Energy Harvesting Market Shares, Strategies, and Forecasts, Worldwide, Nanotechnology, 2012 to 2018
Wintergreen Research
November 22, 2011 625 Pages - SKU: WGR6690295
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Countries covered: Global
WinterGreen Research announces that it has a new study on Energy Harvesting Market Shares and Forecasts, Worldwide, Nanotechnology 2012-2018. Products power sensors that are the base for smarter computing. The 2011 study has 625 pages, 209 tables and figures. Energy harvesting devices are evolving in the context of the development of solid state technology that provides vast improvements. Improvements in energy density are one of the benefits of energy harvesting give to traditional rechargeable and solid state batteries.
Advanced technologies associated are emerging that make energy harvesting feasible. Advanced storage devices are emerging simultaneously. Storage devices can leverage the power captured by energy harvesting devices. Energy storage technologies of super-capacitors and thin-film batteries have become cost-effective. Energy harvesting devices have attained workable levels of efficiency. There are significant cost reductions. Many applications are related to smarter computing that depends on sensors capturing change in conditions and making adjustments to the environment based on measured change.
Advanced technologies associated are emerging that make energy harvesting feasible. Advanced storage devices are emerging simultaneously. Storage devices can leverage the power captured by energy harvesting devices. Energy storage technologies of super-capacitors and thin-film batteries have become cost-effective. Energy harvesting devices have attained workable levels of efficiency. There are significant cost reductions. Many applications are related to smarter computing that depends on sensors capturing change in conditions and making adjustments to the environment based on measured change.
Existing energy harvesting and storage applications include vibration-based wireless train measuring systems, wireless sensors distributed city wide to implement smart cities, oil field monitoring systems, windup laptops for use in remote regions, and wireless light switches for use in smart buildings. Wireless sensors are self-powering. They can be used to alert and monitor a range of environments and incidents, pollution and forest fires, robberies in a city, temperature in a building, and movement around a border fence.
Energy harvesting technologies include electrodynamics, photovoltaics, piezoelectrics, and thermovoltaics. Photovoltaic systems for solar energy is mostly outside the scope of this study. The energy harvesting and energy storage market factors light harvesting for small devices
Technological developments in the fields of low-power electronics and energy storage systems have allowed energy harvesting to become an increasingly viable technology. It is alternatively referred to as energy scavenging and power harvesting. Energy harvesting technology has become sophisticated and efficient.
Energy harvesting" depends on the capture of ambient energy, its conversion to usable form, and storage. Common examples of energy harvesting include wristwatches powered by body movement and bicycle dynamo powered by the motion of the wheel.
Energy harvesting" depends on the capture of ambient energy, its conversion to usable form, and storage. Common examples of energy harvesting include wristwatches powered by body movement and bicycle dynamo powered by the motion of the wheel.
According to Susan Eustis, the senior analyst for the study, "The wireless sensor node is the most important product type forecast for growth as an energy-harvesting solution. Wireless sensors are ubiquitous and very attractive products to implement smarter planet initiatives using harvested energy."
According to Susan Eustis, the senior analyst for the study, "The wireless sensor node is the most important product type forecast for growth as an energy-harvesting solution. Wireless sensors are ubiquitous and very attractive products to implement smarter planet initiatives using harvested energy."
Wireless sensors nodes are commonly placed in hard-to-reach locations. Changing batteries can be costly and inconvenient. Wireless sensors using harvested energy provide off-the-shelf availability of ultra-low-power, single-chip wireless microcontrollers (MCUs) capable of running control algorithms and transmitting data using sophisticated power management techniques.
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- ENERGY HARVESTING EXECUTIVE SUMMARY
- Energy Harvesting Market
- Wireless Sensor Nodes
- Energy Harvesting Minimization of Power Consumption
- Energy Harvesting Market Shares
- Energy Harvesting Market Forecasts
- WinterGreen Research Opinion
- Energy Harvesting Market Analysis
- Energy Harvester Benefits
- Energy Harvesting Challenges
- Energy Harvesting Current Limitations and Future Issues
- Energy Harvesting Standards
- IBM Smarter Planet Description
- Advantages Opinion
- Innovations Opinion
- Challenges Opinion
- Marlow Industries Energy Harvesting Description
- Advantages Opinion
- Innovations Opinion
- Challenges Opinion
- EnOcean GmbH Energy Harvesting Description
- Advantages Opinion
- Innovations Opinion
- Challenges Opinion
- Northrop Grumman Energy Harvesting Description
- Advantages Opinion
- Innovations Opinion
- Challenges Opinion
- Perpetua Description
- Advantages Opinion
- Innovations Opinion
- Challenges Opinion
- GE Energy Harvesting Description
- Advantages Opinion
- Innovations Opinion
- Challenges Opinion
