Mitsubishi Q64TD, Q64TDV-GH, Q64TD-U-H-JE User Manual

Thermocouple Input Module
Channel Isolated Thermocouple
/Micro Voltage Input Module

MITSUBISHI
General-Purpose PROGRAMMABLE LOGIC CONTROLLER

User’s Manual

(Hardware)

Q64TD

Q64TDV-GH

Thank you for purchasing the Mitsubishi general-purpose
programmable logic controller MELSEC-Q series.

Prior to use, please read this manual thoroughly and
familiarize yourself with the product

MODEL Q64TD-U-H-JE
MODEL

CODE

13JT30

IB(NA)-0800155-B(0201)MEE

© 2000 MITSUBISHI ELECTRIC CORPORATION

A - 1

SAFETY PRECAUTIONS

(Read these precautions before using.)

When using Mitsubishi equipment, thoroughly read this manual and the
associated manuals introduced in this manual. Also pay careful attention to
safety and handle the module properly.
These SAFETY PRECAUTIONS classify the safety precautions into two
categories: “DANGER” and “CAUTION”.

DANGER

CAUTION

Procedures which may lead to a dangerous condition and
cause death or serious injury, if not carried out properly.

Procedures which may lead to a dangerous condition and
cause superficial to medium injury, or physical damage
only, if not carried out properly.

Depending on circumstances, procedures indicated by CAUTION may also
be linked to serious results.
In any case, it is important to follow the directions for usage.

Store this manual in a safe place so that you can take it out and read it
whenever necessary. Always forward it to the end user.

[DESIGN PRECAUTIONS]

DANGER

Do not write data into the "system area" of the buffer memory of intelligent

function modules. Also, do not use any "prohibited to use" signals as an
output signal to an intelligent function module from the PLC CPU.
Writing data into the "system area" or outputting a signal for "prohibited to
use" may cause a PLC system malfunction.

CAUTION

Do not bunch the control wires or communication cables with the main

circuit or power wires, or install them close to each other.
They should be installed 100 mm(3.94 inch) or more from each other.
Not doing so could result in noise that may cause malfunction.

A - 2

[INSTALLATION PRECAUTIONS]

CAUTION

Use the PLC in an environment that meets the general specifications

contained in the CPU user's manual.
Using this PLC in an environment outside the range of the general
specifications may cause electric shock, fire, malfunction, and damage to
or deterioration of the product.

When installing the module, securely insert the module fixing tabs into the

mounting holes of the base module while pressing the installation lever
located at the bottom of the module downward.
Improper installation may result in malfunction, breakdown or the module
coming loose and dropping. Securely fix the module with screws if it is
subject to vibration during use.

Tighten the screws within the range of specified torque.

If the screws are loose, it may cause the module to fallout, short circuits, or
malfunction.
If the screws are tightened too much, it may cause damage to the screw
and/or the module, resulting in fallout, short circuits or malfunction.

Switch all phases of the external power supply off when mounting or

removing the module.
Not ding so may cause electric shock or damage to the module.

Do not directly touch the conductive area or electronic components of the

module. Doing so may cause malfunction or failure in the module.

[WIRING PRECAUTIONS]

CAUTION

Always ground the FG terminal for the PLC.

There is a r isk of electr ic shock or malfunction.

When turning on the power and operating the module after wiring is

completed, always attach the terminal cover that comes with the product.
There is a risk of electric shock if the terminal cover is not attached.

Tighten the terminal screws within the range of specified torque.

If the terminal screws are loose, it may result in short circuits or malfunction.If
the terminal screws are tightened too much, it may cause damage to the screw
and/or the module, resulting in short circuits or malfunction.

Be careful not to let foreign matter such as sawdust or wire chips get inside

the module.They may cause fires, failure or malfunction.

A - 3

[WIRING PRECAUTIONS]

CAUTION

The top surface of the module is covered with protective film to prevent

foreign objects such as cable offcuts from entering the module when wiring.
Do not remove this film until the wiring is complete.
Before operating the system, be sure to remove the film to provide
adequate ventilation.

