FREQROL-HC2

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FREQROL-HC2 | Manualzz

HIGH POWER FACTOR CONVERTER

HC2

Compatible with the Harmonic

Suppression Guidelines

Effectively suppresses inverter's power supply harmonics.

Renewed

FR-HC

Features

1

1

Greatly suppressed power supply harmonics

The HC2 converters, being the self-excitation three-phase bridge circuit under "the Harmonic Suppression Guidelines for

Specific Consumers", take the conversion coefficient of the equivalent capacity (K5 = 0).

Harmonic Conversion Coefficient of the Equivalent Capacity

(Excerpt from the Guidelines Appendix)

Classification Circuit type

6-pulse converter

Conversion coefficient Application examples

K11 = 1 Railway substation

1

3

5

Three-phase bridge 12-pulse converter

24-pulse converter

Three-phase bridge

(smoothing capacitor)

Without a reactor

With a reactor (on AC side)

With a reactor (on DC side)

With reactors (on AC/DC sides)

Self-excitation three-phase bridge

K12 = 5.5

K13 = 0.25

K31 = 3.4

K32 = 1.8

K33 = 1.8

K34 = 1.4

K5 = 0

Electro-chemistry

Other

General-purpose inverter

Lift

Refrigerating air conditioner

Other

PWM converter

The waveform with high peaks, which is typical of inverter's input current, is reshaped to be a sine wave with lower input current effective values.

The lowered effective value enables adoption of smaller power-supply-side devices, such as a power supply transformer, MCCB, and cables.

Such smaller equipment saves the cost of equipment.

Power supply voltage

Input current

Power supply voltage

Input current

[Without FR-HC2] [With FR-HC2]

2

Power regeneration function for energy saving

The power regeneration function, which comes as a standard feature, eliminates the need for brake units. The power regeneration function gives a great breaking capability.

(Regeneration is available continuously with 100% torque, and for 60s with the maximum of 150% torque.)

The regenerative power from the motor is returned to the power source, and such a system significantly saves energy.

500

300

200

100

50

30

7.5K

15K 30K 55K

10

10 20 30 40 50 60 70 80

Short-time permissible regenerative power (kW)

[55K or lower]

3

Connectable to multiple inverters

Inverter

The common converter method enables the connection to up to

10 inverters.

*1

The power returned during regenerative driving can be supplied to another inverter, saving the overall energy.

FR-HC2

Max.10 units connectable

Inverter

*1 : Be sure to use a converter with the capacity higher than the total capacities of the inverters.

(Refer to page 8.)

Inverter

4

Compact design for space saving

The high power factor converters (excluding 15K) and input reactors (75K or higher) have become much smaller than their conventional models (FR-HC, MT-HC).

5

Long life parts and life diagnosis function

(1) Longer life parts

The service life of the cooling fans is now 10 years

*1

and that can be even longer with the ON/OFF control of the cooling fan.

Capacitors with a design life of 10 years *1*2 are adapted.

(Using a surrounding air temperature of 105˚C for 5000 hours). With these capacitors, the service life of the converter is further extended.

*1 : Surrounding air temperature: Annual average of 40ºC (free from corrosive gas, flammable gas, oil mist, dust and dirt).

The design life is a calculated value and is not a guaranteed product life.

*2 : Input current: 80% of the high power factor converter rating

Estimated service lifespan of the consumable parts

Part name

Cooling Fan

Estimated lifespan

10 years

Reference value by JEMA *3

2 to 3 years

Main circuit smoothing capacitor

Smoothing capacitors on the printed board

10 years

10 years

5 years

5 years

*3 : Excerpt from "The Periodic Inspection Recommendations on General-purpose

Inverters" by the Japan Electrical Manufactures Association (JEMA).

(2) The leading-edge life diagnosis function

The degree of deterioration of the main circuit capacitor, cooling fan, and inrush current limit circuit can be diagnosed on the monitor.

Using the self-diagnosis function, the part life warning can be output and the deterioration degree can be monitored. Thus, the self-diagnosis function prevents troubles from occurring.

*4 : A warning is output when any of the control circuit capacitor, inrush current limit circuit, and cooling fan reaches its output level.

6

Operation panel equipped with the setting dial

(FR-DU07-CNV)

7

Supporting more network protocols

Parameters can be copied using the operation panel

(FR-DU07-CNV).

The setting values of the parameters can be stored to the operation panel and the option parameter unit (FR-PU07).

Items such as input current, input voltage, input power (with the regenerative display), bus voltage, etc. can be monitored.

Operation can be easily performed with the setting dial.

HC2 supports RS-485 as a standard. With the option

FR-A7NC, HC2 also supports CC-Link.

•The power can be monitored during driving/regenerative driving, and this monitoring tells you the energy saving effect.

•Alarm functions and voltage monitors of each phase help you to spot the cause of the alarm.

FR-HC2 Inverter Inverter

Parameter change example

Programmable controller

Terminating resistor

FR-A7NC FR-A7NC

CC-Link dedicated cable

CC-Link network

FR-A7NC

Terminating resistor

Applications

[Ceiling crane]

G

Trolley line

Trolley line

IM

IM

Crane

IM G

W

Traveling wheel

Rail

Power supply

Standard accessories

High power factor converter

(FR-HC2)

Inverter

Inverter

Inverter

B

Traveling motor

B

Traveling motor

Hosting motor

B

•The power regeneration function is installed. A brake

unit is not required.

•The mechanical brake is powered from the power

supply side of the standard accessories.

[Water treatment plant (pump)]

Power supply

Standard accessories

High power factor converter

(FR-HC2)

Inverter

Inverter

•Power supply harmonics of inverters can be

suppressed.

•The power regeneration function is installed.

A brake unit is not required.

Motor

Motor

Protective Functions

Dimension Drawings

Extensive lineup

Model

F R - H C 2 - 7.5K

High power factor converter basic model name

Capacity (kW)

Three-phase 200V class

Three-phase 400V class

7.5

15

30

Symbol

No sign

H

55

Voltage

200V class

400V class

75

Symbol

7.5K to 560K

Applicable capacity

Represents the capacity kW.

110

160

220

280

400

560

    

: Available model −: Not available

Compatible with UL, cUL, EC Directives (CE marking) as standard.

Compliant with the RoHS Directive. Friendly to people and to the environment.

To obtain higher environmental resistance, the FR-HC2 has coated printed circuit boards and copper plated conductors.

Magnetic contactors also have anti-corrosive coatings on.

The coated printed circuit board model (FR-HC-K-60

)of the conventional series is replaceable with the standard model of this series.

[Note]

•These coating treatments do not guarantee an operation environment beyond the range indicated in the product specification.

•Coating is applied to the printed circuit board areas excluding its LEDs, connectors, terminal blocks and their peripherals, where coating cannot be applied.

•As for the anti-corrosive treatment of the magnetic contactor, plating is applied to the copper areas where no surface treatment is applied.

Standard accessories

Refer to page 6

High power factor converter

*1

(FR-HC2)

Reactor 1

(FR-HCL21)

Reactor 2

(FR-HCL22)

Outside box

(FR-HCB2)

*2

*1 : Use in combination with standard accessories. Cables for connecting standard accessories are not provided.

*2 : Peripheral devices are separately provided for 280K or higher (not provided as the outside box).

2

3

Connection example

Three-phase AC power supply

Use within the permissible power supply specifications of the converter.

Moulded case circuit breaker (MCCB), earth leakage current breaker (ELB), or fuse

The breaker must be selected carefully since an inrush current flows in the converter at power ON.

Magnetic contactor (MC)

Install the magnetic contactor to ensure safety.

Do not use this magnetic contactor to start and stop the high power factor converter and the inverter. Doing so will shorten the life of the inverter and the converter.

Reactor 1 (FR-HCL21)

Confirm that the capacity of the reactor is selected according to the capacity of the converter.

R4S4 T4

P N

Outside box (FR-HCB2)

Check that the capacity of the outside box matches with the capacity of the high power factor converter.

Outside box is not available for 280K or higher.

Connect filter capacitors, inrush current limit

resistors, and magnetic contactors.

Reactor 2 (FR-HCL22)

Confirm that the capacity of the reactor is selected according to the capacity of the converter.

High power factor converter

(FR-HC2)

Install and wire correctly.

Do not install the moulded case circuit breaker (MCCB) between terminals P and P, or N and N of the converter and the inverter.

Fuse

Installation of a fuse is recommended for safety.

Select a fuse according to the connected motor capacity.

(Refer to page 24)

Inverter

Confirm that this is a FR-HC2 supporting inverter.

(Refer to page 25)

Connect an inverter that corresponds with the each capacity of the converter.

Match the control logic (sink logic / source logic) of the converter and the inverter.

Devices connected to the output

Do not install a power factor correction capacitor, surge suppressor or radio noise filter on the output side of the inverter. When installing a moulded case circuit breaker on the output side of the inverter, contact each manufacturer for selection of the moulded case circuit breaker.

Earth (Ground)

To prevent an electric shock, always earth (ground) the motor and inverter.

Earth

(Ground)

Motor

Connect the motor corresponds to the each capacity.