- Alphabet Energy Harvesting Description
- Advantages Opinion
- Innovations Opinion
- Challenges Opinion
- Micropelt GmbH Description
- Advantages Opinion
- Innovations Opinion
- Challenges Opinion
- Omron Energy Harvesting Description
- Reference Market Research Study
- 1. ENERGY HARVESTING MARKET DESCRIPTION AND MARKET DYNAMICS
- 1.1 World Economy Undergoing A Transformation
- 1.1.1 Energy Harvesting Process Of Converting Energy From External Sources
- 1.1.2 Energy Is Everywhere In The Environment
- 1.1.3 Energy Harvesting
- 1.1.4 Wireless Sensor Nodes Powered By Batteries
- 1.2 Zero Power Wireless Sensors
- 1.2.1 Energy Processors and Solid State Batteries Enable Zero Power Wireless Sensors
- 1.3 Energy Harvesting Value
- 1.3.1 Energy Harvesting Applications
- 1.3.2 Common Sources of Energy for Harvesting
- 1.4 Components of an Energy Harvesting System
- 1.5 Smarter Computing
- 1.5.1 Energy Harvesting Power Management Solutions
- 1.6 Energy Harvesting Target Markets
- 1.7 Smart Buildings / Energy Harvesting
- 1.7.1 Permanent Power for Wireless Sensors
- 1.7.2 Electric Grid Energy Harvesting Services For Smart Buildings
- 1.7.3 Commercial Applications For Advanced Batteries
- 1.7.4 Challenges in Energy Harvesting System Design
- 1.7.5 Ultra Capacitors
- 1.7.6 Fuel Cells
- 1.8 Transportation Industry Target Market
- 1.8.1 Transportation Use of Energy Harvesting
- 1.9 Energy Storage For Grid Stabilization
- 1.9.1 Local Energy Storage Benefit For Utilities
- 1.10 Applications Require On-Printed Circuit Board Battery Power
- 1.10.1 Thin-film vs. Printed Batteries
- 1.11 Battery Safety / Potential Hazards
- 1.12 Thin Film Solid-State Battery Construction
- 1.13 Battery Is Electrochemical Device
- 1.14 Battery Depends On Chemical Energy
- 2. ENERGY HARVESTING: VIBRATION, THERMOVOLTAICS, PIEZOELECTRICS MARKET SHARES AND FORECASTS
- 2.1 Energy Harvesting Market
- 2.1.1 Wireless Sensor Nodes
- 2.1.2 Energy Harvesting Minimization of Power Consumption
- 2.2 Energy Harvesting Market Shares
- 2.2.1 Northrop Grumman
- 2.2.2 EnOcean Equipped Devices
- 2.2.3 EnOcean-Enabled Wireless Networks
- 2.2.4 EnOcean-Enabled Wireless Networks Installed In Over 200,000 Buildings
- 2.2.5 EnOcean Alliance
- 2.2.6 Arveni
- 2.2.7 GE HabiTEQ Systems / EnOcean Energy-Harvesting Joint Venture
- 2.2.8 Silicon Laboratories
- 2.2.9 Perpetua
- 2.2.10 Perpetuum
- 2.2.11 MicroGen Systems
- 2.2.12 KCF Technologies
- 2.2.13 Alphabet Silicon-Based Technology
- 2.2.14 Arveni's Microgenerator Transforms Mechanical Energy
- 2.2.15 Arveni Has Technology Specific To Piezo Energy Harvesting
- 2.2.16 Boeing
- 2.2.17 Marlow Industries
- 2.2.18 Marlow Industries Inc
- 2.2.19 Cymbet
- 2.2.20 Infinite Power Solutions -
- 2.2.21 Micropelt Energy Harvesting:
- 2.2.22 Dust Networks
- 2.2.23 Ferro Solutions
- 2.2.24 IBM Positions To Support Sensor Networks
- 2.2.25 GE Energy
- 2.2.26 Tadiran Batteries
- 2.2.27 GMZ
- 2.2.28 Cymtox
- 2.2.29 Ferro Solutions
- 2.2.30 Polatis Photonics
- 2.2.31 Rockwell Scientific
- 2.2.32 Omron Micro Electro Mechanical Systems (MEMS) Based Sensors
- 2.2.33 Omron Photovoltaic Inverter Technology
- 2.2.34 Selex Galileo
- 2.2.35 II-VI Incorporated
- 2.2.36 Leading Energy Harvesting Market Participants by Technology
- 2.3 Energy Harvesting Market Forecasts
- 2.3.1 Smart City Energy Harvesting Shipments Market Forecasts
- 2.3.2 Transportation Rail and Electric Vehicle Energy Harvesting Market Forecasts
- 2.3.3 Smart Building Energy Harvesting Shipments Market Forecasts
- 2.3.4 Smart Grid Meter and Substation Energy Harvesting Market Forecasts
- 2.3.5 Sensor Nodes
- 2.3.6 Military Use of Energy Sensing
- 2.3.7 Global Desalination Industry
- 2.3.8 Energy Harvesting Market Industry Segments, Units
- 2.4 Energy Harvesting Pricing
- 2.4.1 Silicon Labs Energy Harvesting Pricing
- 2.4.2 EnOcean products
- 2.4.3 Selected Energy Harvesting Unit Retail Prices
- 2.4.4 Thin Film Battery: STM, IPS, Cymbet, GS
- 2.4.5 Thermal EH solutions
- 2.5 Thin Film and Printed Battery Market Shares, Dollars
- 2.6 Thin Film And Printed Battery Market Forecasts
- 2.7 Smarter Computing Depends on Instrumented Devices
- 2.7.1 IBM The Leader In Smart Computing By A Wide Margin
- 2.7.2 Advantages Offered By SOA
- 2.7.3 SOA As An Architecture
- 2.7.4 Thin Film Battery Market Driving Forces
- 2.7.5 Smarter Computing Market Driving Forces
- 2.7.6 IBM WebSphere Product Set Leverages Thin Film Batteries
- 2.7.7 Thin Film Batteries Market Shares
- 2.8 Nanotechnology Providing Next Generation Systems
- 2.8.1 Nanotechnology Thin Film Batteries
- 2.8.2 Silver Nanoplates Silicon Strategy Shows Promise For Batteries
- 2.8.3 Argonne Scientists Watch Nanoparticles
- 2.8.4 Thin Film Batteries Use Nanotechnology to Achieve Combining Better Performance With Lower Cost
- 2.9 Energy Harvesting Geographical Region Analysis
- 2.9.1 Geographical Region Analysis
- 3. ENERGY HARVESTING PRODUCT DESCRIPTION
- 3.1 Energy Harvesting Devices
- 3.2 Marlow Industries Inc
- 3.2.1 Marlow Industries Converting Small Degrees Of Temperature Difference Into Milliwatts Of Electrical Power
- 3.3 Micropelt Energy Harvesting:
- 3.3.1 Micropelt Two Micro Thermogenerators In Series
- 3.3.2 Micropelt Thermoharvester
- 3.4 EnOcean
- 3.4.1 EnOcean ECT 310 - Thermo Energy Harvesting
- 3.4.2 EnOcean Energy Harvesting Wireless Sensor Solutions
- 3.4.3 EnOcean Alliance Energy Harvesting Solutions
- 3.4.4 EnOcean-Enabled Wireless Networks
- 3.4.5 EnOcean Alliance
- 3.5 Arveni
- 3.5.1 Arveni's Microgenerator Transforms Mechanical Energy
- 3.6 Boeing
- 3.7 Ferro Solutions
- 3.7.1 Ferro Solutions Energy Harvesters
- 3.7.2 Ferro Solutions Inductive and PME.
