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FX

2N

-4AD-TC SPECIAL FUNCTION BLOCK

USER’S GUIDE

JY992D65501B

This manual contains text, diagrams and explanations which will guide the reader in the correct
installation and operation of the FX

2N

-4AD-TC special function block and should be read and understood

before attempting to install or use the unit.
Further information can be found in the FX PROGRAMMING MANUAL(

ΙΙ

) and FX

0N

/FX

1N

/FX

2N

/FX

2NC

SERIES HARDWARE MANUAL.

Guidelines for the Safety of the User and Protection of the FX

2N

-4AD-TC 

special function block.

This manual should be used by trained and competent personnel. The definition of such a person or
persons is as follows:

a) Any engineer using the product associated with this manual, should be of a competent nature,

trained and qualified to the local and national standards. These engineers should be fully aware of
all aspects of safety with regards to automated equipment.

b) Any commissioning or service engineer must be of a competent nature, trained and qualified to

the local and national standards.

c)

All operators of the completed equipment should be trained to use this product in a safe and
coordinated manner in compliance to established safety practices.

Note: The term ‘completed equipment’ refers to a third party constructed device which contains or uses

the product associated with this manual.

Notes on the Symbols Used in this Manual

At various times throughout this manual certain symbols will be used to highlight points of information
which are intended to ensure the users personal safety and protect the integrity of equipment.

1) Indicates that the identified danger WILL cause physical and property damage.

2) Indicates that the identified danger could POSSIBLY cause physical and property

damage.

Under no circumstances will Mitsubishi Electric be liable or responsible for any consequential damage
that may arise as a result of the installation or use of this equipment.

All examples and diagrams shown in this manual are intended only as an aid to understanding the
text, not to guarantee operation. Mitsubishi Electric will accept no responsibility for the actual use of
the product based on these illustrative examples.

Owing to the very great variety in possible applications for this equipment, you must satisfy yourself as
to its suitability for your own specific application.

1. INTRODUCTION

The FX

2N

-4AD-TC analog block amplifies the signal from four thermocouple sensors (Type K or J) and

converts the data into 12 bit reading’s stored in the main unit. Both Centigrade (

°

C) and Fahrenheit

(

°

F) can be read.

Reading resolution is 0.4

°

C/0.72

°

F of Type K and 0.3

°

C/0.54

°

F of Type J.

The FX

2N

-4AD-TC can connected to the FX

0N

, FX

1N

, FX

2N

 and the FX

2NC

 series Programmable

Controllers (PLC).

All data transfers and parameter settings are adjusted via software control of the FX

2N

-4AD-TC; by

use of the TO/FROM applied instructions in the PLC.

The FX

2N

-4AD-TC occupies 8 I/O points on the PLC expansion bus. The 8 I/O points can be allocated

from either inputs or outputs. The FX

2N

-4AD-TC draws 40mA from the 5V rail of the main unit or

powered extension unit.

Thermocouples with the following specifications can be used: Type K (JIS 1602-1981) 

Type J (JIS 1602-1981)

2. EXTERNAL DIMENSIONS

3. CONNECTION WITH PLC

3.1 Connection with PLC

1) Up to 4 FX

2N

-4AD-TC units can connect to the FX

0N

 series PLC, up to 5 for FX

1N

, up to 8 for FX

2N

 or,

up to 4 for an FX

2NC

 series PLC, all with powered extension units.

However the following limitation exists when the undermentioned special function blocks are
connected.

FX

2N

: Main unit and powered extension units of 32 I/O points or less. Current consumption available

for the undermentioned special function blocks 

 190mA

FX

2N

: Main unit and powered extension units of 48 I/O points or more. Current consumption

available for the undermentioned special function blocks 

 300mA

FX

2NC

: Up to 4 undermentioned special function blocks can be connected regardless of the system I/O.

When using an FX

2NC

 an FX

2NC

-CNV-IF is required.

FX

0N

/

1N

: Main unit and powered extension units. Up to 2 undermentioned special function blocks can

be connected regardless of the system I/O.

2) Each block occupies 8 I/O points (The 8 points can be allocated from either inputs or outputs).