Always place the thermocouple at least 100mm (3.94inch) away from the

main circuit cables and AC control lines. Fully keep it away from high­voltage cables and circuits which include harmonics, such as an inverter's
load circuit. Not doing so will make the module more susceptible to noises,
surges and inductions.

REVISIONS

The manual number is given on the bottom right of the top cover.

Print Date

Manual Number Revision

Nov.,2000 IB (NA)-0800155-A First edition
Jan.,2002 IB (NA)-0800155-B Model Q64TDV-GH was added.

Addition
Section2.2
Correction
About the Manuals, Chapter1,
Section2.1,Chapter4,Section5.1
Section5.2

,

Section5.3,Chapter6

This manual confers no industrial property rights or any rights of any other kind, nor
dose 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.

© 2000 MITSUBISHI ELECTRIC CORPORATION

A - 4

CONTENTS

SAFETY PRECAUTIONS..............................................................................A-1

REVISIONS...................................................................................................A-3

CONTENTS...................................................................................................A-4

About the Manuals.........................................................................................A-5

Conformance to the EMC Directive/Low Voltage Directive............................A-5

1. OVERVIEW...................................................................................................1

2. SPECIFICATIONS.........................................................................................1

2.1 Specifications of Q64TD..........................................................................1

2.1.1 Performance specifications.............................................................1

2.1.2 Usable thermocouples and measured temperature range

accuracies.......................................................................................2

2.2 Specifications of Q64TD V -GH.................................................................3

2.2.1 Performance specifications.............................................................3

2.2.2 Usable thermocouples and measured temperature range

accuracies ......................................................................................5

2.2.3 Micro voltage input range and accuracies.......................................5

3. LOADING AND INSTALLATION....................................................................6

3.1 Handling Instructions...............................................................................6

3.2 Installation Envi ronment ..........................................................................6

4. NAMES AND SETTINGS OF THE PARTS....................................................7

5. WIRING.........................................................................................................8

5.1 Wiring Instruc tions...................................................................................8

5.2 External Wiring........................................................................................8

5.3 Intelligent Function Module Switch Setting.............................................10

6. OUTLINE DRAWINGS ................................................................................11

A - 5

About the Manuals

The following manuals are related to this product.
Referring to this list, please request the necessary manuals.

Detailed manual

Manual Name

Manual Number

(Model Code)

Thermocouple Input Module , Channel Isolated
Thermocouple/Micro Voltage Input Module User's
Manual
Q64TD/Q64TDV-GH/GX Configurator-TI (SW1D5C­QTIU-E)

SH-080141

(13JR30)

Conformance to the EMC Directive/Low Voltage Directive
For details on making Mitsubishi PLC conform to the EMC directive and low

voltage instruction when installing it in your product, please see Chapter 3,
"EMC Directive and Low Voltage Instruction" of the User's Manual (Hardware)
of the PLC CPU to use.
The CE logo is printed on the rating plate on the main body of the PLC that
conforms to the EMC directive and low voltage instruction.

1

1. OVERVIEW

This user's manual provides the specifications, handling, part names and
others of the Q64TD thermocouple temperature input module (abbreviated to
the Q64TD) and Q64TDV-GH channel isolated thermocouple/micro voltage
input module (abbreviated to the Q64TDV-GH) used with the MELSEC-Q
series CPU module.

2. SPECIFICATIONS

The following are the specifications of the Q64TD/Q64TDV-GH.