- 3.7.3 Ferro Solutions Piezo-based PME Energy Harvesters
- 3.7.4 Ferro Solutions
- 3.8 KCF Technologies
- 3.8.1 KCF Technologies Energy Harvesting for WMD Detection Systems
- 3.8.2 KCF Technologies Wireless Accelerometer with Ultra-Compact Energy Harvesting for Rotorcraft
- 3.8.3 KCF Technologies Harvester-Powered Wireless Accelerometers for Extreme Temperature Monitoring in Fossil Fuel Power Plants
- 3.8.4 KCF Technologies Wireless Vibration Sensors for Shipboard Environments with Broadband Energy Harvesting
- 3.8.5 KCF Technologies Harvester-Powered Wireless Sensors for Industrial Machine Monitoring and Condition Based Maintenance
- 3.8.6 KCF Technologies Piezoelectric and Smart Material Devices
- 3.8.7 KCF Technologies Compact Narrowband High-Acoustic Sound Source for Particle Agglomeration
- 3.8.8 KCF Technologies Low-Cost Liquid Atomization and Dispensing with a Miniature Piezoelectric Device
- 3.8.9 KCF Technologies Extreme Amplitude Piezoelectric Noise Source for HUMVEE Air Filter Cleaning
- 3.8.10 KCF Technologies High-Temperature Piezoelectric Alarm for Personnel Safety Devices
- 3.8.11 KCF Technologies Micro-Robot Swarms for Desktop Manufacturing
- 3.9 Trophos Energy
- 3.10 Millennial Net Wireless Sensor Network:
- 3.11 BYD-Developed Fe Battery
- 3.12 Researchers at MIT
- 3.13 Linear Technology
- 3.13.1 Linear Technology Corporation
- 3.14 ReVolt Technologies
- 3.14.1 ReVolt Technologies Button Cell Air Electrode
- 3.14.2 ReVolt Technology Partners With BASF
- 3.15 Cymbet Energizing Innovation
- 3.15.1 Cymbet Products
- 3.15.2 Cymbet Rechargeable EnerChips and Effective Capacity
- 3.15.3 Cymbet Development Support
- 3.15.4 Cymbet Solid State Energy Storage for Embedded Energy, Power Back-up and Energy Harvesting
- 3.15.5 Cymbet Energy Harvesting
- 3.15.6 Cymbet Zero Power Devices
- 3.15.7 ComtexCymbet EnerChip™ Thin-Film Batteries
- 3.15.8 Cymbet's EnerChip and Energy Harvesting Solutions
- 3.15.9 Cymbet EnerChip Solid State Battery Energy Harvesting (EH) / TI's LaunchPad Development Kit
- 3.15.10 Cymbet Corporation
- 3.15.11 Cymbet’s EnerChip™ EP CBC915,
- 3.16 Infinite Power Solutions (IPS)—
- 3.16.1 Infinite Power Solutions High-Volume Production Line for TFBs -
- 3.16.2 Infinite Power Solutions Solid-State, Rechargeable Thin-Film Micro-Energy Storage Devices
- 3.16.3 Infinite Power Solutions IPS THINERGY® MEC Products
- 3.16.4 Infinite Power Solutions THINERGY MEC
- 3.16.5 Infinite Power Solutions, Inc. Recharge From A Regulated 4.10 V Source
- 3.16.6 Infinite Power Solutions, Inc. SRAM Backup Guidelines
- 3.16.7 Infinite Power Solutions, Inc. SRAM Backup Power Solution
- 3.16.8 Infinite Power Solutions Recharging THINERGY Micro-Energy Cells
- 3.16.9 Infinite Power Solutions Charging Methods
- 3.16.10 Infinite Power Solutions, Inc. THINERGY MECs
- 3.16.11 MicroGen Systems and Infinite Power Solutions Wireless Sensor Network (WSN)
- 3.16.12 Maxim Integrated, Infinite Power Solutions IC to Integrate All Of The Power-Management Functions For Ambient Energy Harvesting
- 3.16.13 Maxim Integrated Products (Nasdaq:MXIM) MAX17710 IC Integrates Power-Management
- 3.16.14 Maxim / Infinite Power Solutions, Inc. (IPS) THINERGY(R) Solid-State, Rechargeable MEC Battery Products
- 3.16.15 Maxim introduces MAX17710 PMIC :: Uniquely enables Energy Harvesting with THINERGY MECs
- 3.16.16 IPS iTHINERGY ADP
- 3.16.17 IPS and ITT
- 3.16.18 Infinite Power Solutions, Inc. (IPS)—Global Leader In Manufacturing Solid-State
- 3.16.19 Infinite Power Solutions (IPS)
- 3.17 Schneider Electric Lighting Control Solutions for Comprehensive Facility Energy Management
- 3.18 Planar
- 3.18.1 Planar Energy Devices -
- 3.18.2 Planar Energy’s Solid State Batteries New Deposition Process
- 3.18.3 Planar Energy Print Guide to Recent Battery Advances
- 3.18.4 Planar Lithium Manganese Dioxide Nanotechnology
- 3.18.5 Planar Energy Devices PowerPlane MXE Module
- 3.19 IBM Energy Scavenging, Power Scavenging -
- 3.20 Cubic Global Tracking Solutions
- 3.21 Perpetuum
- 3.21.1 Perpetuum PMG Rail: Transportation / Powering Wireless Rail Monitoring Solutions
- 3.21.2 Perpetuum Engineering Evaluation and Development
- 3.21.3 Perpetuum Condition Monitoring
- 3.21.4 Perpetuum Condition Monitoring Technology To Predict Failure
- 3.21.5 Perpetuum Holistic View Of Equipment Condition
- 3.21.6 Perpetuum Need For Greater Accuracy In Condition Assessment Failure Prediction
