The ORNA1002 is a precision thin film chip resistor manufactured by Vishay. This resistor is designed for applications requiring high stability, accuracy, and low noise. The ORNA1002 features a compact size and is suitable for surface mount technology (SMT) assembly. Its thin film construction provides tight tolerances and excellent temperature coefficient of resistance (TCR), making it ideal for precision circuits.
Applications
- Precision amplifiers and instrumentation
- Medical equipment
- Test and measurement devices
- Automotive electronics
- Industrial control systems
Features
- Thin Film Construction: Provides high stability and accuracy.
- Tight Tolerances: Available in tolerances down to ±0.1%.
- Low Temperature Coefficient of Resistance (TCR): Offers excellent stability over temperature variations.
- Low Noise: Minimizes unwanted signal interference.
- Surface Mount Technology (SMT): Suitable for automated assembly processes.
Benefits
- Improved Circuit Performance: Enhances the accuracy and reliability of electronic circuits.
- Reduced Drift: Minimizes resistance drift over time and temperature.
- Enhanced Signal Integrity: Low noise characteristics ensure clean signal transmission.
- Simplified Assembly: SMT design facilitates efficient and cost-effective assembly.
- Long-Term Stability: Provides consistent performance throughout the product's lifespan.
Additional Details
The ORNA1002 resistor typically utilizes a tantalum nitride (TaN) thin film resistive element, which contributes to its superior performance characteristics. It's available in various resistance values and power ratings to accommodate different circuit requirements. Careful consideration should be given to the operating temperature and power dissipation when selecting the appropriate resistor value. Proper soldering techniques are essential to ensure reliable electrical connections and prevent damage to the component during assembly. The resistor is RoHS compliant, meaning it adheres to environmental standards regarding hazardous substances.