本製品は審査登録
（ISO9001）
された工場で製造されたものです。
TEMPERATURE SENSOR
Thermocouple, Resistance Temperature Sensor, Thermistor
TOHO ELECTRONICS INC.
Business
Portfolio
Planning, designing, producing and marketing a variety of temperature control equipment cored around temperature sensors, as well as marketing other
peripheral equipment.
Control Equipment
Sensors
General purpose digital controllers
Temperature sensors
TTM-200 Series
Humidity sensors
TTM-000 Series
High-performance digital controller
Other Peripheral Equipment
TTM-509
Recorders
Program controller
TRM10C
TTM-300 Series
Solid-state relay
Dual controller
TRS Series
TTX-700
Power regulator
Substrate type controllers
TRV1 Series
TTM-00B
Heaters
TTM-10BS
Silicone rubber heater
TTM-00BT
Cartridge heater
TTM-10L
Programmable display unit
Digital indicator
V Series
TRM-006A
Tabletop temperature controllers
BX-303
TRZ-303
Wall-hung temperature controllers
DT Series
TP-673 Series
CONTENTS
Platinum Resistance Temperature Sensor, Thermocouple, Thermistor
2
Extra-fine Sheath Type thermocouple
3
Seal pipe Types (Platinum Resistance Temperature Sensor, Thermocouple, Thermistor)
4 to 5
Sheath Types (Platinum Resistance Temperature Sensor, Thermocouple)
6 to 7
Explosion-proof Types Exd II CT6 (Platinum Resistance Temperature Sensor, Thermocouple)
8
Accessories
9
Specialty Type (Platinum Resistance Temperature Sensor)
10
In-line Temperature Sensor
11
Teflon Pipe (TE Type)
12
Teflon Pipe (TA Type)
13
Teflon Pipe (TH Type)
14
Quartz Pipe Type (GE-PT Type)
15
Thermocouples for Measuring Surface Temperature
16
Handy Types
17
Data
18 to 19
Compensating Lead wires for Thermocouples
Thermocouple Electromotive Force Tables, Resistance Temperature Sensor
Resistance Value Tables, Thermistor Resistance Value Tables
Traceability System Diagram
1
20
21 to 23
24
Platinum Resistance Temperature Sensor, Thermocouple, Thermistor
◆ Appendix
Industrial temperature detection elements
have been employed as JIS regulation from
long ago, but in recent years, a transformation is underway as conventional models are
being abandoned for newly prescribed ones.
Therefore, be sure to use the correct product
by checking the following tables providing
marks, sizing and temperature classification.
(Please see page 15 for details on compensating lead wires.)
Platinum Resistance Temperature Sensor Tolerance Classifications
（JIS C 1604）
Mark
Resistance value R100/R0 value
Class Temperature tolerance
Pt100
100Ω
at.0℃
1.3850
A
±（0.15+0.002￨t￨）℃
JPt100
100Ω
at.0℃
1.3916
B
±（0.3+0.005￨t￨）℃
● Temperature tolerance ¦t¦ is measured temperature denoted by temperature (ºC) unrelated to ± amount.
● With JIS C1604-1997, JPt100 has been superseded, but production is allowed.
Thermocouple Tolerance
Classifications
（JIS C 1602）
（JIS C 1605）
Tolerance classifications (new)
Type
B
R,S
Class 1
Class 2
Class 3
Temperature
range tolerance
－
－
－
－
600ºC or higher less than 800ºC
±4ºC
Temperature
range tolerance
－
－
Old class
－
600ºC or higher Less than 1700ºC 800ºC or higher Less than 1700ºC
±0.0025 ¦t¦
±0.005 ¦t¦
－
0.5class
Temperature 0ºC or higher Less than 1100ºC 0ºC or higher Less than +600ºC
range tolerance ±1ºC
±1.5ºC
－
－
Temperature
range tolerance
－
－
600ºC or higher Less than 1600ºC
±0.0025 ¦t¦
－
－
Old class
－
0.25class
－
Temperature -40ºC or higher Less than +375ºC -40ºC or higher Less than +333ºC -167ºC or higher Less than +40ºC
range tolerance ±1.5ºC
±2.5ºC
±2.5ºC
N
Temperature +375ºC or higher Less than 1000ºC 333ºC or higher Less than 1200ºC -200ºC or higher Less than 167ºC
range tolerance ±0.004 ¦t¦
±0.0075 ¦t¦
±0.015 ¦t¦
Old class
－
－
－
Temperature -40ºC or higher Less than +375ºC -40ºC or higher Less than +333ºC -167ºC or higher Less than +40ºC
range tolerance ±1.5ºC
±2.5ºC
±2.5ºC
K
Temperature +375ºC or higher Less than 1000ºC 333ºC or higher Less than 1200ºC -200ºC or higher Less than 167ºC
range tolerance ±0.004 ¦t¦
±0.0075 ¦t¦
±0.015 ¦t¦
Old class 0.4class
0.75class
1.5class
Temperature -40ºC or higher Less than +375ºC -40ºC or higher Less than +333ºC -167ºC or higher Less than +40ºC
range tolerance ±1.5ºC
±2.5ºC
±2.5ºC
E
Temperature 375ºC or higher Less than 800ºC 333ºC or higher Less than 900ºC -200ºC or higher Less than 167ºC
range tolerance ±0.004 ¦t¦
±0.0075 ¦t¦
±0.015 ¦t¦
Old class 0.4class
J
0.75class
1.5class
Temperature -40ºC or higher Less than +375ºC -40ºC or higher Less than +333ºC
range tolerance ±1.5ºC
±2.5ºC
－
－
Temperature 375ºC or higher Less than 750ºC 333ºC or higher Less than 750ºC
range tolerance ±0.004 ¦t¦
±0.0075 ¦t¦
－
－
Old class 0.4class
－
0.75class
Temperature -40ºC or higher Less than +125ºC -40ºC or higher Less than +133ºC -67ºC or higher Less than -67ºC
range tolerance ±0.5ºC
±1ºC
±1ºC
T
Temperature 125ºC or higher Less than 350ºC 133ºC or higher Less than 350ºC -200ºC or higher Less than -67ºC
range tolerance ±0.004 ¦t¦
±0.0075 ¦t¦
±0.015 ¦t¦
Old class 0.4class
0.75class
1.5class
Note ● Tolerance denotes the maximum allowable value derived by subtracting the temperature of the temperature contact area from the temperature converted from the thermo-electromotive force made available by the standard thermo-electromotive force table.
● R,S thermocouple’s tolerance classification class 1 applies to standard thermocouples.
Remark 1: The ¦t¦ symbol is the value denoting a temperature (ºC) that is unrelated to the + and – marks of the measured temperature.
2
Ulta-fine Sheath Type Thermocouple
◆ Features
● Ultra-fine sheath thermocouples come in external diameters of 0.15, 0.25 and 0.5 to enable precise
measuring of miniature sections.
● Because they are ultra-fine, their thermal capacity is small, which enables them to respond sensitively
to even minute or sudden temperature changes.
● As they are truly flexible and bending them is easy, they can be mounted with ease to locations with
multiple curves.
● Temperature measuring range can be measured as a point from a plane.
◆ Construction
◆ Temperature measuring contact area types
● Grounding configuration (G)
Metal sheath and electrically contacted temperature measuring contact area.
Sheath
● Ungrounded configuration (U)
Metal sheath and electrically insulated temperature measuring contact area.
Probes
● Temperature measuring contact area has two configurations: grounded and ungrounded. (Note that for a diameter of 0.25 the standard configuration is grounded.)