3) FX

2N

-4AD-TC consumes 40mA from the 5V DC bus.

The total 5V consumption of all special function blocks connected to a main unit or extension unit
must not exceed the 5V source capacity of the system.

4) The FX

2N

-4AD-TC and main unit are connected by a cable on the right of the main unit.

3.2 Special function block numbers

Other special units of blocks that use FROM/TO commands, such as analog input blocks, analog output
blocks and high-speed counter blocks, can be directly connected to the main unit of the PLC or to the right
side of other extension blocks or units.

4. WIRING

4.1 Wiring

*1: The compensating cables that can be used for

connecting with the thermocouple are the following.
Type K: KX-G, KX-GS, KX-H, KX-HS,WX-G,WX-H,VX-G 
Type J: JX-G, JX-H
For every 10

 of line resistance, the compensating

cable will indicate a temperature 0.12

°

C higher than

actual.
C h e c k   t h e   l i n e   r e s i s t a n c e   b e fo r e   u s i n g .   L o n g
c o m p e n s a t i n g   c a b l e s   a r e   m o r e   p r o n e   t o   n o i s e
in te rfe r en c e,  th ere fore   a  s h o r t  ( le s s   tha n   10 0 m )
compensating cable is recommended.
Unused channels should have a wire link connected
between the + and - terminals to prevent an errors being
detected on that channel.

*2: If there is excessive electrical noise, connect the SLD

terminal to the ground terminal on the unit.

*3: Connect the ground terminals of the FX

2N

-4AD-TC unit and the main unit. Use grounding on the main

unit.

*4: The 24V DC built-in supply of the PLC may be used as the power supply.

P O W E R

2 4 V

A / D

C

H

4

C

H

3

C

H

1

24

+ 24

-

L+

L+

FX

2N

-4

A

D

-T

C

L-

L-

L+

L-

S

LD

C

H

1

24

+ 24

-

L-

C

H

2

L-

L+

L+

4 ( 0 . 1 6 )

4 ( 0 . 1 6 )

5 5 ( 2 . 1 7 )

80

(3

.1

5)

90

(3

.5

4)

5 5 ( 2 . 1 7 )

8 7 ( 3 . 4 3 )

9 ( 0 . 3 5 )

S

LD

S

LD

S

LD

S

LD

T e r m i n a l   s c r e w s   M 3   ( 0 . 1 2 )

2 4 V

L E D

A / D

L E D

D I N   r a i l

m o u n t i n g   s l o t

3 5 m m ( 1 . 3 8 )

M o u n t i n g   h o l e s

4 . 5 m m ( 0 . 1 8 )   d i a .

E x t e n s i o n   c a b l e

a n d   c o n n e c t o r

Weight: Approx. 0.3 kg (0.66 lbs) 

Dimensions: mm (inches)

Accessories:  Self adhesive labels for special function block number identification

   

F X         - 1 6 E X

X 0 0 0 - X 0 2 7

Y 0 0 0 - Y 0 2 7

X 0 3 0

      - X 0 4 7

2 N

   

F X         - 4 8 M R - E S / U L

2 N

   
F X         - 4 A D

2 N

N o . 2

2 N

   

F X         - 4 A D - T C

X 0 5 0 - X 0 6 7

Y 0 3 0 - Y 0 4 7

2 N

   

F X         - 3 2 E R

2 N

   

