Traction Batteries
Traction Batteries are typically large industrial design cyclic based design. And are used in electric forklifts, diesel-electric trains, trams, buses, rail systems, automated guided vehicles and many other industrial applications of motive power. When high volumes of batteries are required on a large site it has been typical in the past to use wet cell batteries and have charging rooms for containment of acid, off-gassing while charging and wash-down areas. These days with OSH and every square centimeter of a building is prime real estate, non hazardous, clean room or opportunity charging stations have become more common. Along with the rise of Lithium batteries for early adopters, we are seeing a shift in application with more technology being used to fleet manage an operation.
The applications have high current discharge, cycle much more than traditional "deep cycle" designed batteries or solar, sometimes multiple cycles per day. And therefore have much larger charging current/power supplies to get them back into service quicker and reduce downtime.
- Description
- Specifications
1) Longer Cycle Service Life
Deep Cycle (high-density active material and thick plates) design & special 4BS lead paste technology prolongs the cycle service life.
2) Excellent Discharging Ability
Radial grid design & tight assembly technology ensures an excellent high-rate discharge performance
3) Excellent Deep Cycle Ability
Unique grid alloys & special positive/negative lead paste formulations makes the battery perform excellent in deep cycle using and recover quickly upon over discharging and extend the float service life.
4) Low Self Discharge
Using high purity raw materials ensures the battery has less self-discharge.
5) Environmental & Non-polluting
Gas Recombination technology ensures the battery high seal reacting rate, which can prevent the acid fog from separating out.
6) Safe & Reliable
Efficient venting system automatically release excess gas when the pressure rises above the normal level & reseals the valves when it returns to the normal rate, which can protect the battery from bursting.