Mitsubishi Electric FR-E520 Installation manual

MITSUBISHI ELECTRIC
FR-E 500
Frequency Inverter
Installation Manual
FR-E 520S EC
FR-E 540 EC
Art.-No.: 158536
25 02 2004
Version A
MITSUBISHI ELECTRIC
INDUSTRIAL AUTOMATION
About this Manual
The texts, illustrations, diagrams, and examples contained in this manual are
only intended as aids to help explain the installation, set-up, and starting of the
frequency inverters FR-E 520S EC and FR-E 540 EC.
If you have any questions concerning the programming and operation of the
equipment described in this manual, please contact your relevant sales office
or department (refer to back of cover). Current information and answers to
frequently asked questions are also available through the Internet
(www.mitsubishi-automation.com).
MITSUBISHI ELECTRIC EUROPE B.V. reserves the right to make
changes both to this manual and to the specifications and design of the
hardware at any time without prior notice.
Installation Manual
FR-E 520S EC and FR-E 540 EC
Art. No: 158536
Version
A
2
02/04
Changes / Additions / Corrections
pdp – gb
First issue
MITSUBISHI ELECTRIC
1
Introduction
1.1
General Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7
2
Specifications
2.1
Model Specifications FR-E 520S EC (1-phase connection). . . . . . . . . . . . . . . . . . . 8
2.2
Model Specifications FR-E 540 EC (3-phase connection) . . . . . . . . . . . . . . . . . . . . 9
2.3
Model Specifications FR-E 500 EC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10
3
Appearance and Structure
3.1
Description of the Case . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12
4
Wiring
4.1
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13
4.2
Wiring of the Main Circuit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14
4.2.1
Mains, Motor and Ground Terminal Connections. . . . . . . . . . . . . . . . . . . 14
4.2.2
Main Circuit Terminals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .16
4.3
Wiring of the Control Circuit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17
5
Parameter
5.1
Overview and Setting Ranges . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .20
6
Protective Functions
6.1
Error Messages and Remedies . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .24
7
Dimensions
7.1
Dimensions of the Frequency Inverters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27
FR-E 500 EC
3
Safety instructions
For qualified staff only
This manual is only intended for use by properly trained and qualified electrical technicians who
are fully acquainted with automation technology safety standards. All work with the hardware
described, including system design, installation, set-up, maintenance, service and testing, may
only be performed by trained electrical technicians with approved qualifications who are fully acquainted with the applicable automation technology safety standards and regulations. Any operations or modifications of the hardware and/or software of our products not specifically
described in this manual may only be performed by authorised Mitsubishi staff.
Proper use of equipment
The devices of the FR-E series are only intended for the specific applications explicitly
described in this manual. Please take care to observe all the installation and operating parameters specified in the manual. The design, manufacturing, testing and documentation of these
products have all been carried out in strict accordance with the relevant safety standards. Under
normal circumstances the products described here do not constitute a potential source of injury
to persons or property provided that you precisely observe the instructions and safety information provided for proper system design, installation and operation. However, unqualified modification of the hardware or software or failure to observe the warnings on the product and in this
manual can result in serious personal injury and/or damage to property. Only accessories
specifically approved by MITSUBISHI ELECTRIC may be used with the frequency inverters
FR-E 520S EC and FR-E 540 EC. Any other use or application of the products is deemed to be
improper.
Relevant safety regulations
All safety and accident prevention regulations relevant to your specific application must be observed in the system design, installation, setup, maintenance, servicing and testing of these
products.
The regulations listed below are particularly important. This list does not claim to be complete;
however, you are responsible for knowing and applying the regulations applicable to you.
쎲 VDE/EN Standards
– VDE 0100
(Regulations for electrical installations with rated voltages up to 1,000V)
– VDE 0105
(Operation of electrical installations)
– VDE 0113
(Electrical systems with electronic equipment)
– EN 50178
(Configuration of electrical systems and electrical equipment)
쎲 Fire prevention regulations
쎲 Accident prevention regulations
– VBG No. 4 (electrical systems and equipment)
4
MITSUBISHI ELECTRIC
General safety informations and precautions
The following safety precautions are intended as a general guideline for using the frequency inverter together with other equipment. These precautions must always be observed in the design, installation and operation of all control systems.
P
DANGER:
쎲 Observe all safety and accident prevention regulations applicable to your specific
application. Installation, wiring and opening of the assemblies, components and
devices may only be performed with all power supplies disconnected.
쎲 Assemblies, components and devices must always be installed in a shockproof
housing fitted with a proper cover and protective equipment.
쎲 Devices with a permanent connection to the mains power supply must be integrated in the building installations with an all-pole disconnection switch and a
suitable fuse.
쎲 Check power cables and lines connected to the equipment regularly for breaks
and insulation damage. If cable damage is found, immediately disconnect the
equipment and the cables from the power supply and replace the defective cabling.
쎲 Before using the equipment for the first time check that the power supply rating
matches that of the local mains power.
쎲 Residual current protective devices pursuant to DIN VDE Standard 0641 Parts 1–3
are not adequate on their own as protection against indirect contact for installations with frequency inverter systems. Additional and/or other protection facilities are essential for such installations.
쎲 EMERGENCY OFF facilities pursuant to VDE 0113 must remain fully operative at
all times and in all control system operating modes. The EMERGENCY OFF facility
reset function must be designed so that it cannot cause an uncontrolled or undefined restart.
쎲 You must also implement hardware and software safety precautions to prevent
the possibility of undefined control system states caused by signal line cable or
core breaks.
E
FR-E 500 EC
CAUTION:
All relevant electrical and physical specifications must be strictly observed and
maintained for all the frequency inverters in the installation.
The load used should be a three-phase induction motor only. Connection of any
other electrical equipment to the inverter output may damage the equipment.
5
Safety warnings
In this manual special warnings that are important for the proper and safe use of the products are
clearly identified as follows:
6
P
DANGER:
Personnel health and injury warnings. Failure to observe the precautions described
here can result in serious health and injury hazards.
E
CAUTION:
Equipment and property damage warnings. Failure to observe the precautions
described here can result in serious damage to the equipment or other property.
MITSUBISHI ELECTRIC
Introduction
1
Introduction
This Installation Manual includes a brief summary of the main specifications of the FR-E 500 frequency inverters, which should be sufficient to enable experienced users to install and configure
the inverter. For further information on the functions and parametrization please refer to the Instruction Manual of the frequency inverter FR-E 500. This Installation Manual is intended exclusively as an installation and setup guide and a brief reference. It does not replace the main
product manual.
1.1
General Description
The inverters of the FR-E 520S EC series are available with outputs from 0.4 to 2.2kW
(1-phase). The inverters of the FR-E 540 EC series are available with outputs from 0.4 to 7.5kW
(3-phase). The output frequency ranges from 0.2 to 400Hz.
Features of the frequency inverters
쎲 Communication ability and networking
For the integration in an automation plant a serial interface RS485 is included as standard
equipment. Through this interface up to 32 inverters can be linked up. Open communications with standardised industrial bus systems as Profibus/DP, DeviceNet, CC-Link, CAN
Open, or Modbus Plus can be realised easily via optional interface cards.
쎲 Compatibility with a lot of new applications
– PID Control
The inverter can be used to exercise process control, e.g. flow rate for pumps
– Stop function selection (terminal MRS)
This function is used to select the stopping method (deceleration to a stop or coasting).
