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Industry News
November 19, 2012
Printed Thermoelectric Generators Demonstrated by Fraunhofer at Electronica
electronica 2012
At last week's Electronica 2012 trade fair, researchers from the Fraunhofer Institute for Manufacturing Technology and Advanced Materials (IFAM) in Bremen presented a printed thermogenerator, which can be tailored exactly to technical specifications. The IFAM researchers have developed new production processes to custom manufacture the thermoelectric generators.
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"Generative manufacturing processes produce both sensors and sensor networks as well as the required elements for energy harvesting such as thermogenerators: By directly depositing functional structures, which have an ink or paste base, using ink-jet, aerosol-jet, screen-printing or dispensing processes, not only can electrical circuit boards and sensor elements be attached to different interfaces but it is also possible to produce structures which harvest energy," explained Dr. Volker Zöllmer, Head of Functional Structures, whose work focuses on the topic of Energy Harvesting at the Fraunhofer IFAM.
Using a purposeful combination of metallic and thermoelectrical materials which are successively applied, the researchers manufacture structures which can be used as thermoelectrical generators. The major advantage of this is that the printed thermogenerators can be tailored exactly to the technical surfaces. This makes the sensors less susceptible to faults because the energy supply can be adapted directly to the respective requirements.
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"Wireless sensor networks facilitate the monitoring of safety-related components," continued Zöllmer. For sensors to work at optimum capacity, they must be attached directly to the component's interface or even integrated into the component. The power supply is usually obtained via cable or battery. "However, the limited storage capacity and battery life, as well as the issue of recycling, are critical subjects for the user," observed Zöllmer. "In our experience, a replaceable battery contributes significantly to the design of an application and as such restricts the flexible layout."
The researchers presented the following scenario: The computer activates an alarm: the machine's motor is threatening to overheat. The thermosensor attached directly to the motor housing reports the threat. The information is transmitted to the maintenance service which ensures that the cause is identified. Sensors can be used in factories, car manufacturers and other areas in everyday life. They measure temperature, humidity and wear and tear. Data is transmitted to the computer via wireless communication and read out. This enables the provision of information on the condition of parts -- for instance, whether maintenance or repairs are required.
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More and more frequently wireless sensors are used which consume very low levels of energy and the power required by the sensor, the processing unit and wireless module derives its power directly from the environment instead of "harvesting" energy from batteries electrical energy can be generated, for instance, from heat or movement. To ensure that the sensor network is entirely suitable for energy supply by means of energy harvesting, it must only consume low levels of energy. If sensors in intelligent networks are only active when sending and receiving data, energy is only required in milliwatts. Thermogenerators can deliver these quantities, for example, converting ambient heat into power.
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