TT Electronics/IRC

GS7B0176R8JDT

GS7B0176R8JDT Description

The GS7B0176R8JDT from TT Electronics/IRC is a high-performance 14-pin narrow SOIC ceramic resistor network, designed for precision applications requiring stable resistance values in compact surface-mount packages. This bussed network integrates 13 resistors with a 76.8Ω value, offering a ±5% absolute tolerance and ±0.5% ratio tolerance, ensuring consistent performance in matched circuits. Built with thin-film technology, it delivers ±100ppm/°C temperature coefficient stability across a 70°C to 125°C derated power range, with a maximum operating temperature of 125°C. The SOIC package (8.66mm x 5.99mm x 1.45mm) features gull-wing terminations for reliable PCB mounting, supporting 100V maximum voltage and 0.7W total power dissipation (0.05W per resistor).

GS7B0176R8JDT Features

• Ceramic substrate for enhanced thermal and mechanical stability.
• Bussed topology simplifies circuit design by interconnecting resistors.
• Thin-film technology ensures low noise and high precision (±100ppm/°C).
• 14-pin SOIC package with 1.27mm pitch, compatible with automated assembly.
• Robust power handling: 0.7W total (0.05W per resistor) at 125°C.
• Wide voltage rating (100V) for industrial and telecom applications.
• Non-automotive (PPAP No) but suitable for harsh environments due to ceramic construction.

GS7B0176R8JDT Applications

Ideal for voltage division, pull-up/pull-down networks, and impedance matching in:

• Industrial control systems requiring stable resistance under thermal stress.
• Telecommunications equipment (e.g., signal conditioning, line termination).
• Medical devices where precision and reliability are critical.
• Test and measurement instruments demanding low TCR and tight tolerance.
• Power management circuits in compact designs due to its high-density SOIC footprint.

Conclusion of GS7B0176R8JDT

The GS7B0176R8JDT excels in precision, thermal stability, and space efficiency, making it a superior choice for engineers needing reliable resistor networks in constrained layouts. Its ceramic construction, bussed design, and thin-film accuracy outperform plastic-based networks in high-temperature or high-voltage scenarios. While not RoHS-compliant, its ruggedness and electrical performance justify its use in industrial, telecom, and medical applications where durability and precision are paramount.