Found at the bottom or side, featuring the Play/Pause button, simulation speed slider, and workspace settings.
Perfect for building active filters, comparators, and amplifiers.
The central area where you drag and drop components.
EveryCircuit transforms the often abstract world of electronics into an interactive, visual, and engaging experience. From its real‑time simulation engine to its intuitive schematic editor and powerful analysis tools, it is a must‑have application for anyone seeking to understand how electronic circuits work. everycircuit manual
One of EveryCircuit's standout capabilities is its ability to simulate analog and digital components together in one circuit. Mini-waveforms appear on top of schematic wires, with different visual cues distinguishing analog signals from digital ones. Digital wires are color-coded, while constant analog voltages display as numbers.
In the crowded world of Electronic Design Automation (EDA) tools, most software falls into two categories: expensive, complex professional suites (like SPICE or Altium) or static, textbook-style simulators. breaks this mold. It is an interactive, real-time, gamified simulation engine designed for mobile devices and web browsers.
To access an example, tap the book icon in the left sidebar, choose a circuit, and then tap the play button to watch it come alive. Found at the bottom or side, featuring the
When placing a BJT, ensure you correctly identify the Base (middle), Collector (top/bottom pin without arrow), and Emitter (pin with the arrow indicating current direction).
EveryCircuit can solve circuits quickly, so you can verify your homework and pre‑lab answers. Superposition, nodal analysis, and mesh current analysis are all supported. One recommended circuit demonstrates voltage nodal analysis, allowing you to adjust resistor and voltage source values while watching node voltages update in real time.
If you want to dive deeper into a specific circuit configuration, tell me: Mini-waveforms appear on top of schematic wires, with
The hallmark of EveryCircuit is its animated visualization. Current flows are shown as moving dots, with direction and speed indicating magnitude. Voltage levels are color‑coded: red for high voltage, blue for low voltage. Capacitor charges are animated, making transient behavior intuitive.
The wires themselves will change color or brightness based on voltage. Green usually represents positive voltage, while gray or black represents ground/zero voltage.