How MPTS Works

The Maximum Power Transfer Solutions (MPTS) are next generation power quality products that decrease the electrical demand, total electrical power generation (KVA),and carbon footprint, without replacing inefficient electrical and mechanical equipment in facility.

The MPTS is patented in the U.S. and 27 other countries and is a UL approved solution.

The science behind the technology is the Maximum Power Transfer Theorem (Jacobi’s Law-1840) that focuses on increasing total electrical efficiency in electrical systems by decreasing losses using impedance matching.

The technology used in MPTS is based on principles of dynamic impedance matching, synchronous processing, advanced power switching, and real time, accurate and precise correction using multi-tasking algorithm control to optimize each phase to attain maximum efficiency. MPTS is unique and innovative. It is an industry changing technology.

The MPTS precisely senses the supply input and demand output, matches the impedance parameters, adjust the resonance of the resulting network loop, synchronizes and optimizes the output. This occurs at very high speeds in the device eliminating nearly all the wasted electrical power in the system. This significantly reduces total electrical consumption and enhances the electrical efficiency of the network to near unity (1).

• When losses decrease, the phase angle is zero (0) and the Power Factor approaches unity (1).
• When phase angle is zero (0) as a result of Impedance matching
• KVA = KW and KVAH = KWH
• When current decreases, power consumption will decrease
• MPTS dynamically matches, optimizes and reduces the KVA requirements of connected loads
• which also decreases losses in an electrical network.

• MPTS is an electronic system that works in real-time. MPTS advanced algorithms live in an Application Specific Integrated Chip (ASIC) which performs 4 million calculations per second, instantaneously and dynamically matching the electrical wave forms. The ASIC Chip and the motherboard communicate in real time to interface with the electrical network to match impedance that results in decreased losses, clean waveforms, reduction in current requirement and improved electrical network efficiency.
• MPTS is a next generation power quality improvement solution. It is an electronic solution consists of a motherboard controlled by algorithms that reside inside a application specific IC Chip.
• Inside MPTS you will see an electronic RLC network. The RLC are part of the electronic network.

• Reduces wasted energy, decreasing amps required to operate equipment
• Reduces current, harmonics, thermal and eddy current losses
• Reduces KVA and KVAR
• Does not increase harmonics in electrical systems
• MPTS is a fail-safe technology and does not interrupt power to facilities equipment when it is either on or off
• MPTS does not add a parasitical load on the network
• MPTS is an electronic solution and consumes less than 1 ampere of current for every 100 Amps/3phase installed
• MPTS system does not add capacitance to the electrical network
• MPTS releases electrical systems capacity - expansion cost avoidance
• MPTS does not require programming, as it is self-programming upon commissioning
• As a consequence of the above attributes, MPTS improves and maintains power factor to greater than 95%
• MPTS is a standard solution for any type of inductive load
• MPTS is a solution for balanced or unbalanced 3 phased system
• MPTS performs with the same efficiency and effectiveness from 20% to 100% utilization of its rated capacity
• Except for ventilation fans there are no moving parts in MPTS

The above features result in reduction of total electrical consumption by significant levels and enhances electrical efficiency of the network by minimizing wasted electrical energy.

When connected to electrical alternating current (AC) inductive and other balanced or unbalanced phase loads, our solution dynamically matches the source and load impedances resulting in reduced total electrical power consumption and significant electrical efficiency improvement.

Examples of typical applications are;

• 24 hour electrical energy environments
• Refrigeration and Chillers
• Conveyor belt systems
• High electrical energy consumption environments
• Data Centers
• HVAC –RTU’s, AHU’s
• Water filtration plants, pumps and motors
• Parking lot exhaust fans
• Vending machines
• Compressors
• Elevators and escalators

MPTS can be installed very quickly either on a electrical panel or individual loads or a combination of loads. MPTS automatically adjusts to varying load conditions.