[Comparison Data] Guide to Replacing Lead Batteries with Lithium-Ion Batteries
Reasons why lithium-ion batteries enhance productivity on-site.
【A Must-See for Those Who Want to Maximize the Operational Efficiency of Industrial Vehicles Such as AGVs and AMRs】 Are you struggling with "power shortages at the end of operations," "frequent battery replacements or upgrades," and "maintenance workload" in your existing lead battery operations? This document clearly explains, with illustrations, why switching from lead batteries to lithium-ion batteries can dramatically improve productivity on-site. ■ Issues that can be resolved with this document: Extending operating time: Prevent "power down" due to voltage drop and maintain full speed until the end. Optimizing investment efficiency: Eliminate the limitation of 70% depth of discharge (DOD) and utilize nearly 100% effective capacity. Reducing total cost of ownership (TCO): Significantly lower replacement costs due to a lifespan over four times that of lead batteries. ■ Topics covered (partial): The decisive difference in "actual operating time" indicated by discharge curves The relationship between "effective capacity" and DOD Cost simulations over 5 and 10 years Before-and-after implementation in AGVs and transport equipment Please use this as a proposal for on-site improvements or as foundational material for internal approvals.
basic information
Data: Lead Battery vs Lithium-Ion Battery Comprehensive Comparison Guide PDF format / Total of 2 pages (front and back) Target devices: AGV, AMR, industrial robots, etc. Comparison items: Discharge characteristics (voltage drop), depth of discharge (DOD), cycle life, total cost
Price information
Please feel free to contact us.
Delivery Time
Model number/Brand name
LI-BATY
Applications/Examples of results
Industrial vehicles (AGV, AMR), industrial robots
