PHILIPS KTY81-1

DISCRETE SEMICONDUCTORS
DATA SHEET
book, halfpage
M3D239
KTY81-1 series
Silicon temperature sensors
Product specification
Supersedes data of 1998 Mar 26
2000 Aug 25
Philips Semiconductors
Product specification
Silicon temperature sensors
KTY81-1 series
DESCRIPTION
PINNING
The temperature sensors in the KTY81-1 series have a
positive temperature coefficient of resistance and are
suitable for use in measurement and control systems. The
sensors are encapsulated in the SOD70 leaded plastic
package.
PIN
DESCRIPTION
1
electrical contact
2
electrical contact
3
not to be connected to a potential
Tolerances of 0.5% or other special selections are
available on request.
MARKING
TYPE NUMBER
CODE
KTY81-110
110
KTY81-120
120
KTY81-121
121
KTY81-122
122
KTY81-150
150
KTY81-151
151
KTY81-152
152
1
handbook, halfpage
3
2
MBH739
Fig.1 Simplified outline (SOD70).
QUICK REFERENCE DATA
SYMBOL
R25
Tamb
2000 Aug 25
PARAMETER
sensor resistance
CONDITIONS
MIN.
MAX.
UNIT
Tamb = 25 °C; Icont = 1 mA
KTY81-110
990
1010
Ω
KTY81-120
980
1020
Ω
KTY81-121
980
1000
Ω
KTY81-122
1000
1020
Ω
KTY81-150
950
1050
Ω
KTY81-151
950
1000
Ω
KTY81-152
1000
1050
Ω
−55
+150
°C
ambient operating
temperature
2
Philips Semiconductors
Product specification
Silicon temperature sensors
KTY81-1 series
LIMITING VALUES
In accordance with the Absolute Maximum Rating System (IEC 60134).
SYMBOL
Icont
Tamb
PARAMETER
continuous sensor current
CONDITIONS
MIN.
MAX.
UNIT
in free air; Tamb = 25 °C
−
10
mA
in free air; Tamb = 150 °C
−
2
mA
−55
+150
°C
ambient operating temperature
CHARACTERISTICS
Tamb = 25 °C, in liquid, unless otherwise specified.
SYMBOL
R25
PARAMETER
sensor resistance
CONDITIONS
MIN.
TYP.
MAX.
UNIT
Icont = 1 mA
KTY81-110
990
−
1010
Ω
KTY81-120
980
−
1020
Ω
KTY81-121
980
−
1000
Ω
KTY81-122
1000
−
1020
Ω
KTY81-150
950
−
1050
Ω
KTY81-151
950
−
1000
Ω
KTY81-152
1000
−
1050
Ω
−
0.79
−
%/K
TC
temperature coefficient
R100/R25
resistance ratio
Tamb = 100 °C and 25 °C 1.676
1.696
1.716
R−55/R25
resistance ratio
Tamb = −55 °C and 25 °C 0.480
0.490
0.500
τ
thermal time constant; note 1
in still air
−
30
−
s
in still liquid; note 2
−
5
−
s
in flowing liquid; note 2
−
3
−
s
−55
−
+150
°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 47.4 °C is the thermal time constant.
2. Inert liquid, e.g. FC43 manufactured by the 3M company.
2000 Aug 25
3
Philips Semiconductors
Product specification
Silicon temperature sensors
KTY81-1 series
Table 1
Ambient temperature, corresponding resistance, temperature coefficient and maximum expected temperature
error for KTY81-110 and KTY81-120
Icont = 1 mA.
AMBIENT
TEMPERATURE
(°C)
(°F)
TEMP.
COEFF.
KTY81-110
RESISTANCE
(Ω)
KTY81-120
MIN.
TYP.
MAX.
TEMP.
ERROR
(K)
(%/K)
RESISTANCE
(Ω)
MIN.
TYP.
MAX.
TEMP.
