TT Electronics/IRC

GS7B012000FBT

GS7B012000FBT Description

The GS7B012000FBT from TT Electronics/IRC is a high-performance ceramic resistor network designed for precision applications. This 14-pin narrow SOIC package features 13 bussed resistors with a 200Ω resistance value and an absolute tolerance of ±1%, ensuring consistent performance. Built with thin-film technology, it offers a ±100ppm/°C temperature coefficient, making it stable across a wide operating range of -55°C to +125°C. The SOIC-C series construction provides 0.7W total power dissipation (0.05W per resistor), with a 100V maximum voltage rating, ideal for demanding circuits. Its gull-wing termination and surface-mount design facilitate easy PCB integration.

GS7B012000FBT Features

• Ceramic Case: Enhances thermal stability and durability.
• Bussed Network: Simplifies circuit design with shared connections.
• Precision Tolerance: ±1% absolute, ±0.1% ratio tolerance for matched performance.
• Thin-Film Technology: Delivers low noise and high accuracy.
• Wide Temperature Range: Operates reliably from -55°C to +125°C (derated power up to 125°C).
• Compact SOIC Package: 8.66mm x 5.99mm x 1.45mm dimensions with tight tolerances (±0.1mm height/length).
• High Voltage Rating: Supports up to 100V, suitable for industrial applications.

GS7B012000FBT Applications

This resistor network excels in:

• Analog Signal Conditioning: Precision voltage dividers and sensor interfaces.
• Industrial Control Systems: Robust performance in harsh environments.
• Medical Electronics: Stable operation in diagnostic equipment.
• Automotive (Non-Automotive Rated): Auxiliary circuits where high reliability is critical.
• Test & Measurement Equipment: Low-drift performance for accurate readings.

Conclusion of GS7B012000FBT

The GS7B012000FBT stands out for its ceramic construction, precision tolerances, and thin-film reliability, making it a superior choice for high-accuracy, thermally stable applications. While not PPAP or automotive-rated, its wide temperature range and bussed design streamline integration in industrial, medical, and instrumentation systems. Engineers seeking a compact, high-voltage-resistant network will find this model ideal for optimizing circuit performance.