The next questions was which results to accept, there are three results This 0.22V error is generated due to various reasons, resistances of wires,not 100% accurate rated capacitors, stray capacitances,and the list goes on and on. Vcc=11.55V approximately equals to 11.77V The results of Computer Simulation on Matlab are like this: The 12V power supply gives around 11.77V when checked by multimeter.
Through hands-on practice using the NI Multisim, students also learn how to debug and repair electronic systems.I got worried about this thing very much.I performed the same experiment on computer and other practically.I took two real capacitors and and one real multimeter and one breadboard with 12V power supply. Through this training, graduate students also gain valuable exposure to real world technologies that they may require for their future careers. In addition to this, students learn various information technology concepts such as RF and wireless technologies, software-testing methods, and software implementation techniques, through a combination of self-paced online training and in-class lab sessions. Users of the software gain first-hand experience of designing effective electronic systems by designing and implementing complex working models.
This enables the graduate students to easily develop power transistors and bipolar voltage swing configurations that are applicable in numerous applications. Users of the software can easily adjust its voltage and temperature simulation abilities for various circuits. The latest version of the software, version 6.0, includes support for the latest techniques in circuit design, such as hot spot amplification, FETs, MOSFETs, and n-type materials. The ability to incorporate multiple design patterns results in higher flexibility.
The main advantage of using the NI Multisim in designing circuits is that it allows you to develop your design on a large scale, without the use of printed circuit boards (PCBs), boards, or traces. The software can be used as a stand-alone electronic engineering simulator with a variety of input and output devices or as part of an integrated circuit design tool for designing electronic systems. NI Multisim has been used in the design of digital electronic circuits for more than 35 years. The software can be used to design simple electronic circuits, multilayer resistors, and multilayer capacitors in electrical engineering and thermal design. It was developed by the National Institute of Standards and Technology (NIST).
NI Multisim, also known as NEMO electronics, is an open source electronics simulator software for designing electronics and communication systems.
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