
Vishay / Dale
CRA04S0436K80JTD
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CRA04S0436K80JTD Description
CRA04S0436K80JTD Description
The CRA04S0436K80JTD from Vishay Dale is a compact, surface-mount resistor network designed for high-density PCB applications. Part of the CRA04 series, this device integrates two isolated 6.8kΩ resistors in a miniature 0404 (1010 Metric) convex package, measuring just 1.00mm x 1.00mm with a seated height of 0.45mm. It offers a ±5% tolerance and a ±200ppm/°C temperature coefficient, ensuring stable performance across varying environmental conditions. With a 62.5mW power rating per element, it is suitable for low-power circuits while maintaining ROHS3 compliance and MSL 1 (Unlimited) moisture sensitivity, making it ideal for automated assembly processes.
CRA04S0436K80JTD Features
- Compact Footprint: Ultra-small 0404 package saves board space in high-density designs.
- Isolated Resistors: Two 6.8kΩ resistors with independent circuits for flexible routing.
- Stable Performance: ±200ppm/°C TCR and ±5% tolerance ensure reliability in precision applications.
- Surface-Mount Ready: Tape & Reel (TR) packaging facilitates efficient pick-and-place assembly.
- Environmental Compliance: ROHS3 compliant and EAR99/ECCN certified for global use.
CRA04S0436K80JTD Applications
This resistor array excels in space-constrained applications such as:
- Portable Electronics: Smartphones, wearables, and IoT devices requiring miniaturized components.
- Signal Conditioning: Voltage dividers, pull-up/pull-down networks in analog/digital circuits.
- Industrial Controls: Sensor interfaces, PLCs, and automation systems demanding stable resistance values.
- Medical Devices: Low-power diagnostic equipment where precision and reliability are critical.
Conclusion of CRA04S0436K80JTD
The CRA04S0436K80JTD combines miniaturization, precision, and robustness, making it a superior choice for modern electronics. Its isolated resistor configuration, tight tolerance, and compatibility with automated manufacturing processes position it as a versatile solution for designers tackling space and performance challenges. While marked obsolete, it remains a viable option for legacy designs or specific low-power applications requiring proven reliability.



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