Tiankang PL1865CCW

The Batemo Cell of the lithium-ion battery cell Tiankang PL1865CCW is a high-precision, physical battery model with global validity. As a digital twin it seamlessly integrates into your research, development and battery analytics by basing your decisions on simulations.

Cell Origin purchased on free market
Cell Format 18650
Dimen­sions 18.15 x 65.8 mm
Weight 41.9 g
Capacity
[defin­i­tion]
The nominal capacity origi­nates from the manufacturer’s data sheet, if avail­able. When the data sheet is unavail­able, the nominal capacity is estimated. Batemo measured the C/10 capacity by discharging the cell at an ambient temper­a­ture of 25°C from 100% with a constant current of 0.15A (0.1C) until reaching the voltage of 1.5V. The thermal boundary condi­tion is free convection.
nominal 1.50 Ah
C/10 1.52 Ah
Current
[defin­i­tion]
All quanti­ties are measure­ment results of the Batemo battery labora­tory. The contin­uous current is the highest current that completely discharges the cell without over-heating it. Therefor, the cell is discharged from 100% state of charge at an ambient temper­a­ture of 25°C with a constant current until reaching a residual state of charge of 10% and either the voltage of 1.5V or 90% of the maximum surface temper­a­ture of 54°C. The peak current is the current the cell can deliver for 5 minutes. Conse­quently, the cell is discharged from 100% SOC at an ambient temper­a­ture of 25°C with a constant current until reaching either the voltage of 1.5V or the surface temper­a­ture of 60°C after 5 minutes. The thermal boundary condi­tion is free convec­tion. These opera­tional condi­tions might be outside the speci­fi­ca­tion of the cell manufacturer.
contin­uous 7.4 A
peak 12.0 A
Energy
[defin­i­tion]
Batemo measured the C/10 energy by discharging the cell at an ambient temper­a­ture of 25°C from 100% with a constant current of 0.15A (0.1C) until reaching the voltage of 1.5V. The thermal boundary condi­tion is free convection.
C/10 3.65 Wh
Power
[defin­i­tion]
All quanti­ties are measure­ment results of the Batemo battery labora­tory. The mean contin­uous power is the highest power that completely discharges the cell without over-heating it. There­fore, the cell is discharged from 100% state of charge at an ambient temper­a­ture of 25°C with a constant current until reaching a residual state of charge of 10% and either the voltage of 1.5V or 90% of the maximum surface temper­a­ture of 54°C. The peak power is the power the cell can deliver for 5 minutes. Conse­quently, the cell is discharged from 100% SOC at an ambient temper­a­ture of 25°C with a constant current until reaching either the voltage of 1.5V or the surface temper­a­ture of 60°C after 5 minutes. The thermal boundary condi­tion is free convec­tion. These opera­tional condi­tions might be outside the speci­fi­ca­tion of the cell manufacturer.
contin­uous 15.7 W
peak 24.3 W
Energy Density
[defin­i­tion]
The energy densi­ties result from the C/10 energy, the cell weight and the cell volume.
gravi­metric 87.2 Wh/kg
volumetric 215 Wh/l
Power Density
[defin­i­tion]
The power densi­ties result from the peak power, the cell weight and the cell volume.
gravi­metric 580 W/kg
volumetric 1.43 kW/l

Batemo Cell

The Batemo Cell of the lithium-ion battery cell Tiankang PL1865CCW is a high-preci­sion, physical cell model with global validity. As a digital twin it seamlessly integrates into your research, devel­op­ment and battery analytics by basing your decisions on simula­tions. See the details to learn more about the features and capabil­i­ties of the Batemo Cell. Batemo demon­strates the accuracy and validity of the Batemo cell by comparing battery simula­tion and measure­ment data in the range given below. Valida­tion is exten­sive, exper­i­mental charac­ter­i­za­tion covers the total opera­tional area of the cell: At low and high temper­a­tures, up to the maximal current and in the whole state of charge range.

State of Charge Range 0 … 100%
Current Range
[defin­i­tion]

The current range are the electrical current limits as used in the Batemo battery labora­tory. Please see the Tiankang PL1865CCW data sheet for the precise defin­i­tion of the current safe area of opera­tion of the cell.
-30 A discharge … 6 A charge (-20.0C … 4.0C)
Voltage Range
[defin­i­tion]

The voltage range are the electrical voltage limits as used in the Batemo battery labora­tory. Please see the Tiankang PL1865CCW data sheet for the precise defin­i­tion of the voltage safe area of opera­tion of the cell.
1.5 … 2.7 V
Temper­a­ture Range
[defin­i­tion]

The temper­a­ture range are the thermal limits as used in the Batemo battery labora­tory. Please see the Tiankang PL1865CCW data sheet for the precise defin­i­tion of the temper­a­ture safe area of opera­tion of the cell.
-20 … 60 °C

Moreover, the Batemo Cell valida­tion will be fully trans­parent. The Batemo Cell Data contains the raw measure­ment and simula­tion data. For all exper­i­ments the voltage, temper­a­ture, power and energy accura­cies are calcu­lated. This allows straight-forward evalu­a­tion and analysis of the Batemo Cell validity. The graphs show a selec­tion of charac­ter­istic data of the cell Tiankang PL1865CCW to evaluate the cell perfor­mance. The predic­tion of the Batemo Cell is included as soon as the Batemo Cell is finished.