Standard specification rating

200V

Model name FR-HC2-K

Applicable inverter capacity (kW)

Rated output capacity (kW)



Rated input voltage (V)

Rated input current (A)

Overload current rating



Permissible power supply voltage fluctuation

Permissible power supply frequency fluctuation

Input power factor

Power supply capacity (kVA)

Protective structure of the converter



Cooling system

Approximate mass (kg)



7.5

15 30 55 75

7.5

15 30 55

10.7

33

19.8

38 71 92

Three-phase 200V to 220V 50Hz/200V to 230V 60Hz



61 115 215

150% 60s

170V to 242V 50Hz

278

170V to 230V

170V to 253V 60Hz 50Hz/60Hz

5%

14

0.99 or more (when load ratio is 100%)

25

Enclosed type (IP20)



47 88

7 12

Open type (IP00)

Forced air cooling

24 39

75

110

53

400V

Model name FR-HC2-HK



Applicable inverter capacity (kW)

Rated output capacity (kW)



Rated input voltage (V)



Rated input current (A)

Overload current rating



Permissible power supply voltage fluctuation

Permissible power supply frequency fluctuation

Input power factor

Power supply capacity (kVA)

Protective structure of the converter



Cooling system

Approximate mass (kg)



7.5

15 30 55 75 110 160 220

0.99 or more (when load ratio is 100%)

90 113 165 235 322

43

5%

Open type (IP00)

Forced air cooling

37 56 120 120

280

7.5

11.0

17

15

20.2

31

30

37

57

323V to 506V 50/60Hz

55 75 110 160 220

73 92 135 192 264

Three-phase 380V to 460V 50Hz/60Hz



110 139 203

150% 60s

290 397

280

336

506

323V to 460V 50/60Hz

14 26

Enclosed type

(IP20)



9 9

47

26

410

160

400

400

476

716

580

560

560

660

993

804

250 250



Model name of the 400V class ends with H.



The permissible voltage imbalance ratio is 3% or less. (Imbalance ratio = (highest voltage between lines - average voltage between three lines) / average voltage between three lines

 100).



DC output capacity when the input voltage is 200VAC (400V for the 400V class).



Change the MC power supply stepdown transformer tap according to the input voltage. (Refer to the Instruction Manual)



The % value of the overload current rating indicates the ratio of the overload current to the converter's rated input current. For repeated duty, allow time for the converter and the inverter to return to or below the temperatures under 100% load.



The protective structure is IP40 for FR-DU07-CNV (except the PU connector) and IP00 for the outside box (220K or lower) and the reactor regardless of their capacities.



When the hook of the converter front cover is cut off for installation of the plug-in option, the protective structure changes to the open type (IP00).



Mass of FR-HC2 alone.

4

5

Common specifications

Control method

PWM control

Power supply frequency range

50Hz to 60Hz

Current limit level

Current limit value selectable (0 to 220% variable)

Input signal (Five terminal)

Output signal

Open collector output

(Five terminals)

Relay output (One terminal)

Operating status

The following signals can be assigned to Pr. 3 to Pr. 7 (input terminal function selection): converter stop, monitor switching, converter reset, external thermal relay, and inrush resistance overheat detection.

The following signals can be assigned to Pr. 11 to Pr. 16 (output terminal function selection): inverter run enable signal, converter reset, converter running, overload alarm, power supply phase detection, output voltage match, instantaneous power failure detection, regenerative drive recognition, electronic thermal relay pre-alarm, fan alarm, heatsink overheat pre-alarm, during retry, input current detection, zero current detection,life alarm, maintenance timer, instantaneous power failure detection hold, alarm, and fault output.

For meter

Pulse train output

(Max. 2.4kHz: one terminal)

Analog output

(Max. 10VDC: one terminal)

The following signals can be assigned to Pr. 54 FM terminal function selection (pulse train output) and

Pr. 50 AM terminal function selection (analog output): power supply frequency, input current, input voltage, converter output voltage, electronic thermal relay load factor, input power, reference voltage output.

Operation panel

(FR-DU07-CNV)

Operating status

Power supply frequency, input current, input voltage, fault or alarm indication, converter output voltage, electronic thermal relay load factor, cumulative energization time, cumulative power, input

power, input power (with regenerative display), I/O terminal status

*1

, power/regenerative drive indication, option fitting states



Fault definition is displayed when a fault occurs. Past eight fault records and the data right before the fault (input voltage/current/bus voltage/cumulative energization) are stored.

Parameter unit

(FR-PU07)

Fault record

Interactive guidance

Function (help) for operation guide



Protective/warning function

Surrounding air temperature

Ambient humidity

Storage temperature



Atmosphere

Altitude/ vibration

Protective function

Warning functions

Overcurrent, overvoltage, converter protection thermal, fin overheat, instantaneous power failure, undervoltage, input phase loss, HC2 dedicated board disconnection, input power supply fault, external thermal relay operation



, parameter error, PU disconnection



, retry count excess



, converter

CPU fault, operation panel power supply short circuit, 24VDC power output short circuit, input cur-

rent detection value exceeded



, inrush current limit circuit fault, internal circuit fault, option fault



, communication option fault

.

Fan alarm, overload signal detection, electronic thermal relay pre-alarm, PU stop, maintenance timer alarm



, parameter write error, copy operation error, operation panel lock, parameter copy alarm, no-phase detection

-10

C to +50C (non-freezing)

90%RH or less (non-condensing)

-20

C to +65C

Indoors (without corrosive gas, flammable gas, oil mist, dust and dirt etc.)

Maximum 1,000m above sea level, 5.9m/s

2

or less



at 10 to 55Hz (directions of X, Y, Z axes)



Can be displayed only on the operation panel (FR-DU07-CNV).



Can be displayed only on the option parameter unit (FR-PU07).



Temperature applicable for a short time, e.g. in transit.



This protective function is not available in the initial status.



This protective function is enabled when FR-A7NC is mounted.



2.9m/s

2

or less for the 160K or higher.

Checking peripheral devices

Peripheral devices

Always install the included peripheral devices. Check the model name of the each peripheral device.

For the 400V class peripheral devices, H is indicated in front of the model name.

FR-HC2-7.5K to 75K, FR-HC2-H7.5K to H220K

Peripheral Device

Model Name

FR-HC2-(H)K

FR-HCL21-(H)K

FR-HCL22-(H)K

FR-HCB2-(H)K

Description

High power factor converter

Filter reactor 1

Filter reactor 2

Outside box

Quantity

1

1

1

1

 Terminal screws are enclosed for FR-HCB2-7.5K, 15K, FR-HCB2-H7.5K to H30K. (M5  6)

FR-HC2-H280K to H560K

Peripheral Device

Model Name

FR-HC2-HK

FR-HCL21-HK

FR-HCL22-HK

FR-HCC2-HK

Model Name of Consisting Parts

FR-HC2-HK

FR-HCL21-HK

FR-HCL22-HK

FR-HCC2-HK

MDA-1

FR-HCR2-HK

FR-HCM2-HK

0.96OHM BKO-CA1996H21

0.96OHM BKO-CA1996H31

1PH 630VA BKO-CA2001H06

S-N400FXYS AC200V 2A2B

S-N600FXYS AC210V 2A2B

SR-N4FX AC210V 4A

TS-807BXC-5P

C152C481H21

C152C423H21

MYQ4Z AC200/220

PYF14T

PYC-A1

M12

50 ZENNEJI

M12

MIGAKI 12

BANE 12

SW-PW-P-NA M5

12

Description

High power factor converter

Filter reactor 1

Filter reactor 2

Filter capacitor

Filter capacitor alarm detector

Inrush current limit resistor (without thermostat)

Inrush current limit resistor (with thermostat)

MC power supply stepdown transformer

(400V-200V)

Inrush current limit MC

Inrush current limit MC

Buffer relay

Terminal block

Terminal block shorting conductor

MC shorting conductor

Mini relay for filter capacitor alarm detector

Mini relay terminal block

Mini relay clip

MC shorting conductor bolt (M12

 50)

MC shorting conductor nut (M12)

MC shorting conductor washer (flat washer)

MC shorting conductor washer (spring washer)

Inrush current limit resistor screw (M5

 12)

1

6

1

1

6

8

1

Quantity

280K 400K 560K

1

1

1

1

1

2

1

1

2

1

3

1

1

3

15

3

1

2

24

24

48

24

54

6

1

1

3

2

15

3

1

2

24

24

48

24

54

6

1

1

3

2

6

7

Compatible inverter for the high power factor converter

Refer to the table below for the compatible inverter capacities when connecting one inverter to a converter. (Other combinations are not applicable.)

: Compatible

: The converter can be used as a common converter or a regenerative converter, but its harmonic suppression effect reduces.

: Not compatible (Not applicable)

Inverter capacity

FR-HC2-7.5K

FR-HC2-15K

FR-HC2-30K

FR-HC2-55K

FR-HC2-75K

FR-HC2-H7.5K

FR-HC2-H15K

FR-HC2-H30K

FR-HC2-H55K

FR-HC2-H75K

2.2K

or lower

3.7K

5.5K

7.5K

11K

15K 18.5K

22K

30K

37K

45K

55K

75K

Inverter capacity

FR-HC2-H110K

45K or lower

55K

75K

90K 110K 132K 160K 185K 200K 220K 250K

 

     

FR-HC2-H160K

FR-HC2-H220K

FR-HC2-H280K

— — — — — —

    

FR-HC2-H400K

FR-HC2-H560K

Inverter capacity

FR-HC2-H280K

FR-HC2-H400K

FR-HC2-H560K

280K 315K 355K 375K 400K 450K 500K 530K 560K

       

    

   

        

Wiring of several inverters to one converter

Up to ten inverters can be connected to one converter. Be sure to use a converter with the capacity higher than the total capacities of inverters. Additionally, the total capacity of the inverters needs to be higher than half the converter capacity.

