation Bit2) /34:SF3
(Multi-speed Selection, Bit operation Bit3) /35:SF4(Multi-speed
Selection, Bit operation Bit4) /36:SF5(Multi-speed Selection, Bit
operation Bit5) /37:SF6(Multi-speed Selection, Bit operation Bit6) /
38:SF7(Multi-speed Selection, Bit operation Bit7) /39:OLR(Overload
Restriction Source Changeover) /40:TL(Torque Limit Selection) /
41:TRQ1(Torque limit switch1) /42:TRQ2(Torque limit switch2) /
44:BOK(Brake confirmation) /46:LAC(LAD cancellation) /47:PCLR
(Pulse counter clear) /50:ADD(ADD frequency enable) /51:F-TM
(Force Terminal Mode) /52:ATR(Enable torque command Input) /
53:KHC(Clearance of cumulative power data) /56:MI1(General
purpose input1) /57:MI2(General purpose input2) /58:MI3(General
purpose input3) /59:MI4(General purpose input4) /60:MI5(General
purpose input5) /61:MI6(General purpose input6) /62:MI7(General
purpose input7) /65:AHD(Analog command hold) /66:CP1(Multistage­position switch1) /67:CP2(Multistage-position switch2) /68:CP3
(Multistage-position switch3) /69:ORL(Limit signal of homing) /
70:ORG(Trigger signal of homing) /73:SPD(Speed/position
changeover) /77:GS1(GS1 input(C003 only)) /78:GS2(GS2 input
(C004 only)) /81:485(Start EzCOM) /82:PRG(Executing Drive
Programming) /83:HLD(Retain output frequency) /84:ROK(Permission
of Run command) /85:EB(Rotation direction detection(C007 only)) /
86:DISP(Display limitation) /91:PSET(Preset)

C011

to C017

Multi-function
input terminal
operation
selection

00: NO
01: NC

C021

to C022

Multi-function
output 11-12
selection

00:RUN(RUN Signal)) /01:FA1(Frequency Arrival Type 1-Constant
Speed) /02:FA2(Frequency Arrival Type 2-Over frequency) /03:OL
(Overload Adovance Notice Signal1) /04:OD(Output Deviation for PID
Control) /05:AL(Alarm Signal) /06:FA3(Frequency Arrival Type 3-Set
frequency) /07:OTQ(Over/under Torque Signal) /09:UV(Undervoltage) /
10:TRQ(Torque Limited Signal) /11:RNT(RUN Time Expired) /12:ONT
(Power On time Expired) /13:THM(Thermal Warning) /19:BRK(Brake
Release Signal) /20:BER(Brake Error Signal) /21:ZS(Zero Hz Speed
Detection Signal) /22:DSE(Speed Deviation Excessive) /23:POK
(Positioning Completion) /24:FA4(Frequency Arrival Type 4-Over
frequency) /25:FA5(Frequency Arrival Type 5-Set frequency) /26:OL2
(Overload Advance Notice Signal2) /27:ODc(Analog Voltage Input
Disconnect Detection) /28:OIDc(Analog Current Output Disconnect
Detection) /31:FBV(PID Second Stage Output) /32:NDc(Network
Disconnect Detection) /33:LOG1(Logic Output Function1) /34:LOG2
(Logic Output Function2) /35:LOG3(Logic Output Function3) /39:WAC
(Capacitor Life Warning Signal) /40:WAF(Cooling Fan Warning Signal) /
41:FR(Starting Contact Signal) /42:OHF(Heat Sink Overheat Warning) /
43:LOC(Low load detection) /44:MO1(General Output1) /45:MO2
(General Output2) /46:MO3(General Output3) /50:IRDY(Inverter Ready
Signal) /51:FWR(Forward Rotation) /52:RVR(Reverse Rotation) /
53:MJA(Major Failure Signal) /54:WCO(Window Comparator for Analog
Voltage Input) /55:WCOI(Window Comparator for Analog Current
Input) /58:FREF(Frequency Command Source) /59:REF(Run
Command Source) /60:SETM(2nd Motor Selection) /62:EDM(STO
(Safe Torque Off) Performance Monitor(C021 only)) /63:OPO(Option
card output)

C026 Relay output

function
selection

C031 to

C032, C036

Multi-function
Relay output

00:NO contact at 11, 12, AL2, NC contact at AL1
01:NC contact at 11, 12, AL2, NO contact at AL1

H003 Motor

Capacity

0.1 / 0.2 / 0.4 / 0.55 / 0.75 / 1.1 / 1.5 / 2.2 / 3.0 / 3.7 / 4.0 / 5.5 / 7.5 /

11.0 / 15.0 / 18.5 [kW]

H004 Motor pole

number

2 /4 /6 /8 /10 /12 /14 /16 /18 /20 /22 /24 /26 /28 /30 /32 /34 /36 /38 /
40 /42 /44 /46 /48 [pole]

NT321XC-EN

SUITABILITY FOR USE

Omron Companies shall not be responsible for conformity
with any standards, codes or regulations which apply to
the combination of the product in the buyer’s application
or use of the product.

