RPI ID: 2016-076-401

Innovation Summary:
This invention introduces a high-frequency push-push oscillator that utilizes a resonant circuit and Gm-core to generate a differential signal at twice the resonant frequency. The design incorporates a tank circuit and feedback mechanism to stabilize the output and reduce phase noise. Optimized for compact, high-performance RF systems, the oscillator supports a wide range of frequencies and is well-suited for integration into modern communication and sensing platforms.

Challenges / Opportunities:
Generating stable, high-frequency signals is critical for modern communication and sensing systems. Traditional oscillator designs face limitations in frequency scaling, noise suppression, and integration. This invention addresses those challenges with a compact and efficient architecture that enhances signal clarity and system performance. It opens opportunities in wireless communication, radar, and high-speed electronics.

Key Benefits / Advantages:
✔ High-frequency output by doubling the resonant frequency
✔ Low phase noise for improved signal clarity and stability
✔ Compact design suitable for RF system integration
✔ Versatile architecture supporting a range of frequencies and applications

Applications:
• Wireless communication
• Radar and sensing systems
• RF integrated circuits
• High-speed digital electronics

Keywords:
#pushpushoscillator #highfrequencysignal #RFdesign #phasenoisereduction #resonantcircuit

Intellectual Property:
US Issued Patent 11,336,228 B2