- 3.21.7 Perpetuum PMG FSH Free Standing Harvester Integrated Perpetual Power Solutions:
- 3.21.8 Perpetuum Powering Wireless Rail Monitoring Solutions
- 3.21.9 Perpetuum Machine Vibration/Motion Energy Harvesting
- 3.21.10 Perpetuum Vibration Energy Harvesting
- 3.21.11 Perpetuum Vibration Source
- 3.21.12 Perpetuum Resonant Frequency: Tuning the Vibration Energy Harvester
- 3.21.13 Perpetuum Vibration Level: Achieving Maximum Power Output
- 3.21.14 Perpetuum Basic Operating Principles Of A Vibration Energy Harvester
- 3.22 Microchip Technology Inc
- 3.23 MicroGen Systems
- 3.24 MicroStrain
- 3.25 Nextreme Thermal Solutions
- 3.26 Patria
- 3.27 University of Michigan ISSCC
- 3.27.1 University of Michigan Intra-Ocular Pressure Monitor (IOPM) Device Ultra-Low Power Management
- 3.27.2 University of Michigan Intra-Ocular Pressure Monitor (IOPM) Device EH Wireless Sensor Components
- 3.27.3 University of Michigan Intra-Ocular Pressure Monitor (IOPM) Device Building Millimeter Scale EH-Based Computers
- 3.27.4 Permanent Power Using Cymbet Solid State Rechargeable Batteries
- 3.28 VigilX
- 3.29 MacSema
- 3.30 Omron Corp.
- 3.30.1 Omron Photovoltaic Inverter Technology
- 3.31 Silicon Labs Solutions For Energy Harvesting Systems
- 3.31.1 Silicon Labs Energy Harvesting Tipping Point for Wireless Sensor Applications
- 3.31.2 Silicon Laboratories Low-Power Optimization
- 3.31.3 Silicon Labs Solutions For Energy Harvesting Systems
- 3.31.4 Silicon Labs Minimizing The Amount Of Time The Radio Is On
- 3.31.5 Silicon Laboratories Managing Harvested Energy
- 3.31.6 Silicon Labs Ability To Power Wireless Sensor Nodes
- 3.31.7 Silicon Labs Powers Wireless Node with Energy Harvesting
- 3.32 Modern Water plc / Cymtox Limited
- 3.32.1 Modern Water plc / Cymtox Limited
- 3.33 Schneider Electric
- 3.34 ABB
- 3.34.1 GMZ
- 3.35 Kelk 3-188
- 3.36 Alphabet Energy
- 3.37 Perpetua 3-190
- 3.38 Phonomic Devices
- 3.39 ARPA-E Awardees $100 Million to Advance Clean Energy Technologies
- 4. ENERGY HARVESTING TECHNOLOGY
- 4.1 Wireless Sensor Solutions For Use In Buildings And Industrial Installations - Green. Smart. Wireless.
- 4.1.1 Energy Harvesting Wireless Sensor Solution
- 4.1.2 EnOcean Dolphin Interoperable System Architecture
- 4.2 Nanotechnology Graphene
- 4.2.1 Nanoscale Semiconductor Materials:
- 4.2.2 Nanotechnology Nanomaterials
- 4.3 Components of an Energy Harvesting System
- 4.4 Piezoelectric Devices
- 4.4.1 Polymer Film Substrate for Thin Flexible Profile
- 4.4.2 Comparison Of Battery Performances
- 4.5 Energy Densities
- 4.5.1 Lithium-Ion Batteries
- 4.5.2 Power Scavenging
- 4.5.3 Temperature Gradients
- 4.5.4 Human Power
- 4.5.5 Pressure Variations
- 4.5.6 Vibrations
- 4.6 Energy Harvesting Known As Power Harvesting Or Energy Scavenging
- 4.6.1 Engine Coatings
- 4.6.2 Self-Sustaining Materials
- 4.6.3 Artificial Neural Networks
- 4.6.4 Cloud Computing Social Networking-
- 4.7 Fabrication Of High Energy And Power Density Thin-Film Super-Capacitors
- 4.8 Silicon Carbide Substrate Market
- 4.9 Fraunhofer Institute
- 4.10 Tadiran Batteries
- 4.11 Perpetua 4-26
- 4.12 ZigBee® Alliance
- 4.13 ALD Energy Harvesting Modules
- 4.14 Advanced Cerametrics
- 5. ENERGY HARVESTING COMPANY PROFILES
- 5.1 ABB
- 5.1.1 ABB and IO Deliver Direct Current-Powered Data Center Module
- 5.1.2 ABB / Validus DC Systems DC power infrastructure equipment
- 5.2 Adaptive Materials Technology - Adaptamat Ltd
- 5.3 Alphabet Energy
- 5.3.1 Alphabet Energy Inexpensive Waste Heat Recovery Technology
- 5.3.2 Alphabet Thermoelectrics
- 5.4 Arrow Electronics
- 5.5 American Elements, USA
- 5.6 Avnet
- 5.7 Arveni
- 5.8 BAE Systems
- 5.8.1 BAE Key Facts
- 5.8.2 BAE Strategy
- 5.8.3 BAE Operational Framework
- 5.8.4 BAE Key Performance Indicators (KPIs)
- 5.8.5 BAE Systems Ant Size Robot
- 5.8.6 BAE Project Management
- 5.8.7 BAE Engineering
- 5.8.8 BAE Personal Robots
- 5.8.9 BAE Systems Large UGV
- 5.8.10 BAE Systems Plc (BAES.L) Hired Advisors To Sell Part Of Its North American Commercial Aerospace Business
- 5.9 Boeing
- 5.9.1 Boeing Automated Identification Technology (AIT)
- 5.9.2 Boeing Structural Health Monitoring
- 5.9.3 Boeing Aircraft Health Monitoring
- 5.9.4 Boeing
- 5.9.5 Boeing 787 Dreamliner
- 5.9.6 Boeing 787 Dreamliner Performance
- 5.9.7 Boeing Advanced Technology
- 5.9.8 Boeing Participation In Commercial Jet Aircraft Market
- 5.9.9 Boeing Participation In Defense Industry Jet Aircraft Market
- 5.9.10 Boeing Defense, Space & Security
