prologium company profile · testimonial this game changer design provide ev battery pack with 70%...
TRANSCRIPT
The only SSB maker with mass production
capability and commercialized experience
ProLogium Key figures
Founded: 2006
Location:Taoyuan, Taiwan
Employees : 438 (2019/6)
PLG owned 100% Patents
Patents: 293 (2019/10/31)
2006
FLCBAnnounced
FPC Type LCB
2012
2014PLCBCommercialized
Pouch Type LCB
Supply started
2018BLCBAnnounced
G2 LineConstruction Began
BiPolar+ Type LCB
Production Capacity
1~2GWh/ year
2017G1 Line MPRTR Automatic Line
Production Capacity
40MWh / year
2019MABAnnounced
Multi-Axis BiPolar+ Pack
Founded
PLG Milestone
Production Capacity
G1 Line
Location:Taoyuan, TaiwanArea : 11,000 m2
Production Capacity:40MWhMP@2017
Current Production Capacity: 40MWh
2021 Production Capacity: 1~2GWh
G2 Line
Location:Taoyuan, TaiwanArea : 60,000m2
Production Capacity:1~2GWhMP @2020~2021
Production Line
BLCBPLCBFPC Type Pouch Type BiPolar+ Type
Ultra thin 0.43mm Flexible
(R40mm, 7,000times) Tubular type : TLCB Logic circuit adoptable Good pressure durability:
10-11 ATM ~680ATM
Fast charge ability: 2018:70% in 12 mins2019: 90% in 12 mins
Discharge @-40℃~115 ℃ Storage @-65℃~115 ℃
BiPolar+ technology Series/ parallel inside cell High voltage (8.4V~49V)
FLCB
MAB
Multi Axis BiPolar+ technology, only 1/1000 cell amount Simplify protection mechanism, cooling system and BMS to increase
assembly efficiency in volume and weight 70% weight, 50% volume and 70% cost of traditional battery pack
Multi-Axis BiPolar+ Pack
PLG Global Patents Distribution
PLG’s 100% exclusive patents distribution in EU, US, China and Japan. Total 293 patents until 2019 Oct.
Patents over the years
181
112Oct. 2019
3149
58 5874
128
212
310
2012 2013 2014 2015 2016 2017 2018 2019
(estimated)
20152014
Testimonial
This game changer design
provide EV battery pack with
70% cost, 50% volume, 80%
weight and the key is, an
intrinsically safe promise to users.
—Edison Award
Lithium Battery System Evolution
Solid State Electrolyte Comparison
SSB Market Status
SSB MP Progress
Solid-State Battery
Battery System EvolutionUsers are always pursuing higher energy density and stabi l ity
Safety
EnergyDensity
LCO
LMO
LTO
LiFePo4
NMC
SSB
Battery system with L iquid ELT/ PP,PE separator
Battery system withoutL iquid ELT/ PP,PE separator
O Safety X E.D.X Life O Cost
O Safety X E.DO Life O Cost
X Safety O E.D. Life X Cost
X Safety O E.D.Life Cost
O Safety O E.D. O Life O Cost
(at same MP scale)
O Safety O Life X E.D X Cost
Conductivity
MP
FeasibilityStability
Conductivity
MP
FeasibilityStability
Conductivity
MP
FeasibilityStability
Conductivity
MP
FeasibilityStability
SulfideOxide Thin film Solid Polymer
• Best stability
• Ultra safe
Abandon SeeoAbandon Sakti3
RepresentativesIPS Not MP
Solid State Electrolyte Comparison Good Poor
• Poor stability
• “Hydrogen sulfide (H2S) ” is produced easily during battery processing and under abnormal operation
• High interface resistance is solved by Ceramion® Tech.
• Electrode brittle issue is conquered by Microcell® Tech.
