Metrel MI 3114 PV Tester – Advanced Photovoltaic Testing Instrument
Introducing the Metrel MI 3114 PV Tester, the leading-edge solution for comprehensive testing of photovoltaic (PV) systems. This state-of-the-art device caters specifically to PV professionals looking for sophisticated functionality in testing up to 1500 V systems with a maximum short circuit current of 40A. Optimized for performance, the MI 3114 aligns with the IEC 62446-1 standard, ensuring precise and accurate measurements every time.
Robust Features to Enhance Your PV Testing
The MI 3114 PV Tester is designed with a plethora of features to simplify and expedite your testing procedures. Among its key capabilities are automatic Category 1 testing, real-time measurements, and conversion of results to Standard Test Conditions (STC). This instrument excels in PV-specific assessments, such as insulation resistance of PV strings, continuity of PE conductors, and polarity tests. The integrated wireless remote unit uniquely allows for the seamless monitoring of irradiation and cell temperature, adding a layer of convenience to your testing process.
Intuitive User Interface and Advanced Memory Management
Crafted for ease of use, the MI 3114 boasts a large, intuitive color touch screen display. From this interface, users can effortlessly conduct tests, store and review results, and even correct parameters post-measurement. The MI 3114 is equipped with a sophisticated memory organizer, enabling operations on individual or grouped measurements with exceptional ease. Its search functionality and PV modules database handler further enhance the user experience, enabling an efficient workflow from test preparation to report generation.
Industry Standards Compliance and Applications
The MI 3114 is meticulously designed to comply with a variety of industry standards, including IEC/EN 61557 for electrical safety in low voltage distribution systems and IEC/EN 61326-1 for EMC requirements. This compliance makes the MI 3114 an indispensable tool for applications in renewable energy sources, special locations, and specifically low voltage photovoltaic installations. Ensure the efficiency and safety of your PV systems with precise testing, from first inspection to periodic maintenance.
Applicability to Photovoltaic (PV) Module Testing
The Metrel MI 3114 PV Tester is indeed suitable for photovoltaic (PV) module testing. Engineered specifically for high-performance applications, this tester excels in measuring the essential parameters crucial for PV module evaluation. With its capability to conduct insulation resistance tests, check the continuity of protective earth (PE) conductors, and perform polarity tests, it proficiently covers all necessary aspects of PV module testing. Additionally, the device’s ability to convert results to Standard Test Conditions (STC) ensures that measurements are accurate and aligned with industry benchmarks. This makes the MI 3114 an ideal tool for professionals tasked with maintaining the quality and safety of PV installations.
Technical Specifications
Main Unit Specifications
- Dimensions: 310 x 130 x 250 mm
- Weight: 4.4 kg
Remote Unit Specifications
- Dimensions: 140 x 80 x 230 mm
- Weight: 1 kg
Seamless Integration with Metrel ES Manager
Experience enhanced productivity and precision with the Metrel ES Manager software, which integrates seamlessly with the MI 3114. This software allows you to prepare measurement structures, upload or download data, and delve into the PV modules database. Generate and customize professional reports that meet and exceed industry expectations.
Purchase the Metrel MI 3114 PV Tester Today
Upgrade your PV testing capabilities with the Metrel MI 3114 PV Tester, a tool that symbolizes reliability, accuracy, and ease of use. It is the perfect choice for professionals in the renewable energy sector committed to quality and safety. Whether you aim to conduct evaluations, troubleshooting, or generate reports, the MI 3114 promises performance that delivers results. Discover the future of PV testing—order now and elevate your efficiency and accuracy in photovoltaic assessment.