Rechargeable Lithium-ion Batteries QL2B mm 7.5 mm 2 ma 2 C to 45 C 7.5 mm mm mm 2g ~.525 cc 1% 8% 6% 4% 2% Charge: 1mA 4.1V CCCV C/2mA cutoff at 37C Discharge: 1mA to V at 37C % 1 2 3 4 5 Number of Cycles NOT MEb GRAPH 4. Zero-Volt enabled Implantable Highly reliable Domestically produced UL1642 certified Biocompatibility Low self discharge/long calendar life at elevated temperature Extended cycle life Compact and light weight Hermetically sealed NOT MEb GRAPH Capacity Retention % Medical implants 2 mah.2c 3. 2C 1C.5C 2. 1 2 3 4 5 6 Retention % 818.833.2 7 8 9 1
QL32A 3.15 Ah 3.7 V -2 C to 45 C Lithium ion rechargeable pouch cell Safe 1% spinel chemistry Military Aerospace Commercial High discharge rates up to 2C Ultra-high rate Extremely safe Non-toxic Light Energy Density Energy Density Power Energy Density 4.2 3.9 3.6 3.3 3 5 mm 12 mm 7.4 mm 97 g 12 Wh/kg 26 Wh/L >2 W/kg AT DIFFERENT DISCHARGE RATES.5C 1C 4C 9C 13C 2C 2.7 % 2% 4% 6% 8% 1% 12% Discharge Capacity (Ah) 12% STORAGE CAPACITY RETENTION Capacity Retention % 1% 8% 6% 4% 2% Capacity Retention Remained Capacity Test Condition Charge: at C/2 to 4.2V till C/2 Storage: SOC1% at RT for 2weeks or 8weeks Dicharge: at C/2 to 3.V at RT (Remaing capacity) Charge at C/2, 4.2V, till C/2 Dischrge: at C/2 to 3.V at RT (Recovered capacity) % 2 4 6 8 1 Storage (Weeks) 818.833.2
Rechargeable Lithium-ion Batteries QL45A Ah 9 A -2 C to 5 C Lithium ion rechargeable pouch cell LNMCO Military - BB-259 pack Aerospace Greater than 2 wh/kg energy density High energy density Long calendar life High reliability Domestic production Energy Density 4 3 Room Temperature -3C AT LOW TEMPERATURE 5 mm 15 mm 7.1 mm 78 g 37.28 cc 25 Wh/L Testing Condition: CC-CV charged at.5c to 4.2V till C/2 (25 o C) Discharged at.5c to 3.V at -2 o C 2 % 2% 4% 6% 8% 1% 12% Dischange Capacity (Ah) 4.3 AT DIFFERENT DISCHARGE RATES 4.1 3.9 C/5 C/2 1C 2C 3.7 3.3 3.1 2.9 2.7 818.833.2 % 2% 4% 6% 8% 1% 12% Discharge Capacity (Ah)
TM MATRIX MODULE 1.5 QL8KMM CELL SPECIFICATION Maximum Charge Voltage Maximum Charge Current Maximum Discharge Current 1.5 Ah 3.7 V 4.2 V 3 A 19.5 A Lithium ion rechargeable battery Auxiliary power units and starter batteries Unmanned vehicles HEV/PHEV Aircraft High power model Large current output capability Modular scaleable design Matrix battery design High and low temperature operation Ultra-safe performance Integrated battery management system Diameter tric Energy Density MODULE SPECIFICATION Energy Maximum Charge Voltage Minimum Discharge Voltage Maximum Continuous Charge Current Maximum Cycle Life (1% DoD) tric Energy Density 64.8 mm 18.1 mm 45.8 g 121 Wh/kg 332 Wh/L 7.5 Ah 48.1 V 361 Wh 54.6 V 39 V 15 A (2C) 75 A (1C) 1 cycles 115 mm 78 mm 26 mm 4.2 Kg 2.33 L 86 Wh/kg 155 Wh/L 818.833.2
TM MATRIX MODULE 1.9 QL1KMM CELL SPECIFICATION Maximum Charge Voltage Maximum Charge Current Maximum Discharge Current 1.9 Ah 3.7 V 4.2 V 1.9 A 5.7 A Lithium ion rechargeable battery Auxiliary power units and starter batteries Unmanned vehicles HEV/EV Aircraft Optimized capacity / rate capability Highly reliable Highly safe High energy density model Large current output capability / high rate capability Modular scaleable design Matrix battery design Integrated battery management system Diameter tric Energy Density MODULE SPECIFICATION Energy Maximum Charge Voltage Minimum Discharge Voltage Maximum Continuous Charge Current Maximum Cycle Life (1% DoD) tric Energy Density 64.8 mm 18.1 mm 43 g 163 Wh/kg 421 Wh/L 9.5 Ah 48.1 V 457 Wh 54.6 V 39 V 9.5 A (1C) 28.5 A (3C) 6 cycles 115 mm 78 mm 26 mm 4.14 Kg 2.33 L 11 Wh/kg 196 Wh/L 818.833.2