쎲 Large number of protective functions for safe operation
– Automatic restart after instantaneous power failure
– Built-in overcurrent protection
– Retry function after alarm occurence
쎲 Compatibility with numerous I/O's
– Multi-speed operation
(15 different pre-selected speeds are available)
– 0/4 to 20mA (0–10V) control input
– Multi-input terminals:
select 4 inputs from 11 possible input types (e.g. digital potentiometer)
– Multi-output terminals:
select three outputs from 12 possible output types
– 24V external power supply output
(permissible values: 24V DC/0.1A)
FR-E 500 EC
7
Specifications
2
Specifications
2.1
Model Specifications FR-E 520S EC
(1-phase connection)
FR-E 520S EC
Type
Rated motor
capacity [kW]
Output
Rated
current [A]
0.4 k
0.75 k
1.5 k
2.2 k
150% Overload
capacity 0.75
1.1
2.2
3
200% Overload
capacity 0.4
0.75
1.5
2.2
150% Overload
capacity 3.6
5
9.6
12
200% Overload
capacity 2.5
4
7
10
1.5
2.7
3.8
Rated output capacity [kVA]
Overload
capacity �
0.95
150% of rated motor capacity for 0.5s; 120% for 1min
(max. ambiente temperature 40°C)
200% of rated motor capacity for 0.5s; 150% for 1min
(max. ambiente temperature 50°C)
Voltage �
3-phase, 0V up to power supply voltage
1-phase, 200–240V AC, −15% / +10%
Input
Power supply voltage
Permissible AC voltage fluctuation
170–264V AC at 50 / 60Hz
50 / 60Hz ± 5%
Power supply frequency
Rated input capacity [kVA] �
1.5
2.3
Protection
5.2
IP 20
Cooling
Self-cooling
Weight [kg]
1.9
NOTES
Fan-cooling
1.9
2.0
2.0
Special notes referring to the table:
8
4.0
The applicable motor capacity refers to a motor voltage of 230V.
The overload capacity indicated in % is the ratio of the overload current to the inverter’s rated
current. For repeated duty, allow time for the inverter and motor to return to or below the temperatures under 100% load.
The maximum output voltage cannot exceed the power supply voltage. The maximum output
voltage may be set as desired below the power supply voltage.
The power supply capacity changes with the values of the power supply side inverter impedances (including those of the input reactor and cables).
MITSUBISHI ELECTRIC
Specifications
Model Specifications FR-E 540 EC
(3-phase connection)
2.2
FR-E 540 EC
Type
Rated motor
capacity [kW]
Output
Rated
current [A]
0.4 k
0.75 k
1.5 k
2.2 k
3.7 k
5.5 k
7.5 k
150% Overload
capacity 0.75
1.1
2.2
3
4
7.5
11
200% Overload
capacity 0.4
0.75
1.5
2.2
4
5.5
7.5
150% Overload
capacity 1.8
3
4.9
6.7
9.5
14
21
200 % Overload
capacity 1.6 (1.4)
2.6 (2.2)
4 (3.8)
6 (5.4)
9.5 (8.7)
12
17
1.2
2.0
3.0
4.6
7.2
9.1
13.0
Rated output capacity [kVA]
Overload
capacity �
150% of rated motor capacity for 0.5s; 120% for 1min
(max. ambient temperature 40°C )
200% of rated motor capacity for 0.5s; 150% for 1min
(max. ambient temperature 50°C)
Voltage �
3-phase, 0V up to power supply voltage
3-phase, 380–480V AC, −15% / +10%
Input
Power supply voltage
Voltage range
323–528V AC at 50 / 60Hz
50 / 60Hz ± 5%
Frequency range
Rated input capacity [kVA] �
1.5
2.5
4.5
Protection
9
12
17
3.8
3.8
IP 20
Cooling
Self-cooling
Weight [kg]
1.9
NOTES
1.9
Fan-cooling
2.0
2.1
2.1
Special notes referring to the table:
FR-E 500 EC
5.5
The applicable motor capacity refers to a motor voltage of 400V.
The overload capacity indicated in % is the ratio of the overload current to the inverter’s rated
current. For repeated duty, allow time for the inverter and motor to return to or below the temperatures under 100% load.
The maximum output voltage cannot exceed the power supply voltage. The maximum output
voltage may be set as desired below the power supply voltage.
The power supply capacity changes with the values of the power supply side inverter impedances (including those of the input reactor and cables).
The rated output current in the parentheses applies when low acoustic noise operation is to
be performed at an ambient temperature higher than 40°C with the parameter 72 value set
to 2kHz or higher.
9
Specifications
Model Specifications FR-E 500 EC
2.3
The following datas refer to the frequency inverters FR-E 520S EC und FR-E 540 EC.
Type
Control method
Extended flux vector control with online auto tuning of motor data or V/f control
Modulation control
Sine evaluated PWM, Soft PWM
Carrier frequency
0.7–14.5kHz (user adjustable)
Frequency range
Frequency
resolution
Analog
Digital
Frequency precision
Voltage/
Frequency characteristics
Possible starting torque
Torque boost
Acceleration/deceleration
characteristics
Control signals
Braking/
torque
0.2–400Hz
From terminals 2-5: 1/500 of maximum set frequency (input 5V DC); 1/1000
(input 10V, 20mA DC)
0.01Hz / 50Hz
±0.5% of max. output frequency (temperature range 25°C ± 10°C) during analog input;
±0.01% of max. output frequency during digital input
Base frequency adjustable from 0 to 400Hz;
constant torque or variable torque selectable
≥ 150% / 1Hz, ≥ 200% / 3Hz (for vector control or slip compensation)
Manual torque boost; selectable between 0–30%
Acceleration/deceleration time
Regenerative �
DC-braking
0.01; 0.1 to 3600s individual settings
Linear or S-form course, user selectable
0.4k and 0.75k: 100% or more; 1.5k: 50% or more; 2.2k to 7.5k: 20% or more
Braking time and braking moment adjustable,
Operating frequency: 0–120Hz, operating time: 0–10s, voltage: 0–30%
Current stall prevention
operation level
Operation current level setting possible (0–200% variable), enable/disable selection
Voltage stall prevention
operation level
Operation level is fixed, enable/disable selection
High-response current
restriction level
Operation level is fixed, enable/disable selection
Motor protection
Frequency
setting values
Input
signals
Electronic motor protection relay (rated current user adjustable)
Analog
input
0–5V DC, 0–10V DC, 0/4–20mA
Digital
From control panel (parameter unit), RS485 or network
Starting signal
10
Description
Individual selection of forward / reverse run
Starting signal self retaining input
Multi-speed
selection
Up to 15 set speeds (each speed can be set between 0 and 400Hz;
speed can be changed via control panel or during operation)
2nd function
Selects 2nd function (acceleration time, deceleration time, torque boost,
base frequency, electronic overcurrent protection)
Selection of
current input
Frequency setting via current input signal 0/4 to 20mA DC
External
thermal input
Stopping the inverter with an externally mounted thermal relay
PU<->external
operation
Switch over between the operating modes “PU” and “External”
V/F<->flux
vector control
External switching between V/F control and general-purpose flux vector control
Output stop
Instant cutoff of inverter output (frequency and voltage)
Error reset
The error indication (alarm signal) is reset with the reset of the protective function
MITSUBISHI ELECTRIC
Specifications
Type
Description
Control inputs
Operation functions
Output
signals
Operation
status
Protection
Display option
Analog
signal
Displayed on
control panel
(FR-PU04/
FR-PA02-02)
Additional
diplays on
control panel
FR-PU04
Operating
state
Alarm display
2 output types (open collector output) can be selected: inverter running, frequency reached, frequency detection, overload warning, zero return detection, output current detection, maximum
PID, minimum PID, PID forward run, PID reverse run, operation ready, minor failure and error.
