Warranty - 36+6 Months for Inverter & 36 +24 Months for Battery
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Why Tubular Batteries are most suitable in Inverter Application?
A tubular battery uses technology that seals the active material in polyester tubes called gauntlets, instead of pasting it on the surface of the plate. As a result, there's no shedding or corrosion, ensuring long battery life. Owing to their toughness and durability, tubular batteries can operate at extreme temperatures, and are used in high cyclic applications involving frequent and prolonged power outages.
The Exide Torr Tubular Advantage
All tubular batteries behave similarly to start with, but obviously, not all tubular batteries are the same. The difference lies in the composition of the alloy in the positive support structure, as well as in the way that the main back bone of the plates, called the SPINE, is cast.
With the help of Torr Tubular technology, Exide tubular batteries use the high pressure 'HADI' casting process at 100 bar, while most other manufacturers use gravity of low pressure casting processes. The spines in Exide tubular batteries are cast from low antimony lead alloy, with selenium, copper, tin, and arsenic, to protect the lead support from anodic corrosion.
A scanning electron microscope (SEM) study reveals the differences in machines that use gravity or low pressure casting, and those that are 'HADI' casting.
Description | STAR 12V 650VA | STAR 12V 850VA | STAR 12V 1050VA | STAR 24V 1450VA |
---|---|---|---|---|
Output Voltage at No Load | 220V ± 7V AC | |||
Output Frequency | 50Hz ± 1Hz | |||
Output Wave Form | Pure Sine Wave | |||
Nominal Battery Voltage | 12V DC | 24V DC | ||
Battery Low Cut Off | 10.5V ± 0.2V DC | 21.0V ± 0.4V DC |
Model | STAR 12V 650VA | STAR 12V 850VA | STAR 12V 1050VA | STAR 24V 1450VA |
---|---|---|---|---|
Maximum Charging Current (NC) | 11Amps ± 1Amp | 12Amp ± 1Amp | 13Amp ± 1Amp | 12Amp ± 1Amp |
Maximum Charging Current (HC) | 15Amps ± 1Amp | 17Amp ± 1Amp | 18Amp ± 1Amp | 17Amp ± 1Amp |
Boost Charging Voltage | 14.4V ± 0.2V DC | 28.8V ± 0.4V DC | ||
Trickle Charging Voltage | 13.7V ± 0.2V DC | 27.4V ± 0.4V DC | ||
Charging Current at 120V Mains Input | 8-10 Amp Charging Current* | |||
Charging Over Time Mains to Back-up (@ UPS Mode) | ? 10 msec | |||
Charging Over Time Back-up to Mains (@ UPS Mode) | ? 10 msec | |||
Input Voltage Range (@ UPS Mode) | 180V - 270V ± 10V AC | |||
Change Over Time Mains to Back-up (@ Normal Mode) | ? 40 msec | |||
Change Over Time Back-up to Mains (@ Normal Mode) | ? 10 msec | |||
Input Voltage Range (@ Normal Mode) | 90V - 300V ± 10V AC |