• Wet processing
• Only few solvent can be used but each has side effect
• Only few binder can be used but each has side effect
▪ Cost is too high
▪ Semi-conductor processing
▪ Poor stability, not safe
▪ E.D. is limited(similar to liquid type)
▪ Poor ion conductivity
▪ Poor pack E.D. of110-140Wh/L
▪ High temp. and high pressure is needed at module level
ElectrolyteBefore 2018
Amount Main Players
Solid Polymer 8Bollore /Bosch& Seeo /Solid
Energy/ EMBATT/ Ionic Material/ Qingtao/WeLion/QuantumScape
Thin Film 3Apple(IPS)/
Dyson& Sakti3 /STM
Sulfide 8Toyota/ CATL/ Solid Power/ Samsung SDI / LGC/ Hitachi Zosen/Panasonic/Ganfeng*
Oxide 2 ProLogium/ Murata-Sony
After 2018
Amount Main Players Note
4Bollore / Solid Energy/
EMBATT/ Ionic Material1.Bosch gave up automotive battery, selling Seeo.2. Qingtao/WeLion/QuantumScape turned to Oxide.
1 STM1. Dyson abandoned Sakti3’s IP2. IPS haven’t MP since acquired by Apple
7Toyota*/ CATL/ Solid Power/ Samsung SDI / LGC/ Hitachi
Zosen/Panasonic
1.Toyota turned to hybrid-oxide& sulfide2.Genfeng turned to oxide
10
ProLogium/ Murata-Sony/QuantumScape/TDK/FDK/NGK/Qingtao/WeLion/
Toyota/Ganfeg
1.ProLogium: Worldwide only wet film MP tech without sintering, RTR process adoptable.
2. Others: Dry film sintering process, difficult to MP or produce high capacity automotive battery
8
3
8
2
4
1
7
10
Solid Polymer Thin Film Sulfide Oxide
Before 2018
After 2018
Trend of Solid State Electrolyte
TOYOTA (2022)*Panasonic (2025-2030)/S
*Hitachi ZosenSolidEnergy (2025)
CATL (2025-2030)
BoschApple (IPS)
Seeo Inc. (Bosch)2007-2018
QuantumScape (2025)
Samsung SDI LG Chem
Sakti3 (2015-2018)
STMicroelectronics
*Hydro-Quebec’s IREQ / Bollore (60~80C)
EMBatt (2025) *
MP
Solid Power (2026)
Ionic Material
PLG **
2014 SBS MP 2017 RTR MP
2017~2018 :40MWh/year
2020~2021: 1~2GWh/year
muRata - SonyTDKFDKNGK
So l id state batter y i s a l located g lobal ly s ince l iqu id ty pe i s fa r beh ind the m arket dem and. PLG i s a p ioneer w i th MP ab i l i ty in 2013, ro l l to ro l l MP in 2017 and wor ldwide f i rst B iPo lar + tech .
Global SSB Development Status
▪ Ceramic thin film battery▪ Solid polymer battery▪ Ceramic thick film battery (Oxide ELT)▪ Ceramic thick film battery (Sulfide ELT)
“*” BiPolar SSB (can be series)“**” Advanced BiPolar(series and parallel)- BiPolar+ “
Global SSB MP ProgressPLG’s SSB MP progress leading industry over 4~10 years
Japanese Competitors@2019US Competitors
@2019
MP ScheduleProLogium @2021Japanese@2025~2030US/Euro @2025~2026
PLG @2017TOYOTA@2022
Solid State Lithium Ceramic Battery
Multi Axis BiPolar+ Pack
PLG Dual Core Tech. Advantages
PLGCore Technology
PLG Core Tech.
