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Africa-focused technology, digital and innovation ecosystem insight and commentary.
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Embedded is the show for people who love gadgets. Making them, breaking them, and everything in between. Weekly interviews with engineers, educators, and enthusiasts. Find the show, blog, and more at embedded.fm.
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The a16z Podcast discusses tech and culture trends, news, and the future – especially as ‘software eats the world’. It features industry experts, business leaders, and other interesting thinkers and voices from around the world. This podcast is produced by Andreessen Horowitz (aka “a16z”), a Silicon Valley-based venture capital firm. Multiple episodes are released every week; visit a16z.com for more details and to sign up for our newsletters and other content as well!
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Hanselminutes is Fresh Air for Developers. A weekly commute-time podcast that promotes fresh technology and fresh voices. Talk and Tech for Developers, Life-long Learners, and Technologists.
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Building Blocks of Solar Part 3
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Inhoud geleverd door The Hack My Solar Podcast. Alle podcastinhoud, inclusief afleveringen, afbeeldingen en podcastbeschrijvingen, wordt rechtstreeks geüpload en geleverd door The Hack My Solar Podcast of hun podcastplatformpartner. Als u denkt dat iemand uw auteursrechtelijk beschermde werk zonder uw toestemming gebruikt, kunt u het hier beschreven proces https://nl.player.fm/legal volgen.
How do Solar Panels work? Solar, or Photovoltaic, Panels work by converting light energy from the sun, or photons, into electricity through the "Photovotaic effect." Interestingly, a French physicist built the first ever photovoltaic cell at 19 years old, in 1839. The first practical photovoltaic cell was demonstrated by Bell Laboratories in 1954 and early on they were primarily used in space. A Solar Panel is a collection of solar cells that are made up of semiconductors. Semiconductors absorb the photons--through a process I wont describe in detail--and cause electrons to be excited and break free to be converted into usable DC electricity. Solar cells are arrangements of silicon "sandwiches" where one layer is activated with boron and the other activated with phosphorus. This helps the charge to be created and directs the free electrons to the wiring that leads to your charge controller. The key to remember here is that its the light energy that is converted to usable electricity, so when siting a group of solar panels, also known as an array, you should do an insolation analysis, which is a fancy phrase for looking at whether or not you are going to have full sun hitting the panels or if there will be shadows cast from structures or vegetation. A part of this analysis will also be determining how much full sun you get in your area and using that information to determine how many panels you need to charge your battery bank. This post is about "how do solar panels work" but now that you have a basic understanding, here are a few things to remember that can reduce to the amount of energy your panels can produce: dust/pollen/leaves, temperature, and wire resistance. If you let your panels get dirty or accumulate leaves or snow, it should be quite obvious that the light cannot reach the covered up cells, which will logically result in less energy production. When your panels heat up, they also become less efficient. Remember above when I discussed the electron becoming excited and breaking free? Well the hotter the cell gets, the less potential there is between the different electrons because the ones that are at rest are already a little "excited" because they are hot. As a matter of fact when sunlight shines in through your window and heats the air in your house, this is specifically due to excited particles, and its no different with a solar panel. We will discuss wire sizing in more detail in another post, but remember that current is measured in amps, and wire resistance simply means that smaller wires cannot handle high amps. This is why we use ideas such as stepping up voltage the reduce the number of amps required to move the same amount of energy. Amps x Volts always equals Watts so increasing one number always decreases the other.
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Gearchiveerde serie ("Inactieve feed" status)
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Why? Inactieve feed status. Onze servers konden geen geldige podcast feed ononderbroken ophalen.
What now? You might be able to find a more up-to-date version using the search function. This series will no longer be checked for updates. If you believe this to be in error, please check if the publisher's feed link below is valid and contact support to request the feed be restored or if you have any other concerns about this.
Manage episode 215088728 series 2421205
Inhoud geleverd door The Hack My Solar Podcast. Alle podcastinhoud, inclusief afleveringen, afbeeldingen en podcastbeschrijvingen, wordt rechtstreeks geüpload en geleverd door The Hack My Solar Podcast of hun podcastplatformpartner. Als u denkt dat iemand uw auteursrechtelijk beschermde werk zonder uw toestemming gebruikt, kunt u het hier beschreven proces https://nl.player.fm/legal volgen.
