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messageStyle: "none", messageStyle: "none",
TeX : { extensions : ['color.js'] } TeX : { extensions : ['color.js'] }
}); });
</script></head><body class="impress-not-supported"><div id="impress-help"></div><div class="header"><p>Soilpunk &#x1F30F;&#x1F918; - Joulethief</p></div><div id="impress"><div class="step step-level-1" step="0" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="0" data-y="0" data-z="0"><h1 id="soilpunk-joulethief">Soilpunk - Joulethief</h1><p>This document is viewable as <a href="https://github.com/hackersanddesigners/soilpunk_joulethief_slides/blob/master/slides.rst">a webpage</a> or as <a href="https://hackersanddesigners.github.io/soilpunk_joulethief_slides/html_output/index.html">a slideshow</a></p></div><div class="step step-level-1" step="1" id="joulethief" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="1600" data-y="0" data-z="0"><h1 id="joulethief">Joulethief</h1><img src="./assets/images/joulethief_simple.jpeg"></img></div><div class="step step-level-1" step="2" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="3200" data-y="0" data-z="0"><h1 id="transistor">Transistor</h1><img src="./assets/images/transistor.png" width="300"></img><img src="./assets/images/analogi-transistor-87050130.gif" width="500"></img><p>Water analogy: the little bit of water from B to E opens the gate for the bigger flow from C to E</p></div><div class="step step-level-1" step="3" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="4800" data-y="0" data-z="0"><h1 id="joulethief-1">Joulethief</h1><img src="./assets/images/joulethief.jpeg"></img></div><div class="step step-level-1" step="4" id="joulethief-step1" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="6400" data-y="0" data-z="0"><h1 id="joulethief-2">Joulethief</h1><img src="./assets/images/joulethief_1.png"></img><p>A small current flows from the battery through the coil and the base-emitter path of the transistor. This opens the emittor-collector path of the transistor.</p></div><div class="step step-level-1" step="5" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="8000" data-y="0" data-z="0"><h1 id="joulethief-3">Joulethief</h1><img src="./assets/images/joulethief_2.png"></img><p>Electricity is now able to travel through the second coil and through the collector-emitter channel of the transistor.</p></div><div class="step step-level-1" step="6" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="9600" data-y="0" data-z="0"><h1 id="joulethief-4">Joulethief</h1><img src="./assets/images/joulethief_3.png"></img><p>The increasing amount of electricity through the second coil generates a negative voltage in the first coil. </script></head><body class="impress-not-supported"><div id="impress-help"></div><div class="header"><p>Soilpunk &#x1F30F;&#x1F918; - Joulethief</p></div><div id="impress"><div class="step step-level-1" step="0" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="0" data-y="0" data-z="0"><h1 id="soilpunk-joulethief">Soilpunk - Joulethief</h1><p>This document is viewable as <a href="https://github.com/hackersanddesigners/soilpunk_joulethief_slides/blob/master/slides.rst">a webpage</a> or as <a href="https://hackersanddesigners.github.io/soilpunk_joulethief_slides/html_output/index.html">a slideshow</a></p></div><div class="step step-level-1" step="1" id="joulethief" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="1600" data-y="0" data-z="0"><h1 id="joulethief">Joulethief</h1><img src="./assets/images/joulethief_simple.jpeg"></img></div><div class="step step-level-1" step="2" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="3200" data-y="0" data-z="0"><h1 id="transistor">Transistor</h1><img src="./assets/images/transistor.png" width="300"></img><img src="./assets/images/analogi-transistor-87050130.gif" width="500"></img><p>Water analogy: the little bit of water from B to E opens the gate for the bigger flow from C to E</p></div><div class="step step-level-1" step="3" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="4800" data-y="0" data-z="0"><h1 id="joulethief-1">Joulethief</h1><img src="./assets/images/joulethief.jpeg"></img></div><div class="step step-level-1" step="4" id="joulethief-step1" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="6400" data-y="0" data-z="0"><h1 id="joulethief-2">Joulethief</h1><img src="./assets/images/joulethief_1.png"></img><p>A small current flows from the battery through the coil and the base-emitter path of the transistor. This opens the emittor-collector path of the transistor.</p></div><div class="step step-level-1" step="5" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="8000" data-y="0" data-z="0"><h1 id="joulethief-3">Joulethief</h1><img src="./assets/images/joulethief_2.png"></img><p>Electricity is now able to travel through the second coil and through the collector-emitter channel of the transistor.