EEM 206 - Electrical Circuits Laboratory

Syllabus 2020/2021 Fall  

 Writting Guide for Formal Reports 

 Template for Formal Reports

 Template for Short Reports

 ♦  Component  List

 ⇒ Pspice Tutorial 

 ⇒ PCB Design Using Proteus Tutorial 

  Program:

Experiment 1- DC Power Supply Design

Experiment 2-RC and RL Circuits

Experiment 3-RL and RLC Circuits

Experiment 4-Resonace

Experiment 5-Passive Filters

Experiment 6-Design of First&Second Order Filters  

Experiment 7-Opamp Circuits

Experiment 8-Comparator Circuits&Single Power Supply         

Experiment 9-Active Filters

PCB Design Procedure

Baskı Devre Hazırlama Proceduru

NEW!! The concern Onur Surgun stated in his email, can easily be solved  with some easy modifications (included in  the lab manuel below) and is being shared for the students  with the same concern:

☞ Due to different PIR sensors in the market some students may face some problems in their Proteus/Pspice simulations. To overcome the problem, the following modifications are suggested to be made before submitting  your Preliminary Works:

1. Replace the R11=100KΩ resitor with two 47 KΩ resistors.
2. Take a feedback  from the intersection node of two 47 KΩ  resistors to the  U2 opamp's inverting input, exactly to the node where R6 and C2 are connected.
3. Replace (if possible) R12=1MΩ with R12=820KΩ  and R10=1MΩ with R10=1.2MΩ .
4. If you didn’ find the Arduino Nano representation for Proteus, disconnect your transistor’s gate input from the circuit only for simulation. If you have already found it share it with your friends and me (Semiha Turkay) that you can gain extra 20 points.
5. Adjust the input signal for AMP 1.5m, OFFSET=1.5m. You can check your simulation results with the video_PIR  under this manual.

Project-Light/Human Detector with a PIR Sensor 

Video_PIR

• Muhammed Talha Yaşar, Onur Surgun and Mustafa Öz are the first three to share  their  finding for Arduino in Proteus. Don't send any more emails regarding this. Their solutions are shared in Mergen