PHILIPS KTY85-152

DISCRETE SEMICONDUCTORS
DATA SHEET
book, halfpage
M3D238
KTY85-1 series
Silicon temperature sensors
Product specification
Supersedes data of 1996 Dec 06
File under Discrete Semiconductors, SC17
1998 Mar 26
Philips Semiconductors
Product specification
Silicon temperature sensors
KTY85-1 series
DESCRIPTION
The temperature sensors in the KTY85-1 series have a
positive temperature coefficient of resistance and are
suitable for use in measurement and control systems.
The sensors are encapsulated in the SOD80 glass SMD
package.
handbook, halfpage
k
a
Tolerances of 0.5% or other special selections are
available on request.
MSB010 - 1
The coloured marking band indicates the negative connection and
the product type.
The sensor must be operated with the lower potential at the marked
connection.
MARKING
TYPE NUMBER
MARKING BAND COLOUR
KTY85-110
yellow
KTY85-120
red
KTY85-121
white
KTY85-122
green
KTY85-150
grey
KTY85-151
black
KTY85-152
blue
Fig.1 Simplified outline (SOD80).
QUICK REFERENCE DATA
SYMBOL
PARAMETER
sensor resistance
R25
CONDITIONS
MAX.
UNIT
Tamb = 25 °C; Icont = 1 mA
KTY85-110
990
1010
Ω
KTY85-120
980
1020
Ω
KTY85-121
980
1000
Ω
KTY85-122
1000
1020
Ω
KTY85-150
950
1050
Ω
KTY85-151
950
1000
Ω
KTY85-152
Tamb
MIN.
ambient operating temperature
1000
1050
Ω
−40
+125
°C
LIMITING VALUES
In accordance with the Absolute Maximum Rating System (IEC 134).
SYMBOL
Icont
Tamb
1998 Mar 26
PARAMETER
continuous sensor current
CONDITIONS
MIN.
MAX.
UNIT
in free air; Tamb = 25 °C
−
10
mA
in free air; Tamb = 125 °C
−
2
mA
−40
+125
°C
ambient operating temperature
2
Philips Semiconductors
Product specification
Silicon temperature sensors
KTY85-1 series
CHARACTERISTICS
Tamb = 25 °C, in liquid, unless otherwise specified.
SYMBOL
R25
PARAMETER
sensor resistance
CONDITIONS
MIN.
TYP.
MAX.
UNIT
Icont = 1 mA
KTY85-110
990
−
1010
Ω
KTY85-120
980
−
1020
Ω
KTY85-121
980
−
1000
Ω
KTY85-122
1000
−
1020
Ω
KTY85-150
950
−
1050
Ω
KTY85-151
950
−
1000
Ω
KTY85-152
1000
−
1050
Ω
−
0.76
−
%/K
Tamb = 100 °C and 25 °C
1.65
1.67
1.69
TC
temperature coefficient
R100/R25
resistance ratio
R−40/R25
resistance ratio
Tamb = −40 °C and 25 °C
0.569
0.577
0.585
τ
thermal time constant; note 1
in still air
−
20
−
s
in still liquid; note 2
−
1
−
s
in flowing liquid; note 2
−
0.5
−
s
−40
−
+125
°C
rated temperature range
Notes
1. The thermal time constant is the time taken for the sensor to reach 63.2% of the total temperature difference.
For example, if a sensor with a temperature of 25 °C is moved to an environment with an ambient temperature of
100 °C, the time for the sensor to reach a temperature of 72.4 °C is the thermal time constant.
2. Inert liquid, e.g. FC43 manufactured by the 3M company.
1998 Mar 26
3
Philips Semiconductors
Product specification
Silicon temperature sensors
Table 1
KTY85-1 series
Ambient temperature, corresponding resistance, temperature coefficient and maximum expected temperature
error for KTY85-110 and KTY85-120
Icont = 1 mA.
