TT Electronics/IRC

GS7B021582BAT

GS7B021582BAT Description

The GS7B021582BAT from TT Electronics/IRC is a high-precision ceramic resistor network designed for demanding applications requiring tight tolerance and stability. This 14-pin Narrow SOIC device features 13 bussed (BUS) thin-film resistors, each with a 15.8KΩ resistance and an absolute tolerance of ±0.1%, ensuring exceptional accuracy. The ±50ppm/°C temperature coefficient and 0.05W (1/20) power rating per resistor make it suitable for environments with operating temperatures ranging from 70°C to 125°C. Encased in a rectangular ceramic SOIC package, it offers robust performance with 100V maximum voltage rating and 0.7W total power dissipation.

GS7B021582BAT Features

• Precision Performance: Ultra-tight ±0.1% tolerance and ±0.05% ratio tolerance for critical analog circuits.
• Stable Thin-Film Technology: Delivers low noise and high reliability with ±50ppm/°C thermal stability.
• Robust Construction: Ceramic case ensures durability, with 1.45mm height and 5.99mm × 8.66mm footprint for compact designs.
• Surface-Mount Ready: Gull-wing termination and 1.27mm pitch simplify PCB assembly.
• Wide Operating Range: Functions reliably from -55°C to +125°C (derated power up to 125°C).

GS7B021582BAT Applications

• Precision Voltage Dividers: Ideal for sensor interfaces and ADC/DAC reference circuits.
• Medical & Test Equipment: High-accuracy signal conditioning in diagnostic devices.
• Industrial Controls: Stable performance in PLCs and automation systems.
• Aerospace & Defense: Suitable for avionics due to ceramic ruggedness and thermal resilience.
• Telecom Infrastructure: Used in RF modules and base station signal processing.

Conclusion of GS7B021582BAT

The GS7B021582BAT stands out for its precision, thermal stability, and compact SOIC footprint, making it a superior choice for high-reliability applications. While not PPAP or automotive-qualified, its ceramic construction and thin-film technology ensure longevity in harsh environments. Engineers will value its tight tolerances and low TCR, particularly in medical, industrial, and aerospace systems where accuracy is non-negotiable.