ERROR
(K)
−55
−67
0.99
475
490
505
±3.02
470
490
510
±4.02
−50
−58
0.98
500
515
530
±2.92
495
515
535
±3.94
−40
−40
0.96
552
567
582
±2.74
547
567
588
±3.78
−30
−22
0.93
609
624
638
±2.55
603
624
645
±3.62
−20
−4
0.91
669
684
698
±2.35
662
684
705
±3.45
−10
14
0.88
733
747
761
±2.14
726
747
769
±3.27
0
32
0.85
802
815
828
±1.91
793
815
836
±3.08
10
50
0.83
874
886
898
±1.67
865
886
907
±2.88
20
68
0.80
950
961
972
±1.41
941
961
982
±2.66
25
77
0.79
990
1000
1010
±1.27
980
1000
1020
±2.54
30
86
0.78
1029
1040
1051
±1.39
1018
1040
1061
±2.68
40
104
0.75
1108
1122
1136
±1.64
1097
1122
1147
±2.97
50
122
0.73
1192
1209
1225
±1.91
1180
1209
1237
±3.28
60
140
0.71
1278
1299
1319
±2.19
1265
1299
1332
±3.61
70
158
0.69
1369
1392
1416
±2.49
1355
1392
1430
±3.94
80
176
0.67
1462
1490
1518
±2.8
1447
1490
1532
±4.3
90
194
0.65
1559
1591
1623
±3.12
1543
1591
1639
±4.66
100
212
0.63
1659
1696
1733
±3.46
1642
1696
1750
±5.05
110
230
0.61
1762
1805
1847
±3.83
1744
1805
1865
±5.48
120
248
0.58
1867
1915
1963
±4.33
1848
1915
1982
±6.07
125
257
0.55
1919
1970
2020
±4.66
1899
1970
2040
±6.47
130
266
0.52
1970
2023
2077
±5.07
1950
2023
2097
±6.98
140
284
0.45
2065
2124
2184
±6.28
2043
2124
2205
±8.51
150
302
0.35
2145
2211
2277
±8.55
2123
2211
2299
±11.43
2000 Aug 25
4
Philips Semiconductors
Product specification
Silicon temperature sensors
KTY81-1 series
Table 2
Ambient temperature, corresponding resistance, temperature coefficient and maximum expected temperature
error for KTY81-121 and KTY81-122
Icont = 1 mA.
AMBIENT
TEMPERATURE
(°C)
(°F)
TEMP.
COEFF.
KTY81-121
RESISTANCE
(Ω)
KTY81-122
MIN.
TYP.
MAX.
TEMP.
ERROR
(K)
(%/K)
RESISTANCE
(Ω)
MIN.
TYP.
MAX.
TEMP.
ERROR
(K)
−55
−67
0.99
471
485
500
±3.02
480
495
510
±3.02
−50
−58
0.98
495
510
524
±2.92
505
520
535
±2.92
−40
−40
0.96
547
562
576
±2.74
558
573
588
±2.74
−30
−22
0.93
603
617
632
±2.55
615
630
645
±2.55
−20
−4
0.91
662
677
691
±2.35
676
690
705
±2.35
−10
14
0.88
726
740
754
±2.14
741
755
769
±2.14
0
32
0.85
794
807
820
±1.91
810
823
836
±1.91
10
50
0.83
865
877
889
±1.67
883
895
907
±1.67
20
68
0.80
941
951
962
±1.41
960
971
982
±1.41
25
77
0.79
980
990
1000
±1.27
1000
1010
1020
±1.27
30
86
0.78
1018
1029
1041
±1.39
1039
1050
1062
±1.39
40
104
0.75
1097
1111
1125
±1.64
1120
1134
1148
±1.64
50
122
0.73
1180
1196
1213
±1.91
1204
1221
1238
±1.91
60
140
0.71
1266
1286
1305
±2.19
1291
1312
1332
±2.19
70
158
0.69
1355
1378
1402
±2.49
1382
1406
1430
±2.49
80
176
0.67
1447
1475
1502
±2.8
1477
1505
1533
±2.8
90
194
0.65
1543
1575
1607
±3.12
1574
1607
1639
±3.12
100
212
0.63
1642
1679
1716
±3.46
1676
1713
1750
±3.46
110
230
0.61
1745
1786
1828
±3.83
1780
1823
1865
±3.83
120
248
0.58
1849
1896
1943
±4.33
1886
1934
1982
±4.33
125
257
0.55
1900
1950
2000
±4.66
1938
1989
2041
±4.66
130
266
0.52
1950
2003
2056
±5.07
1989
2044
2098
±5.07
140
284
0.45
2044
2103
2162
±6.28
2 085
2146
2206
±6.28
150
302
0.35
2124
2189
2254
±8.55
2167
2233
2299
±8.55
2000 Aug 25
5
Philips Semiconductors
Product specification
Silicon temperature sensors
KTY81-1 series
Table 3
Ambient temperature, corresponding resistance, temperature coefficient and maximum expected temperature
error for KTY81-150 and KTY81-151
Icont = 1 mA.
