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Y5076V0121TT0L

Y5076V0121TT0L Description

The Y5076V0121TT0L 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 (±0.01%) and a matched resistor ratio of ±0.01%, ensuring exceptional accuracy in critical circuits. With resistances of 1kΩ and 2kΩ, it offers a compact footprint (10.11mm x 4.70mm) and a low profile (13.33mm max height), making it suitable for space-constrained designs.

Y5076V0121TT0L Features

• Ultra-Precision Tolerance: ±0.01% resistance tolerance for unmatched accuracy.
• TCR Matching: ±2ppm/°C temperature coefficient and ±0.1ppm/°C resistor-ratio drift ensure stability across temperature variations.
• Robust Construction: Bulk packaging and MSL Not Applicable rating enhance reliability in harsh environments.
• Voltage Divider Optimized: Designed for TCR-matched divider networks, minimizing errors in precision analog circuits.
• Through-Hole Mounting: Ensures secure mechanical and electrical connections for industrial applications.

Y5076V0121TT0L Applications

• Precision Instrumentation: Ideal for high-accuracy measurement devices like multimeters, bridge circuits, and data acquisition systems.
• Aerospace & Defense: Suitable for avionics and military-grade equipment requiring long-term stability and minimal drift.
• Medical Electronics: Critical for patient monitoring and diagnostic tools where signal integrity is paramount.
• Reference Voltage Circuits: Used in DAC/ADC reference networks and calibration systems.

Conclusion of Y5076V0121TT0L

The Y5076V0121TT0L stands out as a top-tier resistor network for applications demanding exceptional precision, thermal stability, and reliability. Its TCR-matched design, ultra-low drift, and tight tolerances make it superior to standard resistor arrays, particularly in mission-critical and high-performance electronics. Engineers in aerospace, medical, and industrial sectors will benefit from its consistent performance under varying environmental conditions.