How do Solar Panels work? Solar, or Photovoltaic, Panels work by converting light energy from the sun, or photons, into electricity through the "Photovotaic effect." Interestingly, a French physicist built the first ever photovoltaic cell at 19 years old, in 1839. The first practical photovoltaic cell was demonstrated by Bell Laboratories in 1954 and early on they were primarily used in space. A Solar Panel is a collection of solar cells that are made up of semiconductors. Semiconductors absorb the photons--through a process I wont describe in detail--and cause electrons to be excited and break free to be converted into usable DC electricity. Solar cells are arrangements of silicon "sandwiches" where one layer is activated with boron and the other activated with phosphorus. This helps the charge to be created and directs the free electrons to the wiring that leads to your charge controller. The key to remember here is that its the light energy that is converted to usable electricity, so when siting a group of solar panels, also known as an array, you should do an insolation analysis, which is a fancy phrase for looking at whether or not you are going to have full sun hitting the panels or if there will be shadows cast from structures or vegetation. A part of this analysis will also be determining how much full sun you get in your area and using that information to determine how many panels you need to charge your battery bank. This post is about "how do solar panels work" but now that you have a basic understanding, here are a few things to remember that can reduce to the amount of energy your panels can produce: dust/pollen/leaves, temperature, and wire resistance. If you let your panels get dirty or accumulate leaves or snow, it should be quite obvious that the light cannot reach the covered up cells, which will logically result in less energy production. When your panels heat up, they also become less efficient. Remember above when I discussed the electron becoming excited and breaking free? Well the hotter the cell gets, the less potential there is between the different electrons because the ones that are at rest are already a little "excited" because they are hot. As a matter of fact when sunlight shines in through your window and heats the air in your house, this is specifically due to excited particles, and its no different with a solar panel. We will discuss wire sizing in more detail in another post, but remember that current is measured in amps, and wire resistance simply means that smaller wires cannot handle high amps. This is why we use ideas such as stepping up voltage the reduce the number of amps required to move the same amount of energy. Amps x Volts always equals Watts so increasing one number always decreases the other.
…
continue reading
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Overeenkomstig met The Hack My Solar Podcast
Show notes are at https://stevelitchfield.com/sshow/chat.html
…
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Africa-focused technology, digital and innovation ecosystem insight and commentary.
…
continue reading
Embedded is the show for people who love gadgets. Making them, breaking them, and everything in between. Weekly interviews with engineers, educators, and enthusiasts. Find the show, blog, and more at embedded.fm.
…
continue reading
The a16z Podcast discusses tech and culture trends, news, and the future – especially as ‘software eats the world’. It features industry experts, business leaders, and other interesting thinkers and voices from around the world. This podcast is produced by Andreessen Horowitz (aka “a16z”), a Silicon Valley-based venture capital firm. Multiple episodes are released every week; visit a16z.com for more details and to sign up for our newsletters and other content as well!
…
continue reading
Hanselminutes is Fresh Air for Developers. A weekly commute-time podcast that promotes fresh technology and fresh voices. Talk and Tech for Developers, Life-long Learners, and Technologists.
…
continue reading
The director’s commentary track for Daring Fireball. Long digressions on Apple, technology, design, movies, and more.
…
continue reading
Mobile-tech talk and lame jokes from the informative yet unrefined team at Pocketnow. Covering smartphones, tablets, wearables and other gadgets you dreamed of owning when you were young. Stitcher Award winner: Best Technology Podcast, 2013
…
continue reading
DNA science. Artificial intelligence. Smartphones and 3D printers. Science and technology have transformed the world we live in. But how did we get here? It wasn’t by accident. Well, sometimes it was. It was also the result of hard work, teamwork, and competition. And incredibly surprising moments. Hosted by bestselling author Steven Johnson (“How We Got To Now”), American Innovations uses immersive scenes to tell the stories of the scientists, engineers, and ordinary people behind the great ...
…
continue reading
A podcast featuring panelists of engineers from Netflix, Twitch, & Atlassian talking over drinks about all things software engineering.
…
continue reading
The podcast about Python and the people who make it great
…
continue reading
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