AMBIENT
TEMPERATURE
(°C)
(°F)
TEMP.
COEFF.
KTY81-150
RESISTANCE
(Ω)
KTY81-151
MIN.
TYP.
MAX.
TEMP.
ERROR
(K)
(%/K)
RESISTANCE
(Ω)
MIN.
TYP.
MAX.
TEMP.
ERROR
(K)
−55
−67
0.99
456
490
524
±7.04
456
478
499
±4.52
−50
−58
0.98
479
515
550
±6.99
480
502
524
±4.45
−40
−40
0.96
530
567
605
±6.91
530
553
576
±4.3
−30
−22
0.93
584
624
663
±6.84
584
608
632
±4.16
−20
−4
0.91
642
684
725
±6.77
642
667
691
±4.01
−10
14
0.88
703
747
791
±6.69
704
729
753
±3.84
0
32
0.85
769
815
861
±6.61
770
794
819
±3.67
10
50
0.83
838
886
934
±6.51
839
864
889
±3.48
20
68
0.80
912
961
1010
±6.41
912
937
962
±3.28
25
77
0.79
950
1000
1050
±6.35
950
975
1000
±3.18
30
86
0.78
987
1040
1093
±6.55
988
1014
1040
±3.33
40
104
0.75
1064
1122
1181
±6.97
1064
1094
1124
±3.64
50
122
0.73
1143
1209
1274
±7.4
1144
1178
1212
±3.97
60
140
0.71
1226
1299
1371
±7.85
1227
1266
1305
±4.31
70
158
0.69
1313
1392
1472
±8.31
1314
1357
1401
±4.67
80
176
0.67
1402
1490
1577
±8.79
1404
1453
1501
±5.05
90
194
0.65
1495
1591
1687
±9.29
1497
1551
1606
±5.43
100
212
0.63
1591
1696
1801
±9.81
1593
1654
1 714
±5.84
110
230
0.61
1690
1805
1919
±10.4
1692
1759
1827
±6.3
120
248
0.58
1791
1915
2039
±11.28
1792
1867
1942
±6.94
125
257
0.55
1840
1970
2099
±11.91
1842
1920
1999
±7.38
130
266
0.52
1889
2023
2158
±12.72
1891
1973
2055
±7.94
140
284
0.45
1980
2124
2269
±15.21
1982
2071
2161
±9.63
150
302
0.35
2057
2211
2365
±20.09
2059
2156
2252
±12.88
2000 Aug 25
6
Philips Semiconductors
Product specification
Silicon temperature sensors
KTY81-1 series
Table 4
Ambient temperature, corresponding resistance, temperature coefficient and maximum expected temperature
error for KTY81-152
Icont = 1 mA.
AMBIENT
TEMPERATURE
(°C)
(°F)
KTY81-152
RESISTANCE
(Ω)
MIN.
TYP.
MAX.
TEMP.
