


Analog Devices Inc./Maxim Integrated
MAX5492LB10000+T
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MAX5492LB10000+T Description
MAX5492LB10000+T Description
The MAX5492LB10000+T is a high-precision, dual-resistor network from Analog Devices Inc./Maxim Integrated, designed for voltage divider applications with tightly matched temperature coefficients (TCR). This surface-mount device features two resistors with values of 909.1Ω and 9.091kΩ, offering a ±0.05% resistor matching ratio and an ultra-low ±1.5ppm/°C resistor-ratio drift, ensuring stable performance across temperature variations. Packaged in a compact SC74A (5-pin SOT-23) form factor (2.90mm x 1.63mm), it is ideal for space-constrained designs while delivering 160mW power dissipation per element.
MAX5492LB10000+T Features
- Precision TCR Matching: ±35ppm/°C temperature coefficient ensures minimal resistance drift.
- Ultra-Low Ratio Drift: ±1.5ppm/°C enhances accuracy in voltage division over temperature.
- High Matching Accuracy: ±0.05% tolerance between resistors for precise voltage scaling.
- Compact & Robust: Small SC74A package (1.45mm max height) suits high-density PCB layouts.
- Reliable Performance: RoHS3 compliant, MSL 1 (unlimited shelf life), and REACH unaffected.
- Wide Applications: Optimized for precision voltage dividers, DAC/ADC reference scaling, and sensor signal conditioning.
MAX5492LB10000+T Applications
This resistor network excels in high-accuracy analog circuits, including:
- Precision Voltage Dividers: Maintains ratio stability in reference voltage networks.
- Data Converters (DAC/ADC): Ensures consistent scaling for reference voltages.
- Sensor Signal Conditioning: Provides stable biasing for strain gauges and RTDs.
- Industrial & Medical Electronics: Suitable for systems requiring long-term drift immunity.
Conclusion of MAX5492LB10000+T
The MAX5492LB10000+T stands out for its exceptional ratio stability, compact size, and high precision, making it a superior choice for applications demanding low drift and tight TCR matching. Its robust construction and compliance with environmental standards ensure reliability in industrial, medical, and instrumentation designs. For engineers prioritizing accuracy and thermal performance, this resistor network delivers unmatched value in voltage division and signal conditioning tasks.



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