Cylindrical 26700 High-Power Cell
Tenpower 32HES
Cylindrical 26700 cell delivering 3.2 Ah capacity with 115 Wh/kg energy density and 10 A maximum discharge rate.
Overview
The Tenpower 32HES is a high-power lithium-ion cylindrical 26700 cell designed for applications that demand very high continuous discharge rates. Released in 2022 and with the manufacturer based in China, this cylindrical 26700 cell delivers 3.2 Ah capacity and 9.92 Wh of energy at a nominal voltage of 3.1 V, with a maximum continuous discharge capability of 10 A, making it well suited to high-power systems operating under aggressive discharge profiles. A continuous discharge capability of 3.1 C places the 32HES among the highest-rated cells in the 26700 format within the Voltt library.
Key Features
High discharge rate: 10 A continuous (3.1 C)
Charging rate: 2.0 C charging rate
Energy density: 115 Wh/kg
Power density: 360 W/kg
Applications: aviation, motorsports, e-mobility
Technical Specifications from the Manufacturer
Parameter
Manufacturer
Tenpower
Model
ISR26700-32HES
Type
Na-ion
Form factor
Cylindrical 26700
Country of origin
China
Release year
2022
Nominal voltage
3.1
Energy capacity [Wh]
9.92
Capacity [Ah]
3.2
Gravimetric energy density [Wh/kg]
115
Gravimetric power density [W/kg]
360
Max continuous discharge [A]
10
Volume [cm³]
39.57
Mass [g]
86
Positive electrode (cathode)
Negative electrode (anode)
Value
Applications & Use‑Cases
The Tenpower 32HES is well suited to the following applications due to its cylindrical 26700 form factor and high power performance.
Aviation: Requires high specific energy for extended flight duration, high power-to-weight ratio for climb performance, and reliable operation across wide temperature ranges at altitude.
Motorsports: Demands sustained high discharge under competitive load profiles, rapid transient response for acceleration, and thermal stability to maintain performance during race conditions.
E-Mobility: Requires balanced energy and power density for range and acceleration, high cycle life for daily use, and robust calendar life to ensure long-term reliability.
General Applications: Suitable for applications requiring reliable lithium-ion performance with proven cycle life, consistent capacity delivery, and operational safety across diverse use cases.
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Performance & Model Data
Below are modelled performance metrics for the Tenpower 32HES across key indicators, including constant current behaviour, rate capability, temperature dependence, and available power under representative drive cycle conditions.
Constant Current Voltage
The Tenpower 32HES constant-current plots reveal voltage behaviour under steady loads, ideal for analysing efficiency.
Constant Current Temperature
The Tenpower 32HES constant-current plots reveal temperature behaviour under steady loads, ideal for analysing thermal response.
Pulse Power Behaviour
The Tenpower 32HES pulse power map evaluates short-duration load responses, allowing engineers to determine the maximum available power as a function of state of charge and temperature.
Dynamic Profile Response
The Tenpower 32HES mission-profile plots simulate real-world duty cycles, showing how the cell manages dynamic power demands and temperature changes.
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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.
Comparison with Related Cells
Compare the Tenpower 32HES with similar Cylindrical 26700 cells offering comparable capacity and performance characteristics.
Model
Capacity
Max Discharge
Typical Use
Access Cell Data
Manufacturer Background
Tenpower
Tenpower is a Chinese lithium-ion battery manufacturer
Tenpower is an emerging Chinese battery manufacturer specializing in high-performance lithium-ion cylindrical cells for electric vehicles and energy storage applications. Their 21700 format cells emphasize cost-effective energy density and reliable cycle life for mass-market EV adoption. Tenpower's manufacturing approach focuses on process optimization and quality control to deliver competitive battery solutions for China's rapidly expanding electric vehicle market. With investments in automated production lines and material science research, Tenpower aims to capture growing demand from domestic automotive manufacturers and international battery pack integrators. Their cylindrical cell technology balances performance characteristics with manufacturing scalability, positioning them as a value-oriented supplier in the global battery supply chain.
Frequently Asked Questions
What is the capacity and voltage of the Tenpower 32HES?
The Tenpower 32HES has a nominal capacity of 3.2 Ah and a nominal voltage of 3.1 V, providing 9.92 Wh of energy per cell.
What is the maximum continuous discharge capability of the Tenpower 32HES?
The Tenpower 32HES supports continuous discharge rates up to 10 A, delivering a power density of 360 W/kg.
How much does the Tenpower 32HES weigh and what is its volume?
The cell has a mass of 86 g and a volume of 39.57 cm³.
In which industries is the Tenpower 32HES commonly used?
The Tenpower 32HES is used across aviation, motorsports, e-mobility, applications that demand high power delivery and reliable performance across demanding duty cycles.
What is The Voltt and how does it accelerate cell evaluation?
The Voltt is About Energy's digital cell simulation platform that models electrochemical and thermal performance, reducing evaluation time by up to 70% compared to laboratory testing.
What data can be extracted using The Voltt?
Engineers can simulate and visualise voltage, temperature, and power responses under constant-current or mission-profile conditions, generating detailed discharge plots to support accurate cell comparison and validation.