◆ Shape
(If configuration is ungrounded for external diameter of 0.5, the maximum length of L1 must be no more than 300mm.)
● For lead wire, use Teflon coated thermocouple wire (0.32 diameter) or compensating lead wires.
◆ Standard Specifications
External
dimension Thermocouple
(mm)
Probe
diameter
(mm)
Sheath
material
Sheath wall
thickness
(mm)
Electrical
resistance value
(Ω/m) at 20ºC
Weight
(g/m)
Application limit
temperature
(ºC)
0.15
K
0.03
SUS316
0.02
1200
0.1
500
0.25
K
0.04
SUS316
0.05
600
0.4
500
0.5
K
0.09
SUS316
0.09
152.5
1.3
500
＊ See page 6 for model architecture charts. Please contact us for information regarding different types of thermocouples.
3
Seal Pipe Types (Platinum Resistance Temperature Sensor, Thermocouple, Thermistor)
◆ Model architecture standard chart [K Model]
◆ Appendix
Seal tube type platinum resistance
temperature sensors and thermistors
have resistive elements inserted in
metal protective pipes, so insulation
is packed in between protective piping and restive elements.
(Depending on specifications, there
are some pipes that cannot be filled
with insulation material.)
(Model display example)
For fixing screw model, with small terminal box, element K, external diameter of 6.0mm for protective pipe,
protective piping length (L1) of 350mm, protective piping length (L2) of 50mm, screw size of PT1/2
K3SK60×350×50R4
K3
S
Model
Terminal
box
60 × 350 × 50
K
Element
types
Protective pipe Protective pipe Protective pipe
external diameter D length L1
length L2
K1 S small Thermocouple 30 3.0
B
JIS B 32 3.2
K2 L large R
JIS R
40 4.0
S
JIS S
K3
N
JIS N 48 4.8
K
JIS K 50 5.0
E
JIS E 60 6.0
J
JIS J 64 6.4
T
JIS T
80 8.0
Platinum resistor
100 10.0
PT Pt100
JPT JPt100
Thermistor
A A type
B B type
CD CD type
H H type
◆ Protective piping material and surface finish
◦Teflon tube processing
◦Teflon coated
◦Electro polishing
(SUS304, SUS316, SUS316L)
◦Titanium
Sectional view
Protective tube
Resistive element Insulation
R4 −
150 150mm
Flange
(secure)
Screw
Accessory
0
0mm R（PT）
S small Compression
fitting
R1 R 1/8
250 250mm 50 50mm R2 R 1/4 L large
Movable
R3 R 3/8
350 350mm
flanges A, B
R4 R 1/2
R5 R 3/4
Double-layered
protective tube
R6 R 1
Please designate Please designate
lengths different lengths different
to above.
to above.
G
（PF）
G1 G 1/8
G2 G 1/4
G3 G 3/8
G4 G 1/2
G5 G 3/4
G6 G 1
◆ Model architecture standard chart [M model]
(Model display example)
For Platinum resistance temperature sensor with fixing screw, external diameter of 3.0mm for protective pipe, protective
piping length 100mm, Teflon coated wire 1m, with M3.5 insulated open type terminal, and PT1/8
M4PT30×100－D1×2DR1
M4
PT
Element
types
Model
M1 Thermocouple
M2
M3
M4
M5
B
R
S
N
K
E
J
T
JIS
JIS
JIS
JIS
JIS
JIS
JIS
JIS
Ｂ
Ｒ
Ｓ
Ｎ
Ｋ
Ｅ
Ｊ
Ｔ
M6
Platinum resistor
M7 PT Pt100
JPT JPt100
Thermistor
A A type
B
B type
CD CD type
H
H type
30
×
100
−
D
Protective pipe Protective pipe Lead wire type
external diameter D length L1 (heat resistance ºC of lead wire)
16
1.6 45
20
2.0 100 100mm
23
2.3 150 150mm
30
3.0 250 250mm
32
3.2 350 350mm
40
4.0
48
Please designate
4.8 lengths different
to above.
50
5.0
60
6.0
64
6.4
80
8.0
100 10.0
Lead wire
length L2
45mm Thermocouple 1
Ａ
Ｂ
Ｃ
CS
Ｔ
Vinyl coated
(max 90ºC),
diameter 3 or more
Glass coated
(max 180ºC),
diameter 3 or more
Teflon insulation,
glass coated
(max 300ºC),
diameter 3 or more
Teflon insulation,
glass coated
(max 300ºC),
diameter 4.8 or more
Teflon coated
(max 200ºC),
diameter 3 or more
＊C & CS are K
thermocouples
Temperature measuring resistor
1
Treatment A
1000mm 1 Caulking
D
Teflon insulated
glass coated
(max 300ºC),
diameter 3 or more
Ｅ General vinyl cabtire Ｋ General vinyl cabtire
(max 80ºC),
(max 80ºC),
diameter 5 or more diameter 5 or more
Ｌ
Heat resistant
vinyl cabtire
(max 105ºC),
diameter 5 or more
Models M1 and Protective pipe
M2 cannot be material:
made with
SUS.316
Ｇ Silicon coated cabtire Ｍ Silicon coated cabtire
diameters smaller
(max 180ºC),
(max 180ºC),
than 3.0mm.
diameter 6 or more diameter 6 or more
8 Filler + spring
R1
Treatment B
Ａ 7mm muki
2000mm 2 Caulking +
Ｂ
3
3000mm double layered contraction tube
Ｃ
Please designate 3 Caulking +
lengths different silicon
to above.
contraction tube
Ｄ
4 Caulking + Spring 5 Filler
Ｅ
6 Filler +
double layered contraction tube
Ｆ
7 Filler +
Thermistor
silicon
Ｈ Teflon coated
contraction tube
DT Teflon coated cabtire Ｊ
(max 200ºC),
diameter 4.8 or more Heat resistant
vinyl cabtire
(max 105ºC),
diameter 5 or more
2
2
Ｄ Teflon strand
(max 200ºC),
(max 200ºC),
diameter 3 or more diameter 3 or more
Ｆ
×
7mm extra
solder
Flange
(secure)
Screw
R（PT）
Ｓ small
R1 R1/8
R2 R1/4
R3 R3/8
M3 Y type
terminals with R4 R1/2
insulation
R5 R3/4
M3.5 Y type R6 R1
terminals with
insulation
G
（PF）
178 type tab
on terminals G1 G1/8
with insulation G2 G1/4
M3.5 bare
terminals
Ｌ large
Ａ
Ｂ
Ｃ
Accessory
Compression
fitting
Movable
flanges A, B
Double-layered
protective pipe
Ｄ
Ｅ
Ｆ
G3 G3/8 Ｇ
G4 G1/2
G5 G3/4
G6 G1
M
M6
（mm）
6
M8
8
M10
10
M12
12
●Please designate the class of platinum resistance temperature sensor or thermocouple required at time of order.
●See material columns on page 16 and 17 for details about dimensions of screws and flanges.
●For platinum resistance temperature sensors, production of protective pipes with external diameters starting from 1.6mm is possible, but these are limited to the M3 and M4 models.
D after element type.
●For double elements and double-couples, please designate 4
Standard shape
M1
M6
M2
M7
M3
K1
M4
K2
M5
K3
Please see data paper for details of items marked with“※”symbol.
5
Sheath Types (Platinum Resistance Temperature Sensor, Thermocouple)
◆ Model architecture standard chart [KS & HS Models]
◆ Appendix
Sheath type temperature sensors
are constructed as a single unit
with a mechanically processed
mineral insulation material sandwiched between the metal sheath
and internal probe.