1. Lithium Ceramic Battery 2. Multi Axis BiPolar+
Al Foil (Current Collector)
Cathode
Solid State Lithium Ceramic Electrolyte
Anode
Cu Foil (Current Collector)
No Explosion No Leak
• Ultra safe• High energy density• Wide operation temp./ pressure.• Fast charging capability• Excellent heat dissipation
• Series and parallel inside cell• Low inner resistance/ low heat production• Simplify cooling/ mechanism/BMS• Assembly efficiency increased by 29%~56.5%
to 75% .(cylindrical 32%; pouch 46%; prismatic 53%)
-Based on SSB advantages- Solid state oxide electrolyte
Ceramion® Microcell® Logithium®
Lithium Ceramic Battery 3 breakthrough technologies to fix initial weakness of oxide ELTIncrease electrical performance to liquid level, even better
Provide SafetyIncrease Conductivity
Solve Brittle IssueMake RTR Possible
Create Excellent Heat Dissipation Ability
Al Foil (Current Collector)
Solid Ceramic Electrolyte
PI
Cathode
Anode
Cu Foil (Current Collector)PI
Radiating rapidly and directly
PLG Core Tech.
Improved withCeramion®
Improved withMicrocell®
Conductivity
MPFeasibilityStability
MPFeasibility
Stability
Conductivity
Multi Axis BiPolar+ 3 innovational package tech. to simplify mechanism, cooling and BMSIncrease pack assembly efficiency
PLG Core Tech.
BiPolar+® S-Inlay® Logi-Pack®
Inner Series/ Parallel
Decrease Resistance
Increase Assembly Efficiency
Electricity Travel PathContact Surface
Shortest Distance
Stacking to increase energy
Enhance Cooling Efficiency
Improve Safety@ High Voltage
Embedded detection
Simplify BMS
Enhance Active Current
Balance
4S
+ - + -- + - ++ - + -- + - +
2S 2S 2S 2S
V
1
V
2
V
3
V
4
Pattern Tape Tech
2S * 4 = 8S
Cooling Gel
Solve EV Downsides:
─ Statista<Most import factors when buying EV>
PLG Dual Core Tech. Advantages
• Ultra Safe
• High Energy Density
• Wide Operation Widow
• Good Fast Charge Ability
• Long Cycle Life(Calendar Life)
LCBPoor Safety
Too Long to Charge
Short Battery Life
Short Driving Distance
Price too High
• High Pack Energy Density
• Lower Pack Total Cost MAB
1. Ultra SafeLCB Advantage
LCB adopts solid-state ceramic electrolyte, so there is no
fire and no explosion even it ’s damaged, folded, punched,
penetrated, or abnormal charged
Thermal Runaway Point
Solid State 230~280°C (No Explosion)
Liquid Type T Company 130°C (No Explosion)
Liquid Type C Company 130°C (No Explosion)
Liquid Type L Company 130°C (No Explosion)
ItemsSafety Standards of “SSB”
Required by EU Car BrandChina “LiB” Safety Standards GBT-31485
Nail
60℃ Penetration RT; 5~8mm; 25cm/Sec
PLG: PASS LiB : Failed PLG: PASSLiB : Failed
2017/1/17: Test Canceled
Overcharge
5C,10V @ 60℃ 1C, 8.4V
PLG: PASS LiB : Failed PLG: PASSLiB : Failed
2017 downgraded to 1C, 6V2019 downgraded to 1C, 4.5V
Thermal
25~200℃, SOC100% 5℃/min;130℃*10min
PLG: PASS LiB : Failed PLG: PASS LiB : PASS
1. Ultra Safe: International Safety Regulation
PLG’s SSB still stable over critical safety test conditions
<Physical> 60°C Penetrate <Electrical> 60°C Over Charge *5C/10V
1. Ultra SafeLCB Advantage
PLG’s SSB still stable over critical safety test conditions
No Short Circuit PointLiquid PE/PP Short Circuit Point@120~140°C
Oven TestCriteria EUCAR Hazard Level
25~200℃, SOC100% 3 or 4
Comments
Cell swelling visible. Impact on safety test with cell tensed up is open.
Thermal Stability<High Temp.> 280°C Storage <High Temp.> 200°C Storage
1. Ultra SafeLCB Advantage
The high stability and mechanical strength of ceramic electrolytes makes LCB resistant to extreme pressure/temperature
High/ LowTemp.