1 relay contact can be selected for the output (230V AC; 0.3A / 30V DC; 0.3A)
One of the following output types can be selected:
output frequency, motor current, output voltage, analog output (0–10V DC).
Output frequency, motor current, output voltage, frequency setting value, operation speed
Error messages are displayed after a protective function is activated.
Up to 4 error codes can be stored.
Operating
state
Signal status of input and output terminals
Interactive
operating
guide
Interactive guide for operation and troubleshooting via help function
Overcurrent cutoff (during acceleration, deceleration, constant speed), regenerative overvoltage
cutoff, undervoltage �, instantaneous power failure � , overload cutoff (electronic thermal relay),
brake transistor error, ground fault overcurrent, output short circuit, stall prevention, overload
warning, brake transistor overheating, fin overheating, fan error �, option error, parameter error,
PU connection error, output phase error
Functions
Ambient temperature
Ambient humidity
Maximum and minimum frequency setting, frequency jump operation, external thermal input selection, instantaneous power failure restart operation, forward run/reverse run prevention, slip
compensation, operation mode selection, off-line auto tuning function, PID control, computer link
operation (RS485), open network operation
−10°C to +50°C (non-freezing)
(For selection of the overload capacity of 150% the max. temperature is 40°C)
Storage temperature�
−20°C to +65°C
Ambient humidity
Max. 90% RH (non-condensing)
Ambient conditions
For indoor use only, avoid environments containing corrosive gases, install in a dust-free location.
Max. 1000m above sea level;
After that derate by 3% for every extra 500m up to 2500m (91 %).
Altitude
Shock resistance
10g (3 times each in 3 directions)
Vibration resistance
0.6g: resistance to vibrations from 10 to 55Hz for 2 hours along all 3 axes
Certifications
UL / CSA / CE / EN
NOTES
Special notes referring to the table:
FR-E 500 EC
When undervoltage or instantaneous power failure has occurred, alarm display or alarm
output is not provided but the inverter itself is protected. Overcurrent, regenerative
overvoltage or other protection may be activated at power restoration according to the operating condidition.
Temperature applicable for a short period in transit, etc.
The braking torque indicated is short-duration average torque (which varies with motor
loss) when the motor alone is decelerated from 50Hz in the shortest time and is not a continuous regenerative torque. When the motor is decelerated from the frequency higher than
the base frequency, the average deceleration torque will reduce. Since the inverters of the
FR-E500 EC Series does not contain a brake resistor, use the optional brake resistor when
regenerative energy is large. A brake unit BU may also be used.
Not valid for the inverters FR-E 520S-0.4 k, -0.75 k EC and FR-E 540-0.4 k, -0.75 k EC
which are not equipped with a cooling fan.
11
Appearance and Structure
3
Appearance and Structure
3.1
Description of the Case
Depending on the capacity class the frequency inverter is delivered in two different structural
shapes of the case. The following drawings show a structured view of the single case
components.
Frequency inverter FR-E 500 EC with front cover
POWER
POWER lamp
Operation panel
ALARM
ALARM lamp
Front cover
MITSUBISHI
Model type
Rating plate
Wiring port cover
for option
Frequency inverter FR-E 500 EC without front cover
Connection RS485 or
control unit
POWER lamp (yellow)
ALARM lamp (red)
B
RM
RL
C
MRS
10
5
SD
PC
SE
AM
4
PC
SD
SE
STF
RUN
STR
SINK
Control logic changing
connector
2
RES
SD
FU
SOURCE
-
P1
+
Inboard option mounting
position
A
RH
Connector for connection
of inboard option
Control circuit
terminal block
SD
PR
FAN
2
FAN
1
Main circuit
terminal block
Wiring cover
12
MITSUBISHI ELECTRIC
Wiring
4
Wiring
4.1
Overview
E
CAUTION:
The terminals PC-SD of the 24V DC power supply must not be shorted. Otherwise the
inverter will be damaged.
Motor
I>
I>
I>
3-phase
main supply
Analog Frequency setting
Control inputs
(Do not apply an external voltage!)
24V DC Output
Reference point for control inputs
Start forward
Start reverse
1. Multispeed setting
2. Multispeed setting
3. Multispeed setting
Output stop
RESET
Reference potential
Setting
value
signal
1 kΩ/2 W
3
2
1
L1
L2
L3
U
V
W
PC
P1
Jumper must be removed if
a DC choke coil is connected!
STF
STR
RH
RM
RL
MRS
RES
SD +
PR
External brake resistor
RUN
FU
SE
Alarm
Operation
Output frequency
monitoring
OpenCollectoroutputs
Reference potential
10
2
5
AM
5
Current input(−)
0/4–20mA DC (+)
A
B
C
M
4
(+)
(-)
Analog
output signal
0–10V DC
RS485 interface
(e.g. for control panel)
Terminals 5, SD and SE are isolated.
The terminals SD und 5 are reference potentials. They must not be grounded.
FR-E 500 EC
13
Wiring
4.2
P
E
4.2.1
Wiring of the Main Circuit
DANGER:
The frequency inverter must always be powered off completely before performing
any wiring work. Before starting rewiring or other work after performing operation
once, check the voltage with a meter etc. more than 10 minutes after power-off.
For some time after power-off, there is a dangerous voltage in the capacitor.
CAUTION:
The inverter must be grounded using the dedicated ground terminal.
Power must not be applied to the output terminals (U, V, W) of the inverter. Otherwise
the inverter will be damaged.
Mains, Motor and Ground Terminal Connections
The terminal blocks for connection of the frequency inverter can be accessed by removing the
front cover and the wire cover. Connect a 1-phase power supply to the terminals L1 and N when
using the inverter FR-S 520S EC/ECR and a 3-phase power supply to the terminals L1, L2 and
L3 when using the inverter FR-S 540 EC/ECR. The required power supply is 200–240V AC,
−15% / +10% for the inverter type FR-S 520S EC/ECR and 380–480V AC, −15% / +10% for the
inverter type FR-S 540 EC/ECR. The main frequency is 50–60Hz ± 5% for all types.
Connect the motor cables to terminals U, V and W. The illustration below shows the correct assignments for the power connections. Please see the main frequency inverter manual for details
on the required cable dimensions for your model.
NOTE
The inverter must be grounded using the dedicated ground terminal.
1-phase power supply
FR-E 520S EC
3-phase power supply
FR-E 540 EC
RUN
FU
-
P1
+
STR
SD
PR
FAN
2
FAN
1
Dedicated ground terminal
14
MITSUBISHI ELECTRIC
Wiring
NOTE
It is recommended to use a shielded motor cable in order to reduce cable radiation.
1-phase
power supply
3-phase
power supply
Q1
Q1
FR-E 540 EC
FR-E 520 S EC
L1
I
L1
U
L1
I
L1
N
I
N
V
L2
I
L2
V
W
L3
I
L3
W
U
−
−
P1
P1
+
+
PR
PR
PE
PE
The maximum wiring length of the motor cable
Capacity Classes FR-E 500
0.4 k
0.75 k
1.5 k
2.2 k
3.7 k
200V class
300m
500m
500m
500m
500m
400V class
200m
200m
300m
500m
500m
200V class
200m
300m
500m
500m
500m
400V class
30m
100m
200m
300m
500m
Non-low acoustic noise mode
Low acoustic noise mode
Main circuit connector
The following table shows the terminal assignment of circuit terminals
Terminal
Terminal name
L1, N
L1, L2, L3
Mains supply connection
+, −
External brake unit connection
+, PR
Optional external brake
resistor connection
An optional external brake resistor can be
connected to the terminals + and PR.
