TT Electronics/IRC

GS7B021650FCT

GS7B021650FCT Description

The GS7B021650FCT from TT Electronics/IRC is a high-precision 13-resistor bussed network in a 14-pin narrow SOIC package. Designed with thin-film technology on a ceramic substrate, it delivers stable performance with a 165Ω resistance value, ±1% absolute tolerance, and ±50ppm/°C temperature coefficient. The SOIC-C series offers a compact footprint (8.66mm × 5.99mm × 1.45mm) with gull-wing terminations for reliable surface-mount assembly. Rated for 0.7W total power (0.05W per resistor) and 100V maximum voltage, it operates across a -70°C to +125°C temperature range. The bussed (common-node) configuration simplifies circuit design, while the ceramic case ensures durability and thermal stability.

GS7B021650FCT Features

• Precision Performance: ±1% tolerance and ±50ppm/°C TCR ensure consistent signal integrity.
• Robust Construction: Ceramic substrate and thin-film technology enhance reliability in harsh environments.
• Space-Efficient: Narrow SOIC (14-pin) package optimizes PCB real estate.
• High Power Handling: 0.7W total dissipation (0.05W per resistor) supports demanding applications.
• Wide Voltage Range: 100V rating accommodates diverse circuit requirements.
• Automation-Friendly: Gull-wing terminations enable efficient SMT assembly.

GS7B021650FCT Applications

Ideal for precision analog and digital circuits requiring stable resistance networks, including:

• Voltage Divider Networks: Ensures accurate signal conditioning in sensor interfaces.
• Bus Termination: Mitigates signal reflections in high-speed data lines.
• Industrial Controls: Withstands wide temperature fluctuations (-70°C to +125°C).
• Medical Electronics: Ceramic construction resists moisture and contaminants.
• Test & Measurement Equipment: Low TCR minimizes drift over temperature.

Conclusion of GS7B021650FCT

The GS7B021650FCT excels in applications demanding tight tolerance, thermal stability, and compact design. Its ceramic thin-film construction and bussed architecture make it a superior choice over polymer-based networks, particularly in high-reliability industrial and medical systems. While not automotive-grade, its 125°C rating and low TCR ensure performance in precision electronics where consistency is critical. For engineers prioritizing space savings, power efficiency, and long-term stability, this resistor network delivers a compelling balance of features.