X
High/ LowPressure
-40°C Discharge
Polar/Mine/Freeze
115°C Discharge
Stove/Fire
10-8 TorrVacuum/ Space
680 ATM6,790M under water
Unlimited
Applications=
2. Wider Operation WindowLCB Advantage
Conditions PLG SSB Polymer
Operation Window(Charge)
-20~85°C 0-45°C
Operation Window(Discharge)
-40~85°C @4.2V-3V85~115°C @3.9V-3V
-20~60°C
Storage-65°C (3 months)~85°C (14 days) @4.2V or-65°C (3months)~105°C (14 days) @3.9V
115°C (7days) @3.9V -20~60°C
0 -20 -20-20-40
-65others PLG
2. Wider Operation Window: TemperatureLCB Advantage
4560 60
85
115 115
3. Fast Charge AbilityLCB Advantage
Progress in Fast Charging Surpassing Cylindrical LiB
By improving conductivity, LCB’s fast charging capability is increased year by year.
93.1%
82.1%72.2%
65.5%59.2%
90.3%84.5%
80.0% 78.4% 77.2%
92.8%
87.8%84.8% 82.5% 80.4%
92.8% 90.1% 96.2% 98.0%91.7%
1 C6 0 M I N
2 C3 0 M I N
3 C2 0 M I N
4 C1 5 M I N
5 C1 2 M I N
PLG 2017 PLG 2018 PLG 2019(no heat) PLG 2019(heat)
92.8% 90.1% 96.2% 98.0%91.7%92.8% 87.8% 84.8% 82.5%
80.4%
91.4%86.5% 82.6% 78.5%
71.9%
1 C6 0 M I N
2 C3 0 M I N
3 C2 0 M I N
4 C1 5 M I N
5 C1 2 M I N
PLG 2019(heat) PLG 2019(no heat) P company
Cycle life and calendar life are both important factors when estimating battery lifetime.
Lifetime Cycle Life & Calendar LifeChemical Stability Chemical/Electrochemistry
High Temp. Stability
4. Long LifetimeLCB Advantage
PLG SSB cycle life was better than liquid type battery, 80% capacity after 1,800 cycle
T Company/ P Company0.5C/1C 500 times (69%)
Deep <Cycle> Test
Capacity≧3AhCapacity ≧ 3Ah
4. Long Lifetime: Cycle LifeLCB Advantage
0.5C/0.5C 1,800次 (80%)1.0C/1.0C 1,300次 (80%) 0.5C/2.0C 600次 (80%)
PLG
Fast Charge Cycle
【ProLogium LCB】
1. 2C fast charge:currently finished 520th cycle
2. 4C fast charge : currently finished 880th cycle
【Liquid type lithium battery】
No cycle test data under fast charging
4. Long Lifetime: Fast Charging ToleranceLCB Advantage
Even cycle under critical fast charging condition, LCB still remain excellent fast charging ability.
Test under 60°C/60 days to simulate 2 years usage, LCB retention capacity is 15% higher than liquid battery and no DCIR increment. Maximum capacity usage due to high consistency between cells caused by bare internal resistance differences. Longer pack life time to reduce maintenance fee of customers.
Retention (%)
PLG PLCB (N=1) 18650B (N=3)
100
70
75
80
85
90
95
100
0 2 4 6 8
Days20 40 60
15% more
than 18650
DCIR Comparison
0
1
2
3
0 5 10
Days
20 40 600
PLG PLCB (N=1) 18650B (N=3)
PLCB
1.0
18650 increase
200%
60°C Cycle Test
4. Long Lifetime: Calendar LifeLCB Advantage
0 20 40 60 0 20 40 60
Increase both cell energy density and pack assembly efficiency to maximum pack energy density
High E.D.
Pack=
High E.D.
