Description of the assessment The coursework (part 1) for Electronic Systems - 5EN503 is based on six labs. The labs will have a mix of simulations and practical tasks. The practical

tasks will be completed using the equipment in the lab, such as Digiac 3000, in combination with other electronic equipment such as Oscilloscopes, Power Supplies, and Signal Generators. The simulation tasks will be carried out using a mix of Multisim, and MATLAB Simulink. The tools to be used in each case is clearly stated in the lab worksheets provided. You are to carefully follow the instructions provided in each of the lab worksheets and answer any accompanying questions accordingly. After completing all the labs, you are to produce an individual technical report based on all the tasks you have performed for all the labs on or before the deadline (12:00 UK time, 18/12/2023). Your report will be assessed following the assessment rubric below./n1. Lab 1: Practical (Op-Amp - Review): Objectives: a. To recognize and calculate op-amp transfer characteristics. b. To predict and measure comparator output for positive reference voltage. ity: Internal 3 c. To predict and measure comparator output for negative reference voltage. d. To calculate gain and output voltage and input voltage for an op-amp comparator circuit./n2. Lab 2: Practical (Active Filters): Objectives a. To determine the cut-off frequency and -3dB voltage level for a loaded RC Low-pass filter. b. To determine the cut-off frequency for a loaded RC High-pass filter. C. To determine the cut-off frequency for cascaded filter circuits. d. To recognize the effect of loading passive RC circuits. e. To reduce the effect of cascading and loading filter sections. 3. Lab 3: Simulation (Design and Simulation of PID controller Using Op Amps): Objectives a. To understand the operation of a PID controller. b. To learn how to design a PID controller using Op-amps. c. To learn how to design and simulate PID controller using Multisim. 4. Lab 4: Simulation (Buck Converter using MATLAB Simulink) Objectives a. To understand the operation of a Buck Converter b. To learn how to design and simulate a Buck Converter using MATLAB Simulink/n5. Lab 5: Simulation (Boost Converter using MATLAB Simulink): Objectives a. To understand the operation of a Boost Converter b. To learn how to design and simulate a Boost Converter using MATLAB Simulink 6. Lab 6: Design and Simulation of Full Adder): Objectives a. To understand the operation and application of half and full adder circuits b. To learn how to design and simulate a half adder and a full adder using Multisim C. To learn how to build half adder and full adder using universal gates (e.g., NAND gates).