Simplified, cost-effective testing of EV batteries and fuel cells with regenerative DC electronic loads, and bidirectional DC power supplies that incorporate them, can return up to 96% of the energy absorbed by the load to the power grid. This energy-conscious approach to test saves utility costs and HVAC costs, reduces cooling fan size and noise, reduces cooling infrastructure for high power instruments and reduces overall impact on the test environment and the larger environment as a whole. Register for the webinar to learn more.
The webinar, hosted by Charged on Tuesday, August 17th, 2021 at 1 pm EDT, will include a live Q&A session.
Simplified, cost-effective testing of EV batteries and fuel cells with regenerative DC electronic loads, and bidirectional DC power supplies that incorporate them, can return up to 96% of the energy absorbed by the load to the power grid. This energy-conscious approach to test saves utility costs and HVAC costs, reduces cooling fan size and noise,… Read more »
Simplified, cost-effective testing of EV batteries and fuel cells with regenerative DC electronic loads, and bidirectional DC power supplies that incorporate them, can return up to 96% of the energy absorbed by the load to the power grid. This energy-conscious approach to test saves utility costs and HVAC costs, reduces cooling fan size and noise, reduces cooling infrastructure for high power instruments and reduces overall impact on the test environment and the larger environment as a whole. Register for the webinar to learn more.
The webinar, hosted by Charged on Tuesday, August 17th, 2021 at 1 pm EDT, will include a live Q&A session.
Simplified, cost-effective testing of EV batteries and fuel cells with regenerative DC electronic loads, and bidirectional DC power supplies that incorporate them, can return up to 96% of the energy absorbed by the load to the power grid. This energy-conscious approach to test saves utility costs and HVAC costs, reduces cooling fan size and noise,… Read more »