2013
DOI: 10.1088/0964-1726/22/9/094015
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Systematic approach to development of pressure sensors using dielectric electro-active polymer membranes

Abstract: Dielectric electro-active polymers (DEAPs) have become attractive materials for various actuation and sensing applications due to their high energy and power density, high efficiency, light weight, and fast response speed. However, commercial development has been hindered due to a variety of constraints such as reliability, non-linear behavior, cost of driving electronics, and form factor requirements. This paper presents the systematic development from laboratory concept to commercial readiness of a novel pr… Show more

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Cited by 37 publications
(22 citation statements)
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“…[24] Finally, in DE sensors, capacitance variation measurements are exploited to sense a stretch or an applied force. [25] Specifically, the operating principle of a DEG can be described in terms of a cyclic sequence of electromechanical transformations. To give an example, we make reference to a positioncontrolled planar DEG unit subject to uniform stretches on the electrodes plane, driven according to a cycle ( Figure 1a) with the following phases:…”
Section: Operating Principlementioning
confidence: 99%
“…[24] Finally, in DE sensors, capacitance variation measurements are exploited to sense a stretch or an applied force. [25] Specifically, the operating principle of a DEG can be described in terms of a cyclic sequence of electromechanical transformations. To give an example, we make reference to a positioncontrolled planar DEG unit subject to uniform stretches on the electrodes plane, driven according to a cycle ( Figure 1a) with the following phases:…”
Section: Operating Principlementioning
confidence: 99%
“…EAPs based on elastomers coated with conductive layers have been investigated for flexible force actuator applications. In a sensor configuration, highly flexible capacitive sensors can be created [ 14 ]. A problem though is that capacitive sensing is based on the assumption that the gap between electrodes will change, while the electrical boundary conditions of the electrodes will remain constant [ 15 ].…”
Section: Introductionmentioning
confidence: 99%
“…For example, if a parallel capacitive sensor is designed using a flexible electrode, the electrode area increases as the sensor is compressed. Then the sensor signal changes due to the decrease in gap distance between the electrodes, as well as due to the change in resistance of the electrode geometry changing [ 14 , 16 ]. With dielectric elastomers one primary research goal is the development of compliant electrodes, where a change in mechanical dimension does not lead to a large change in resistivity of the material [ 17 ].…”
Section: Introductionmentioning
confidence: 99%
“…From the electrical point of view DEAP are variable capacitors, whose capacitance is a function of the membrane deformation. DEAP can then be used as deformation or pressure capacitive sensors [6]. Thus, the capacitance measurement can be used to perform sensing while actuating in the so-called self-sensing operation [7] (e.g., sensorless position control).…”
Section: B Dielectric Electro-active Polymersmentioning
confidence: 99%