Overview
Manufacturer
Model
Type
Continuous charge [A]
Form factor
Country of origin
Continuous discharge [A]
Release year
EVE Energy
LF280K
Li-ion
Prismatic
China
2020
-
-
Electrical
Nominal Voltage [V]
Energy Capacity [Wh]
Capacity [Ah]
Continuous charge [A]
Gravimetric Energy Density [Wh/kg]
Gravimetric Power Density [W/kg]
Continuous discharge [A]
Max Continuous Discharge (A)
3.2
896
280
165
165
280
-
-
Geometry & Mechanical
Volume [cm
3
]
Mass [g]
Continuous charge [A]
Continuous discharge [A]
2649.61
5420
-
-
Chemistry
Positive electrode (cathode)
Negative electrode (anode)
Continuous charge [A]
Continuous discharge [A]
LFP
Graphite
-
-
EVE Energy
Li-ion
Prismatic
EVE Energy LF280K
Discover the EVE Energy LF280K Battery: Access Advanced Data Sheets and Models. Dive into the technical specifications of the battery and explore detailed data sheets and models. Unlock valuable insights for your projects and make informed decisions with this powerful battery.
The Voltt is our cell selection and simulation platform that cuts the time to identify the right battery for your programme by up to 70%. Start exploring advanced battery data and models with a 14-day free trial of The Voltt to make faster, more confident design decisions with trusted data
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Case Studies
See how we helped McMurtry reduce cell evaluation time by 70% through data driven testing and modelling.
Motorsports
McMurtry Automotive: Faster cell evaluation
McMurtry Automotive used The Voltt and validated cell models to evaluate the transition from the Molicel P45B to P50B during early pack concept development.
Side by side modelling enabled rapid comparison of electrical and thermal behaviour, avoiding lengthy physical test campaigns. This approach reduced cell evaluation time by seven months, allowing the team to lock in cell selection and pack assumptions earlier while lowering technical risk and accelerating vehicle development.
Frequently Asked Questions
1. How quickly can I evaluate and compare battery cells using The Voltt?
The Voltt enables engineers to evaluate and compare battery cells in days rather than months by simulating electrochemical and thermal behaviour upfront. This reduces early stage testing effort by up to 70 percent and accelerates confident decision making.
2. Will The Voltt help me choose the right energy or power cell for my specific application?
Yes. The Voltt compares candidate cells under your real duty cycles and constraints, including power demand, thermal limits, and voltage cut offs. This enables clear trade offs between energy density, power capability, and usable performance for your use case.
3. What outputs do I get from The Voltt, and how do engineers use them?
The Voltt provides voltage, temperature, current, and power responses under constant current, pulse, or mission profile conditions. Engineers use these outputs to compare cells, de risk design choices, and justify selection decisions internally.
4. How accurate are The Voltt models compared to real world testing?
Models in The Voltt are parameterised using high quality laboratory test data generated by About:Energy. This ensures simulated behaviour reflects measured cell performance across real operating conditions, not idealised assumptions.