(Model display example)
For fixing screw model, with small terminal box, element K, sheath external diameter of
6.4mm, sheath length (L1) of 350mm, sheath length (L2) of 50mm, screw size of PT1/2
KS3SK64×350×50R4
KS3
◆ Features
◦ Bends easily
◦ Excellently durable
◦ Mechanically robust
◦ Not easily violated by external
ambient atmosphere
◦ Offers thorough heat resistance
Model
S
K
Terminal
box
64
Element
types
KS1 S small Thermocouple
Ｎ
JIS Ｎ
KS2 L large Ｋ
JIS Ｋ
Ｅ
JIS Ｅ
KS3
Ｊ
JIS Ｊ
Ｔ
JIS Ｔ
HS1
Sectional view
Sheath external Sheath Sheath
diameter D length L1 length L2
32
R4
−
Screw
−
Flange
Connector
(secure)
0mm R（PT）
S small Ｍ Metal
connector
R1 R1/8
4.8 250mm 50 50mm R2 R1/4 L large
Ｑ Thermocouple
R3 R3/8
designated
6.4 350mm
R4 R1/2
connector
R5 R3/4
8.0 Please
Please
designate designate R6 R1
3.2 150mm
48
64
80
Platinum resistor
PT Pt100
JPT JPt100
HS2
× 350 × 50
0
lengths
lengths
（PF）
different to different to G
G1 G1/8
above.
above.
G2
G3
G4
G5
G6
G1/4
G3/8
G1/2
G3/4
G1
◆ Model architecture standard chart [S model]
(Model display example)
For platinum resistance temperature sensor with fixing screw, sheath external diameter of 3.2mm, sheath length 100mm,
Teflon coated wire 1m, with M3.5 insulated open type terminal, and PT1/8
S3PT32×100×0D1×2DR1
S3
PT
Model
Element
types
32
×
100
×
Thermocouple 015 0.15 45
JIS. SN 025 0.25
S2
05 0.5 100
Ｋ JIS. SK Published separately
S3
45mm 0
S5
Ｊ
Ｔ
JIS. SE 10
1.0 150
JIS. SJ 15 ＊1.5
JIS. ST
16
1.6
250
350
Platinum resistor 20 ＊2.0
PT
D
1
Pt100 23
100mm 50
150mm 100
2.3
64
80
8.0
48
100mm
250mm Please
designate
lengths
350mm different to
above.
Please
3.2 designate
lengths
4.8 different to
above.
6.4
JPT JPt100 32
50mm
Sheath
material:
Please
contact us SUS.316
about
availability Please
of products contact us
marked with about
star“＊” materials
different to
symbol.
those above.
Ａ Vinyl coated
(max 90ºC),
7 leads, 0.3mm
Ｂ Glass coated
(max 150ºC),
7 leads, 0.3mm
BS
Glass coated
external stainless
steel shield
(max 150ºC),
7 leads, 0.3mm
Ｃ
Teflon insulation,
glass coated
(max 300ºC),
12 leads, 0.18mm
CS
Ｔ
× 2
Lead wire
length L3
0mm Thermocouple 1
Ｎ
Ｅ
−
Sheath external Sheath
Sheath Lead wire type
diameter D length L1 length L2 (heat resistance ºC of lead wire)
S1
S4
0
× D
Treatment A
1000mm 1
2
2000mm
3
3000mm
R1
Treatment B
Ａ 7mm muki
Screw
R（PT）
R1/8
R2
R1/4
Ｂ 7mm extra solder
3
Ｃ M3 Y type
R3
terminals with
R4
insulation
Please designate
4
lengths different
to above.
Ｓ small
R1
2
R5
Ｄ M3.5 Y type
terminals with R6
insulation
Flange
(secure)
Ｌ large
R3/8 Ａ
R1/2
R3/4
R1
Ｂ
Ｃ
5 Filler
Ｄ
G（PF）
Ｅ 178 type tab
on terminals
G1 G1/8
Ｅ
with insulation
6 Filler +
Teflon insulation,
G2 G1/4
double layered
glass coated
external stainless
G3 G3/8 Ｆ
contraction tube Ｆ M3.5 bare
steel shield
terminals
(max 300ºC),
G4 G1/2
12 leads, 0.18mm
7 Filler + silicon
Ｇ
G5 G3/4
Resistance
temperature
sensor
contraction tube
Teflon coated
(max 200ºC), Ｄ Teflon coated
G6 G1
7 leads, 0.3mm
cabtire
8 Filler + spring
＊C & CS are K thermocouples
Ｅ
(max 200ºC),
20 leads, 0.18mm
Ｆ
Heat resistant
vinyl cabtire
(max 105ºC),
12 leads, 0.12mm
Ｇ
Silicon coated
cabtire
(max 180ºC),
12 leads, 0.12mm
General vinyl
cabtire
(max 80ºC),
12 leads, 0.12mm
M
M6
6mm
M8
8mm
M10
10mm
M12
12mm
●Please designate the class of platinum resistance temperature sensor or thermocouple required at time of order.
●Epoxy resin that withstands heat up to 150ºC is used on the inside of the sleeve, so if temperature will be greater than 150ºC, please inform us at time of order.
●See material columns on page 16 and 17 for details about dimensions of screws and flanges.
●For platinum resistance temperature sensors, production of protective tubes with external diameters starting from 1.6mm is possible, but these are limited to the M3 and M4 models.
●For double elements and double-couples, please designate D after element type.
6
Standard shape
S1
KS1
S2
KS2
S3
KS3
S4
HS1
S5
HS2
7
Explosion-proof Types Exd II CT6 (Platinum Resistance Temperature Sensor, Thermocouple)
D1
◦ Explosion-proof detectors are
used in locations where there
is a danger of explosion because the atmosphere contains combustible gas or
combustible liquid. We have
wide range of products available for your use, including
protective pipe shapes and
materials to go with the platinum resistance temperature
sensors and thermocouples.
◆ Explosion-proof construction classifications
◆ Explosion rating classifications
Mark
Explosion-proof construction
d
Hydraulic explosion-proof construction
o
Pressurized explosion-proof construction
P
Increased safety explosion-proof construction
e
Intrinsically safe explosion-proof construction
i
Special explosion-proof construction
s
Class
Explosion rating
Explosion-proof construction classifications
Class
D2
◆ Ignition Temperature Classifications
Mark
Group ⅡA
ⅡA
Group ⅡB
ⅡB
Group ⅡC
ⅡC
Ignition Temp.
T
T
T
T
T
T
1
2
3
4
5
6
Mark
Temp over 450ºC
Temp over 300ºC but not exceeding 450ºC
Temp over 200ºC but not exceeding 300ºC
Temp over 135ºC but not exceeding 200ºC
Temp over 100ºC but not exceeding 135ºC
Temp over 85ºC but not exceeding 100ºC
◆ Model architecture standard chart [S model]
(Model display example)
For platinum resistance temperature sensor, sheath external diameter of 8.0mm, sheath length (L1) 300mm, sheath length
(L2) 100mm, with slotted protective pipe 1B, protective pipe external diameter 1.5mm, protective pipe length of 300mm,
and 304 material
D4PT80×300/100－EX×G615×300AS
D4
Model
Element
types
PT
80
Sheath Sheath external Sheath
Sheath
materials diameter D length L1 length L2
D1 Thermocouple Thermocouple 16
Ｎ JIS.SN Ａ SUS
D2
（316） 20
Ｋ JIS.SK
D3
Ｂ B inconel 23
Ｅ JIS.SE (K type only)
D4
32
D5
Ｊ JIS.SJ
Ｔ JIS.ST
JPT JPt100
×
Protective
pipe types
G6
15
× 300
A
Connecting
Screws
50mm
R5 R3/4
2.3 150 150mm 100 100mm
R6 R1
3.2 200 200mm
10K 15A
4.8 250 250mm
G（PF）
20K 20A
G3 G3/8
64
6.4 300 300mm
G4 G1/2
8.0
G6 G1
G5 G3/4
RF
5K 10A
25A
32A
40A
1B
Ｓ (Single)
50mm SUS.
