ProLogium Lithium Ceramic Battery Profile

ProLogium Lithium Ceramic Battery Profile 2018.07

About ProLogium Milestone Technology Target market

About ProLogium ProLogium TM Technology (PLG) is a next generational Lithium battery cell maker who invented the worldwide first ultra-thin, bendable, high capacity Li-ion battery that never leak, fire, or explode. With its high technology content and know-how, PLG has been creating this new battery system independently from establishing on Oct 3 rd, 2006. Later in 2012 Battery Japan, our first product, FLCB, was released and then mass produced and supplied to worldwide market in 2013.

PLG Core Tech - LCB (Lithium Ceramic Battery) 2nd Tech (fm 2017) : Ceramion Tech Ultra-Safe High Energy Density Fast Charging Al Foil (Current Collector) Cathode (with Ceramion ) Lithium Ceramic Electrolyte (with Ceramion ) Good H/L Temp. Stability Good H/L pressure tolerance Ultra-Thin & Flexible Incompressible No Hard Shorting No Thermal Runaway Anode (with Ceramion ) Cu Foil (Current Collector) No Leakage

LCB Features 6 features Ultra-Thin & Flexible 1 features Ultra-Safe 5 features Good H/L pressure Tolerance LCB 2 features High Energy Density 4 features Good H/L Temp. Stability 3 features Fast Charging Capability

1 features Ultra-Safe (Hazard level 2~3) 1. Physical Impact : Nail Penetration 3mm & 8mm/sec 2. Electrical Damage : Over charge (3C 12V) / Hard shorting (</=5 mω) 3. Thermal Impact : Oven Testing (150~200 ) PS. Li-Polymer Battery could not pass above safety testing, especially in BEV application 600Wh/L & 250Wh/kg, Total Capacity >/=10Ah

1 features Ultra-Safe Solid-state LCB is the core technology of ProLogium and based on this, we can create various different products with different materials. LCB adopts solid-state electrolyte, so there is NO fire and No explosion even it s damaged, folded, punched, penetrated, or abnormal charged. Certainly, No leakage, either. The following Physical Impact Tests use bare cells without any protecting IC or rigid frames. Experiments confirmed that LCB is intrinsically safe and still dischargeable even after folding, hitting, penetrating, cutting, or burning. Water sinking Hitting Penetrating Folding Cutting

1 features Ultra-Safe Lithium POLYMER Battery Liquid/Gel Electrolyte Lithium CERAMIC Battery Al Foil (Current Collector) Cathode Polymer Separator Al Foil (Current Collector) Cathode (with Ceramion ) S-Ceramion (with Ceramion ) Thermal Runaway Leakage Anode Cu Foil (Current Collector) Incompressible No Hard Shorting No Thermal Runaway Anode (with Ceramion ) Cu Foil (Current Collector) No Leakage Low Melt Point of PE/PP Separator (120~150 C) Poor Thermal Stability ( 85 C, 8 hrs </=10% swelling) Poor Low Temp Storage ( OK @-20 C) Hard to be melt of S-Ceramion (>1000 C) Good Thermal Stability ( 85 C, 7 days </=10% swelling) Good Low Temp Storage (No Problem @-65 C)

1 features Ultra-Safe 1 st Level Derivative Value High ENERGY 2 nd Level Derivative Value low COST Core Value High SAFETY No problem for Physical Impact No Problem for Thermal Impact No Problem for Electrical Damage => Adopt the High Utilization Active Material, even with High Safety Risk to increasing the E.D. by Cell level => Simplify the Battery Pack design, including BMS, Cooling system and protection material to Increasing the E.D. by Battery Pack level

1 features Ultra-Safe EUCAR (overcharge penetrate thermal test) Level 1 2 3 4 5 6 7 Description Passive protection activated (No defect) Defect (Cell irreversibly damaged) Leakage (Δ mass <50%) Dream venting (Δ mass 50%) Challenge Fire or Flame (No rupture) Acceptable Rupture Explo -sion Energy Density (Wh/L) Specific Energy (Wh/Kg) Safety (EUCAR Level) PLG (AN-01 system) 535 206 EUCAR pass : Level: 2 ~3 International Top tear 520 220 EUCAR pass : Level: 4~5

2 features High Energy Density Chemical Level 1. Li-ion System : 720 Wh/L@2018 and will be raised to 850 Wh/L@2020 2. Li-Metal System : Will be raised to 1010 Wh/L@2022 Mechanism Level PS. LPB system has 650~680Wh/L limitation due to security issue 1. Simplify the mechanism protection (BMS, cooling system and thermal management system) 2. BiPolar + 3. Cell = Cell Module 4. Large-foot Print

2 features High Energy Density Cell Energy Density Roadmap 1200 1000 800 600 535 PLCB Energy Density Roadmap PLCB29133209 ( R & D S t a g e ) 600 680 750 816 880 960 1033 Wh/L TOYOTA s goal @2030 800Wh/L TOYOTA s goal @2022 450Wh/L 400 200 206 240 270 290 310 340 360 380 Wh/Kg 0 2 0 1 8 / E 2 0 1 9 / Q 3 2 0 2 0 / Q 3 2021 2022 2023 2024 2025

3 features Fast Charging Capability 1. 2C / 30 mins : 80~85% (SOC 100%) 2. 3C~5C /12 mins: 55~65% (SOC 100%)

3 features Fast Charging Capability LCB is not only supported 3C fast charging ability, now LCB also has ability to support 5C fast charging and the heating is lower than body temperature during charging process. Ratio 100% 80% 60% 40% 20% 0% PLG China A company 93.1% 87.5% 82.1% 81.9% 72.2% 71.8% 65.5% 59.0% 59.2% 49.8% 1C (60mins) 2C (30mins) 3C (20mins) 4C (15mins) 5C (12mins) 60min 30min 20min 15min 12min Temperature ( c) during Charging 50 40 30 20 43 32 30.2 25.9 45 43 46 32.8 33.4 33.8 1C (60mins) 2C (30mins) 3C (20mins) 4C (15mins) 5C (12mins) ATL China A company PLG PLG