AMBIENT
TEMPERATURE
(°C)
(°F)
TEMP.
COEFF.
KTY85-110
RESISTANCE
(Ω)
(%/K)
MIN.
TYP.
MAX.
KTY85-120
TEMP.
ERROR
(K)
RESISTANCE
(Ω)
MIN.
TYP.
MAX.
TEMP.
ERROR
(K)
−40
−40
0.93
562
577
592
±2.81
556
577
598
±3.88
−30
−22
0.91
617
632
647
±2.62
611
632
654
±3.72
−20
−4
0.88
677
691
706
±2.42
670
691
713
±3.56
−10
14
0.85
740
754
768
±2.2
732
754
776
±3.37
0
32
0.83
807
820
833
±1.97
798
820
841
±3.18
10
50
0.80
877
889
902
±1.72
868
889
910
±2.97
20
68
0.78
951
962
973
±1.45
942
962
983
±2.74
25
77
0.76
990
1000
1010
±1.31
980
1000
1020
±2.62
30
86
0.75
1027
1039
1050
±1.44
1017
1039
1060
±2.77
40
104
0.73
1105
1118
1132
±1.7
1093
1118
1143
±3.07
50
122
0.71
1185
1202
1219
±1.98
1173
1202
1231
±3.39
60
140
0.69
1268
1288
1309
±2.27
1255
1288
1321
±3.73
70
158
0.67
1355
1379
1402
±2.58
1341
1379
1416
±4.08
80
176
0.65
1445
1472
1500
±2.9
1430
1472
1515
±4.44
90
194
0.63
1537
1569
1601
±3.24
1522
1569
1617
±4.82
100
212
0.61
1633
1670
1707
±3.59
1617
1670
1723
±5.22
110
230
0.60
1732
1774
1816
±3.95
1714
1774
1834
±5.63
120
248
0.58
1834
1882
1929
±4.34
1815
1882
1948
±6.06
125
257
0.57
1886
1937
1987
±4.53
1867
1937
2006
±6.28
1998 Mar 26
4
Philips Semiconductors
Product specification
Silicon temperature sensors
Table 2
KTY85-1 series
Ambient temperature, corresponding resistance, temperature coefficient and maximum expected temperature
error for KTY85-121 and KTY85-122
Icont = 1 mA.
AMBIENT
TEMPERATURE
(°C)
(°F)
TEMP.
COEFF.
KTY85-121
RESISTANCE
(Ω)
(%/K)
MIN.
TYP.
MAX.
KTY85-122
TEMP.
ERROR
(K)
RESISTANCE
(Ω)
MIN.
TYP.
MAX.
TEMP.
ERROR
(K)
−40
−40
0.93
556
571
586
±2.81
567
583
598
±2.81
−30
−22
0.91
611
626
641
±2.62
624
639
654
±2.62
−20
−4
0.88
670
685
699
±2.42
684
698
713
±2.42
−10
14
0.85
732
746
760
±2.2
747
762
776
±2.2
0
32
0.83
799
812
825
±1.97
815
828
842
±1.97
10
50
0.80
868
880
893
±1.72
886
898
911
±1.72
20
68
0.78
942
953
963
±1.45
961
972
983
±1.45
25
77
0.76
980
990
1000
±1.31
1000
1010
1020
±1.31
30
86
0.75
1017
1028
1039
±1.44
1038
1049
1060
±1.44
40
104
0.73
1094
1107
1121
±1.7
1116
1130
1144
±1.7
50
122
0.71
1173
1190
1206
±1.98
1197
1214
1231
±1.98
60
140
0.69
1256
1276
1295
±2.27
1281
1301
1322
±2.27
70
158
0.67
1341
1365
1388
±2.58
1368
1392
1416
±2.58
80
176
0.65
1430
1458
1485
±2.9
1459
1487
1515
±2.9
90
194
0.63
1522
1554
1585
±3.24
1553
1585
1617
±3.24
100
212
0.61
1617
1653
1690
±3.59
1650
1687
1724
±3.59
110
230
0.60
1715
1756
1798
±3.95
1750
1792
1834
±3.95
120
248
0.58
1816
1863
1910
±4.34
1853
1900
1948
±4.34
125
257
0.57
1867
1917
1967
±4.53
1905
1956
2007
±4.53
1998 Mar 26
5
Philips Semiconductors
Product specification
Silicon temperature sensors
Table 3
KTY85-1 series
Ambient temperature, corresponding resistance, temperature coefficient and maximum expected temperature
error for KTY85-150 and KTY85-151
Icont = 1 mA.
