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CRA04P083470RJTD
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CRA04P083470RJTD Description
CRA04P083470RJTD Description
The CRA04P083470RJTD from Vishay Dale is a compact, surface-mount resistor network designed for high-density PCB applications. This 4-resistor array features isolated 470Ω resistors with a ±5% tolerance and a ±200ppm/°C temperature coefficient, ensuring stable performance across varying environmental conditions. Encased in an 0804 concave long-side terminal package (2.00mm x 1.00mm x 0.55mm), it offers space-efficient integration while maintaining robust electrical characteristics. With a power rating of 62.5mW per element and RoHS3 compliance, this obsolete but reliable component remains suitable for legacy designs requiring precision and durability.
CRA04P083470RJTD Features
- High-Density Design: Ultra-thin 0.55mm profile and compact 0804 footprint optimize board space.
- Stable Performance: ±200ppm/°C temperature coefficient and ±5% tolerance ensure consistent resistance under thermal stress.
- Isolated Circuitry: Independent resistors minimize crosstalk, ideal for signal conditioning.
- Robust Construction: Concave long-side terminals enhance mechanical stability during soldering.
- Compliance: RoHS3 and EAR99 certified, with MSL1 (unlimited shelf life) for hassle-free storage.
CRA04P083470RJTD Applications
This resistor array excels in precision analog and digital circuits, including:
- Signal Termination: Mitigates reflections in high-speed communication lines (e.g., LVDS, USB).
- Voltage Division: Used in sensor interfaces and ADC reference networks.
- Legacy Systems: Supports repairs/upgrades of older electronics where newer alternatives may not fit.
- Consumer Electronics: Space-constrained devices like wearables or IoT modules benefit from its miniaturized form.
Conclusion of CRA04P083470RJTD
The CRA04P083470RJTD balances compactness, reliability, and performance, making it a pragmatic choice for designers prioritizing space efficiency and stable resistance. While obsolete, its isolation, low thermal drift, and RoHS compliance ensure relevance in niche applications. Engineers should evaluate alternative modern equivalents for new designs but can leverage this array for legacy compatibility or specific thermal/mechanical requirements.



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