[posts/diy-uv-pcb-exposure-unit] Added new post

public/en/posts/index.xml

@@ -6,8 +6,15 @@
     <description>Recent content in Posts on Privacynerd&#39;s blog</description>
     <generator>Hugo</generator>
     <language>en</language>
-    <lastBuildDate>Sun, 13 Apr 2025 15:10:20 +0200</lastBuildDate>
+    <lastBuildDate>Mon, 14 Apr 2025 08:11:20 +0200</lastBuildDate>
     <atom:link href="https://blog.privacynerd.de/en/posts/index.xml" rel="self" type="application/rss+xml" />
+    <item>
+      <title>Self-built UV exposure unit (LED)</title>
+      <link>https://blog.privacynerd.de/en/posts/diy-uv-pcb-exposure-unit/</link>
+      <pubDate>Mon, 14 Apr 2025 08:11:20 +0200</pubDate>
+      <guid>https://blog.privacynerd.de/en/posts/diy-uv-pcb-exposure-unit/</guid>
+      <description>&lt;p&gt;If you&amp;rsquo;ve been around the (electronics) DIY scene for a while, at some point you can&amp;rsquo;t avoid circuit boards (printed circuit boards/PCBs).&#xA;The main advantages over soldering circuits by hand on perforated or strip-grid boards are that they are easier to replicate (once designed&#xA;a circuit can theoretically be produced as often as you like) and that space can be used more efficiently&#xA;(a board is almost always smaller than a soldered perforated grid board with the same circuit). Ultimately,&#xA;devices with circuit boards also simply look more professional. There are certainly more advantages (and of course&#xA;also disadvantages!), but I will not list them here for the sake of simplicity.&lt;/p&gt;</description>
+    </item>
     <item>
       <title>How everything began - or: the first post!</title>
       <link>https://blog.privacynerd.de/en/posts/how-it-all-began/</link>