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Quick start guide for 

FR-CS82S and FR-CS84

Frequency inverter

Art. No.: 573555

 

UK, Version A, 11082020

Further information

If you have any questions about the installation, programming and operation of the frequency inverter,

please do not hesitate to contact your sales office or one of your sales partners.

You can reach our technical support at the following number: +49 (0) 2102 103 7914

Wiring of power supply and motor 

Wiring of the main circuit

Use insulated blade terminals to connect the power supply and the motor.

a

L1 and N for single phase power supply.

b

For single-phase frequency inverters, this terminal is marked with "+".

Wiring

Wiring method

Power supply connection

Wiring of the control circuit

Recommended cable gauge: 0.3 to 0.75 mm

2

Input signals

Use a wire end ferrule and a cable for the connection to the terminals where the end is striped appropriately.

Single-core cables can be connected directly to the terminals after removing the insulation.

E

CAUTION:

There is a risk to the life and health

of the user if appropriate precau

-

tionary measures are not taken. The

precautions can be found in the

instruction manual of the frequency

inverter FR-CS80. 

These and other manuals are avail

-

able free of charge on the Internet. 
(https://eu3a.mitsubishielectric.com). 

Terminal 

Power supply

Motor 

connection

Earth

DC link choke, 

brake resistor, 

brake unit

230 V, 1~

 

400 V, 3~

 

Terminal

Description

R/L1, S/L2, T/L3 

a

Power supply connection

U, V, W

Motor connection

P/+ 

b

, PR

Connection for external brake resistor

P/+ 

b

, N/-

Connection for external brake unit

P/+

b

, P1

Connection for DC link choke

PE

Motor

M

Earth (G

Three-phase
AC power
supply

MCCB

MC

Earth (Ground)

Forward rotation start

Forward rotation start

Reverse rotation start

Reverse rotation start

Middle speed

Middle speed

High speed

High speed

Low speed

Low speed

Control input signals
(No voltage input allowed)

Relay output

Relay output

Relay output
(Fault output)

(Fault output)

Control circuit terminal

Main circuit terminal

Source logic

*1

*1

Multi-speed

Multi-speed
selection

selection

 

Single-phase
AC power
supply

Single-phase power input

Single-phase power input

Inrush current
limit circuit

Source logic

Main circuit terminals

Control circuit terminals

Three-phase

AC power

supply

MCCB

Single-phase

AC power

supply

Single phase power supply

MC

Control input signals 

(No voltage input allowed)

Control circuit

Frequency setting signals (Analog)

Inrush 

current limit 

circuit

Relay output 

PU-

connector

0–5 V DC

0–10 V DC

0–10 V DC

4–20 mA DC

(Analog common)

0–5 V DC

Relay output

(Fault output)

Motor

Brake unit 

(optional)

Earth

Main circuit

Forward rotation start

Terminal 4 input

(Current input)

Frequency

setting

potentiometer

1/2 W 1 kΩ

10(+5 V)

V

I

1

(+)

(-)

PC

SD

RL

RM

STR

STF

24 V

SI

N

K

SO

U

RC

E

R/L1

R/L1

S/L2

U

V

W

A

B

C

N/-

P/+

M

RH

MCCB

MC

Earth

S/L2
R/L3

2

5

4

2

3

Reverse rotation start

Multi-speed 

selection

High speed

Low speed

Contact input common

24 V DC power supply

(Common for external power supply transistor)

Middle speed

a

Strip off the sheath for the below length. If the length of the sheath peeled is too long, a short circuit may

occur with neighboring wires. If the length is too short, wires might come off. 

Wire the stripped cable after twisting it to prevent it from becoming loose. In addition, do not solder it

b

Crimp the blade terminal.

Insert wires to a blade terminal, and check that the wires come out for about 0 to 0.5 mm from a sleeve. 

Check the condition of the blade terminal after crimping. Do not use a blade terminal of which the crimp

-

ing is inappropriate, or the face is damaged.

Blade terminals commercially available (as of February 2017)

Cable sheath stripping length

10 mm

Crumpled tip

Wires are not inserted
into the sleeve

Unstranded
wires

Damaged

Unstranded 

wires

Wi

re

0~0

.5 m

m

Wires are not inserted 

into the sleeve

Crumpled tip

Damaged

Sle

eve

Terminal 

Description

STF

Forward rotation start signal

STR

Reverse rotation start signal

RH, RM, RL

Multi-speed selection

SD

Common terminal for the contact input terminal (sink logic).

