Stackpole Electronics, Inc. Tariff Inquiry

RACF164DJT9K10

RACF164DJT9K10 Description

The RACF164DJT9K10 is a high-performance resistor network from Stackpole Electronics Inc's RACF series, designed for precision surface-mount applications. This 4-resistor array features isolated circuits with a 9.1kΩ resistance per element and a ±5% tolerance, ensuring reliable signal conditioning and voltage division. Encased in a compact 1206 (3216 Metric) concave package with long-side terminals, it offers a low-profile height of 0.030" (0.75mm), making it suitable for space-constrained PCB designs. The device operates within a ±200ppm/°C temperature coefficient, maintaining stability across varying thermal conditions. Compliant with ROHS3 and REACH standards, it is ideal for environmentally conscious designs.

RACF164DJT9K10 Features

• 4 isolated resistors in a single 1206 package, reducing board space and assembly complexity.
• 62.5mW power rating per element, ensuring robust performance in low-power circuits.
• Concave, long-side terminal design enhances solder joint reliability and mechanical stability.
• Wide operating temperature range with ±200ppm/°C TCR, suitable for industrial and automotive environments.
• Tape & Reel (TR) packaging for automated assembly efficiency.
• MSL 1 (Unlimited) moisture sensitivity, simplifying storage and handling.

RACF164DJT9K10 Applications

This resistor array excels in precision analog circuits, voltage dividers, and pull-up/pull-down networks in:

• Consumer electronics: Signal conditioning in wearables and IoT devices.
• Automotive systems: Sensor interfaces and ECU signal processing.
• Industrial controls: Feedback networks in power supplies and instrumentation.
• Telecom infrastructure: Impedance matching in high-frequency modules.

Conclusion of RACF164DJT9K10

The RACF164DJT9K10 combines miniaturization, thermal stability, and ease of integration, making it a versatile choice for modern electronics. Its obsolete status may require design alternatives, but its legacy performance in high-reliability applications remains noteworthy. Engineers seeking compact, high-tolerance resistor networks will find this model a proven solution for signal integrity and space optimization.