If the total inverter capacity is less than half the converter capacity, the converter can be used as a common converter or a regenerative converter. However, it's harmonic suppression effect reduces.

(1) Junction terminals or cross wiring are used to connect several inverters, so carefully select the wire gauge. Start adding the inverter capacities from the furthest inverter.

(2) When connecting several inverters, connect starting with the inverter with the highest capacity.

(3) Installation of a fuse, which corresponds with each motor capacity, is recommended for each inverter when connecting several inverters to one converter. Select a fuse according to the motor capacity.

When using a motor, of which capacity is smaller than the inverter capacity by two ranks or more, select the converter

capacity according to the inverter capacity. (Refer to page 24)

(4) Keep the total wiring length within 50m.

 Main circuit wiring example

The following diagram shows a connection example when connecting six inverters in total (FR-A720-30K, 15K, 5.5K, 2.2K,

1.5K, and 0.75K) to FR-HC2-55K.

FR-HC2

-55K

P

N

3)

1)

Junction terminal 1

Fuse

P

2)

N

INV1

A720

30K

Junction terminal 2

4)

INV2

P

N

A720

15K

30kW

Motor

1st inverter

1) Wire gauge between FR-HC2 and the junction terminal 1 is 100mm

2 according to the FR-HC2 capacity.

2) Wire gauge between the junction terminal 1 and the inverter is 60mm 2 because the inverter capacity is 30K.

15kW

5)

Junction terminal 3

6)

P

N

INV3

A720

5.5K

2nd inverter 3) Wire gauge between the junction terminal 1 and junction terminal 2 can be calculated as follows: 15+5.5+2.2+1.5+0.75=24.95K, and 24.95K rounds up to 30K, so the wire gauge is 60mm

2

.

4) The Wire gauge between the junction terminal 2 and the inverter is 22mm

2 because the inverter capacity is 15K.

5.5kW

Motor

7)

Junction terminal 4

8)

P

N

INV4

A720

2.2K

3rd inverter 5) Wire gauge between the junction terminal 2 and junction terminal 3 can be calculated as follows: 5.5+2.2+1.5+0.75=9.95K, and 9.95K rounds up to

11K, so the wire gauge is 14mm

2

.

6) Wire gauge between the junction terminal 3 and the inverter is 14mm

2 because the inverter capacity is 5.5K.

2.2kW

Motor

9)

11)

Junction terminal 5

10)

P

N

INV5

A720

1.5K

Junction terminal 6

12)

INV6

P

N

A720

0.75K

4th inverter 7) Wire gauge between the junction terminal 3 and junction terminal 4 can be calculated as follows: 2.2+1.5+0.75=4.45K, and 4.45 K rounds up to 5.5K, so the wire gauge is 5.5mm

2

.

8) Wire gauge between the junction terminal 4 and the inverter is 2mm

2 because the inverter capacity is 2.2K.

1.5kW

Motor

5th inverter 9) Wire gauge between the junction terminal 4 and junction terminal 5 can be calculated as follows: 1.5+0.75=2.25K, and 2.25K rounds down to

2.2K, so the wire gauge is 2mm

2

.

10) Wire gauge between the junction terminal 5 and the inverter is 2mm 2 because the inverter capacity is 1.5K.

0.75kW

Motor

6th inverter 11) Wire gauge between the junction terminal 5 and junction terminal 6 is

2mm 2 because the inverter capacity is 0.75K.

12) Wire gauge between the junction terminal 6 and the inverter is 2mm

2 because the inverter capacity is 0.75K.

8

Outline dimension drawings

Converter (FR-HC2)

FR-HC2-75K or lower

FR-HC2-H110K or lower

(Dimension drawing example: FR-HC2-7.5K)

2-

φd hole

P.CPY PWR

REGEN DRIVE

PSCLR

3-

φd hole

FR-HC2-H160 to H560K

(Dimension drawing example: FR-HC2-H560K)

FAN

W1

W

D

200V class

Model

FR-HC2-7.5K

FR-HC2-15K

FR-HC2-30K

FR-HC2-55K

FR-HC2-75K

W W1 H H1 D d

220 195 260 245 170 6

250 230 400 380 190 10

325 270 550 530 195 10

370 300 620 595 250 10

465 400 620 595 300 12

W1

400V class

Model

FR-HC2-H7.5K, H15K

FR-HC2-H30K

FR-HC2-H55K

FR-HC2-H75K

FR-HC2-H110K

FR-HC2-H160K, H220K

FR-HC2-H280K

FR-HC2-H400K, H560K

W

W1

W W1 H

220 195 300

H1 D d

285 190 6

325 270 550

370 300 670

325 270 620

465 400 620

530 195 10

645 250 10

595 250 10

595 300 12

498 200 1010 985 380 12

680 300 1010 984 380 12

790 315 1330 1300 440 12

(Unit: mm)

Reactor 1 (FR-HCL21) (Dimension drawing example : FR-HCL21-7.5K)

9

4-d hole

W1

MAX W

200V class

Model

FR-HCL21-15K

FR-HCL21-30K

FR-HCL21-55K

FR-HCL21-75K

W

W1 H D

FR-HCL21-7.5K

132 50

0.5

150 100

162 75

0.5

172 126 107

195 75

0.5

210 150

210 75

0.5

180 200.5

97

240 150

1

D1

86

87

215 215.5 109

+0

-2.5

+0

-2.5

+0

-2.5

+0

-2.5

+0

-2.5

d

400V class

Model

M6 FR-HCL21-H7.5K

M6 FR-HCL21-H15K

M6 FR-HCL21-H30K

M6 FR-HCL21-H55K

M8 FR-HCL21-H75K

FR-HCL21-H110K

FR-HCL21-H160K

FR-HCL21-H220K

 The sizes indicated by W and D are not the sizes of the legs. These indicate the sizes of whole reactors.

FR-HCL21-H280K

FR-HCL21-H400K

FR-HCL21-H560K

D1

MAX D

W

132

162

182

W1 H D

50

0.5

140 105

D1

90

75

0.5

170 128 105

75

0.5

195 145.5

90

+0

-1

+0

-1

+0

-1

d

M6

M6

M6

282.5 255

1.5

245 165 112

1.5

M6

210 75

1

240 150

1

280 150

1

330 170

1

330 170

1

402 250

1

452 300

1

175 210.5 105

230 220 99

295 274.5 150

335 289.5 150

335 321 203

+0

-5

+0

-5

+0

-2.5

+0

-5

+0

-5

M6

M8

M8

M10

M10

460 550 305

10

M10

545 645 355

10

M12

(Unit: mm)

Reactor 2 (FR-HCL22) (Dimension drawing example : FR-HCL22-7.5K)

MAX D

W1

MAX W

400V class

4-d hole

200V class

Model W

W1 H D

D1 d

FR-HCL22-7.5K

237.5 210

1.5

230 140 110

1.5

M6

FR-HCL22-15K

FR-HCL22-30K

FR-HCL22-55K

257.5 230

1.5

260 165 120

1.5

M6

342.5 310

1.5

305 180 130

1.5

M8

432.5 270

1.5

380 280 240

1.5

M8

FR-HCL22-75K 474 430

2

460 280 128

2

Model

FR-HCL22-H7.5K

FR-HCL22-H15K

FR-HCL22-H30K

FR-HCL22-H55K

M12 FR-HCL22-H75K

 The sizes indicated by W and D are not the sizes of the legs. These indicate the sizes of whole reactors.

FR-HCL22-H110K

FR-HCL22-H160K

FR-HCL22-H220K

FR-HCL22-H280K

FR-HCL22-H400K

FR-HCL22-H560K

D1

W

W1 H D

D1 d

237.5 210

1.5

220 140 110

1.5

M6

257.5 230

1.5

260 165 120

1.5

M6

342.5 310

1.5

300 180 130

1.5

M8

392.5 360

1.5

365 200 130

1.5

M8

430 265

1.5

395 280 200

1.5

M10

500 350

1.5

440 370 260

1.5

M10

560 400

1.5

520 430 290

1.5

M12

620 400

1.5

620 480 320

1.5

M12

690 500

2

700 560 350

2

M12

632 400

2

632 400

2

675 705 435

10

M12

720 745 475

10

M12

(Unit: mm)

Outside box (FR-HCB2)

FR-HCB2-55K or lower

FR-HCB2-H75K or lower

(Dimension drawing example : FR-HCB2-7.5K)

FR-HCB2-75K

FR-HCB2-H110K, H160K, H220K

(Dimension drawing example : FR-HCB2-75K)

2-A hole 3-A hole

D

W1

W

Type A hole dimensions

7

W1 W1

W

13

200V class

Model

FR-HCB2-7.5K, 15K

FR-HCB2-30K, 55K

FR-HCB2-75K

W W1 H H1 D

190 130 320 305 165

270 200 450 435 203

400 175 450 428 250

400V class

Model

FR-HCB2-H7.5K to H30K

FR-HCB2-H55K

FR-HCB2-H75K

FR-HCB2-H110K

FR-HCB2-H160K, H220K

 Peripheral devices are separately provided for the FR-HC2-H280K or higher (not provided as the outside box).

