The RN73H2ATTD1073B25 is a surface mount chip resistor from Lingto Electronic Limited, designed for high reliability applications, particularly in automotive environments. It features a resistance value of 107 kOc with a tolerance of ¬±0.1%, and a power rating of 0.125W at an ambient temperature of 85¬8C. The resistor operates effectively within a temperature range of -55¬8C to +155¬8C, ensuring stability under varying conditions. This component is constructed with a thin metal film, providing low current noise and high precision. It has been tested according to AEC-Q200 standards, ensuring its suitability for automotive applications. The resistor also offers improved moisture resistance due to a glass passivation layer and has been verified for sulfur resistance per ASTM B 809-95. The RN73H series meets EU RoHS requirements, making it compliant with environmental regulations. Engineers considering this resistor should note its long-term reliability, with a OîR of ¬±0.1% after 3000 hours at 85¬8C, and its ability to withstand solder heat and rapid temperature changes. The product is packaged in a standard format suitable for automated assembly processes.
107 kOhms ±0.1% 0.125W, 1/8W Chip Resistor 0805 (2012 Metric) Automotive AEC-Q200, Moisture Resistant Metal Film
107 kOhms ±0.1% 0.125W, 1/8W Chip Resistor 0805 (2012 Metric) Automotive AEC-Q200, Moisture Resistant Metal Film
107 kOhms ±0.1% 0.125W, 1/8W Chip Resistor 0805 (2012 Metric) Automotive AEC-Q200, Moisture Resistant Metal Film
RES 107K OHM 0.1% 1/8W 0805
| DigiKey | Lingto Electronic Limited | |
|---|---|---|
| Product Category | Resistors | Resistors |
| Product Number | 2019-RN73H2ATTD1073B25TR-ND | RN73H2ATTD1073B25 |
| Product Name | Chip Resistor - Surface Mount | Chip Resistor - Surface Mount |
| Configuration | Single Resistor | |
| Category / Application | Automotive; General Use | |
| Technology / Construction | MetalFilm | MetalFilm |
| Mounting / Packaging | 0805; 0805 | Surface Mount Technology (SMT / SMD) |
| Tolerance | 0.1000 +/- % | 0.1000 +/- % |