Energy Harvesting Industry Analysis
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Energy Harvesting Industry Analysis Report – April 2013 INFINERGIA Consulting ©
MAIN BENEFITS OF THIS REPORT: It presents energy harves.ng and technologies (Kine.c, Thermal and RF) It describes the Industrial and regional ecosystem • •
Industry and academic actors Main centers of development worldwide
It provides an complete understanding of the different value chains • •
How is the industry value chain structured? Which steps create the highest value?
It benchmarks the different offers and the industry as a whole •
How the different offers compare one from another, on what metrics?
•
How compe..ve and how mature is the EH industry and where is it heading?
It describes the compe..ve and market landscape •
Who are the most representa.ve players within the industry?
• •
What are the main strategies and business models implemented and their results? Where are the main markets and different applica.ons of EH today and tomorrow?
It comes illustrated with tables, figures and useful actors maps by main region. It provides an easy to use Excel database of 144 industry actors and 71 R&D centers worldwide 2 Energy Harvesting Industry Analysis Report – April 2013 INFINERGIA Consulting ©
TABLE OF CONTENTS 1 Execu)ve Summary, page 4 2 Energy Harves)ng overview, from p. 5 2.1 Our defini.on of Energy Harves.ng 2.2 Elements of an Energy Harves.ng system 2.3 Harves.ng technologies landscape 2.4 Kine.c Energy Harves.ng technologies 2.5 Thermal Energy Harves.ng technologies 2.6 RF Energy Harves.ng technologies 2.7 Energy Harves.ng Technical maturity levels 3 Industry and Regional Ecosystems, from p. 12 3.1 Typology of industry actors 3.2 Historical industry development 3.3 Geographical Landscape of EH Industry 3.4 Energy Harves.ng ecosystem in USA 3.5 Energy Harves.ng ecosystem in Europe 3.6 Energy Harves.ng ecosystem in Asia 4 Value Chain Analysis, from p. 24 4.1 Compara.ve analysis of Kine.c and Thermal value chain 4.2 Kine.c Energy Harves.ng 4.3 Thermal Energy Harves.ng 4.4 RF Energy Harves.ng
5 Technical & Economic Benchmarking, from p. 34 5.1 Kine.c EH benchmarking 5.2 Thermal EH benchmarking 6 Actors Summary, from p. 40 6.1 Maturity map of kine.c EH actors 6.2 Maturity map of thermal EH actors 7 Development and Strategies, from p. 43 7.1 Dynamics of the ecosystem 7.2 “Selec.ve investment in the value chain” strategy 7.3 “Moving downstream of the value chain” strategy 7.4 Ver.cal integra.on strategy 8 Qualita)ve Market Analysis, from p. 47 8.1 Infrastructure and building segment 8.2 Industrial segment 8.3 Consumer segment 8.4 Medical & Health segment 8.5 Transporta.on segment 8.6 Space & Defense segment 9 Company profiles (Excel file) 9.1 Pure players 9.2 Diversified players 10 Research centers (Excel file) 3
Energy Harvesting Industry Analysis Report – April 2013 INFINERGIA Consulting ©
FIGURES Figure 1 : System view of Energy Harves.ng
Figure 16 : Defini.on of the value chain of the Energy Harves.ng industry
Figure 2: Block diagram of a generic Energy Harves.ng system
Figure 17 : Distribu.on of companies/value chain of Kine.c and Thermal EH
Figure 3 : Energy Harves.ng power capabili.es
Figure 18 : Median size of companies/value chain of Kine.c and Thermal EH
Figure 4 : Evolu.on of TEG technologies by genera.on
Figure 19 : Illustra.on of the elements of the different kine.c EH value chain
Figure 5 : EH Industry Actors segmenta.on by level of involvement
Figure 20 : Value crea.on on each level of the value chain of kine.c EH
Figure 6 : Average age repar..on according to typology of the company
