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Mobile Hybrid Power
Sources
Milan - Tuesday, June 14, 2011 - Giovanni Dotelli - CTO
Mobile Hybrid Power
Sources
Portable HybridPower Generators and BatteriesPortable HybridPower Generators and Batteries
Objectives
Areas
Portable Hybrid PowerGenerator integratingPEMFC, Ion LithiumBatteries, SolidHydrogen and PV panels
CoreTechnology Advantages
Portable Hybrid PowerGenerator integratingPEMFC, Ion LithiumBatteries, SolidHydrogen and PV panels
Long running time of FuelCellsEasy and quick startresponse of BatteriesHigh energy density of H2Fuel free solar energysource
AdvantagesMaximize power andenergy density
Reduce to zero heatand noise signature
Provide a constant andreliable source of power inextreme environmentalconditions
Mission
Long running time of FuelCellsEasy and quick startresponse of BatteriesHigh energy density of H2Fuel free solar energysource
Maximize power andenergy density
Reduce to zero heatand noise signature
Provide a constant andreliable source of power inextreme environmentalconditions
Portable Fuel Cell Market(up to 500 Watt) in NorthAmerica on 2009 is 70 M$,expected to reach 510 M$on 2016 (CAGR 33,5%)
DemandMilitary, Emergency,Electro-medical, Marine,Caravan, Construction,Telecoms, Off GridResidential, RemoteTerminal Units, UnmannedSystems (UAV, UGV,UUV), Small vehicles
IndustryApplications
Esaote, SelexCommunications, SelexGalileo, Otomelara, SolGroup, De Nora Group, GPBatteries, Wass, CNR, FiatGroup
StrategicPartners
Portable Fuel Cell Market(up to 500 Watt) in NorthAmerica on 2009 is 70 M$,expected to reach 510 M$on 2016 (CAGR 33,5%)
Military, Emergency,Electro-medical, Marine,Caravan, Construction,Telecoms, Off GridResidential, RemoteTerminal Units, UnmannedSystems (UAV, UGV,UUV), Small vehicles
Esaote, SelexCommunications, SelexGalileo, Otomelara, SolGroup, De Nora Group, GPBatteries, Wass, CNR, FiatGroup
Esaote, SelexCommunications, SelexGalileo, Otomelara, SolGroup, De Nora Group, GPBatteries, Wass, CNR, FiatGroup
StrategicPartners
EU-MIUR Eurostar, FSREnergy Funding byLombardy Region and EU,EU -WP7
GrantsEsaote, SelexCommunications, SelexGalileo, Otomelara, SolGroup, De Nora Group, GPBatteries, Wass, CNR, FiatGroup
Established in 2009
HeadquarteredVimercate(MB), laboratories at Politecnico (Milan)
Shareholders Politecnico of Milan, ElemasterGroup, Petrone Group, Saati Group, Genbee
Technology PartnersArbin Instruments (USA), GP Batteries (CHINA), Schunk(D), Politecnico of Milan (IT), ENEA Casaccia (IT), HIAT(Hydrogen Institute for Applied Technologies - D)
Company
Overview
Location in Vimercate(Vimercate Tecnology Park)
Established in 2009
HeadquarteredVimercate(MB), laboratories at Politecnico (Milan)
Shareholders Politecnico of Milan, ElemasterGroup, Petrone Group, Saati Group, Genbee
Technology PartnersArbin Instruments (USA), GP Batteries (CHINA), Schunk(D), Politecnico of Milan (IT), ENEA Casaccia (IT), HIAT(Hydrogen Institute for Applied Technologies - D)Location in Milan
(Politecnico)
Established in 2009
HeadquarteredVimercate(MB), laboratories at Politecnico (Milan)
Shareholders Politecnico of Milan, ElemasterGroup, Petrone Group, Saati Group, Genbee
Technology PartnersArbin Instruments (USA), GP Batteries (CHINA), Schunk(D), Politecnico of Milan (IT), ENEA Casaccia (IT), HIAT(Hydrogen Institute for Applied Technologies - D)
Established in 2009
HeadquarteredVimercate(MB), laboratories at Politecnico (Milan)
Shareholders Politecnico of Milan, ElemasterGroup, Petrone Group, Saati Group, Genbee
Technology PartnersArbin Instruments (USA), GP Batteries (CHINA), Schunk(D), Politecnico of Milan (IT), ENEA Casaccia (IT), HIAT(Hydrogen Institute for Applied Technologies - D)
Strong international scientific activity is resulted in more then 100 scientific publications and 8 patents; 15 years in international andnational programs brings Genport be a leading designer, developer and manufacturer of advanced, lightweight technology forportable high energy density electric generation.
