Design and optimization of MIMO filter using current conveyor

Also Available Domains Tanner EDA

Project Code :TVMABE175


In this project we are going to implement the circuit functions represent low pass filter (LPF), high pass filter (HPF) and band pass filter (BPF) function while taking different input and output port combinations.



The paper proposes a novel design and optimization of a Multiple Input Multiple Output (MIMO) filter using Current Conveyor (CC) as the active element. The design approach involves the use of a generalized transfer function matrix that incorporates the multiple inputs and outputs of the MIMO system. The optimization technique employed is based on the Particle Swarm Optimization (PSO) algorithm that seeks to minimize the error between the desired and actual frequency response of the filter. The CC-based MIMO filter provides several advantages such as high linearity, low power consumption, and low noise. The simulation results demonstrate the effectiveness of the proposed filter design in achieving the desired frequency response with excellent performance metrics. The proposed filter has potential applications in various fields such as wireless communication, biomedical engineering, and instrumentation.

NOTE: Without the concern of our team, please don't submit to the college. This Abstract varies based on student requirements.

Block Diagram


Software Requirements:

·         Tool: Tanner EDA/Cadence Virtuoso/ LT spice

·         Technology: 45nm.

Hardware Requirements:

  • Microsoft® Windows XP
  • Intel® Pentium® 4 processor or Pentium 4 equivalent with SSE support
  • 512 MB RAM
  • 100 MB of available disk space

Learning Outcomes

·         Introduction to Analog electronics.

·         Basic concepts of Filter

·         Advantages and Applications

·         Knowledge on Current Conveyor.

·         Concept of Operational Amplifier

·         Tool Learning in Tanner EDA/Cadence Virtuoso

·         Analysis of design and simulation results

·         Scope of universal filter in today’s world.


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