


Vishay / Dale
CRA06P08315K0JTA
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CRA06P08315K0JTA Description
CRA06P08315K0JTA Description
The CRA06P08315K0JTA 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 15kΩ 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 minimizes crosstalk, making it ideal for signal conditioning and voltage division. RoHS3 compliance and an MSL1 (unlimited) rating further enhance its reliability for industrial and consumer electronics.
CRA06P08315K0JTA Features
- Compact Design: Measures 3.20mm x 1.60mm with a low-profile 0.70mm height, saving PCB space.
- High Power Handling: 62.5mW per resistor ensures durability in demanding circuits.
- Stable Performance: ±200ppm/°C TCR and ±5% tolerance provide consistent operation across temperature fluctuations.
- Isolated Circuitry: Reduces interference between resistors, critical for precision analog applications.
- Robust Packaging: Concave, long-side terminals improve solder joint reliability, while Tape & Reel (TR) packaging supports automated assembly.
CRA06P08315K0JTA Applications
This resistor array excels in:
- Voltage Dividers: Precision signal scaling in sensor interfaces and ADCs.
- Pull-Up/Pull-Down Networks: Ensuring stable logic levels in digital systems.
- Industrial Controls: Robust performance in PLCs and motor drivers.
- Consumer Electronics: Space-constrained devices like wearables and IoT modules.
- Automotive Electronics: Reliable operation in infotainment and ECU circuits.
Conclusion of CRA06P08315K0JTA
The CRA06P08315K0JTA combines Vishay Dale’s expertise in resistor networks with a compact, high-reliability design. Its isolated circuitry, tight tolerance, and robust power handling make it superior to generic arrays in precision applications. While obsolete, it remains a trusted choice for legacy designs requiring stable, space-efficient resistance solutions. Engineers should consider this model for projects demanding repeatable performance in harsh environments or miniaturized layouts.



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