- 5.9.11 Boeing Advanced Military Aircraft:
- 5.9.12 Boeing Military Aircraft
- 5.9.13 Boeing Continuing Progress
- 5.9.14 Boeing-iRobot Team Receives New SUGV Task Order From US Army
5.10 CST
- 5.11 Cymbet
- 5.11.1 Cymbet Team:
- 5.11.2 Cymbet Investors:
- 5.11.3 Cymbet Investors
- 5.11.4 Cymbet Partners, Sales and Distribution:
- 5.11.5 Cymbet Manufacturing:
- 5.11.6 Cymbet to Open World's Highest Volume Solid-State Battery Manufacturing Facility
- 5.11.7 Cymbet Partnering with X-FAB
- 5.11.8 Cymbet / X-FAB, Inc.
- 5.11.9 Cymbet Expanding in Minnesota
- 5.11.10 Cymbet / LEDA
- 5.11.11 Distribution Agreement EnerChip™ Eco-Friendly Solid State Batteries
- 5.11.12 Cymbet EVAL-09 Utilizes Harnessing Ambient Energy
- 5.11.13 Cymbet Secures $31 Million in Private Financing
5.12 Digi International
- 5.12.1 Digi International Revenue
- 5.12.2 Digi International Business Highlights:
5.13 Dust Networks
- 5.13.1 Dust Networks Self-Powered IPV6 Wireless Sensor Network
5.14 EnOcean GmbH
- 5.14.1 EnOcean Technology
5.15 Finmeccanica
- 5.15.1 Finmeccanica / SELEX Galileo
- 5.15.2 SELEX Galileo Inc.
- 5.15.3 SELEX Galileo Technologies
5.16 Flexible Electronics Concepts
5.17 Ferro Solutions
- 5.17.1 Ferro Solutions
5.18 Fraunhofer Institute for Integrated Circuits IIS
5.19 General Electric Company
- 5.19.1 GE Energy Wireless Condition Monitoring System / Perpetuum Electromagnetic Vibration Energy Harvesting Device
- 5.19.2 GE HabiTEQ Systems and EnOcean Energy-Harvesting Technology Joint Venture
- 5.19.3 General Electric / EnOcean Equipped Devices
- Sensors Fit In Ultra-Thin Switches On Glass Panels
- 5.19.4 GE Smart Energy Technologies
5.20 GMZ
5.21 Honeywell
- 5.21.1 Honeywell Energy-Harvesting Sensing and Control
5.22 Infinite Power Solutions
- 5.22.1 Infinite Power Solutions Solid-State, Thin-Film Batteries
- 5.22.2 Infinite Power Solutions Micro-Energy Storage Devices
- 5.22.3 Infinite Power Solutions Battery Applications
- 5.22.4 Infinite Power Solutions And Tokyo Electron Device Global Distribution Agreement
- 5.22.5 Infinite Power Solutions Raises $20.0m In Series C Financing
5.23 Inventec
5.24 IO
5.25 ITN Lithium Technology
- 5.25.1 ITN’s Lithium EC sub-Division Focused On Development And Commercialization of EC
- 5.25.2 ITN’s SSLB Division Thin-Film Battery Technology
- 5.25.3 ITN Lithium Air Battery
- 5.25.4 ITN Fuel Cell
- 5.25.5 ITN Thin-film Deposition Systems
- 5.25.6 ITN Real Time Process Control
- 5.25.7 ITN Plasmonics
5.26 II-VI incorporated / Marlow Industries
- 5.26.1 II-VI Incorporated (NASDAQ: IIVI)
- 5.26.2 II-VI Incorporated / Marlow Infrared And Near-Infrared Laser Optical Elements
- 5.26.3 II-VI incorporated / Marlow Markets
5.27 KCF Technologies Inc
5.28 Kelk
5.29 Levant Power
5.30 Micropelt
5.31 Millennial Net
- 5.31.1 Millennial Net Wireless Sensor Network:
- 5.31.2 Millennial Net’s MeshScape GO WSN Technology
5.32 Modern Water
5.33 Nature Technology
5.34 Nextreme
5.35 Northrop Grumman
- 5.35.1 Northrop Grumman Smart Grid
- 5.35.2 Northrop Grumman
- 5.35.3 Northrop Grumman Corp (NOC.N) Spinning Off Or Selling Its Shipbuilding Business
- 5.35.4 Northrop Grumman Remotec Robots
- 5.35.5 Northrop Grumman Opens New Facilities for Design and Manufacture of Unmanned Ground Vehicles in Coventry
- 5.35.6 Northrop Grumman Business Sectors:
- 5.35.7 Northrop Grumman Aerospace Systems
5.36 OMRON
- 5.36.1 Omron Revenue
5.37 Planar Energy Devices -
- 5.37.1 DOE Selects Planar Energy for Oak Ridge National Laboratory Collaborative R&D Program to Advance Next-Generation Battery Development
5.38 Perpetua
5.39 Perpetuum
- 5.39.1 Perpetuum Alliances
5.40 Phononic Devices
5.41 Polatis Photonics
- 5.41.1 Polatis Technology and Products
5.42 PS
5.43 ReVolt Technology
- 5.43.1 Executives of BMW and Gould Join ReVolt’sAdvisory Leadership Team
5.44 Teledyne / Rockwell Scientific
5.45 Severn Water / Modern Water / Cymtox Limited
5.46 Silicon Labs
- 5.46.1 Silicon Laboratories Energy Harvesting Applications
5.47 Schneider Electric
5.48 Syngenta Sensors UIC
5.49 Texas Instruments (TXN:NYSE)
- 5.49.1 Texas Instruments
5.50 Trophos Energy
5.51 University of California, Berkeley
5.52 University of Michigan
- 5.52.1 University of Michigan's Department of Electrical Engineering and Computer Science Nano-Thin Sheets Of Metal
5.53 Zarlink Semiconductor AB
5.54 US Department of Energy’s Advanced Research Projects Agency-Energy (ARPA-E) Seed Funding
5.55 Selected Energy Harvesting Market Participants
