INFINEON KTY23-6

Silicon Temperature Sensors
KT 100
KT 110
KT 130
KT 210
KT 230
KTY 16-6
KTY 10-x
KTY 11-x
KTY 13-x
KTY 21-x
KTY 23-x
KTY 19-6
Features
•
•
•
•
•
•
•
•
Temperature dependent resistor with positive temperature coefficient
Temperature range – 50 °C to + 150 °C (– 60 F to 300 F)
Available in SMD or leaded or customized packages
Linear output
Excellent longterm stability
Polarity independent due to symmetrical construction
Fast response time
Resistance tolerances (R25) of ± 3% or ± 1%
SOT-23
Modified TO-92
TO-92 Mini
KTY 16-6
KTY 19-6
Data Sheet
SOT-23
1:1
1
2000-07-01
KT- and KTY-Series Temperature Sensors
Standard Packages
Type
Marking
Ordering Code
R25 min
R25 max
Package
(in Ω with Iop = 1 mA)
KT 100
KT 110
KT 130
KT 210
KT 230
KT 100
T1
T1
N1
N1
Q62705-K331
Q62705-K332
Q62705-K333
Q62705-K334
Q62705-K335
1940
1940
1940
970
970
2060
2060
2060
1030
1030
TO-92
TO-92 Mini
SOT-23 1)
TO-92 Mini
SOT-23 1)
KTY 10-5
KTY 10-6
KTY 10-62
KTY 10-7
KTY 10-5
KTY 10-6
KTY 10-62
KTY 10-7
Q62705-K110
Q62705-K132
Q62705-K71
Q62705-K111
1950
1980
1990
2010
1990
2020
2010
2050
TO-92
TO-92
TO-92
TO-92
KTY 11-5
KTY 11-6
KTY 11-7
T5
T6
T7
Q62705-K245
Q62705-K246
Q62705-K247
1950
1980
2010
1990
2020
2050
TO-92 Mini
TO-92 Mini
TO-92 Mini
KTY 13-5
KTY 13-6
KTY 13-7
T5
T6
T7
Q62705-K249
Q62705-K250
Q62705-K251
1950
1980
2010
1990
2020
2050
SOT-23 1)
SOT-23 1)
SOT-23 1)
KTY 21-5
KTY 21-6
KTY 21-7
N5
N6
N7
Q62705-K258
Q62705-K259
Q62705-K260
975
990
1005
995
1010
1025
TO-92 Mini
TO-92 Mini
TO-92 Mini
KTY 23-5
KTY 23-6
KTY 23-7
N5
N6
N7
Q62705-K262
Q62705-K263
Q62705-K264
975
990
1005
995
1010
1025
SOT-23 1)
SOT-23 1)
SOT-23 1)
Ordering Code
R25 min
R25 max
Screw
Thread
Custom Packages
Type
Marking
(in Ω with Iop = 1 mA)
KTY 16-6
KTY 19-6M
KTY 19-6Z
none
KTY 19M
KTY 19Z
Connector set for KTY 19
1)
Q62705-K128
Q62705-K271
Q62705-K272
1980
1980
1980
2020
2020
2020
–
ISO M10x1
NPTF 1/8x27
Q62901-B80
Electrical contact between Pin1 and Pin2 (refer to package outlines drawing).
Data Sheet
2
2000-07-01
KT- and KTY-Series Temperature Sensors
Absolute Maximum Ratings
Parameter
Symbol
Maximum operating voltage 1)
TA ≤ 25 °C, t ≤ 10 ms
Vopmax
Maximum operating current
Iopmax
Iopp
Peak operating current
TA ≤ 25 °C, t ≤ 10 ms
25
Storage temperature range
V
5
7
mA
7
10
mA
Top
Tstg
Operating temperature range
1)
KT 1x0
KT 2x0
Unit
KTY 1x-x KTY 2x-x
− 50 … + 150
°C
− 50 … + 150
°C
When the temperature sensor is operated with long supply leads, it should be protected through the parallel
connection of a > 10 nF capacitor to prevent damage to the sensor through induced voltage peaks.
Electrical Characteristics
Iop = 1 mA
Thermal Time Constant (τ); (63% of ∆T)
τair (typ.)
τoil (typ.)
Unit
KT 100, KTY 10-x
40
4
s
KT 110, KT 210, KTY 11-x, KTY 21-x
11
1.5
KT 130, KT 230, KTY 13-x, KTY 23-x
7
1
KTY 16-6
40
4
KTY 19-6M/Z
40
4
Data Sheet
3
2000-07-01
KT- and KTY-Series Temperature Sensors
General Technical Data: KT- and KTY-Series Temperature Sensors
These temperature sensors are designed for the measurement, control and regulation
of air, gases and liquids within the temperature range of − 50 °C to + 150 °C. The
temperature sensing element is an n-conducting silicon crystal in planar technology. The
gentle curvature of the characteristic, RT = f (TA), is described as a regression parabola
in the following expressions.
The resistance of the sensor can be calculated for various temperatures from the
following second order equation, valid over the temperature range − 30 °C to + 130 °C.
R T = R 25 × ( 1 + α × ∆ T A + β × ∆ T A2 ) = f ( T A )
with: α = 7.88 10− 3 K− 1; β = 1.937 10− 5 K− 2
The temperature factor kT can be derived from this:
R
k T = -------T- = 1 + α × ∆ T A + β × ∆ T A2 = f ( T A )
R 25
The temperature at the sensor can be calculated from the change in the sensors
resistance from the following equation, which approximates the characteristic curve.
