Main board for BSK renewable energy set

LD 457100
Main board for BSK renewable energy set
  8  Main board for BSK renewable energy set

This product is classified as a dangerous good and is not available for online purchase.

For ordering the dangerous good or other information please contact our customer service center.
This experiment/set up contains dangerous goods.
These are not available for online purchase.
You may order the experiment/set up without the dangerous goods.


For ordering the dangerous good or other information please contact our customer service center.
Email: webshopuk@ld-didactic.de
Telephone:+49 (0) 22 33 / 604 – 319
Go to contact form

˟

Request an offer

Thank you for your inquiry. We will get back to you as soon as possible.

˟

Description

With 3 plug-in panels, e.g. for solar cells and modules (457 310, 457 320), fuel cells (457 600), gas storage (457 610) und wind generator (457 512), for connection in series or parallel, with 4 additional sockets for connecting cables, including 2 circuit diagrams for easily understood assemblies in series or parallel.

Technical data

  • Grid spacings for plugs: 70 mm
  • Connections: 4-mm sockets
  • Dimensions: 16 cm x 30 cm

Related Documents

PDF (students' version) PDF (students' version) EEK1.1.1.0 Solar cells
PDF (students' version) PDF (students' version) EEK1.1.1.1 Series and parallel connection of solar cells (qualitative)
PDF (students' version) PDF (students' version) EEK1.1.1.2 Series and parallel connection of solar cells (quantitative)
PDF (students' version) PDF (students' version) EEK1.1.1.3 Comparison between a solar cell and a solar module
PDF (students' version) PDF (students' version) EEK1.1.2.1 Voltage and current in a solar cell as a function of the surface area of the cell
PDF (students' version) PDF (students' version) EEK1.1.2.2 Voltage and current in a solar cell as a function of the angle of incidence of the light
PDF (students' version) PDF (students' version) EEK1.1.2.3 Voltage and current in a solar cell as a function of temperature
PDF (students' version) PDF (students' version) EEK1.1.2.4 Voltage and current in a solar cell as a function of light intensity
PDF (students' version) PDF (students' version) EEK1.1.3.1 Shading of solar cells in a series circuit
PDF (students' version) PDF (students' version) EEK1.1.3.2 Shading of solar cells in a parallel circuit
PDF (students' version) PDF (students' version) EEK1.1.4.1 Diode-like properties of a solar cell
PDF (students' version) PDF (students' version) EEK1.1.5.1 Characterisitics of a solar cell
PDF (students' version) PDF (students' version) EEK1.1.5.2 Characterisitics of a solar cell under different lighting conditions
PDF (students' version) PDF (students' version) EEK1.2.1.0 Design of a wind generator
PDF (students' version) PDF (students' version) EEK1.2.1.1 Effect of wind speed (qualitative)
PDF (students' version) PDF (students' version) EEK1.2.1.2 Effect of wind speed (quantitative)
PDF (students' version) PDF (students' version) EEK1.2.1.3 Wind speed required to start a wind turbine turning
PDF (students' version) PDF (students' version) EEK1.2.2.1 Effect of wind direction (qualitative)
PDF (students' version) PDF (students' version) EEK1.2.2.2 Effect of wind direction (quantitative) (additional exercise: comparison with cosine function)
PDF (students' version) PDF (students' version) EEK1.2.3.1 Effect of the number of vanes on a wind generator (qualitative)
PDF (students' version) PDF (students' version) EEK1.2.3.2 Effect of the number of vanes on a wind generator (quantitative)
PDF (students' version) PDF (students' version) EEK1.2.4.1 Effect of the pitch angle of the vanes (qualitative)
PDF (students' version) PDF (students' version) EEK1.2.4.2 Effect of the pitch angle of the vanes (quantitative)
PDF (students' version) PDF (students' version) EEK1.2.5.1 Effect of the shape of the vanes (qualitative)
PDF (students' version) PDF (students' version) EEK1.2.5.2 Effect of the shape of the vanes (quantitative)
PDF (students' version) PDF (students' version) EEK1.3.1.0 Design of a reversible fuel cell
PDF (students' version) PDF (students' version) EEK1.3.1.1 How an electrolyser works
PDF (students' version) PDF (students' version) EEK1.3.1.2 How a fuel cell works
PDF (students' version) PDF (students' version) EEK1.3.2.1 Use of wind energy with reversible fuel cell
PDF (students' version) PDF (students' version) EEK1.3.2.2 Use of wind energy with reversible fuel cell
PDF (students' version) PDF (students' version) EEK1.3.3.1 Characteristic for an electrolyser
PDF (students' version) PDF (students' version) EEK1.3.3.2 How gas volume depends on current through the electrolyser and on time (Additional exercise: Determination of Faraday constant)
