


Vishay / Dale
CRA06P08324R0JTA
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CRA06P08324R0JTA Description
CRA06P08324R0JTA Description
The CRA06P08324R0JTA 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, this isolated network offers a 24Ω resistance per element with a tight ±5% tolerance and a ±200ppm/°C temperature coefficient. Its 62.5mW power rating per resistor ensures reliable operation in demanding circuits. The ROHS3-compliant device is packaged in Tape & Reel (TR) for automated assembly, featuring an MSL 1 (Unlimited) moisture sensitivity rating for extended shelf life.
CRA06P08324R0JTA Features
- Space-saving design: 0.126" x 0.063" (3.20mm x 1.60mm) footprint with a low 0.028" (0.70mm) profile.
- Robust construction: Concave termination geometry enhances solder joint reliability.
- High power handling: 62.5mW per element, ideal for power distribution circuits.
- Stable performance: ±200ppm/°C TCR ensures minimal resistance drift across temperature ranges.
- Automation-friendly: TR packaging and 8-pin configuration streamline PCB assembly.
CRA06P08324R0JTA Applications
This resistor array excels in voltage division, pull-up/pull-down networks, and impedance matching in:
- Industrial controls: PLCs and sensor interfaces requiring stable, isolated resistances.
- Consumer electronics: Compact devices like wearables and IoT modules.
- Automotive systems: ECU signal conditioning due to its vibration-resistant design.
- Telecom infrastructure: Line termination and filtering in high-density PCBs.
Conclusion of CRA06P08324R0JTA
The CRA06P08324R0JTA combines Vishay Dale’s legacy of reliability with a space-optimized, high-power design. Its isolated circuit topology and concave terminal structure make it superior to standard 1206 arrays in mechanical durability and thermal performance. While marked obsolete, remaining stock is a cost-effective solution for legacy designs or applications where consistent performance in constrained layouts is critical. Engineers should evaluate alternatives for new designs but can leverage this model’s proven stability in existing systems.



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