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RACF164DJT2K40

RACF164DJT2K40 Description

The RACF164DJT2K40 from Stackpole Electronics Inc is a high-density, surface-mount resistor network designed for precision circuit applications. This 4-resistor array features a compact 1206 (3216 Metric) concave package with long-side terminals, offering a space-saving footprint of 0.126" x 0.063" (3.20mm x 1.60mm) and a low-profile height of 0.030" (0.75mm). Each resistor provides a 2.4kΩ resistance with a ±5% tolerance and a ±200ppm/°C temperature coefficient, ensuring stable performance across varying environmental conditions. The isolated circuit configuration allows independent resistor operation, making it ideal for multi-channel designs.

RACF164DJT2K40 Features

• High Power Handling: 62.5mW per element for reliable operation in power-sensitive applications.
• Robust Construction: Concave, long-side terminal design enhances mechanical stability and solder joint reliability.
• Compliance: ROHS3 and REACH unaffected, meeting stringent environmental standards.
• Wide Operating Range: MSL 1 (Unlimited) moisture sensitivity ensures durability in humid environments.
• Efficient Packaging: Supplied in Tape & Reel (TR) for automated assembly compatibility.

RACF164DJT2K40 Applications

This resistor network excels in applications requiring compact, high-density resistance solutions, such as:

• Voltage Dividers: Precision signal conditioning in sensor interfaces.
• Pull-Up/Pull-Down Networks: Digital logic circuits in embedded systems.
• Analog Signal Processing: Filtering and impedance matching in audio/communication devices.
• Industrial Controls: Durable performance in harsh environments like automotive or factory automation.

Conclusion of RACF164DJT2K40

The RACF164DJT2K40 combines space efficiency, thermal stability, and high power tolerance, making it a versatile choice for modern electronics. While marked obsolete, its design remains relevant for legacy systems or applications requiring proven reliability. Engineers seeking a compact, isolated resistor array with robust performance will find this model a dependable solution.