PV Sol
Dynamic simulation with our photovoltaic planning program for the design and optimization of photovoltaic systems, with storage systems
Program highlights
Simulation
Worldwide climate data available
Simulation in hourly and minutely resolution
Simulation with battery systems and electric vehicles
Simulation of off-grid PV systems
Planning of PV systems with own consumption/surplus feed-in, optionally with battery accumulators
Convenient wiring
Automatic determination of an optimal inverter connection
Manual adaptation of the circuit with optimum support
Polystring circuits
Power optimizer
Input of PV module areas via different paths
Determination of the number of modules and visualization of the module area by means of a photo
Automatic module assignment of any roofs in a 2D roof view
Planning of the PV system in a 3D environment
Optimal evaluation and presentation of results
Detailed profitability analysis with return on investment, payback period, …
Configurable and exportable project documentation: title page, overview, …
Detailed simulation results can be exported
Always up to date
Regularly – from the manufacturers! – updated databases (PV modules, inverters, battery inverters,…)
Regular releases available via program update
Free Webinars
Numerous tutorial videos to support the program operation
Optimum user support
Fast creation of projects through a clear structure of the navigation pages
Incorrect planning is prevented by an input check
Detailed help
Simple selection via product favorites management (PV modules, inverters,…)
© 2018 Valentin Software GmbH. Alle Rechte vorbehalten.
PV*SOL premium
PV*SOL online
System Requirements
Internet Access
Processor: Intel i3 or equivalent
Memory: 4 GB
Hard Disk Drive: 850 MB
Monitor Resolution: at least 1.024 x 768 pixel
Operating System: Windows Vista, Windows 7 (latest service packs each), Windows 8, Windows 10
Graphics: DirectX- compatible (at least Vers. 9.0c), 1 GB, OpenGL – Support
Other: Microsoft .Net Framework 4.6.1 Redistributable Package
Software Company
https://www.valentin-software.com/en/products/photovoltaics/55/pvsol
Program highlights
Simulation
Worldwide climate data available
Simulation in hourly and minutely resolution
Simulation with battery systems and electric vehicles
Simulation of off-grid PV systems
Planning of PV systems with own consumption/surplus feed-in, optionally with battery accumulators
Convenient wiring
Automatic determination of an optimal inverter connection
Manual adaptation of the circuit with optimum support
Polystring circuits
Power optimizer
Input of PV module areas via different paths
Determination of the number of modules and visualization of the module area by means of a photo
Automatic module assignment of any roofs in a 2D roof view
Planning of the PV system in a 3D environment
Optimal evaluation and presentation of results
Detailed profitability analysis with return on investment, payback period, …
Configurable and exportable project documentation: title page, overview, …
Detailed simulation results can be exported
Always up to date
Regularly – from the manufacturers! – updated databases (PV modules, inverters, battery inverters,…)
Regular releases available via program update
Free Webinars
Numerous tutorial videos to support the program operation
Optimum user support
Fast creation of projects through a clear structure of the navigation pages
Incorrect planning is prevented by an input check
Detailed help
Simple selection via product favorites management (PV modules, inverters,…)
© 2018 Valentin Software GmbH. Alle Rechte vorbehalten.
PV*SOL premium
PV*SOL online
System Requirements
Internet Access
Processor: Intel i3 or equivalent
Memory: 4 GB
Hard Disk Drive: 850 MB
Monitor Resolution: at least 1.024 x 768 pixel
Operating System: Windows Vista, Windows 7 (latest service packs each), Windows 8, Windows 10
Graphics: DirectX- compatible (at least Vers. 9.0c), 1 GB, OpenGL – Support
Other: Microsoft .Net Framework 4.6.1 Redistributable Package
Software Company
https://www.valentin-software.com/en/products/photovoltaics/55/pvsol