ResonantPro Drilling
As part of the ResonantPro platform, ResonantPro Drilling applies a controlled vibrational balance of energy to enhance drilling efficiency. By operating at or near resonance, the system increases penetration rates while reducing energy requirements and minimizing tool wear. The approach lowers the likelihood of mechanical failure and decreases routine maintenance demands, extending operational uptime. Balanced energy control also simplifies operation, reducing the need for highly specialized operators. Integrated data acquisition provides automated drill log recording for improved accuracy, repeatability, and process monitoring.
As part of the ResonantPro platform, ResonantPro Drilling applies a controlled vibrational balance of energy to enhance drilling efficiency. By operating at or near resonance, the system increases penetration rates while reducing energy requirements and minimizing tool wear. The approach lowers the likelihood of mechanical failure and decreases routine maintenance demands, extending operational uptime. Balanced energy control also simplifies operation, reducing the need for highly specialized operators. Integrated data acquisition provides automated drill log recording for improved accuracy, repeatability, and process monitoring.
.webp)
ResonantPro Force Generators
The ResonantPro Force Generator is an actuator engineered to deliver controlled, high-efficiency excitation through a balanced exchange of vibrational energy. The system supports multiple frequency excitation, enabling activation of several resonance modes to optimize material response. Its output can replicate hammer-like impulses — low-frequency, high-amplitude responses that promote material movement — while maintaining precise control.
Force and amplitude are fully adjustable, allowing tuning to specific operational requirements. Integrated smart sensing capabilities enable the force generator to function as both actuator and sensor, providing feedback for real-time diagnostics such as clog detection, material hold-up, and system health monitoring. By maximizing vibrational response while minimizing applied structural force, the system reduces the probability of equipment damage. ResonantPro Force Generators are scalable, with sizes ranging from portable, handheld units to large-scale systems for industrial and mining operations.
The ResonantPro Force Generator is an actuator engineered to deliver controlled, high-efficiency excitation through a balanced exchange of vibrational energy. The system supports multiple frequency excitation, enabling activation of several resonance modes to optimize material response. Its output can replicate hammer-like impulses — low-frequency, high-amplitude responses that promote material movement — while maintaining precise control.
Force and amplitude are fully adjustable, allowing tuning to specific operational requirements. Integrated smart sensing capabilities enable the force generator to function as both actuator and sensor, providing feedback for real-time diagnostics such as clog detection, material hold-up, and system health monitoring. By maximizing vibrational response while minimizing applied structural force, the system reduces the probability of equipment damage. ResonantPro Force Generators are scalable, with sizes ranging from portable, handheld units to large-scale systems for industrial and mining operations.
ResonantPro Compactors
ResonantPro Compactors apply a balanced vibrational energy approach to achieve greater soil densification with significantly reduced energy input compared to conventional methods. By leveraging resonance-driven excitation, the system improves compaction efficiency while lowering operational demands on equipment and operators.
The compactors support multiple power configurations, including commercial-grade cordless DC battery systems and standard AC power. The base unit is lighter, with efficiency enhanced by strategically added mass—contrary to conventional compactors where additional weight dominates performance. Operation is quieter, exhaust-free, and produces substantially reduced vibration exposure for the operator, improving safety and usability.
Real-time measurement of soil compaction is enabled through integrated feedback sensing, providing quantifiable data during operation. Force and amplitude are fully adjustable, allowing adaptation to varying soil conditions. Designed for extended service life, the system requires minimal maintenance, with rebuild kits rated for over 10,000 hours of operation.
ResonantPro Compactors apply a balanced vibrational energy approach to achieve greater soil densification with significantly reduced energy input compared to conventional methods. By leveraging resonance-driven excitation, the system improves compaction efficiency while lowering operational demands on equipment and operators.
The compactors support multiple power configurations, including commercial-grade cordless DC battery systems and standard AC power. The base unit is lighter, with efficiency enhanced by strategically added mass—contrary to conventional compactors where additional weight dominates performance. Operation is quieter, exhaust-free, and produces substantially reduced vibration exposure for the operator, improving safety and usability.
Real-time measurement of soil compaction is enabled through integrated feedback sensing, providing quantifiable data during operation. Force and amplitude are fully adjustable, allowing adaptation to varying soil conditions. Designed for extended service life, the system requires minimal maintenance, with rebuild kits rated for over 10,000 hours of operation.
