TT Electronics/IRC

GS8B013011CCT

GS8B013011CCT Description

The GS8B013011CCT from TT Electronics/IRC is a high-precision ceramic resistor network designed for demanding electronic applications. This 16-pin narrow SOIC package features 15 bussed resistors with a 3.01KΩ resistance value and an exceptional ±0.25% absolute tolerance, ensuring consistent performance in precision circuits. Built with thin-film technology, it offers a ±100ppm/°C temperature coefficient, maintaining stability across a wide operating range of -70°C to +125°C. The SOIC-C series construction provides robust mechanical and thermal reliability, making it suitable for high-density PCB designs.

GS8B013011CCT Features

• High Precision: Tight ±0.25% tolerance and ±0.25% ratio tolerance for critical analog/digital circuits.
• Robust Construction: Ceramic case with gull-wing termination ensures durability in harsh environments.
• Thermal Performance: 0.05W (1/20) power rating per resistor and 0.8W total power dissipation with derating up to 125°C.
• Compact Design: 9.91mm (L) × 5.99mm (D) × 1.45mm (H) footprint, ideal for space-constrained applications.
• Surface-Mount Ready: 1.27mm terminal pitch simplifies automated assembly.
• Wide Voltage Range: Supports up to 100V maximum voltage rating.

GS8B013011CCT Applications

This resistor network excels in:

• Precision voltage dividers and signal conditioning circuits in test/measurement equipment.
• Analog front-end modules for industrial sensors and control systems.
• Medical electronics requiring stable resistance under thermal stress.
• Automotive ECUs (though not PPAP/AEC-Q qualified, suitable for prototyping).
• High-reliability aerospace/defense systems where ceramic packaging mitigates thermal cycling issues.

Conclusion of GS8B013011CCT

The GS8B013011CCT stands out for its combination of precision, thermal resilience, and compact SOIC packaging. While not RoHS-compliant, its ceramic thin-film construction and bussed network topology make it a superior choice for engineers prioritizing long-term stability in harsh operating conditions. Ideal for high-accuracy analog designs, it bridges the gap between discrete resistors and integrated solutions, reducing BOM complexity without sacrificing performance.