2.1 Specifications of Q64TD

2.1.1 P erformance Specif ications

Item Specifications

Number of channels 4 channels

Temperature
conversion value

16-bit, signed binary

(-2700 to 18200: Value to the first decimal place

10 times)

Out
put

Scaling value 16-bit, signed binary
Standard with which
thermocouple conforms

JIS C1602-1995

Usable thermocouples and
measured temperature range
accuraci e s

Refer to Section 2.1.2

Cold junction temperature
compensation accuracy

1.0

Accuracy As per calculation expression marked *1
Resolution B,R,S,N : 0.3 K,E,J,T : 0.1
Conversion speed 40ms/channel *2
Number of analog input
points

4 channels + Pt100 connection channel/module

Insulation system

Across thermocouple input and earth
Across thermocouple input channels
Across cold junction temperature compensation input
(Pt100) and earth

: Transformer insulation
: Transformer insulation
: No insulation

Dielectric withstand voltage 1780VrmsAC/3 cycles (altitude 2000m)

Insulation re sistance

Across thermocouple input and earth
Across thermocouple input channels

: 500VDC 100M

Ω

or more using

insulation resistance tester

: 500VDC 10M

Ω

or more using

insulation resistance tester
Wire break detection Yes (Each channel independent) *3
E2PROM write count Max. 100 thousand times
Number of occupied points 16 points
Connection terminals 18-point terminal block
Applicable wire size 0.3 to 0.75mm

2

Applicable crimping terminals 1.25-3 R1.25-3(Sleeved crimping terminals are unusable)
Internal current consumption
(5VDC)

0.50A

Weight 0.25kg
Outline dimensions 98(H) 27.4(W) 90(D)mm

*1: Calculate the accuracy in the following method.

(Accur acy) = ( co nvers ion acc urac y) + (t empe rat ure char acte rist ic)

(operating ambient temperature
variation) + (cold junction temperature compensation accuracy)
An operating ambient temperature variation indicates a deviation of the operating ambient
tempera tur e f r om th e 25

5 range.

Example: W hen the t hermoc oupl e used is B , the op erati ng amb ient t emper ature is 35 , and
the measure d temper atur e is 10 00

, the accura cy is:

( 2.5 ) + ( 0.4 ) (5 ) + ( 1 ) =

5.5

*2: The conversion speed is a period from when a temperature is input and converted into a

corresponding digital value until the value is stored into the buffer memory. When two or more
channels are used, the conversion speed is "40ms

number of conversion enabled channels".

*3: At wire break detection, the temperature measurement value right before wire brea k occurrence is held.

2

2.1.2 Usable Thermocouples and Measured Temperature Range Accuracies

Usable

Thermo

couple

Type

Measured

Temperature

Range*1

Conversion Accuracy

(At operating ambient

temperature

25

5 )

Temperature Characteristic

(Per operating ambient

temperature variation of 1 )