1996 Beginning of projects on ceramic materials technologies for Solid Oxide Fuel Cells (SOFC)YSZ and alumina–based compositesSimulation and modelling of the ionic conductors electric behaviourSr,Mg-doped lanthanum gallatesComposites materials for cathodes (LSGM – LSM)
2000 Beginning of projects on polymeric materials technologies for Proton Exchange Fuel Cells (PEMFC).Characterization and modeling of materials for Polymer Fuel Cells (PEM)Synthesis and electrical, physical-chemical characterization of Polymeric Membranes
2003 Production of first prototype of Gas Diffusion Layers.
2004 Innovative plasma based surface engineering for GDL patented (PCT/IT2005/200297).
2005 Development of Catalyst Coated Membrane and Micro Porous Layer.
2006 Development of Gas Diffusion Medium and Gas Diffusion Electrode.Joining the Advisory Board of PEMFLOW Project (Prediction and Management ofFluid Transport in PEM Fuel Cells DTI Project No: TP/6/S/K3032H Department of Trade and Industry – UK).
2008 Integration of our 5-MEA propriety configuration into 500 W stack.
2009 Foundation of GENPORT
2010 Release of First Generation of GENPORT 300 Hybrid Fuel Cell - 4 IT patents , 2 PCT
Company
ExpertiseStrong international scientific activity is resulted in more then 100 scientific publications and 8 patents; 15 years in international andnational programs brings Genport be a leading designer, developer and manufacturer of advanced, lightweight technology forportable high energy density electric generation.
1996 Beginning of projects on ceramic materials technologies for Solid Oxide Fuel Cells (SOFC)YSZ and alumina–based compositesSimulation and modelling of the ionic conductors electric behaviourSr,Mg-doped lanthanum gallatesComposites materials for cathodes (LSGM – LSM)
2000 Beginning of projects on polymeric materials technologies for Proton Exchange Fuel Cells (PEMFC).Characterization and modeling of materials for Polymer Fuel Cells (PEM)Synthesis and electrical, physical-chemical characterization of Polymeric Membranes
2003 Production of first prototype of Gas Diffusion Layers.
2004 Innovative plasma based surface engineering for GDL patented (PCT/IT2005/200297).
2005 Development of Catalyst Coated Membrane and Micro Porous Layer.
2006 Development of Gas Diffusion Medium and Gas Diffusion Electrode.Joining the Advisory Board of PEMFLOW Project (Prediction and Management ofFluid Transport in PEM Fuel Cells DTI Project No: TP/6/S/K3032H Department of Trade and Industry – UK).
2008 Integration of our 5-MEA propriety configuration into 500 W stack.
2009 Foundation of GENPORT
2010 Release of First Generation of GENPORT 300 Hybrid Fuel Cell - 4 IT patents , 2 PCT
Strong international scientific activity is resulted in more then 100 scientific publications and 8 patents; 15 years in international andnational programs brings Genport be a leading designer, developer and manufacturer of advanced, lightweight technology forportable high energy density electric generation.
1996 Beginning of projects on ceramic materials technologies for Solid Oxide Fuel Cells (SOFC)YSZ and alumina–based compositesSimulation and modelling of the ionic conductors electric behaviourSr,Mg-doped lanthanum gallatesComposites materials for cathodes (LSGM – LSM)
2000 Beginning of projects on polymeric materials technologies for Proton Exchange Fuel Cells (PEMFC).Characterization and modeling of materials for Polymer Fuel Cells (PEM)Synthesis and electrical, physical-chemical characterization of Polymeric Membranes
2003 Production of first prototype of Gas Diffusion Layers.
2004 Innovative plasma based surface engineering for GDL patented (PCT/IT2005/200297).
2005 Development of Catalyst Coated Membrane and Micro Porous Layer.
2006 Development of Gas Diffusion Medium and Gas Diffusion Electrode.Joining the Advisory Board of PEMFLOW Project (Prediction and Management ofFluid Transport in PEM Fuel Cells DTI Project No: TP/6/S/K3032H Department of Trade and Industry – UK).
2008 Integration of our 5-MEA propriety configuration into 500 W stack.
2009 Foundation of GENPORT
2010 Release of First Generation of GENPORT 300 Hybrid Fuel Cell - 4 IT patents , 2 PCT
Strong international scientific activity is resulted in more then 100 scientific publications and 8 patents; 15 years in international andnational programs brings Genport be a leading designer, developer and manufacturer of advanced, lightweight technology forportable high energy density electric generation.
