TT Electronics/IRC

GS8B015902FCT

GS8B015902FCT Description

The GS8B015902FCT 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 59KΩ resistance value, offering an absolute tolerance of ±1% and a ratio tolerance of ±0.25%. Built with thin-film technology, it ensures excellent stability and low noise, making it ideal for sensitive circuits. The device operates within a temperature range of 70°C to 125°C and has a maximum voltage rating of 100V, with a power rating of 0.8W (0.05W per resistor). Its SOIC package (9.91mm x 5.99mm x 1.45mm) provides a compact footprint for space-constrained designs.

GS8B015902FCT Features

• Ceramic substrate for superior thermal performance and durability.
• Thin-film technology ensures high precision (±1%) and low TCR (±100ppm/°C).
• Bussed network (BUS designator) simplifies circuit layout in multi-resistor applications.
• Gull-wing termination for reliable surface-mount assembly.
• Wide operating temperature range (-55°C to +125°C derated).
• Non-automotive grade with PPAP: No, suitable for industrial and commercial use.
• Non-RoHS compliant, catering to legacy or specialized applications.

GS8B015902FCT Applications

This resistor network excels in:

• Analog signal conditioning in test & measurement equipment.
• Voltage dividers and bus termination in communication systems.
• Precision feedback networks for op-amps and ADCs.
• Industrial control systems requiring stable, low-drift resistance.
• Legacy electronics where ceramic reliability is critical.

Conclusion of GS8B015902FCT

The GS8B015902FCT stands out for its ceramic construction, thin-film precision, and compact SOIC package, making it a robust choice for demanding environments. While not suited for automotive use, its high tolerance, thermal stability, and bussed design make it ideal for industrial, telecom, and instrumentation applications. Engineers will appreciate its balance of performance and space efficiency, particularly in multi-resistor circuits requiring consistent accuracy.