ERROR
(K)
(%/K)
−55
−67
0.99
480
502
525
±4.52
−50
−58
0.98
505
528
551
±4.45
−40
−40
0.96
558
582
606
±4.3
−30
−22
0.93
614
639
664
±4.16
−20
−4
0.91
675
701
726
±4.01
−10
14
0.88
740
766
792
±3.84
0
32
0.85
809
835
861
±3.67
10
50
0.83
882
908
934
±3.48
20
68
0.80
959
985
1011
±3.28
25
77
0.79
1000
1025
1050
±3.18
30
86
0.78
1038
1066
1093
±3.33
40
104
0.75
1119
1150
1182
±3.64
50
122
0.73
1203
1239
1275
±3.97
60
140
0.71
1290
1331
1372
±4.31
70
158
0.69
1381
1427
1473
±4.67
80
176
0.67
1476
1527
1578
±5.05
90
194
0.65
1573
1631
1688
±5.43
100
212
0.63
1674
1738
1802
±5.84
110
230
0.61
1779
1850
1921
±6.3
120
248
0.58
1884
1963
2041
±6.94
125
257
0.55
1937
2 019
2101
±7.38
130
266
0.52
1988
2074
2160
±7.94
140
284
0.45
2084
2178
2271
±9.63
150
302
0.35
2165
2266
2367
±12.88
2000 Aug 25
7
Philips Semiconductors
Product specification
Silicon temperature sensors
KTY81-1 series
MGG696
15
∆T
(K)
MSA923
2.4
handbook, halfpage
handbook, halfpage
KTY81-151
-152
R
(kΩ)
10
KTY81-120
1.6
5
KTY81-110
-121
-122
0
−5
0.8
−10
−15
−50
0
50
0
−100
100
150
Tamb (°C)
−50
0
50
100
150
200
Tamb (°C)
Icont = 1 mA.
Fig.3
Sensor resistance as a function of ambient
temperature; average values.
Fig.2 Maximum expected temperature error (∆T).
MGG699
3
MGG705
12
handbook, halfpage
handbook, halfpage
R
(kΩ)
Icont
(mA)
150 °C
125 °C
2
8
100 °C
75 °C
50 °C
25 °C
0 °C
−25 °C
1
4
−50 °C
0
10−1
1
Icont (mA)
0
−50
10
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.
2000 Aug 25
Fig.5
8
Maximum operating current for safe
operation.
Philips Semiconductors
Product specification
Silicon temperature sensors
KTY81-1 series
MGG704
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
2000 Aug 25
PARAMETER
drift of sensor resistance at 25 °C
CONDITIONS
10000 hours continuous operation;
Tamb = 150 °C
9
TYP.
1.6
UNIT
Ω
Philips Semiconductors
Product specification
Silicon temperature sensors
KTY81-1 series
PACKAGING
Sensors in SOD70 encapsulation are delivered in bulk packaging and also in reel packaging for automatic placement on
hybrid circuits and printed-circuit boards (see Figs 7 and 8).
Note: Types in bulk packaging have a lead-to-lead distance of 2.54 millimetres. The lead-to-lead distance of types
packaged on reel is 5.08 millimetres for spread lead types and 2.54 millimetres for straight lead types.
P
handbook, full pagewidth
T
A1
∆h
(p)
∆h
A
H2
W2
H1
H0
W0
L
W1
W
F1
MBH795
F2
D0
F
t
P2
P0
Fig.7 Configuration of bandolier: spread leads.
2000 Aug 25
t1
10
Philips Semiconductors
Product specification
Silicon temperature sensors
KTY81-1 series
P
handbook, full pagewidth
T
A1
∆h
(p)
∆h
A
H2
W2
H1
H0
W0
L
W1
W
F1
MBL214
F2
D0
F
t
P2
P0
Fig.8 Configuration of bandolier: straight leads.
2000 Aug 25
t1
11
Philips Semiconductors
Product specification
Silicon temperature sensors
Table 5
KTY81-1 series
Tape specification
SPECIFICATIONS
SYMBOL
DIMENSION
REMARKS
MIN.
NOM.
MAX.
TOL.
UNIT
A1
body width
4.4
−
4.8
−
mm
A
body height
5
−
5.2
−
mm
T
body thickness
3.6
−
4.2
−
mm
P
pitch of component
−
12.7
−
±1
mm
P0
feed hole pitch
−
12.7
−
±0.3
mm
cumulative pitch error
−
−
−
±0.1
6.35
−
±0.4
mm
P2
feed hole centre to component −
centre
F
lead-to-lead distance
note 1
spread leads
−
5.08
−
+0.6/−0.2
mm
straight leads
−
2.54
−
+0.6/−0.2
mm
∆h
component alignment
−
0
1
−
mm
W
tape width
−
18
−
±0.5
mm
W0
hold-down tape width
−
6
−
±0.2
mm
W1
hole position
−
9
−
+0.7/−0.5
mm
W2
hold-down tape position
−
0.5
−
±0.2
mm
H0
lead wire clinch height
−
16.5
−
±0.5
mm
H1
component height
−
−
23.25
−
mm
L
length of snipped leads
−
−
11
−
mm
D0
feed hole diameter
−
4
−
±0.2
mm
t
total tape thickness
−
−
1.2
−
mm
F1, F2
lead to snipped lead distance
spread leads
−
2.54
−
+0.4/−0.2
mm
straight leads
−
1.27
−
+0.4/−0.2
mm
H2
clinch height
−
2.5
−
+0.5/0
mm
(p)