Discharge Charac­ter­is­tics

Tiankang_PL1865CCW_const

  • Discharge Charac­ter­is­tics: The electrical and thermal discharge behavior is strongly nonlinear.
  • Pulse Charac­ter­is­tics: The shape of different current pulses changes strongly.
  • Energy Charac­ter­is­tics: The graph visual­izes how much energy the cell can deliver when operated at different powers.
  • Power Charac­ter­is­tics: The more power the cell supplies, the shorter it can deliver the power.
  • Thermal Charac­ter­is­tics: The thermal losses heat up the cell the more, the higher the depleted power is.

Pulse Charac­ter­is­tics

Tiankang_PL1865CCW_pulse

[show exper­i­ment defin­i­tions]

Discharge Charac­ter­is­tics
The cell is discharged from 100% SOC with different constant currents at different ambient temper­a­tures. The thermal boundary condi­tion is free convec­tion. The measure­ment stops when reaching either the voltage of 1.5V or the surface temper­a­ture of 60°C.
Pulse Charac­ter­is­tics
The cell is discharged from 100% SOC with current pulses followed by no-load phases at different ambient temper­a­tures. The thermal boundary condi­tion is free convec­tion. The measure­ment stops when reaching either the voltage of 1.5V or the surface temper­a­ture of 60°C. The graph shows a zoomed view of the measure­ment to visualize one of the pulses.
Energy Charac­ter­is­tics
The cell is discharged from 100% SOC with different constant currents at 25°C. The thermal boundary condi­tion is free convec­tion. The measure­ment stops when reaching either the voltage of 1.5V or the surface temper­a­ture of 60°C. The graph shows the derived exchanged energy and average power of the experiment.
Power Charac­ter­is­tics
The cell is discharged from 100% SOC with different constant currents at 25°C. The thermal boundary condi­tion is free convec­tion. The measure­ment stops when reaching either the voltage of 1.5V or the surface temper­a­ture of 60°C. The graph shows the derived exper­i­ment duration and average power of the experiment.
Thermal Charac­ter­is­tics
The cell is discharged from 100% SOC with different constant currents at 25°C. The thermal boundary condi­tion is free convec­tion. The measure­ment stops when reaching either the voltage of 1.5V or the surface temper­a­ture of 60°C. The graph shows the cell surface temper­a­ture at the end and the derived average power of the experiment.

Energy Charac­ter­is­tics

How much energy can it deliver?

Tiankang_PL1865CCW_energy

Power Charac­ter­is­tics

How long can it deliver the power?

Tiankang_PL1865CCW_power

Thermal Charac­ter­is­tics

How hot does it get?

Tiankang_PL1865CCW_thermal

The mean accura­cies and supported simula­tion tools are published as soon as the Batemo Cell is finished.

Batemo Cell Data

Batemo offers an exten­sive, exper­i­mental charac­ter­i­za­tion of the lithium-ion battery cell Tiankang PL1865CCW. The data contains measure­ment results in the total opera­tional area of the cell. The descrip­tions and graphs below explain and show the avail­able measure­ments. The Batemo Cell Viewer allows easy and fast analysis, evalu­a­tion and compar­ison of the data. See the details to learn more.

Constant Currents

The cell is discharged from 100% SOC or charged from 0% SOC with different constant currents at different ambient temper­a­tures. The thermal boundary condi­tion is free convec­tion. The measure­ment stops when reaching either the voltage of 1.5V or 2.7V or the surface temper­a­ture of 60°C. The graph shows for which ambient temper­a­tures and charging and discharging constant currents measure­ments are available.

Pulse Currents

The cell is discharged from 100% SOC or charged from 0% SOC with current pulses followed by no-load phases at different ambient temper­a­tures. The thermal boundary condi­tion is free convec­tion. The measure­ment stops when reaching either the voltage of 1.5V or 2.7V or the surface temper­a­ture of 60°C. The graph shows for which ambient temper­a­tures and pulse currents measure­ments are available.

Power Profiles

The cell delivers a typical power profile from 100% SOC at different ambient temper­a­tures. The thermal boundary condi­tion is free convec­tion. The measure­ment stops when reaching either the voltage of 1.5V or the surface temper­a­ture of 60°C. The table summa­rizes for which ambient temper­a­tures the profile is available.

Tiankang_PL1865CCW_validation_const
Tiankang_PL1865CCW_validation_pulse
Ambient Temper­a­ture Avail­able
-20 °C profile_check
0 °C profile_check
25 °C profile_check
40 °C profile_check