用于CPV系统开发的EMCORE接收器

J. Foresi, Lei Yang, P. Blumenfeld, J. Nagyvary, G. Flynn, D. Aiken
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引用次数: 11

摘要

聚光光伏(CPV)系统中使用的高效太阳能电池需要可靠、高性能的电、热、光接口。EMCORE开发了提供这些接口的标准CPV接收器。这些标准设计为CPV系统开发人员提供了一种工具,可以验证他们的新系统设计,而不会影响与定制接收器设计相关的成本和进度。将对基于EMCORE的1cm × 1cm和0.5cm × 0.5cm三结太阳能电池的标准接收器进行综述。标准接收器采用EMCORE CPV系统开发团队制定的设计规则,并使用Curamik的氧化铝直接键合铜(dbc)衬底实现。这些设计包括Curamik的减压酒窝技术。dbc基板提供CPV应用所需的高电隔离和低电阻。EMCORE的设计包括盒式连接器,用于与接收器的电线互连,以及一个旁路二极管,允许在部分阴影条件下进行管柱操作。所有组件都使用焊料回流工艺连接,该工艺在太阳能电池及其衬底之间提供低空隙含量的粘合和出色的导热性。将审查接收器组装期间收集的数据,包括显示空隙含量的x射线数据。本文将介绍热阻测量的方法和结果。此外,我们将回顾dbc中包含的允许组件放置控制的特性。在1000倍的浓度下,由HIPSS(高强度脉冲太阳模拟器)测量的接收器性能数据也将被审查。EMCORE目前正在向CPV系统开发商提供这些接收器的资格预审样品,同时接收器的资格已完成。将审查接收机的鉴定试验计划,并提交鉴定试验的初步数据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
EMCORE receivers for CPV system development
High-efficiency solar cells used in Concentrator Photovoltaic (CPV) Systems require reliable, high-performance electrical, thermal and optical interfaces. EMCORE has developed standard CPV receivers that provide these interfaces. These standard designs provide a tool for CPV system developers to validate their novel system designs without the cost and schedule impact associated with custom receiver design. Standard receivers based on EMCORE's 1cm × 1cm and 0.5cm × 0.5cm triple junction solar cells will be reviewed. The standard receivers incorporate design rules developed by EMCORE's CPV system development team and are implemented using Curamik's aluminum oxide direct-bond-copper (dbc) substrates. The designs include Curamik's dimple technology for stress relief. The dbc substrates provide the high electrical stand-off and low resistance required for CPV applications. EMCORE's designs incorporate box connectors for wire interconnection to the receivers and a bypass diode that allows for string operation during partial shadow conditions. All components are attached using a solder reflow process that provides low void content bonding and excellent thermal conductivity between the solar cell and its substrate. Data gathered during receiver assembly, including x-ray data showing void content, will be reviewed. Methods and results for thermal resistance measurements will be presented. In addition we will review features included in the dbc that allow for component placement control. Receiver performance data as measured by HIPSS (High-Intensity Pulsed Solar Simulator) at 1000X concentration will also be reviewed. EMCORE is currently providing pre-qualification samples of these receivers to CPV system developers while qualification of the receivers is completed. The qualification test plan for the receivers will be reviewed and preliminary data from the qualification tests will be presented.
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