TT Electronics/IRC

GS8B013091FCT

GS8B013091FCT Description

The GS8B013091FCT from TT Electronics/IRC is a high-performance ceramic resistor network designed for precision applications. This 16-pin narrow SOIC device features 15 bussed resistors with a 3.09KΩ resistance value and a tight ±1% absolute tolerance, ensuring consistent performance. Built with thin-film technology, it offers excellent stability with a ±100ppm/°C temperature coefficient. The SOIC package (9.91mm x 5.99mm x 1.45mm) provides a compact footprint, ideal for space-constrained designs. Rated for 0.05W per resistor (0.8W total) and 100V maximum voltage, it operates reliably across a 70°C to 125°C derated power range, with a 125°C maximum operating temperature.

GS8B013091FCT Features

• Ceramic substrate for enhanced thermal and mechanical stability.
• Bussed network topology simplifies circuit design for shared voltage applications.
• 1% tolerance and ±0.25% ratio tolerance ensure precision in signal conditioning and divider networks.
• Gull-wing termination enables robust surface-mount (SMD) assembly.
• Thin-film technology delivers low noise and high reliability.
• Non-automotive and non-PPAP compliant, suited for industrial and commercial use.
• Non-RoHS compliant, catering to legacy or specialized applications.

GS8B013091FCT Applications

This resistor network excels in:

• Voltage divider circuits requiring tight tolerance ratios.
• Analog signal processing in test/measurement equipment.
• Power supply feedback networks where stability is critical.
• Industrial control systems demanding high-temperature operation.
• Legacy electronics needing non-RoHS components.

Conclusion of GS8B013091FCT

The GS8B013091FCT combines precision, compactness, and ruggedness, making it a standout choice for bussed resistor networks. Its ceramic construction, thin-film technology, and tight tolerances cater to demanding applications in industrial, instrumentation, and power management systems. While not suited for automotive use, its high-temperature resilience and reliability make it ideal for specialized or harsh environments. Engineers will appreciate its balance of performance and space efficiency in complex PCB layouts.