At buyer’s request, Omron will provide applicable third party certification
documents identifying ratings and limitations of use which apply to the product.
This information by itself is not sufficient for a complete determination of the
suitability of the product in combination with the end product, machine, system,
or other application or use. Buyer shall be solely responsible for determining
appropriateness of the particular product with respect to Buyer’s application,
product or system. Buyer shall take application responsibility in all cases.

NEVER USE THE PRODUCT FOR AN APPLICATION INVOLVING SERIOUS
RISK TO LIFE OR PROPERTY OR IN LARGE QUANTITIES WITHOUT
ENSURING THAT THE SYSTEM AS A WHOLE HAS BEEN DESIGNED TO
ADDRESS THE RISKS, AND THAT THE OMRON PRODUCT(S) IS PROPERLY
RATED AND INSTALLED FOR THE INTENDED USE WITHIN THE OVERALL
EQUIPMENT OR SYSTEM.

Regional Headquarters

OMRON EUROPE B.V.

Wegalaan 67-69, NL-2132 JD
Hoofddorp
The Netherlands
Tel: (31)2356-81-300
Fax: (31)2356-81-388

OMRON ASIA PACIFIC PTE. LTD.

No. 438A Alexandra Road # 05-05/08
(Lobby 2), Alexandra Technopark,
Singapore 119967
Tel: (65) 6835-3011
Fax: (65) 6835-2711

OMRON ELECTRONICS LLC

One Commerce Drive Schaumburg,
IL 60173-5302 U.S.A.
Tel: (1) 847-843-7900
Fax: (1) 847-843-7787

OMRON (CHINA) CO., LTD.

Room 2211, Bank of China Tower,
200 Yin Cheng Zhong Road,
Pu Dong New Area, Shanghai,
200120, China
Tel: (86) 21-5037-2222
Fax: (86) 21-5037-2200

Note: Specifications subject to change without notice.

OMRON Corporation

Industrial Automation Company

moc.normo.ai.www:tcatnoC

Tokyo, JAPAN

2272699-9B

Do not change wiring, slide switches, optional devices, or replace
cooling fans while power is being supplied.
Doing so may result in a serious injury due to an electric shock.

Do not touch the Inverter fins, braking resistors and the motor, which
become too hot during the power supply and for some time after the
power shutoff. Doing so may result in a burn.

Indications and Meanings of Safety Information

Safety Precautions

In this user’s Manual, the following precautions and signal words
are used to provide information to ensure the safe use of the
3G3MX2 Inverter.
The information provided here is vital to safety. Strictly observe
the precautions provided.

Meanings of Signal Words

WARNING

Indicates a potentially hazardous situation which,
if not avoided, may result in minor or moderate
injury or in property damage.

CAUTION

Indicates an imminently hazardous situation which,
if not avoided, will result in minor or moderate injury,
or may result in serious injury or death. Additionally
there may be significant property damage.

Alert Symbols in this Document

Turn off the power supply and implement wiring correctly.
Not doing so may result in a serious injury due to an electric shock.

WARNING

Be sure to ground the unit. Not doing so may result in a serious injury
due to an electric shock or fire.
(200V class:type-D grounding, 400V class:type-C grounding)

Do not remove the front cover during the power supply and 10 minutes
after the power shutoff. Doing so may result in a serious injury due to
an electric shock.
Do not operate the Operator or switches with wet hands.
Doing so may result in a serious injury due to an electric shock.

Inspection of the Inverter must be conducted after the power supply
has been turned off. Not doing so may result in a serious injury due to
an electric shock.
The main power supply is not necessarily shut off even if the
emergency shut off function is activated.

Wiring work must be carried out only by qualified personnel. Not
doing so may result in a serious injury due to an electric shock.

CAUTION

The Inverter has high voltage parts inside which, if short-circuited,
might cause damage to itself or other property. Place covers on the
openings or take other precautions to make sure that no metal objects
such as cutting bits or lead wire scraps go inside when installing and
wiring.

