Breakthrough in Energy Technologies

A significant breakthrough has occurred in the world of batteryless power technologies that could radically change the approach to power supply for autonomous IoT devices. VENDOR company has introduced the revolutionary VENDOR.Zero generator based on air ionization principles, creating a completely new class of energy solutions — ion-based power systems.

Technological Foundation of VENDOR.Zero

Operating Principle

The VENDOR.Zero generator uses a fundamentally new approach to energy generation based on controlled air ionization processes. The system operates in four stages:

1. Initiation Pulse

A brief external energy pulse activates the system, charging internal capacitors and directing flow to the discharge unit. This is the only moment when VENDOR.Zero connects to the grid, after which it operates autonomously.

2. Ionization and Avalanche Effect

Voltage from the pre-charged capacitor passes through an array of discharge gaps. Ionized particles collide and cascade, forming corona streamers and volume charge zones. This process creates an electron avalanche effect, where one electron initiates the release of dozens of others, creating a chain reaction.

3. Resonance and Feedback

Induced pulses power the secondary coil, activating the resonant circuit. Feedback from this circuit recharges the system core, eliminating the need for external input.

4. Output and Stabilization

The tertiary winding extracts usable output. The feedback system ensures pulse stability and autonomous self-regulation.

Patent Protection

VENDOR.Zero technology is protected by Spanish patent and active PCT application. The invention is based on principles of controlled ionization using multiple discharge gaps connected in parallel, characterized by different breakdown voltage values and offset frequency spectra.

Key patent features include:

• Use of 2.45 MHz resonant frequency for transformer primary winding
• Frequency spectrum offset of discharge gaps by 10-20 kHz relative to each other
• Positive feedback system for autonomous operation
• Protection against frequency shifts through overlapping discharge gap spectra

Advantages of Ion-Based Power

Environmental Cleanliness

Unlike traditional energy sources, VENDOR.Zero does not burn fuel and does not consume air as a resource. The system uses air as a catalyst, returning it in a cleaner state. During the process, photochemical conversion of carbon monoxide (CO) to carbon dioxide (CO₂) occurs, making the technology environmentally beneficial.

Energy Efficiency

Ion-based systems demonstrate efficiency exceeding 100% without violating conservation laws. This is achieved through interaction with the external environment — atmospheric air, similar to how solar panels use photons from the sun.

Autonomy and Reliability

After a single startup, the VENDOR.Zero system operates completely autonomously, requiring no connection to the electrical grid or battery replacement. This is critically important for IoT devices in remote locations where maintenance is difficult or impossible.

Application in IoT Ecosystem

Integration with Ambient IoT

Ion-based power is ideally suited for ambient IoT — a concept actively promoted by the Ambient IoT Alliance, including PepsiCo, Intel, and Qualcomm. The technology provides constant device power without the need for batteries or periodic recharging.

Advantages for Batteryless IoT

VENDOR.Zero solves key problems of batteryless IoT:

• Constant energy availability — no dependence on variable environmental conditions
• High power density — ability to provide stable power in compact form factor
• Minimal operating costs — no need for battery replacement or maintenance
• Environmental sustainability — complete elimination of toxic batteries from device lifecycle

Application Areas

Ion-based power opens new opportunities in various sectors:

Industrial IoT

• Sensors in explosive environments where traditional batteries create risks
• Equipment monitoring in remote locations (oil platforms, pipelines)
• Predictive maintenance systems with continuous power

Smart Cities

• Real-time environmental monitoring
• Sensor networks with autonomous power
• Security and access control systems

Healthcare

• Wearable devices for continuous monitoring
• Implantable systems with lifetime power
• Medical IoT sensors in sterile conditions

Technical Advantages

Comparison with Traditional Technologies

Ion-based systems offer unique advantages compared to existing solutions:

Integration with AI and Edge Computing

Ion-based power is particularly effective for Edge AI applications requiring stable power for computational tasks. The system provides:

• Continuous neural network operation at the network edge
• Autonomous data processing without cloud dependency
• Energy-efficient machine learning algorithms

Market Positioning

Differentiation from Competitors

VENDOR.Zero represents the third wave in autonomous IoT power evolution:

1. First wave — traditional batteries with periodic replacement
2. Second wave — environmental energy harvesting (solar, RF, thermal)
3. Third wave — ion-based power with active use of atmospheric resources

Competitive Advantages

Ion-based technology stands out against alternative solutions:

• Constant availability versus variability of solar/wind harvesting
• High power density versus limitations of RF energy harvesting
• Environmental benefit versus battery toxicity
• Autonomy versus dependence on external conditions

Future of Ion-Based Power

Technology Trends

Ion-based systems represent a paradigmatic shift in IoT energy:

• Transition from passive harvesting to active utilization of atmospheric resources
• Integration with smart materials and nanotechnologies
• Development of hybrid systems with multiple ionization sources

Scaling Potential

VENDOR.Zero technology can be adapted for various power requirements:

• Micro-versions for wearable devices and sensors
• Standard modules for industrial IoT
• Scalable systems for infrastructure applications

Ecosystem Development

Ion-based power creates prerequisites for forming a new ecosystem:

• Development of specialized components for ion-based systems
• Creation of standards for integration with existing IoT platforms
• Formation of partnership alliances with IoT device manufacturers

Conclusion

VENDOR.Zero represents a revolutionary breakthrough in batteryless power for IoT, offering ion-based power as a fundamentally new class of energy solutions. The technology combines environmental cleanliness, energy efficiency, and complete autonomy, creating an ideal foundation for scalable IoT infrastructure of the future.

Integration of ion-based systems into the existing batteryless IoT ecosystem opens unprecedented opportunities for creating truly autonomous, sustainable, and environmentally responsible solutions. In an era when trillions of IoT devices require reliable and environmentally clean power, VENDOR.Zero offers not just an alternative, but a fundamentally new approach to powering the digital future.