List of Tables and Figures
Table ES-1
Energy Harvesting And Energy Storage Market Factors
Table ES-2
Energy Harvesting Market Driving Forces
Table ES-3
Energy Harvesting Wireless Network Applications
Figure ES-4
Energy Harvesting Market Shares, Dollars,
First Three Quarters 2011
Figure ES-5
Energy Harvesting Sensor Network Shipments, Market Forecasts Dollars, Worldwide, 2012-2018
Table 1
Challenges In Battery And Energy Harvesting System Design
Table 1-1
Smarter Planet Sensor Network Systems Functions
Figure 1-2
Energy Harvesting Circuit Board
Figure 1-3
Energy Harvesting on Bear Sensor
Table 1-4
Energy Harvesting Applications
Table 1-5
Common Sources of Energy Harvesting
Table 1-6
Components of an Energy Harvesting System
Figure 1-7
IBM WebSphere Application Server Implements
Smarter Computing
Table 1-8
Energy Harvesting Target Markets
Table 1-9
Principal Features Used To Compare Rechargeable Batteries
Table 1-10
Challenges in Battery and Energy Harvesting System Design
Figure 1-11
BMW’s Mini E Electric Car Powered By A Rechargeable
Lithium-Ion Battery
Table 1-12
Examples of Hybrid Electric Vehicles
Figure 1-13
Typical Structure Of A Thin Film Solid State Battery
Table 2-1
Energy Harvesting And Energy Storage Market Factors
Table 2-2
Energy Harvesting Market Driving Forces
Table 2-3
Energy Harvesting Wireless Network Applications
Figure 2-4
Energy Harvesting Market Shares, Dollars,
First Three Quarters 2011
Table 2-5
Energy Harvesting Market Shares, Vibration,
Piezoelectric, Thermoelectric, Magnetic, Dollars, Worldwide, First Three Quarters 2011
Table 2-6
Perpetua Energy Harvesting Applications
Figure 2-7
Perpetuum Markets Served By Industry
Figure 2-8
Perpetuum ROI Addresses The Hidden Costs Of
Under Monitored Assets
Figure 2-9
Perpetuum Estimates Number of BOP Machine
Assets Under Monitored Exceeds 70%
Table 2-10
IBM Positions To Support Sensor Networks
Figure 2-11
IBM Describes Smarter Plant Solutions Impact on IT
Figure 2-12
IBM Strategic Vision for Innovation
Table 2-13
Leading Energy Harvesting Market Participants by Technology
Figure 2-14
Energy Harvesting Sensor Network Shipments, Market
Forecasts Dollars, Worldwide, 2012-2018
Figure 2-15
Energy Harvesting Sensor Network Shipments, Market
Forecasts Dollars, Worldwide, 2012-2018
Figure 2-16
Smart City Energy Harvesting Shipments Market
Forecasts, Dollars, Worldwide, 2012-2018
Figure 2-17
Smarter Computing Depends on Instrumented Devices
Figure 2-18
Transportation Rail and Electric Vehicle Energy Harvesting Market Forecasts Dollars, Worldwide, 2012-2018
Figure 2-19
Number and Floor Space of US Commercial Buildings
Figure 2-20
Energy Use Intensity for LEED Certified
Buildings (kBtu per Square Foot)
Figure 2-21
Smart Building Energy Harvesting Shipments
Market Forecasts, Worldwide, Dollars, 2012-2018
Figure 2-22
Contractors And Construction Energy Harvesting
Shipments Market Forecasts, Worldwide, Dollars, 2012-2018
Figure 2-23
Smart Grid Meter Energy Harvesting Market
Forecasts Dollars, Worldwide, 2012-2018
Figure 2-24
Smart Grid Substation Energy Harvesting
Shipments, Market Forecasts, Worldwide, 2012-2018
Figure 2-25
Airline / Space / Defense Industry Energy
Harvesting Market Forecasts, Dollars, Worldwide, 2012-2018
Figure 2-26
Border and Perimeter Security Energy Harvesting
Shipments Market Forecasts, Dollars, Worldwide, 2012-2018
Table 2-27
Energy Harvesting Market Industry Segments,
Percent, Worldwide, 2012 -2018
Table 2-28
Energy Harvesting Market Industry Segments,
Percent, Worldwide, 2012 -2018
Figure 2-29
Energy Harvesting Market Industry Segments,
Units, Worldwide, 2012-2018
Table 2-30
Energy Harvesting Market Industry Segments,
Units, Worldwide, 2012-2018
Figure 2-31
Marlow Energy Harvesting Device Price
Figure 2-32
Nextreme Energy Harvesting Modules WPG-1
WRLES PWR GEN 1mW 3.3, 4.1 OR 5V
Figure 2-33
MicroPelt Energy Harvester
Figure 2-34
Thin Film and Printed Battery Market Shares, Dollars, 2010
Table 2-35
Thin Film and Printed Battery Market Shares, Dollars,
Worldwide, 2010 and First Three Quarters 2011
Figure 2-36
Thin Film and Printed Battery Markets Forecasts Dollars,
Worldwide, 2011-2017
Table 2-37
Thin Film and Printed Battery Market Forecasts Dollars,
Worldwide, 2011-2017
Table 2-38
Thin Film and Printed Battery Markets Forecasts Dollars,
Worldwide, 2011-2017
Table 2-39
Thin Film and Printed Battery Market Industry Segments,
Percent, Worldwide, 2011-2017
Figure 2-40