1996 Beginning of projects on ceramic materials technologies for Solid Oxide Fuel Cells (SOFC)YSZ and alumina–based compositesSimulation and modelling of the ionic conductors electric behaviourSr,Mg-doped lanthanum gallatesComposites materials for cathodes (LSGM – LSM)
2000 Beginning of projects on polymeric materials technologies for Proton Exchange Fuel Cells (PEMFC).Characterization and modeling of materials for Polymer Fuel Cells (PEM)Synthesis and electrical, physical-chemical characterization of Polymeric Membranes
2003 Production of first prototype of Gas Diffusion Layers.
2004 Innovative plasma based surface engineering for GDL patented (PCT/IT2005/200297).
2005 Development of Catalyst Coated Membrane and Micro Porous Layer.
2006 Development of Gas Diffusion Medium and Gas Diffusion Electrode.Joining the Advisory Board of PEMFLOW Project (Prediction and Management ofFluid Transport in PEM Fuel Cells DTI Project No: TP/6/S/K3032H Department of Trade and Industry – UK).
2008 Integration of our 5-MEA propriety configuration into 500 W stack.
2009 Foundation of GENPORT
2010 Release of First Generation of GENPORT 300 Hybrid Fuel Cell - 4 IT patents , 2 PCT
Company
Team
OperationConsists of 4 engineers (1 electrical, 1 chemical, 1 mechanical, 1 electronic), 1backup office and relies on two departments at the Politecnico of Milan withresearch groups focused on FC components, Sodioboro, Simulation.
ManagementPaolo Fracas (CEO), electrical engineer, post graduate international studiesat MIT, 21 years managerial experience in multinational companies, 10 yearsexperience in FC.
Giovanni Dotelli (CSO), chemical engineer, Associate Professor at Politecnicoof Milano, 21 years experience in material science, more than 80 publications,16 years experience in FC.
Franco Fattorini (Chairman), industrial chemist, MBA at Henley ManagementCollege (UK), entrepreneur, 21 years managerial experience.
OperationConsists of 4 engineers (1 electrical, 1 chemical, 1 mechanical, 1 electronic), 1backup office and relies on two departments at the Politecnico of Milan withresearch groups focused on FC components, Sodioboro, Simulation.
ManagementPaolo Fracas (CEO), electrical engineer, post graduate international studiesat MIT, 21 years managerial experience in multinational companies, 10 yearsexperience in FC.
Giovanni Dotelli (CSO), chemical engineer, Associate Professor at Politecnicoof Milano, 21 years experience in material science, more than 80 publications,16 years experience in FC.
Franco Fattorini (Chairman), industrial chemist, MBA at Henley ManagementCollege (UK), entrepreneur, 21 years managerial experience.
OperationConsists of 4 engineers (1 electrical, 1 chemical, 1 mechanical, 1 electronic), 1backup office and relies on two departments at the Politecnico of Milan withresearch groups focused on FC components, Sodioboro, Simulation.
ManagementPaolo Fracas (CEO), electrical engineer, post graduate international studiesat MIT, 21 years managerial experience in multinational companies, 10 yearsexperience in FC.
Giovanni Dotelli (CSO), chemical engineer, Associate Professor at Politecnicoof Milano, 21 years experience in material science, more than 80 publications,16 years experience in FC.
Franco Fattorini (Chairman), industrial chemist, MBA at Henley ManagementCollege (UK), entrepreneur, 21 years managerial experience.
OperationConsists of 4 engineers (1 electrical, 1 chemical, 1 mechanical, 1 electronic), 1backup office and relies on two departments at the Politecnico of Milan withresearch groups focused on FC components, Sodioboro, Simulation.
ManagementPaolo Fracas (CEO), electrical engineer, post graduate international studiesat MIT, 21 years managerial experience in multinational companies, 10 yearsexperience in FC.
Giovanni Dotelli (CSO), chemical engineer, Associate Professor at Politecnicoof Milano, 21 years experience in material science, more than 80 publications,16 years experience in FC.
Franco Fattorini (Chairman), industrial chemist, MBA at Henley ManagementCollege (UK), entrepreneur, 21 years managerial experience.
