


Vishay / Dale
CRA06P08391R0JTA
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CRA06P08391R0JTA Description
CRA06P08391R0JTA Description
The CRA06P08391R0JTA 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 resistance value of 91Ω per element with a tight tolerance of ±5%. Its ±200ppm/°C temperature coefficient ensures stable performance across varying thermal conditions, while the 62.5mW power rating per element provides reliable operation in low-power circuits. The device is ROHS3 compliant and rated for MSL 1 (Unlimited), making it suitable for extended storage and handling.
CRA06P08391R0JTA Features
- 4 isolated resistors in a single 1206 package, saving PCB space.
- Concave, long-side terminal design for improved solder joint reliability.
- Wide operating temperature range with low TCR (±200ppm/°C).
- 62.5mW power dissipation per resistor, ideal for signal conditioning.
- Tape & Reel (TR) packaging for automated assembly efficiency.
- Obsolete status may require design consideration for new projects, but remains viable for legacy systems.
CRA06P08391R0JTA Applications
This resistor array excels in precision analog circuits, voltage dividers, and pull-up/pull-down networks where space and consistency are critical. Its isolated circuit configuration makes it suitable for:
- Sensor interfaces requiring matched resistance values.
- Consumer electronics (e.g., displays, audio equipment).
- Industrial control systems with tight thermal and tolerance requirements.
- Legacy designs needing drop-in replacements for obsolete components.
Conclusion of CRA06P08391R0JTA
The CRA06P08391R0JTA combines Vishay Dale’s reliability with a space-saving design, offering stable performance in demanding environments. While marked obsolete, its robust construction and consistent electrical properties make it a practical choice for maintenance or legacy upgrades. Engineers should evaluate alternative modern equivalents for new designs but can rely on this model for proven applications.



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