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Y1716V0684AA9L

Y1716V0684AA9L Description

The Y1716V0684AA9L from VPG Foil Resistors is a high-precision 4-resistor network designed for voltage divider applications requiring ultra-tight TCR matching (±0.2ppm/°C) and exceptional resistor ratio stability (±0.05%). Part of the 300191Z series, this through-hole component features a 1kΩ and 3.3kΩ resistance configuration (3K3/1K/1K/3K3) with a ±0.05% tolerance, making it ideal for precision analog circuits. Its bulk packaging and 20.83mm x 4.06mm footprint ensure compatibility with standard PCB layouts, while the 10.49mm seated height accommodates space-constrained designs.

Y1716V0684AA9L Features

• Ultra-Low Tolerance & TCR: ±0.05% resistance matching and ±0.2ppm/°C temperature coefficient ensure minimal drift in critical applications.
• Voltage Divider Optimized: TCR-matched resistors (±0.1ppm/°C ratio drift) for stable division ratios under thermal stress.
• High Power Handling: 300mW per element for robust performance in demanding environments.
• Through-Hole Reliability: 5-pin design with MSL Not Applicable rating, suitable for industrial and aerospace use.
• Precision Configuration: 1kΩ and 3.3kΩ values arranged for symmetrical voltage division (3K3/1K/1K/3K3).

Y1716V0684AA9L Applications

• Precision Instrumentation: Reference voltage dividers in DAC/ADC circuits, calibration equipment.
• Aerospace & Defense: Stable signal conditioning in avionics, radar systems, and sensor interfaces.
• Medical Electronics: High-accuracy sensing circuits in diagnostic devices.
• Industrial Automation: Feedback networks for precision control systems.

Conclusion of Y1716V0684AA9L

The Y1716V0684AA9L excels in applications demanding sub-ppm stability and matched-ratio performance, outperforming conventional resistor networks with its foil-resistor technology. Its combination of low drift, high power handling, and symmetrical resistance values makes it a top choice for engineers designing mission-critical analog systems. For projects requiring uncompromising precision, this component delivers repeatable accuracy across temperature and time.