Ａ 304
100mm Ｂ 304L Ｗ (Double)
12
150mm
15
200mm
18
250mm
600LB
20
300mm
900LB
21.7
1500LB
27.2
150LB
300LB
11/2B
2B
RJ
Please contact
SUS316 not us about
Please designate
displayed availability of lengths different
to those above.
products
marked with star
“＊”symbol.
34
●Please contact us if the external diameter of the protective pipe required is different the SUS one.
●For double elements and double-couples, please designate D after element type.
8
S
Protective Protective
Terminal box
pipe external pipe Material
wiring port
diameter length L1
Flanges
0 Blank PS Welded pipe type R（PT） JIS standard ANSI standard 8
Kg/cm2
JPI standard
R3 R3/8
(RF, RJ)
＊2.0 100 100mm 50 50mm EX Slotted type R4 R1/2 (FF, RF)
10
1.6
50
EX
48
Material B 80
becomes
PT Pt100
KB mark.
Platinum resistor
× 300/100 −
Ｃ 316
Ｄ 316L
IN
Inconel
TI
Titan
HAS
Hastelloy-C
Please
designate
if double is
required.
Accessories
D3
D4
D5
● Flange type welded protective pipe ● Flange type slotted protective pipe ● Screw-in type welded protective pipe ● Screw-in type slotted protective pipe
● JIS standard flange
Standard
JIS 5K
JIS 10K
Size of nominal diameter External diameter
Ａ　Ｂ
Ｄ
10
3/8
75
15
1/2
80
20
3/4
85
25
1
95
10
3/8
90
15
1/2
95
20
3/4
100
25
1
125
●……Wire, flat facing
9
t
f
9
1
10
12
1
14
g
Pitch circle
Hole diameter
No. of holes
Ｃ
φh
39
55
44
60
49
65
59
75
46
65
51
70
56
75
67
90
4
12
4
15
Specialty Type (Platinum Resistance Temperature Sensor)
● Wall-hung sealed terminal type (Model: HA-PT)
Specifications
Resistance value
100Ω（at 0℃）
Specified current
2mA
C
l
a
s
s
B
Lead wire system
3-wire type
Usable temperature range
-100℃ to 200℃
●C
lass A units as well as thermocouples and
thermistors also can be made, so please
contact us if such items are required.
● Heavy clamp and ferrule
* Dimensions differ depending on size of ferrule.　* Small terminal boxes also can be made, so please contact us for details if required.
Model table
Model
Heavy clamp dimension table
L dimension Ferrule
（mm） size
Specifications
（platinum resistor）
HB-1
100
Resistance value 100（at 0℃）
HB-2
150
Specified current 2mA
HB-3
200
HB-4
250
Types
C l a s s B
Lead wire system 3-wire type
Usable temperature range -100℃ to 200℃
● Designate ferrule size from table on right when placing
order.
Type
Ａ
Ｂ
1.5S
98
94
65
1S
50.5
43.5
2S
113
93
75
1.5S
50.5
43.5
2.5S
135
102
88
2S
64.0
56.5
3S
148
112
106
2.5S
77.5
70.5
4S
182
133
131
10
φＣ
Ferrule dimension table
Size
3S
D
E
91.0
83.5
3.5S
106.0
97.0
4S
119.0
110.0
In-line Temperature Sensor
◆ Features
● Usable on chemical lines such as washing, etching or
plating lines for semiconductors and printed circuit
boards, etc.
● T ube diameter can now accommodate down to a
minimum of 1/4 inch (or external diameter of 6mm),
so that now temperature settings can be made close
to the use point of items such as application nozzles
for chemicals, which has been impossible until now.
● Both ends are jointed, which makes assembly and
replacement easy.
● There are three types of sensors to choose from: a
Teflon type, a Teflon coated quartz pipe type, and a
Teflon coated stainless steel type.
● The S joint type can withstand conventionally unseen
high-temperature fluids (max 180ºC).
◆ Specifications
Usable fluids
Acids, alkalis, pure water, etc.
S type: Flowell’s 20 Series
L type: Flowell’s 30 Series
Joints
Suitable tubes
Main unit
materials
Materials: PFA, PTFE fluoroethylene resin tube
Size: External diameters of 6, 8, 10mm, or 1/4, 3/8, 1/2 inch
S type: PFA
L type: PTFE
S type: PFA
L type: ECTFE
Nut materials
P type: PFA tube (for washing and etching)
Q type: Quarts + PFA tube (with prolonged lifespan and for washing and etching)
R type: SUS tube + PFA tube (for plating)
Senor
architecture
Sensor probe
PT type: Platinum resistance temperature sensor (100Ω)
K type: JIS K thermocouple
Fluid
temperatures
S joint type: Max. 180ºC
L joint type: Max. 100ºC
Environmental
temperature
Max：50℃
Note: Uses provided in table are only suggestions.
◆ Construction
S type
L type
d dimension
L1 dimension
L2 dimension
d dimension
L1 dimension
L2 dimension
1
6mm
46mm
41mm
2
8mm
48mm
43mm
1
6mm
38mm
46mm
2
8mm
46mm
3
10mm
54mm
48mm
51mm
3
10mm
52mm
51mm
4
1/4 inch
5
3/8 inch
46mm
41mm
4
1/4 inch
38mm
46mm
54mm
43mm
5
3/8 inch
52mm
6
1/2 inch
48mm
64mm
51mm
6
1/2 inch
60mm
51mm
11
Teflon pipe (TE type)
◆ Features
● Fluoroethylene resin is used for the protective pipe. It offers superb chemical proof qualities beyond
that of stainless steel protective pipes, and is suitable for semiconductor washing devices, plating
tank related tasks, and seawater control.
● This pipe is flexible, so it can be used on devices with curved sections and inside pipes.
● It also has excellent heat resistance (heat resistance temperature: 150ºC).
◆ External dimensions diagram
１０００
８０
φ４．２ ±０．１
２０００
Cord dimension
Sleeve
Teflon tube
ＦＥＰ
Contraction tube
（１２０）
“TE-(J)PT” external dimensions diagram
Insulated Y type crimped terminal
For M3.5
Ａ
Ｂ
ｂ
Red Red
White
Blue
White
Blue
（５０）
◆ Specifications
◆ Specifications
Resistance temperature sensor
Model name
Element
M
a
r
k
TE-PT
TE-JPT
M a t e r i a l
Ceramic platinum resistance temperature sensor
Pt100
JPt100
（temperature sensor）
※ FEP
External diameter（mm） （　〃　）
Diameter 4.2mm (standard)
L e n g t h（mm） （　〃　）
1000mm (standard)
Heat resistance（℃） （　〃　）
150ºC (continuous use Temp.)