Rechargeable Lithium-ion Batteries QL15KA Battery design for long cycle life (>1, cycles) 1C 15 C to 35 C tric Energy Density 88.3 mm 5 mm 38. mm 38 g 182 cc 142 Wh/kg 296 Wh/L CELL LEVEL VOLTAGE CURVES AT DIFFERENT DISCHARGE RATES 4.1 Domestic production Long LEO and GEO cycle life High reliability Zero-Volt C/5 C/2 C 2C 3C 4C Charge: 7.5A / 4.1V until.75a at room temp. Discharge: various rate to 2.7V at room temp. 3.9 3.7 Military Aerospace 15 Ah 3.3 3.1 2.9 2.7 % 1% 2% 3% 4% 5% 6% 7% Discharge Capacity % 8% 9% 1% 11% CELL LEVEL VOLTAGE CURVES AT DIFFERENT TEMPERATURES 4.1 3.9 3.7-2C -1C C 1C 2C 3C 45C 6C 3.3 3.1 2.9 2.7 Charge: 7.5A / 4.1V until.75a at room temp. Discharge: 7.5A to 2.7V at various temp. 818.833.2 2 4 6 8 Discharge Capacity % 1 12
QL2I-A 35 mm 2 mah 2 ma 32 C to 42 C 17 mm High power design 1% 17 mm 35 mm 5.5 mm 8 g 3.27 cc Medical implants Sensors Zero-Volt enabled Implantable Highly reliable Domestically produced UL1642 certified Biocompatibility Low self discharge/long calendar life at elevated temperature Extended cycle life Compact and light weight Hermetically sealed Capacity Retention % 8% 6% 4% 2% Charge: 1mA 4.1V CCCV C/2mA cutoff at 37C Discharge: 1mA to V at 37C % 1 2 3 4 5 4. Number of Cycles.2C 3. 2C 1C.5C 2. 1 2 3 4 5 6 7 8 9 1 Retention % 818.833.2
Rechargeable Lithium-ion Batteries QL23B High energy design Energy Density Energy Density 15.85 mm 23.1 mm 7.95 mm 6g 138 Wh/kg 28 Wh/L 1% Capacity Retention Long life Highly safe - passed nail, crush, and overcharge test UL1642 certified 23 mah -2 C to 45 C CYCLING DATA Medical (external) 8% 6% 4% 2% Charge: 115mA 4.2V CCCV C/2mA cutoff at RT Discharge: 115mA to 2.7V at RT % 1 2 3 4 5 Number of Cycles AT DIFFERENT DISCHARGE RATES 4..2C 3. 2C 1C.5C 2. 1 2 3 4 5 6 Retention % 818.833.2 7 8 9 1
Rechargeable Lithium-ion Batteries QL75KA Battery design for long cycle life (>1, cycles) Domestic production Long LEO and GEO cycle life High reliability Zero-Volt 1C 15 C to 35 C tric Energy Density 173.7 mm 8.9 mm 56.2 mm 182 g 79 cc 148 Wh/kg 341 Wh/L 72 Ah CYCLING DATA 14 Discharge Energy % Military Aerospace Charge: 36A / 4.1V for 54min., R.T. Discharge: 4A for 36min., R.T. 12 1 8 6 4 2 2 4 6 8 1 Cycle Index STORAGE CAPACITY RETENTION 12 1 8 IR @ 1KHz / mohms Discharge Energy % 9 1 7 8 Energy 6 6 5 4 4 3 Storage Condition SOC 1%, R.T. 2 2 Charge: 3A / 4.1V to.6a at R.T. Discharge: 3A tp 2.7V at R.T. 1 IR 2 4 6 Storage Period (days) 818.833.2 8 1
QL23A 2.3 Ah -4 C to 71 C Lithium ion rechargeable pouch cell High power density (without tabs) Energy Density Energy Density Power Energy Density 57 mm 139.7 mm 6.4 mm 75 g 11 Wh/kg 162Wh/L >33 W/kg 1 RATE TEST SUMMARY AT RT Military Aerospace Discharge rate to 3C Wide temperature -4 C to -7 C Non-toxic Light Retention of 1C Capacity / % 9 8 7 6 5 4 3 2 1 2 4 6 8 1 1 2 1 4 1 6 1 8 2 2 2 2 4 2 6 2 8 3 3 2 3 4 3 6 Rate Charge : 1. C A, 4.1 V C C C V C /2 m A c u to ff a t R T Discharge : 1, 5, 1 5, 2, 3 C A to 2.7 V a t R T 4.2 5 1C DISCHARGE AT -4 C 4. 3.7 5 3.5 Voltage / V 3.2 5 3. 2.7 5 2.5 2.2 5 818.833.2 2...2 5.5.7 5 1. 1.2 5 1.5 1.7 5 2. 2.2 5 2.5 Discharge capacity / Ah C h a rg e : 1 C m A, 4.1 V C C C V C /2 m A c u to ff a t R T D isc ha rge : 1 Cm A to 2. V a t -4 C
QLI19-1865 1.9 Ah 3.7 V 5.7 A -2 C to 6 C Cell optimized for high energy density and high power capability Diameter Energy Density Energy Density 18.1 mm 64.8 mm 43 g 16.7 cc 163 Wh/kg 421 Wh/L Soldier power HEV/EV/PHEV Portable electronic devices UAV/UUV Aircraft, ground vehicle APU/starter battery UPS Solar energy power storage Telecommunications back-up power Marine Optimized capacity / rate capability High reliability Highly safe Voltage (v) 4. 3. -2C C RT 4C AT DIFFERENT TEMPERATURES 2...5 1. 1.5 2. Discharge Capacity (Ah) AT DIFFERENT DISCHARGE RATES.5C rate 4. Voltage (v) 818.833.2.2C-rate 3..5C-rate 1.C-rate 2.C-rate 5.C-rate 2...5 1. 1.5 2. Discharge Capacity (Ah)