</p></div><div class="step step-level-1" step="6" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="9600" data-y="0" data-z="0"><h1 id="joulethief-4">Joulethief</h1><img src="./assets/images/joulethief_3.png"></img><p>The increasing amount of electricity through the second coil generates a negative voltage in the first coil, which cause the transistor to close.</p></div><div class="step step-level-1" step="7" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="11200" data-y="0" data-z="0"><h1 id="joulethief-5">Joulethief</h1><img src="./assets/images/joulethief_4.png"></img><p>With the transistor closed the energy starts to flow through the output (led).</p></div><div class="step step-level-1" step="8" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="12800" data-y="0" data-z="0"><h1 id="joulethief-6">Joulethief</h1><img src="./assets/images/joulethief_5.png"></img><p>The inductor is now powered by the magnetic field of the coil.</p></div><div class="step step-level-1" step="9" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="14400" data-y="0" data-z="0"><h1 id="joulethief-7">Joulethief</h1><img src="./assets/images/joulethief_6.png"></img><p>When the magnetic field is gone, the whole process <a href="#joulethief-step1">starts over</a>.</p></div><div class="step step-level-1" step="10" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="16000" data-y="0" data-z="0"><h1 id="joulethief-8">Joulethief</h1><p>A more detailed explanation can be found on <a href="https://www.instructables.com/Joule-Thief-Circuit-How-to-Make-and-Circuit-Explan/">instructables</a></p></div><div class="step step-level-1" step="11" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="17600" data-y="0" data-z="0"><h1 id="led">Led</h1><img src="./assets/images/led_polarity.png"></img><p>Make sure to get the LED polarity right. Short leg goes to ground!</p></div><div class="step step-level-1" step="12" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="19200" data-y="0" data-z="0"><h1 id="circuit">Circuit</h1><img src="./assets/images/circuit.png"></img><p><a href="https://github.com/hackersanddesigners/Soilpunk_joulethief">https://github.com/hackersanddesigners/Soilpunk_joulethief</a></p></div></div><script type="text/javascript" src="js/impress.js"></script><script type="text/javascript" src="js/gotoSlide.js"></script><script type="text/javascript" src="js/hovercraft.js"></script></body></html>
An negative voltage is induced in the first coil, which cause the transistor to close.</p></div><div class="step step-level-1" step="7" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="11200" data-y="0" data-z="0"><h1 id="joulethief-5">Joulethief</h1><img src="./assets/images/joulethief_4.png"></img><p>With the transistor closed the energy starts to flow through the output (led).</p></div><div class="step step-level-1" step="8" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="12800" data-y="0" data-z="0"><h1 id="joulethief-6">Joulethief</h1><img src="./assets/images/joulethief_5.png"></img><p>The inductor is now powered by the magnetic field of the coil.</p></div><div class="step step-level-1" step="9" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="14400" data-y="0" data-z="0"><h1 id="joulethief-7">Joulethief</h1><img src="./assets/images/joulethief_6.png"></img><p>When the magnetic field is gone, the whole process <a href="#joulethief-step1">starts over</a>.</p></div><div class="step step-level-1" step="10" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="16000" data-y="0" data-z="0"><h1 id="joulethief-8">Joulethief</h1><p>A more detailed explanation can be found on <a href="https://www.instructables.com/Joule-Thief-Circuit-How-to-Make-and-Circuit-Explan/">instructables</a></p></div><div class="step step-level-1" step="11" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="17600" data-y="0" data-z="0"><h1 id="led">Led</h1><img src="./assets/images/led_polarity.png"></img><p>Make sure to get the LED polarity right. Short leg goes to ground!</p></div><div class="step step-level-1" step="12" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="19200" data-y="0" data-z="0"><h1 id="circuit">Circuit</h1><img src="./assets/images/circuit.png"></img><p><a href="https://github.com/hackersanddesigners/Soilpunk_joulethief">https://github.com/hackersanddesigners/Soilpunk_joulethief</a></p></div></div><script type="text/javascript" src="js/impress.js"></script><script type="text/javascript" src="js/gotoSlide.js"></script><script type="text/javascript" src="js/hovercraft.js"></script></body></html>

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messageStyle: "none", messageStyle: "none",
TeX : { extensions : ['color.js'] } TeX : { extensions : ['color.js'] }
}); });
