Online PV yield calculator for LG Electronics
LG Electronics offers products in the fields of household appliances, information technology, mobile communications and photovoltaics. The photovoltaic product range includes modules and stationary battery storage.
Sevices
• Concept
• Design
• Programming
• Research of market and funding conditions
• Concept and implementation of the adaptations
LG Electronics was looking for a suitable PV online calculator to win leads in the private customer sector in Germany. After successful implementation and use of the German lead generator, the calculator was adapted for various European markets (Italy, Great Britain, France, the Netherlands and Belgium with two versions for Flanders and Wallonia).
Energis PV-Online calculator
The largest energy provider in Saarland, Energis, wanted to generate its own leads with the help of a PV computer. Energis chose the Sunbeam solar calculator. Thanks to the server-based architecture with API, Energis is able to deploy the computer on various landing pages and even provide it to its subsidiaries.
The implementation took place in a two-stage design. In this variant, users can first carry out a quick design and obtain an approximate result in just a few seconds. You then have the choice of either requesting a consultation or carrying out a detailed design independently using our Google Map module, which not only calculates the size of the available roof area, but also the exact orientation of the roof.
Translated with www.DeepL.com/Translator
Services
• Concept
• Engineering
• Calculations
• Interface design
• UX design
• Programming
• HTML/CSS
• Responsive web design
• App development
Based on the location and roof data, the PV calculator determines the specific irradiation and the optimum system size in the form of a suitable solar package. On this basis, the solar yield, various economic aspects and the rate of self-sufficiency and own consumption are then calculated.
Energis can adjust the default values (e. g. electricity price or consumption) as well as all variables (e. g. remuneration from the Renewable Energy Sources Act, module properties, etc.) in its own backend at any time.
Zebotec PV yield data portal
The company Zebotec takes over the management of larger PV systems as a service provider. It was looking for a way to provide investors or other users without a technical focus with access to plant information. All necessary information was available in the software for monitoring the systems.
However, since the use of this software requires training and costly licenses must be purchased for each user, we were commissioned to create an appropriate application that works with the existing data, is user-friendly, is limited to displaying the necessary data and minimizes the costs for additional users.
Services
• concept
• engineering
• calculations
• interface design
• UX design
• programming
• HTML/CSS
• Responsive Web Design
As a result, we have programmed an application that visualises the yield data for various periods (year/month/day) and also provides information on the operating status of the plant. Each user can have access to any number of PV systems.
The server-based yield data portal is based on the existing software solution, but has its own user administration. Users can access the data via any web browser.
The interface is designed to be fully responsive so that the user can access it from any device (e.g. mobile phone, PC or tablet).
power calculator
With the power calculator to the right battery storage
With the storage computer, homeowners can quickly and easily find out how much electricity they could actually save from the grid with a PV system and battery storage. The online tool shows the possible share of own consumption and degree of self-sufficiency and recommends the optimum storage size for the respective household.
Services
• programming
• screen design
• layout
• illustration
• editorial office
• engineering
The calculations are based on a consumption profile that reflects a typical single-family household. In contrast to standard computers, it is based on the assumption that the family consumes electricity in the evenings and at weekends rather than during the day during the week. The load profile has been developed in cooperation with the Berlin University of Applied Sciences.
Particularly pleasant for the user: The calculation result appears at the same time as the personal data is entered, e.g. annual household electricity consumption. Thanks to the responsive programming, the calculator can also be used on various end devices such as tablets and smartphones.
Solar Calculator Suncheck APP
Services
• Concept
• Engineering
• Calculations
• Interface design
• UX design
• Programming
In an extended version, the app can also calculate the actual savings potential and the internal consumption rate. The app is available for iOS and Android and can be flexibly adapted to your corporate design.
RheinEnergie PV online calculator
The regional energy supplier Rheinenergie had already decided in 2015 to use one of our solar computers as the lead generator for its own homepage. In 2017 an update to the latest server-based variant with API took place. In addition to higher performance and ease of maintenance, the new version also offers a backend in which Rheinenergie can independently adjust the default values (e. g. electricity price or consumption) as well as all variables (e. g. remuneration form the Renewable Energy Sources Act, module properties, etc.) at any time. In addition, the design and calculation of battery memories has been integrated.
Services
• Concept
• engineering
• Calculations
• interface design
• Programming
• HTML/CSS
• Responsive web design
• App development
The users first design the PV system. The result gives the user the possibility to add a battery storage device.
On the basis of the location and roof data, the PV calculator first determines the irradiation and recommends a suitable solar package based on the consumption data.
On the basis of the proposed solar package, the solar yield, various economic aspects and the rate of self-sufficiency and own consumption are calculated. The latter values are visualized using live diagrams.
If the user has added a storage tank, the lease rate as well as yield and profitability calculations are recalculated on the basis of the user data on consumption and usage profile as well as the calculated yield data of the PV system.