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LATEST PATENT TECHNOLOGY
Our technology unlike other present pulse technology, originate with Scan-to-Resonate & Synchro-Suppression technology. According to Atomic Microstructure Theory, There are five different energy bands for the lead sulfate ion. Over time, there is a transition from a less stable bond (higher band) to a very stable covalent bond (lower band). In its lowest band, sulfur forms a circular molecule consisting of eight atoms. These molecules stack up like shingles to cover the surface with a coating of circular molecules. These molecules are very resistive, so the circular eight atom pattern is indicative of a stable bonding arrangement which will resist efforts to break.
As Quantum Theory, each energy bands have their unique frequency for stable transition. To remove the sulfate deposits, it is necessary to transfer the specific energy by distinct pulses named "Resonant Pulse" to the bonds of sulfate, to excite molecule transited to higher and higher bands, finally reaches to the highest band and hold stable. At this state, the lead sulfate can be converted into the least stable molecule , and can be removed off the battery plate into the free ion state of Pb- and SO4+ , and then converted into electrolyte (H2SO4) through charging.
Therefore, only "Resonant-Pulse" by SCAN-TO-RESONATE™ technology can excite and hold transition to the highest band, so can remove lead sulfate effectively and completely.
The High-frequency Pulse which is good to battery maintenance, however, might be interference to the sensitive load used on-line, especially in Telecom, Power-Supply and UPS application. Synchro-Suppression technology can solve this problem. The key Technique is Strictly controlled Anti-ripple module which can automatically synchronize the pulsating to purify the frequency spectrum, and then minimize the ripple effect.
Therefore, the system supported by SYNCHRO-SUPPRESSION™ technology can be applied widely in Telecom, Power-supply and UPS.