Max. Temperature

Error at Ambient

Temperature 55

0 to 600 ——— *3 ——— *3 ——— *3

600 to 800

*2

3.0 13.0

800 to 1700

*2

2.5

0.4

12.5

B

1700 to 1820

——— *3 ——— *3 ——— *3

-50 to 0 ——— *3 ——— *3 ——— *3

0 to 300

*2

2.5 0.4 12.5

300 to 1600

*2

2.0 0.3 9.5

R

1600 to 1760

——— *3 ——— *3 ——— *3

-50 to 0 ——— *3 ——— *3 ——— *3

0 to 300

*2

2.5 0.4 12.5

300 to 1600

*2

2.0 0.3 9.5

S

1600 to 1760

——— *3 ——— *3 ——— *3

-270 to -200 ——— *3 ——— *3 ——— *3

-200 to 0

*2

Larger value of 0.5 and

0.5% of measured
temperature

Larger value of 0.06 and

0.2% of measured
temperature

11.0

0 to 1200

*2

Larger value of 0.5 and

0.25% of measured
temperature

Larger value of 0.06 and

0.02% of measured
temperature

9.0

K

1200 to 1370

——— *3 ——— *3 ——— *3

-270 to -200 ——— *3 ——— *3 ——— *3

-200 to 0

*2

Larger value of 0.5 and

0.5% of measured
temperature

Larger value of 0.06 and

0.15% of measured
temperature

8.5

0 to 900

*2

Larger value of 0.5 and

0.25% of measured
temperature

Larger value of 0.06 and

0.02% of measured
temperature

6.75

E

900 to 1000

——— *3 ——— *3 ——— *3

-210 to -40 ——— *3 ——— *3 ——— *3

-40 to 750

*2

Larger value of 0.5 and

0.25% of measured
temperature

Larger value of 0.06 and

0.02% of measured
temperature

5.625

J

750 to 1200

——— *3 ——— *3 ——— *3

-270 to -200 ——— *3 ——— *3 ——— *3

-200 to 0

*2

Larger value of 0.5 and

0.5% of measured
temperature

Larger value of 0.06 and

0.1% of measured
temperature

6.0

0 to 350

*2

Larger value of 0.5 and

0.25% of measured
temperature

Larger value of 0.06 and

0.02% of measured
temperature

2.625

T

350 to 400

——— *3 ——— *3 ——— *3

-270 to -200 ——— *3 ——— *3 ——— *3

-200 to 0

*2

Larger value of 0.5 and

0.5% of measured
temperature

Larger value of 0.06 and

0.2% of measured
temperature

11.0

0 to 1250

*2

Larger value of 0.5 and

0.25% of measured
temperature

Larger value of 0.06 and

0.02% of measured
temperature

9.375

N

1250 to 1300

——— *3 ——— *3 ——— *3

*1: If a value entered from the thermocouple is outside the measured temperature range given in the table, it is

handled as the maximum/minimum value of the measured temperature range.
*2: The accuracies only in the temperature ranges of Class 1 to 3 (shaded areas) in JIS C1602-1995 apply.
*3: Temperature measurement can be made, but accuracy is not guaranteed.

3

2.2 Specifications of Q64TDV-GH

2.2.1 P erformance Specif ications

Item Specifications

Number of channels 4 channels

Temperature
conversion value

16-bit, signed binary

(-2700 to 18200: Value to the first decimal place

10 times)
Micro voltage
conversion value

16-bit signed binary (-25000 to 25000)

Out
put

Scaling value 16-bit, signed binary

Standard with which
thermocouple conforms

JIS C1602-1995

Usable thermocouples and
measured temperature range
accuraci e s

Refer to Section 2.2.2

Cold junction temperature
compensation accuracy

1.0

Thermocouple input
accuracy

As per calculation expression marked *1

Micro voltage input range

-100mV to +100mV (input resistance 2M

Ω

or more)

Micro voltage input accuracy Refer to Section 2.2.3.

Thermocouple
input

B:0.7 R,S:0.8 K,T:0.3 E:0.2 J:0.1 N:0.4

Resolution

Micro voltage
input

4 V

Sampling period 20ms/channel *2
Conversion speed Sampling period 3*3
Number of analog input
points

4 channels + Pt100 connection channel/module

Absolute maximum input 5V

Insulation system

Across thermocouple input/micro voltage input and
earth
Across thermocouple input/micro voltage input
channels
Across cold junction temperature compensation input
(Pt100) and earth

: Transformer insulation
: Transformer insulation
: No insulation

Dielectric withstand voltage 1780VrmsAC/3 cycles (altitude 2000m)

Insulation re sistance

Across thermocouple input/micro
voltage input and earth
Across thermocouple input/micro
voltage input channels

: 500VDC 100M

Ω

or more using

insulation resistance tester

: 500VDC 10M

Ω

or more using

insulation resistance tester
Wire break detection Yes (Each channel independent) *4
E2PROM write count Max. 100 thousand times
Number of occupied points 16 points
Connection terminals 18-point terminal block
Applicable wire size 0.3 to 0.75mm

2

Applicable crimping terminals 1.25-3 R1.25-3(Sleeved crimping terminals are unusable)
Internal current consumption
(5VDC)

0.50A

Weight 0.25kg
Outline dimensions 98(H) 27.4(W) 112(D)mm

*1: Calculate the accuracy in the following method.

