TT Electronics/IRC

GS4B011871JT

GS4B011871JT Description

The GS4B011871JT from TT Electronics/IRC is a high-reliability ceramic resistor network designed for precision applications. This 8-pin narrow SOIC package features 7 bussed resistors with a 1.87KΩ resistance value and a ±5% tolerance, ensuring stable performance in demanding environments. Built with thin-film technology, it offers a low ±100ppm/°C temperature coefficient, making it suitable for temperature-sensitive circuits. The SOIC-C series construction provides excellent thermal stability, with a power rating of 0.4W (0.05W per resistor) and a maximum operating temperature of 125°C. Its gull-wing termination and surface-mount design facilitate easy PCB integration, while the ceramic case ensures durability.

GS4B011871JT Features

• Circuit Design: Bussed network with 7 resistors for simplified PCB layout.
• High Precision: ±5% tolerance and ±100ppm/°C tempco for stable performance.
• Robust Construction: Ceramic case (SOIC package) with 1.63mm seated height and 4.9mm length.
• Wide Voltage Range: Supports up to 100V, ideal for industrial and automotive (non-AECQ) applications.
• Thermal Resilience: Operates from 70°C to 125°C with derated power handling.
• Compatibility: 1.27mm terminal pitch aligns with standard SOIC footprints.

GS4B011871JT Applications

This resistor network excels in:

• Signal conditioning in industrial control systems.
• Voltage division and pull-up/down circuits in embedded designs.
• Sensor interfaces requiring stable resistance over temperature.
• Test & measurement equipment where precision and repeatability are critical.
• Non-automotive (PPAP No) applications needing robust, compact resistor arrays.

Conclusion of GS4B011871JT

The GS4B011871JT combines thin-film accuracy, ceramic durability, and SOIC compactness, making it a versatile choice for precision electronics. While not RoHS-compliant, its high-temperature resilience and bussed design streamline circuit integration. Ideal for engineers prioritizing thermal stability and space efficiency in industrial, instrumentation, and embedded systems.