F X         - 4 D A

F X - 4 8 M R - E S / U L

2 N

P O W E R

A / D
2 4 V

F X - 4 A D

2 N

P O W E R

D / A
2 4 V

F X - 4 D A

2 N

N o . 1

N o . 0

P O W E R

2 4 V

A / D

S p e c i a l   b l o c k

S p e c i a l   b l o c k

S p e c i a l   b l o c k

X 0

X 5

7

2

4

5

6

1

3

0

1 6

1 1

1 5

1 4

1 7

1 0

1 2 1 3

1 4

1 7

1 5

1 0

1 2 1 3

7

2

4

5

6

1

3

0

1 6

1 1

O U T

I N

L

X 1 1

X 1 3

X 1 5

X 1 7

X 6

X 1 0

X 1 2

X 1 4

X 1 6

2 4 +

N

C O M

X 4

X 7

C O M 4

C O M 2

Y 4

Y 5

Y 6

Y 7

C O M 3

Y 1 0

Y 1 1

Y 1 2

Y 1 3

C O M 1

Y 0

Y 1

Y 2

Y 3

Y 1 4

Y 1 5

Y 1 6

Y 1 7

X 3

X 2

X 1

P O W E R

7

6

2 7

2 0

2 2 2 3 2 4 2 5 2 6

2 1

1 6 1 7

1 4

1 7

1 5

1 0

1 2 1 3

7

2

4

5

6

1

3

0

2 7

2 0

2 2 2 3 2 4 2 5 2 6

2 1

1 6

1 1

I N

L

X 5

X 7

X 1 3

X 1 5

X 1 7

X 2 1

X 2 3

X 2 5

X 4

X 6

X 1 0

X 1 4

X 1 6

X 2 0

X 2 2

X 2 4

2 4 +

N

C O M

X 0

X 1

X 2

C O M 4

Y 2 4

Y 2 5

C O M 5

Y 2 7

C O M 2

Y 4

Y 5

Y 6

Y 7

C O M 3

Y 1 0

Y 1 3

C O M 1

Y 0

Y 2

Y 3

Y 1 4

Y 1 5

Y 2 0

Y 2 1

Y 2 2

Y 2 3

Y 2 6

P O W E R

T . V

C P U . E

P R O G . E

Connection example

Thermocouple

  1
shielded CH1

3K

:

L+

24+

24-

DC/DC

converter

AG

+15V

-15V

PLC

Extension cable

Grounding
(100 

:

 or less)

 3

  4

24VDC±10% 50mA

  2

FX

2N

-4AD-TC

Analog Input Block

L-

CH1

SLD

Thermocouple

  1
shielded CH4

L+

L-

SLD

3K

:

Temperature
compensation
circuit

CH4

4.2 Using crimp terminations

• Use crimp terminals as indicated on the left.

• Secure the terminal using a tightening torque of between 5 and 8

kg

cm.

• Wire only to the module terminals discussed in this manual. Leave all

others vacant.

5. SPECIFICATIONS

5.1 Environmental specification

5.2 Power supply specification

5.3 Performance specification

Analog Inputs

Miscellaneous

Note:

Earth-tipped thermocouples are not suitable for use with this unit.

5.4 Installation location

This unit measures temperature according to the temperature difference between the temperature
measurement part (themocouple) and the terminal block. If this unit is installed at a place where the
temperature of the terminal block varies rapidly, a measuring error may occur. For this reason, the unit
should be installed at a place free from excessive temperature variation.

Item

Specification

Environmental specifications

Same as those for the main unit

Dielectric withstand voltage

500V AC, 1min (between all terminals and ground)

Item

Specification

Analog circuits 

24V DC ± 10%, 60mA

Digital circuits

5V DC, 40mA (internal power supply from the main unit)

Item

Centigrade (

°°°°

C)

Fahrenheit (

°°°°

F)

Both 

°

C and 

°

F are available by reading the appropriate buffer memory (BFM).

Input signal

Thermocouple: Type K or J (either can be used for each channel), 4 channels, JIS 
1602-1981

Rated temperature 
range

Type K

-100

°

C to +1,200

°

C Type 

K

-148

°

F to +2,192

°

F

Type J

-100

°

C to +600

°

C

Type J

-148

°

F to +1,112

°

F

Digital output

12 bit conversion stored in 16 bit 2’s complement form

Type K

-1,000 to 12,000

Type K

-148

°

F to +2,192

°

F

Type J

-1,000 to 6,000

Type J

-148

°

F to +1,112

°

F

Resolution 

Type K

0.4

°

C

Type K

0.72

°

F

Type J

0.3

°

C

Type J

0.54

°

F

Overall accuracy
Calibration point

± (0.5% full scale +1

°

C)

Freezing point of pure water 0

°

C / 32

°

F

Conversion speed

(240ms ± 2%) 

×

 4 channels (unused channels are not converted)

Item

Centigrade (

°°°°

C)

Fahrenheit (

°°°°

F)

Conversion Characteristics

Readings given at calibration 
reference point 0

°

C/32

°

F (0/320) 

respectively.
(subject to the overall accuracy)

Item

Specification

Isolation

Photo-coupler isolation between analog and digital circuits.
DC/DC converter isolation of power from main unit.
No isolation between analog channels.