(Accur acy) = ( co nvers ion acc urac y) + (t empe rat ure char acte rist ic)

(operating ambient temperature
variation) + (cold junction temperature compensation accuracy)
An operating ambient temperature variation indicates a deviation of the operating ambient
tempera tur e f r om th e 25

5 range.

Example: W hen the t hermoc oupl e use d is B, the op erat ing am bient tem peratur e is 3 5 , and
the measure d temper atur e is 10 00

, the accura cy is:

(

3.5

) + ( 0.4 ) (5 ) + ( 1 ) =

6.5

4

*2: A period until a thermocouple input value/micro voltage input value is converted

into a temperature

measurement value/micro voltage conversion value.

*3: A period until a thermocouple input value/micro voltage input value is converted into a

temperature measurement value/micro voltage conversion value and the resultant value is stored
into the buffer memory.
The conversion speed is a delay time that occurs during sampling processing. It is independent of
averaging processing.
Example: When two channels are enabled for conversion
(Conversion speed) = (sampling period)

3

= (20ms

2 channels) 3

= 120ms

CH.1 CH.2

Input 1)

Conversion speed

Conversion processing

Buffer memory

Input 2)

CH.1 CH.2

CH.1 CH.2 CH.1 CH.2 CH.1 CH.2

Input 1)

Input 2)

Conversion speed

*4:At wire break detection, the temperature measurement value/micro voltage conversion value right

before wire break occurrence is held.

5

2.2.2 Usable Thermocouples and Measured Temperature Range Accuracies

Usable

Thermo

couple

Type

Measured

Temperature

Range*1

Conversion Accuracy

(At operating ambient

temperature

25

5 )

Temperature Characteristic

(Per operating ambient

temperature variation of 1 )

Max. Temperature

Error at Ambient

Temperature 55

0 to 600 ——— *3 ——— *3 ——— *3

600 to 800

*2

4.0 14.0

800 to 1700

*2

3.5

0.4

13.5

B

1700 to 1820

——— *3 ——— *3 ——— *3

-50 to 0 ——— *3 ——— *3 ——— *3

0 to 300

*2

4.0 14.0

300 to 1600

*2

3.5

0.4

13.5

R

1600 to 1760

——— *3 ——— *3 ——— *3

-50 to 0 ——— *3 ——— *3 ——— *3

0 to 300

*2

4.0 14.0

300 to 1600

*2

3.5

0.4

13.5

S

1600 to 1760

——— *3 ——— *3 ——— *3

-270 to -200 ——— *3 ——— *3 ——— *3

-200 to 0

*2

2.0 8.25

0 to 200

*2

1.5 7.75

0 to 1200

*2

2.0

0.25

8.25

K

1200 to 1370

——— *3 ——— *3 ——— *3

-270 to -200 ——— *3 ——— *3 ——— *3

-200 to 200

*2

1.5 5.25

200 to 900

*2

2.0

0.15

5.75

E

900 to 1000

——— *3 ——— *3 ——— *3

-210 to -40 ——— *3 ——— *3 ——— *3

-40 to 200

*2

1.5 5.25

200 to 750

*2

2.0

0.15

5.75

J

750 to 1200

——— *3 ——— *3 ——— *3

-270 to -200 ——— *3 ——— *3 ——— *3

-200 to 0

*2

2.0 4.5

0 to 350

*2

1.5

0.1

4.0

T

350 to 400 ——— *3 ——— *3 ——— *3

-270 to -200 ——— *3 ——— *3 ——— *3

-200 to 0

*2

2.5 8.75

0 to 200

*2

2.0 8.25

0 to 1250

*2

2.5

0.25

8.75

N

1250 to 1300

——— *3 ——— *3 ——— *3

*1: If a value entered from the thermocouple is outside the measured temperature range given in the table, it is

handled as the maximum/minimum value of the measured temperature range.
*2: The accuracies only in the temperature ranges of Class 1 to 3 (shaded areas) in JIS C1602-1995 apply.
*3: Temperature measurement can be made, but accuracy is not guaranteed.