AMBIENT
TEMPERATURE
(°C)
(°F)
TEMP.
COEFF.
KTY85-150
RESISTANCE
(Ω)
(%/K)
MIN.
TYP.
MAX.
KTY85-151
TEMP.
ERROR
(K)
RESISTANCE
(Ω)
MIN.
TYP.
MAX.
TEMP.
ERROR
(K)
−40
−40
0.93
539
577
615
±7.1
539
562
586
±4.42
−30
−22
0.91
592
632
673
±7.04
593
617
641
±4.28
−20
−4
0.88
649
691
734
±6.97
650
674
699
±4.12
−10
14
0.85
710
754
798
±6.9
710
735
760
±3.96
0
32
0.83
774
820
866
±6.81
774
799
824
±3.79
10
50
0.80
842
889
937
±6.72
842
867
892
±3.59
20
68
0.78
913
962
1012
±6.61
914
938
963
±3.39
25
77
0.76
950
1000
1050
±6.55
950
975
1000
±3.27
30
86
0.75
986
1039
1091
±6.76
987
1013
1039
±3.43
40
104
0.73
1060
1118
1177
±7.19
1061
1090
1120
±3.76
50
122
0.71
1137
1202
1267
±7.63
1138
1172
1206
±4.1
60
140
0.69
1217
1288
1360
±8.1
1218
1256
1295
±4.45
70
158
0.67
1300
1379
1457
±8.58
1301
1344
1387
±4.83
80
176
0.65
1386
1472
1559
±9.07
1387
1435
1484
±5.21
90
194
0.63
1475
1569
1664
±9.59
1476
1530
1584
±5.62
100
212
0.61
1566
1670
1773
±10.12
1568
1628
1 688
±6.04
110
230
0.60
1661
1774
1887
±10.66
1663
1730
1796
±6.47
120
248
0.58
1759
1882
2004
±11.22
1761
1835
1908
±6.92
125
257
0.57
1809
1937
2064
±11.51
1811
1888
1966
±7.15
1998 Mar 26
6
Philips Semiconductors
Product specification
Silicon temperature sensors
Table 4
KTY85-1 series
Ambient temperature, corresponding resistance, temperature coefficient and maximum expected temperature
error for KTY85-152
Icont = 1 mA.
AMBIENT
TEMPERATURE
(°C)
(°F)
TEMP. COEFF.
KTY85-152
RESISTANCE
(Ω)
(%/K)
MIN.
TYP.
MAX.
TEMP.
