Problem Statement: Low Noise Amplifier (LNA) Design for 2.4 GHz loT Applications Using Siemens EDA Tools Background: The growing adoption of loT devices in smart homes, wearable technology, and industrial automation demands efficient wireless communication at 2.4 GHz, a widely used frequency band for Bluetooth Low Energy (BLE), Zigbee, and Wi-Fi. A key component in these wireless systems is the Low Noise Amplifier (LNA), which amplifies weak RF signals while minimizing noise to ensure reliable communication. Challenge: Participants are required to complete front-end design steps to create an LNA circuit for loT applications operating at 2.4 GHz using Siemens EDA tools. The scope includes schematic design, circuit testbench creation, and SPICE simulation. Participants are not required to proceed with physical layout or fabrication steps. The LNA should achieve high gain, low noise figure (NF), low power consumption, and unconditional stability while meeting input/output matching requirements. Design Objectives: • Operating Frequency: 2.4 GHz • Gain: ? 15 dB • Noise Figure (NF): ? 2 dB • Power Consumption: ? 5mW • Input & Output Impedance Matching: 500 • Stability: Stable under typical operating conditions Evaluation Criteria: Performance Metrics: Achievement of gain, NF, and power consumption targets in an innovative way Innovation & Practicality: Suitability for real-world loT applications Submission: Should include design files, methodology, simulation results, and presentation