The 036823-156k050 capacitor is a crucial electronic component that plays a vital role in various industrial and commercial applications. In this comprehensive guide, we'll explore everything you need to know about this specific capacitor model, from its technical specifications to practical applications and maintenance requirements.
Technical Specifications of the 036823-156k050 Capacitor
The 036823-156k050 capacitor is characterized by its unique specifications that make it suitable for specific applications. This component features precise electrical parameters that ensure reliable performance in various electronic circuits.
Key Technical Parameters
- Capacitance Value: 15µF (microfarads)
- Voltage Rating: 50V DC
- Tolerance Range: ±10%
- Operating Temperature: -40°C to +85°C
- Dielectric Material: High-grade ceramic
- Lead Spacing: Standard industrial configuration
Applications and Uses
The 036823-156k050 capacitor finds extensive use across multiple industries and applications. Its reliable performance characteristics make it an excellent choice for various electronic circuits.
Industrial Applications
In industrial settings, the 036823-156k050 capacitor serves as a crucial component in:
- Power supply units
- Motor control circuits
- Industrial automation systems
- Process control equipment
- Measurement instruments
For more information about industrial applications, visit our detailed guide on industrial capacitors.
Installation and Mounting Guidelines
Proper installation of the 036823-156k050 capacitor is crucial for optimal performance and longevity. Following the correct mounting procedures ensures reliable operation and prevents potential issues.
Installation Best Practices
When installing the 036823-156k050 capacitor, consider these essential guidelines:
- Ensure proper orientation according to polarity markings
- Maintain recommended spacing from heat-generating components
- Use appropriate soldering techniques
- Verify voltage ratings match circuit requirements
- Follow ESD (Electrostatic Discharge) protection protocols
Performance Characteristics
The 036823-156k050 capacitor demonstrates exceptional performance characteristics that make it suitable for demanding applications. Understanding these characteristics helps in optimal component selection and application.
Stability Features
- Temperature coefficient: X7R
- Low ESR (Equivalent Series Resistance)
- High insulation resistance
- Excellent frequency characteristics
- Stable capacitance over operating voltage range
Maintenance and Testing
Regular maintenance and testing of the 036823-156k050 capacitor ensure continued reliable operation and early detection of potential issues.
Testing Procedures
- Capacitance measurement
- Leakage current testing
- ESR testing
- Temperature cycling tests
- Visual inspection for physical damage
Quality Assurance and Standards
The 036823-156k050 capacitor meets various international standards and quality requirements, ensuring reliable performance across applications.
Certification and Compliance
- RoHS compliant
- ISO 9001 certified manufacturing
- UL recognition
- CE marking compliance
- REACH compliance
Troubleshooting Common Issues
Understanding common issues with the 036823-156k050 capacitor helps in quick problem resolution and maintenance.
Common Problems and Solutions
- Capacitance drift
- Temperature-related issues
- Installation-related failures
- Environmental stress factors
- Circuit integration challenges
Comparison with Similar Capacitors
Understanding how the 036823-156k050 capacitor compares to similar components helps in making informed selection decisions.
Comparative Analysis Table
Feature | 036823-156k050 | Standard 15µF | Premium Series |
---|---|---|---|
Voltage Rating | 50V | 35V | 63V |
Temperature Range | -40°C to +85°C | -25°C to +70°C | -55°C to +125°C |
Tolerance | ±10% | ±20% | ±5% |
Cost Efficiency | High | Medium | Low |
Lifespan | 5000 hours | 3000 hours | 7000 hours |
Storage and Handling Guidelines
Proper storage and handling of the 036823-156k050 capacitor are essential for maintaining its performance characteristics.
Storage Requirements
- Temperature: 5°C to 35°C
- Humidity: Less than 75% RH
- Protection from direct sunlight
- ESD-safe packaging
- Proper inventory rotation
Future Developments and Trends
The evolution of capacitor technology continues to influence the development and application of components like the 036823-156k050 capacitor.
Emerging Technologies
- Enhanced temperature stability
- Improved energy density
- Advanced materials integration
- Smart monitoring capabilities
- Sustainable manufacturing processes
Environmental Considerations
Understanding the environmental impact and sustainability aspects of the 036823-156k050 capacitor is increasingly important.
Environmental Impact
- Materials recyclability
- Energy efficiency in manufacturing
- Compliance with environmental regulations
- Sustainable packaging initiatives
- End-of-life management
Key Takeaways
- The 036823-156k050 capacitor offers reliable performance in various applications
- Proper installation and maintenance are crucial for optimal operation
- The component meets international quality standards and environmental regulations
- Regular testing and monitoring ensure long-term reliability
- Understanding comparative advantages helps in appropriate component selection
Frequently Asked Questions
Q: What is the typical lifespan of the 036823-156k050 capacitor? A: Under normal operating conditions and proper installation, the 036823-156k050 capacitor has an expected lifespan of approximately 5000 hours.
Q: Can the 036823-156k050 capacitor be used in high-temperature environments? A: While the capacitor can operate in temperatures up to 85°C, it's recommended to maintain operating temperatures below 70°C for optimal performance and longevity.
Q: Is the 036823-156k050 capacitor suitable for automotive applications? A: The capacitor meets many automotive requirements but should be evaluated for specific application needs and environmental conditions.
Q: How often should the 036823-156k050 capacitor be tested? A: Regular testing is recommended at least every 6 months, with more frequent testing in critical applications or harsh environments.
Q: What are the main advantages of the 036823-156k050 capacitor over similar components? A: The main advantages include excellent temperature stability, reliable performance, and cost-effectiveness compared to similar capacitors in its class.
Conclusion
The 036823-156k050 capacitor represents a reliable and versatile component suitable for various industrial and commercial applications. Its robust specifications, combined with proper installation and maintenance procedures, ensure optimal performance and longevity. As technology continues to evolve, understanding the capabilities and limitations of this component becomes increasingly important for engineers and technicians working with electronic systems.