P1, +
DC choke coil connection
An optional choke coil can be connected to the
terminals P1 and +. Remove the jumper before installing the optional choke coil.
U, V, W
Motor connection
Voltage output of the inverter (3-phase, 0V up to
power supply voltage, 0.2–400Hz)
PE
E
FR-E 500 EC
Description
Mains power supply of the inverter
An external brake unit can be connected to the
terminals + and −.
Protective earth connection of inverter
CAUTION:
Switching the unit off and on repeatedly with the mains power supply at short intervals can damage the switch-on current limiter. Because of this the unit should always
be started and stopped with the control unit or via the STF/STR and STOP control signals.
15
Wiring
4.2.2
Main Circuit Terminals
Terminal assignment for 1-phase power supply
−
L1
P1
N
+
PR
U
V
W
Screw size: M4
Screw tightening torque: 1.5Nm
Terminal assignment for 3-phase power supply
L1
−
P1
+
PR
L2
L3
U
V
W
Screw size: M4
Screw tightening torque: 1.5Nm
16
MITSUBISHI ELECTRIC
Wiring
4.3
Wiring of the Control Circuit
The following picture shows the arrangement of the terminal for the control circuit of the inverter:
RH
RM
RL
MRS
RES
SD
AM
PC
SE
RUN
FU
POWER
ALARM
A
RH
B
RM
SD
C
10
RES
2
SD
5
PC
AM
4
SE
PC
SD
SINK
Jumper
Control logic
*
*
RL
MRS
SE
RUN
FU
SOURCE
-
P1
+
STF
STR
SD
PR
FAN
2
FAN
1
The control signal level can be adjusted with the jumper. At the factory the jumper on the EC
units is set to the “Source” position (positive logic, 24V DC corresponds to logical 1).
If you want to use negative logic (0V corresponds to logical 1) you must move the jumper to
the “Sink” position. Use tweezers or thin-nosed pliers to move the jumper.
Input signals
Contact inputs
Signal
Terminal
Terminal name
STF
Forward rotation start
The motor rotates forward, if
a signal is applied to terminal
STF.
STR
Reverse rotation start
The motor rotates reverse, if
a signal is applied to terminal
STR.
RH, RM, RL
Multi-speed selection
Up to 15 different output frequencies can be preset.
MRS
Output stop
Turn on the MRS signal
(20ms or longer) to stop the
inverter output.
RES
RESET input
Common sink for contact input/reference potential
Common
SD
PC
FR-E 500 EC
A
B
C
10
2
5
4
SD
STF
STR
SD
24V DC output and
control input common if
source logic type is activated
Description
When the STF
and STR signals
are turned on simultaneously,
the stop command is given.
Input terminal
function selection (Pr. 180 to
Pr. 183) changes
the terminal
functions.
Used to reset the protective circuit activated.
Turn on the RES signal for more than 0.1 second
then turn it off.
A determined control function is activated, if the
corresponding terminal is connected to the terminal SD (sink logic). The SD terminal is isolated
from the digital circuits via optocouplers. The terminal is isolated from the reference potential of
the control circuit.
Common output terminal for 24V DC / 0.1A power output (PC terminal).
24V DC/0.1A output
With negative logic and control via open collector transistors (e.g. a PLC) the positive pole of an
external power source must be connected to the
PC terminal. With positive logic the PC terminal
is used as a common reference for the control inputs. This means that when positive logic is selected (default setting of the EC units) the corresponding control function is activated by
connecting its terminal to the PC terminal.
17
Wiring
Setting value specification
Analog
Signal
Terminal
Terminal name
Description
10
(output voltage
5V DC)
Voltage output for
potentiometer
Output voltage 5V DC
Max. output current 10mA.
Recommended potentiometer: 1kΩ, 2W linear,
multiturn potentiometer
2
Input for frequency
setting-value signal
The voltage setting value 0–5 (10) V is applied to
this terminal. The voltage range is preset to
0–5V. (Parameter 73). The input resistance is
10kΩ; The maximum permitted voltage is 20V.
5
Reference point for frequency
setting value signal
Terminal 5 is the reference point for all analog
setting values and for the analog output signal
AM. The terminal is not isolated from the reference potential of the control circuit and must not
be earthed.
Input for current
setting value signal
0/4–20mA DC
The current setting value signal (0/4–20mA DC)
is applied to this terminal.The input is active only
if the AU signal is set. The function of the AU signal is assigned via parameters 180 to 183. The
input resistance is 250Ω, the max current is
30mA.
4
Contact
The alarm is output via relay
contacts. The block diagram
shows the normal operation
and voltage free status. If the
protective function is activated, the relay picks up.
A, B, C
Potential free
alarm output
B
A
C
Signalausgänge
The maximum contact load
is 230V / 0.3A AC or 30V /
0.3A DC.
FU
Frequency
detection
Switched low when the output frequency has reached
or exceeded the detection
frequency set as appropriate. Switched high when below the detection frequency
(*1).
The maximum contact load
is 24V DC / 0.1A.
SE
Reference potential
for signal outputs
RUN
Open Collector
18
Signal output for
motor operation
The output is switched low, if
the inverter output frequency
is equal to the starting frequency. The output is switched high, if no frequency is
output or the DC brake is in
operation.
The maximum contact load
is 24V DC / 0.1A.
Output terminal
function selection (Pr. 190 to
Pr. 192) changes
the terminal
functions.
Reference potential for the
Signals RUN and FU
MITSUBISHI ELECTRIC
Wiring
E
NOTE
Output signals
Analog
AM
RS485
Terminal
Commun.
Signal
—
Terminal name
Analog output
Connection of control panel
(RS485)
Description
One of the following monitoring functions can be selected: output frequency, motor
current or motor voltage.
E.g. a DC voltmeter can be
connected.
Factory setting
of output item:
output frequency
The max. output
voltage is 10V,
the max. current
is 1mA.
Communication operation can be performed
through RS485. I/O standard: RS485,
Multi-Drop operation, max. 19200 Baud, over all
length max. 500m
CAUTION:
Terminals 10 and 5 must not be connected to each other. Otherwise the internal voltage output for the connection of the potentiometer will be damaged.
The control terminals RL/RM/RH/MRS (input terminals) and RUN/FU/A, B, C (output terminals) can be assigned to other functions or signals with the help of the control unit
(FR-PA02-02 or FR-PU04), the PC software or a field bus system. Please see the frequency
inverter manual for details on the procedure for this.
Please note the following important points for proper frequency inverter control performance:
쎲 The following conditions must be fulfilled for the frequency inverter to output a rotating field
correctly:
– The inverter lock must be deactivated (see below).
– You must input both a direction of rotation signal and a frequency setpoint value to the
inverter.
쎲 If the frequency inverter does not work properly even though the wiring of the control terminals block appears to be correct please check the following points:
– Is the frequency inverter reporting an error condition (red alarm LED)?
– Is the correct operating mode selected (EXT mode for control via the terminal block, PU
mode for control via the control unit)?
– Is the inverter lock (terminal MRS) deactivated and is the inverter receiving a rotation
start signal (terminal STF or STR)?
– Is the inverter receiving a valid frequency setpoint value > the start frequency (voltage
signal on terminal 2, current signal on terminal 4, preset frequency digital inputs)?
