Vincent Brac-de-la-Perriere scite author profile

We are presenting a new optical encoder architecture for shaft encoding, both in incremental and absolute modes. This encoder is based on a diffractive optics technology platform. We have developed various disk based rotary diffractive encoders previously. This encoder is different in the way it is not a disk composed of successive gratings or computer generated holograms, but rather composed of a single element placed on the shaft. It is thus best suited for hollow shaft or end of shaft applications such as in encoder controlled electrical motors. This new architecture aims at solving some of the problems encountered with previous implementations of diffractive encoders such as disk wobble, disk to shaft centering and also encoding in harsh environments.

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Rollable nano-etched diffractive low-concentration PV sheets for small satelites

Brac-de-la-Perriere

Kress

Ben-Menahem

et al. 2014

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This paper discuses a novel, rollable, mass fabricable, low-concentration photovoltaic sheets for Cubesats providing them with efficient photoelectric conversion of sunlight and secondary diffuse light. The wrap consists of three thin (of order a millimeter or less), cheap plastic-sheet layers, which can be rolled together in a spiral wrapping configuration when stowed. Preliminary simulation based on the above modeling approaches show that the designs achieve comparable photovoltaic power (area for area) and (b) result in a flat angular response curve which remains flat from normal incidence of over 35 degrees to the normal. The simulation were performed using a ray tracing simulator built in Matlab. In addition, we have constructed a demonstrator using quartz wafers based on the optimized design to show the technology. Details of its fabrication are also provided.

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Optimization of a low concentration photovoltaic system

Ishihara

Ben-Menahem

Brac-de-la-Perriere

et al. 2014

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In this paper, we discuss optimization of a novel low-concentration photovoltaic system with the following properties: (1) static concentration without the need for tracking (2) thermal uniformity via Diffraction Efficiency Modulation (DEM), and (3) mass-fabricability and rollability. The approach leverages a unique combination of waveoptics modeling, multi-objective thermal-electro-optical optimization, and mass-fabricable, nano-manufacturing technology. We discuss various aspects of the optimization including a novel Helmholtz FD solver and thermal and electrical considerations.

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