PWM频率对热膨胀角运动传感器灵敏度影响的理论与实验研究

Huahuang Luo, Jose Cabot, Xiaoyi Wang, Mingzheng Duan, Yi-Kuen Lee
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引用次数: 0

摘要

在本文中,我们提出了一个系统的研究PWM频率($f_{\text{PWM}}$)对热膨胀角运动(TEAM)传感器灵敏度的影响。实验推导了每对温度探测器的最优加热器$f_{\text{PWM}}$,以达到最优灵敏度。基于$2\mathrm{D}$ PDE模型的时间依赖分析和实验,提出了一个半经验公式,将最优$f_{\text{PWM}}\, (f_{\mathrm{o}})$与热时间常数($\tau^{\ast}$)联系起来。此外,首次提出了TEAM传感器归一化灵敏度($S^{\ast}$)的广义“相图”,作为$f_{\text{PWM}}$和归一化加热器到探测器距离$(D_{x}/L_{x})$的函数。在此,为了提高传感器的性能,我们确定了一个最优区域$S^{\ast}\geq 0.95$,其对应的最优$f_{\text{PWM}}$范围为$22\sim 26\text{Hz}$,最优$D_{x}/L_{x}$范围为0。$42\sim 0.53$。因此,该图可用于指导TEAM传感器的设计优化。
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Theoretical and Experimental Investigations of the PWM Frequency Effect on the Sensitivity of Thermal Expansion-Based Angular Motion Sensor
In this paper, we present a systematic study of the PWM frequency ($f_{\text{PWM}}$) effect on the sensitivity of a thermal expansion-based angular motion (TEAM) sensor. An optimal $f_{\text{PWM}}$ of heaters was experimentally derived for each pair of temperature detectors to achieve the optimized sensitivity. Based on the time-dependent analysis of our $2\mathrm{D}$ PDE model and experiments, a semi-empirical formula has been proposed to relate the optimal $f_{\text{PWM}}\, (f_{\mathrm{o}})$ with the thermal time constant ($\tau^{\ast}$). Moreover, a generalized ‘Phase Diagram’ of the TEAM sensor's normalized sensitivity ($S^{\ast}$) was presented, for the first time, as a function of the $f_{\text{PWM}}$ and the normalized heater-to-detector distance $(D_{x}/L_{x})$. Herein, an optimal region, where $S^{\ast}\geq 0.95$, has been identified to enhance the sensor performance with the corresponding optimal $f_{\text{PWM}}$ range of $22\sim 26\text{Hz}$ and optimal $D_{x}/L_{x}$ range of 0. $42\sim 0.53$. Thus, the diagram can be useful to guide the designing optimization of TEAM sensors.
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