– Are the control terminals you are using programmed correctly?
FR-E 500 EC
19
Parameter
5
Parameter
5.1
Overview and Setting Ranges
Function
Basic
functions
Parameters
for standard drive
operation
Setting of
control outputs
20
ParaMeaning
meter
Setting range
Default
0–30%
6% / 4% 120Hz
0
Torque boost (manual) 1
Maximum frequency
0–120Hz
2
Minimum frequency
0–120Hz
0Hz
3
Base frequency 0–400Hz
50Hz
4
Multi-speed setting (high speed) 0–400Hz
60Hz
5
Multi-speed setting (middle speed) 0–400Hz
30Hz
6
Multi-speed setting (low speed) 0–400Hz
10Hz
7
Acceleration time
0–360s / 0–3600s
5 s / 10s 8
Deceleration time
0–360s / 0–3600s
5 s / 15s 9
Electronic thermal overload relay
0–500A
Rated current 10
DC injection brake operation frequency
0–120Hz
3Hz
11
DC injection brake operation time
0–10s
0.5 s
12
DC injection brake voltage
0–30%
6%
13
Starting frequency
0–60Hz
0.5Hz
14
Load pattern selection 15
Jog frequency
16
Jog acceleration/deceleration time
0–360s / 0–3600s
0.5s
18
High-speed max. frequency
120–400Hz
120Hz
19
Base frequency voltage 0–1000V/8888/9999
8888
20
Acceleration / deceleration reference frequency
1–400Hz
50Hz
21
Acceleration / deceleration time increments
22
Stall prevention operation level 23
0–3
0
0–400Hz
5Hz
0/1
0
0–200%
150%
Stall prevention operation at double speed 0–200% / 9999
9999
24
Multi-speed setting (speed 4) 0–400Hz / 9999
9999
25
Multi-speed setting (speed 5) 0–400Hz / 9999
9999
26
Multi-speed setting (speed 6) 0–400Hz / 9999
9999
27
Multi-speed setting (speed 7) 0–400Hz / 9999
9999
29
Acceleration / deceleration pattern
0/1/2
0
30
Regenerative function selection
0/1
0
31
Frequency jump 1A
0–400Hz / 9999
9999
32
Frequency jump 1B
0–400Hz / 9999
9999
33
Frequency jump 2A
0–400Hz / 9999
9999
34
Frequency jump 2B
0–400Hz / 9999
9999
35
Frequency jump 3A
0–400Hz / 9999
9999
36
Frequency jump 3B
0–400Hz / 9999
9999
37
Speed display
0 / 0.1–9998
0
38
Frequency at 5V (10V) input voltage
1–400Hz
50Hz 39
Frequency at 20mA input current
1–400Hz
50Hz 41
Up-to-frequency sensitivity
0–100%
10%
42
Output frequency detection
43
Output frequency detection for reverse rotation
0–400Hz
6Hz
0–400Hz / 9999
9999
MITSUBISHI ELECTRIC
Parameter
Function
Second
functions
Display
functions
Automatic
restart
functions
Additional
function
Operation
selection
functions
Motor
constants
ParaMeaning
meter
FR-E 500 EC
Default
44
Second acceleration/deceleration time
0–360s / 0–3600s
5s / 10s 45
Second deceleration time
0–360s / 0–3600s /
9999
9999
46
Second torque boost 0–30% / 9999
9999
47
Second V/F (base frequency) 0–400Hz / 9999
9999
48
Second stall prevention operation current
0–500A / 9999
9999
52
Control panel/PU main display data selection 55
Frequency monitoring reference 56
Current monitoring reference 57
Restart coasting time
58
Restart cushion time
0–60s
1s
59
Remote setting function selection
0/1/2
0
60
Shortest acceleration/ deceleration mode
0 / 1 / 2 / 11 / 12
0
61
Reference current
0–500A / 9999
9999
62
Reference current for acceleration
0–200% / 9999
9999
63
Reference current for deceleration
0–200% / 9999
9999
65
Retry selection
0/1/2/3
0
66
Stall prevention operation level
reduction starting frequency 0–400Hz
50Hz
67
Number of retries at alarm occurrence
0–10 / 101–110
0
68
Retry waiting time
0.1–360s
1s
69
Retry count display erasure
0
0
70
Special regenerative brake duty
0–30%
0%
0/1/3/5/6/13/15/16/
100/101/103/105/106/
113/115/116
0
71
Applied motor 72
PWM frequency selection 73
0–5V / 0–10V selection
74
Filter time constant
75
Reset selection / disconnected PU detection /
PU stop selection 77
Parameter write disable selection 78
Reverse rotation prevention selection
79
Operation mode selection 80
Motor capacity 82
Motor exciting current
83
0 / 23 / 100
0
0–400Hz
50Hz
0–500A
Rated current
0–5 s / 9999
9999
0–15
1
0 / 1 / 10 / 11 0
0–8
1
0–3 / 14–17
14
0/1/2
0
0/1/2
0
0–4 / 6–8
0
0.2–7.5kW / 9999
9999
0–500A / 9999
9999
Rated motor voltage 0–1000V
200V / 400V
84
Rated motor frequency 50–120Hz
50Hz
90
Motor constant A
0–50Ω / 9999
9999
96
Auto-tuning setting / status 0/1
0
117
Station number
0–31
0
118
Communication speed
119
Communication
functions
Setting range
Stop bit length / data length 48 / 96 / 192
192
0 / 1 / 100 / 101
Datenlänge 8
10 / 11 / 110 / 111
Datenlänge 7
1
2
120
Parity check presence / absence
0/1/2
121
Number of communication retries
0–10 / 9999
1
122
Communication check time interval
0–999.8s / 9999
9999
123
Waiting time setting
0–150ms / 9999
9999
124
CR / LF presence/absence selection
0/1/2
1
21
Parameter
Function
PID
control
Additional
functions
Current
detection
Sub
functions
Additional
functions
ParaMeaning
meter
User
functions
Terminal
assignment
functions
Multi-speed
operations
Sub
functions
Stop
selection
function
22
Default
128
PID action selection
0 / 20 / 21
0
129
PID proportional band
0.1–1000% / 9999
100%
130
PID integral time
0.1–3600s / 9999
1s
131
Upper limit
0–100% / 9999
9999
132
Lower limit
0–100% / 9999
9999
133
PID action set point for PU operation
134
PID differential time
145
PU language selection
146
Parameter set by manufacturer: Do not set!
150
Output current detection level
151
Output current detection period
152
Zero current detection level
0–200%
5%
153
Zero current detection period
0.05–1s
0.5s
156
Stall prevention operation selection
0–31/100
0
158
AM terminal function selection
160
User group read selection 168
169
Initial
monitor
Setting range
0–100%
0%
0.01–10.00s / 9999
9999
0–7
1
0–200%
150%
0–10s
0
0/1/2
0
0 / 1 / 10 / 11
0
0
0
0–999
0
0–999 / 9999
0
Parameters set by manufacturer: Do not set!