C l a s s
B
Prescribed current
2mA
Lead wire type
3-wire type
Acid
No influence
Temp. range
－65℃ to ＋150℃
Alkali
〃
Alcohol
〃
Solvents (trichlene, carbon tetrachloride)
〃
Aliphatic hydrocarbon (gasoline, kerosene)
〃
aromatic hydrocarbon (benzene, methylbenzene)
〃
Heat conductivity（J/s.cm.℃×10-3）
● “Class A” products also can be made.
Thermocouple
Model name
TE-K
TE-J
Probe types
Ｋ
Ｊ
C l a s s
2
2
Temp. range
－40℃ to ＋150℃
－40℃ to ＋150℃
* The standard product uses FEP, but PFA products also can be made.
● Teflon is a chemically stable material, but like other plastics, gas and
steam may penetrate it depending on temperature, pressure and
chemical parameters.
● Class 1 model also can be made. Please contact us for details about
thermocouple types.
Thermistor
Model name
TE-A
TE-B
Nominal resistance
385Ω（100℃）
2.75kΩ（100℃）
B constant
Temp. range
3424K±3％（0℃/100℃） 3608K±3％（0℃/100℃）
－30℃ to ＋100℃
2.5
＋0℃ to ＋100℃
● A resistance variable of ±5% is set as standard.
● Products can be produced to JIS standards.
● Probes are interchangeable.
12
Teflon pipe (TA type)
◆ Features
● The temperature sensor is mold-fused together with the Teflon tube to afford a response speed far
superior to that of other Teflon pipe type sensors.
● The Teflon tube is thicker than that of other Teflon pipe types.
◆ External dimensions diagram
Ｌ２
Cord dimension
φ６
Ｌ１
（６０）
Ａ
Ｂ
Red
Blue
ｂ
Blue
Red
White
White
（５０）
Teflon mold
◆ Model architecture
TA－PT－L1×L2
Wire binding diagram
Red
*L
1 and L2 are both measured in units of mm.
Note that L1 is made at the unit of 100mm.
Ｐｔ１００Ω
White
White
1．Main specifications
①
Probe
Platinum resistance temperature sensor Pt100Ω, B class, 3-wire type,
prescribed current: 2mA JIS C 1604
②
Teflon tube
③
Contraction tube
④
Tube
Glass tube
⑤
Cord
Teflon coated cabtire cord FEP, 7/0.16 x 3C, heat resistance: 200ºC, external
diameter: 2.2mm
⑥
Terminal
Insulated Y type crimped terminal, * Round terminals and stripped back core
wires also available.
Work Temp. range
PFA Teflon tube: External diameter 6mm x internal diameter 4mm
Silicon contraction tube
0 to 180ºC, * Please use in location without heat cycle.
● Class A can be made using JPt100.
13
Ａ
Ｂ
ｂ
Teflon pipe (TH type)
◆ Features
● The internal cord of the Teflon tube is a cabtire cord.
● The sleeve unit on the TE type has been removed, reducing connection points to prevent corrosion to
connection points after chemical penetration.
◆ External dimensions diagram
Ｌ２
Cord dimension
φ４．２
Ｌ１
（６０）
Ａ
Ｂ
Red
Blue
ｂ
Blue
Red
White
White
（５０）
Teflon mold
◆ Model architecture
TH－PT－L1×L2
Wire binding diagram
Red
*L
1 and L2 are both measured in units of mm.
Note that L1 is made at the unit of 100mm.
Ｐｔ１００Ω
White
White
1．Main specifications
①
Probe
Platinum resistance temperature sensor Pt100Ω, B class, 3-wire type,
prescribed current: 2mA JIS C 1604
②
Teflon tube
③
Contraction tube
④
Tube
Glass tube
⑤
Cord
Teflon coated cabtire cord FEP, 7/0.16 x 3C, heat resistance: 200ºC, external
diameter: 2.2mm
⑥
Terminal
Insulated Y type crimped terminal, * Round terminals and stripped back core
wires also available.
Work Temp. range
FEP Teflon tube: External diameter 4.2mm x internal diameter 3.2mm
Silicon contraction tube
0 to 180ºC, * Please use in location without heat cycle.
● Class A can be made using JPt100.
● Products also can be made using the PFA Teflon tube material.
14
Ａ
Ｂ
ｂ
Quartz pipe type (GE-PT type)
◆ Features
● S uitable for use with washing liquids used in
semiconductor and liquid crystal washing processes.
● Use of quartz pipe reduces chemical penetration in
comparison to Teflon pipe types.
● T he outside of the quartz pipe is protected by a
Teflon tube, so that even if the quartz pipe is
damaged due to incorrect use, shards will not be
dispersed.
◆ External dimensions diagram
Quartz pipe dimension
Cord dimension
Red
Red
White
Blue
White
Blue
Teflon mold
◆ Model architecture
A
GE－PT－　－L1×L2　* L1 and L2 are both measured in units of mm.
B
Note that L1 is made at the unit of 100mm.
C
Wire binding diagram
Red
Ｐｔ１００Ω
Ａ
White
Ｂ
White
1. Main specifications
Probe
②
Teflon tube
See table below
③
Quartz pipe
See table below
④
Contraction tube
Silicon contraction tube
⑤
Cord
⑥
Terminal
2. Quarts tube and Teflon tube size table
Platinum resistance temperature sensor Pt100Ω,
B class, 3-wire type, prescribed current: 2mA
JIS C 1604
①
ｂ
A
Teflon (FEP, PFA) coated cabtire cord e
Insulated Y type crimped terminal,
*R
ound terminals and stripped back core
wires also available.
B
C
Quartz
glass pipe
External diameter:
6mm ±0.3
Internal diameter:
4mm ±0.32
External diameter: 5mm ±0.25
Internal diameter: 3mm ±0.24
Teflon tube
Material: FEP
External diameter:
7mm ±0.3
Internal diameter:
6mm ±0.3
Material: FEP
External diameter:
6mm ±0.3
Internal diameter:
5mm ±0.3
Cord
①
Material: PFA
External diameter:
6mm ±0.3
Internal diameter:
5mm ±0.3
②
3. Cord specifications
(1) Teflon coated cabtire cord, FEP, 7/0.16 x 3C, heat resistance: 200ºC, external diameter: 2.2mm
(2) Teflon coated cabtire cord, PFA, 7/0.1 x 3C, heat resistance: 250ºC, external diameter: 1.8mm
* Please contact us if a different cord is desired.
