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HEAD OFFICE

: TOKYO BUILDING, 2-7-3 MARUNOUCHI, CHIYODA-KU, TOKYO 100-8310, JAPAN

HIMEJI WORKS : 840, CHIYODA CHO, HIMEJI, JAPAN

This manual confers no industrial property rights or any rights of any other kind, nor does it confer any
patent licenses. Mitsubishi Electric Corporation cannot be held responsible for any problems involving
industrial property rights which may occur as a result of using the contents noted in this manual.

6. ALLOCATION OF BUFFER MEMORIES (BFM)

6.1 Buffer memories

The FX

2N

-4AD-PT communicates

with the PLC via buffer memories.

BFMs (buffer memories) #21 to #27
and #31 are reserved.
All BFM data can be read by the
PLC using the FROM instruction.

P L C   c a n   r e a d / w r i t e   t h e   B F M s
(marked with “*” ), using FROM /TO
instructions.

1) BFM #0 value (K0 or K1) decides the Pt100 characteristic to be used.

K0 : JIS C 1604-1997
K1 : JIS C 1604-1981

2) The number of samples to be averaged are assigned in BFMs #1 to #4. Only the range 1 to 4096 is

valid. Values outside this range are ignored. The default value of 8 is used.

3) A number of recently converted readings are averaged to give a smoother read out. The averaged

data is stored in BFMs #5 to #8 and #13 to #16.

4) BFMs #9 to #12 and #17 to #20 store the current value of the input data. This value is in units of 0.1

°

C

or 0.1

°

F, but the resolution is only 0.2

°

C to 0.3

°

C or 0.36

°

F to 0.54

°

F.

6.2 Status Information

1) Buffer Memory BFM #28: Digital range error latch

BFM #29 b10(digital range error) is used to judge whether the measured temperature is within the
unit’s range or not.

BFM #28 latches the error status of each channel.

Low : Latches ON when the temperature measurement data drops below the lowest

temperature measurement limit.

High 

: Turns ON when the temperature measurement data rises above the highest

temperature measurement limit.

When an error occurs the temperature data before the error is latched. If the measured value returns
to within valid limits the temperature data returns to normal operation. (Note: The error remains
latched in (BFM #28))
An error can be cleared by writing K0 to BFM #28 using the TO instruction or turning off the power.

2) Buffer Memory BFM #29: Error status

3) Buffer Memory BFM #30: Identification Code

The identification code or ID number for this Special Block is read from buffer memory BFM #30 using
the FROM instruction. This number for the FX

2N

-4AD-PT unit is K2040.

The PLC can use this facility in its program to identify the special block before commencing data
transfer from and to the special block.

b15 or b8

b7

b6

b5

b4

b3

b2

b1

b0

Not used

High

Low

High

Low

High

Low

High

Low

CH4

CH3

CH2

CH1

Bit devices of BFM #29

ON

OFF

b0 : Error

When either b2 or b3 is ON
A/D conversion is stopped for 
the error channel.

No error

b1 : Reserved

Reserved

Reserved

b2 : Power source

24V DC power supply failure.

Power supply normal

b3 : Hardware error

A/D converter or other 
hardware failure.

Hardware Normal

b4 to b9 : Reserved

Reserved

Reserved

b10 : Digital range error

Digital output/analog input 
value is outside the specified 
range.

Digital output value is normal.

b11 : Averaging error

Selected number of averaged 
results is outside the available 
range -see BFM #1 to #4

Averaging is normal.
(between 1 to 4096)

b12 to b15 : Reserved

Reserved

Reserved

BFM

CONTENTS

*#0

Characteristic change

*# 1 - #4

CH1 to CH4 Averaged temperature reading to be 
averaged (1 to 256) Default = 8

 #5 - #8

CH1 to CH4 Averaged temperature in 0.1

°

C units

 #9 - #12

CH1 to CH4 Present temperature in 0.1

°

C units

 #13 - #16

CH1 to CH4 Averaged temperature in 0.1

°

F units

 #17 - #20

CH1 to CH4 Present temperature in 0.1

°

F units

 #21 - #27

Reserved

*#28

Digital range error latch

 #29

Error status

 #30

Identification code K2040

 #31

Reserved

7. SYSTEM BLOCK DIAGRAM

8. EXAMPLE PROGRAM

In the program shown below, the FX

2N

-4AD-PT block occupies the position of special block number 2 (that

is the third closest block to the PLC). The averaging amount is four. The averaged values in degrees C of
input channels CH1 to CH4 are stored respectively in data registers D0 to D3.

