Designed to provide three run time options to power robotics, pumps in agriculture applications, solar, and auxiliary power units.
Our LiFePO4 batteries offer the customer a significantly reduced total cost of ownership by virtue of their greatly improved cycle and storage life.
Weight: Weight reduction over lead-acid is a key consideration in the decision to use as a replacement for existing lead acid batteries.
Compatibility: When requiring a Li-ion battery that would be compatible with existing chargers, the LiFePO4 is the only Li-ion chemistry that has a voltage compatible with lead acid chargers.
Compatibility with legacy storage systems: Lead acid batteries are still commonly used in the robotic environment. A key advantage of our LiFePO4 over other Li-ion battery chemistries is that LiFePO4’s fundamental voltage (3.2V nominal as opposed to 3.6-3.7V for oxide Li-ion chemistries) provides essentially drop-in replacement for lead acid batteries (4 LiFePO4 cells in series = 12.8V).
LiFePO4 alone allows a back compatibility with legacy systems.
Safety: The intrinsic stability of the LiFePO4 chemistry and lack of event propagation in our batteries is a key consideration of customers selecting us as their Li-ion vendor.
Cycle Life: Given the duty cycle projected for many robotic systems, the battery must be capable of being charged and discharged multiple times per day.
Batteries for Robotics
- UN/DOT 38.3 Compliant
- Individual metal enclosures
- Contain protection circuit which:
- Terminates discharge
- Terminates charge
- Balances on charge
- Contains short circuit protection
- Can be charged with a constant current / constant voltage 24V charger
- Can be connected infinitely in parallel