W W1 H H1 D

190 130 320 305 165

270 200 450 435 203

300 250 350 328 250

350 125 450 428 380

400 175 450 428 440

(Unit: mm)

10

Filter capacitor (FR-HCC2)

FR-HCC2-H280K

300

90 5 90 5

Enlarged drawing of the installation foot

(Recommended bolt size: M12)

370 3

394 3

R7.5

FR-HCC2-H400K

400 3

365 3

52.5

102.5

300

90 5 90 5

2-15 20 oval-shaped hole

Enlarged drawing of the installation foot (Recommended bolt size: M12)

R7.5

370 3

394 3

M12 bolt

2-15 20 oval-shaped hole

365 3

400 3

370 3

394 3

FR-HCC2-H560K

500 3

140 5

400

140 5

Earth (ground) terminal

(M8 bolt)

(25)

80 2

(Unit: mm)

Mass: 17kg

370 3

Earth (ground)

terminal (M8 bolt)

394 3 80 2

Installation foot

Filter capacitor alarm detector (MDA-1)

(FR-HCC2-H400K, H560K)

150 3

Enlarged drawing of the installation foot

(Recommended bolt size: M12)

R7.5

M12 bolt

470 2

494 3 arm

Reference value as some margins are taken for the arm

Case

(Unit: mm)

Mass: 15kg

Plunger

2-15 20 oval-shaped hole Earth (ground)

terminal

(M8 bolt)

4

1

3

2

Micro switch

Screw(M4)

Connector

Switch terminal and contact symbol of the detector

NC

NO

NC

NO

NO4

NC1

NO3

NC2

Circuit diagram

4-M4 5.6

Screw with toothed washer

40 2

15 1

53 2

65MAX

(Unit: mm)

Mass: 0.3kg

470 2

494 3

FR-HCM2

Contactor (S-N600FXYS AC210V 2A2B)

(FR-HCM2-H280K)

M16 screw

(with washer and spring washer)

13.5

20

263

250

80 2

(Unit: mm)

Mass: 21kg

156

Contactor (S-N400FXYS AC200V 2A2B)

(FR-HCM2-H400K, H560K)

(4-M8 hole)

145

(60)

M4 screw (self-up)

4-M8 hole

136

11

M4 screw

(self-up)

Installation hole for 4-M10 screw

80

70

40

12 hole 10 235

10.5

290

MC power supply stepdown transformer

(BKO-CA2001H06) (FR-HCM2-H280K to H560K)

(Unit: mm)

Mass: 24kg

Terminal block for tap switching

M4 screw

Enlarged drawing of installation hole

7 18 or more

Input side terminal block

M4 screw

R/L1

Output side terminal block

M4 screw

S/L2

V3 V3 V2 V2 V1 V1

R5/L15 S5/L25

Output side

5 2

100 1

E

Varnish removed area

8 1

Input side

M12 screw

(with washer and spring washer)

55

30

163

M4 screw

(self-up)

Terminal block

(TS-807BXC-5P) (FR-HCM2-H280K)

128

116

1

3 17.5

2.5

20

X

100 1

153 2

4- 8 open hole for M6 bolt

(30)

81 2

115 2

Within 180 (Unit: mm)

Mass: 10kg

X

37

12

26

3.2

195

(Unit: mm)

Mass: 9.5kg

Sectional view of X - X

(Unit: mm)

Mass: 0.3kg

Terminal block shorting conductor (C152C481H21)

(FR-HCM2-H280K)

(8)

5-oval 7-8

8 80 0.4

60 0.4

40 0.4

20 0.3

(4) 16 (4)

(2.3) 2.8

A

10-C2

MC shorting conductor (C152C423H21)

(FR-HCM2-H400K, H560K)

4.5

2 M4 hole

35 (Installation size)

A2 A1

(self-up)

A

96

Sectional view of A - A

7.9

30

28 40

2-C2

(Unit: mm)

Mass: 0.1kg

Buffer relay for driving MCs (SR-N4FX AC210V 4A)

(FR-HCM2-H280K to H560K)

59

13 23 33 43

IEC

35mm width rail

14 24 34 44

10

43

8

5

Mini relay terminal block (PYF14T)

(FR-HCM2-H400K, H560K)

2-

φ4.2 5 hole

MAX 33

7 0.2

30

23.5

11.5

11

78

10

3.5

(When rail width is 7.5mm)

(Unit: mm)

Mass: 0.3kg

4- 14 hole (M12)

57.5

65

180

(57.5)

9-M5 screw for installation of inrush resistor

8

(Unit: mm)

Mass: 1.6kg

Mini relay for filter capacitor alarm detector

(MYQ4Z AC200/220) (FR-HCM2-H400K, H560K)

2.6

21.5 or less

14-

φ1.2 2.2 oval hole

6.4

28 or less

35.5 or less 21.5 or less

28 or less

(Unit: mm)

Mass: 35kg

14-M3.5 8

10

17.4

Inrush current limit resistor (FR-HCR2)

With thermostat (BKO-CA1996H31)

(FR-HCR2-H280K to H560K)

(Unit: mm)

Mass: 53kg

Without thermostat (BKO-CA1996H21)

(FR-HCR2-H280K to H560K)

2-(17)

Board thickness2.5

215 2

200 1.2

175 2

2-500 10

325 15

2-6 1

2-6 1

60 1.5

(30)

(Unit: mm)

Mass: 0.8kg

Board thickness2.5

2-(17)

215 2

200 1.2

175 2

2-500 10

2-6 1

60 1.5

(30)

(Unit: mm)

Mass: 0.8kg

12

13

Protruding the heatsink

When installing a converter inside an enclosure, the heat generated in the enclosure can be greatly reduced by protruding the heatsink of the converter.

This installation method is recommended when downsizing the enclosure and such.

When using a heatsink protrusion attachment (FR-A7CN)

For the FR-HC2-7.5K to 75K and FR-HC2-H7.5K to H110K, a heatsink can be protruded outside the enclosure using a heatsink protrusion attachment (FR-A7CN). (For the 160K or higher, the attachment is not necessary when the heatsink is to be protruded.)

Refer to the table below for the applicable heatsink protrusion attachments.

(For the details of FR-A7CN, refer to the Instruction Manual of the option FR-A7CN.)

(1) Heatsink protrusion attachments

Model Name

FR-A7CN02

FR-A7CN03

FR-A7CN04

FR-A7CN05

FR-A7CN09

Applicable converter

FR-HC2-7.5K

FR-HC2-H7.5K, H15K

FR-HC2-15K

FR-HC2-30K

FR-HC2-H30K

FR-HC2-75K

FR-HC2-H110K

 For a combination other than above, please contact your sales representative.

(2) Drawing after attachment installation (when used with the FR-A7CN)

S screw

W

Attachment

D2

Panel

Model W H H1 H2

FR-A7CN02

245 408.5

260 116.5

FR-A7CN03

245 448.5

300 116.5

554 400 122

FR-A7CN04

280

FR-A7CN05

338

FR-A7CN09

510

645

725

480

535

130

150

D

Panel

D1

Attachment

(3) Panel cut dimension drawing (when used with the FR-A7CN)

FR-A7CN02 FR-A7CN03

175 175

FR-A7CN04

H3

32

32

32

35

40

D D1

86

89

88.5

89.4

106.4

110.6

123.5

71.5

116.5

183.5

D2

12.3

20

45.3

105

S

M5

M5

M8

M8

45 M10

(Unit:mm)

200

FR-A7CN05

6-M5 screw

195

212

298

279

6-M5 screw

195

212

FR-A7CN09

470

440

244

6-M8 screw

230

260

4-M8 screw

270

330

4-M10 screw

400

477

(Unit:mm)

Heatsink protrusion for 160K or higher

(1) Enclosure cut

Cut the enclosure according to the capacity of the converter.

 FR-HC2-H160K, H220K  FR-HC2-H280K

6-M10 screw

200

484

200

300

662

300

6-M10 screw

 FR-HC2-H400K, H560K

771

315 315

6-M10 screw

Hole

Hole

Hole

(2) Moving and removing the back installation frames

FR-HC2-H160K to H280K

One installation frame is attached to each of the upper and lower parts of the converter. Change the position of the rear side installation frame on the upper and lower sides of the converter to the front side as shown on the right. When changing the installation frames, make sure that the installation orientation is correct.

Shift

Upper installation frame

FR-HC2-H400K, H560K

The converter has installation frames: two on the top and the two on the bottom. As shown on the right, remove the back installation frames on the top and bottom of the converter.

Removal

Upper installation frame (rear side)

Shift

Lower installation frame

(3) Installing the converter to the enclosure

Removal

Lower installation frame (rear side)

Protrude the heatsink of the converter from the installation enclosure, and secure the converter using the top and bottom installation frames.

Inside the enclosure

Enclosure

Exhausted air

 The enclosure enclosing FR-HC2-H160K and higher has a finger guard on its back. The thickness of the enclosure should be less than 10mm (

), and do not place anything around the finger guard to avoid contact with the finger guard.

Enclosure

Converter

Installation frame

10

140

Finger guard

Cooling wind

D1

Dimension of the outside of the enclosure

Converter model

FR-HC2-H160K, H220K

FR-HC2-H280K to H560K

D1

185

184

NOTE

• Protruding area contains a cooling fan, so it cannot be used in the environment where water drops, oil mist, dust and other substances exist.

• Foreign substances such as screws and dust must be prevented to enter in the converter or the cooling fan section.

14

Terminal connection diagram (when using with the FR-A700 series)

15

Before making connections, check the cable size and connection method to each device in the Instruction Manual.

