TT Electronics/IRC

GS7B035230DDT

GS7B035230DDT Description

The GS7B035230DDT from TT Electronics/IRC is a high-precision ceramic resistor network designed for demanding electronic applications. This 14-pin narrow SOIC device features 13 bussed resistors with a 523Ω resistance value and an absolute tolerance of ±0.5%, ensuring consistent performance in precision circuits. Built with thin-film technology, it offers a low temperature coefficient of ±25ppm/°C, maintaining stability across a wide operating range of -55°C to +125°C. The SOIC package (8.66mm x 5.99mm x 1.45mm) with gull-wing terminations enables reliable surface-mount assembly, while its ceramic case ensures durability and thermal efficiency.

GS7B035230DDT Features

• High Precision: ±0.5% tolerance and ±25ppm/°C TCR for stable performance.
• Robust Construction: Ceramic substrate enhances thermal and mechanical reliability.
• Optimized Power Handling: 0.7W total power rating (0.05W per resistor) with derating up to 125°C.
• Space-Efficient: Compact SOIC footprint (1.27mm pitch) ideal for dense PCB layouts.
• Bussed Configuration: Simplifies circuit design by interconnecting multiple resistors.
• Wide Voltage Range: Supports up to 100V, suitable for industrial and automotive environments (though not PPAP/automotive-certified).

GS7B035230DDT Applications

This resistor network excels in:

• Analog Signal Conditioning: Precision voltage dividers and sensor interfaces.
• Medical Electronics: Stable performance in diagnostic equipment.
• Industrial Control Systems: Reliable operation in PLCs and motor drives.
• Test & Measurement: Calibration circuits requiring low drift.
• Aerospace & Defense: Ruggedized electronics where temperature stability is critical.

Conclusion of GS7B035230DDT

The GS7B035230DDT combines precision, durability, and compact design, making it a superior choice for applications demanding tight tolerance and thermal stability. While not automotive-grade, its ceramic construction and thin-film technology provide advantages over polymer-based networks in harsh environments. Engineers will appreciate its ease of integration and consistent performance in high-reliability systems.