TT Electronics/IRC

GS4B032201DT

GS4B032201DT Description

The GS4B032201DT from TT Electronics/IRC is a high-precision 7-resistor bussed network in an 8-pin narrow SOIC package, designed for demanding surface-mount applications. Featuring a 2.2KΩ resistance per element with an ultra-tight ±0.5% absolute tolerance, this ceramic-based thin-film network ensures exceptional stability and accuracy. Its ±25ppm/°C temperature coefficient and 125°C maximum operating temperature make it suitable for environments requiring minimal drift. The SOIC-C series construction offers robust performance with a 0.4W total power rating (0.05W per resistor) and 100V maximum voltage rating, ideal for precision analog and digital circuits.

GS4B032201DT Features

• Ceramic substrate for enhanced thermal and mechanical reliability.
• Gull-wing termination ensures secure surface mounting with a 1.27mm terminal pitch.
• Bussed topology (BUS) simplifies circuit design by interconnecting resistors.
• Thin-film technology delivers low noise and high stability.
• 0.5% tolerance and ±25ppm/°C TCR for precision applications.
• Compact dimensions: 4.9mm (L) × 5.99mm (D) × 1.45mm (H) with tight tolerances (±0.1mm height/length).
• Non-automotive (PPAP: No) but suited for industrial and instrumentation use.

GS4B032201DT Applications

This resistor network excels in:

• Voltage division and current limiting in precision analog circuits.
• Signal conditioning for sensors, ADCs, and DACs.
• Industrial control systems requiring stable, low-drift performance.
• Medical electronics where accuracy and reliability are critical.
• Test & measurement equipment demanding tight tolerance and low thermal drift.

Conclusion of GS4B032201DT

The GS4B032201DT stands out for its ceramic thin-film construction, bussed design, and exceptional precision, making it a superior choice for engineers needing reliable resistor networks in compact, high-performance applications. Its low TCR, tight tolerance, and robust SOIC package ensure long-term stability in harsh environments, positioning it as a preferred solution for industrial, medical, and instrumentation designs.