VPG Foil Tariff Inquiry

Y1747V0877BA9W

Y1747V0877BA9W Description

The Y1747V0877BA9W is a high-precision resistor network from VPG Foil Resistors' SMNZ series, designed for mission-critical military applications. This surface-mount device integrates four isolated resistors with values of 2.15kΩ and 4.3kΩ, offering exceptional accuracy with a tolerance of ±0.1% and ultra-low temperature coefficient (±0.2ppm/°C). Its compact dimensions (5.00mm x 3.99mm) and low profile (1.86mm max height) make it ideal for space-constrained designs. The device is packaged in bulk and complies with ECCN EAR99 and HTSUS 8533.21.0010, ensuring global regulatory compatibility.

Y1747V0877BA9W Features

• Precision Performance: ±0.05% resistor matching ratio and ±0.1ppm/°C ratio drift ensure long-term stability in harsh environments.
• Military-Grade Reliability: Designed for demanding applications with rigorous performance requirements.
• Low Power Dissipation: 100mW power rating per element balances efficiency with thermal management.
• Robust Construction: Isolated circuit design minimizes crosstalk, enhancing signal integrity.
• Extended Temperature Range: Stable operation across wide thermal fluctuations due to ultra-low TCR.

Y1747V0877BA9W Applications

This resistor network excels in:

• Military Electronics: Precision voltage dividers, feedback networks, and sensor conditioning in avionics, radar, and guidance systems.
• High-Accuracy Instrumentation: Calibration equipment, medical devices, and test/measurement systems requiring minimal drift.
• Aerospace Systems: Flight control and navigation subsystems where reliability and precision are paramount.
• Industrial Automation: Closed-loop control circuits and signal processing in extreme environments.

Conclusion of Y1747V0877BA9W

The Y1747V0877BA9W stands out for its unmatched precision, stability, and military-grade ruggedness, making it a top choice for applications where failure is not an option. Its combination of tight tolerances, low TCR, and compact form factor positions it as a superior alternative to conventional resistor networks in high-reliability sectors. Engineers seeking uncompromising performance in critical systems will find this device indispensable.