ERROR
(K)
−40
−40
0.93
567
591
616
±4.42
−30
−22
0.91
623
648
673
±4.28
−20
−4
0.88
683
709
734
±4.12
−10
14
0.85
747
773
799
±3.96
0
32
0.83
814
840
867
±3.79
10
50
0.80
885
912
938
±3.59
20
68
0.78
960
986
1012
±3.39
25
77
0.76
1000
1025
1050
±3.27
30
86
0.75
1037
1065
1092
±3.43
40
104
0.73
1115
1146
1178
±3.76
50
122
0.71
1196
1232
1267
±4.1
60
140
0.69
1280
1321
1361
±4.45
70
158
0.67
1368
1413
1459
±4.83
80
176
0.65
1458
1509
1560
±5.21
90
194
0.63
1552
1609
1666
±5.62
100
212
0.61
1648
1712
1775
±6.04
110
230
0.60
1748
1818
1889
±6.47
120
248
0.58
1851
1929
2006
±6.92
125
257
0.57
1904
1985
2066
±7.15
1998 Mar 26
7
Philips Semiconductors
Product specification
Silicon temperature sensors
KTY85-1 series
MGG694
8
handbook, halfpage
∆T
(K)
MGG702
2
handbook, halfpage
KTY85-151
-152
R
(kΩ)
KTY85-120
1.6
4
KTY85-110
-121
-122
0
1.2
−4
0.8
−8
−50
0
50
0.4
−50
100
150
Tamb (°C)
0
50
100
150
Tamb (°C)
Icont = 1 mA.
Fig.3
Fig.2 Maximum expected temperature error (∆T).
MGG698
3
Sensor resistance as a function of ambient
temperature; average values.
MGG708
12
handbook, halfpage
handbook, halfpage
R
(kΩ)
Icont
(mA)
125 °C
2
8
100 °C
75 °C
50 °C
25 °C
0 °C
−25 °C
1
4
−40 °C
0
10−1
1
Icont (mA)
0
10
−40
0
50
100
150
Tamb (°C)
To keep the temperature error low, an operating current of
Icont = 1 mA is recommended for temperatures above 100 °C.
Fig.4
Sensor resistance as a function of operating
current.
1998 Mar 26
Fig.5
8
Maximum operating current for safe
operation.
Philips Semiconductors
Product specification
Silicon temperature sensors
KTY85-1 series
MGG707
20
handbook, halfpage
∆R
(Ω)
10
0
−10
0
1
Icont (mA)
2
Tamb = 25 °C.
Fig.6
Deviation of sensor resistance as a function
of operating current in still liquid.
APPLICATION INFORMATION
SYMBOL
∆R25
1998 Mar 26
PARAMETER
drift of sensor resistance at 25 °C
CONDITIONS
10000 hours continuous operation;
Tamb = 125 °C
9
TYP.
1
UNIT
Ω
Philips Semiconductors
Product specification
Silicon temperature sensors
KTY85-1 series
PACKAGE OUTLINE
Hermetically sealed glass surface mounted package; 2 connectors
k
SOD80
a
(1)
D
L
L
H
DIMENSIONS (mm are the original dimensions)
0
UNIT
D
H
L
mm
1.7
1.5
3.7
3.3
0.3
1
2 mm
scale
Note
1. The marking band indicates the cathode.
REFERENCES
OUTLINE
VERSION
IEC
SOD80
100H02
1998 Mar 26
JEDEC
EIAJ
EUROPEAN
PROJECTION
ISSUE DATE
97-06-20
10
Philips Semiconductors
Product specification
Silicon temperature sensors
KTY85-1 series
DEFINITIONS
Data Sheet Status
Objective specification
This data sheet contains target or goal specifications for product development.
Preliminary specification
This data sheet contains preliminary data; supplementary data may be published later.
Product specification
This data sheet contains final product specifications.
Limiting values
Limiting values given are in accordance with the Absolute Maximum Rating System (IEC 134). Stress above one or
more of the limiting values may cause permanent damage to the device. These are stress ratings only and operation
of the device at these or at any other conditions above those given in the Characteristics sections of the specification
is not implied. Exposure to limiting values for extended periods may affect device reliability.
Application information
Where application information is given, it is advisory and does not form part of the specification.
LIFE SUPPORT APPLICATIONS
These products are not designed for use in life support appliances, devices, or systems where malfunction of these
products can reasonably be expected to result in personal injury. Philips customers using or selling these products for
use in such applications do so at their own risk and agree to fully indemnify Philips for any damages resulting from such
improper use or sale.
1998 Mar 26
11
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Date of release: 1998 Mar 26
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