Figure 21 : Kine.c EH actors in the value chain
Figure 7 : Global distribu.on of companies
Figure 22 : Illustra.on of the elements of the different thermal EH value chain
Figure 8 : Global distribu.on of companies on Thermal and Kine.c domains Figure 9 : Ages and sizes of EH Pure & Diversified Players globally Figure 10 : Ages and sizes of EH Pure Players globally
Figure 11 : Energy harves.ng main players in the U.S.A
Figure 12 : Energy harves.ng main players in Europe
Figure 13 : Japanese Energy Harves.ng Consor.um (EHC) structure Figure 14 : Value chain of the Energy Harves.ng industry
Figure 23 : Value crea.on on each level of the value chain of thermal EH Figure 24: Thermal EH actors into the value chain Figure 25 : Exis.ng RF EH actors in the value chain Figure 26: Rela.onship Power vs. Volume of the kine.c energy harvesters Figure 27 : Power vs. Area of thermal transducers Figure 28 : Summary of actors’ maturity in Kine.c EH domain
Figure 29 : Summary of actors in Thermal EH Figure 15 : Main block of an Energy Harves.ng applica.on versus the value chain Figure 30 : List of applica.ons of Energy Harves.ng by market segment steps
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TABLES Table 1 : Technology types of energy harvesters Table 2 : Technology, industrial status and TRL of different types of energy harvesters Table 3 : Comparison of the value chain of Thermal and Kine.c EH Table 4: Type of pure player's offers and main trend in Kine.c EH Table 5 : Pure player's offers and main trend in Thermal EH Table 6 : Qualita.ve comparison of EH techniques Table 7 : Technical data of different vibra.on EH products Table 8 : Prices of different vibra.ons Energy Harvesters Table 9 : Technical data of different thermal transducers Table 10 : Prices of different TEGs Table 11 : Produc.on maturity levels Table 12 : Company business maturity levels
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WHY BUYING THIS REPORT? Energy Harves)ng transducer or module manufacturers: • • • •
Benchmark your company against others Understand strategic levers you can implement and where you can develop addi.onal value. Iden.fy partners (R&D, component or module) Understand most promising applica.ons
Original Equipment Manufacturers (OEM) and System Integrators: • •
Understand the full range of E.H. technologies you can implement and their poten.al Iden.fy R&D centers and component suppliers, ranked by technical and economical maturity
Financial investors and industry actors: • • •
Get a complete list and view of the industry worldwide, on each step of the value chain Understand the different technologies readiness and strategic poten.al Iden.fy disrup.ve technologies together with emerging players and markets
R&D centers: • •
Get a complete understanding of industry actors by technology Understand most promising applica.ons and candidates for technology transfer
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SCOPE OF THIS ENERGY HARVESTING REPORT: This report focuses on the following energies: Kine.c Thermal
Source: Piezo Systems
Radio Frequency
Source: Powercast
Source: Nextreme
And analyses key aspects of each domain, for example:
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PLAYERS POSITIONING AND VALUE CREATION
Full information available in the report…
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INDUSTRY PLAYERS MATURITY MAP
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ENERGY HARVERSTING ACTORS MAP BY MAIN REGION EXAMPLE:
