TT Electronics/IRC

GS8B023902DBT

GS8B023902DBT Description

The GS8B023902DBT from TT Electronics/IRC is a high-precision ceramic resistor network designed for demanding electronic applications. This 16-pin narrow SOIC device features 15 bussed resistors with a 39KΩ resistance value and an absolute tolerance of ±0.5%, ensuring exceptional accuracy. Built with thin-film technology, it offers a low temperature coefficient of ±50ppm/°C, maintaining stable performance across a wide temperature range of -70°C to +125°C. The SOIC package (9.91mm x 5.99mm x 1.45mm) with gull-wing terminations ensures reliable surface-mount assembly, while its ceramic case provides superior thermal and mechanical stability.

GS8B023902DBT Features

• Precision Performance: ±0.5% absolute tolerance and ±0.1% ratio tolerance for critical analog circuits.
• Robust Construction: Ceramic substrate enhances durability and heat dissipation.
• High Power Handling: 0.8W total power rating (0.05W per resistor) at 100V maximum voltage.
• Stable Thermal Response: ±50ppm/°C TCR ensures minimal drift in varying environments.
• Compact & Reliable: 1.27mm terminal pitch and narrow SOIC footprint save PCB space without compromising performance.
• Industrial-Grade: Suitable for non-automotive applications with unconfirmed PPAP status.

GS8B023902DBT Applications

This resistor network excels in precision analog and digital systems, including:

• Signal conditioning circuits in test/measurement equipment.
• Voltage dividers and pull-up networks in industrial control systems.
• Feedback networks for op-amps and ADCs/DACs.
• Medical devices requiring stable, low-drift resistance.
• Aerospace and defense electronics where ceramic reliability is critical.

Conclusion of GS8B023902DBT

The GS8B023902DBT combines high accuracy, thermal stability, and compact design, making it ideal for precision applications in harsh environments. Its ceramic thin-film construction and bussed architecture offer superior performance over polymer-based networks, particularly in high-temperature or high-reliability scenarios. While not automotive-qualified, it is a cost-effective solution for industrial, medical, and aerospace designs demanding tight tolerances and long-term stability.