ResonantPro Mixing
Developed in collaboration with Montana Mixers LLC (www.montana-mixers.com), ResonantPro Vertical Resonant Oscillatory Mixing (VROM) systems apply a balanced energy oscillation to achieve uniform, high-efficiency blending of powders, liquids, and multiphase materials. The VROM platform integrates advanced sensing and control technologies as well as novel mechanical designs that represent significant advancements over other resonant mixers on the market.
Key features include cloud-based data logging and a web-based operating portal, enabling remote monitoring, control, and analysis. For customers who cannot host data on the cloud, local data logging and secure web portal setups are available, ensuring flexibility for security and compliance requirements. A closed-loop power-to-mix control system ensures precise power delivery to the mix material, improving batch-to-batch consistency. Mix processes are managed through fully customizable recipe controls and configurable data management portals, allowing operators to tailor workflows and outputs to specific requirements.
All ResonantPro VROM systems operate on a common control architecture, providing a consistent interface across units and simplifying deployment in research, industrial, or production environments. Integrated advanced sensing technologies enhance process visibility, enabling optimized mixing regimes and early detection of non-ideal conditions.
Developed in collaboration with Montana Mixers LLC (www.montana-mixers.com), ResonantPro Vertical Resonant Oscillatory Mixing (VROM) systems apply a balanced energy oscillation to achieve uniform, high-efficiency blending of powders, liquids, and multiphase materials. The VROM platform integrates advanced sensing and control technologies as well as novel mechanical designs that represent significant advancements over other resonant mixers on the market.
Key features include cloud-based data logging and a web-based operating portal, enabling remote monitoring, control, and analysis. For customers who cannot host data on the cloud, local data logging and secure web portal setups are available, ensuring flexibility for security and compliance requirements. A closed-loop power-to-mix control system ensures precise power delivery to the mix material, improving batch-to-batch consistency. Mix processes are managed through fully customizable recipe controls and configurable data management portals, allowing operators to tailor workflows and outputs to specific requirements.
All ResonantPro VROM systems operate on a common control architecture, providing a consistent interface across units and simplifying deployment in research, industrial, or production environments. Integrated advanced sensing technologies enhance process visibility, enabling optimized mixing regimes and early detection of non-ideal conditions.
ResonantPro Transformers
ResonantPro Transformers are designed to improve electrical power conversion efficiency and reliability through balanced energy operation. Unlike conventional transformers, which exhibit reduced efficiency under partial loads, ResonantPro Transformers maintain higher efficiencies at lower rated loads, reducing intrinsic energy losses across the grid. This capability directly supports grid reliability by addressing inefficiencies common in distribution systems where most transformers operate below capacity.
The design provides intrinsic surge protection, improving system resilience and reducing reliance on external protective hardware. By eliminating cooling oils, the system avoids fire and environmental risks associated with fluid-filled transformers, while simplifying maintenance. ResonantPro Transformers are available in both single-phase and three-phase configurations, enabling deployment across a wide range of grid and industrial applications.
ResonantPro Transformers are designed to improve electrical power conversion efficiency and reliability through balanced energy operation. Unlike conventional transformers, which exhibit reduced efficiency under partial loads, ResonantPro Transformers maintain higher efficiencies at lower rated loads, reducing intrinsic energy losses across the grid. This capability directly supports grid reliability by addressing inefficiencies common in distribution systems where most transformers operate below capacity.
The design provides intrinsic surge protection, improving system resilience and reducing reliance on external protective hardware. By eliminating cooling oils, the system avoids fire and environmental risks associated with fluid-filled transformers, while simplifying maintenance. ResonantPro Transformers are available in both single-phase and three-phase configurations, enabling deployment across a wide range of grid and industrial applications.
Building a Balanced Future with Resonant Technology
Together, PEKE’s ResonantPro Systems represent a unified platform of technologies based on the balance of potential and kinetic energy. From drilling and compaction to mixing, actuation, and power conversion, each system leverages this principle to provide measurable gains in efficiency, durability, and control — strengthening capabilities across energy, infrastructure, manufacturing, and defense.
Contact us today to discuss how ResonantPro Systems can benefit your organization.