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MAIN ENERGY HARVESTING COMPANIES AND ACADEMIC ENTITIES MENTIONED IN THE REPORT 144 Companies: Adaptamat, Adap.ve Wireless Solu.ons, Advanced Cerametrics, Advanced Linear Devices, Aivaka, Algra, Alphabet Energy, Altec (ITE), Ambient Micro, Ambiosystems, Anagear, Analog Devices, Art Of Technology, Arveni, Atmel Corpora.on, Austriamicrosystems (ams), BASF-‐ Future Business, Batscap, Canova Tech, CAP-‐XX, Cedrat Technologies, Cellergy, CeramTec, Cidete Ingenieros, Cooper Power Systems, Corning, Crystal, CurrentRF, Custom Thermoelectric, Cymbet, Decawave, Dust networks (Linear Technology), EcoHarvester, EM Microelectronics, Emerson & Cuming, Energy Micro, Enocean, EoPlex Technologies, Everredtronics, Face Interna.onal, Ferro Solu.ons, Ferroperm, Ferrotec Thermal, Freescale Semiconductor Inc, Front Edge Technology Inc, Fujiceramics Corpora.on, Gentherm (Former BSST/Amerigon), Global Thermoelectric, GMZ Energy, Greenpeak, GreenTEG, GS NanoTech, Hi-‐Z, Honeywell, HotBlock onboard, IDS Microchip, Imagine Instruments, Infineon Technologies, Infinite Power Solu.ons, Iqmobil, Jennic, Johnson Maohey Piezoproducts, KCF Technologies, Kinetron, Kryotherm, Levant Power, Linear Technology, Linx Technologies, Logismesh Technology, Lumedyne Technologies, Magnequench, Marlow Industries, Maxim IC, Maxwell Technologies, Melexis, Merit Technology Group, Micro Crystal AG, Microchip, Microgen, Micropelt, MicroPower Global, Microsemi, Microstrain (Lord), Mide Technology Corpora.on, Millennial Net, Mitsumi, Morgan Electroceramics, MTPV, Murata, Na.onal Instruments, Nextreme (Laird), Noliac, O-‐Flexx Technologies, Omega Piezo, Omron, Pavegen Systems, Peltron GmbH, Perpetua, Perpetuum, Phononic Devices, PI Ceramic, Piezo Kine.cs Inc, Piezo Systems, Piezotag Limited, Piezotech (Arkema Group), PMDM, Powercast, PowerLeap, Qmodule, Radiocraps AS, Radiopulse, RIF Corpora.on, Romny Scien.fic Inc, Seacor Piezo Ceramics, Seiko Epson, Semtech Corpora.on, Sensor Technology Ltd, ShortLink, Silicon Laboratories Inc, Smart Material Corp, Solicore Inc, STMicroelectronics, Taicang TE Cooler, Taiyco, Yuden, TECTEG, Teijin Group, Telgen (Thermointec), Tellurex, Termo-‐Gen AB, Texas Instruments, Thermointec, Thermolife (Perpetua), Thermonamic, Toumaz, TPL Inc, Transense Technology, Tremont Electric, TRS Technologies, UBE Industries, Varta Microbaoery, VisiTyre (ETV Group), Watronix, Wellen Technology, Xiamen Hicool Electronics
71 R&D centers: Berkeley, Cardiff University, CEA-‐Le.-‐Liten, CEHMS, Columbia University, Cornell Univesity, Ecole Polytechnique Federal de Lausanne (EPFL), ESCPI (Paris Tech), ESIEE, ETH, Fraunhofer Ins.tute / IIS, Fraunhofer Ins.tute / IPM, Georgia Tech College of Engineering, Grenoble INP, Holst Centre (Imec/TNO), HSG-‐IMIT, IMEC, Imperial College London, INSA Lyon, MIT, Na.onal University of Singapore, ONAMI (Oregon Nanoscience and Microtechnology Ins.tute), Politecnico di Torino, Southampton University, Technion Israel Ins.tute of Technology, Texas State University, Université de Sherbrooke, University Manchester, University of Bristol, University of Florida, University of Freiburg, University of Grenoble, University of Kanazawa, University of Tohoku, University of Tokyo, Univers.ty of Vermont,Virginia Tech
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OTHERS AVAILABLE REPORTS AND DATABASES: European Semi-‐conductor Industry database : Europe, Eastern Europe, Russia and Israel semiconductor manufacturing facili.es and fabless or IP companies. Off-‐grid market research : Cumula.ve installa.ons World Map Country-‐based macro-‐economical modeling Country-‐based segment & applica.on quan.fica.on
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