Multiplexer

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

FX

2N

-4AD-PT Analog Block

 DC/DC
   converter

Gain and offset

values are

stored in the

EEPROM

Control
signals

Converted

data

5V

24V
LED

FROM

TO

Analog Input

5V

M1

     or
M8000

         K2       K1        K4       K4

FNC79

TO

         K2       K5        D0       K4

FNC78

FROM

         K2             K9             D0            K4

FNC78

FROM

special
block No.2

FX2N-4AD-PT
BFM number

result
destination

No. of
words read

Block No.2 BFM #30 

 (D10)

Identification code

This initial step checks that the special function block placed at position 2 is
actually an FX

2N

-4AD-PT, i.e. its unit identification number is 2040 (BFM #30).

This step is optional, but it provides a software check that the system has been
configured correctly.

This step provides optional monitoring of the FX

2N

-4AD-PT Error Buffer Memory

(#29). If there is an Error on the FX

2N

-4AD-PT, bit b0 of BFM #29 will be set on.

This can be read by this program step, and output as a bit device in the PLC (Y010 in
this example). Additional Error devices can be output in a similar manner, i.e. b10 BFM
#29. (see below)

M8002

Initiali-
zation
Pulse

         K2       K30      D10     K1

FNC78

FROM

       K2040   D10      M0

FNC10

CMP

When (K2040) = (D10), M1 = ON
i.e. When identification code is K2040, M1 = ON

Y010

M8000

RUN

monitor

         K2       K29   K4M10   K1

FNC78

FROM

M10

Block No.2 BFM #29 

 (K4M10)

Transfer the error status to (M25 to M10).
When error is found, M10 = ON.

Represents b0 BFM #29

Y010

M8000

         K2     K29    K4M10    K1

FNC78

FROM

M10

Y011

M20

Represents b0 BFM #29

Represents b10 BFM #29

(K4) 

 (BFM #1 to #4)

Number of samples is changed to four on CH1 to CH4.

(BFM #5 to #8) 

 (D0 to D3)

Transfer the averaged temperature value in °C to the
data registers.

This step is the actual reading of the FX

2N

-4AD-PT input channels. It is essentially

the only program step which is needed. The "TO" instruction in this example, sets
the input channels, CH1 to CH4, to take the average reading of four samples.
The "FROM" instruction reads the average temperatures (BFM #5 to #8) for input
channels CH1 to CH4 of the FX

2N

-4AD-PT. If direct temperature readings are

required BFM #9 to #12 should be read instead, ex.

9. DIAGNOSTICS

9.1 Preliminary checks

I.

Check whether the input/output wiring and/or extension cables are properly connected on the FX

2N

-

4AD-PT analog special function block.

II.

Check that the PLC system configuration limits have not been exceeded, i.e. the number of special
function blocks, and the total system I/O are within the specified range.

III.  Ensure that the correct operating range has been selected for the application.

IV. Check that there is no power overload on either the 5V or 24V power sources, remember the loading

on main unit or a powered extension unit varies according to the number of extension blocks or
special function blocks connected.

V.

Make sure that the main unit has been switched to RUN.

9.2 Error checking

If the FX

2N

-4AD-PT special function block does not seem to operate normally, check the following items.

Check the status of the POWER LED.
Lit

:The extension cable is properly connected.

Otherwise :Check the connection of the extension cable.

Check the external wiring.

Check the status of the “24V” LED (top right corner of the FX

2N

-4AD-PT).

Lit

:FX

2N

-4AD-PT is ON, 24V DC power source is ON.

