VPG Foil Tariff Inquiry

Y1365V0207QT0R

Y1365V0207QT0R Description

The Y1365V0207QT0R from VPG Foil Resistors is a high-precision 4-resistor network in an 8-SOIC surface-mount package, designed for applications demanding ultra-tight tolerance and stability. Part of the SMN series, this isolated-circuit array offers 5kΩ and 10kΩ resistance values with an exceptional ±0.02% tolerance and ±0.01% resistor matching ratio, ensuring unmatched accuracy in signal conditioning and voltage division. Its ±2ppm/°C temperature coefficient and ±0.5ppm/°C resistor-ratio drift make it ideal for environments with fluctuating temperatures. The compact 0.197" x 0.157" (5.00mm x 3.99mm) footprint and 1.86mm profile suit space-constrained designs.

Y1365V0207QT0R Features

• Precision Performance: ±0.02% tolerance and ±0.01% matching ratio for critical analog circuits.
• Ultra-Low Drift: ±2ppm/°C TCR and ±0.5ppm/°C ratio drift ensure long-term stability.
• Robust Construction: 100mW power rating per element and MSL 1 (unlimited) moisture sensitivity for reliability.
• Compact & Versatile: 8-SOIC package with isolated resistors, compatible with automated assembly (tape & reel).
• Compliance: EAR99 and HTSUS 8533.21.0010 listed for global sourcing.

Y1365V0207QT0R Applications

This resistor network excels in:

• Precision instrumentation (e.g., medical devices, test equipment).
• High-accuracy voltage dividers in ADC/DAC reference circuits.
• Aerospace & defense systems requiring stable performance under thermal stress.
• Industrial automation (sensor calibration, bridge networks).
• Low-noise analog signal chains where ratio matching is critical.

Conclusion of Y1365V0207QT0R

The Y1365V0207QT0R sets a benchmark for precision resistor networks, combining VPG Foil’s foil-resistor technology with industry-leading stability and miniaturization. Its sub-ppm drift, tight matching, and rugged SMT design make it indispensable for high-reliability applications where component-level errors must be minimized. Engineers prioritizing accuracy, thermal resilience, and space efficiency will find this model superior to conventional thin-film or thick-film arrays.