α2 – 4 × β + 4 × β × k T – α
- °C
T =  25 + -------------------------------------------------------------------
2×β
Data Sheet
4
2000-07-01
KT- and KTY-Series Temperature Sensors
Table 1
Spread of the Temperature Factor kT
TA
kT
°C
− 50
− 40
min.
0.506
0.559
typ.
0.518
0.570
max.
0.530
0.581
− 30
− 20
− 10
0
10
0.615
0.676
0.741
0.810
0.883
0.625
0.685
0.748
0.815
0.886
0.635
0.694
0.755
0.821
0.890
20
25
0.960
0.961
0.962
30
40
1.039
1.119
1.040
1.123
1.041
1.126
50
60
1.204
1.291
1.209
1.300
1.215
1.308
70
80
90
100
110
1.383
1.478
1.577
1.680
1.786
1.394
1.492
1.594
1.700
1.810
1.405
1.506
1.611
1.720
1.833
120
130
140
150
1.896
2.010
2.093
2.196
1.923
2.041
2.128
2.235
1.951
2.072
2.163
2.274
1.0 1)
1) Normalising point
Data Sheet
5
2000-07-01
KT- and KTY-Series Temperature Sensors
Sensor Resistance RT = kT × R25 = f (TA)
Sensor Resistance RT = kT × R25 = f (TA)
IB = 1 mA; Example: R25 = 2000 Ω
IB = 1 mA; Example: R25 = 1000 Ω
Typical Dependence of Sensor
Resistance on Supply Current
Typical Dependence of Sensor
Resistance on Supply Current
Example: KTY 10-6 in oil at TA = 25 °C
Example: KTY 21-6 in oil at TA = 25 °C
Data Sheet
6
2000-07-01
KT- and KTY-Series Temperature Sensors
Typical Deviation of Sensor Resistance
from the Basic Resistance R25
(IB = 1mA) Versus Supply Current
Typical Deviation of Sensor Resistance
from the Basic Resistance R25
(IB = 1mA) Versus Supply Current
Example: KTY 10-6 in oil at TA = 25 °C
Example: KTY 21-6 in oil at TA = 25 °C
Typical Relationship of the
Temperature Factor
Typical Relationship of the
Temperature Factor
R
k T = -----T- = f ( T A )
R 25
Data Sheet
1 dR
TCT = ---- × --------T = f ( T A )
R T dT A
7
2000-07-01
KT- and KTY-Series Temperature Sensors
Definition of the
Thermal Time Constant τ
Thermal Time constant
τ=5s
∆TA = TA2 − TA1; τ = t1 − t0
Peak Current in Air
Peak Current in Air
R25 = 2000 Ω; I = f (TA)
R25 = 1000 Ω; I = f (TA)
^
Data Sheet
^
8
2000-07-01
KT- and KTY-Series Temperature Sensors
Package Outlines
Modified TO-92
2
1.6 -0.1
1
KT 100
KTY 10-x
4.2 -0.2
5.2
0.6 +0.02
0.4 +0.05
14.5 -1
1.5 +0.2
0.5 ±0.2
5.2 -0.2
0.4+0.05
2.54
GPD05636
Weight approx. 0.25 g
TO-92 Mini
KT 110, KT 210
KTY 11-x, KTY 2x-x
2.1-0.2
(1.9)
10˚
1.7-0.2
2
0.928
1.9-0.2
1
14.1
0.5 ±0.1
0.4 ±0.1
0.2 +0.07
-0.03
0.9 ±0.1
Weight approx. 0.02 g
Sorts of Packing
Package outlines for tubes, trays etc. are contained in our
Data Book “Package Information”.
Data Sheet
9
Dimensions in mm
2000-07-01
KT- and KTY-Series Temperature Sensors
SOT-23
(Small Outline Transistor)
1.1 max
0.1 max
2.9 ±0.1
B
3
2.6 max
10˚max
+0.2
acc. to
DIN 6784
2
0.4 +0.1
-0.05
10˚max
1.3 ±0.1
A
1
KT 130, KT 230
KTY 13-x, KTY 23-x
0.08...0.15
C
0.95
2˚... 30˚
1.9
0.25
Weight approx. 0.01 g
M
B C
0.20
M
A
Pins 1 - 2: R25
Ni-plated Brass Tube Housing
with Tefzel Isolated Leadwires
KTY 16-6
12 ±0.5
ø3 ±0.15
2
100 ±5
1
3 ±1
abisoliert/
stripped
ø1.1
ø0.4
(Draht / wire AWG 26)
GPD05638
Weight approx. 0.07 g
Sorts of Packing
Package outlines for tubes, trays etc. are contained in our
Data Book “Package Information”.
SMD = Surface Mounted Device
Data Sheet
10
Dimensions in mm
2000-07-01
KT- and KTY-Series Temperature Sensors
Stainless Steel Housing,
BSS303 (equiv. DIN 1.4305)
KTY 19-6M/Z
46 ±0.2
9 ±0.1
6 ±0.1
SW17
12 ±0.1
12
5
17
b
45˚
a
Plug-in socket
13.5
3
M10x1
or NPTF 1/8x27
Ø3.8
SW17
Spade terminals
A2.8x0.8
DIN 46244
without hole
GMX05639
30 ±0.2
Weight approx. 20 g
Sorts of Packing
Package outlines for tubes, trays etc. are contained in our
Data Book “Package Information”.
Data Sheet
11
Dimensions in mm
2000-07-01