TT Electronics/IRC

GS7B015102JAT

GS7B015102JAT Description

The GS7B015102JAT from TT Electronics/IRC is a high-performance ceramic resistor network designed for precision applications. Packaged in a 14-pin narrow SOIC (SOIC-C series), it features 13 bussed resistors with a 51KΩ resistance value and a ±5% absolute tolerance. The thin-film technology ensures excellent stability with a ±100ppm/°C temperature coefficient, making it suitable for environments with operating temperatures up to 125°C. The 0.05W (1/20W) power rating per resistor and 0.7W total power rating provide reliable performance in compact designs. Its gull-wing termination and surface-mount (SMD) compatibility facilitate easy PCB integration.

GS7B015102JAT Features

• Ceramic substrate for enhanced thermal and mechanical stability.
• Bussed network topology simplifies circuit design by interconnecting resistors.
• Thin-film technology ensures low noise and high precision (±0.05% ratio tolerance).
• Wide temperature range (70°C to 125°C derated power).
• Compact SOIC package (8.66mm × 5.99mm × 1.45mm) with tight tolerances (±0.1mm length/height).
• 100V maximum voltage rating for robust performance in high-voltage circuits.
• Non-automotive, non-PPAP compliant, ideal for industrial and commercial applications.

GS7B015102JAT Applications

This resistor network excels in:

• Signal conditioning in data acquisition systems.
• Voltage division in precision analog circuits.
• Impedance matching for RF and communication devices.
• Industrial control systems requiring stable, high-density resistor arrays.
• Medical electronics where consistent performance under thermal stress is critical.

Conclusion of GS7B015102JAT

The GS7B015102JAT stands out for its ceramic-based durability, thin-film precision, and compact SOIC footprint, making it a superior choice for high-reliability applications. While not RoHS-compliant, its thermal stability and tight tolerances make it ideal for industrial, medical, and communication systems where performance outweighs regulatory constraints. Engineers seeking a cost-effective, space-saving resistor network with excellent thermal characteristics will find this model highly suitable.