15
Specialty type (Thermocouple for measuring surface temperature)
Model
A1
Element
Contact plate
Roller
K thermocouple JIS C 1602 0.75 class
SUS304 t = 0.1mm, width: 2mm
Teflon, diameter: 20mm
Lead wire
TGK (K thermocouple, strand 0.18 x 30)
Treatment
Silicon contraction tube, silicon tube, epoxy filler
End treatment
Insulated crimped terminal CT1.25Y-3L
Work Temp. range
Max. 250ºC (roller section)
Model
A2
Element
Contact plate
Sleeve
K thermocouple JIS 0.75 class
Stainless steel t = 0.1mm, width: 5mm
ABS　φ13×15L
Lead wire
Compensating lead wire, vinyl coated (VX-G) 0.3/7
Work Temp. range
Max. 200ºC (temperature measuring contact point section)
Model
A3
Element
K thermocouple JIS 0.75 class
Sleeve
Teflon, diameter 12 x 35L
Cover
SUS303　φ8×9L
Contact plate
SUS304 t = 0.1mm, width: 3.5mm
Lead wire
Silicon coated K compensating lead wire 0.1/30
End treatment
Insulated crimped terminal CT1.25Y-3L
Work Temp. range
Max. 200ºC (temperature measuring contact point section)
16
Handy Types
Model
H1
Model
H2
◆ Model architecture standard chart [H2 & H2 type Models]
(Model display example) F
or Platinum resistance temperature sensor, external diameter of 3.0mm for protective pipe,
protective piping length 100mm, general vinyl cabtire 1m, insulated Y terminal
H1－PT－30×100－E1－D
H1 −
Element
types
Model
H1
H2
PT
−
JIS Ｅ
Ｊ
JIS Ｊ
Ｔ
JIS Ｔ
JPt100
Thermistor
Ａ
A type
Ｂ
B type
CD CD type
Ｈ
H type
1.6
2.0
2.3
80
100
−
E
1
150
Ｂ Glass coated
150mm
(max 180ºC) 3
250
32
3.2
350
48
4.8
D
Treatment B
1000mm Ａ 7mm muki
1
100
3.0
60
80mm Thermocouple
−
Lead wire
length L2
Ａ Vinyl coated
(max 90ºC) 2
100mm
30
Platinum resistor
PT
Pt100 50
JPT
×
Protective pipe Protective pipe Lead wire types
external diameter D
length L1
(lead wire heat resistance ºC)
Thermocouple 16
Ｎ
JIS Ｎ
20
Ｋ
JIS Ｋ
23
Ｅ
30
2000mm Ｂ 7mm extra solder
3000mm Ｃ M3 Y type
terminals with
Ｃ Teflon insulation,
insulation
250mm
glass coated
Please designate
(max 300ºC)
lengths different
Ｄ M3.5 Y type
350mm CS Teflon insulation, to above.
terminals with
glass coated
insulation
(max 300ºC)
Ｔ
Teflon coated
(max 200ºC)
5.0 Please
designate
＊C & CS are K
6.0 lengths different thermocouples
to above.
Temperature resistors
Ｅ 178 type tab on
terminals with
insulation
Thermistor
Ｄ Teflon strand Ｈ Teflon coated
(max 200ºC)
(max 200ºC)
DT Teflon coated Ｊ Teflon insulated
cabtire
glass coated
(max 200ºC)
(max 300ºC)
Ｅ General vinyl Ｋ General vinyl
cabtire
cabtire
(max 80ºC)
(max 80ºC)
Protective
Ｆ Heat resistant Ｌ Heat resistant
pipe material
vinyl cabtire
vinyl cabtire
(max 105ºC)
(max 105ºC)
SUS 316
Ｇ Silicon coated Ｍ Silicon coated
cabtire
cabtire
(max 180ºC)
(max 180ºC)
17
Ｆ M3.5 bare
terminals
Data
R(PT) screw bolt
G(PF) screw bolt
R（PT） C
E
L
A×B
1/8 10 8 18 14×16.2
1/4 12 9 21 14×16.2
3/8 15 8 23 19×22
1/2 16 13 29 24×27.2
3/4 17 15 32 32×36.7
1
20 15 35 32×37
G
（PF） C
1/8
8
1/4 10
3/8 13
1/2 12
3/4 13
1 14.5
M screw bolt
D
E
L
A×B
2
8 18 14×16.2
2
9 21 14×16.2
2
8 23 19×22
2.5 13 27.5 24×27.2
3 15 31 32×36.7
3.5 15 33 32×37
Compression fitting
M
6
8
10
12
C
7
12
10
20
E
5
6
8
8
L
12
18
18
28
A×B
12×13.5
13×15
14×16.2
19×22
A
PT 1/8
PT 1/4
PT 1/2
PT 3/4
B
12
12
17
25
C
14
17
15
25
D Suitable external diameter
5 Diameter 4.8mm or less
8 Diameter 8.0mm or less
8 Diameter 10.0mm or less
8 Diameter 15.0mm or less
＊ Above dimensions may be changed according to circumstances.
Insertion length can be adjusted to any
length, but it will not be gastight.
Open type terminal box
Closed type terminal box
Type
A B C
S (small) 58 44 14
L (large) 77 70 63
D
G 1/4
G 1/2
φE
19
30
Type φA B D
S (small) 58 65 34
L (large) 82 91 51
E
G 3/8
G 1/2
F
G 1/4
G 1/2
Crimped terminals
C: M3 insulated open terminal
D: M3.5 insulated open terminal
18
E: 187 type insulated tab-on terminal
F: M3.5 bare open terminal
Loose flanges
2-M4 tap
M4 tap
● Insert to desired length and secure from side with screw bolt. It will not be gastight, but can be used at normal pressure.
Securing flanges
A
B
C
D
E
F
Type
S (small)
L (large)
G
The protective pipe comes with the flange secured already, so attach using screws.
19
A
75
95
B
55
75
Thickness
9
10
Compensating lead wire for thermocouples
◆ Summary
Surface coating
Compensating lead wire is used in conjunction
with thermocouples and sheath thermocouples,
and is comprised of a pair of wires with identical
characteristics, insulated for conducting.
Core
◆ Appendix
There are two classes of compensating lead
wire, class 1 (precision class) and class 2 (normal class). Also, the following coatings are
available: general type, heat resistant type and
super heat resistant type.
Wires
● Usage classifications for normal, heat resistant and super heat resistant compensating lead wires
JIS Standards (C 1610, 1995)
Polarity colors
Type
Mark
Usable Temp. range (ºC)
Polarity
Normal
G
－20 to　90
+ side
Surface coating color
Red
Heat resistant
H
0 to 150
– side
White
Super heat resistant
S
－25 to 200
＊ Conforms to classification 2.
◆ Compensating lead wire specifications
Thermocouple Compensating
type
lead wire type
Tolerance
classification
Usage
classification
●Model Indication
Wire nominal
sectional area
Shield:
Yes/No
Surface
coating ID
G: General
Ａ.0.5mm2
Old mark 1. Precision class
H: Heat resistant
Ｂ.0.75mm2
(remarks) 2. Normal class
S: Super heat resistant Ｃ.1.25mm2
Yes: S1
No: [0]
Clas- Classification sification
1
2
Gray Gray
2
G
A
S1.　0
R
RCA
RCB
RX
2
G.　H.
A.　B.
S1.　0
S
SCA
SCB
SX
2
G.　H.
A.　B.
S1.　0
1.　2.
G.　H.　S.
A.　B.　C.
S1.　0
Orange Black
NX
N
NC
KX
KX
1.　2.
KCB
WX
2
KCC
VX
2
E
EX
EX
J
JX
T
TX
K
Pink
KX − 1 − H − A − S1
－
Shield: Yes/No
BX
Wire nominal sectional area
BC
Usage classification
B
Example
Tolerance classification
Mark
Mark
Mark
＊When ordering, please designate the compensating
lead wire’
s mark, tolerance classification, usage
classification, wire architecture and shield: Yes/NO
(do not indicate if not required).
Note
For external shield,
include SOS after
the wire nominal
sectional area.
Nominal sectional area and wire architecture
G.　H.　S.
A.　B.　C.
S1.　0
Green Blue
1.　2.
G.　H
A.　B.　C.
S1.　0
Violet Purple
JX
1.　2.
G.　H
A.　B.　C.
S1.　0
Black Yellow
TX
1.　2.
G.　H
A.　B.　C.
S1.　0
Brown Brown
＊ Classification 1 colors for surface coatings are available on a made-to-order basis.