Cell
X
High Assembly
Efficiency
LCB
MAB
Driving Distance
Equal to Fuel Car=
1. High Energy Density Battery PackMAB Advantage
500
600
680750
816880
9601033
200240
270 290 310340 360 380
0
200
400
600
800
1000
1200
2 0 1 8 2 0 1 9 2 0 2 0 2 0 2 1 2 0 2 2 2 0 2 3 2 0 2 4 2 0 2 5
數列1
數列2
Toyota @2030: 800Wh/L
Toyota @2022: 450Wh/L
Wh/kg
Wh/L
Cell Energy Density Roadmap Engineering Sample
1. High E.D. Pack: Cell LevelMAB Advantage
SiOx (14%=>100%) Li-metal/ Pure Si Gr.Anode
NMC811 HNCA/HNMCNMC622CathodeHigh E.D. /DangerousLow E.D. /Safe
Vo
lum
e U
tility o
f Ba
ttery
pa
ck in
Diffe
ren
t EV
EV Pack Assembly Efficiency
TraditionalBattery Pack
PLG achieve EV ultimate goal @ 2022
Source: Nikkei Automotive 2018.09
750 km 600 Wh/LDistance Pack Energy Density
800 Wh/L X 75 %Cell Energy Density MAB Assembly Efficiency
MAB assembly efficiency reaches 75%, which is 29%~56.5% higher than traditional battery by simplifying mechanism, cooling system and BMS
1. High E.D. Pack: Assembly EfficiencyMAB Advantage
170204 230 247 264 281 298 323
050100150200250300350400
【Pack】 ROADMAP (Wh/kg)
China Standard:2025: 300Wh/kg
2020: 220Wh/kg
200240 270 290 310 330 350 380
【Cell】 ROADMAP (Wh/kg)
2020 : 300Wh/kg
China Standard2025 : 400Wh/kg
500600
680750 816 880
9601033
2018 2019 2020 2021 2022 2023 2024 2025
375450 510 563 612 660 720 775
0
200
400
600
800
1000
2018 2019 2020 2021 2022 2023 2024 2025
TOYOTA 2022 target: 450Wh/L
Tesla Model 3 Cell: 715Wh/L
【Cell】 ROADMAP (Wh/L)
【Pack】 ROADMAP (Wh/L)
TOYOTA 2022 target: 338Wh/LTesla Model 3 Pack: 232Wh/L
(Engineering Sample)1. High E.D. Pack: E.D. Road MAPMAB Advantage
2020 MP
Energy Density (Wh/L) Specific Energy (Wh/Kg)
CellAssembly Efficiency
(Volume)Pack Cell
Assembly Efficiency(Weight)
Pack
LIB
Cylindrical 715 32% 232 250 66% 166
Pouch 600 46% 276 278 68% 189
Prismatic 520 53% 275 265 70% 185
PLG MAB Pack 600 75% 450 240 85% 204
232 276 275
523
166189 185
238
CYLINDRICAL POUCH PRISMATIC MAB
Wh/L
Wh/L Wh/L
Wh/L
Wh/kgWh/kg Wh/kg
Wh/kg
Pack Energy Density Comparison
1. High E.D. Pack: Best Among AllMAB Advantage
Commercialization
2014Accessories
Accumulated Revenue
USD 5,170,967
2015Smart Card
Wearable2017~2018IOT/Industry
Special Application
( till 2018)
Vehicle
Consumer
Industry
EV /Rail /Ship
E-bike/Portable/Wearable/IoT
Device/IIoT/Vehicle/ESS
PLG Target Market
Sat5G
Extremely High/Low Pressure EnvironmentIndustrial & Professional
High/LowPressure
Extremely High Temp X Low Pressure
Extremely Low Temp X Low Pressure
Extremely High Pressure
Extremely High Pressure
Wafer inspection
EV : MAB pack
-Ultra safe
-High energy density
-MAB Technology
-High assembly efficiency
Vehicle
Model Name Voltage (V) Capacity (Ah) Dimension (mm) Pack Energy
MAB Cell 43.8V 43Ah customized 1.8 kWh