Organization
Overview
Lean organizationfocused on R&D - S&MMilan (Politecnico)H2 and Stack Research Numerical Simulation, MEAand Stack Design, Sodioboro H2 Research, MEAand Stack Test Lab
Lomagna (LC)Batteries and Fuel Cell Systems EngineeringFuel Cell System Engineering, BMS Engineering,System Test
Prototyping Assemblies
Sales, Marketing, Project FundingAdministration, Finance, Legal, Procurement, HRM
Lean organizationfocused on R&D - S&MMilan (Politecnico)H2 and Stack Research Numerical Simulation, MEAand Stack Design, Sodioboro H2 Research, MEAand Stack Test Lab
Lomagna (LC)Batteries and Fuel Cell Systems EngineeringFuel Cell System Engineering, BMS Engineering,System Test
Prototyping Assemblies
Sales, Marketing, Project FundingAdministration, Finance, Legal, Procurement, HRM
Intellectual Property Rights
IPR
GENPORT hybrid generators are based onproprietary technology (6 patent pending) with thefollowing distinctive elements:
Highly efficient hybrid power supply to managePEMFC- Battery subsystems (patent pending Nr.MI2010A000168)
Solid hydrogen (Sodioboro-based) characterized byhigh energy density, zero impact (patent pending Nr.RM2009U000199)
Ergonomic wearable case concept (patent pendingNr. LC 2010U000001)
Hybrid solar generation technology no other fuelsrequired (patent pending Nr. PCT/EP2010/056998,Nr. MI2009A000907)
Solid hydrogen (Sodioboro-based) characterized byhigh energy density, zero impact (patent pending Nr.PCT/IB2010/055947)
GENPORT hybrid generators are based onproprietary technology (6 patent pending) with thefollowing distinctive elements:
Highly efficient hybrid power supply to managePEMFC- Battery subsystems (patent pending Nr.MI2010A000168)
Solid hydrogen (Sodioboro-based) characterized byhigh energy density, zero impact (patent pending Nr.RM2009U000199)
Ergonomic wearable case concept (patent pendingNr. LC 2010U000001)
Hybrid solar generation technology no other fuelsrequired (patent pending Nr. PCT/EP2010/056998,Nr. MI2009A000907)
Solid hydrogen (Sodioboro-based) characterized byhigh energy density, zero impact (patent pending Nr.PCT/IB2010/055947)
Key Product
Lines
ION LITHIUMBattery PacksHigh electricalenergy storage
GenFuelSolid H2High chemicalenergy storage
GenPort 300Hybrid Fuel CellWearablegenerator
GenPort 300Hybrid Fuel CellWearablegenerator
GenPort 300Hybrid Solar PEMPortablegenerator
Extreme Wearable
Power Source
GenPort 300 Hybrid Fuel Cell300 Watts nominal electrical power generation
output (400 Watts peak power) • Voltage: 24 Vdc,
230/110 Vac • Extreme Operating Temperature
Range • No thermal or acoustic signature •
Lightweight • Green H2 Fuel: GenFuel, Compressed H2,
Metal Hydrides • Rugged water-proof, shock/vibrations
resistant case.
GenPort 300 Hybrid Fuel Cell300 Watts nominal electrical power generation
output (400 Watts peak power) • Voltage: 24 Vdc,
230/110 Vac • Extreme Operating Temperature
Range • No thermal or acoustic signature •
Lightweight • Green H2 Fuel: GenFuel, Compressed H2,
Metal Hydrides • Rugged water-proof, shock/vibrations
resistant case.
GenPort 300 PEM SolarPortable continuous power source • 400 Watts peak
power output • Voltage: 24 Vdc, 230/110 Vac • No
need of battery bank • Higher energy density than
traditional PV units • Runtime 24 Hours / 7 days
without external fuel • No thermal and acoustic
signature • Rugged water-proof and shock/vibrations
resistant case.
Extreme Portable
Power Source
GenPort 300 PEM SolarPortable continuous power source • 400 Watts peak
power output • Voltage: 24 Vdc, 230/110 Vac • No
need of battery bank • Higher energy density than
traditional PV units • Runtime 24 Hours / 7 days
without external fuel • No thermal and acoustic
signature • Rugged water-proof and shock/vibrations
resistant case.
GenPort 300 PEM SolarPortable continuous power source • 400 Watts peak
power output • Voltage: 24 Vdc, 230/110 Vac • No
need of battery bank • Higher energy density than
traditional PV units • Runtime 24 Hours / 7 days
without external fuel • No thermal and acoustic
signature • Rugged water-proof and shock/vibrations
resistant case.
GenPort 300 PEM SolarPortable continuous power source • 400 Watts peak
power output • Voltage: 24 Vdc, 230/110 Vac • No
need of battery bank • Higher energy density than
traditional PV units • Runtime 24 Hours / 7 days
without external fuel • No thermal and acoustic
signature • Rugged water-proof and shock/vibrations
resistant case.
GenFuel• Solid H2 • Cartridge capacity 400Wh
(2 Hours runtime @ 200 W) extending in hot
swapping • Safe H2 storage and generation •
Zero environmental impact • H2 on demand •
High energy density (1000 Wh/kg) • Recyclable
co-products.
Generation
Hydrogen
GenFuel• Solid H2 • Cartridge capacity 400Wh
(2 Hours runtime @ 200 W) extending in hot
swapping • Safe H2 storage and generation •
Zero environmental impact • H2 on demand •
High energy density (1000 Wh/kg) • Recyclable
co-products.
GenFuel• Solid H2 • Cartridge capacity 400Wh
(2 Hours runtime @ 200 W) extending in hot
swapping • Safe H2 storage and generation •
Zero environmental impact • H2 on demand •
High energy density (1000 Wh/kg) • Recyclable
co-products.
