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Y5076V0266BB9L

Y5076V0266BB9L Description

The Y5076V0266BB9L from VPG Foil Resistors is a high-precision 2-resistor network designed for voltage divider applications with TCR-matched performance. Part of the VHD200 series, this through-hole component features ultra-tight tolerances (±0.1% resistance matching, ±0.1% ratio tolerance) and an exceptional ±2ppm/°C temperature coefficient, ensuring stability in demanding environments. Its 1kΩ and 13kΩ resistance values are optimized for precise signal conditioning, while the ±0.1ppm/°C resistor-ratio drift guarantees long-term accuracy. The radial bulk package (10.11mm x 4.70mm, 13.33mm height) is robust and suitable for industrial applications.

Y5076V0266BB9L Features

• Precision Performance: ±0.1% tolerance and ±2ppm/°C TCR for unmatched accuracy.
• Voltage Divider Optimized: TCR-matched resistors ensure minimal thermal drift in divider circuits.
• High Stability: ±0.1ppm/°C ratio drift outperforms standard networks.
• Durable Construction: Through-hole mounting with a 50mW power rating per element.
• Compliance: ROHS3 compliant, EAR99 ECCN, and MSL Not Applicable for hassle-free integration.
• Compact Design: 0.398" x 0.185" footprint saves board space without sacrificing performance.

Y5076V0266BB9L Applications

Ideal for high-accuracy analog circuits, including:

• Precision voltage references and sensor signal conditioning.
• Medical instrumentation requiring stable, drift-free performance.
• Aerospace and defense systems where reliability under thermal stress is critical.
• Calibration equipment and test/measurement devices demanding sub-ppm-level stability.

Conclusion of Y5076V0266BB9L

The Y5076V0266BB9L sets a benchmark for precision resistor networks, combining ultra-low drift, tight tolerances, and rugged packaging. Its TCR-matched design makes it indispensable for applications where thermal stability and accuracy are non-negotiable. Engineers seeking repeatable performance in harsh environments will find this component superior to generic alternatives.