</script></head><body class="impress-not-supported"><div id="impress-help"></div><div class="header"><p>Soilpunk &#x1F30F;&#x1F918; - Joulethief</p></div><div id="impress"><div class="step step-level-1" step="0" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="0" data-y="0" data-z="0"><h1 id="soilpunk-joulethief">Soilpunk - Joulethief</h1><p>This document is viewable as <a href="https://github.com/hackersanddesigners/soilpunk_joulethief_slides/blob/master/slides.rst">a webpage</a> or as <a href="https://hackersanddesigners.github.io/soilpunk_joulethief_slides/html_output/index.html">a slideshow</a></p></div><div class="step step-level-1" step="1" id="joulethief" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="1600" data-y="0" data-z="0"><h1 id="joulethief">Joulethief</h1><img src="./assets/images/joulethief_simple.jpeg"></img></div><div class="step step-level-1" step="2" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="3200" data-y="0" data-z="0"><h1 id="transistor">Transistor</h1><img src="./assets/images/transistor.png" width="300"></img><img src="./assets/images/analogi-transistor-87050130.gif" width="500"></img><p>Water analogy: the little bit of water from B to E opens the gate for the bigger flow from C to E</p></div><div class="step step-level-1" step="3" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="4800" data-y="0" data-z="0"><h1 id="joulethief-1">Joulethief</h1><img src="./assets/images/joulethief.jpeg"></img></div><div class="step step-level-1" step="4" id="joulethief-step1" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="6400" data-y="0" data-z="0"><h1 id="joulethief-2">Joulethief</h1><img src="./assets/images/joulethief_1.png"></img><p>A small current flows from the battery through the coil and the base-emitter path of the transistor. This opens the emittor-collector path of the transistor.</p></div><div class="step step-level-1" step="5" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="8000" data-y="0" data-z="0"><h1 id="joulethief-3">Joulethief</h1><img src="./assets/images/joulethief_2.png"></img><p>Electricity is now able to travel through the second coil and through the collector-emitter channel of the transistor.</p></div><div class="step step-level-1" step="6" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="9600" data-y="0" data-z="0"><h1 id="joulethief-4">Joulethief</h1><img src="./assets/images/joulethief_3.png"></img><p>The increasing amount of electricity through the second coil generates a negative voltage in the first coil. </script></head><body class="impress-not-supported"><div id="impress-help"></div><div class="header"><p>Soilpunk &#x1F30F;&#x1F918; - Joulethief</p></div><div id="impress"><div class="step step-level-1" step="0" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="0" data-y="0" data-z="0"><h1 id="soilpunk-joulethief">Soilpunk - Joulethief</h1><p>This document is viewable as <a href="https://github.com/hackersanddesigners/soilpunk_joulethief_slides/blob/master/slides.rst">a webpage</a> or as <a href="https://hackersanddesigners.github.io/soilpunk_joulethief_slides/html_output/index.html">a slideshow</a></p></div><div class="step step-level-1" step="1" id="joulethief" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="1600" data-y="0" data-z="0"><h1 id="joulethief">Joulethief</h1><img src="./assets/images/joulethief_simple.jpeg"></img></div><div class="step step-level-1" step="2" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="3200" data-y="0" data-z="0"><h1 id="transistor">Transistor</h1><img src="./assets/images/transistor.png" width="300"></img><img src="./assets/images/analogi-transistor-87050130.gif" width="500"></img><p>Water analogy: the little bit of water from B to E opens the gate for the bigger flow from C to E</p></div><div class="step step-level-1" step="3" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="4800" data-y="0" data-z="0"><h1 id="joulethief-1">Joulethief</h1><img src="./assets/images/joulethief.jpeg"></img></div><div class="step step-level-1" step="4" id="joulethief-step1" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="6400" data-y="0" data-z="0"><h1 id="joulethief-2">Joulethief</h1><img src="./assets/images/joulethief_1.png"></img><p>A small current flows from the battery through the coil and the base-emitter path of the transistor. This opens the emittor-collector path of the transistor.</p></div><div class="step step-level-1" step="5" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="8000" data-y="0" data-z="0"><h1 id="joulethief-3">Joulethief</h1><img src="./assets/images/joulethief_2.png"></img><p>Electricity is now able to travel through the second coil and through the collector-emitter channel of the transistor.</p></div><div class="step step-level-1" step="6" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="9600" data-y="0" data-z="0"><h1 id="joulethief-4">Joulethief</h1><img src="./assets/images/joulethief_3.png"></img><p>The increasing amount of electricity through the second coil generates a negative voltage in the first coil, which cause the transistor to close.