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diff --git a/_site/archive/mosfet-switches/index.html b/_site/archive/mosfet-switches/index.html deleted file mode 100644 index 902d813..0000000 --- a/_site/archive/mosfet-switches/index.html +++ /dev/null @@ -1,173 +0,0 @@ -<!DOCTYPE html> -<html> - <head> - <meta charset="utf-8"> - <title>MOSFETs as electronic switches</title> - - <head> - <meta charset="utf-8"> - <meta name="viewport" content="width=device-width, initial-scale=1"> - <title>MOSFETs as electronic switches</title> - <link rel="stylesheet" href="/assets/css/main.css"> - <link rel="stylesheet" href="/assets/css/skeleton.css"> -</head> - - - - </head> - <body> - - <div id="nav-container" class="container"> - <ul id="navlist" class="left"> - - <li > - <a href="/" class="link-decor-none">hme</a> - </li> - <li class="active"> - <a href="/archive/" class="link-decor-none">blg</a> - </li> - <li > - <a href="/projects/" class="link-decor-none">poc</a> - </li> - <li > - <a href="/about/" class="link-decor-none">abt</a> - </li> - <li><a href="/feed.xml" class="link-decor-none">rss</a></li> - </ul> -</div> - - - - <main> - <div class="container"> - <div class="container-2"> - <h2 class="center" id="title">MOSFETS AS ELECTRONIC SWITCHES</h2> - <h6 class="center">22 JUNE 2025</h5> - <br> - <div class="twocol justify"><p>Recently, I needed a low-power circuit for one of my battery-operated projects. -Much of the system’s power savings depended on its ability to electronically -switch off components, such as servos, that draw high levels of quiescent -currents. My search for a solution led me to MOSFETs, transistors capable of -controlling circuits operating at voltages far above their own.</p> - -<h2 id="acknowledgments">Acknowledgments</h2> - -<p>This article is a summary of what I learnt about using MOSFETs as switches. -I’m not an electronics engineer, and this is not an authoritative guide. The -circuits in this post must be considered within the narrow context in which -I’ve used them. All credits for the schematics belong to <a href="https://electronics.stackexchange.com/users/292884/simon-fitch" class="external" target="_blank" rel="noopener noreferrer">Simon Fitch</a>.</p> - -<h2 id="preamble">Preamble</h2> - -<p>For a typical MOSFET-based switch, we can connect a GPIO pin of a -microcontroller to the gate of a logic-level N-channel MOSFET placed on the low -side of the load and tie the gate and the drain pins of the MOSFET with a -pull-down resistor. This would work as long as the power supplies of the -microcontroller and the load don’t share a common ground. Things become more -complicated when they do (e.g., controlling power to a component driven by the -same microcontroller).</p> - -<p>In that scenario, the source potential visible to the load is the difference -between the gate and the threshold potentials of the MOSFET. For example, when -the gate and the threshold potentials are 3.3 V and 1.5 V, the potential the -load sees is 1.8 V. So, to use a low-side N-channel MOSFET, we need the gate -potential to be higher than the source potential, which may not always be -practical. The alternative would be a hide-side switch.</p> - -<h2 id="p-channel-high-side-switch">P-channel high-side switch</h2> - -<p>The following schematic shows how a high-side P-channel MOSFET (M1) could -switch power to a 6 V servo driven by a 3.3 V MCU.</p> - -<p><img src="p_high_side.png" alt="P-channel high-side switching circuit" /></p> - -<p>When the microcontroller outputs low, the M2 N-channel MOSFET stops conducting. -The R1 resistor pulls the gate of the M1 P-channel MOSFET up to +6 V, switching -the servo off. When the microcontroller outputs high on the GPIO pin, M2’s -source-drain connection starts conducting, causing M1’s gate potential to drop -to 0 V, which switches on power to the servo.