GenFuel• Solid H2 • Cartridge capacity 400Wh
(2 Hours runtime @ 200 W) extending in hot
swapping • Safe H2 storage and generation •
Zero environmental impact • H2 on demand •
High energy density (1000 Wh/kg) • Recyclable
co-products.
GenH2• PEM H2 generator • Safe H2 storage and
generation • Zero environmental impact • Power
Supply : 15-35V DC / 220 V AV • Power : 570W •
Flow Rate: 1360 cc/min • Pressure ouput: 16 Bar
• Weight : 11Kg • Operating temperature: 3 °C –
45 °C • Hydrogen production purity: 99.999 % •
Rugged water-proof case
Generation
Hydrogen
GenH2• PEM H2 generator • Safe H2 storage and
generation • Zero environmental impact • Power
Supply : 15-35V DC / 220 V AV • Power : 570W •
Flow Rate: 1360 cc/min • Pressure ouput: 16 Bar
• Weight : 11Kg • Operating temperature: 3 °C –
45 °C • Hydrogen production purity: 99.999 % •
Rugged water-proof case
GenH2• PEM H2 generator • Safe H2 storage and
generation • Zero environmental impact • Power
Supply : 15-35V DC / 220 V AV • Power : 570W •
Flow Rate: 1360 cc/min • Pressure ouput: 16 Bar
• Weight : 11Kg • Operating temperature: 3 °C –
45 °C • Hydrogen production purity: 99.999 % •
Rugged water-proof case
GenH2• PEM H2 generator • Safe H2 storage and
generation • Zero environmental impact • Power
Supply : 15-35V DC / 220 V AV • Power : 570W •
Flow Rate: 1360 cc/min • Pressure ouput: 16 Bar
• Weight : 11Kg • Operating temperature: 3 °C –
45 °C • Hydrogen production purity: 99.999 % •
Rugged water-proof case
GenPV• Retractable PV Array for remote energy
generation • Wp : 261,0W • Voc: 54,5V • Isc:
6,0A • Vmp: 45,8V • Imp: 5,7A • Weight PV
array: 5 Kg • Ion Lithium Battery Pack • Zero
environmental impact
Generation
Photovoltaic
GenPV• Retractable PV Array for remote energy
generation • Wp : 261,0W • Voc: 54,5V • Isc:
6,0A • Vmp: 45,8V • Imp: 5,7A • Weight PV
array: 5 Kg • Ion Lithium Battery Pack • Zero
environmental impact
GenPV• Retractable PV Array for remote energy
generation • Wp : 261,0W • Voc: 54,5V • Isc:
6,0A • Vmp: 45,8V • Imp: 5,7A • Weight PV
array: 5 Kg • Ion Lithium Battery Pack • Zero
environmental impact
GenPV• Retractable PV Array for remote energy
generation • Wp : 261,0W • Voc: 54,5V • Isc:
6,0A • Vmp: 45,8V • Imp: 5,7A • Weight PV
array: 5 Kg • Ion Lithium Battery Pack • Zero
environmental impact
Design of Battery packs based on Ion Lithium Cells for
Military, Electro-medical, Unmanned Systems
Mechanical Engineering, Battery Management Systems (BMS)
CC / CV Charge/Discharge Cycling Test, Stress Test, Life Analysis,
SOC Testing, Storage Self Discharge
Engineering directly into the host equipment
Different cell configurations as well as a range of connectors
Pack using cells extensively tested in a range of harsh environments
Power source rely on a Smart Battery
Interface allowing communication via SMBs
Ion Lithium
Battery Packs
Design of Battery packs based on Ion Lithium Cells for
Military, Electro-medical, Unmanned Systems
Mechanical Engineering, Battery Management Systems (BMS)
CC / CV Charge/Discharge Cycling Test, Stress Test, Life Analysis,
SOC Testing, Storage Self Discharge
Engineering directly into the host equipment
Different cell configurations as well as a range of connectors
Pack using cells extensively tested in a range of harsh environments
Power source rely on a Smart Battery
Interface allowing communication via SMBs
Design of Battery packs based on Ion Lithium Cells for
Military, Electro-medical, Unmanned Systems
Mechanical Engineering, Battery Management Systems (BMS)
CC / CV Charge/Discharge Cycling Test, Stress Test, Life Analysis,
SOC Testing, Storage Self Discharge
Engineering directly into the host equipment
Different cell configurations as well as a range of connectors
Pack using cells extensively tested in a range of harsh environments
Power source rely on a Smart Battery
Interface allowing communication via SMBs
Design of Battery packs based on Ion Lithium Cells for
Military, Electro-medical, Unmanned Systems
Mechanical Engineering, Battery Management Systems (BMS)
CC / CV Charge/Discharge Cycling Test, Stress Test, Life Analysis,
SOC Testing, Storage Self Discharge
Engineering directly into the host equipment
Different cell configurations as well as a range of connectors
