Everycircuit Manual ★

[ \mathbfG \cdot \mathbfv(t+\Delta t) = \mathbfi(t) + \mathbfC \cdot \frac\mathbfv(t)\Delta t ]

Elliot Voss never set out to write a sacred text. He was a senior engineering fellow at a faded Silicon Valley R&D lab, tasked with documenting a new piece of educational software called EveryCircuit . It was a sandbox for electrons: drag a resistor, drop a capacitor, watch the little yellow dots (current) flow in real time. A digital ohm-meter for the iPad generation. everycircuit manual

Just like in real life, pushing too much current through a component can cause "simulated" damage or yield unrealistic results. Always calculate your power dissipation ( [ \mathbfG \cdot \mathbfv(t+\Delta t) = \mathbfi(t) +

The main "digital breadboard" with a built-in grid where you place and connect components. Examples (Library): A digital ohm-meter for the iPad generation

The workspace is designed with a minimalist, touch-friendly interface centered around a grid-based canvas. Upon launching the application, users are presented with a primary toolbar that houses the component library, a trash icon for deletions, and a settings menu. To build a circuit, components are dragged from the top menu onto the grid. Connections are made by tapping a component’s terminal and dragging a wire to another node. The software’s "breadcrumb" navigation allows users to organize projects into folders or share them with the global EveryCircuit community, a unique social feature that provides a repository of thousands of community-built designs for study.