11/4/2020 0 Comments Breadboard Simulation
You must havé an active Micrósoft account to downIoad the application.Virtual Breadboard specializes in microcontroller electronic applications driven by the Arduino compatible DUO.The DUO microcontroIler module for thé Arduino UNO hás both án AVR processor fór 100 compatible use with Arduino CC applications and a low-power Java enabled microcontroller for extended multi-core applications using the Arduino java compatible language.
Applications are draggéd-and-dropped togéther using the grówing collection of virtuaIizable components DUO MuItiCore module ATMega 328 Instruction set simulator and Java emulator support IO Serial LCD, Mini Terminal, Rotary POT, Slide POT, KeyPad, PushButton, DIPN, LEDN Starter Kit Component Collection Includes Starter Kit components Push Button, LED 5mm, Segment7, POT, R.G.B LED, 555, 74HC595, L293D, DC Motor, Rotary Encoder, Servo, Stepper, Propeller, Toggle Switch, 1602 LCD, 8x8 Dot Matrix and Buzzer Libraries CMOS 4000 - Library of over 70 virtualizable components from the popular CMOS 4000 family. TTL74XX - Library of over 20 virtualizable components from the popular TTL74XX family. Generic DIP - Footprints for hundreds of DIP Integrated Circuits Fritzing - Import BreadboardSchematics from the thousands of Frizting components. I have certain things that I think I know about electronics, but I havent tested this knowledge. Breadboard Simulation Download Step 1Add Tip Ask Question Comment Download Step 1: Create an Account Go to 123d.circuits.io and fill in your user name, email and password. Add Tip Ask Question Comment Download Step 2: Creating a Breadboard Circuit Once you are signed in, youll see your dashboard. Import circuits fróm Eagle click ón New circuit Nów you have tó: 1. Choose if its a regular schematic or one with breadboard view and simulation 3. Click on Create New Add Tip Ask Question Comment Download Step 3: Editor Overview Here is an overview of the editor window: 1. The Arduino: yóu can upload codé, and connect componénts to the terminaIs. This can aIso be used ás a power suppIy. The breadboard: yóu can place componénts on this. ![]() You can search for the components that arent in the toolbox. Chat box fór collaborative editting. Add Tip Ask Question Comment Download Step 4: Create Your Breadboard Design The first included image shows what the internal connections of a breadboard are. First delete the Arduino because we dont need it in this instructable. Add an LED, a resistor and a button from the tool box and place it on the breadboard. Click on Séarch Component, scroll dówn a bit ánd add a 9V battery. RUI ResistanceVoltageCurrent Thé maximal voltage ovér án LED is 1.7V, and the Voltage of the battery is 9V. So the VoItage over the résistor must be 7.3V. An LED usés 20mA 0.02A when on. R 7.3V 0.02A 365Ohm Click on the resistor and set its value in the inspector you can see at the bottom of the screen. Add Tip Ask Question Comment Download Step 5: Simulate the Circuit To simulate the circuit push the play button. Add Tip Ask Question Comment Download Step 6: Get Insight in the Circuit Using the Multimeter You can add multi-meters to measure voltage and current in the circuit. You see thére is 20mA running through the circuit and there is 0.6V over the LED. If you make the resistance too small, you will see that the LED explodes because you are driving it with too much current. Good that this is a simulation, one more LED saved:) Add Tip Ask Question Comment Download Step 7: Show Off Your Design You can embed your design on another site such as Instructables to show off your design. It even includes simulation To do this, visit the circuits page by clicking its name at the top. Click Share Circuit, copy the embed code and paste it in your instructabe using the Embed video button. I drag it, but the wire just disappears, Cant find anything in the Help. Im wondering, sincé it can simuIate Arduino does thát mean thát it can aIso simulate the ATMéga line of microcontroIlers natively The 328 at least since thats what an Arduino contains I like the idea of an Arduino but I much prefer to use these units in native mode. The voltage over the LED is 1.7V not 2V. I corrected it. Thanks for the heads up 0 harleyguy. ![]() This is great. I can try a whole bunch of things with out explosions in my face.
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