Pack using cells extensively tested in a range of harsh environments
Power source rely on a Smart Battery
Interface allowing communication via SMBs
Bench Specification Arbin BT2000 Linear battery testing system Application notes: Electrochemical R&D Half cell testing and materials research Primary & secondary battery testing Lead, Lithium and alkaline battery cycling
Hardware specifications: Number of channels: 6 Voltage range: : 0~20V Accuracy of voltage control:: ± 0.05% FSR Maximum current per channel:: 50A Accuracy of current control:: ± 0.05% FSR Current rising time: : 0.5 ~ 1ms Current and voltage resolution:: 0.0015% FSR Maximum continuous power per channel: 1000W Voltage clamp Temperature channels
Ion Lithium
Battery PacksBench Specification
Arbin BT2000 Linear battery testing system Application notes: Electrochemical R&D Half cell testing and materials research Primary & secondary battery testing Lead, Lithium and alkaline battery cycling
Hardware specifications: Number of channels: 6 Voltage range: : 0~20V Accuracy of voltage control:: ± 0.05% FSR Maximum current per channel:: 50A Accuracy of current control:: ± 0.05% FSR Current rising time: : 0.5 ~ 1ms Current and voltage resolution:: 0.0015% FSR Maximum continuous power per channel: 1000W Voltage clamp Temperature channels
Bench Specification Arbin BT2000 Linear battery testing system Application notes: Electrochemical R&D Half cell testing and materials research Primary & secondary battery testing Lead, Lithium and alkaline battery cycling
Hardware specifications: Number of channels: 6 Voltage range: : 0~20V Accuracy of voltage control:: ± 0.05% FSR Maximum current per channel:: 50A Accuracy of current control:: ± 0.05% FSR Current rising time: : 0.5 ~ 1ms Current and voltage resolution:: 0.0015% FSR Maximum continuous power per channel: 1000W Voltage clamp Temperature channels
Bench Specification Arbin BT2000 Linear battery testing system Application notes: Electrochemical R&D Half cell testing and materials research Primary & secondary battery testing Lead, Lithium and alkaline battery cycling
Hardware specifications: Number of channels: 6 Voltage range: : 0~20V Accuracy of voltage control:: ± 0.05% FSR Maximum current per channel:: 50A Accuracy of current control:: ± 0.05% FSR Current rising time: : 0.5 ~ 1ms Current and voltage resolution:: 0.0015% FSR Maximum continuous power per channel: 1000W Voltage clamp Temperature channels
BMS configuration using TI BQEasy wizard tool
TI BQEasy SW simplifies all the BMS development
steps using a friendly wizard tool:
Pack Configuration: Cell and Pack arrangement,
electrical and cut off values
Fuel Gauge Calibration
Cell chemistry file selection from BQEasy list
Cell chemistry characterization using Arbin tester (if
chemistry file is not in BQEasy list)
Pack initial charge/discharge learning cycles
implementation
“Golden File” creation for production phase
Ion Lithium
Battery Packs
BMS configuration using TI BQEasy wizard tool
TI BQEasy SW simplifies all the BMS development
steps using a friendly wizard tool:
Pack Configuration: Cell and Pack arrangement,
electrical and cut off values
Fuel Gauge Calibration
Cell chemistry file selection from BQEasy list
Cell chemistry characterization using Arbin tester (if
chemistry file is not in BQEasy list)
Pack initial charge/discharge learning cycles
implementation
“Golden File” creation for production phase
BMS configuration using TI BQEasy wizard tool
TI BQEasy SW simplifies all the BMS development
steps using a friendly wizard tool:
Pack Configuration: Cell and Pack arrangement,
electrical and cut off values
Fuel Gauge Calibration
Cell chemistry file selection from BQEasy list
Cell chemistry characterization using Arbin tester (if
chemistry file is not in BQEasy list)
Pack initial charge/discharge learning cycles
implementation
“Golden File” creation for production phase
BMS configuration using TI BQEasy wizard tool
TI BQEasy SW simplifies all the BMS development
steps using a friendly wizard tool:
Pack Configuration: Cell and Pack arrangement,
electrical and cut off values
Fuel Gauge Calibration
Cell chemistry file selection from BQEasy list
Cell chemistry characterization using Arbin tester (if
