Schneider, FDraheim, JBrunne, JWaibel, PWallrabe, U2010-10-252010-10-252010-03Schneider, F, Draheim, J, Brunne, J et al. 2010. Characterisation of adaptive fluidic silicone-membrane lenses. South African Institute of Electrical Engineers, Vol. 101(1), pp 21-25http://www.saiee.org.za/publications/2010/March/101_1_4.pdfhttp://hdl.handle.net/10204/4506Copyright: 2010 South African Institute of Electrical EngineersThe authors compare the performance and optical quality of two types of adaptive fluidic silicone-membrane lenses. The membranes feature either a homogeneous thickness, or they are shaped resulting in an inhomogeneous cross-section. The lens systems incorporate a piezoelectric actuator which is operated in a regime of ±40 V. The shaped membrane lenses show lower wave front errors than the planar ones, down to 24 nm. The pumping actuator indicates a maximum pump volume of 1159 nl at an inner piezo radius of 2.75 mm for the smallest supporting ring configuration. The full system with a planar membrane achieves a larger refractive power ranging from +19 to -14 dpt. It also shows a shorter full scale response time (tplanar = 23.9 ms) compared to the shaped membrane (tshaped = 35.4 ms).enAdaptive opticsPiezoelectric actuatorSiliconeElectrical engineeringArticleSchneider, F., Draheim, J., Brunne, J., Waibel, P., & Wallrabe, U. (2010). Characterisation of adaptive fluidic silicone-membrane lenses. http://hdl.handle.net/10204/4506Schneider, F, J Draheim, J Brunne, P Waibel, and U Wallrabe "Characterisation of adaptive fluidic silicone-membrane lenses." (2010) http://hdl.handle.net/10204/4506Schneider F, Draheim J, Brunne J, Waibel P, Wallrabe U. Characterisation of adaptive fluidic silicone-membrane lenses. 2010; http://hdl.handle.net/10204/4506.TY - Article AU - Schneider, F AU - Draheim, J AU - Brunne, J AU - Waibel, P AU - Wallrabe, U AB - The authors compare the performance and optical quality of two types of adaptive fluidic silicone-membrane lenses. The membranes feature either a homogeneous thickness, or they are shaped resulting in an inhomogeneous cross-section. The lens systems incorporate a piezoelectric actuator which is operated in a regime of ±40 V. The shaped membrane lenses show lower wave front errors than the planar ones, down to 24 nm. The pumping actuator indicates a maximum pump volume of 1159 nl at an inner piezo radius of 2.75 mm for the smallest supporting ring configuration. The full system with a planar membrane achieves a larger refractive power ranging from +19 to -14 dpt. It also shows a shorter full scale response time (tplanar = 23.9 ms) compared to the shaped membrane (tshaped = 35.4 ms). DA - 2010-03 DB - ResearchSpace DP - CSIR KW - Adaptive optics KW - Piezoelectric actuator KW - Silicone KW - Electrical engineering LK - https://researchspace.csir.co.za PY - 2010 T1 - Characterisation of adaptive fluidic silicone-membrane lenses TI - Characterisation of adaptive fluidic silicone-membrane lenses UR - http://hdl.handle.net/10204/4506 ER -