Ni1000SOT Temperature Sensor SPECIFICATIONS Contact temperature sensing Comply with former DIN 43760 standard Small SMD package SOT 23 Automotive qualified Ni1000SOT is a nickel thin film resistance temperature detector (RTD) that is suitable for use in contact temperature sensing. The devices are manufactured by PVD-deposition on a silicon substrate. The thin film structure is covered by a passivation layer for environmental protection and enhanced stability. The nickel elements are mounted on lead frames and encapsulated in SOT23 packages. This technology allows the production of miniature, low cost, high precision temperature sensors. The characteristics of the temperature sensor comply with the former DIN 43760 standard. It is qualified for the most demanding automotive applications (incl. exposure to hot oil) and is suitable for many more applications in harsh environments SENSOR SOLUTIONS ///Ni1000SOT 09/2015 Page 1 Ni1000SOT Temperature Sensor FEATURES Resistance: 1000 ohms at 0C Min/ Max temp -55C to +160C Good linearity between resistance and temperature (R Vs T) Large temperature coefficient of resistance: 6178 ppm/K (0C, 100C) Low power consumption Good thermal contact via Pin 3 Tape and reel (8mm format) APPLICATIONS Temperature sensing, control and compensation General instrumentation Automotive (VW standard 801-01 vibration) Remote sensing PERFORMANCE SPECS Parameter Symbol Condition Min. Typ. Max. Unit Basic resistance R 0C 997,81 1000 1002,20 0 Temperature coefficient of resistance (according to TCR 0C to +100C 6100 6178 6240 ppm/K DIN 43760, see below) Measurement current I 0.2 5 mA Self heating coefficient EK +23 C, still air 1.4 1.7 2 mW/K Operation temperature TOp -55 +160 C Maximum resistance drift R 1000h 150C 0.1 % Storage temperature TSt -55 +160 C ESD resistant MIL 883E3015.7 Class 1 SELF HEATING EFFECT For accurate temperature measurement it is recommended to choose a small current to avoid self heating of the nickel sensing element. The temperature error caused by excessive measurement current can be calculated using: T = P/EK 2 where P = I R is the power generated by the measurement current and EK is the self heating coefficient. PACKAGE INFORMATION Parameter Condition Typ. Unit Package SOT23 Soldering Reflow to + 260C 96Sn4Ag Packing units 13 (330 mm) / 10000 Reel Size / of sensors Three Digit code: 1 + XX, where XX is the Package marking revision. 10/2015 SENSOR SOLUTIONS ///Ni1000SOT Page 2