The PVS-100/120-TL is ABB’s cloud connected three-phase string solution for cost efficient decentralized photovoltaic systems for both ground mounted and large commercial applications.
This platform, for extreme high power string inverters with power ratings up to 120 kW, maximizes the ROI for decentralized ground mounted and large rooftop applications. With six MPPT energy harvesting is optimized even in shading situations.
Extreme power with high integration level
The extreme high power module up to 120 kW saves installation resources as less units are required. Due to its compact size further savings are generated in logistics and in maintenance. Thanks to the integrated DC/AC disconnection, 24 string connections, fuses and surge protection no additional boxes are required.
Ease of installation
The horizontal and vertical mounting possibility creates flexibility for both ground mounted and rooftop installations. Covers are equipped with hinges and locks that are fast to open and reduce
the risk of damaging the chassis and interior components when commissioning and performing maintenance actions.
Standard wireless access from any mobile device makes the configuration of inverter and plant easier and faster. Improved user experience thanks to a build in User Interface (UI) enables access to advanced inverter configuration settings.
The installer mobile APP, available for Android/iOS devices, further simplifies multi-inverter installations.
The design supports both copper and aluminum cabling even up to 185 mm2 cross section to minimize the energy losses.
Fast system integration
Industry standard Modbus/SUNSPEC protocol enables fast system integration. Two ethernet ports enable fast and future proof communication for PV plants.
ABB plant portfolio integration Monitoring your assets is made easy as every inverter is capable to connect to ABB plant portfolio manager to secure your assets and profitability in
Design flexibility and shade tolerance
The double stage conversion topology and six MPPT guarantee maximum flexibility for the system design on rooftops or hilly ground. With this technological choice energy harvesting is
optimized even in shading situations.