2.2.3 Micro voltage input range and accuracies

Conversion Accuracy

Input Type

Measurable Voltage

Range

(At 25 5
operating ambient
temperature)

(At 0 to 55
operating ambient
temperature)

Micro voltage input -100 to 100mV 0.2mV 0.8mV

6

3. LOADING AND INSTALLATION

3.1 Handling Instructions
(1) Do not drop the case and connectors of the module and subject them to

hard impact.

(2) Do not remove the printed circuit boards of the module from the case. Doing

so can cause a failure.

(3) Be careful to prevent wire-offcuts and other foreign matter from entering the

module. They can cause a fire, failure or malfunction.

(4) To prevent wire-offcuts and other foreign matter from entering the module

during wiring, the module carries a foreign matter ingress prevention label
at its top. During wiring, do not remove this label. For system operation,
always remove this label to ensure adequate heat dissipation.

(5) Tighten the mounting and terminal screws of the module within the following

ranges.

Screw Location Tightening Torque Range
Module mounting screw (M3 screw) 36 to 48 N · cm
Terminal block terminal screw (M3 screw) 42 to 58 N · cm
Terminal block mounting screw (M3.5 screw) 66 to 89 N · cm

(6) To mount the module on the base, securely insert the module fastening

latch into the fastening hole on the base. Improper installation may result in
a module malfunction, or may cause the module to fall off.

3.2 Installation Environment
Refer to the user's manual of the CPU module used.

7

4. NAMES AND SETTINGS OF THE PARTS

Terminal Block Layout

Terminal number Signal name

1RTD +
2
3RTD ­4
5
6 CH1 SLD
7 CH2 SLD
8 CH1 +

9 CH2 +
10 CH1 ­11 CH2 ­12 CH3 +
13 CH4 +
14 CH3 ­15 CH4 ­16 CH3 SLD
17 CH4 SLD
18 FG

1)

2)

Q64TD

RUN

ERROR

1
2
3
4
5
6
7
8

9
10
11
12
13
14
15
16
17
18

R
T
D

CH1+
CH2+

1­2-

SLD

SLD

CH3+
CH4+

3­4-

SLD

SLD

(FG)

Q64TD

3)

4)

1)

2)

Q64TDV-GH

RUN

ERROR

1
2
3
4
5
6
7
8

9
10
11
12
13
14
15
16
17
18

R

T

D

CH1+
CH2+

1­2-

SLD

SLD

CH3+
CH4+

3­4-

SLD

SLD

(FG)

Q64TDV

-GH

3)

4)

Q64TD

Q64TDV-GH

Number Name and Appearance Description

1) RUN LED

Indicates the operating status of the Q64TD/Q64TDV-GH.
On : Operating normally.
Flicker : Offset/gain setting mode
Off : 5V power-off , Watchdog timer error occurrence or

module change enabled status during online module
change

2) ERR LED

Indicates the error status of the Q64TD/Q64TDV-GH.
On : Error occurrence
Flicker : Switch setting error

Switch 5 was set to other than 0 in intelligent function
module switch setting of GX Developer.

Off : Operating normally.

3) Terminal block Used for wiring of the thermocouple, etc.

4)

Cold junction temperature
compensation resistor

Used for cold junction temperature compensation using Pt100.

8

5. WIRING

5.1 Wiring Instructions
(1) Use separate cables for the AC control circuit and Q64TD/Q64TDV-GH's

external input signals to avoid the influence of AC side surges and
inductions.

(2) Always place the thermocouple/micro voltage signal cable at least 100mm

away from the main circuit cables and AC control circuit lines.
Fully keep it away from high-voltage cables and circuits which include
harmonics, such as an inverter's load circuit. Not doing so will make the
module more susceptible to noises, surges and inductions.