Otherwise :Possible 24V DC power failure, if ON possible FX

2N

-4AD-PT failure.

Check the status of the “A/D” LED (top right corner of the FX

2N

-4AD-PT).

Lit

:A/D conversion is proceeding normally.

Otherwise :Check buffer memory #29 (error status). If any bits (b0, b2, b3) are ON, then this is why 

the A/D LED is OFF.

10.EMC CONSIDERATIONS

Electromagnetic compatibility or EMC must be considered before using the FX

2N

-4AD-PT.

Mitsubishi recommend that the PT 100 sensors used, should be fitted with a form of seild or screening as
protection against EMC noise.

If some form of cable protection is used, the “Shield” must be terminated at the 

 terminals

as shown in section 4.1.

Because of the delicate nature of all analog signals, failure to take good EMC precautions could lead to
EMC noise induced errors; up to ±10% of actual values. This is an absolute worst case figure, users who
do take good precautions can expect operation within normal tolerances.

EMC considerations should include selection of good quality cables, good routing of those cables away
from potential noise sources.

Additionally it is recommended that signal averaging is used as this will reduce the effects of random noise
“spikes”.

FG

Manual number : JY992D65601

Manual revision : E

Date

: September 2007

Содержание FX2N-4AD-PT

Страница 1: ... 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 specific application 1 INTRODUCTION The FX2N 4AD PT analog block amplifies the input fro...

Страница 2: ...l noise connect the FG frame ground terminal with the ground terminal In CH1 there is no FG terminal Use FG terminal of other channels e Connect the ground terminal on the FX2N 4AD PT unit with the grounded terminal on the main unit Use grounding on the main unit if grounding is possible f Either an external or the 24V built in supply in the PLC may be used For additional data regarding EMC consid...

Страница 3: ...ON NOTES AND USAGE 5 1 General specification 5 2 Power supply specification 5 3 Performance specification Analog Inputs Analog Inputs continued Miscellaneous Item Specification General 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 50mA Digital circuits 5V DC 30mA internal power ...

Страница 4: ...ry BFM 30 using the FROM instruction This number for the FX2N 4AD PT unit is K2040 The PLC can use this facility in its program to identify the special block before commencing data transfer from and to the special block b15 or b8 b7 b6 b5 b4 b3 b2 b1 b0 Not used High Low High Low High Low High Low CH4 CH3 CH2 CH1 Bit devices of BFM 29 ON OFF b0 Error When either b2 or b3 is ON A D conversion is st...

Страница 5: ... the FX2N 4AD PT Error Buffer Memory 29 If there is an Error on the FX2N 4AD PT bit b0 of BFM 29 will be set on This can be read by this program step and output as a bit device in the PLC Y010 in this example Additional Error devices can be output in a similar manner i e b10 BFM 29 see below M8002 Initiali zation Pulse K2 K30 D10 K1 FNC78 FROM K2040 D10 M0 FNC10 CMP When K2040 D10 M1 ON i e When i...

Страница 6: ...f extension blocks or special function blocks connected V Make sure that the main unit has been switched to RUN 9 2 Error checking If the FX2N 4AD PT special function block does not seem to operate normally check the following items Check the status of the POWER LED Lit The extension cable is properly connected Otherwise Check the connection of the extension cable Check the external wiring Check t...

Страница 7: ...ructions 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 c The cable of the Pt 100 sensor or a twisted shielded cable should be used for the analog input cable This analog input cable should be wired separately from power lines or any othe...

Страница 8: ...3 CH4 A D LED Cyclic switching FX2N 4AD PT Analog Block DC DC converter Gain and offset values are stored in the EEPROM Control signals Converted data 5V 24V LED FROM TO Analog Input 5V M1 or M8000 K2 K1 K4 K4 FNC79 TO K2 K5 D0 K4 FNC78 FROM K2 K9 D0 K4 FNC78 FROM special block No 2 FX2N 4AD PT BFM number result destination No of words read Block No 2 BFM 30 D10 Identification code This initial st...

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