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Y5076V0411FB0L

Y5076V0411FB0L Description

The Y5076V0411FB0L is a high-precision 2-resistor voltage divider network from VPG Foil Resistors' VHD200 series, designed for applications requiring ultra-stable TCR-matched performance. This through-hole-mounted component features 2.2kΩ and 5kΩ resistors with a tight ±1% tolerance and an exceptional ±2ppm/°C temperature coefficient, ensuring minimal resistance drift over temperature variations. Its ±0.1% resistor matching ratio and ±0.1ppm/°C ratio drift make it ideal for precision analog circuits. The device is housed in a compact 0.398" x 0.185" (10.11mm x 4.70mm) radial package with a 13.33mm max height, suitable for space-constrained designs.

Y5076V0411FB0L Features

• Ultra-Low TCR & Ratio Drift: ±2ppm/°C TCR and ±0.1ppm/°C ratio drift ensure stability in harsh environments.
• Precision Matching: ±0.1% resistor matching ratio for balanced voltage division.
• Robust Construction: Bulk packaging with MSL Not Applicable, suitable for industrial applications.
• Wide Resistance Range: 2.2kΩ and 5kΩ values cater to diverse divider configurations.
• Through-Hole Reliability: 3-pin radial design ensures secure mounting in high-vibration settings.

Y5076V0411FB0L Applications

• Precision Voltage References: Critical in metrology and calibration equipment.
• Medical Instrumentation: ECG amplifiers, patient monitoring systems requiring low drift.
• Aerospace & Defense: Avionics, radar systems, and missile guidance where stability is paramount.
• Industrial Sensors: Strain gauge bridges and RTD signal conditioning.
• Test & Measurement: High-accuracy dividers for oscilloscopes and data acquisition systems.

Conclusion of Y5076V0411FB0L

The Y5076V0411FB0L stands out in the Resistor Networks & Arrays category for its unmatched precision, thermal stability, and ruggedness. Its TCR-matched design and low ratio drift make it superior to standard divider networks, particularly in mission-critical applications. Engineers seeking long-term reliability in harsh environments will find this component indispensable for maintaining signal integrity in high-performance systems.