Install a stop motion device to ensure safety. Not doing so might result
in a minor injury. (A holding brake is not a stop motion device designed
to ensure safety.)
Be sure to use a specified type of braking resistor / regenerative
braking unit. In case of a braking resistor, install a thermal relay that
monitors the temperature of the resistor. Not doing so might result in a
moderate burn due to the heat generated in the braking resistor /
regenerative braking unit. Configure a sequence that enables the
Inverter power to turn off when unusual overheating is detected in the
braking resistor / regenerative braking unit.

Do not connect resistors to the terminals (PD/+1, P/+2, N/-) directly.
Doing so might result in a small-scale fire, heat generation or damage
to the unit.

Do not dismantle, repair or modify the product.
Doing so may result in an injury.

Take safety precautions such as setting up a molded-case circut
breaker(MCCB) that matches the Inverter capacity on the power
supply side. Not doing so might result in damage to property due to
the short circuit of the load.

Transporting, Installation and Wiring

· Do not drop or apply a strong impact on the product.
Doing so may result in damaged parts or malfunction.

· Do not hold by the front cover, but hold by the fins during transportation.

· Do not connect an AC power supply voltage to the control input / output
terminals. Doing so may result in damage to the product.

· Be sure to tighten the screws on the terminal block securely. Wiring work
must be done after installing the unit body.

· Do not connect any load other than a three-phase inductive motor to the
U, V and W output terminals.

· Take sufficient shielding measures when using the product in the
following locations. Not doing so may result in damage to the product.

Locations subject to static electricity or other forms of noise.
Locations subject to strong magnetic fields.
Locations close to power lines.

· If a parameter is set incorrectly when starting up, adjusting, maintaining,
or replacing, an unexpected operation may occur. Perform the operation
after enough confirmation.

· When using DriveProgramming, confirm that the program data is
downloaded normally before starting operation.

Maintenance and Inspection

· Be sure to confirm safety before conducting maintenance, inspection or
parts replacement.

· The life of the capacitor depends on the ambient temperatures.
Refer to the product life curve shown in User’s Manual.
When the capacitor stops operating at the end of its service life, the
Inverter must be replaced.

Precautions for Safe Use

Installation and Storage

Do not store or use the product in the following places.

· Locations subject to direct sunlight.

· Locations subject to ambient temperature exceeding the specifications.

· Locations subject to relative humidity exceeding the specifications.

· Locations subject to condensation due to severe temperature fluctuations.

· Locations subject to corrosive or flammable gases.

· Locations subject to exposure to combustibles.

· Locations subject to dust (especially iron dust) or salts.

· Locations subject to exposure to water, oil, or chemicals.

· Locations subject to shock or vibration.

Main Circuit Power Supply

· Confirm that the rated input voltage of the Inverter is the same as AC
power supply voltage.

Operation and Adjustment

· Be sure to confirm the permissible range of motors and machines before
operation because the inverter speed can be changed easily from low to
high.

· Provide a separate holding brake if necessary.

· If the DriveProgramming stops during multi-function output, the output
status is held. Take safety precautions such as stopping peripheral
devices.

· Even if the inverter power supply is turned off, the counter-electromotive
force occurs while the PM motor rotates, which may result in electric
shock.
Do not remove the terminal block cover of the inverter until the PM motor
stops.

Error Retry Function

· Do not come close to the machine when using the error retry function
because the machine may abruptly start when stopped by an alarm.

· Be sure to confirm the RUN signal is turned off before resetting the alarm
because the machine may abruptly start.

Non-Stop Function at Momentary Power Interruption

· Do not come close to the machine when selecting reset in the non-stop
function at momentary power interruption selection (b050) because the
machine may abruptly start after the power is turned on.

· Mount the product vertically on a wall with the product’s longer sides
upright.
The material of the wall has to be nonflammable such as a metal plate.

Precautions for Correct Use

Installation

Operation Stop Command

· Provide a separate emergency stop switch because the STOP Key on
the Operator is valid only when function settings are performed.

· When checking a signal during the power supply and the voltage is
erroneously applied to the control input terminals, the motor may start
abruptly. Be sure to confirm safety before checking a signal.

UL Cautions

The warnings and instructions in this section summarizes the procedures
necessary to ensure an inverter installation complies with Underwriters
Laboratories guidelines.

· Use 60/75°C Cu wire only.
(For models:3G3MX2-A2001, -A2002, -A2004, -A2007, -AB015, -AB022,

-A4004, -A4007, -A4015, -A4022, and -A4030)

· Use 75°C Cu wire only.
(For models:3G3MX2-AB001, -AB002, -AB004, -AB007, -A2015, -A2022,

-A2037, -A2055, -A2075, -A2110, -A2150, -A4040, -A4055,-A4075,

-A4110 and -A4150)

· Suitable for use on a circuit capable of delivering not more than 100,000
rms Symmetrical Amperes, 240 or 480 Volts Maximum.

