TT Electronics/IRC

GS7B016491FT

GS7B016491FT Description

The GS7B016491FT from TT Electronics/IRC is a high-performance ceramic resistor network designed for precision applications requiring stable resistance values and robust thermal performance. Housed in a 14-pin narrow SOIC package, this bussed (BUS) network integrates 13 thin-film resistors, each rated at 6.49 kΩ with a tight ±1% tolerance and a low ±100 ppm/°C temperature coefficient. The device operates over a wide temperature range of -55°C to +125°C, with derated power handling up to 125°C. Its SOIC-C series construction ensures reliability in demanding environments, offering a maximum voltage rating of 100V and a total power rating of 0.7W (0.05W per resistor).

GS7B016491FT Features

• Precision Thin-Film Technology: Delivers stable resistance with minimal drift (±100 ppm/°C).
• Robust Ceramic Package: Enhances thermal management and mechanical durability.
• Bussed Network Design: Simplifies circuit layout with shared common connections.
• High-Density SOIC-14: Compact footprint (8.66 x 5.99 x 1.45 mm) with gull-wing leads for surface-mount assembly.
• Wide Operating Range: Suitable for -55°C to +125°C, ideal for industrial and automotive (non-PPAP) applications.
• Low Power Dissipation: 0.05W per resistor (1/20W) ensures efficiency in signal conditioning circuits.

GS7B016491FT Applications

This resistor network excels in:

• Analog Signal Processing: Voltage dividers, DAC/ADC interfaces.
• Industrial Control Systems: PLCs, sensor calibration circuits.
• Telecommunications: Line termination, impedance matching.
• Test & Measurement Equipment: Precision reference networks.
• Power Management: Feedback networks in DC-DC converters.

Conclusion of GS7B016491FT

The GS7B016491FT stands out for its precision, thermal stability, and compact SOIC packaging, making it a superior choice for applications demanding tight tolerances and reliability. While not RoHS-compliant or PPAP-qualified, its ceramic construction and thin-film technology offer long-term performance in harsh environments. Engineers will appreciate its ease of integration and consistent performance across temperature variations, solidifying its role in critical electronic systems.