990 research outputs found
Tunable sensor response by voltage-control in biomimetic hair flow sensors
Get PDFWe present an overview of improvements in detection limit and responsivity of our biomimetic hair flow sensors by electrostatic spring-softening (ESS). Applying a DC-bias voltage to our capacitive flow sensors improves the responsively by up to 80% for flow signals at frequencies below the sensor’s resonance. Application of frequency matched AC-bias voltages allows for tunable filtering and selective gain up to 20 dB. Furthermore, the quality and fidelity of low frequency flow measurements can be improved using a non frequency-matched AC-bias voltage, resulting in a flow detection limit down to 5 mm/s at low (30 Hz) frequencies. The merits and applicability of the three methods are discussed
Het present van Staat : de gouden ketens, kettingen en medailles verleend door de Staten-Generaal, 1588-1795
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Van 1588 tot 1795 vormden de Nederlanden een republiek van zeven
soevereine gewesten
In de vergadering van de Staten-Generaal in Den Haag overlegden
vertegenwoordigers van de gewesten over zaken van algemeen belang, zoals
de gemeenschappelijke landsverdediging en de buitenlandse politiek. Uit
naam van de Republiek gaven de Staten-Generaal presenten en vereringen.
Aan buitenlandse gezanten die op het punt
stonden de Republiek te verlaten, aan brengers van belangrijke berichten
en aan dappere soldaten en zeelieden. Er werden verschillende soorten
voorwerpen als geschenk gegeven: kostbare tapijten, vaatwerk van goud of
zilver, boeken, paarden en zelfs schelpen. Na 1630 werden de gouden
ketting, de gouden medaille of de combinatie
van beide het standaardgeschenk. Op den duur sprak men van het
‘ordinaris present’.
Het present van Staat beschrijft hoe dit ordinaris present ontstond, op
welke wijze en aan wie het werd verleend en toont er prachtige
voorbeelden van.LEI Universiteit LeidenCollective identities and transnational networks in medieval and early modern Europe, 1000-180
Thin, flexible, capacitive force sensors based on anisotropy in 3D-printed structures
Get PDFConductive 3D-printed structures made out of a carbon doped thermoplastic polyurethane (TPU) deposited by an FDM 3D-printer show a high inter-layer contact resistance. Due to this poor resistive coupling capacitive effects between layers become prominent. This effect can be used to create capacitive force sensors by depositing only two thin layers of material. In this paper we investigate the feasibility of such a 3D-printed force sensor. The change in capacitance due to the compression of the material caused by an applied force (0 N to 10 N) is measured using an LCR meter. The presented sensor con- cept has a high potential for implementation in biomedical and soft robotic applications since the sensor is thin and flexible because it is made from soft material
DC Electric Metamaterial Behaviour in Fused Filament Fabrication Prints with Tuned Interfaces
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Lowering the sensory threshold and enhancing the responsivity of biomimetic hair flow sensors by electrostatic spring softening
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