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CRA06P0831K80JTA
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CRA06P0831K80JTA Description
CRA06P0831K80JTA Description
The CRA06P0831K80JTA from Vishay Dale is a high-performance 4-resistor array designed for precision surface-mount applications. Housed in a compact 1206 (3216 Metric) concave package with long-side terminals, it offers a 1.8kΩ resistance per element with a ±5% tolerance and a ±200ppm/°C temperature coefficient. The device operates at 62.5mW power per element and is rated for unlimited moisture sensitivity (MSL 1), making it suitable for harsh environments. Its isolated circuit configuration ensures minimal crosstalk, while the ROHS3 compliance aligns with modern environmental standards.
CRA06P0831K80JTA Features
- Compact Design: Measures 3.20mm x 1.60mm with a low-profile 0.70mm height, ideal for space-constrained PCBs.
- High Reliability: Concave terminal geometry enhances solder joint integrity, reducing mechanical stress.
- Stable Performance: ±200ppm/°C TCR ensures consistent resistance across temperature fluctuations.
- Ease of Assembly: Supplied in tape-and-reel (TR) packaging for automated pick-and-place processes.
- Broad Compatibility: EAR99 and HTSUS 8533.21.0020 classifications simplify global logistics.
CRA06P0831K80JTA Applications
This resistor array excels in:
- Signal Conditioning: Precision voltage dividers in sensor interfaces (e.g., industrial IoT devices).
- Termination Networks: High-speed data line termination (USB, LVDS) due to low parasitic effects.
- Power Management: Current-limiting circuits in portable electronics, leveraging its 62.5mW power handling.
- Automotive Electronics: Underhood systems where temperature stability and vibration resistance are critical.
Conclusion of CRA06P0831K80JTA
The CRA06P0831K80JTA combines miniaturization, reliability, and performance, making it a standout choice for modern electronics. While obsolete, its concave terminal design and isolated resistors remain advantageous for legacy or niche designs requiring robust, space-efficient solutions. Engineers should evaluate alternatives for new designs but can rely on this model for proven performance in demanding applications.



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