TT Electronics/IRC

GS7B019102JAT

GS7B019102JAT Description

The GS7B019102JAT from TT Electronics/IRC is a high-performance ceramic resistor network designed for precision applications in demanding electronic circuits. Housed in a 14-pin narrow SOIC package, this bussed network features 13 thin-film resistors with a 91kΩ resistance value and a tight ±5% absolute tolerance, ensuring reliable performance in voltage division and signal conditioning. Its ±100ppm/°C temperature coefficient and 125°C maximum operating temperature make it suitable for environments with thermal fluctuations. The 0.7W total power rating (0.05W per resistor) and 100V maximum voltage rating further enhance its robustness.

GS7B019102JAT Features

• Ceramic substrate for superior thermal stability and durability.
• Thin-film technology delivers low noise and high accuracy (±0.05% ratio tolerance).
• Gull-wing termination ensures secure surface mounting (SOIC package, 8.66mm × 5.99mm × 1.45mm).
• Bussed (BUS) circuit design simplifies PCB layout for common-node applications.
• Wide temperature range (70°C to 125°C @ derated power) for automotive-industrial hybrid use (though not PPAP/Automotive-certified).
• Non-RoHS composition (may suit legacy or specialized systems).

GS7B019102JAT Applications

Ideal for:

• Analog signal processing (DAC/ADC reference networks, sensor interfaces).
• Voltage dividers in power supplies and measurement equipment.
• Industrial control systems requiring stable resistance under thermal stress.
• Legacy electronics repair where non-RoHS compliance is acceptable.
• High-density PCBs benefiting from its compact SOIC footprint and bussed topology.

Conclusion of GS7B019102JAT

The GS7B019102JAT excels in precision and thermal resilience, offering a cost-effective solution for bussed resistor networks in industrial and instrumentation designs. While not suited for automotive applications, its ceramic construction, tight tolerances, and thin-film accuracy make it a standout choice for engineers prioritizing reliability in harsh environments. Its non-RoHS status may limit modern eco-conscious designs but remains valuable for niche or legacy systems.