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Y0006V0058TT9L

Y0006V0058TT9L Description

The Y0006V0058TT9L from VPG Foil Resistors is a high-precision 2-resistor voltage divider network designed for applications requiring ultra-tight TCR matching and minimal ratio drift. Part of the 300144 series, this through-hole component features resistances of 2kΩ and 20kΩ with an exceptional tolerance of ±0.01% and a near-zero temperature coefficient of ±2ppm/°C. Its compact dimensions (7.49mm x 2.54mm) and 100mW power rating per element make it suitable for space-constrained, high-accuracy circuits. The ±0.5ppm/°C resistor-ratio drift ensures long-term stability in demanding environments.

Y0006V0058TT9L Features

• Precision TCR Matching: ±2ppm/°C ensures minimal resistance variation over temperature.
• Ultra-Low Tolerance: ±0.01% tolerance and ±0.01% resistor matching ratio for critical accuracy.
• Stable Performance: ±0.5ppm/°C ratio drift guarantees consistency in fluctuating thermal conditions.
• Robust Construction: Through-hole mounting with a 8.13mm max height for secure PCB integration.
• Reliable Compliance: EAR99 ECCN and HTSUS 8533.21.0050 certified for global use.
• No MSL Restrictions: Not MSL-sensitive, simplifying storage and handling.

Y0006V0058TT9L Applications

Ideal for precision voltage division, this resistor network excels in:

• Reference voltage circuits in test/measurement equipment.
• High-accuracy analog signal conditioning for industrial sensors.
• Medical instrumentation requiring drift-free performance.
• Aerospace and defense systems where stability under thermal stress is critical.
• Calibration tools and metrology applications demanding sub-ppm-level precision.

Conclusion of Y0006V0058TT9L

The Y0006V0058TT9L stands out for its unmatched precision, thermal stability, and rugged design, making it a top choice for engineers prioritizing accuracy and reliability. Its low drift, tight TCR matching, and compliance with stringent standards position it as a superior alternative to conventional resistor networks in mission-critical applications.