(Solved): Filter for 5G interference mitigation.Circuit Analysis Description: \( 5 \mathrm{G} \) mobile commun ...

Description: \( 5 \mathrm{G} \) mobile communication networks is emerging and with the gradual deployment of \( 5 \mathrm{G} \) services, one of the important aspects that needs to be taken into consideration is the interference mitigation issue. Design a filter (passive or op-amp based filter or both) that has the ability to mitigate the interference from nearby \( 5 \mathrm{G} \) base stations. Discuss the application of the designed filter and why it is needed for the specific application. Specification: Define the specification of the filters by considering a real-world application; i.e frequency band, country, filter performance, types of real-world application, etc. For comparison, identify a commercially available filter. The filter should be compact and low cost. You may choose to design any type of active filter (eg: lowpass, highpass, bandpass, bandreject) of any order (eg: first order, or higher order Butterworth filter, etc). Justify why you have chosen the specific type and order of the filter. Draw the schematic circuit diagram of the filter using any software of your choice (i.e.: PSpice, Proteus, etc.), labelling the component values and output voltage. The values of the components in your proposed filter should meet the set of requirements as you have defined. Sketch the Bode magnitude plot for the designed filter using any software of your choice (eg: Matlab or PSpice). Discuss the performance difference between the designed filter and the commercially available filter. Submit a complete report on your designed filters and the Matlab code used in designing the filters. Submission of this assignment should be made through Spectrum. Note that only one submission per group is required. 3. GUIDELINES FOR REPORT Format: Font 12, Times New Roman, \( 1.5 \) paragraph, 10-15 pagrs excluding frant page and references. Repert Structure; 1) Abstract 2) Introduction Specific application of the fiter 3) Design and Methodology: Filter slesign selection and justification, required specifications, a referecke of commercially available titer 4) Plesults and Discusion: Filter design ahalysis fimulation and theoretical analysisf, comparion of the filter's performance 5) Concluvion 6) References 4. ASSIGNMENT RUBEIC