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Y1747V0486BA0W

Y1747V0486BA0W Description

The Y1747V0486BA0W from VPG Foil Resistors is a high-precision 4-resistor network designed for demanding applications requiring ultra-stable resistance values. Housed in an 8-SOIC package with dimensions of 5.00mm x 3.99mm (0.197" x 0.157"), this surface-mount device features isolated resistors with values of 100Ω and 900Ω, offering a ±0.1% tolerance and an exceptional ±0.2ppm/°C temperature coefficient. Its ±0.05% resistor matching ratio and ±1ppm/°C resistor-ratio drift ensure unmatched stability in precision circuits. With a 100mW power rating per element and MSL 1 (Unlimited) moisture sensitivity, it is ideal for high-reliability environments.

Y1747V0486BA0W Features

• Ultra-Precision: ±0.1% tolerance and ±0.2ppm/°C tempco for minimal drift.
• Tight Matching: ±0.05% ratio matching and ±1ppm/°C ratio drift enhance differential performance.
• Robust Construction: 1.86mm (0.073") profile in a compact SOIC package.
• High Stability: Low thermal EMF and noise for sensitive analog applications.
• Reliable Compliance: EAR99 and HTSUS 8533.21.0010 classified for global use.
• Power Handling: 100mW per resistor ensures durability in precision circuits.

Y1747V0486BA0W Applications

This resistor network excels in:

• Precision instrumentation (e.g., medical devices, test equipment).
• Bridge circuits requiring matched resistances for strain gauges or load cells.
• A/D and D/A converters where ratio stability is critical.
• Aerospace & defense systems demanding long-term reliability.
• Industrial automation (e.g., servo control, feedback loops).

Conclusion of Y1747V0486BA0W

The Y1747V0486BA0W sets a benchmark for precision resistor networks, combining VPG Foil’s expertise in ultra-stable foil technology with a compact, surface-mount design. Its sub-ppm thermal stability, tight matching, and robust construction make it indispensable for applications where accuracy and long-term performance are non-negotiable. Ideal for engineers designing high-end analog systems, this model outperforms conventional thin-film arrays in critical parameters, ensuring reliability in the most demanding environments.