(3) Insulation-sleeved crimping terminals cannot be used with the terminal

block.
It is recommended to fit mark tubes or insulation tubes to the wire
connection parts of the crimping terminals.

5.2 External Wiring
(1) Thermocouple

RTD

Input

amplifier

CH1

Filter

Transformer

CH4

Pt100

*1

*2

*1:As cables, always use shielded compensation conductors.
Also, wire the shielded cables as short as possible.
*2:Always connect to the eart h ter mi na l of the control box.

+

-

SLD

SLD

FG

Input

amplifier

Input

amplifier

Filter

Transformer

+

-

+

-

9

(2) Micro voltage signal

RTD

Input

amplifier

CH1

Filter

Transformer

CH4

Pt100

*1

*2

*1:As cables, always use shield ed conductors.
Also, wire the shielded cables as short as possible.
*2:Always connect to the earth terminal of the control box.

+

-

SLD

SLD

FG

Input

amplifier

Input

amplifier

Filter

Transformer

+

-

+

-

Load cell or like

Load cell or like

10

5.3 Intelligent Function Module Switch Setting
Make the intelligent function module switch se tting using the I/O assignment

setting of GX Developer.
You can make setting easily by entering hexadecimal numbers into 4 digits.

Setting Item

Input type Set value
Thermocouple K 0
Thermocouple E 1

Thermocouple J 2
Thermocouple T 3
Thermocouple B 4
Thermocouple R 5
Thermocouple S 6
Thermocouple N 7

Micro voltage input

*

8

Switch 1

Input type setting

CH4 CH3CH2 CH1

H

Offset/gain setting Set value

Factory setting 0

User setting 1

Switch 2

Offset/gain setting

CH4 CH3CH2 CH1

H

Switch 3 Empty
Switch 4

H

0

H

: With cold junction temperature compensation

1 to F

H

: Without cold junction temperature compensation

0

H

: Normal mode

1 to F

H

: Offset/gain setting mode

Invalid when the
setting of Switch
1 is 8 (micro
voltage input)

Switch 5 Empty

* Micro voltage input can be set on the Q64TDV-GH only.

11

6. OUTLINE DRAWINGS

1) Q64TD

27.4(1.08)

Q64TD

RUN

ERROR

1
2
3
4
5
6
7
8

9
10
11
12
13
14
15
16
17
18

R

T

D

CH1+
CH2+

1­2-

SLD
SLD

CH3+
CH4+

3­4-

SLD
SLD

(FG)

Q64TD

2(0.08

)

112(4.41)

98 (3.86)

105(4.14)

2(0.08)

5(0.20)

Unit: mm (in.)

2) Q64TDV-GH

27.4(1.08)

Q64TDV-GH

RUN

ERROR

1
2
3
4
5
6
7
8

9
10
11
12
13
14
15
16
17
18

R
T
D

CH1+
CH2+

1­2-

SLD

SLD

CH3+
CH4+

3­4-

SLD

SLD

(FG)

Q64TDV

-GH

2(0.08)

112(4.41)

98 (3.86)

105(4.14)

2(0.08)

5(0.20)

Unit: mm (in.)

Warranty
Mitsubishi will not be held liable for damage caused by factors found not to be the
cause of Mitsubishi; machine damage or lost profits caused by faults in the Mitsubishi
products; damage, secondary damage, accident compensation caused by special
factors unpredictable by Mitsubishi; damages to products other than Mitsubishi
products; and to other duties.

For safe use

! This product has been manufactured as a general-purpose part for general industries,

and has not been designed or manufactured to be incorporated in a device or system
used in purposes related to human life.

! Before using the product for special purposes such as nuclear power, electric power,

aerospace, medicine or passenger movement vehicles, consult with Mitsubishi.

! This product has been manufactured under strict quality control. However, when

installing the product where major accidents or losses could occur if the product fails,
install appropriate backup or failsafe functions in the system.

