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Y0094V0434FF9L

Y0094V0434FF9L Description

The Y0094V0434FF9L from VPG Foil Resistors is a high-precision 2-resistor network designed for voltage divider applications with TCR-matched performance. This through-hole component features resistances of 10.37kΩ and 20kΩ with a tight tolerance of ±1% and an ultra-low ±8ppm/°C temperature coefficient, ensuring stability across varying thermal conditions. Its ±1.5ppm/°C resistor-ratio drift further enhances accuracy in critical circuits. Packaged in a compact 0.295" x 0.100" (7.49mm x 2.54mm) footprint with a 0.320" (8.13mm) height, it is ideal for space-constrained designs.

Y0094V0434FF9L Features

• TCR-Matched Pair: Ensures minimal thermal drift for precision voltage division.
• Low Ratio Drift: ±1.5ppm/°C guarantees long-term stability in divider networks.
• High Power Handling: 100mW per resistor for robust performance.
• Through-Hole Mounting: Reliable 3-pin radial configuration for secure PCB integration.
• RoHS3 Compliant: Meets environmental standards without compromising performance.
• Wide Applications: Suitable for medical, aerospace, and test equipment due to its EAR99/ECCN classification and non-MS (Moisture Sensitivity) rating.

Y0094V0434FF9L Applications

This resistor network excels in precision analog circuits, including:

• Reference voltage dividers in data acquisition systems.
• Sensor signal conditioning where ratio stability is critical.
• High-accuracy instrumentation (e.g., multimeters, calibrators).
• Aerospace avionics requiring low drift over temperature.
  Its VSR144 series construction ensures superior performance over standard thin-film networks, particularly in TCR-sensitive designs.

Conclusion of Y0094V0434FF9L

The Y0094V0434FF9L stands out for its exceptional thermal stability, precision matching, and rugged through-hole design, making it a top choice for engineers prioritizing reliability in harsh environments. Its combination of low TCR, tight tolerance, and high power handling positions it as a superior alternative to conventional resistor arrays in mission-critical applications.