TT Electronics/IRC

GQ8A039312GGT

GQ8A039312GGT Description

The GQ8A039312GGT from TT Electronics/IRC is a high-performance 8-resistor thin-film network designed for precision applications. Encased in a ceramic QSOP package, this 93.1KΩ resistor array offers 2% tolerance and a ±25ppm/°C temperature coefficient, ensuring stable performance across a wide temperature range (70°C to 125°C). With a 0.75W (3/4W) total power rating (0.1W per resistor) and 100V maximum voltage rating, it is engineered for reliability in demanding environments. The 16-pin gull-wing SMD termination and 0.64mm terminal pitch facilitate easy surface mounting, while its compact dimensions (4.9mm x 6.02mm x 1.47mm) make it ideal for space-constrained designs.

GQ8A039312GGT Features

• High Precision: Thin-film technology ensures low noise and tight tolerance (±2%).
• Robust Construction: Ceramic case provides excellent thermal stability and durability.
• Wide Operating Range: Derated power capability up to 125°C for high-temperature applications.
• Space-Efficient: QSOP package with 16 gull-wing terminals optimizes PCB real estate.
• Isolated Design (ISOL): Each resistor is electrically isolated, enabling flexible circuit configurations.
• Low TCR: ±25ppm/°C minimizes resistance drift over temperature variations.

GQ8A039312GGT Applications

This resistor network excels in:

• Precision analog circuits (e.g., voltage dividers, feedback networks).
• Industrial control systems requiring stable performance under thermal stress.
• Medical instrumentation where accuracy and reliability are critical.
• Telecommunications equipment (e.g., signal conditioning, impedance matching).
• Automotive electronics (non-automotive grade but suitable for benign environments).

Conclusion of GQ8A039312GGT

The GQ8A039312GGT stands out for its combination of precision, thermal resilience, and compact design, making it a superior choice for engineers seeking reliable resistor networks. Its isolated configuration and ceramic encapsulation offer distinct advantages over polymer-based alternatives, particularly in high-temperature or precision-critical applications. While not RoHS-compliant or PPAP-certified, it remains a robust solution for industrial, medical, and telecom systems demanding consistent performance.