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CRA04P08310R0JTD
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CRA04P08310R0JTD Description
CRA04P08310R0JTD Description
The CRA04P08310R0JTD from Vishay Dale is a compact, surface-mount resistor network designed for high-density PCB applications. Part of the CRA04 series, this 4-resistor array features isolated circuitry with a 10Ω resistance per element and a ±5% tolerance, ensuring reliable performance in precision circuits. Encased in an 0804 concave long-side terminal package, it measures just 2.00mm x 1.00mm (0.079" x 0.039") with a low profile of 0.55mm (0.022"), making it ideal for space-constrained designs. The array operates with a 62.5mW power rating per resistor and a ±200ppm/°C temperature coefficient, suitable for stable performance across industrial temperature ranges.
CRA04P08310R0JTD Features
- Compact Design: Ultra-thin 0804 package optimizes board space.
- High Reliability: ROHS3 compliant and MSL 1 (Unlimited) rated for moisture resistance.
- Precision Performance: ±5% tolerance and ±200ppm/°C TCR ensure consistent operation.
- Isolated Circuitry: Independent resistors reduce crosstalk in sensitive applications.
- Tape & Reel (TR) Packaging: Facilitates automated assembly processes.
- Obsolete Status: While discontinued, it remains a robust choice for legacy designs.
CRA04P08310R0JTD Applications
This resistor array excels in:
- Signal Conditioning: Voltage division and pull-up/down circuits in microcontrollers.
- Industrial Controls: PLCs and sensor interfaces requiring stable resistance values.
- Consumer Electronics: Space-saving solutions for smartphones and wearables.
- Automotive Electronics: Auxiliary systems where compact, reliable components are critical.
- Legacy System Maintenance: Repair or replication of older designs requiring obsolete parts.
Conclusion of CRA04P08310R0JTD
The CRA04P08310R0JTD combines miniaturization, precision, and reliability, making it a versatile choice for modern and legacy electronics. Its isolated resistors, tight tolerance, and low-profile design address challenges in high-density layouts, while its compliance with environmental standards ensures broad applicability. Though obsolete, it remains a dependable option for engineers seeking proven performance in constrained spaces.



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