171
Actual operationhour meter clear
173
User group 1 registration
174
User group 1 deletion
175
User group 2 registration
176
0–999
0
User group 2 deletion
0–999 / 9999
0
180
RL terminal function selection 0–8 / 16 / 18
0
181
RM terminal function selection 0–8 / 16 / 18
1
182
RH terminal function selection 0–8 / 16 / 18
2
183
MRS terminal function selection 0–8 / 16 / 18
6
190
RUN terminal function selection 0–99
0
191
FU terminal function selection 0–99
4
192
ABC terminals function selection 0–99
99
232
Multi-speed setting (speed 8) 0–400Hz / 9999
9999
233
Multi-speed setting (speed 9) 0–400Hz / 9999
9999
234
Multi-speed setting (speed 10) 0–400Hz / 9999
9999
235
Multi-speed setting (speed 11) 0–400Hz / 9999
9999
236
Multi-speed setting (speed 12) 0–400Hz / 9999
9999
237
Multi-speed setting (speed 13) 0–400Hz / 9999
9999
238
Multi-speed setting (speed 14) 0–400Hz / 9999
9999
0–400Hz / 9999
9999
0/1
1
239
Multi-speed setting (speed 15) 240
Soft-PWM setting
244
Cooling fan operation selection
245
Rated motor slip
246
0/1
0
0–50% / 9999
9999
Slip compensation response time
0.01–10s
0.5s
247
Constant output region slip
compensation selection
0 / 9999
9999
250
Stop selection
0–100s /
1000–1100s /
8888 / 9999
9999
MITSUBISHI ELECTRIC
Parameter
Function
Additional
functions
DeviceNetfunctions
Additional
function
Calibration
functions
Help
functions
ParaMeaning
meter
Setting range
Default
251
Output phase failure protection selection
0/1
1
254
Analog polarity reversible lower limit 0–100% / 9999
9999
338
Operation command write 0/1
0
339
Speed command write 0/1
0
340
Link start mode selection 0/1
0
342
E²PROM write selection
0/1
0
345
DeviceNet address (lower byte) 0–255
63 (0x3F)
346
DeviceNet baudrate (lower byte) 0–255
132 (0x84)
347
DeviceNet Address (higher byte) 0–255
160 (0xA0)
348
DeviceNet Baudrate (higher byte) 500
Communication error recognition waiting time 501
Communication error occurrence
count display 502
Error time stop mode selection 901
AM terminal calibration Calibration range
—
902
Frequency setting voltage bias
0–60Hz / [0–10V]
0Hz / [0V]
903
Frequency setting voltage gain
1–400Hz / [0–10V]
50Hz / [5V]
904
Frequency setting current bias
0–60Hz / [0–20mA]
0Hz / [4mA]
905
Frequency setting current gain
1–400Hz/[0–20mA]
50Hz / [20mA]
990
Beep signal at key operation
0/1
1
991
Contrast setting for LCD display
0–63
53
0–255
80 (0x50)
0–999.8s
0
0
0
0/1/2
0
Remarks to the table:
NOTE
FR-E 500 EC
The parameter setting is ignored, if the general purpose flux vector control is activated.
Since calibration is made before shipment from the factory, the setting differs slightly between inverters.
The setting depends on the inverter capacity. Range splitting: (0.4–3.7k = 5s) /
(5.5–7.5k = 10s).
Set to 85% of the rated inverter current for 0.4k and 7.5k type.
If “2” is set in parameter 77 (parameter write inhibit selection), the setting cannot be
changed during operation.
These parameters allow their settings to be changed during operation if “0” (factory setting)
has been set in parameter 77.
The setting depends on the inverter capacity. Range splitting: 4% for FR-E 540-5.5 k EC
and FR-E 540-7.5 k EC.
To set “10” or “11” in parameter 73, first “801” must be set in parameter 77.
Parameter 338 to 340 are displayed only when the communication option is fitted or when
Pr. 119 is “100”, “101”, “110” or “111”.
New setting ranges or parameter available from firmware version V7471C
Pr. 345 to Pr. 348 are displayed only when the option FR-E5ND is fitted.
Pr. 500 to Pr. 502 are displayed only when the communication option is fitted.
To change the inverter settings a parameter unit (FR-PA02-02 or FR-PU04 with extension
cable FR-A5 CBL1) or a personal computer with installed VFD Setup Software in conjunction with a converter (RS232 → RS485) is required.
23
Protective Functions
6
Protective Functions
6.1
Error Messages and Remedies
Error message
Display
FR-PU04
Meaning
Display
FR-PA02-02
Overcurrent 1
(acceleration)
Stedy
Spd OC
OC
During
Decn
Overcurrent 3
(deceleration)
OV
During
Acc
Overvoltage 1
(acceleration)
Stedy
Spd OV
Overvoltage 2
(constant speed)
OV During Dec
Remedy
The cause for the activation
of the protective function is a
short circuit or a ground fault
A) The output current of the in- across the main outputs, an
verter has reached or exceeded exceeding moment of inertia
200% of the rated current during of the load (GD 2 ), too short
acceleration, deceleration, or at acceleration / deceleration
constant speed.
time presets, restart during a
B) The temperature of the main motor idling phase, operation
of a motor with an exceeding
circuits of the inverter rises racapacity.
pidly.
Overheating due to insufficient cooling (defective cooling fan or choked heat sink).
The converter voltage has increased highly due to regenerative energy. The overvoltage limit
was exceeded during acceleration, deceleration, or at constant
speed.
Overvoltage 3
(deceleration)
In most cases the protective
function is activated due to a
too short deceleration time
preset or a regenerative overload.
Increase the deceleration
time or connect an external
brake unit.
An overvoltage in the mains
power supply activates this
protective function as well.
The electronic overload protection for the motor or inverter was
activated.
The electronic motor protection
switch continually detects the
motor current and the output frequency of the inverter. If a
self-cooling motor operates
over a long period at low speed
but high torque, the motor is
thermally overloaded and the
protective function is activated.
If several motors are operated
by one inverter the motor protection switch will not operate
properly. In this case deactivate
the motor protection and replace it by external protection switches.
Decrease the motor load to
avoid an activation.
Check whether the performance range of the motor
and inverter correspond.
Fin overheat
If the cooling fin overheats, the
fin overheat sensor activates
and halts inverter output.
Check environmental temperature.
Replace the cooling fan
Fan breakdown
The cooling fan breaks down or
an operation different from the
setting of parameter 244 (cooling fan operation selection) is
performed.
Motor
Overload
Overload
(motor)
Inv.
Overload
Overload
(inverter)
H/Sink
O/Temp
Fan
Failure
24
Overcurrent 2
(constant speed)
Description
MITSUBISHI ELECTRIC
Protective Functions
Error message
Display
FR-PU04
Meaning
Display
FR-PA02-02
Description
Remedy
A) The integrated brake transistor does not operate properly.
B) Possibly, a thermal overload
occured.
Check the relative operating
time of the brake resistor. In
case of thermal difficulties
use an external brake resistor
or an inverter of higher capacity.
Br. Cct.
Fault
Brake
transistor failure
Ground
Fault
Ground failure
An overcurrent occured due to a
ground failure upon the inverter
output (load side).
Check load connections
(motor circuit).
An external motor protective
switch was activated. If an external motor protective switch for
thermal monitoring is used, this
switch can activate the protective function of the inverter.
Check motor load and drive.
OH Fault
Activation of an
external motor
protection relay
( t h e r m a l co ntact)
Stll
Prev STP
Stall prevention
overload
A long lasting excess of the current limit (OL display) shuts
down the inverter.
Option
Fault
Error in an
optional unit
A dedicated inboard option does
not operate properly. The protective function is activated, if an internal option is improperly installed or connected.
Check connections and connectors of the optional unit.
Corrupt
Memry
Memory error
Error on access of the data memory of the inverter.
Please contact your nearest
MITSUBISHI ELECTRIC representative if the error occurs again.
Check the connection of control panel.
PU Leave
Out
Control panel
connection error
A connection error between inverter and control panel occurred during operation.
