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KTY11-6 Dataheets PDF



Part Number KTY11-6
Manufacturers Infineon Technologies AG
Logo Infineon Technologies AG
Description Silicon Temperature Sensors
Datasheet KTY11-6 DatasheetKTY11-6 Datasheet (PDF)

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 Mod.

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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 SOT-23 KTY 16-6 KTY 19-6 1:1 Data Sheet 1 2000-07-01 KT- and KTY-Series Temperature Sensors Standard Packages Type KT 100 KT 110 KT 130 KT 210 KT 230 KTY 10-5 KTY 10-6 KTY 10-62 KTY 10-7 KTY 11-5 KTY 11-6 KTY 11-7 KTY 13-5 KTY 13-6 KTY 13-7 KTY 21-5 KTY 21-6 KTY 21-7 KTY 23-5 KTY 23-6 KTY 23-7 Marking KT 100 T1 T1 N1 N1 KTY 10-5 KTY 10-6 KTY 10-62 KTY 10-7 T5 T6 T7 T5 T6 T7 N5 N6 N7 N5 N6 N7 Ordering Code Q62705-K331 Q62705-K332 Q62705-K333 Q62705-K334 Q62705-K335 Q62705-K110 Q62705-K132 Q62705-K71 Q62705-K111 Q62705-K245 Q62705-K246 Q62705-K247 Q62705-K249 Q62705-K250 Q62705-K251 Q62705-K258 Q62705-K259 Q62705-K260 Q62705-K262 Q62705-K263 Q62705-K264 R25 min 1940 1940 1940 970 970 1950 1980 1990 2010 1950 1980 2010 1950 1980 2010 975 990 1005 975 990 1005 R25 max 2060 2060 2060 1030 1030 1990 2020 2010 2050 1990 2020 2050 1990 2020 2050 995 1010 1025 995 1010 1025 Package TO-92 TO-92 Mini SOT-23 1) TO-92 Mini SOT-23 1) TO-92 TO-92 TO-92 TO-92 TO-92 Mini TO-92 Mini TO-92 Mini SOT-23 1) SOT-23 1) SOT-23 1) TO-92 Mini TO-92 Mini TO-92 Mini SOT-23 1) SOT-23 1) SOT-23 1) (in Ω with Iop = 1 mA) Custom Packages Type KTY 16-6 KTY 19-6M KTY 19-6Z 1) Marking none KTY 19M KTY 19Z Ordering Code Q62705-K128 Q62705-K271 Q62705-K272 Q62901-B80 R25 min 1980 1980 1980 R25 max 2020 2020 2020 (in Ω with Iop = 1 mA) Screw Thread – ISO M10x1 NPTF 1/8x27 Connector set for KTY 19 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 Maximum operating voltage 1) TA ≤ 25 °C, t ≤ 10 ms Maximum operating current Peak operating current Symbol KT 1x0 KT 2x0 Unit KTY 1x-x KTY 2x-x 25 5 7 7 10 − 50 … + 150 − 50 … + 150 V mA mA °C °C Vopmax Iopmax Iopp Top Tstg TA ≤ 25 °C, t ≤ 10 ms Operating temperature range Storage temperature range 1) 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) KT 100, KTY 10-x KT 110, KT 210, KTY 11-x, KTY 21-x KT 130, KT 230, KTY 13-x, KTY 23-x KTY 16-6 KTY 19-6M/Z τair (typ.) 40 11 7 40 40 τoil (typ.) 4 1.5 1 4 4 Unit s 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: RT k 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 °C − 50 − 40 − 30 − 20 − 10 0 10 20 25 30 40 50 60 70 80 90 100 110 120 130 140 150 1) Normalising point kT min. 0.506 0.559 0.615 0.676 0.741 0.810 0.883 0.960 1.039 1.119 1.204 1.291 1.383 1.478 1.577 1.680 1.786 1.896 2.010 2.093 2.196 typ. 0.518 0.570 0.625 0.685 0.748 0.815 0.886 0.961 1.0 1) 1.040 1.123 1.209 1.300 1.394 1.492 1.594 1.700 1.810 1.923 2.041 2.128 2.235 1.041 1.126 1.215 1.308 1.405 1.506 1.611 1.720 1.833 1.951 2.072 2.163 2.274 max. 0.530 0.581 0.635 0.694 0.755 0.821 0.890 0.962 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 Example: KTY 10-6 in oil at TA = 25 °C Typical Depend.


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