Smarter Computing Depends on Instrumented Devices
Figure 2-41
Smarter Planet Impact on IT
Table 2-42
Advantages Offered by SOA
Table 2-41
Thin Film Battery Market Driving Forces
Table 2-42
Smarter Computing Market Driving Forces
Table 2-43
Thin Film Battery Benefits
Table 2-44
Comparison Of Battery Performance
Figure 2-45
Thin Film Battery Energy Density
Figure 2-46
Silver Nanoplates
Table 2-47
Energy Harvesting Regional Market Segments, Dollars,
First Three Quarters 2011
Table 2-48
Energy Harvesting Regional Market Segments, 2010
Figure 3-1
Marlow Industries Evergen
Table 3-2
Marlow Industries Evergen Energy Harvesting Solutions
Figure 3-3
Micropelt Thermoharvester
Figure 3-4
EnOcean ECO 100 - Motion Energy Harvesting
Table 3-5
EnOcean Energy Harvesting Motion Converter
Table 3-6
EnOcean Thermo Converter
Table 3-7
EnOcean Energy Converters For Energy Harvesting
Wireless Applications
Figure 3-8
EnOcean-Enabled Wireless Sensor Networks
Table 3-9
EnOcean Alliance Energy Harvesting Solutions Advantages
Table 3-10
EnOcean Energy Harvesting Sources
Figure 3-11
EnOcean Energy Harvesting Wireless Sensor Technology
Figure 3-12
EnOcean Energy Harvesting Wireless Sensor Devices
Figure 3-13
Arveni Wireless Sensor
Table 3-14
Arveni Micro Generator Features
Table 3-15
Boeing Energy Harvesting Development Programs Functions
Figure 3-16
Broadband Energy Harvester (Boeing )
Figure 3-17
Broadband Energy Harvester (Boeing )
Figure 3-18
Ferro Solutions Wireless Sensor Network
Table 3-19
KCF Technologies Energy Harvesting Wireless Sensors Offered
Figure 3-20
KCF Technologies Smart Rod End for Wireless Monitoring
of Helicopter Rotor Components
Figure 3-21
KCF Technologies Rotor Energy Harvesting Devices
Figure 3-22
KCF Technologies Harvester-Powered Wireless Accelerometers
Table 3-23
KCF Technologies Wireless Vibration Sensors for
Shipboard Environments
Figure 3-24
KCF Technologies Harvester-Powered Wireless
Sensors for Industrial Machine Monitoring
Table 3-25
KCF Technologies Energy Harvesting Devices
Table 3-26
KCF Technologies Piezoelectric Devices
Figure 3-27
KCF Technologies Compact Narrowband High-
Acoustic Sound Source
Figure 3-28
KCF Technologies Liquid Atomization and Dispensing
Figure 3-29
KCF Technologies Extreme Amplitude Piezoelectric
Noise Source for HUMVEE Air Filter Cleaning
Table 3-30
Trophos Energy Marine Applications
Table 3-31
Trophos Energy Land Applications
Figure 3-32
Trophos Energy innovative Marine, Land, and Electrocics
Power Generation Products
Figure 3-33
MIT Energy Harvesting Device Converts Low-Frequency
Vibrations Into Electricity
Table 3-34
Linear Technology Comprehensive Line Of High
Performance Battery
Figure 3-35
ReVolt TechnologieszFab Battery
Table 3-36
ReVolt Button Cell Air Electrode
Table 3-37
ReVolt Technology Partnership With BASF: Target Markets
Table 3-38
Cymbet Solid State Energy Storage Energizing
Innovation Target Markets
Table 3-39
Cymbet Solid State Energy Storage products
Table 3-40
Cymbet EnerChip™ Solid-State Product Line
Table 3-41
Cymbet's EnerChip Benefits
Figure 3-42
Cymbet EnerChip CBC3105-BDC:
Table 3-43
Cymbet EnerChip CBC001-BDC: Target Markets
Table 3-44
Cymbet Energy Harvesting Applications
Table 3-45
Infinite Power Solutions THINERGY® Product Family
Table 3-46
Infinite Power Solutions, Inc. Maxim Energy Management Chips
Table 3-47
Infinite Power Solutions, Inc. Applications For Energy Harvester
Table 3-48
Infinite Power Solutions Charging Methods
Table 3-49
Wireless Sensor Network Applications
Figure 3-50
Planar Energy’s Solid State Batteries Spraying Materials
Onto A Metal Substrate
Table 3-51
Applications Powered By PMG Rail
Table 3-52
Perpetuum Condition Monitoring Technologies
Table 3-53
Perpetuum Business Benefit To Dominate The
Industrial Maintenance Scene
Figure 3-54
Perpetuum Vibration Energy-Harvesting Wireless
Sensor Node Components And Structure
Figure 3-55
Perpetuum Switch Mode Efficiency
Figure 3-56
Perpetuum Condition Assessment Need
Figure 3-57
Perpetuum Condition Assessment Principle of Operation
Figure 3-58
Perpetuum Vibration Energy Harvesting for Rail Cars
Figure 3-59
Perpetuum Vibration Energy Harvesting for Rail
Wheels and Bearings
Figure 3-60
Perpetuum Temperature Variation Energy Harvesting for
Rail Wheels and Bearings
Figure 3-61
Perpetuum Temperature Variation and Vibration
Energy Harvesting Wireless Network Solution
Figure 3-62
Perpetuum Vibration Energy Harvesting Solution Benefits
Figure 3-63
