SOLAR PV TESTING
No matter your solar PV testing requirements, we have you covered. With nearly a decade of experience producing reliable PV testing solutions, we’re a trusted name in the industry. Whether you install residential, commercial, or utility-scale systems—at 1000V or 1500V—we have the right PV testing equipment for you.
Explore Our SOLAR PV Testers
Explore a complete range of solar PV testing solutions tailored for every installer—from residential to utility-scale projects, including both 1000V and 1500V systems. Our solar test kits provide all the essential tools for safe, accurate, and efficient PV commissioning and maintenance, featuring precision irradiance meters, AC/DC power clamps, and all necessary accessories. Enhance your solar testing, reporting, and compliance processes with reliable, easy-to-use equipment designed to support your workflow, whatever the scale or complexity of your installation.
Solar PV Testers for Accurate Performance
Solar PV testers ensure safe and accurate testing and commissioning of photovoltaic systems. Our 1000V and 1500V testers come in complete kits that include everything needed, such as a precise Solar Survey 200R irradiance meter, AC/DC power clamp, and all necessary leads and adaptors. Designed for solar professionals, these kits support efficient testing across a range of installations.
Solar PV Testing involves evaluating photovoltaic systems, which use semiconductor materials to convert light into electricity through the photovoltaic effect. Since PV systems vary in size and design, a clear understanding of their components and functions is essential before conducting any testing.
Solar PV systems are installed worldwide and expected to operate safely and efficiently for decades. However, many installations are not done correctly or lack proper maintenance, leading to reduced performance and potential safety risks. Testing ensures that PV systems are installed properly, function reliably, and continue to generate maximum revenue while protecting people from hazards.
Solar PV testing is different from conventional electrical testing because the DC side of the photovoltaic system cannot always be switched off—you cannot turn off the Sun. Additionally, some electrical tests require solar irradiance data (solar power per unit area) to be included in the testing process, especially when comparing results to Standard Test Conditions (STC).
Solar PV Testing involves evaluating photovoltaic systems, which use semiconductor materials to convert light into electricity through the photovoltaic effect. Since PV systems vary in size and design, a clear understanding of their components and functions is essential before conducting any testing.
Why do we test solar installations?
Solar PV systems are installed worldwide and expected to operate safely and efficiently for decades. However, many installations are not done correctly or lack proper maintenance, leading to reduced performance and potential safety risks. Testing ensures that PV systems are installed properly, function reliably, and continue to generate maximum revenue while protecting people from hazards.
Solar PV testing is different from conventional electrical testing because the DC side of the photovoltaic system cannot always be switched off—you cannot turn off the Sun. Additionally, some electrical tests require solar irradiance data (solar power per unit area) to be included in the testing process, especially when comparing results to Standard Test Conditions (STC).
