Inductive Pulse Charging Research
Explore Julian Perry's groundbreaking work on energy gain systems demonstrating Coefficient of Performance exceeding 1.0
Key Research Findings
Experimentally verified energy gains through inductively generated high-voltage pulse charging
Lead-Acid Batteries
80Ah AGM Performance
CoP: 1.5 - 2.6
Net energy gain of 50% to 160% over input
Includes pulse generator losses of 15-30%
Lithium Iron Phosphate
18Ah LFP Performance
CoP: 6 - 12
Net energy gain of 500% to 1100% over input
3-5× higher performance than Lead-Acid
Choose Your Learning Path
Educational content organized by experience level
Student Level
Perfect for beginners
Basic concepts and simple explanations of inductive pulse charging
Start HereIntermediate Level
Building on fundamentals
More technical details and deeper understanding of the systems
Continue LearningAdvanced Level
Expert-level content
In-depth physics, engineering, and replication details
Deep DiveAbout This Research
This educational platform presents Julian Perry's rigorous open-source research into Inductive Pulse Charging (IPC), demonstrating experimentally verified energy gains that challenge conventional closed-system thermodynamics.
Through transparent methodology and comprehensive documentation via the Open Science Framework, this work enables independent verification and community-driven advancement of energy harvesting technologies.