Number of occupied I/O points

The block occupies 8 I/O points
(can be either inputs or outputs)

l e s s   t h a n  

6 . 2 m m ( 0 . 2 4

)

   

U s e   M 3 ( 0 . 1 2

)

l e s s   t h a n  

6 . 2 m m ( 0 . 2 4

)

   

+6,000

-100°C

-1,000

+1,200°C

+12,000

(Type K)

(Type J)

+600°C

(Type K)

(Type J)

-1,480

+2,192°F

+21,920

(Type K)

(Type J)

+1,112°F

(Type K)

(Type J)

+11,120

-148°F

Содержание FX2N-4AD-TC

Страница 1: ...X G Type J JX G JX H For every 10Ω of line resistance the compensating cable will indicate a temperature 0 12 C higher than actual Check the line resistance before using Long compensating cables are more prone to noise interference therefore a short less than 100m compensating cable is recommended Unused channels should have a wire link connected between the and terminals to prevent an errors bein...

Страница 2: ...X G Type J JX G JX H For every 10Ω of line resistance the compensating cable will indicate a temperature 0 12 C higher than actual Check the line resistance before using Long compensating cables are more prone to noise interference therefore a short less than 100m compensating cable is recommended Unused channels should have a wire link connected between the and terminals to prevent an errors bein...

Страница 3: ...X G Type J JX G JX H For every 10Ω of line resistance the compensating cable will indicate a temperature 0 12 C higher than actual Check the line resistance before using Long compensating cables are more prone to noise interference therefore a short less than 100m compensating cable is recommended Unused channels should have a wire link connected between the and terminals to prevent an errors bein...

Страница 4: ...og switch CPU System ROM Buffer Memory RAM A D converter PLC Command information write and data status read 24V DC Power Source 5V Power Supply POWER LED Photocoupler 15V CH1 CH2 CH3 CH4 A D LED Cyclic switching FX2N 4AD TC Analog Block DC DC converter Gain and offset values are stored in the EEPROM Control signals Converted data 24V LED FROM TO 5V Analog Input M8002 Initial Pulse K2 K30 D2 K1 Y01...

Страница 5: ...og switch CPU System ROM Buffer Memory RAM A D converter PLC Command information write and data status read 24V DC Power Source 5V Power Supply POWER LED Photocoupler 15V CH1 CH2 CH3 CH4 A D LED Cyclic switching FX2N 4AD TC Analog Block DC DC converter Gain and offset values are stored in the EEPROM Control signals Converted data 24V LED FROM TO 5V Analog Input M8002 Initial Pulse K2 K30 D2 K1 Y01...

Страница 6: ...og switch CPU System ROM Buffer Memory RAM A D converter PLC Command information write and data status read 24V DC Power Source 5V Power Supply POWER LED Photocoupler 15V CH1 CH2 CH3 CH4 A D LED Cyclic switching FX2N 4AD TC Analog Block DC DC converter Gain and offset values are stored in the EEPROM Control signals Converted data 24V LED FROM TO 5V Analog Input M8002 Initial Pulse K2 K30 D2 K1 Y01...

Страница 7: ...X G Type J JX G JX H For every 10Ω of line resistance the compensating cable will indicate a temperature 0 12 C higher than actual Check the line resistance before using Long compensating cables are more prone to noise interference therefore a short less than 100m compensating cable is recommended Unused channels should have a wire link connected between the and terminals to prevent an errors bein...

Страница 8: ...og switch CPU System ROM Buffer Memory RAM A D converter PLC Command information write and data status read 24V DC Power Source 5V Power Supply POWER LED Photocoupler 15V CH1 CH2 CH3 CH4 A D LED Cyclic switching FX2N 4AD TC Analog Block DC DC converter Gain and offset values are stored in the EEPROM Control signals Converted data 24V LED FROM TO 5V Analog Input M8002 Initial Pulse K2 K30 D2 K1 Y01...

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