DC-DC converter suitable for thermoelectric generator

ICT 2005. 24th International Conference on Thermoelectrics, 2005. Pub Date : 2005-06-19 DOI:10.1109/ICT.2005.1519999

Bing Shen, Robert Hendry, Jai Cancheevaram, C. Watkins, Mike Mantini, Rama Venkatasubramanian

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引用次数: 16

Abstract

With recent advancements in thermoelectric material performance, thermoelectric generators have become a viable alternative for power generation using small temperature differentials with benefits that can not be found in other energy conversion methods. The power generated by a thermoelectric generator, using a small /spl Delta/T, is characterized by a relatively high current (-/spl sim/5 A), but a relatively low voltage (<0.3 V), which is often not suited for many practical applications. In order to make use of the thermoelectric generated power in applications requiring a higher voltage, a DC-DC step up converter that can handle low input voltage is needed. Commercial available DC step up converters require an input voltage of at least 0.7 volts, which is the minimal voltage required for operating a bipolar junction switch. Several novel approaches for low input voltage DC-DC converter concepts have been studied and proved to be feasible. Their operations are based on some unconventional methods achieving DC to AC conversion for low input voltage. In one solid state approach, a normally-on transistor and a tunnel diode were utilized to achieve low voltage oscillation. A conversion concept was also developed which is based on an electromagnetic actuated mechanical switch. Operating principles and measured performance of these approaches will be reported.

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适用于热电发电机的DC-DC变换器

随着最近热电材料性能的进步，热电发电机已经成为一种可行的替代发电方法，使用小温差，具有其他能量转换方法无法找到的优点。使用小/spl Delta/T的热电发电机产生的功率具有相对较高的电流(-/spl sim/5 a)，但相对较低的电压(<0.3 V)，这通常不适合许多实际应用。为了在需要更高电压的应用中利用热电产生的电力，需要一种可以处理低输入电压的DC-DC升压转换器。商用直流升压转换器要求输入电压至少为0.7伏，这是操作双极结开关所需的最小电压。对低输入电压DC-DC变换器概念的几种新方法进行了研究，并被证明是可行的。它们的工作是基于一些非常规的方法来实现低输入电压下的直流到交流转换。在一种固态方法中，利用一个正常导通的晶体管和一个隧道二极管来实现低压振荡。还提出了一种基于电磁驱动机械开关的转换概念。将报告这些方法的工作原理和测量结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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ICT 2005. 24th International Conference on Thermoelectrics, 2005.

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