Mark
Sectional Wiring architecture No.
area (mm2) of wires/wire diameter
A
0.5
B
0.75
7/0.3　20/0.18
30/0.18
C
1.25
7/0.45　4/0.65
D
2.0
7/0.65
◆ Coated thermocouples
Thermocouple Coating material
Wire diameter
K
G
0.32
0.45
0.65
E
H
0.32
－
0.65
－
0.65
T
6F
0.32
－
0.65
G
Vinyl chloride
90
H
Glass wool
150
S
Silicon
180
6F
Teflon
180
20
Heat resistance
Temp. (ºC)
＊When ordering, please designate the
thermocouple’
s type mark, and wire diameter.
Example
K − H − 0.32
Wire diameter
0.32
Coating
material
Coating mark
S
Mark
Thermocouple type
J
●Model indication for coated thermocouples
● Coating types
■ Thermocouple Electromotive Force Tables
R Standard Electromotive Force (JISC 1602-1995)
Temp. ºC
0
Unit: μV
Temp. ºC
0
100
200
300
400
500
600
700
800
900
1000
1100
1200
1300
1400
1500
1600
-100
0
0
647
1469
2401
3408
4471
5583
6743
7950
9205 10506 11850 13228 14629 16040 17451 18849 20222
1700
-90
10
54
723
1558
2498
3512
4580
5697
6861
8073
9333 10638 11986 13367 14770 16181 17591 18988 20356
-80
20
111
800
1648
2597
3616
4690
5812
6980
8197
9461 10771 12123 13507 14911 16323 17732 19126 20488
-70
30
171
879
1739
2696
3721
4800
5926
7100
8321
9590 10905 12260 13646 15052 16464 17872 19264 20620
-60
40
232
959
1831
2796
3827
4910
6041
7220
8446
9720 11039 12397 13786 15193 16605 18012 19402 20749
-50
-226
50
296
1041
1923
2896
3933
5021
6157
7340
8571
9850 11173 12535 13926 15334 16746 18152 19540 20877
-40
-188
60
363
1124
2017
2997
4040
5133
6273
7461
8697
9980 11307 12673 14066 15475 16887 18292 19677 21003
-30
-145
70
431
1208
2112
3099
4147
5245
6390
7583
8823
10111 11442 12812 14207 15616 17028 18431 19814
-20
-100
80
501
1294
2207
3201
4255
5357
6507
7705
8950
10242 11578 12950 14347 15758 17169 18571 19951
-10
-51
90
573
1381
2304
3304
4363
5470
6625
7827
9077
10374 11714 13089 14488 15899 17310 18710 20087
0
0
100
647
1469
2401
3408
4471
5583
6743
7950
9205
10506 11850 13228 14629 16040 17451 18849 20222
K Standard Electromotive Force (JISC 1602-1995)
Temp. ºC
-200
Unit: μV
-100
0
Temp. ºC
0
100
200
300
400
500
600
700
800
900
1000
1100
1200
1300
-100
-5891
-3554
0
0
4096
8138
12209
16397
20644
24905
29129
33275
37326
41276
45119
48838
52410
-90
-5730
-3243
10
397
4509
8539
12624
16820
21071
25330
29548
33685
37725
41665
45497
49202
52759
-80
-5550
-2920
20
798
4920
8940
13040
17243
21497
25755
29965
34093
38124
42053
45873
49565
53106
-70
-6458
-5354
-2587
30
1203
5328
9343
13457
17667
21924
26179
30382
34501
38522
42440
46249
49926
53451
-60
-6441
-5141
-2243
40
1612
5735
9747
13874
18091
22350
26602
30798
34908
38918
42826
46623
50286
53795
-50
-6404
-4913
-1889
50
2023
6138
10153
14293
18516
22776
27025
31213
35313
39314
43211
46995
50644
54138
-40
-6344
-4669
-1527
60
2436
6540
10561
14713
18941
23203
27447
31628
35718
39708
43595
47367
51000
54479
-30
-6262
-4411
-1156
70
2851
6941
10971
15133
19366
23629
27869
32041
36121
40101
43978
47737
51355
54819
-20
-6158
-4138
-778
80
3267
7340
11382
15554
19792
24055
28289
32453
36524
40494
44359
48105
51708
-10
-6035
-3852
-392
90
3682
7739
11795
15975
20218
24480
28710
32865
36925
40885
44740
48473
52060
0
-5891
-3554
0
100
4096
8138
12209
16397
20644
24905
29129
33275
37326
41276
45119
48838
52410
J Standard Electromotive Force (JISC 1602-1995)
Temp. ºC
-200
Unit: μV
-100
0
Temp. ºC
0
100
200
300
400
500
600
700
800
900
1000
1100
-100
-7890
-4633
0
0
5269
10779
16327
21848
27393
33102
39132
45494
51877
57953
63792
-90
-7659
-4215
10
507
5814
11334
16881
22400
27953
33689
39755
46141
52500
58545
64370
-80
-7403
-3786
20
1019
6360
11889
17434
22952
28516
34279
40382
46786
53119
59134
64948
-70
-7123
-3344
30
1537
6909
12445
17986
23504
29080
34873
41012
47431
53735
59721
65525
-60
-6821
-2893
40
2059
7459
13000
18538
24057
29647
35470
41645
48074
54347
60307
66102
-50
-6500
-2431
50
2585
8010
13555
19090
24610
30216
36071
42281
48715
54956
60890
66679
-40
-6159
-1961
60
3116
8562
14110
19642
25164
30788
36675
42919
49353
55561
61473
67255
-30
-5801
-1482
70
3650
9115
14665
20194
25720
31362
37284
43559
49989
56164
62054
67831
-20
-5426
-995
80
4187
9669
15219
20745
26276
31939
37896
44203
50622
56763
62634
68406
-10
-8095
-5037
-501
90
4726
10224
15773
21297
26834
32519
38512
44848
51251
57360
63214
68980
0
-7890
-4633
0
100
5269
10779
16327
21848
27393
33102
39132
45494
51877
57953
63792
69553
T Standard Electromotive Force (JISC 1602-1995)
Temp. ºC
-200
Unit: μV
-100
0
Temp. ºC
0
100
200
300
-100
-5603
-3379
0
0
4279
9288
14862
-90
-5439
-3089
10
391
4750
9822
15445
-80
-5261
-2788
20
790
5228
10362
16032
-70
-6258
-5070
-2476
30
1196
5714
10907
16624
-60
-6232
-4865
-2153
40
1612
6206
11458
17219
-50
-6180
-4648
-1819
50
2036
6704
12013
17819
-40
-6105
-4419
-1475
60
2468
7209
12574
18422
-30
-6007
-4177
-1121
70
2909
7720
13139
19030
-20
-5888
-3923
-757
80
3358
8237
13709
19641
-10
-5753
-3657
-383
90
3814
8759
14283
20255
0
-5603
-3379
0
100
4279
9288
14862
20872
21
■ Resistance Temperature Sensor Resistance Value Tables
Pt100（JISC1604-1997）
Temp. ºC
-100
Unit: Ω
-0
Temp. ºC
0
100
200
300
400
500
600
700
800
-0
60.26
100.00
0
100.00
138.51
175.93
212.05
247.09
280.98
313.71
345.28
375.70
-10
56.19
96.09
10
103.90
142.29
179.53
215.61
250.53
284.30
316.92
348.38
378.68
-20
52.11
92.16
20
107.79
146.07
183.19
219.51
253.96
287.62
320.12
351.46
381.65
-30
48.00
88.22
30
111.67
149.83
186.84
222.68
257.38
290.92
323.30
354.53
384.60
-40
43.88
84.27
40
115.54
153.58
190.47
226.21
260.78
294.21
326.48
357.59
387.55
-50
39.72
80.31
50
119.40
157.33
194.10
229.72
264.18
297.49
329.64
360.64
390.48
-60
35.54
76.33
60
123.24
161.05
197.71
233.21
267.56
300.75
332.79
363.67
-70
31.34
72.33
70
127.08
164.77
201.31
236.70
270.93
304.01
335.93
366.70
-80
27.10
68.33
80
130.90
168.48
204.90
240.18
274.29
307.25
339.06
369.71
-90
22.85
64.30
90
134.71
172.17
208.48
243.64
277.64
310.49
342.18
372.71
-100
18.52
60.26
100
138.51
175.86
212.05
247.09
280.98
313.71
345.28
375.70
Usable temperature range for wire-wound model is -200 to 650ºC. Usable temperature range for thin-membrane model is -50 to 400ºC.
