VPG Foil Tariff Inquiry

Y1485V0071BA0L

Y1485V0071BA0L Description

The Y1485V0071BA0L from VPG Foil Resistors is a high-precision, surface-mount resistor network designed for demanding voltage divider applications. Part of the DSM series, this dual-resistor array features ultra-tight tolerances (±0.1% resistance, ±0.05% ratio matching) and exceptional thermal stability (±2ppm/°C TCR, ±0.5ppm/°C ratio drift). With resistances of 1kΩ and 10kΩ, it delivers 50mW power per element in a compact 1610 package (4.06mm x 2.69mm x 1.80mm). Its TCR-matched design ensures minimal drift under temperature fluctuations, making it ideal for precision analog circuits.

Y1485V0071BA0L Features

• Precision Performance: ±0.1% tolerance and ±0.05% ratio matching for unmatched accuracy.
• Ultra-Low Drift: ±2ppm/°C TCR and ±0.5ppm/°C ratio drift ensure stability in varying environments.
• Compact & Robust: 1610 footprint (0.160" x 0.106") with a low-profile 0.071" height.
• High Reliability: MSL 1 (unlimited shelf life) and bulk packaging for industrial handling.
• TCR-Matched Design: Optimized for voltage dividers, reducing thermal-induced errors.

Y1485V0071BA0L Applications

This resistor network excels in precision-critical systems, including:

• Reference Voltage Circuits: Stable dividers for ADCs, DACs, and sensor interfaces.
• Medical Instrumentation: High-accuracy signal conditioning in diagnostic equipment.
• Aerospace & Defense: Reliable performance in harsh thermal environments.
• Test & Measurement: Calibration tools and metrology-grade instruments.
• Industrial Automation: Feedback networks in precision control systems.

Conclusion of Y1485V0071BA0L

The Y1485V0071BA0L sets a benchmark for precision resistor networks, combining VPG Foil's expertise in ultra-stable foil technology with a compact, surface-mount design. Its low drift, tight matching, and robust construction make it superior to standard thin-film arrays, particularly in applications demanding long-term accuracy. Engineers seeking repeatable performance in voltage division or ratio-based circuits will find this model indispensable.