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Y1485V0002AT9W

Y1485V0002AT9W Description

The Y1485V0002AT9W from VPG Foil Resistors is a high-precision 2-resistor network designed for voltage divider applications with TCR-matched performance. This surface-mount device features a compact 1610 package (4.06mm x 2.69mm) with a seated height of 1.80mm, making it suitable for space-constrained PCB designs. With a 5kΩ resistance per element, it offers exceptional ±0.05% tolerance and ±2ppm/°C temperature coefficient, ensuring stability in demanding environments. The DSM series component is RoHS3 compliant, MSL 1 (unlimited shelf life), and supplied in tray packaging for automated assembly.

Y1485V0002AT9W Features

• Ultra-High Precision: ±0.01% resistor matching ratio and ±0.5ppm/°C ratio drift for unmatched accuracy.
• Low TCR: ±2ppm/°C ensures minimal resistance variation across temperature fluctuations.
• Robust Power Handling: 50mW per element for reliable operation in precision circuits.
• TCR-Matched Design: Optimized for voltage dividers requiring tight thermal tracking.
• Industry-Standard Compliance: EAR99 (ECCN) and HTSUS 8533.21.0020 for global compatibility.

Y1485V0002AT9W Applications

• Precision Voltage Dividers: Ideal for DAC/ADC reference networks, sensor signal conditioning, and feedback loops.
• Test & Measurement Equipment: Ensures accuracy in calibration instruments and data acquisition systems.
• Aerospace & Defense: Suitable for avionics and military-grade electronics due to low drift and high reliability.
• Medical Devices: Critical for patient monitoring systems where signal integrity is paramount.

Conclusion of Y1485V0002AT9W

The Y1485V0002AT9W stands out in the resistor networks & arrays category for its exceptional precision, thermal stability, and compact form factor. Its TCR-matched design and low ratio drift make it superior to generic resistor networks in applications demanding long-term accuracy. Whether for high-end instrumentation, aerospace, or medical electronics, this component delivers repeatable performance under stringent operational conditions.