</p></div><div class="step step-level-1" step="7" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="11200" data-y="0" data-z="0"><h1 id="joulethief-5">Joulethief</h1><img src="./assets/images/joulethief_4.png"></img><p>With the transistor closed the energy starts to flow through the output (led).</p></div><div class="step step-level-1" step="8" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="12800" data-y="0" data-z="0"><h1 id="joulethief-6">Joulethief</h1><img src="./assets/images/joulethief_5.png"></img><p>The inductor is now powered by the magnetic field of the coil.</p></div><div class="step step-level-1" step="9" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="14400" data-y="0" data-z="0"><h1 id="joulethief-7">Joulethief</h1><img src="./assets/images/joulethief_6.png"></img><p>When the magnetic field is gone, the whole process <a href="#joulethief-step1">starts over</a>.</p></div><div class="step step-level-1" step="10" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="16000" data-y="0" data-z="0"><h1 id="joulethief-8">Joulethief</h1><p>A more detailed explanation can be found on <a href="https://www.instructables.com/Joule-Thief-Circuit-How-to-Make-and-Circuit-Explan/">instructables</a></p></div><div class="step step-level-1" step="11" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="17600" data-y="0" data-z="0"><h1 id="led">Led</h1><img src="./assets/images/led_polarity.png"></img><p>Make sure to get the LED polarity right. Short leg goes to ground!</p></div><div class="step step-level-1" step="12" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="19200" data-y="0" data-z="0"><h1 id="circuit">Circuit</h1><img src="./assets/images/circuit.png"></img><p><a href="https://github.com/hackersanddesigners/Soilpunk_joulethief">https://github.com/hackersanddesigners/Soilpunk_joulethief</a></p></div></div><script type="text/javascript" src="js/impress.js"></script><script type="text/javascript" src="js/gotoSlide.js"></script><script type="text/javascript" src="js/hovercraft.js"></script></body></html>
An negative voltage is induced in the first coil, which cause the transistor to close.</p></div><div class="step step-level-1" step="7" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="11200" data-y="0" data-z="0"><h1 id="joulethief-5">Joulethief</h1><img src="./assets/images/joulethief_4.png"></img><p>With the transistor closed the energy starts to flow through the output (led).</p></div><div class="step step-level-1" step="8" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="12800" data-y="0" data-z="0"><h1 id="joulethief-6">Joulethief</h1><img src="./assets/images/joulethief_5.png"></img><p>The inductor is now powered by the magnetic field of the coil.</p></div><div class="step step-level-1" step="9" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="14400" data-y="0" data-z="0"><h1 id="joulethief-7">Joulethief</h1><img src="./assets/images/joulethief_6.png"></img><p>When the magnetic field is gone, the whole process <a href="#joulethief-step1">starts over</a>.</p></div><div class="step step-level-1" step="10" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="16000" data-y="0" data-z="0"><h1 id="joulethief-8">Joulethief</h1><p>A more detailed explanation can be found on <a href="https://www.instructables.com/Joule-Thief-Circuit-How-to-Make-and-Circuit-Explan/">instructables</a></p></div><div class="step step-level-1" step="11" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="17600" data-y="0" data-z="0"><h1 id="led">Led</h1><img src="./assets/images/led_polarity.png"></img><p>Make sure to get the LED polarity right. Short leg goes to ground!</p></div><div class="step step-level-1" step="12" data-rotate-x="0" data-rotate-y="0" data-rotate-z="0" data-scale="1" data-x="19200" data-y="0" data-z="0"><h1 id="circuit">Circuit</h1><img src="./assets/images/circuit.png"></img><p><a href="https://github.com/hackersanddesigners/Soilpunk_joulethief">https://github.com/hackersanddesigners/Soilpunk_joulethief</a></p></div></div><script type="text/javascript" src="js/impress.js"></script><script type="text/javascript" src="js/gotoSlide.js"></script><script type="text/javascript" src="js/hovercraft.js"></script></body></html>

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slides.rst
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@ -69,8 +69,7 @@ Joulethief
.. image:: ./assets/images/joulethief_3.png .. image:: ./assets/images/joulethief_3.png
The increasing amount of electricity through the second coil generates a negative voltage in the first coil. The increasing amount of electricity through the second coil generates a negative voltage in the first coil, which cause the transistor to close.
An negative voltage is induced in the first coil, which cause the transistor to close.
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