Catalog(1 parts)
| Part | Resistance Tolerance▲▼ | Resistance Tolerance▲▼ | Operating Temperature▲▼ | Operating Temperature▲▼ | Mounting Type | Resistance @ 25°C▲▼ | Supplier Device Package | Package / Case | Package / Case |
|---|---|---|---|---|---|---|---|---|---|
0.009999999776482582 ul | -0.009999999776482582 ul | 125 °C | -40 °C | Surface Mount | 100000 Ω | 2-X1SON (1x0.6) | 1006 Metric | 0402 |
Key Features
• Silicon-based thermistor with a positive temperature coefficient (PTC)Linear resistance change across temperature100-kΩ nominal resistance at 25 °C (R25)±1% maximum (0 °C to 70 °C)Wide operating temperature of –40 °C to +150 °CConsistent sensitivity across temperature6400 ppm/°C TCR (25 °C)0.2% typical TCR tolerance across temperature rangeFast thermal response time of 0.6 s (DEC)Long lifetime and robust performanceBuilt-in fail-safe in case of short-circuit failures0.3% typical long term sensor driftSilicon-based thermistor with a positive temperature coefficient (PTC)Linear resistance change across temperature100-kΩ nominal resistance at 25 °C (R25)±1% maximum (0 °C to 70 °C)Wide operating temperature of –40 °C to +150 °CConsistent sensitivity across temperature6400 ppm/°C TCR (25 °C)0.2% typical TCR tolerance across temperature rangeFast thermal response time of 0.6 s (DEC)Long lifetime and robust performanceBuilt-in fail-safe in case of short-circuit failures0.3% typical long term sensor drift
Description
AI
Get started today with theThermistor Design Tool, offering complete resistance vs temperature table (R-T table) computation, other helpful methods to derive temperature and example C-code.
Linear thermistors offer linearity and consistent sensitivity across temperature to enable simple and accurate methods for temperature conversion. Low power consumption and a small thermal mass minimize the impact of self-heating. With built-in failsafe behavior at high temperatures and powerful immunity to environmental variation, these devices are designed for a long lifetime of high performance. The small size of the TMP6 series also allows for close placement to heat sources and quick response times.
Take advantage of benefits over NTC thermistors such as no extra linearization circuitry, minimized calibration, less resistance tolerance variation, larger sensitivity at high temperatures, and simplified conversion methods to save time and memory in the processor.
The TMP63 is currently available in a 0402 footprint-compatible X1SON package and a 0603 footprint-compatible SOT-5X3 package.
Get started today with theThermistor Design Tool, offering complete resistance vs temperature table (R-T table) computation, other helpful methods to derive temperature and example C-code.
Linear thermistors offer linearity and consistent sensitivity across temperature to enable simple and accurate methods for temperature conversion. Low power consumption and a small thermal mass minimize the impact of self-heating. With built-in failsafe behavior at high temperatures and powerful immunity to environmental variation, these devices are designed for a long lifetime of high performance. The small size of the TMP6 series also allows for close placement to heat sources and quick response times.
Take advantage of benefits over NTC thermistors such as no extra linearization circuitry, minimized calibration, less resistance tolerance variation, larger sensitivity at high temperatures, and simplified conversion methods to save time and memory in the processor.
The TMP63 is currently available in a 0402 footprint-compatible X1SON package and a 0603 footprint-compatible SOT-5X3 package.