chemistry file is not in BQEasy list)
Pack initial charge/discharge learning cycles
implementation
“Golden File” creation for production phase
Lithium-ion packs “Off the Shelf”; minimum height and maximum energy density; designed directlyinto the host equipment or supplied in an external housing,. different cell configurations,connectors, Cell Balance, Smart Battery Interface allows communication via SMBs
Battery pack 4S3P
Nominal Voltage : 14.8 V
Maximum Charge Voltage : 16.8 V
Discharge Cut-off Voltage : 11.2 V
Typical Capacity : 6600 mAh at 0.2 C
Minimum Capacity : 6128 mAh at 0.2 C
Standard Charge : Constant current at 3300 mA with maximum voltage of 16.8 V for 3 hours
Standard Discharge : Constant current at 1320 mA to 11.2 V
Maximum charging current : 6600 mA
Maximum discharging current : 8000 mA
Operating Temperature : 0°C - 45°C (Charging) / -20°C - 60°C (Discharging)
Storage Temperature : -20°C - 45°C
Ion Lithium
Battery PacksLithium-ion packs “Off the Shelf”; minimum height and maximum energy density; designed directlyinto the host equipment or supplied in an external housing,. different cell configurations,connectors, Cell Balance, Smart Battery Interface allows communication via SMBs
Battery pack 4S3P
Nominal Voltage : 14.8 V
Maximum Charge Voltage : 16.8 V
Discharge Cut-off Voltage : 11.2 V
Typical Capacity : 6600 mAh at 0.2 C
Minimum Capacity : 6128 mAh at 0.2 C
Standard Charge : Constant current at 3300 mA with maximum voltage of 16.8 V for 3 hours
Standard Discharge : Constant current at 1320 mA to 11.2 V
Maximum charging current : 6600 mA
Maximum discharging current : 8000 mA
Operating Temperature : 0°C - 45°C (Charging) / -20°C - 60°C (Discharging)
Storage Temperature : -20°C - 45°C
Lithium-ion packs “Off the Shelf”; minimum height and maximum energy density; designed directlyinto the host equipment or supplied in an external housing,. different cell configurations,connectors, Cell Balance, Smart Battery Interface allows communication via SMBs
Battery pack 4S3P
Nominal Voltage : 14.8 V
Maximum Charge Voltage : 16.8 V
Discharge Cut-off Voltage : 11.2 V
Typical Capacity : 6600 mAh at 0.2 C
Minimum Capacity : 6128 mAh at 0.2 C
Standard Charge : Constant current at 3300 mA with maximum voltage of 16.8 V for 3 hours
Standard Discharge : Constant current at 1320 mA to 11.2 V
Maximum charging current : 6600 mA
Maximum discharging current : 8000 mA
Operating Temperature : 0°C - 45°C (Charging) / -20°C - 60°C (Discharging)
Storage Temperature : -20°C - 45°C
Lithium-ion packs “Off the Shelf”; minimum height and maximum energy density; designed directlyinto the host equipment or supplied in an external housing,. different cell configurations,connectors, Cell Balance, Smart Battery Interface allows communication via SMBs
Battery pack 4S3P
Nominal Voltage : 14.8 V
Maximum Charge Voltage : 16.8 V
Discharge Cut-off Voltage : 11.2 V
Typical Capacity : 6600 mAh at 0.2 C
Minimum Capacity : 6128 mAh at 0.2 C
Standard Charge : Constant current at 3300 mA with maximum voltage of 16.8 V for 3 hours
Standard Discharge : Constant current at 1320 mA to 11.2 V
Maximum charging current : 6600 mA
Maximum discharging current : 8000 mA
Operating Temperature : 0°C - 45°C (Charging) / -20°C - 60°C (Discharging)
Storage Temperature : -20°C - 45°C
Lithium-ion packs “Off the Shelf”; minimum height and maximum energy density; designed directlyinto the host equipment or supplied in an external housing,. different cell configurations,connectors, Cell Balance, Smart Battery Interface allows communication via SMBs
Battery pack 3S1P
Nominal Voltage: 11.1 V
Maximum Charge Voltage: 12.6 V
Discharge Cut-off Voltage : 8.25 V
Typical Capacity : 4400 mAh at 0.2 C
Standard Charge : Constant current at 3100 mA with maximum voltage of 16.8 V for 2 hours
Standard Discharge : Constant current at 4400 mA to 8.25 V
Maximum charging current : 8800 mA
Maximum discharging current : 12000 mA
Operating Temperature : -10°C - 60°C (Charging) / -40°C - 70°C (Discharging)
Storage Temperature : -40°C - 60°C
Ion Lithium
Battery PacksLithium-ion packs “Off the Shelf”; minimum height and maximum energy density; designed directlyinto the host equipment or supplied in an external housing,. different cell configurations,connectors, Cell Balance, Smart Battery Interface allows communication via SMBs