FR-HC2-7.5K to 75K, FR-HC2-H7.5K to H220K

Power supply

MCCB MC

Outside box (FR-HCB2)

(1)

Reactor1

(FR-HCL21)

R2/

L12

R/

L1

S/

L2

T/

L3

R2/

L12

S2/

L22

T2/

L32

S2/

L22

T2/

L32





Limit resistor

Filter capactors



MC power supply stepdown transformer

Reactor2

(FR-HCL22)

Converter

(FR-HC2)

Auxiliary contact

(NO contact)

MC1

R3/

L13

S3/

L23

T3/

L33

Limit MC1



88S

R3/

L13

R4/

L14

S3/

L23

S4/

L24

T3/

L33

T4/

L34

(2)

ROH1

Inrush current limit resistor overheat protection

ROH2

Contact input common

88R

MC connection terminal

MC connection terminal

R4/L14

S4/L24



T4/L34

ROH

SD



Fuses

P/+

N/-

RDY

RSO

C

B

A

Relay output

(fault output)

Inverter run enable signal

Converter reset

88R

88S

CVO

During converter run

Y1

Y2

Multi-purpose output 1

Multi-purpose output 2

Reset RES

SE

Overheat detection thermostat for the limit resistor (NC contact)

Converter stop

Monitor switching

SOF

X1

Inverter

R/L1

S/L2

T/L3



U

V

W

R1/L11

S1/L21

P/+

N/-



X10



RES

SD



Open collector output common

Y3

Multi - purpose output 3

SE2

Open collector output common

Motor

Earth

(Ground)

Monitor switching X2

FM

+ -

Contact input common

24VDC power supply

(External transistor common)

SD

PC

PU connector

SD

Indicator

AM

R/L1

S/L2

T/L3



R1/L11

S1/L21

5



(+)

Analog signal output

(0 to 10VDC)

(-)

FR-HC2-H280K

Power

Supply

MCCB MC

(1)

Reactor 1

(FR-HCL21)

R/

L1

S/

L2

T/

L3

R2/

L12

S2/

L22

T2/

L32



Limit resistors

Filter capacitors

(FR-HCC2)

Auxiliary contact for limit MCs (NO contact)

MC

Reactor 2

(FR-HCL22)

R3/

L13

R4/

L14

S3/

L23

S4/

L24

T3/

L33

T4/

L34



Limit resistor

(2)

(with a thermostat) (NC contact)

MC

Limit

MC

Converter

(FR-HC2)

R4/L14

S4/L24



T4/L34

ROH

Inrush current limit resistor overheat protection

Contact input common

SD

P/+

N/-

RDY

RSO

MC power supply stepdown transformer

Buffer relay for driving MC

C

B

A



Fuses

Relay output

(Fault output)

Inverter

R/L1

S/L2



T/L3

R1/L11

S1/L21

U

V

W

P/+

N/-



MC

Bu1

MC connection terminal

MC connection terminal

Converter reset

Converter stop

Monitor switching

Monitor switching

Contact input common

24VDC power supply

(External transistor common)

88R

88S

RES

SOF

X1

X2

SD

PC

R/L1

S/L2

T/L3



R1/L11

S1/L21

PU connector

CVO

Y1

Y2

SE

Inverter run enable signal

Converter reset

During converter run

Multi-purpose output 1

Multi-purpose output 2

Open collector output common

Y3

X10

RES

SD



Multi - purpose output 3



SE2

FM

+

-

SD

AM

5



Indicator

(+)

Analog signal output

(0 to 10VDC)

(-)

Motor

Earth

(Ground)



Do not connect anything to the inverter power input terminals R/L1, S/L2 and T/L3. Incorrect connection will damage the inverter. Connecting opposite polarity of terminals P and N will damage the converter and the inverter.



Use input terminal function selection to assign the terminal used for X10 signal. (Refer to the Inverter Instruction Manual.)



The power phases of the terminals R4/L14, S4/L24, and T4/L34 and the terminals R/L1, S/L2, and T/L3 must be matched.



Do not insert MCCB between terminals P and N (P and P, N and N).



Always connect the terminal R/L1, S/L2, T/L3 of the converter to the power supply. If the inverter is operated without connecting the terminals to the power supply, the converter will be damaged.



Do not insert MCCB or MC between (1) (terminal R/L1, S/L2, and T/L3 input of the Reactor 1) and (2) (terminal R4/L14, S4/L24, and T4/L34 input of the converter) of the above diagram. It will not operate properly.



Securely perform grounding (earthing) by using the grounding (earthing) terminal.



Installation of a fuse is recommended. (Refer to page 24)



The MC power supply stepdown transformer is only equipped in the 400V class models.

FR-HC2-H400K, H560K

Power

Supply

MCCB

MC

MC

MC

(1)

Reactor 1

(FR-HCL21)

R/

L1

R2/

L12

S/

L2

S2/

L22

T/

L3

T2/



L32

MC power supply stepdown transformer

Limit resistor

Filter capacitors



(FR-HCC2)

Filter capacitor alarm detector

(NC contact)



MC

Bu2

Buffer relay for filter capacitor alarm detectors

Limit MC

MC1

MC2

MC3

MC1

MC2

MC3

MC

Bu1

Reactor 2

(FR-HCL22)

R3/

R4/

L13

L14

S3/

L23

S4/

L24

(2)

T3/ T4/

L33



L34

Limit resistor (with thermostat)

(NC contact) 3

Mini relay for filter capacitor alarm detector

MC1 MC2 MC3

Auxiliary contact for limit MCs (NO contact) 3

MC

Small

Reset

Converter stop

Monitor switching

Monitor switching

Contact input common

24VDC power supply

(External transistor common)

Buffer relay for driving MCs

Converter

(FR-HC2)

Inverter

R4/L14

S4/L24

T4/L34





Fuses

R/L1

S/L2

T/L3



R1/L11

S1/L21

88S

R/L1

S/L2

T/L3



R1/L11

S1/L21



P/+

N/-

AM

5

P/+

N/-



Inrush current limit resistor overheat protection

RDY

ROH

RSO

CVO

SD

Contact input common

Y1

Y2

RES

SOF

SE

C

B

A

Relay output

(fault output)

Inverter run enable signal

Converter reset

During converter run

Multi-purpose output 1

Multi-purpose output 2

X1

X2

SD

PC

88R

PU connector

X10



RES

SD

Open collector output common

Y3

Multi-purpose output 3

SE2 Open collector output common

+ -

FM

SD

Indicator



(+)

Analog signal output

(0 to 10VDC)

(-)

U

V

W

Motor

Earth

(Ground)



Do not connect anything to the inverter power input terminals R/L1, S/L2, and T/L3. Incorrect connection will damage the inverter. Connecting opposite polarity of terminals P and N will damage the converter and the inverter.



Use input terminal function selection to assign the terminal used for X10 signal. (Refer to the Inverter Instruction Manual.)



The power phases of the terminals R4/L14, S4/L24, and T4/L34 and the terminals R/L1, S/L2, and T/L3 must be matched.



Do not insert MCCB between terminals P/+ and N/- (P and P, N and N).



Always connect the terminal R, S, and T of the converter to the power supply. If the inverter is operated without connecting the terminals to the power supply, the converter will be damaged.



Do not insert MCCB or MC between (1) (terminal R/L1, S/L2, T/L3 input of the converter) and (2) (terminal R4/L14, S4/L24, T4/L34 input of the converter) of the above diagram. It will not operate properly (except for the inrush current limit MC).



Securely perform grounding (earthing) by using the grounding (earthing) terminal.



Installation of a fuse is recommended. (Refer to page 24)



The number of filter capacitors and filter capacitor alarm detectors differs by the capacity. Connect two sets of filter capacitors and filter capacitor alarm detectors for H400K, and connect three sets for H560K.

NOTE

• When connecting the converter to the inverter, match the control logic (sink logic (initial setting)/source logic). The converter does not operate properly if the control logic is different.

(Refer to Instruction Manual for the switching of the control logic. Refer to Inverter Instruction Manual for the switching of the control logic of the inverter.)

• Keep the wiring length between terminals as short as possible.

• When sudden large distortion or depression of power supply occurs, reactor may generate abnormal acoustic noise.

This acoustic noise is caused by the power supply fault and not by the damage of the converter.

• Do not connect the DC reactor to the inverter when using a high power factor converter.

• When using a sine wave filter with FR-HC2 (75K or higher), select MT-BSL-HC as a reactor for the sine wave filter.

16

17

Terminal specifications

Type

Terminal

Symbol

R/L1, S/L2,

T/L3

R4/L14,

S4/L24,

T4/L34

R1/L11,

S1/L21

P/+, N/-

RES

SOF

ROH

X1

X2

SD

PC

RDY

CVO

Y1

Y2

RSO

SE

FM

AM

5

A, B, C

88R, 88S

Terminal Name Description

Power input

Power input

These terminals are used to detect power phase and power voltage, and to input control power. Connect them to the commercial power supply. If the inverter is operated without connecting them to the commercial power supply, the converter will be damaged.

Connect them to the reactor 2.

The voltage phases of the terminals R4/L14, S4/L24 and T4/L34 and the terminals R/L1, S/L2 and T/L3 must be matched. If these terminals are not connected correctly, the converter does not operate properly.

Power supply for control circuit

These terminals are connected to the phase detection terminals R/L1 and S/L2 in the initial status. To retain the fault display and fault output, remove the jumpers (cables) and apply external power to these terminals.

Inverter connection Connect them to the inverter terminals P/+ and N/-.

Earth (Ground) For earthing (grounding) the converter chassis. It must be earthed (grounded).

Reset

Converter stop

Inrush current limit resistor overheat protection

Monitor switching

Used to reset fault output provided when a fault occurs.

Turn ON the RES signal for more than 0.1s, then turn it OFF.

Turning ON the SOF signal stops the converter.

