This project presents the design and implementation of a Random Noise Generator. The circuit was first simulated using LTspice to analyze noise behavior, and then implemented as a 2-layer PCB using KiCad.
The project demonstrates the complete workflow from simulation to hardware design.
- Generation of random noise signals
- Simulation of white noise and pink noise
- Frequency behavior analysis
- 2-layer PCB design
- Compact and practical layout
- LTspice – Circuit simulation
- KiCad – Schematic and PCB design
- Designed and simulated the circuit
- Observed random signal behavior
- Verified noise characteristics
- Recreated schematic in KiCad
- Designed a 2-layer PCB
- Optimized component placement and routing
- Successfully generated random noise signals in simulation
- Verified expected noise behavior
- Designed a functional 2-layer PCB
- Layout is ready for fabrication
- Electronic system testing
- Audio signal generation
- Communication systems
- Hardware fabrication and testing
- Adjustable noise control
- Signal filtering enhancements
R. L. Boylestad and L. Nashelsky, Electronic Devices and Circuit Theory, 11th ed., Pearson, 2013.
THANGAVIKRAMAN RAMACHANDRAN
B.E. Electronics and Communication Engineering (Pre-Final Year)
🔗 LinkedIn: https://www.linkedin.com/in/thangavikraman-ramachandran/