4 features Good H/L Temp. Stability 1. Operation Window for Charging Process : LCB/65~85 C vs LPB/45 C 2. Operation Window for Discharging Process : LCB/85~105 C vs LPB/60 C 3. Storage Window for High temp : LCB/85~105 C vs LPB/60 C 4. Storage Window for Low temp : LCB/-65 C vs LPB/-20 C

4 features Good H/L Temp. Stability Cell Item ProLogium LCB Polymer Operation Temp.(Charge) -20~85 C 0-45 C Reliability Test Operation Temp.(Discharge) -40~90 C (105 C*) -20~60 C Storage Temp. -65 C (3Month)~85 C (14D) @4.2V or 105 C (14D) @4.0V -20~60 C Polymer PLG LCB (Industrial spec) (Car spec) (Car spec) 85 90 85 45 (Industrial spec) 60 (Military spec) 60 H/T Charging -20-40 H/T Discharging -20 H/T Storage L/T Discharging -65 L/T Storage

4 features Good H/L Temp. Stability Reliability Test Temp. Current Ratio Operation Temp.(Discharge) -30-40 0.05C 93.75% 0.1C 74.16% 0.05C 56.03% 0.1C 28.57% LCB discharging capability in extremely low temp. 100.00% 50.00% 0.00% 0.05C -40-30 0.1C

4 features Good H/L Temp. Stability Cell RT/0.2C -25 C/0.2C -25 C/0.5C -25 C/0.75C -25 C/1C ProLogium 100% 73.5% 43.9% 32.0% 27.2% A Company 100% 76.2% 35.1% 2.2% 0.1% -25 C Discharge Rate Capability 80% 70% 60% 50% 40% 30% 20% 10% 0% 76.20% 73.50% 43.90% 35.10% 32.00% 2.20% 0.2C 0.5C 0.75C 1C 27.20% 0.10% China A Company Performance is far ahead of polymer cell at-25 C Almost no capacity can be discharged at -25 C.

5 features Good H/L pressure tolerance From Under Water to Outer Space Extremely Low Pressure, Vacuum Level : 10-11 ATM High Pressure Tolerance : 48 ATM (Underwater 470M)

LCB Product Line FLCB (Flexible type-lcb) / TLCB (Tubular type-lcb) PLCB (High Capacity type-lcb) BLCB (High Voltage type-lcb)

LCB (Lithium Ceramic Battery) Incompressible No Hard Shorting No Leakage No Thermal Runaway FLCB PLCB BLCB Flexible Type High Capacity Type High Voltage Type FPC Substrate FWI Technology 10000 times @ R15mm Ultra Thin 0.43mm Good H/L Pressure Rolling Type - TLCB Injection Molding Al Foil Pouch Higher Capacity Good H/L Temp. Fast Charge 5C Lowest Temp. Rise BiPolar + Technology Series and Parallel inside cell directly No Decomposition Issue High Energy Density High Energy Efficiency High Capacity Utilization

Flexible Type LCB Li-ion with FPC substrate/package materials Thickness: 0.4mm± 0.05 FWI Technology: 10,000 times Dynamic bending at R15mm Injection Molding Adaptable (130 /60 sec) Great High/Low Pressure Durability Able to be tubular cell, TLCB

P L C B High Capacity Type LCB, Ultra Safe Wide Operation Window / Storage Temperature Higher Theoretical Energy Density than LPB (no sacrifice for safety) Adopt -20 ~85 charge, -25 ~105 discharge Storage at -65 ~105 for 14 days 5C Fast charging and Low ΔT

B L C B High Voltage Type LCB Adopts BiPolar + Technology, directly Serial and Parallel inside the cell. High voltage from 7.4V to 60V available. Ultra-high Energy Density. High Energy Efficiency- No capacity lost from boost module. High Capacity Utilization- Wider usable capacity range than conventional battery.

Application (by Category) EV Industry / Medical Consumer / Wearable IOT / Card Smartphone

Application (by Category) EV Industry / Medical Consumer / Wearable IOT / Card Smartphone

IP Map Total 164 Patents Issued : 94 Filed : 73 BOF Tech. (Battery on FPC Substrate) Sealicone Tech. (Package Mechanism) Ceramion Tech. (Lithium Ceramic Electrolyte) Core Tech : LCB (Lithium Ceramic Battery) Issued : 94 Filed : 73 Application : Cover Battery, Watchband Battery Logithium Tech (Lithium- Metal System) Specific Equipment

Awards Certifications

Standard Product Spec Product FLCBxxxxxxAAAA PLCB TLCB 027038 046046 051076 107163 475255 AANA 4360A5 AAMA 36D3L8 AAJA 55290 AAAA Dimension (mm) *w/o terminal 27 x 38 46 x 46 51 x 76 107 x 163 52 x 55 60 x 105 133 x 218 D0/D1 (mm) 2.5/5.5 Nominal Voltage (V) 3.75 3.75 3.75 3.75 3.75 3.75 3.75 Nominal Voltage (V) 3.75 Max Voltage (V) 4.35 4.35 4.35 4.35 4.35 4.35 4.35 Max Voltage (V) 4.35 Nominal Capacity (mah) 17 45 90 470 770 1950 8300 Nominal Capacity (mah) 17 Thickness (mm) 0.43 0.43 0.43 0.43 4.8 4.5 3.7 Width (mm) 29 Contents as above is for reference only. Please contact with our salesperson for full spec based on specific product.