Products

 

Primary

Alkaline:
Volume, or retail volumes. Suitable for most consumer electronic goods. All cell sizes including AAA, AA, C, D, 9V

Li Manganese Dioxide:
Suited for high current drain applications. High energy density at a terminal voltage of 3V. Widely used in commercial/military products for high reliability, extended temperature tolerance, and pulse current capability. Available in Coin / Button cells, and cylindrical sizes including 1/2AA, A, AA, B, C and D cell. Short-form LiMnO2 Battery Selector Guide

Li Thionyl Chloride:
Optimised for Extremely high energy density requirements. This primary battery chemistry offers the highest commercially available energy for a given battery size. Suitable for commercial applications where operation/backup is paramount at extremes of temperatures. High 3.6V terminal voltage and very high energy density, plus a 10 year shelf life makes this technology the perfect solution. Various sizes including, 1/2AA, 2/3AA, AA, A, C, D, DD, plus bobbin wound button type cells. Short-form Li-SOCl2 Battery Selector Guide

Li-Iron:
Available in retail and volume packs. This Chemistry is a direct, high energy replacement for Alkaline in many applications. 1.5V terminal voltage makes this battery the optimum energy source for the most demanding high current drain electronic goods. Lasts up to 6 times longer than standard alkaline in digital cameras. Available only in AA size.

Rechargeable

 

Li – Ion:
Highest energy density available from a rechargeable battery and a cell terminal voltage of 3.6V make this chemistry the industry standard for modern electronic goods. Li-Ion offers small size and light weight power for portable high drain devices

Li – Polymer:
Offers similar energy density to Li-Ion chemistry in a thinner form
factor for slim line digital electronic goods. Available in a huge range of different sizes. High pulse current capability as well as lowest self discharge makes this battery ideal for designs with a high standby/pulse current ratio.

Ni – Cd:
Widest temperature range tolerance for rechargeable technology. Terminal voltage of 1.2V. Lower energy density/unit volume, however Ni-Cd offers the advantage of providing maximum available power into near short circuit loads at low cost. Cell sizes include AA, C, D etc

Ni – MH:
Ni-MH chemistry is the next step in Nickel based batteries, boasting higher energy density and no memory effect resulting in an affordable, longer life, more durable solution for  applications suited to 1.2V rechargeable cells.

Lead Acid:
High energy density/unit volume but has a greater mass. Very well suited to standby power applications where reliability are a must. A robust power solution typically available in 6V, 12V, or 24V at capacities ranging from 1.2A/h up to 100’s of A/h. Short-form VRSLA Battery Selector Guide