PDF (students' version) PDF (students' version) EEK1.3.3.3 Determination of Faraday constant with the electrolyser (Additional exercise: Determination of Faraday efficiency)
PDF (students' version) PDF (students' version) EEK1.3.3.4 Estimation of energy content of hydrogen gas with the electrolyser (Additional exercise: Determination of energy efficiency)
PDF (teacher's version) PDF (teacher's version) EEK1.1.1.0 Solar cells
PDF (teacher's version) PDF (teacher's version) EEK1.1.1.1 Series and parallel connection of solar cells (qualitative)
PDF (teacher's version) PDF (teacher's version) EEK1.1.1.2 Series and parallel connection of solar cells (quantitative)
PDF (teacher's version) PDF (teacher's version) EEK1.1.1.3 Comparison between a solar cell and a solar module
PDF (teacher's version) PDF (teacher's version) EEK1.1.2.1 Voltage and current in a solar cell as a function of the surface area of the cell
PDF (teacher's version) PDF (teacher's version) EEK1.1.2.2 Voltage and current in a solar cell as a function of the angle of incidence of the light
PDF (teacher's version) PDF (teacher's version) EEK1.1.2.3 Voltage and current in a solar cell as a function of temperature
PDF (teacher's version) PDF (teacher's version) EEK1.1.2.4 Voltage and current in a solar cell as a function of light intensity
PDF (teacher's version) PDF (teacher's version) EEK1.1.3.1 Shading of solar cells in a series circuit
PDF (teacher's version) PDF (teacher's version) EEK1.1.3.2 Shading of solar cells in a parallel circuit
PDF (teacher's version) PDF (teacher's version) EEK1.1.4.1 Diode-like properties of a solar cell
PDF (teacher's version) PDF (teacher's version) EEK1.1.5.1 Characterisitics of a solar cell
PDF (teacher's version) PDF (teacher's version) EEK1.1.5.2 Characterisitics of a solar cell under different lighting conditions
PDF (teacher's version) PDF (teacher's version) EEK1.2.1.0 Design of a wind generator
PDF (teacher's version) PDF (teacher's version) EEK1.2.1.1 Effect of wind speed (qualitative)
PDF (teacher's version) PDF (teacher's version) EEK1.2.1.2 Effect of wind speed (quantitative)
PDF (teacher's version) PDF (teacher's version) EEK1.2.1.3 Wind speed required to start a wind turbine turning
PDF (teacher's version) PDF (teacher's version) EEK1.2.2.1 Effect of wind direction (qualitative)
PDF (teacher's version) PDF (teacher's version) EEK1.2.2.2 Effect of wind direction (quantitative) (additional exercise: comparison with cosine function)
PDF (teacher's version) PDF (teacher's version) EEK1.2.3.1 Effect of the number of vanes on a wind generator (qualitative)
PDF (teacher's version) PDF (teacher's version) EEK1.2.3.2 Effect of the number of vanes on a wind generator (quantitative)
PDF (teacher's version) PDF (teacher's version) EEK1.2.4.1 Effect of the pitch angle of the vanes (qualitative)
PDF (teacher's version) PDF (teacher's version) EEK1.2.4.2 Effect of the pitch angle of the vanes (quantitative)
PDF (teacher's version) PDF (teacher's version) EEK1.2.5.1 Effect of the shape of the vanes (qualitative)
PDF (teacher's version) PDF (teacher's version) EEK1.2.5.2 Effect of the shape of the vanes (quantitative)
PDF (teacher's version) PDF (teacher's version) EEK1.3.1.0 Design of a reversible fuel cell
PDF (teacher's version) PDF (teacher's version) EEK1.3.1.1 How an electrolyser works
PDF (teacher's version) PDF (teacher's version) EEK1.3.1.2 How a fuel cell works
PDF (teacher's version) PDF (teacher's version) EEK1.3.2.1 Use of wind energy with reversible fuel cell
PDF (teacher's version) PDF (teacher's version) EEK1.3.2.2 Use of wind energy with reversible fuel cell
PDF (teacher's version) PDF (teacher's version) EEK1.3.3.1 Characteristic for an electrolyser
PDF (teacher's version) PDF (teacher's version) EEK1.3.3.2 How gas volume depends on current through the electrolyser and on time (Additional exercise: Determination of Faraday constant)
PDF (teacher's version) PDF (teacher's version) EEK1.3.3.3 Determination of Faraday constant with the electrolyser (Additional exercise: Determination of Faraday efficiency)
PDF (teacher's version) PDF (teacher's version) EEK1.3.3.4 Estimation of energy content of hydrogen gas with the electrolyser (Additional exercise: Determination of energy efficiency)
Print page

Contact Us

Technical Service & Support:

Online Service Portal
Do you have any questions or suggestions regarding our devices, products, experiments, equipment sets or about our software? You need spare parts? FORM

Repair Service
You would like to register a repair? FORM

Europe
For European distributors, please visit: European distributors
Worldwide requests
Please contact us per email: sales@ld-didactic.de

 Click here for our contact form and postal address.

Contact Us