MAB Module 43.8V 215Ah customized 9.4 kWh X n
MAB Pack customized
* 2018 MP Spec
Model Name Voltage (V)Capacity
(Ah)Dimension
(mm)Pack Energy
PLCB133218 48 42 customized 2kWh
E-ScooterVehicle
* 2018 MP Spec
-Ultra safe
-High energy density
-High assembly efficiency
Rolling Stock & Ship
-Ultra safe
-High energy density
-MAB Technology
-High assembly efficiency
Vehicle
* 2018 MP Spec
Model Name Voltage (V) Capacity (Ah) Dimension (mm) Pack Energy
PLCB133218(NSNP)
120V 3000Ah Customized 360 kWh
Smart Helmet Wrist BandHeating Insole
Cell Spec
Dimension/ mm 52*55
Capacity 770mAh
Operation Voltage 4.4V-3.0V
Thickness/ mm 4.8mm
Cell Spec
Dimension/ mm 42*88
Capacity 1450mAh
Operation Voltage 4.35-2.75V
Thickness/ mm 6.3mm
Cell Spec
Dimension/ mm 107*163
Capacity 1880mAh
Operation Voltage 4.35-2.75V
Thickness/ mm 1.72mm
-Ultra safe-Ultra thin, flexible-Good temp. durability
* 2018 MP * 2018 MP * 2018 MP
Wearable DeviceConsumer
-Ultra safe-Ultra thin, flexible-Good temp. durability
-Ultra safe-Ultra thin, flexible-Good temp. durability
Portable DeviceConsumer
iphoneX Case Power Leaf TagPower Bag
Cell Spec
Dimension/ mm 133*218(mm)
Capacity 3550mAh
Operation Voltage 4.4V-3.0V
Thickness/ mm 1.5mm
Cell Spec
Dimension/ mm 60*105
Capacity 1500mAh
Operation Voltage 3.75 V
Thickness/ mm 3.3mm
Cell Spec
Dimension/ mm 51*76
Capacity 700mAh
Operation voltage 3.75V
Thickness/ mm 2.8mm
-Ultra safe-Ultra Thin
* 2018 MP * 2018 MP * 2018 MP
-Ultra safe-Ultra Thin
-Ultra safe-Ultra Thin
Portable DeviceConsumer
E-Book Cell PhoneE-Bike
Cell Spec
Dimension/ mm 133*218
Capacity 15 Ah
Operation Voltage 36 V
Thickness/ mm customized
Cell Spec
Dimension/ mm 210*160
Capacity 1900mAh
Operation Voltage 4.35V-2.75 V
Thickness/ mm 0.9 mm(2P)
Cell Spec
Dimension/ mm 60*105
Capacity 2200mAh
Operation voltage 7.2V
Thickness/ mm 4.3mm
-Ultra safe-High E.D.-High assembly efficiency
* 2020 MP * 2018 MP * 2021 MP
-Ultra safe-Large footprint-Flexible, ultrathin (0.43mm)
-Ultra safe-7.2V high voltage BLCB-Good stability
-Ultra thin, flexible-Good pressure durability
Tracker ThermometerSmart Card
Cell Spec
Dimension/ mm 27* 38(mm)
Capacity 17mAh
Operation Voltage 4.35-2.75V
Thickness/ mm 0.43mm
Cell Spec
Dimension/ mm 40*40(mm)
Capacity 380mAh
Operation Voltage 4.35V-2.75 V
Thickness/ mm 5.2mm(15P)
Cell Spec
Dimension/ mm OD: 5.8* 29(mm)
Capacity 17mAh
Operation Voltage 4.35-2.75V
-Ultra safe
-Ultra thin-Long cycle life
-Ultra safe
-Ultra thin, flexible-Good temp. durability
* 2018 MP * 2018 MP* 2018 MP
IOTConsumer
Power Vest Medical DevicesRugged Tablet
Cell Spec
Dimension/ mm 133x 218
Capacity 5.4Ah
Operation Voltage 4.35V-2.75 V
Thickness/ mm 2.1
Cell Spec
Dimension/ mm 107*163
Capacity 2.82 Ah
Operation Voltage 4.35V-2.75 V
Thickness/ mm 2.8
Cell Spec