</p> - -<h2 id="n-channel-high-side-switch">N-channel high-side switch</h2> - -<p>The P-channel high-side switch would be the typical architecture for our use -case. However, if we have access to a potential high enough to safely raise the -gate potential above the threshold such that their difference outputs the source -potential required to drive the load, we can switch on the high side using an -N-channel MOSFET:</p> - -<p><img src="n_high_side.png" alt="N-channel high-side switching circuit" /></p> - -<p>In the schematic, both M1 and M2 are N-channel MOSFETs. When the -microcontroller output is low, M2 stops conducting. This causes the M1’s gate -potential to rise above the threshold, turning the servo on. Conversely, a high -output on the GPIO line switches M2 on, which lowers M1’s gate potential. This -switches the servo off. The R2 pull-up resistor prevents the high impedance of -the output pins at power-up from switching the servo on.</p> - -<p>Both topologies require M2 to act as a level converter between circuits -containing the microcontroller and the servo, converting between 0 V and +6 V -or +9 V. M2 is a low-power signal converter carrying less than a milliamp of -current. The gate-source threshold voltage of M2 must be lower than the MCU’s -supply voltage. 2N7000, 2N7002, and BSS138 are popular choices for M2.</p> - -<p>The D1 flyback diodes used in the two topologies safeguard the MOSFET from -voltage spikes caused by inductive loads such as servos.</p> - -<h2 id="a-bjt-alternative">A BJT alternative</h2> - -<p>A Bipolar Junction Transistor (BJT) is a simpler, cheaper, and more widely -available type of transistor that can be used as a switch.</p> - -<p><img src="bjt.png" alt="BJT architecture" /></p> - -<p>In the schematic, when the MCU outputs high, Q2 starts conducting. Q2 amplifies -Q1’s base current. Unlike MOSFETs, which are voltage-driven, BJTs are driven by -base current. Resistors R3 and R4 must be chosen carefully to output the -desired base currents. <a href="https://teachmetomake.wordpress.com/how-to-use-a-transistor-as-a-switch/" class="external" target="_blank" rel="noopener noreferrer">“How to choose a -transistor as a switch”</a> is an excellent guide on using BJTs as electronic -switches.</p> - -<h2 id="which-topology-to-choose">Which topology to choose?</h2> - -<p>The professional community appears to prefer MOSFETs over BJTs. MOSFETs are -more efficient when the switch is on. However, they are more challenging to -drive, especially with a 3.3 V MCU, due to the V<sub>GS</sub> potentials -required to achieve specified R<sub>DS(on)</sub> values (i.e., to turn them on -fully).</p> - -<p>N-channel MOSFETs have lower on-resistance values, making them more efficient -than P-channel ones. They are also cheaper. However, they are harder to drive -on the high side as their gate potential must be higher than the source -potential. This often requires extra circuitry such as MOSFET drivers.</p> - -<h2 id="further-reading">Further reading</h2> - -<ul> - <li><a href="https://www.embeddedrelated.com/showarticle/98.php" class="external" target="_blank" rel="noopener noreferrer">Different MOSFET -topologies</a></li> - <li><a href="https://www.embeddedrelated.com/showarticle/809.php" class="external" target="_blank" rel="noopener noreferrer">How to read -MOSFET datasheets</a></li> - <li><a src="https://teachmetomake.wordpress.com/how-to-use-a-transistor-as-a-switch/" class="external" target="_blank" rel="noopener noreferrer">How to use a -transistor as a switch</a></li> - <li><a src="https://forum.digikey.com/t/guide-to-selecting-and-controlling-a-mosfet-for-3-3-vdc-logic-applications/42606" class="external" target="_blank" rel="noopener noreferrer">Guide to -selecting and controlling a MOSFET for 3.3 VDC logic applications</a></li> - <li><a src="https://forum.digikey.com/t/driving-a-large-relay-from-a-3-3-vdc-microcontroller-using-an-npn-darlington-transistor/41751" class="external" target="_blank" rel="noopener noreferrer">Driving a large -relay from a 3.3 VDC microcontroller using an NPN Darlington transistor</a></li> -</ul> -</div> - <p class="post-author right">by W. D. Sadeep Madurange</p> - </div> - </div> - </main> - - <div class="footer"> - <div class="container"> - <div class="twelve columns right container-2"> - <p id="footer-text">© ASCIIMX - 2025</p> - </div> - </div> -</div> - - - </body> -</html> |