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4306R-101-104

4306R-101-104 Description

The 4306R-101-104 from Bourns Inc. is a high-performance 5-resistor bussed network designed for precision applications in electronic circuits. With a 100k ohm resistance per element and a tight ±2% tolerance, this through-hole-mounted array ensures reliable signal conditioning and voltage division. Its compact 0.584" x 0.085" (14.83mm x 2.16mm) footprint and 6-pin SIP configuration make it ideal for space-constrained designs. The device operates within a ±100ppm/°C temperature coefficient range, ensuring stability across varying environmental conditions. Packaged in a tube, it is suited for automated assembly processes.

4306R-101-104 Features

• Bussed Circuit Design: Simplifies layout and reduces component count in voltage-divider applications.
• High Power Handling: 200mW per resistor ensures durability in demanding circuits.
• Low Resistor-Ratio Drift: 50ppm/°C minimizes performance variance over temperature fluctuations.
• Robust Construction: Not MSL-rated (Moisture Sensitivity Level) makes it resistant to humidity-related damage.
• Wide Compatibility: EAR99/REACH Affected compliance ensures global usability in industrial and consumer electronics.

4306R-101-104 Applications

This resistor network excels in:

• Analog Signal Processing: Precision dividers in sensor interfaces or ADC circuits.
• Power Supply Feedback Networks: Stable voltage regulation in DC-DC converters.
• Industrial Control Systems: Durable performance in PLCs and motor drives.
• Consumer Electronics: Space-saving solution for audio equipment and display modules.

Conclusion of 4306R-101-104

The 4306R-101-104 stands out for its combination of precision, power handling, and compactness, making it a superior choice over discrete resistors in integrated designs. Its bussed architecture and low drift are particularly advantageous for applications requiring consistent performance under thermal stress. Bourns' reputation for reliability further solidifies this model as a go-to for engineers prioritizing efficiency and longevity in circuit design.