APPLICATION

 

1.  Automotive Application:

       Although automotive battery is  an inexpensive consumable, the problem of battery are not just the expense of battery itself, but it might often cause the alternator, the starter or other electrical system of vehicle damaged.  Automotive battery fails a load test due to sulfation, the battery plates are heavily eroded, the plate materials having fallen to the bottom of the battery. This occurs because the plates are manufactured to be of high porosity, to maximize surface area and to allow maximum amperage discharge for a short period of time (e.g. starting a car engine). This allows construction of a compact battery with short term, high amperage capability. The sulfate enters the pores on the plates, and as it advances towards the crystalline state, it greatly expands. The crystal growth causes plate material to break off much the same way as the formation of ice in a crack of a rock will cause pieces of the rock to break off.
 
2.  Motive power Application:
       Motive power battery are applied as main power supply for Forklifts, Airline Ground Equipment, electric vehicles and baggage tractors etc. They are designed to discharge large amount of amperage over a long period time, and do so because the physical size of the plates is very large. In the case of motive power batteries, the plate construction is tubular, so the sulfate simply insulates the exterior of the plates, preventing an efficient charge from occurring. The sulfation effect determines the life cycle rating of a motive power battery. 

     Another phenomenon in motive power applications is the dead cell. During a very deep discharge cycle, some plates in a cell will reverse polarity. During recharge, these cells must first receive energy to return to a zero state, and then begin recharging having achieved proper polarity. The surrounding cells, have recharged, as they did not first have to return to zero status. The cells with reversed polarity plates depress battery voltage, causing the charger to provide strong current. The result is severe boiling of the fully charged cells, and potential mechanical damage to the battery. 

     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. 
 

3.  Stationary On-Line Application:
       The Telecom Industries, the Power Companies and UPS consume large amount of stationary batteries .Although The batteries are applied at float charge state for a long time period, they need to be replaced after a few years of services. This is very costly, very labor intensive and worst of all, creates an environmental hazard during disposal. Many of the batteries were disposed unnecessary due to the fact that many batteries show signs of end of life prematurely because of sulfation. In fact, 90% of the disposed batteries can be avoided and recovered by the Battery Recovery System. However, the existing Battery Recovery system using the pulsating technique is limited to recovering the minor sulfated battery. Also, It cannot work on-line together with sensitive telecom and UPS equipment because of ripple interference.

      The key Technique is to use a strict controlled Anti-ripple module which can automatically synchronize with the pulse to suppress the frequency spectrum, and subsequently minimize the ripple effect. Therefore, our system with latest patent SYNCHRO-SUPPRESSION  technology can be applied widely in any Telecom, Power-supply and UPS.