Battery pack 3S1P
Nominal Voltage: 11.1 V
Maximum Charge Voltage: 12.6 V
Discharge Cut-off Voltage : 8.25 V
Typical Capacity : 4400 mAh at 0.2 C
Standard Charge : Constant current at 3100 mA with maximum voltage of 16.8 V for 2 hours
Standard Discharge : Constant current at 4400 mA to 8.25 V
Maximum charging current : 8800 mA
Maximum discharging current : 12000 mA
Operating Temperature : -10°C - 60°C (Charging) / -40°C - 70°C (Discharging)
Storage Temperature : -40°C - 60°C
Lithium-ion packs “Off the Shelf”; minimum height and maximum energy density; designed directlyinto the host equipment or supplied in an external housing,. different cell configurations,connectors, Cell Balance, Smart Battery Interface allows communication via SMBs
Battery pack 3S1P
Nominal Voltage: 11.1 V
Maximum Charge Voltage: 12.6 V
Discharge Cut-off Voltage : 8.25 V
Typical Capacity : 4400 mAh at 0.2 C
Standard Charge : Constant current at 3100 mA with maximum voltage of 16.8 V for 2 hours
Standard Discharge : Constant current at 4400 mA to 8.25 V
Maximum charging current : 8800 mA
Maximum discharging current : 12000 mA
Operating Temperature : -10°C - 60°C (Charging) / -40°C - 70°C (Discharging)
Storage Temperature : -40°C - 60°C
Lithium-ion packs “Off the Shelf”; minimum height and maximum energy density; designed directlyinto the host equipment or supplied in an external housing,. different cell configurations,connectors, Cell Balance, Smart Battery Interface allows communication via SMBs
Battery pack 3S1P
Nominal Voltage: 11.1 V
Maximum Charge Voltage: 12.6 V
Discharge Cut-off Voltage : 8.25 V
Typical Capacity : 4400 mAh at 0.2 C
Standard Charge : Constant current at 3100 mA with maximum voltage of 16.8 V for 2 hours
Standard Discharge : Constant current at 4400 mA to 8.25 V
Maximum charging current : 8800 mA
Maximum discharging current : 12000 mA
Operating Temperature : -10°C - 60°C (Charging) / -40°C - 70°C (Discharging)
Storage Temperature : -40°C - 60°C
Power Solution Example of Applications
Genport 300 HFC withGenH2
10h @ 100 W with 1 canister MH: Auxiliary Power forYachts and Camper, UPS for Telecoms.
Genport 300 HFC withGenFUEL
8 h@ 100 W with 2 cartidges: Battery Charger forComputers, Radios, Fax, Satellite Phones,Electromedical Devices.
Product
Applications
Genport 300 HPS24 h @ 100 W: Continuous Power Supply for smallTelecoms, Electromedical Devices.
Genport 300 HPS withGenFUEL
16 h @ 100 W / 8h @ 200 W with 2 cartidges:Continuous Power Supply for yachts and camper, UPSfor Telecoms.
GenPV 50 10 h @ 50 W: Battery Charger for Radios, Fax, SatellitePhones, Small Electromedical Devices.
GenPV 200 10 h @ 100 W: Battery Charger for Computers, Radios,Fax, Satellite Phones, Electromedical Devices.
Example of Applications
10h @ 100 W with 1 canister MH: Auxiliary Power forYachts and Camper, UPS for Telecoms.
8 h@ 100 W with 2 cartidges: Battery Charger forComputers, Radios, Fax, Satellite Phones,Electromedical Devices.
24 h @ 100 W: Continuous Power Supply for smallTelecoms, Electromedical Devices.
16 h @ 100 W / 8h @ 200 W with 2 cartidges:Continuous Power Supply for yachts and camper, UPSfor Telecoms.
10 h @ 50 W: Battery Charger for Radios, Fax, SatellitePhones, Small Electromedical Devices.
10 h @ 100 W: Battery Charger for Computers, Radios,Fax, Satellite Phones, Electromedical Devices.
Extended Power
100 WattMission 20 DaysCapacity 48 kWh• Compared to state of the art Lithium Batteries,dramatic weight savings are possible
• GP300 HFC is over 20x lighter than Lead AcidBatteries
• No effect of extreme environments on energystorage by Genfuel (Solid H2)
Mission 20 DaysCapacity 48 kWh• Compared to state of the art Lithium Batteries,dramatic weight savings are possible
• GP300 HFC is over 20x lighter than Lead AcidBatteries
• No effect of extreme environments on energystorage by Genfuel (Solid H2)
Energy Density:180 Wh/kg - BA5590Batteries
Cost: € 29.000
270 Kg 80 KgEnergy Density:610 Wh/kg - GP300 HFC& GenFuel Cartridges
Cost: € 6.900
Hybrid Fuel Cell
Field Trials
Thank [email protected]
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