RDY signal turns OFF, limit MC turns ON

200V class

7.5K to 75K

400V class

7.5K to 220K

Connect this terminal to terminal ROH1 of the outside box (FR-

HCB2). The ROH signal is input to stop the converter operation when the limit resistor may overheat.

400V class

280K to 560K

An auxiliary contact (NO contact) of a limit resistor MC, a limit resistor (with thermostat) (NC contact), and a filter capacitor alarm detector (NC contact, 400K and 560K) are connected to stop the converter operation when overheating of the limit resistor becomes a concern and when a filter capacitor is faulty.

FM and AM output or PU monitor display can be switched by a combination of ON/

OFF of X1 signal and X2 signal.

Contact input common

(sink) (initial setting)

Common terminal for contact input terminal (sink logic) and terminal FM.

External transistor common (source)

24VDC power supply common

External transistor common

(sink) (initial setting)

When connecting the transistor output (open collector output), such as a programmable controller in source logic, connect the external power supply common for transistor output to this terminal to prevent a malfunction caused by undesirable currents.

Common output terminal for 24VDC 0.1A power supply (terminal PC).

Isolated from terminals 5, SE and SE2.

When connecting the transistor output (open collector output), such as a programmable controller in sink logic, connect the external power supply common for transistor output to this terminal to prevent a malfunction caused by undesirable currents.

External transistor common

(sink) (initial setting)

24VDC power supply

Inverter run enable signal

Turns ON at alarm occurrence and reset (RES) signal input.

Connect this terminal to the terminal MRS or a terminal where the X10 signal is assigned to in the inverter.

Turning ON RDY signal stops the inverter.

RYD signal OFF: Inverter can run

RYD signal ON: Inverter cannot run

During converter run

Multi-purpose output 1

Multi-purpose output 2

Converter reset

Open collector output common

Common terminal for contact input terminal (source logic)

Can be used as 24VDC 0.1A power supply.

Signal is output during harmonic suppression.

Output item: OL signal (overload alarm) (initial setting)

Turns ON at an occurrence of overcurrent (150% overload or more).

Output item: PHS signal (power phase detection) (initial setting)

Turns ON when power phase detection is locked.

Turns ON at a converter reset (RES-ON).

Connect this terminal to the inverter terminal of which RES signal is assigned to.

Reset the connected inverter by turning ON the RSO.

Common terminal for the terminals RDY, CVO, OL, Y1, Y2

Connect it to the inverter terminal SD (sink logic).

For meter

Analog signal output

Input resistance : 4.7k

Voltage at opening: 21 to

27VDC

Contacts at short-circuited: 4 to 6mADC

100mA is ON.)

Power supply voltage range 19.2 to 28.8VDC

Permissible load current

Permissible load 24VDC

(27VDC maximum) 0.1A

(A voltage drop is 2.8V maximum when the signal

Select one monitor item from multiple monitor items such as input current and bus voltage. Not output during a converter reset.

The output signal is proportional to the magnitude of the corresponding monitoring item.

Monitor item can be switched by ON/OFF of terminals X1 and X2.

Permissible load current

2mA

At rated input current of the converter: 1440 pulses/s

Output signal 0 to 10VDC

Permissible load current

1mA

Load impedance 10k

Analog signal output common

Common terminal for analog signal output

Fault contact

1 changeover contact output indicates that the converter's protective function is activated and the output is stopped.

Fault: No conduction across B and C (Conduction across A and C),

Normal: Conduction across B and C (No conduction across A and C)

Contact capacity AC230V

0.3A

(Power factor=0.4)

30VDC output 0.3A

MC connection terminal

Controls the MC for the limit resistor.

Type

Terminal

Symbol

Terminal Name

Y3

Multi-purpose output 3

Description

Output item: Y5 signal (output voltage match) (initial setting)

Turns ON when the detected bus voltage equals to the commanded bus voltage.

P ermissible load: 24VDC

0.1A

SE2

Open collector output common

Common terminal for terminal Y3

— PU connector

With the PU connector, communication can be made through RS-485. (for connection on a 1:1 basis only)

 Conforming standard : EIA-485 (RS-485)

 Transmission format : Multidrop

 Communication speed : 4800 to 38400bps

 Overall length : 500m

NOTE

If the inverter is operated without connecting the terminals R/L1, S/L2, T/L3 of the converter to the power supply, the converter will be damaged.

indicates that terminal functions can be selected using Pr. 3 to Pr. 7 (input terminal function selection) and Pr. 11 to Pr.

16 (output terminal function selection).

18

Parameter list

19

REMARKS

 indicates simple mode parameters.

The parameters shaded in

Parameter write selection.

allow their settings to be changed during operation even if "1" (write disabled) is set to Pr. 77

Parameter

44

45

46

47

48

49

 13

 14

 15

16

 22

23

24

29

30

31

32

25

26

27

28

33

34

35

36

10

11

12

8

9

6

7

 0

 1

 2

3

4

5

 50

 51

 52

 53

 54

 55

 56

 57

Name Range

Simple mode selection

Maximum power supply frequency

Minimum power supply frequency

ROH terminal function selection

SOF terminal function selection

X1 terminal function selection

X2 terminal function selection

RES terminal function selection

SOF input selection

OH input selection

RDY signal logic selection

RSO terminal function selection

CVO terminal function selection

0, 9999

60Hz (Read only)

50Hz (Read only)

0 to 5, 9999

0, 1, 2

0, 1

0, 100

Y1 terminal function selection

Y2 terminal function selection

Y3 terminal function selection

ABC terminal function selection

Current limit level

Current limit level (regenerative)

OL signal output timer

0 to 16, 98, 99, 100 to 116,

198, 199, 9999

0 to 220%

0 to 220%, 9999

0 to 25s, 9999

Input current detection level

Input current detection signal delay time

0 to 220%

0 to 10s

Input current detection signal retention time 0 to 10s, 9999

Input current detection operation selection 0, 1

Zero current detection level

Zero current detection time

Life alarm status display

Inrush current limit circuit life display

0 to 220%

0 to 1s

0 to 15 (Read only)

0 to 100% (Read only)

Control circuit capacitor life display

Maintenance timer

Maintenance timer alarm output set time

Cooling fan operation selection

0 to 100% (Read only)

0 (1 to 9998)

0 to 9998, 9999

0, 1

Instantaneous power failure detection signal clear

AM output filter

Watt-hour meter clear

0, 9999

0 to 5s

0, 10, 9999

Energization time carrying-over times Read only

Cumulative power monitor digit shifted times 0 to 4, 9999

Power supply frequency monitoring reference

45Hz to 65Hz

AM terminal function selection

1 to 3, 5, 6, 7, 21,

1111 to 4444

Input power monitoring reference

DU/PU main display data selection

Input voltage monitoring reference

FM terminal function selection

Bus voltage monitoring reference

Current monitoring reference

Restart selection

0 to 100kW/0 to 3600kW

*

0, 5 to 10, 25,

1111 to 4444

0 to 500V

1 to 3, 5, 6, 7, 21,

1111 to 4444

0 to 1000V

0 to 500A/0 to 3600A

*

0, 9999

Increments Initial value

1

0.01s

1

1

1

0.01Hz

1

1

1

1

0.1%

0.1%

0.1s

0.1%

0.1s

0.1s

1

0.1%

0.01s

1

1%

1%

1

1

1

1

1

1

1

1

1

1

1

1

1

1

9999

0.01s

9999

0

9999

60Hz

3

4

5

99

150%

9999

0s

150%

0s

0.1s

0

5%

0.5s

0

100%

100%

0

9999

1

100

1

2

0

0

2

3

0

60Hz

50Hz

5

0

1

Customer setting

1

0.01kW/

0.1kW



1

0.1V

1234

Rated power

1234

220V/440V



1 1234

0.1V

340V/680V



0.01A/0.1A



Rated current

1 9999

Parameter Name Range

58

59

61

65

67

68

69

Free parameter 1

Free parameter 2

Key lock operation selection

Retry selection

Number of retries at fault occurrence

Retry waiting time

Retry count display erase

Reset selection/disconnected PU detection/

0 to 9999

0 to 9999

0, 10

0, 1, 2, 3, 4

0 to 10, 101 to 110

0.1 to 360s

0

75

 77

80

81

82

83

117

118

119

PU stop selection

Parameter write selection

Voltage control proportional gain

Voltage control integral gain

Current control proportional gain

Current control integral gain

PU communication station number

PU communication speed

0 to 3, 14 to 17

1, 2

0 to 1000%

0 to 1000%

0 to 200%

0 to 200%

0 to 31

48, 96, 192, 384

0, 1, 10, 11

120

121

123

124

 145

168

169

269

342

500



PU communication stop bit length

PU communication parity check

Number of PU communication retries

PU communication waiting time setting

PU communication CR/LF selection

PU display language selection

0, 1, 2

0 to 10, 9999

0 to 150ms, 9999

0, 1, 2

0 to 7

Parameter for manufacturer setting. Do not set.

501



Communication EEPROM write selection 0, 1

Communication error execution waiting time 0 to 999.8s

Communication error occurrence count display

0

502



Stop mode selection at communication error 0, 3

542

Communication station number (CC-Link)

, 

543

Baud rate (CC-Link)

, , 

544

CC-Link extended setting



C0(900)



FM terminal calibration

C1(901)

989

990

991

Pr.CL

ALLC

Er.CL

PCPY



AM terminal calibration

Parameter copy alarm release

PU buzzer control

PU contrast adjustment

Parameter clear

All parameter clear

Fault history clear

Parameter copy

1 to 64

0 to 4

0, 1, 12

10, 100

0, 1

0 to 63

0, 1

0, 1

0, 1

0, 1, 2, 3

Increments

1

1

1

1

1

0.1s

1

1

1%

1

1

1

1

1%

1%

1%

1

1

1ms

1

1

1

0.1s

1

1

1

1

1

1

1

1

1

1

1

1

Initial value



Differ according to capacities. (55K or lower/75K or higher)



Differs according to the voltage class. (200V class/400V class)



Parameters which can be set when the plug-in option (FR-A7NC) is mounted.



