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CRA06S0431M00JTA
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CRA06S0431M00JTA Description
CRA06S0431M00JTA Description
The CRA06S0431M00JTA from Vishay Dale is a compact, surface-mount resistor network designed for high-density PCB applications. Part of the CRA06 series, this device integrates two isolated 1MΩ resistors in a miniature 0606 convex package (1.60mm x 1.50mm) with a low-profile height of 0.60mm. 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 balances power handling and space efficiency. The ROHS3-compliant and MSL 1-rated construction makes it suitable for environmentally conscious and high-reliability applications.
CRA06S0431M00JTA Features
- Compact Design: 0606 convex package (1.60mm x 1.50mm) ideal for space-constrained layouts.
- High Resistance: 1MΩ per resistor with ±5% tolerance for precision applications.
- Robust Performance: ±200ppm/°C temperature coefficient ensures stability under thermal stress.
- Surface-Mount Ready: Tape & Reel (TR) packaging for automated assembly efficiency.
- Compliance: ROHS3 and EAR99 certified, meeting global environmental and export standards.
- Isolated Circuitry: Independent resistors reduce crosstalk in sensitive analog/digital circuits.
CRA06S0431M00JTA Applications
This resistor array excels in:
- Signal Conditioning: Voltage division and pull-up/down networks in IoT sensors and microcontrollers.
- Medical Electronics: Miniaturized patient monitoring devices requiring stable, high-resistance paths.
- Automotive Systems: ECU signal filtering where space and reliability are critical.
- Industrial Controls: PLCs and instrumentation benefiting from isolated resistor performance.
Conclusion of CRA06S0431M00JTA
The CRA06S0431M00JTA combines miniaturization, precision, and reliability, making it a standout choice for modern electronics. Its isolated 1MΩ resistors, low thermal drift, and compact footprint address challenges in high-density designs, while compliance with environmental standards ensures broad applicability. Though marked obsolete, it remains a viable solution for legacy systems or niche requirements demanding its unique specifications. Engineers should evaluate alternatives for new designs but can leverage this model for proven performance in existing applications.





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