· When Protected by CC, G, J, or R Class Fuses, or when Protected By A
Circuit Breaker Having An Interrupting Rating Not Less Than 100,000
rms Symmetrical Amperes, 240 or 480 Volts Maximum.

· Install device in pollution degree 2 environment.

· Maximum surrounding air temperature rating of 50°C

· Solid State motor overload protection reacts with max. 150 % of FLA.

· Integral solid state short circuit protection does not provide branch circuit
protection. Branch circuit protection must be provided in accordance with
the National Electric Code and any additional local codes.

· Motor over temperature protection is not provided by the drive.

Fuse Size

Class J

Model No. Type Rating

10A, AIC 200kA3G3MX2-AB001, -AB002, -AB004
3G3MX2-AB007
3G3MX2-AB015

3G3MX2-A2001, -A2002, -A2004
3G3MX2-A2007, -A2015
3G3MX2-A2022
3G3MX2-A2037
3G3MX2-A2055, -A2075
3G3MX2-A2110, -A2150
3G3MX2-A4004, -A4007, -A4015, -A4022
3G3MX2-A4030, -A4040
3G3MX2-A4055, -A4075
3G3MX2-A4110, -A4150

20A, AIC 200kA

3G3MX2-AB022

30A, AIC 200kA

30A, AIC 200kA

10A, AIC 200kA

15A, AIC 200kA

20A, AIC 200kA

30A, AIC 200kA

60A, AIC 200kA

80A, AIC 200kA

10A, AIC 200kA

15A, AIC 200kA

30A, AIC 200kA

50A, AIC 200kA

The Inverter shall be connected with a UL Listed Cartridge Nonrenewable
fuse, rated 600Vac with the current ratings as shown in the table below.

Conformance to EC Directives

· It is necessary to use optional EMC filter to comply with EMC directive
(EN61800-3).

· For earthing, selection of cable, and any other conditions for EMC
compliance, please refer to the manual for installation.

OMRON Corporation

Shiokoji Horikawa, Shimogyo-ku, Kyoto, 600-8530, Japan

Omron Europe B.V.

Wegalaan 67-69, NL-2132 JD Hoofddorp, The Netherlands

Safety

For use of the drive as a safety device, to meet the requirements of the
ISO13849-1, please refer to user’s manual.

For KC Marking Only

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Terminal symbols and Screw size

Model No.

Screw

Size

Required

Torque(N-m)

Wire Range

AWG16 (1.3 mm2)

3G3MX2-AB001, -AB002, -AB004

M3.5 1.0

3G3MX2-AB007

M4 1.4

AWG12 (3.3 mm

2

)

3G3MX2-AB015, -AB022

M4 1.4

AWG10 (5.3 mm

2

)

3G3MX2-A2001, -A2002, -A2004, -A2007

M3.5 1.0

AWG16 (1.3 mm

2

)

3G3MX2-A2015

M4 1.4

AWG14 (2.1 mm

2

)

3G3MX2-A2022

M4 1.4

AWG12 (3.3 mm

2

)

3G3MX2-A2037

M4 1.4

AWG10 (5.3 mm

2

)

3G3MX2-A2055, -A2075

M5 3.0

AWG6 (13 mm

2

)

3G3MX2-A2110

M6 3.9 to 5.1

AWG4 (21 mm

2

)

3G3MX2-A2150

M8 5.9 to 8.8

AWG2 (34 mm

2

)

3G3MX2-A4004, -A4007, -A4015

M4 1.4

AWG16 (1.3 mm

2

)

3G3MX2-A4022, -A4030

M4 1.4

AWG14 (2.1 mm

2

)

3G3MX2-A4040

AWG12 (3.3 mm

2

)

M4 1.4

3G3MX2-A4055, -A4075

AWG10 (5.3 mm

2

)

M5 3.0

3G3MX2-A4110, -A4150

AWG6 (13 mm2)

M6 3.9 to 5.1

Product Disposal

· Comply with the local ordinance and regulations when disposing of the
product.

Maintenance

· The Inverter consists of many parts, which must operate properly to
maximize its capabilities. Some electronic parts require maintenance
depending on their operating conditions. To ensure proper operation of
the Inverter over a long period of time, be sure to perform periodic
inspections and replace parts according to their service life.
(Excerpt from “Recommendations for Periodic Inspections of General­purpose Inverters” issued by JEMA)

AVERTISSEMENT: ne retirez pas le capot avant pendant l’alimentation
et 10 minutes après l’arrêt de l’alimentation. Cela peut entraîner de
grave blessure due à un choc électrique.