The setting is reflected after converter reset or at the next power-ON.



"L.ERR" LED on FR-A7NC flickers when a setting is changed. If the converter is reset, the setting is reflected and LED turns off.



The parameter number in parentheses is the one for use with the parameter unit (FR-PU07).

0

0s

0

0

1

9999

9999

0

0

0

1s

0

14

2

100%

100%

100%

100%

0

192

1

2

1

9999

1

0

0

0

10/100



1

58

0

0

0

0

Customer setting

20

Protective functions

21

When a fault occurs in the converter, the protective function activates to trip the converter, and the PU display automatically changes to one of the following fault or alarm indications.

Operation Panel Indication

E — — —

Faults history

Name

Error

message



HOLD

Er1 rE1 to 4

Operation panel lock

Parameter write error

Copy operation fault

Warning



Alarm



Fault



E.THT

E.FIN

E.IPF

E.UVT

E.ILF

E.OHT

E. 2

E. 3

Err.

OL

PS

TH

MT

CP

SL

FN

E.OC2

E.OV2

E.OP3

E.PE

E.PE2

E.PUE

E.RET

E. 6

E. 7

CPU

Error

Overload signal detection

PU stop

Electronic thermal relay pre-alarm

Maintenance signal output



Parameter copy

Power supply not detected

Fan fault

Overcurrent trip

Overvoltage trip

Converter overload trip (electronic thermal relay function)



Fin overheat

Instantaneous power failure

Undervoltage

Input phase loss

External thermal relay operation



HC2 dedicated board disconnection

Option fault

Communication option fault

Parameter storage device fault (control circuit board)

Parameter storage device fault (main circuit board)

PU disconnection



Retry count excess



CPU fault

E. 8

E. 9

Input power supply fault 1

Input power supply fault 2

E.CTE

E.P24

E.CDO

E.IOH

Operation panel power supply short circuit, RS-485 terminal power supply short circuit

24VDC power output short circuit

Input current detection value exceeded



Inrush current limit circuit fault

E. 13

Internal circuit fault



Resetting the converter initializes the cumulative value of the internal thermal relay.



The error message shows an operational error. The converter does not trip.



Warnings are messages given before faults occur. The converter does not trip.



Alarms warn the operator of failures with output signals. The converter does not trip.



When faults occur, the protective functions are activated to trip the converter and output the fault signals.



Assign the OH signal to one of Pr.3 to Pr.7 (Input terminal function selection) to enable the external thermal relay operation.



This protective function is not available in the initial status.

Option and peripheral devices

Option List

Name Type Applications, Specifications, etc.

Applicable converter

CC-Link communication FR-A7NC

Converter operation, monitoring, and parameter setting can be commanded from a programmable controller.

Shared among all models

Parameter unit

(8 languages)

Parameter unit with battery pack

Parameter unit connection cable

Operation panel connection connector

Heatsink protrusion attachment

Radio noise filter

Line noise filter

FR-PU07

FR-PU07BB

FR-CB20

FR-ADP

FR-A7CN

02 to 05, 09

FR-BIF(H)

FR-BSF01/

FR-BLF

Interactive parameter unit with LCD display

Parameter unit enables parameter setting without supplying power to the converter.

Cable for connection of operation panel or parameter unit

indicates a cable length. (1m, 3m, 5m)

Connector to connect the operation panel (FR-DU07-CNV) and connection cable

Attachment for protruding the converter heatsink at the back of the

enclosure. Refer to page 13 for the enclosure cut dimensions.

For radio noise reduction (connect to the input side)

For line noise reduction

Shared among all models

Shared among all models

Shared among all models

Shared among all models

According to capacities

Shared among all models

Shared among all models

Peripheral devices/cable size list

cable size



 200V class

Model

7.5K

15K

30K

55K

75K

FR-HC2-

R4/L14, S4/L24,

T4/L34

P/+, N/-



5.5

8

22

60

100

100

14

38

100

100

FR-HCB2-

R2/L12, S2/L22, T2/L32

R3/L13, S3/L23, T3/L33

8

22

60

125

100

FR-HCL21-

R/L1, S/L2, T/L3

R2/L12, S2/L22, T2/L32

8

22

60

125

100

FR-HCL22-

R3/L13, S3/L23, T3/L33

R4/L14, S4/L24, T4/L34

8

22

60

125

100

H7.5K

H15K

H30K

H55K

H75K

H110K

H160K

H220K

H280K

H400K

H560K

 400V class

Model

FR-HC2-

R4/L14, S4/L24,

T4/L34

P/+, N/-



2 3.5

5.5

22

60

38

60

100

150

200

2

200

2

250

5.5

14

38

38

60

125

2

100

2

125

2

200

3

250

FR-HCB2/FR-HCC2-

R2/L12, S2/L22, T2/L32

R3/L13, S3/L23, T3/L33

38

60

100

150

3.5

5.5

22

60

60

60

38

FR-HCL21-

R/L1, S/L2, T/L3

R2/L12, S2/L22, T2/L32

3.5

5.5

22

60

38

60

100

150

200

2

200

2

250

FR-HCL22-

R3/L13, S3/L23, T3/L33

R4/L14, S4/L24, T4/L34

3.5

5.5

22

60

38

60

100

150

200

2

200

2

250



For the 55K or lower, the cable size is that of the cable (HIV cable (600V class 2 vinyl-insulated cable) etc.) with continuous maximum permissible temperature of 75

C. It assumes that the surrounding air temperature is 50C or less and the wiring distance is 20m or less.

For the 75K or higher, the recommended cable size is that of the cable (LMFC (heat resistant flexible cross-linked polyethylene insulated cable) etc.) with continuous maximum permissible temperature of 90

C. It assumes that the surrounding air temperature is 50C or less and wiring is performed in an enclosure.



If a cable thinner than the recommended cable size is used, it may not be protected by the DC fuse. (Refer to page 24 for the fuse selection.)

22

23

Circuit breakers and magnetic contactors

Check the model of the converter and select peripheral devices according to the capacity. Refer to the table below to prepare appropriate peripheral devices.

 200V class

Converter Model

FR-HC2-7.5K

FR-HC2-15K

FR-HC2-30K

FR-HC2-55K

FR-HC2-75K

Moulded Case Circuit Breaker (MCCB)



or Earth Leakage Circuit Breaker (ELB)



(NF, NV type)

50A

75A

150A

300A

350A

Magnetic

Contactor (MC)



S-N25

S-N50

S-N80

S-N180

S-N300

 400V class

Converter Model

FR-HC2-H7.5K

FR-HC2-H15K

FR-HC2-H30K

FR-HC2-H55K

FR-HC2-H75K

FR-HC2-H110K

FR-HC2-H160K

FR-HC2-H220K

FR-HC2-H280K

FR-HC2-H400K

FR-HC2-H560K

Moulded Case Circuit Breaker (MCCB)



or Earth Leakage Circuit Breaker (ELB)



(NF, NV type)

30A

50A

75A

150A

175A

250A

400A

500A

700A

900A

1500A

Magnetic

Contactor (MC)



S-N18

S-N20

S-N35

S-N80

S-N95

S-N180

S-N300

S-N400

S-N600

S-N800

S-N400

(three in parallel)



 Select an NFB according to the power supply capacity.

 Install one NFB per converter.



For the use in the United States or Canada, provide the appropriate UL and cUL listed fuse that is

MCCB

MCCB

Converter

Converter

Inverter

Inverter

IM

IM suitable for branch circuit protection. (Refer to the instruction manual)



Magnetic contactor is selected based on the AC-1 class.The electrical durability of magnetic contactor is 100,000 times.When the magnetic contactor is used for emergency stop during motor driving, the electrical durability is 25 times.

When using the MC for emergency stop during motor driving or using on the motor side during commercial-power supply operation, select the MC with class

AC-3 rated current for the motor rated current.

NOTE

When the MCCB on the converter input side trips, check for the wiring fault (short circuit), damage to internal parts of the converter, etc. Identify the cause of the trip, then remove the cause and power ON the breaker.

Configure a system where the magnetic contactor at the converter input side shuts off the power supply at a failure of the converter or the connected inverter. (The converter does not shut off the power supply by itself.) Failure to do so may overheat and burn the resistors in the converter and the connected inverter.

Fuse

Installation of a fuse is recommended between a high power factor converter and an inverter.

Select a fuse according to the capacity of the connected motor. When using a motor, of which the capacity is smaller than the inverter capacity by two ranks or more, select the fuse with the capacity that is one rank lower than the inverter capacity.

Select a fuse from the table below, and install it to both of the P side and the N side between the high power factor converter and the inverter.