pull-out force
6
−
−
−
N
Note
1. Measured over 20 devices.
2000 Aug 25
12
to be measured at bottom
of clinch
at top of body
t1 = 0.3 to 0.6
Philips Semiconductors
Product specification
Silicon temperature sensors
KTY81-1 series
PACKAGE OUTLINE
Plastic near cylindrical single-ended package; 2 in-line leads
SOD70
c
E
d
A
L
b
1
e
D
2
b1
L2
L1
0
2.5
5 mm
scale
DIMENSIONS (mm are the original dimensions)
(1)
UNIT
A
b
b1
c
D
d
E
e
L
L1
max.
L2
mm
5.2
5.0
0.48
0.40
0.66
0.56
0.45
0.40
4.8
4.4
1.7
1.4
4.2
3.6
2.54
14.5
12.7
2.5
0.7
0.5
Note
1. Terminal dimensions within this zone are uncontrolled to allow for flow of plastic and terminal irregularities.
OUTLINE
VERSION
REFERENCES
IEC
JEDEC
EIAJ
ISSUE DATE
98-05-25
SOD70
2000 Aug 25
EUROPEAN
PROJECTION
13
Philips Semiconductors
Product specification
Silicon temperature sensors
KTY81-1 series
DATA SHEET STATUS
DATA SHEET STATUS
PRODUCT
STATUS
DEFINITIONS (1)
Objective specification
Development
This data sheet contains the design target or goal specifications for
product development. Specification may change in any manner without
notice.
Preliminary specification
Qualification
This data sheet contains preliminary data, and supplementary data will be
published at a later date. Philips Semiconductors reserves the right to
make changes at any time without notice in order to improve design and
supply the best possible product.
Product specification
Production
This data sheet contains final specifications. Philips Semiconductors
reserves the right to make changes at any time without notice in order to
improve design and supply the best possible product.
Note
1. Please consult the most recently issued data sheet before initiating or completing a design.
DEFINITIONS
DISCLAIMERS
Short-form specification  The data in a short-form
specification is extracted from a full data sheet with the
same type number and title. For detailed information see
the relevant data sheet or data handbook.
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
Semiconductors customers using or selling these products
for use in such applications do so at their own risk and
agree to fully indemnify Philips Semiconductors for any
damages resulting from such application.
Limiting values definition  Limiting values given are in
accordance with the Absolute Maximum Rating System
(IEC 60134). 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.
Right to make changes  Philips Semiconductors
reserves the right to make changes, without notice, in the
products, including circuits, standard cells, and/or
software, described or contained herein in order to
improve design and/or performance. Philips
Semiconductors assumes no responsibility or liability for
the use of any of these products, conveys no licence or title
under any patent, copyright, or mask work right to these
products, and makes no representations or warranties that
these products are free from patent, copyright, or mask
work right infringement, unless otherwise specified.
Application information  Applications that are
described herein for any of these products are for
illustrative purposes only. Philips Semiconductors make
no representation or warranty that such applications will be
suitable for the specified use without further testing or
modification.
2000 Aug 25
14
Philips Semiconductors
Product specification
Silicon temperature sensors
KTY81-1 series
NOTES
2000 Aug 25
15
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For all other countries apply to: Philips Semiconductors,
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The Netherlands, Fax. +31 40 27 24825
Internet: http://www.semiconductors.philips.com
SCA 70
© Philips Electronics N.V. 2000
All rights are reserved. Reproduction in whole or in part is prohibited without the prior written consent of the copyright owner.
The information presented in this document does not form part of any quotation or contract, is believed to be accurate and reliable and may be changed
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Printed in The Netherlands
613520/03/pp16
Date of release: 2000
Aug 25
Document order number:
9397 750 07226