The International Electrotechnical Commission (IEC) is a global organization that develops and publishes international standards for all electrical, electronic, and related technologies. One of its widely recognized standards is IEC 61280-36 Ed. 2:2018.
Scope and Purpose
IEC 61280-36 Ed. 2:2018, also known as "Fibre optic communication subsystem test procedures - Part 36: Transmitter and receiver parameters for multimode fibre optic transmitter testing," provides guidelines and test procedures for evaluating the performance and parameters of multimode fiber optic transmitters and receivers.
This standard covers a wide range of topics such as power measurements, optical modulation amplitude (OMA), eye diagram parameters, sensitivity, and dynamic range. It ensures accurate and reliable testing methods in various applications involving multimode fiber optic communication systems.
Key Features and Benefits
IEC 61280-36 Ed. 2:2018 offers several key features and benefits:
1. Comprehensive Test Procedures: The standard provides detailed procedures for measuring and evaluating different parameters associated with multimode fiber optic transmitters and receivers. This enables technicians and engineers to ensure compliance and quality assurance.
2. Performance Optimization: By following the specified test procedures and guidelines in this standard, organizations can optimize the performance of their multimode fiber optic communication systems. This ensures efficient and reliable data transmission over short distances.
3. Industry-wide Compatibility: IEC 61280-36 Ed. 2:2018 is recognized and accepted globally, making it an industry benchmark for testing multimode fiber optic transmitters and receivers. Its widespread adoption promotes interoperability and facilitates seamless integration of different system components.
Conclusion
IEC 61280-36 Ed. 2:2018 is a crucial standard in the field of multimode fiber optic communication systems. It provides guidelines and test procedures to ensure accurate performance evaluation and optimization of transmitters and receivers. By adhering to this standard, organizations can achieve reliable data transmission and compatibility in their networks.