[Fuse selection table]

Motor capacity

(kW)

55

75

90

110

132

160

185

18.5

22

30

37

45

0.1

0.2

0.4

0.75

1.5

2.2

3.7

5.5

7.5

11

15

220

250

280

315

355

400

Fuse rating (A)

700

800

250

315

400

500

630

25

50

63

100

125

160

200

5

10

16

20

200V class

Model



6.900 CP GR 10.38 0005



6.900 CP GR 10.38 0010



6.900 CP GR 10.38 0016



6.900 CP GR 10.38 0020



6.900 CP GR 10.38 0025



6.9 URD 30 TTF 0050

6.9 URD 30 TTF 0063

6.9 URD 30 TTF 0100

6.9 URD 30 TTF 0125

6.9 URD 30 TTF 0160

6.9 URD 30 TTF 0200

6.9 URD 30 TTF 0250

6.9 URD 30 TTF 0315

6.9 URD 30 TTF 0400

6.9 URD 30 TTF 0500

6.9 URD 31 TTF 0630

6.9 URD 31 TTF 0700

6.9 URD 31 TTF 0800

Fuse rating (A)

350

450

500

550

630

800

900

125

160

200

250

315

12.5

16

16

20

30

50

50

80

125

1000

1250

1400

1600

1800

1800

400V class

Model



6.900 CP GR 10.38 0012.5



6.900 CP GR 10.38 0016



6.900 CP GR 10.38 0016



6.900 CP GR 10.38 0020



6.900 CP GR 10.38 0030



6.9 URD 30 TTF 0050

6.9 URD 30 TTF 0050

6.9 URD 30 TTF 0080

6.9 URD 30 TTF 0125

6.9 URD 30 TTF 0125

6.9 URD 30 TTF 0160

6.9 URD 30 TTF 0200

6.9 URD 30 TTF 0250

6.9 URD 30 TTF 0315

6.9 URD 30 TTF 0350

6.9 URD 30 TTF 0450

6.9 URD 30 TTF 0500

6.9 URD 31 TTF 0550

6.9 URD 31 TTF 0630

6.9 URD 31 TTF 0800

6.9 URD 32 TTF 0900

6.9 URD 32 TTF 1000 or

6.9 URD 31 TTF 0630

 2 in parallel 

6.9 URD 33 TTF 1250 or

6.9 URD 31 TTF 0700

 2 in parallel 

6.9 URD 33 TTF 1400 or

6.9 URD 31 TTF 0800

 2 in parallel 

6.9 URD 232 TTF 1600 or

6.9 URD 31 TTF 0800

 2 in parallel 

6.9 URD 232 TTF 1800 or

6.9 URD 32 TTF 0900

 2 in parallel 

6.9 URD 232 TTF 1800 or

6.9 URD 32 TTF 0900

 2 in parallel 

6.9 URD 33 TTF 1250

 2 in parallel 

6.9 URD 32 TTF 0900

 3 in parallel 

6.9 URD 32 TTF 0900

 3 in parallel 

450

500

2500

2700

560 — — 2700



Manufacturer: Mersen Japan K.K.

Contact: Sun-Wa Technos Corporation



For fuse holders (2-pole type), use US102 (no blowout indicator) or US102I (with blowout indicator).



When installing several fuses in parallel, leave 12mm or more between the fuses.

NOTE

Install a fuse across terminal P/+ of the inverter and the converter and across terminal N/- of the inverter and the

converter. (Refer to page 8)

[Estimated lifespan of fuse]

Part Name

Estimated lifespan

Replacement method

Fuse 10 years Replace with a new one

 Estimated lifespan for when the yearly average surrounding air temperature is 50?C (without corrosive gas, flammable gas, oil mist, dust and dirt etc.)

NOTE

If the fuse melts down, wiring failure such as a short circuit may be the cause. Identify the problem and fix it before replacing the fuse.

24

25

Precaution on selection and operation

SAFETY INSTRUCTIONS

To use the product safely and correctly, make sure to read "the Instruction Manual" before using the product.

This product has not been designed or manufactured for use with any equipment or system operated under life-threatening conditions.

Please contact our sales office when you are considering using this product in special applications such as passenger mobile, medical, aerospace, nuclear, power or undersea relay equipment or system.

Although this product was manufactured under conditions of strict quality control, you are strongly advised to install safety devices to prevent serious accidents when it is used in facilities where breakdowns of the product or other failures are likely to cause a serious accident.

Do not use this product for a load other than dedicated inverters.

Installation Precautions Peripheral Device Selection

Precautions

Wiring distance

For the wiring distance between the high power factor converter (FR-HC2) and inverter, refer to the following table.

Across terminals P and P / terminals

N and N

Other control signal lines

50m or shorter

30m or shorter

The total wiring distance between the high power factor converter (FR-HC2) and standard accessories must be

30m or shorter. For 280K or higher, refer to the Instruction

Manual.)

Selection and installation of the moulded case circuit breaker

Install a moulded case circuit breaker (MCCB) on the power receiving side to protect the wiring at the converter's

input side. For the MCCB selection, refer to page 23. (Refer

to the materials related to the breaker.) For earth leakage circuit breakers, use the harmonic/surge compatible model provided by Mitsubishi.

Reactor installation at power supply side

The terminals R/L1, S/L2, and T/L3 of the high power factor converter are control terminals to detect power phases of the power supply. When wiring, the voltage phases of terminals R4/L14, S4/L24, and T4/L34 and the voltage phases of terminals R/L1, S/L2, and T/L3 must be matched. Failure to connect these terminals correctly will lead to an improper operation of the high power factor converter.

If the inverter is operated without connecting the terminals R/L1, S/L2, and T/L3 of the high power factor converter to the power supply, the high power factor converter will be damaged.

Operating Precautions

The Guideline treats the converter as a no-harmonicemitting device (K5 = 0), but the harmonic component is not completely 0.

Selection Precautions

Connectable inverter

Connect to the inverter that can accept DC inputs.

For the MELTRAC, FR-A500L, and FR-F500L series inverters, make sure the connecting inverter is compatible with the high power factor converter.

Connection with an incompatible inverter will damage the inverter and the converter.

Electromagnetic interference

Since the high power factor converter chops input voltage at high carrier frequency, it generates noises. If these noises cause peripheral devices to malfunction, countermeasures should be taken to suppress noises (EMI measures). The EMI measures differ depending on the noise transmission paths.

The FR-BIF radio noise filter is useful to suppress noises on AM radio broadcasting.

The FR-BSF01/FR-BLF line noise filters are useful for preventing malfunction of sensors, etc.

For the noise emitted from power cables, take a distance of 30cm (at least 10cm) from the power cables, and use shielded twisted pair cables for signal cables. Do not earth (ground) the shield. Connect the shield to one common terminal.

EMI measure example

FR-

BLF

Enclosure

Decrease carrier frequency

FR-

BLF

Install common mode filter

(FR-BLF, FR-BSF01) on the inverter output side

M Motor

Equipment power supply

Refer to the instruction manual for earthing (grounding) the high power factor converter and accessories.

Separate the inverter and power line by more than

30cm (at least 10cm) from sensor circuit.

Control power supply

FR-

BIF

Power supply for sensor

Use 4-core cable for motor power cable and use one cable as earth (ground) cable.

Use a shielded twisted pair cable

Sensor

Do not earth (ground) enclosure directly

Do not earth (ground) control cable

Do not earth (ground) shield but connect it to signal common cable.

Sine wave filter selection precautions

When using a sine wave filter with FR-HC2 (75K or higher), use MT-BSL-HC for the sine wave filter.

Warranty

1. Gratis warranty period and coverage

[Gratis warranty period]

Note that an installation period of less than one year after installation in your company or your customer's premises or a period of less than18 months (counted from the date of production) after shipment from our company, whichever is shorter, is selected.

[Coverage]

(1) Diagnosis of failure

As a general rule, diagnosis of failure is done on site by the customer.

However, Mitsubishi or Mitsubishi service network can perform this service for an agreed upon fee upon the customer's request.

There will be no charges if the cause of the breakdown is found to be the fault of Mitsubishi.

(2) Breakdown repairs

There will be a charge for breakdown repairs, exchange replacements and on site visits for the following four conditions, otherwise there will be a charge.

1) Breakdowns due to improper storage, handling, careless accident, software or hardware design by your company and your customers.

2) Breakdowns due to modifications of the product without the consent of the manufacturer.

3) Breakdowns resulting from using the product outside the specified specifications of the product.

4) Breakdowns that are outside the terms of warranty.

Since the above services are limited to Japan, diagnosis of failures, etc. are not performed abroad.

If you desire the after service abroad, please register with Mitsubishi. For details, consult us in advance.

2. Exclusion of opportunity loss from warranty liability

Regardless of the gratis warranty term, compensation to opportunity loss incurred to your company or your customers by failures of Mitsubishi products and compensation for damages to products other than Mitsubishi products and other services are not covered under warranty.

3. Repair period after production is discontinued

Mitsubishi shall accept product repairs for seven years after production of the product is discontinued.

4. Terms of delivery

In regard to the standard product, Mitsubishi shall deliver the standard product without application settings or adjustments to the customer and Mitsubishi is not liable for on site adjustment or test run of the product.

Related Factory Automation Products

Contactors and Motor Starters MS-N Series

Compact body with full satisfaction

* Lineup from 10A to 800A frames. Available in wide range of applications.

* Conforming to various international specifications as standard.

* Equipped with safe open function contact, applicable to circuits in “machine safety category 4”.

* CAN terminals achieved wiring rationalization and safety improvement.

26

L(NA)06070ENG-A(1212)MEE

Safety Warning

To ensure proper use of the products listed in this catalog, please be sure to read the instruction manual prior to use.

HEAD OFFICE: TOKYO BLDG., 2-7-3, MARUNOUCHI, CHIYODA-KU, TOKYO 100-8310, JAPAN

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