U.S.A Mitsubishi Electric Automation Inc.
500 Corporate Woods Parkway Vernon
Hills, IL 60061
Tel : +1-847-478-2100
Brazil MELCO-TEC Rep. Com.e Assessoria
Tecnica Ltda.
Av. Rio Branco, 123-15 ,and S/1507,
Rio de Janeiro, RJ CEP 20040-005,
Brazil
Tel : +55-21-221-8343
Germany Mitsubishi Electric Europe B.V. German
Branch
Gothaer Strasse 8 D-40880 Ratingen,
GERMANY
Tel : +49-2102-486-0
U.K Mitsubishi Electric Europe B.V. UK
Branch
Travellers Lane, Hatfield, Herts., AL10
8XB,UK
Tel : +44-1707-276100

Italy Mitsubishi Electric Europe B.V. Italian
Branch

Centro Dir. Colleoni, Pal. Perseo - Ingr.2
Via Paracelso 12, 20041 Agrate B.,
Milano, Italy
Tel:+39-039-60531

Spain Mitsubishi Electric Europe B.V. Spanish
Branch Carretera de Rubi 76-80
08190 - Sant Cugat del Valles,
Barcelona, Spain
Tel:+34-935-653135

South Africa Circuit Breaker Industries LTD.
Private Bag 2016, Isando 1600,
Johannesburg, South Africa
Tel : +27-11-928-2000

Hong Kong Ryoden Automation Ltd.
10th Floor, Manulife Tower, 169 Electric
Road, North Point, HongKong
Tel : +852-2887-8870

China Ryoden International Shanghai Ltd.
3F Block5 Building Automation
Instrumentation Plaza 103 Cao Bao Rd.

Shanghai 200233 China
Tel : +86-21-6475-3228
Taiwan Setsuyo Enterprise C o. , Ltd.
6F., No.105 Wu-Kung 3rd.RD, Wu-Ku
Hsiang, Taipei Hsine, Taiwan
Tel : +886-2-2299-2499
Korea HAN NEUNG TECHNO CO.,LTD.
1F Dong Seo Game Channel Bldg.,
660-11, Deungchon-dong Kangsec-ku,
Seoul, Korea
Tel : +82-2-3668-6567
Singapore Mitsubishi Electric Asia Pte, Ltd.
307 ALEXANDRA ROAD #05-01/02,
MITSUBISHI ELECTRIC BUILDING
SINGAPORE 159943
Tel : +65-473-2480
Thailand F. A. Tech Co.,Ltd.
898/28,29,30 S.V.City Building,Office
Tower 2,Floor 17-18 Rama 3 Road,
Bangkpongpang, Yannawa,
Bangkok 10120
Tel : +66-2-682-6522
Indonesia P.T. Autoteknindo SUMBER MAKMUR
Jl. Muara Karang Selatan Block A Utara
No.1 Kav. No.11 Kawasan Industri/
Pergudangan Jakarta - Utara 14440
Tel : +62-21-663-0833
India Messung Systems Put,Ltd.
Electronic Sadan NO:111 Unit No15,
M.I.D.C BHOSARI,PUNE-411026
Tel : +91-20-7128927
Australia Mitsubishi Electric Australia Pty. Ltd.
348 Victoria Road, PostalBag, No 2,
Rydalmere, N.S.W 2116, Australia
Tel : +61-2-9684-7777

Country/Region Sales office/Tel Country/Region Sales office/Tel

When exported from Japan, this manual does not require application to the Ministry
of Economy, Trade and Industry for service transaction permission.

Specifications subject to change without notice.

Printed in Japan on recycled paper.

HEAD OFFICE : 1-8-12, OFFICE TOWER Z 14F HARUMI CHUO-KU 104-6212, JAPAN

NAGOYA WORKS : 1-14, YADA-MINAMI5, HIGASHI-KU, NAGOYA, JAPAN