Common terminal (0 V) for the 24 V DC power supply (terminal PC).

PC

24 V DC output and common terminal for control circuit inputs in source logic

Terminal

Type 

Description

10 

Frequency setting 

power supply

Used as the power supply for an external device such as a fre

-

quency setting potentiometer or digital panel meter.

2

Frequency setting 

(voltage) 

Inputting 0 to 5 V DC (or 0 to 10 V DC) provides the maximum 

output frequency at 5 V (or 10 V) and makes input and output 

proportional.

4

Frequency set

-

ting (current)

Inputting 4 to 20 mA DC 

(or 0 to 5 V, 0 to 10 V)

provides the maximum 

output frequency at 

20 mA and makes input 

and output proportional. 

This input signal is valid 

only when the AU signal 

is ON (terminal 2 input is 

invalid).

5

Frequency 

setting and 

analog outputs 

common

Terminal 5 represents the reference point (0 V) for all analog set

-

point values and for the analog output signal AM (voltage). The 

terminal is isolated from the reference potential of the digital cir

-

cuit (SD).

10

PTC input 

(PTC sensor)

Terminals 10 and 2 serve as an input for a PTC sensor (thermal 

motor protection).

2

A, B, C

Relay output

A changeover contact output that indicates that an inverter's 

protective function has been activated and the outputs are 

stopped.

RS-485

PU interface

The PU connector supports the RS-485 communication.

STF STR

RL RM RH SD

PC

A

B

C

10 2

5

4

Current input 

(initial status)

Voltage 

input

Summary of Contents for FR-CS82S

Page 1: ...1 and N for single phase power supply b For single phase frequency inverters this terminal is marked with E CAUTION There is a risk to the life and health of the user if appropriate precau tionary measuresarenot taken The precautions can be found in the instruction manual ofthefrequency inverterFR CS80 These and other manuals are avail ablefree of charge on theInternet https eu3a mitsubishielectri...

Page 2: ...circuit Forward rotation start Terminal 4 input Current input Frequency setting potentiometer 1 2 W 1 kΩ 10 5 V V I 1 PC SD RL RM STR STF 24 V SINK SOURCE R L1 R L1 S L2 U V W A B C N P M RH MCCB MC Earth S L2 R L3 2 5 4 2 3 Reverse rotation start Multi speed selection High speed Low speed Contact input common 24 V DC power supply Common for external power supply transistor Middle speed a Strip of...

Page 3: ...g 0 to 5 V DC or 0 to 10 V DC provides the maximum output frequency at 5V or 10V and makes input and output proportional 4 Frequency set ting current Inputting 4 to 20 mA DC or 0 to 5 V 0 to 10 V provides the maximum output frequency at 20 mA and makes input and output proportional This input signal is valid only when the AU signal is ON terminal 2 input is invalid 5 Frequency setting and analog o...

Page 4: ...ry Operation mode switchover Initial setting in monitor mode Output frequency Output current Output voltage Faults history Operation mode switchover Parameter setting 5 Faults history 2 3 Monitor 1 Operation mode switchover 4 PU Jog operation mode Output frequency monitor At power ON Output current monitor Output voltage monitor Parameter setting mode Display the present setting Change the setting...

Page 5: ...z 120 Hz 0 120Hz 2 Minimum frequency 0 01 Hz 0 Hz 3 Base frequency 0 01 Hz 50 Hz 0 400Hz 4 Multi speed setting RH 0 01 Hz 50 Hz 0 400Hz 5 RM 30 Hz 6 RL 10 Hz 7 Acceleration time 0 1 5 10 s a 0 3600s 8 Deceleration time 9 Electronic thermal O L relay 0 01A Inverter rated current 0 500A 79 Operation mode selection 1 0 0 1 2 3 4 6 7 125 Frequency setting gain frequency Terminal 2 0 01 Hz 50 Hz 0 400H...

Page 6: ...prevention overvoltage TH Electronic thermal O L relay prealarm PS PU stop UV Undervoltage Slight error iH Inrush current limit resistor overheat FN Faulty fan Serious error E OC1 Overcurrent trip during acceleration E OC2 Overcurrent trip during constant speed E OC3 Overcurrent trip during deceleration or stop E OV1 Regenerative overvoltage trip during acceleration E OV2 Regenerative overvoltage ...

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