SimulIDE: A Simple Real-Time Electronic Circuit Simulator

Introduction:

SimulIDE is a simple real-time electronic circuit simulator designed for enthusiasts or students to learn and experiment with simple electronic circuits and microcontrollers. It also features a code editor and debugger for GcBasic, Arduino, PIC, and AVR.It theoretically meets the basic simulation requirements for digital and analog electronics; the entire tool’s operation logic is very intuitive and easy to use, making the process of building circuits similar to drawing circuit schematics.

You can create, simulate circuits, and interact with them in just a few minutes by dragging components from the list, placing them in the circuit, connecting them, and pressing the power button to see how they work.SimulIDE has integrated the Arduino compilation and debugging environment, allowing you not only to build circuits but also to write Arduino code and run it. The software includes many electronic components that can be freely called, such as keyboards, LED matrices, LCD displays, stepper motors, and logic gate controllers. Probes can be added at any position in the circuit simulation, allowing you to add voltmeters, ammeters, or oscilloscopes.

Features:

• Free

• Event-driven simulation engine construction with an accuracy of 1ps

• There is no separation between digital and analog modes; everything runs in simulation mode, meaning logic pins have configurable impedance, output voltage, LH and HL thresholds, allowing simulation of fan/fan outputs and different logic series implementations.

• Multiple methods to create custom components, such as subcircuits, modular components, and scripting-based components, with several modules available for communication, memory, display, and console.

• Primitive, modular, and scripted components can also be linked and combined in different ways to create subcircuits for more complex components and logic subcircuits.

• Supports various microcontrollers and CPUs, with a monitor to observe registers, variables, PC, status bits, RAM, ROM, and PGM.

• Can be edited, compiled, uploaded, and debugged using almost any compiler through configuration files.

Steps:

1. Download SimulIDE, plug and play 2. Select the simulated chip (atmega168p), draw the circuit 3. Open the written program file (.c) “blinkLed.c” 4. Set the compiler 5. Compile + upload, click the simulation switch, and observe the simulation results.

Resource links: Take them below, don’t forget to give a thumbs up!

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