For the grand finale, add a (K1) to your QET schematic. Connect its activation threshold to the G-Force data.
In this tutorial, we are not building a simple music player. We are building an electro-acoustic synesthesia engine —a real-time electronic schematic that listens to your music and uses G-Force’s particle waves to visualize the current flowing through your virtual circuits.
For more information on how to integrate QElectroTech into your daily workflows, you can view the QElectroTech Tutorial 01 Introduction on YouTube .
: Add text annotations listing common fault codes (e.g., 7219, 4005 for low voltage; 11009 for handle tare required). g force qelectrotech tutorial
This comprehensive tutorial will guide you through creating, configuring, and utilizing a custom G-force sensor symbol within QElectroTech. Prerequisites Before starting, ensure you have the following setup:
Set the line thickness to standard (1px or 2px) and keep the fill color transparent or solid white. 2. Add the Visual Anchor Text Select the ( T ). Click inside the center of your rectangle. Type a uppercase G or G-Force .
A sidebar containing a library of over 8,000 symbols (switches, batteries, lamps) organized by category. For the grand finale, add a (K1) to your QET schematic
To make your schematic clear for field technicians and assembly lines, configure the component properties correctly.
Open QElectroTech. We aren't making a normal diagram. We are making a .
Organize text, components, and wires on different layers for easier editing. We are building an electro-acoustic synesthesia engine —a
Navigate the QET Collection tree to find your component (e.g., Components -> Three-phase motors or Switchgear ). Drag and drop the element onto the drawing workspace.
Before launching into the circuit design, ensure your QElectroTech workspace is properly configured for industrial control standards.
One of QElectroTech's standout features is its ability to create custom elements.