TT Electronics/IRC

GQCB0295R3GDT

GQCB0295R3GDT Description

The GQCB0295R3GDT from TT Electronics/IRC is a high-performance thin-film resistor network designed for precision applications. Encased in a 24-pin QSOP ceramic package, it features 23 resistors with a 95.3Ω resistance value, 2% tolerance, and a ±50ppm/°C temperature coefficient. The network operates within a wide temperature range of 70°C to 125°C, with a maximum voltage rating of 100V and a total power rating of 1W (0.05W per resistor). Its gull-wing termination and surface-mount design ensure reliable PCB integration, while the ceramic case enhances thermal stability and durability.

GQCB0295R3GDT Features

• Precision Thin Film Technology: Delivers stable performance with low noise and high accuracy.
• Robust Ceramic Package: Offers superior thermal management and mechanical strength.
• High-Density Integration: 23 resistors in a compact 8.66mm × 6.02mm × 1.47mm QSOP footprint.
• Wide Operating Range: Suitable for harsh environments (up to 125°C).
• Automated Assembly Friendly: Gull-wing leads and 0.64mm pitch enable efficient SMT processes.
• Non-Automotive & Non-PPAP: Ideal for industrial and commercial applications where PPAP compliance is not required.

GQCB0295R3GDT Applications

This resistor network excels in:

• Signal Conditioning Circuits: Precision voltage dividers and pull-up/down networks.
• Medical & Test Equipment: High-accuracy measurement systems.
• Industrial Control Systems: Durable solutions for PLCs and motor drives.
• Telecom Infrastructure: Stable performance in RF and baseband circuits.
• Power Management: Current sensing and feedback loops in DC-DC converters.

Conclusion of GQCB0295R3GDT

The GQCB0295R3GDT stands out for its precision, compactness, and thermal resilience, making it a top choice for engineers needing reliable resistor networks in space-constrained, high-temperature environments. While not RoHS-compliant, its ceramic construction and thin-film technology provide long-term stability, outperforming standard epoxy-based networks. Ideal for industrial, medical, and telecom applications, this model balances performance with cost-effectiveness for non-automotive use cases.