


Vishay / Dale
CRA06P08351K0JTA
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CRA06P08351K0JTA Description
CRA06P08351K0JTA Description
The CRA06P08351K0JTA from Vishay Dale is a high-performance surface-mount resistor network designed for precision applications. This 4-resistor array features a compact 1206 (3216 Metric) concave package with long-side terminals, offering a 51kΩ resistance per element at ±5% tolerance. With a ±200ppm/°C temperature coefficient and 62.5mW power rating per resistor, it ensures stable performance across varying environmental conditions. The isolated circuit design and ROHS3 compliance make it suitable for modern electronics requiring reliability and environmental safety. Packaged in Tape & Reel (TR), it is optimized for automated assembly processes.
CRA06P08351K0JTA Features
- Compact Design: 0.126" x 0.063" (3.20mm x 1.60mm) footprint with a low-profile 0.028" (0.70mm) height.
- High Reliability: Moisture Sensitivity Level (MSL) 1 (Unlimited) ensures durability in humid environments.
- Stable Performance: Low TCR (±200ppm/°C) minimizes resistance drift over temperature.
- Efficient Power Handling: 62.5mW per resistor balances power dissipation and space constraints.
- Automation-Friendly: Concave, long-side terminals enhance solder joint reliability during reflow processes.
CRA06P08351K0JTA Applications
This resistor array is ideal for:
- Signal Conditioning: Precision voltage dividers in sensor interfaces and ADC circuits.
- Consumer Electronics: Space-constrained devices like smartphones and wearables.
- Industrial Controls: PLCs and automation systems requiring stable resistance networks.
- Medical Devices: Low-noise analog circuits where consistency is critical.
Its isolated configuration allows flexible use in multi-channel designs without crosstalk.
Conclusion of CRA06P08351K0JTA
The CRA06P08351K0JTA combines Vishay Dale's proven reliability with a compact, high-performance design. Its low TCR, robust power handling, and automation-ready packaging make it a superior choice for applications demanding precision and durability. While marked as obsolete, its technical merits ensure it remains viable for legacy designs or specific high-reliability requirements. Engineers should evaluate alternatives for new designs but can rely on this model for proven performance in critical circuits.



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