Lithium Battery Design
MERITSUN
THE COMPLETE DESIGN, ENGINEERING AND MANUFACTURING SERVICE.
MERITSUN design and custom battery pack, development & manufacturing service integrates seamlessly into your device development programme. Our well-proven project management processes ensure custom solutions are delivered on time & on budget.
Off-the-shelf batteries aren't always suitable so MERITSUN work with you in the early stages of your product development to create truly outstanding battery solutions which provide tangible end user benefits. Correct cell selection is critical in achieving optimal battery & device performance & we help you select the right cell for each application, optimising characteristics such as capacity, rate capability, cycle life & thermal performance.
THE HEART OF BATTERY SOLUTION
Correct cell selection is critical in achieving optimal battery and device performance. We work closely with you to gain a deep understanding of your application and performance requirements. Drawing on years of battery design, testing and manufacturers experience to select the right cell for each application, optimising characteristics such as capacity, rate capability, cycle life and thermal performance.
MERITSUN is an expert in the development of batteries using all of the current rechargeable cell technologies:
Lithium ion Battery Cell Related Products
BMS / BMU / PCBA
(SAFETY & PERFORMANCE FOR ELECTRONIC DESIGN)
MERITSUN have been developing these intelligent battery systems for many years and have built up considerable expertise which we distil into each new battery design. MERITSUN intelligent BMS / BMU / PCBA allow batteries to manage their own charging and discharging both efficiently and safely.
We cater for all sizes of battery, from the smallest single cell solution with simple electronic protection through to large high voltage batteries with active cell balancing, impedance tracking fuel gauging and tiered protection systems.
All of our battery electronics are designed in house to ensure that protection, fuel gauging and even the physical PCB itself are designed around the required battery performance parameters. This approach means that you get the maximum performance, safety and functionality out of each battery. There are no unforseen communication errors, no brown-outs at peaks of demand, no failure of critical components at extremes of temperature and no oversized PCBs taking up space and making the battery (and your device) larger than it needs to be.