This alarm is only returned, if
parameter 75 is set to “2”, “3”,
“16”, or “17”.
Retry No
Over
Automatic
restart retry
exceeded
After activation of a protective
function the inverter failed to be
restarted automatically within
the number of retries specified
in parameter 67.
Remedy the actual cause of
the originary protective function.
CPU
Fault
CPU error
Failure on CPU printed circuit
board.
Contact the MITSUBISHI
ELECTRIC customer ser vice
The dedicated option used in
the inverter results in setting error or connection fault.
Check the function setting of
the option board.
Check that the communication option is plugged in the
connector securely
CPU errorr
This functions stops the inverter
output if a communication error
occurs in the built-in CPU.
Please contact your nearest
MITSUBISHI ELECTRIC representative if the error occurs repeatedly.
—
Open output
phase protection
One of the phases (U, V, W) is
not connected.
Check the connections.
—
Shortcut at
24V DC
A shortcut at the 24 V output has
occured (PC terminal).
Remove the shortcut!
Inverter was
stopped via control panel
STOP key on the control panel
was pressed during external
operating mode.
Check parameter 75.
PS
Fault 3
Fault 3
(option error)
Fault 6
Fault 7
FR-E 500 EC
Reduce the load. Check the
preset values for the current
limit (parameter 22) and the
stall prevention selection
(parameter 156).
25
Protective Functions
Error message
Display
FR-PU04
OL
oL
UFU
26
Meaning
Display
FR-PA02-02
Description
Remedy
Overcurrent
during
acceleration
If a current of more than 150% of the rated inverter current
flows in the motor, this function
stops the increase of the frequency until the overload current reduces to prevent the inve r t e r f r o m r e s u l t i n g i n
overcurrent shut-off. When the
overload current has reduced
below 150%, this function increases the frequency again.
Change the acceleration/deceleration time.
Increase the stall prevention
operation level with Pr. 22.
Disable stall prevention with
Pr. 156.
Overcurrent
during
constant-speed
operation
If a current of more than 150% �
of the rated inverter current
flows in the motor, this function
lowers the frequency until the
overload current reduces to prevent overcurrent shut-off. When
the overload current has reduced below 150%, this function
increases the frequency up to
the set value.
Overcurrent
during
deceleration
If a current of more than 150% �
of the rated inverter current
flows in the motor, this function
stops the decrease in frequency
until the overload current reduces to prevent the inverter from
resulting in overcurrent shut-off.
When the overload current has
reduced below 150%, this
function decreases the frequency again.
Overvoltage
during
deceleration
If the regenerative energy of the
motor increases too much to exceed the brake capability, this
function stops the decrease in
frequency to prevent overvoltage shut-off. As soon as the regenerative energy has reduced,
deceleration resumes.
Error
This alarm appears if:
Perform operation correctly.
쎲 the RES signal is on
쎲 you attempted to set any parameter value in the external
operation mode
쎲 you attempted to change the
operation mode during operation
쎲 you attempted to set any parameter value outside its setting range
쎲 you attempted to set any parameter value during operation (while signal STF or STR
is ON).
쎲 you attempted to set any parameter value while parameter write is being inhibited in
Pr. 77 “parameter write inhibit selection”
Increase the deceleration
time using Parameter 8.
The stall prevention operation level (Pr. 22) is adjustable. It is factory-set to 150%.
MITSUBISHI ELECTRIC
Dimensions
7
Dimensions
7.1
Dimensions of the Frequency Inverters
FR-E 520S-0.4 k bis 2.2 k EC and FR-E 540-0.4 k to 3.7 k EC
Type
A
A1
FR-E 520S-0.4 k / 0.75 k EC
136
64
FR-E 520S-1.5 k / 2.2 k EC
156
84
FR-E 540-0.4 k / 0.75 k EC
116
44
FR-E 540-1.5 k bis 3.7 k EC
136
64
5
6
128
150
6
138
6
2x ø5
A1
6
61
11
A
140
NOTE
Unit: mm
There is no cooling fan in the FR-E 520S-0.4 k/0.75 k-EC and FR-E 540-0.4 k/0.75 k-EC.
FR-E 540-5.5 k und 7.5 k EC
5
6
208
6
6
150
138
6
2x ø5
73
64
11
148
220
Unit: mm
FR-E 500 EC
27
MITSUBISHI ELECTRIC
HEADQUARTERS
EUROPEAN REPRESENTATIVES
EUROPEAN REPRESENTATIVES
EUROPEAN REPRESENTATIVES
MITSUBISHI ELECTRIC
EUROPE
EUROPE B.V.
German Branch
Gothaer Straße 8
D-40880 Ratingen
Phone: +49 (0)2102 486-0
Fax: +49 (0)2102 486-1120
e mail: megfamail@meg.mee.com
MITSUBISHI ELECTRIC
FRANCE
EUROPE B.V.
French Branch
25, Boulevard des Bouvets
F-92741 Nanterre Cedex
Phone: +33 1 55 68 55 68
Fax: +33 1 55 68 56 85
e mail: factory.automation@fra.mee.com
MITSUBISHI ELECTRIC
IRELAND
EUROPE B.V.
Irish Branch
Westgate Business Park, Ballymount
IRL-Dublin 24
Phone: +353 (0) 1 / 419 88 00
Fax: +353 (0) 1 / 419 88 90
e mail: sales.info@meir.mee.com
MITSUBISHI ELECTRIC .
ITALY
EUROPE B.V
Italian Branch
Via Paracelso 12
I-20041 Agrate Brianza (MI)
Phone: +39 039 60 53 1
Fax: +39 039 60 53 312
e mail: factory.automation@it.mee.com
MITSUBISHI ELECTRIC
SPAIN
EUROPE B.V.
Spanish Branch
Carretera de Rubí 76-80
E-08190 Sant Cugat del Vallés
Phone: +34 9 3 565 3131
Fax: +34 9 3 589 2948
e mail: industrial@sp.mee.com
MITSUBISHI ELECTRIC
UK
EUROPE B.V.
UK Branch
Travellers Lane
GB-Hatfield Herts. AL10 8 XB
Phone: +44 (0) 1707 / 27 61 00
Fax: +44 (0) 1707 / 27 86 95
e mail: automation@meuk.mee.com
MITSUBISHI ELECTRIC
JAPAN
CORPORATION
Office Tower “Z” 14 F
8-12,1 chome, Harumi Chuo-Ku
Tokyo 104-6212
Phone: +81 3 622 160 60
Fax: +81 3 622 160 75
MITSUBISHI ELECTRIC
USA
AUTOMATION
500 Corporate Woods Parkway
Vernon Hills, IL 60061
Phone: +1 847 478 21 00
Fax: +1 847 478 22 83
GEVA
AUSTRIA
Wiener Straße 89
AT-2500 Baden
Phone: +43 (0)2252 / 85 55 20
Fax: +43 (0)2252 / 488 60
e mail: office@geva.at
TEHNIKON
BELARUS
Oktjabrskaya 16/5, Ap 704
BY-220030 Minsk
Phone: +375 (0)17 / 2104626
Fax: +375 (0)17 / 2275830
e mail: tehnikon@belsonet.net
Getronics b.v.
BELGIUM
Control Systems
Pontbeeklaan 43
BE-1731 Asse-Zellik
Phone: +32 (0)2 / 467 17 51
Fax: +32 (0)2 / 467 17 45
e mail: infoautomation@getronics.com
TELECON CO.
BULGARIA
4, A. Ljapchev Blvd.