JPt100（JISC1604-1989）
Temp. ºC
-100
Unit: Ω
-0
Temp. ºC
0
100
200
300
400
500
600
-0
59.57
100.00
0
100.00
139.16
177.13
213.93
249.56
284.02
317.28
-10
55.44
96.02
10
103.97
143.01
180.86
217.54
253.06
287.40
320.54
-20
51.29
92.02
20
107.93
146.85
184.58
221.15
256.55
290.77
323.78
-30
47.11
88.01
30
111.88
150.67
188.29
224.74
260.02
294.12
327.02
-40
42.91
83.99
40
115.81
154.49
191.99
228.32
263.49
297.47
-50
38.68
79.96
50
119.73
158.29
195.67
231.89
266.94
300.80
-60
34.42
75.91
60
123.64
162.08
199.35
235.45
270.38
304.12
-70
30.12
71.85
70
127.54
165.86
203.01
238.99
273.80
307.43
-80
25.80
67.77
80
131.42
169.63
206.66
242.53
277.22
310.72
-90
21.46
63.68
90
135.30
173.38
210.30
246.05
280.63
314.01
-100
17.14
59.57
100
139.16
177.13
213.93
249.56
284.02
317.28
■ Normal limits according to thermocouple, sheath material and sheath diameter
Thermocouple type
Sheath diameter (mm)
1.0
1.6
3.2
4.8
SUS316
650
650
750
800
800
900
Inconel
650
650
750
900
1000
1050
J
SUS316
450
450
650
750
750
750
T
SUS316
300
300
350
350
350
350
Sheath material
K
6.4
8.0
■ Normal limits and excessive heat usage limits for thermocouple probe
Thermocouple type
Probe diameter (mm)
Normal limit (ºC)
R
0.50
1400
1600
0.65
650
850
1.00
750
950
1.60
850
1050
2.30
900
1100
3.20
1000
1200
0.65
400
500
1.00
450
550
1.60
500
650
2.30
550
750
3.20
600
750
0.32
200
250
0.65
200
250
1.00
250
300
1.60
300
350
K
J
T
Excessive heat usage limit (ºC)
Normal limit refers to the temperature limit at which the device can be used continually in air.
Excessive heat usage limit refers to the temperature limit at which the device can be used for a short time if absolutely necessary.
22
■ Thermistor Standard Resistance Values and Temperature Characteristic Table
Model
A model
B model
C & D models
H model
Standard resistance value
385Ω（100℃）
2.75KΩ（100℃）
1.00KΩ（200℃）
365Ω（100℃）
Usable Temp. range
0℃ to 100℃
50℃ to 200℃
100℃ to 300℃
-10℃ to 50℃
Temp. (ºC)
Resistance value (KΩ)
Resistance value (KΩ)
Resistance value (KΩ)
Resistance value (KΩ)
-30
47.50
45.05
-20
28.40
26.52
-10
17.60
16.70
0
11.11
95.01
10.54
10
7.272
60.48
6.899
20
4.863
39.70
4.614
30
3.311
26.68
3.142
40
2.316
18.31
2.197
50
1.646
12.78
72.86
1.561
60
1.193
9.095
49.49
1.132
70
0.879
6.582
34.16
0.833
80
0.659
4.857
24.14
0.623
90
0.499
3.637
17.12
0.473
100
0.385
2.750
12.39
0.365
110
0.300
2.115
9.125
120
0.237
1.643
6.831
130
0.189
1.310
5.183
140
0.152
1.027
3.968
150
0.124
0.824
3.071
160
0.670
2.414
170
0.547
1.906
180
0.451
1.524
190
0.374
1.227
200
0.314
1.000
210
0.815
220
0.671
230
0.559
240
0.466
250
0.394
260
0.334
270
0.284
280
0.243
290
0.209
300
0.181
B constant
0℃/100℃
0℃/100℃
100℃/200℃
0℃/100℃
3424ﾟK
3608ﾟK
4445ﾟK
3424ﾟK
● Please contact us separately for details about the JIS C1611 (thermistor sensor) standardized article.
23
Traceability System Diagram
Traceability System Diagram (for measuring instruments and temperature measuring)
National and
public bodies
National
standard
National Institute of Advanced Industrial
Science andTechnology (AIST)
Japan Quality Assurance
Organization (JQA)
Japan Electric Meters Inspection
Corporation (JEMIC)
National Institute ofStandards
and Technology (NIST)
Civil correcting
bodies
Yokogawa Manufacturing Corporation
Chino Corporation
Yokogawa Rental Lease Corporation
In-house measurement
standard
Precision digital multimeter
measurement standard
In-house standard
Toho Electronics Inc.
Model: 2553
Registration number: V-1001
V-1020
In-house work
Volt-ampere generation
instrument types
In-house registration mark: V
Digital multimeter
standard
Model: 7561-02
756101-C-1/B
Registration number:
M-1006, M-1038
Digital multimeter types
In-house registration mark: M
Coper Electronics
CO., Ltd.
Platinum resistance temperature
sensor measurement standard
Model: 2001
Serial number: 1167945
Registration number: M-1043
Volt-ampere generation
standard
Yamari Industries,
Limited
National Research Center
Canada (NRC)
Model: R800-9
Serial number: RS96Y-1
Registration number: S-1027
6-dial resistance
standard
Platinum resistance temperature
sensor standard
Model: 2786, 2793
Registration number:
R-1005, R-1008, R-1031
Model: SPT-6300
Registration number:
S-2003, S-2015, S-2016, S-1027
6-dial resistance instrument
Resistance instrument type
In-house registration mark: R
Zero configuration
Model: ZC-114
Registration number:
S-1044, S-1045
Each type of temperature meter
Each type of temperature sensor
relative measurement
In-house registration mark: S
The system diagram is controlled in accordance with Toho in-house regulations and standards based on our quality system, and these are regularly traced by the National Standards.
Please inform us of the following when placing an order.
1．Utilization temperature range
2．Whether or not there is on-site pressure and/or vibration
3．Utilization atmosphere (conditions of use)
Please contact the Toho head office or sales office for details about specifications that do not
appear in this catalog.
We have many products available to meet the needs of our customers, and are ready always to
fulfill tight delivery schedules.
We also manufacture UL qualified products, so inquiries are welcome.
●The appearance and specifications of products in this catalog are subject to change without prior notice.
24
●Specifications are subject to change without notice.
Note: The color printed in this catalog may be different from actual color.
Head Office:
1-13-21, Tanashioda, Sagamihara Kanagawa 229-1125 Japan.
Phone: +81-42-777-3311 FAX: +81-42-777-3751
E-Mail: overseas@toho-inc.co.jp
Web site: http://www.toho-inc.com
46-7718-A EDUPRESS Printed in Japan 2008.3.
500