Remove all multimeters and indicators from your circuit. Take your voltage divider circuit and put it in a configuration with a 1.5 kOhm load resistor attached to Vc as your load. THE ENDS OF A 2-TERMINAL COMPONENT SHOULD NEVER BE CONNECTED TOGETHER, YOU JUST BYPASSED IT AND MAY HURT YOUR CIRCUIT OR DEVICES.Ī VOLTAGE SHOULD NEVER BE CONNECTED DIRECTLY TO GROUND!!! Remember how the holes in the board are connected as you build the circuit (as seen below). Building a virtual circuit on a breadboard.
MULTISIM 14.0 HOW TO
This will make the 3-D circuit construction easier later. But to simplify this circuit INSTEAD USE DC POWER SUPPLY FOR 12V SO YOU HAVE A BATTERY ON THE BOARD. To get the 12 V source, can go to Simulate > Instruments >NI ELVIS mx instruments > NI ElVIS Variable Power Supply just like you would see in the ELVIS Instrument panel. This will save you time when you put the load on the circuit, to see the voltage change at the connection point when you add a load. You will want to put voltage indicators on each one connected between ground and each test point. Va, Vb, Vc are the connection points you will use to load to the circuit at 12, 10 and 6V. Part 1: Build a Voltage Divider and Test it with Loads.Ĭonstruct a voltage divider with a 12V source and use 1000, 20 Ohms to divide the voltage into 10V and 6V at nodes in the circuit. YOU WILL LOSE POINTS FOR EVERY CIRCUIT IMAGE THAT DOES NOT HAVE THIS On every Design sheet from the top menu “Place” find “Text” and write your: Later we will see a 3-D Model of the ELVIS Board. You will get a workspace that has the connections you will find on our ELVIS board. START A NEW PROJECT BY GOING TO FILE>NEW>NI ELVIS I Design. Program Files -> National Instruments (folder) -> Circuit Design Suite -> Multisim Scored out of 10 as part of your Lab Grade.