BG-1756 Sofia
Phone: +359 (0)2 / 97 44 058
Fax: +359 (0)2 / 97 44 061
e mail: —
INEA CR d.o.o.
CROATIA
Drvinje 63
HR-10000 Zagreb
Phone: +385 (0)1 / 3667140
Fax: +385 (0)1 / 3667140
e mail: —
AutoCont
CZECH REPUBLIC
Control Systems s.r.o.
Nemocnicni 12
CZ-70200 Ostrava 2
Phone: +420 59 / 6152 111
Fax: +420 59 / 6152 562
e mail: consys@autocont.cz
louis poulsen
DENMARK
industri & automation
Geminivej 32
DK-2670 Greve
Phone: +45 (0)43 / 95 95 95
Fax: +45 (0)43 / 95 95 91
e mail: lpia@lpmail.com
UTU Elektrotehnika AS
ESTONIA
Pärnu mnt.160i
EE-10621 Tallinn
Phone: +372 (0)6 / 51 72 80
Fax: +372 (0)6 / 51 72 88
e mail: utu@utu.ee
UTU POWEL OY
FINLAND
Box 236
FIN-28101 Pori
Phone: +358 (0)2 / 550 800
Fax: +358 (0)2 / 550 8841
e mail: tehoelektroniikka@urhotuominen.fi
UTECO A.B.E.E.
GREECE
5, Mavrogenous Str.
GR-18542 Piraeus
Phone: +302 (0)10 / 42 10 050
Fax: +302 (0)10 / 42 12 033
e mail: uteco@uteco.gr
Meltrade Automatika Kft. HUNGARY
55, Harmat St.
HU-1105 Budapest
Phone: +36 (0)1 / 2605 602
Fax: +36 (0)1 / 2605 602
e mail: office@meltrade.hu
SIA POWEL
LATVIA
Lienes iela 28
LV-1009 Riga
Phone: +371 784 2280
Fax: +371 784 2281
e mail: utu@utu.lv
UAB UTU POWEL
LITHUANIA
Savanoriu Pr. 187
LT-2053 Vilnius
Phone: +370 (0)52323-101
Fax: +370 (0)52322-980
e mail: powel@utu.lt
Intehsis Srl
MOLDOVA
Cuza-Voda 36/1-81
MD-2061 Chisinau
Phone: +373 (0)2 / 562 263
Fax: +373 (0)2 / 562 263
e mail: intehsis@mdl.net
Getronics b.v.
NETHERLANDS
Control Systems
Donauweg 2 B
NL-1043 AJ Amsterdam
Phone: +31 (0)20 / 587 6700
Fax: +31 (0)20 / 587 6839
e mail: info.gia@getronics.com
Motion Control
NETHERLANDS
Automation b.v.
Markenweg 5
NL-7051 HS Varsseveld
Phone: +31 (0)315 / 257 260
Fax: +31 (0)315 / 257 269
e mail: —
Beijer Electronics AS
NORWAY
Teglverksveien 1
NO-3002 Drammen
Phone: +47 (0)32 / 24 30 00
Fax: +47 (0)32 / 84 85 77
e mail: info@beijer.no
MPL Technology Sp. z o.o.
POLAND
ul. Sliczna 36
PL-31-444 Kraków
Phone: +48 (0)12 / 632 28 85
Fax: +48 (0)12 / 632 47 82
e mail: krakow@mpl.pl
Sirius Trading & Services srl ROMANIA
Str. Biharia Nr. 67-77
RO-013981 Bucuresti 1
Phone: +40 (0) 21 / 201 1146
Fax: +40 (0) 21 / 201 1148
e mail: sirius@siriustrading.ro
ACP Autocomp a.s.
SLOVAKIA
Chalupkova 7
SK-81109 Bratislava
Phone: +421 (02)5292-2254
Fax: +421 (02)5292-2248
e mail: info@acp-autocomp.sk
INEA d.o.o.
SLOVENIA
Stegne 11
SI-1000 Ljubljana
Phone: +386 (0)1 513 8100
Fax: +386 (0)1 513 8170
e mail: inea@inea.si
Beijer Electronics AB
SWEDEN
Box 426
S-20124 Malmö
Phone: +46 (0)40 / 35 86 00
Fax: +46 (0)40 / 35 86 02
e mail: info@beijer.de
ECONOTEC AG
SWITZERLAND
Postfach 282
CH-8309 Nürensdorf
Phone: +41 (0)1 / 838 48 11
Fax: +41 (0)1 / 838 48 12
e mail: info@econotec.ch
GTS
TURKEY
Darülaceze Cad. No. 43A KAT: 2
TR-80270 Okmeydani-Istanbul
Phone: +90 (0)212 / 320 1640
Fax: +90 (0)212 / 320 1649
e mail: gts@turk.net
CSC Automation
UKRAINE
15, M. Raskova St., Fl. 10, Off. 1010
UA-02002 Kiev
Phone: +380 (0)44 / 238 83 16
Fax: +380 (0)44 / 238 83 17
e mail: csc-a@csc-a.kiev.ua
MITSUBISHI ELECTRIC
Gothaer Straße 8
D-40880 Ratingen
Telefon: 02102 486-0
Hotline: 01805 000-7650
EURASIAN REPRESENTATIVE
CONSYS
RUSSIA
Promyshlennaya St. 42
RU-198099 St Petersburg
Phone: +7 812 / 325 36 53
Fax: +7 812 / 325 36 53
e mail: consys@consys.spb.ru
ELEKTROSTYLE
RUSSIA
ul. Garschina 11
RU-140070 Moscow Oblast
Phone: +7 095/ 557 9756
Fax: +7 095/ 746 8880
e mail: mjuly@elektrostyle.ru
ELEKTROSTYLE
RUSSIA
Krasnij Prospekt 220-1, Office 312
RU-630049 Novosibirsk
Phone: +7 3832 / 10 66 18
Fax: +7 3832 / 10 66 26
e mail: elo@elektrostyle.ru
ICOS
RUSSIA
Ryazanskij Prospekt, 8A, Office 100
RU-109428 Moscow
Phone: +7 095 / 232 0207
Fax: +7 095 / 232 0327
e mail: mail@icos.ru
SMENA
RUSSIA
Polzunova 7
RU-630051 Novosibirsk
Phone: +7 095 / 416 4321
Fax: +7 095 / 416 4321
e mail: smena-nsk@yandex.ru
SSMP Rosgidromontazh Ltd
RUSSIA
23, Lesoparkovaya Str.
RU-344041 Rostov On Don
Phone: +7 8632 / 36 00 22
Fax: +7 8632 / 36 00 26
e mail: —
STC Drive Technique
RUSSIA
Poslannikov per., 9, str.1
RU-107005 Moscow
Phone: +7 095 / 786 21 00
Fax: +7 095 / 786 21 01
e mail: info@privod.ru
MIDDLE EAST REPRESENTATIVE
SHERF Motion Techn. Ltd
Rehov Hamerkava 19
IL-58851 Holon
Phone: +972 (0)3 / 559 54 62
Fax: +972 (0)3 / 556 01 82
e mail: —
ISRAEL
AFRICAN REPRESENTATIVE
CBI Ltd
SOUTH AFRICA
Private Bag 2016
ZA-1600 Isando
Phone: +27 (0)11 / 928 2000
Fax: +27 (0)11 / 392 2354
e mail: cbi@cbi.co.za
INDUSTRIAL AUTOMATION
Fax:
02102 486-7170
megfa-mail@meg.mee.com
www.mitsubishi-automation.de
www.mitsubishi-automation.com