Perpetuum Energy Harvesting ROI for Ten Years
Figure 3-64
Perpetuum Energy Harvesting Current Produced
Figure 3-65
Perpetuum Energy Harvesting Power Measurement
Figure 3-66
Perpetuum Energy Harvesting Wireless Monitoring
Figure 3-67
Perpetuum Energy Harvesting Installation
Figure 3-68
Perpetuum Energy Harvesting Innovation Solutions
Figure 3-69
Perpetuum Energy Free Standing Harvesting Development Kit
Figure 3-70
Perpetuum Energy Harvesting Wireless
Monitoring and Automation
Figure 3-71
Perpetuum Energy Harvesting of Under Monitored BOP Assets
Figure 3-72
Perpetuum Power Output Spectrum
Figure 3-73
Perpetuum Vibration Energy Harvester powering the
Wireless Sensor Node
Figure 3-74
Perpetuum Vibration Energy Harvesters
Figure 3-75
Perpetuum Power Solutions for Wireless Monitoring
and Automation
Table 3-76
Perpetuum Vibration Energy Harvester (VEH) Functions
Figure 3-77
Perpetuum Vibration Energy Harvester
Table 3-78
Perpetuum Industrial Markets Served
Figure 3-79
Perpetuum Markets Served By Industry
Figure 3-80
Perpetuum ROI Addresses The Hidden Costs Of
Under Monitored Assets
Figure 3-81
Perpetuum Estimates Number of BOP Machine Assets
Under Monitored Exceeds 70%
Figure 3-82
Perpetuum Assessment of Machine Assets Under Monitored
Table 3-83
MicroGen Systems Leveraging of Factors Converging To
Open Up Opportunity In Energy Harvesting
Table 3-84
MicroGen Systems Energy Harvesting For Battlefield
Figure 3-85
University of Michigan Intra-Ocular Pressure
Monitor (IOPM) Device Wireless Sensor Basic Elements
Table 3-86
Silicon Labs Solutions For Energy Harvesting Applications
Table 3-87
Silicon Labs Solutions For Energy Harvesting Solutions
Table 3-88
Silicon Labs Solutions For Energy Harvesting Systems
Figure 3-89
Silicon Laboratories Wireless Sensor Node Power Cycle
Figure 3-90
Silicon Labs Solutions For Energy Harvesting Systems
Figure 3-91
Schneider Electric Energy Harvesting
Figure 3-92
Perpetua Renewable Energy Source for Wireless Sensors
Figure 3-93
Perpetua Renewable Energy Source Applications
Figure 3-94
Perpetua Energy Harvesting Device
Table 3-95
Perpetua Thermoelectric Technology Key
Differentiating Features
Figure 3-96
Perpetua Technology
Figure 4-1
Energy Harvesting Wireless Sensor Technology
Figure 4-2
Energy Harvesting Wireless Sensor Solution
Figure 4-3
EnOcean Dolphin Interoperable System Architecture
Table 4-4
Energy Harvesting Modules Functions
Figure 4-5
Graphene Nanostructure
Figure 4-6
Piezoelectric Devices
Table 4-7
Smarter Computing Market Driving Forces
Table 4-8
Thin Film Battery Benefits
Table 4-9
Comparison Of Battery Performance
Figure 4-10
Thin Film Battery Energy Density
Figure 4-11
Comparison of Power Density of Energy Harvesting Methods/
Figure 4-12
Perpetua Flexible Thermoelectric Film
Figure 4-13
Perpetua Technology
Table 5-1
ABB Product Launches
Figure 5-2
Alphabet Energy Heat To Electricity Examples
Figure 5-3
Arveni Wireless Sensor Block Diagram
Table 5-4
ARVENI's Microgenerators Systems Functions
Figure 5-5
BAE Military Robot in Development
Figure 5-6
Boeing Vulture technology
Table 5-7
Boeing Military Aircraft Key programs
Table 5-8
Boeing Unmanned Airborne Systems:
Table 5-9
Boeing Weapons:
Table 5-10
CST Target Markets
Table 5-11
Selected Enocean Shareholders:
Figure 5-12
Ferro Solutions Energy Harvesters And Sensors
Figure 5-13
Ferro Solutions Energy Harvesters And Sensors Target Markets
Table 5-14
Ferro Solutions Selected Clients
Table 5-15
Ferro Solutions Energy Harvester Uses
Table 5-16
Ferro Solutions FS Energy Harvester Industrial & Process
Automation and Utilities
Table 5-17
Honeywell Energy-Harvesting Sensing and Control
Table 5-18
ITN Technologies
Figure 5-19
ITN Thin Film Battery Technology
Figure 5-20
ITN Battery
Figure 5-21
ITN Thin-Film Deposition Systems
Figure 5-22
ITN’s Thin-Film Deposition Systems
Table 5-23
ITN Thin-Film Deposition Systems Products and Services Offered
Table 5-24
ITN Thin-Film Deposition Systems
Figure 5-25
ITNIYN Fuel Cells
Table 5-26
KCF Technologies Core Technical Focus Areas
Table 5-27
Kelk Recent Orders
Table 5-28
Millennial Net’s MeshScape System Functions
Table 5-29
MeshScape GO Deployment Components:
Omron Revenue
Figure 5-30
Perpetua Renewable Energy Solutions For Wireless Sensors
Figure 5-31
Perpetua Energy Harvesting Product Set
Table 5-32
Perpetua's Thermoelectric Technology Features
Table 5-33
Trophos Energy Harvesting Power Solutions Applications
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