Viavi MP60 Mini USB Power Meter
The Viavi MP60 Mini USB Power Meter is a compact and versatile device designed for measuring fiber optic signal power in telecommunication networks. This screenless power meter connects to laptops, tablets, or smartphones via a USB interface, offering a practical solution for fiber optic testing and maintenance.
Key features include:
- Compact Design: The MP60 Mini is designed with portability in mind. Its small, lightweight form factor makes it easy to carry and use in various field conditions, ensuring convenience for network technicians and engineers.
- USB Connectivity: Equipped with a USB interface, the MP60 Mini can be seamlessly connected to laptops, tablets, or smartphones. This connectivity allows for direct data transfer and integration with testing software, facilitating real-time analysis and reporting.
- Versatile Application: The device can be used in conjunction with an OTDR (Optical Time-Domain Reflectometer) or connected directly to a computer. This flexibility allows for a range of testing scenarios and enhances the device's utility in fiber optic network management.
- Accurate Power Measurement: The MP60 Mini provides precise measurements of fiber optic signal power, ensuring accurate assessment of network performance. Reliable power readings are crucial for identifying potential issues and optimizing network performance.
- User-Friendly Operation: Although the device does not have a built-in screen, it is designed to be easily operated through the connected laptop, tablet, or smartphone. The intuitive interface simplifies the measurement process and allows for easy access to measurement data.
- High Performance: Built to meet the demanding requirements of telecommunication networks, the MP60 Mini delivers consistent and reliable performance, making it a valuable tool for both installation and maintenance tasks.
The Viavi MP60 Mini USB Power Meter is an essential instrument for professionals working with fiber optic networks. Its compact design, USB connectivity, and accurate measurement capabilities make it a practical choice for effective fiber optic signal testing and network diagnostics.