一种低成本气象气球载太阳能电池校准有效载荷

D. Snyder, D. Wolford
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引用次数: 1

摘要

太阳电池子电池标准组的标定是对太阳电池新技术在轨性能进行实验室验证的重要步骤。本文着眼于轻型气象气球有效载荷用于太阳能电池校准的潜在能力。一个1500克的乳胶气象气球可以将2.7公斤的有效载荷提升到超过10万英尺的高度,超过99%的大气层。在大气压力约30至15毫巴之间采集的数据可以通过兰利图方法外推到0毫巴,即AM0。这种外推,原则上,可以有小于0.1%的误差。这样一种有效载荷的发射成本明显比更大、更高高度的气球或载人飞行设施少得多。低成本使得有效载荷开发具有风险容忍度。该项目的目标是演示飞行间差异的1%标准偏差。本文介绍了太阳能电池标定载荷的初步概念,并报告了初步试飞结果。
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A low cost weather balloon borne solar cell calibration payload
Calibration of standard sets of solar cell sub-cells is an important step to laboratory verification of on-orbit performance of new solar cell technologies. This paper, looks at the potential capabilities of a lightweight weather balloon payload for solar cell calibration. A 1500 gr latex weather balloon can lift a 2.7 kg payload to over 100,000 ft altitude, above 99% of the atmosphere. Data taken between atmospheric pressures of about 30 to 15 mbar may be extrapolated via the Langley Plot method to 0 mbar, i.e. AM0. This extrapolation, in principle, can have better than 0.1% error. The launch costs of such a payload are significantly less the the much larger, higher altitude balloons, or the manned flight facility. The low cost enables a risk tolerant approach to payload development. Demonstration of 1% standard deviation flight-to-flight variation is the goal of this project. This paper describes the initial concept of solar cell calibration payload, and reports initial test flight results.
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