Yuasa NP7-12 battery
Yuasa NP, NPC and NPH batteries utilise the latest advance design Oxygen Recombination Technology. Yuasa have applied their 80 years experience in theÃ‚Â lead acid batteryÃ‚Â field to produce the optimum design ofÃ‚Â Sealed Valve Regulated Lead Acid batteries. Yuasa NP batteries are the most reliable batteries in the world, which is why industry choose Yuasa over any other battery forÃ‚Â security,Ã‚Â fire,Ã‚Â emergency lightingÃ‚Â anduninterruptible power sourceÃ‚Â (UPS)Ã‚Â applications.
Superb recovery from deep discharge.
Electrolyte suspension system.
Multipurpose: Float or Cyclic use.
Usable in any orientation (except continuous inverted).
Superior energy density.
Lead calcium grids for extended life.
Manufactured World wide.
Application specific designs.
YuasaÃ¢â‚¬â„¢s unique construction and sealing technique ensures no electrolyte leakage from case or terminals
Yuasa NP valve regulated lead acid batteriesÃ‚Â having excellent deep discharge recovery characteristics coupled with long life on float standby, are ideal for numerous applications in both cyclic and standby modes.Ã‚Â They are the ideal security battery for alarm systems;Ã‚Â the ideal battery for fire systems;Ã‚Â the ideal battery for emergency lighting; andÃ‚Â the ideal battery for uninterruptible power source.Ã‚Â For further advice on the use of NP batteries in your particular application please contact our Sales Office.
Electrolyte Suspension System
All NP batteries utilize YuasaÃ¢â‚¬â„¢s unique electrolyte suspension system incorporating a microfine glass mat to retain the maximum amount of electrolyte in the cells. The electrolyte is retained in the separator material and there is no free electrolyte to escape from the cells. No gels or other contaminants are added.
Control of Gas Generation
The design of YuasaÃ¢â‚¬â„¢s NP batteries incorporates the very latest oxygen recombination technology to effectively control the generation of gas during normal use.
Low Maintenance Operation
Due to the perfectly sealed construction and the recombination of gasses within the cell, the battery is almost maintenance free.
NP batteries are manufactured using a range of terminals which vary in size and type. Please refer to details as shown.
Operation in any Orientation
The combination of sealed construction and YuasaÃ¢â‚¬â„¢s unique electrolyte suspension system allows operation in any orientation, with no loss of performance or fear of electrolyte leakage. (Excluding continuous use inverted)
Valve Regulated Design
The batteries are equipped with a simple, safe low pressure venting system which releases excess gas and automatically reseals should there be a build up of gas within the battery due to severe overcharge. Note. On no account should the battery be charged in a sealed container.
Lead Calcium Grids
The heavy duty lead calcium alloy grids provide an extra margin of performance and life in both cyclic and float applications and give unparalleled recovery from deep discharge.
Long Cycle Service Life
Depending upon the average depth of discharge, over a thousand discharge/charge cycles can be expected.
Float Service Life
The expected service life is five years in float standby applications.
The use of the special separator material provides a very efficient insulation between plates preventing inter-plate short circuits and prohibiting the shedding of active materials.
Long shelf Life
The extremely low self discharge rate allows the battery to be stored for extended periods up to one year at normal ambient temperatures with no permanent loss of capacity.
Operating Temperature Range
The batteries can be used over a broad temperature range permitting considerable flexibility in system design and location.
|Charge||- 15Ã‚Â°C to 50Ã‚Â°C|
|Discharge||- 20Ã‚Â°C to 60Ã‚Â°C|
|Storage||- 20Ã‚Â°C to 50Ã‚Â°C (fully charged battery)|
Charging For Float Standby Applications
Charged at 2.275 volts per cell continuous. The battery will seek its own current level and float fully charged. However, users should be aware that when charging from fully discharged, the battery can draw an initial charge current of approximately 2cA. Care should therefore be taken to ensure that this initial charge current (if ungoverned) is within the output capability of the equipment. Final charge current at 2.275 volts per cell is typically between 0.0005cA to 0.004cA.
Charging For Cyclic Applications
See cyclic recharge regime graph.
– Do not Short Circuit
– Do not charge in a sealed container
– Service life and operational characteristics will be affected by temperature
– AC Ripple reduces service life.
The battery type NP65-12I must never be installed permanently suspended by their handles; they are not designed for this purpose.