Dimension/ mm 240*105
Capacity 10 Ah
Operation Voltage 4.35V-2.75 V
Thickness/ mm 4.5
-Ultra safe
-Ultra thin-Good temp. durability
* 2019 MP * 2018 MP * 2019 MP
Industry Wearable/ DevicesIndustry/ Special Application
-Ultra safe
-High energy density-Wider operation window-Good temp. stability(105°C discharge )
-Ultra safe
-Ultra thin-Good temp. durability
ELD
-Ultra safe-Flexible-Good temp. stability (85°C discharge )
-Good low pressure durability(10-8torr@85°C)
SensorT-Box
Electronic Logging Device
Cell Spec
Dimension/ mm 52*55
Capacity 600mAh
Operation Voltage 4.2V-3.0 V
Thickness/ mm 4.8
-Ultra safe
-High energy density-Storage 14days @85°C(swelling <10%) -Wider operation window-Good temp. stability(DCH 2C >90% @ 85°C )
Cell Spec
Dimension/ mm 42*88
Capacity 600 mAh
Operation Voltage 3.9V-3.0 V
Thickness/ mm 6.3
Cell Spec
Dimension/ mm 46*46
Capacity 45 mAh
Operation Voltage 4.35V-2.75 V
Thickness/ mm 0.43
* 2018 MP * 2018 MP * 2018 MP
IOVIndustry/ Special Application
-Ultra safe
-High energy density-Storage 7days @115°C(swelling <10%) -Wider operation window-Good temp. stability(DCH 2A >81%, 16min @115°C )
-Ultra safe-Good temp. stability
(-40°C ~ 90°C discharge )
-Good fast charge ability-High Pack energy density(BLCB)
UGV
System Model Name Voltage (V) Capacity (Ah) Dimension (mm) Energy
Cell PLCB133218 (10P) 3.6 11 133 x 218 x 3.5 39.6 Wh
Pack 13S8P 46.8 88 1064 x 218 x 45.5 4.1 kWh
* 2019 MP
Commercial VehicleIndustry/ Special Application
Vehicle
-Ultra safe
-High energy density(BLCB)
-Good high pressure durability
(680ATM= 6790m under water)
-Good stability@ low temp.
(-10°C charge/discharge )
AUV
System Model Name Voltage (V) Capacity (Ah) Dimension (mm) Energy
Cell PLCB133218 3.6 11 133 x 218 x 3.5 39.6 Wh
Pack 8S1P 28.8 11 133 x 218 x 28 317 Wh
* 2019 MP
Industry/ Special Application
VehicleIndustry/ Special Application
Drone
Items Position Model Name Voltage(V) Capacity(Ah) Dimension(mm) Energy
ControlSystem
WingsFLCB210160
(4P)* N * 2(2 Wings)14.4V 4.6 210*160 66.2 Wh
Main Power Body PLCB060105 17.9V 15.6 133*218 279.24 Wh
-Ultra safe
-Flexible
-Wide operation window
-Balanced weight
* 2020 MP
ESS
Products System Model Voltage (V) Capacity (Ah) Dimension (mm) Energy
ServerBackup Battery
PLCB133218 3.75 8.3 133 x 218 x 3.7 31Wh PLCB133218
13S1P 48 8.3 133 x 218 x 48.1 398Wh 13S1P
Data CenterBackup Battery
PLCB133218 3.75 8.3 133 x 218 x 3.7 31Wh PLCB133218
PLCB133218 270 838 Customized 226KWh PLCB133218
RenewableEnergy
PLCB133218 3.75 8.3 133 x 218 x 3.7 31Wh PLCB133218
13S3P 48 24.9 399 x 218 x 48.1 1.2kWh 13S3P
Commercial ESS
* 2018 MP
-Ultra safe
-Long calendar life
-High discharge rate@ high temp.
-High energy density
-Wider operation:-40°C ~ 105°C discharge
Industry/ Special Application