Compact High-Precision Analog Temperature Controller for MEMS Inertial Sensors

2018 IEEE International Frequency Control Symposium (IFCS) Pub Date : 2018-05-01 DOI:10.1109/FCS.2018.8597565
Arif Mustafazade, A. Seshia
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引用次数: 5

Abstract

In this paper, we present an analog high-precision temperature controller designed to stabilize the temperature of MEMS inertial sensors with a short-term stability of better than $\pm 50 \ \mu^{\circ}\mathbf{K}$ and long-term stability of $\pm 250\ \mu^{\circ}\mathbf{K}_{\mathbf{p}-\mathbf{p}}$ measured over 12 hours. The fully analog design employing only DC signals makes it suitable for noise and interference sensitive applications as compared to AC coupled and digital methods. A linear power management method also has been implemented to minimize the power dissipation on the power stage to less than 5 mW. The whole controller implemented on a $21.3 \ \mathbf{mm}\times 21.3$ mm $10.84^{\prime\prime} \times 0.84^{\prime\prime})$ PCB.
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用于MEMS惯性传感器的紧凑高精度模拟温度控制器
在本文中,我们设计了一种模拟高精度温度控制器,用于稳定MEMS惯性传感器的温度,其短期稳定性优于$\pm 50\ \mu^{\circ}\mathbf{K}$,长期稳定性优于$\pm 250\ \mu^{\circ}\mathbf{K}_{\mathbf{p}-\mathbf{p}}$,测量时间超过12小时。与交流耦合和数字方法相比,仅采用直流信号的全模拟设计使其适用于噪声和干扰敏感的应用。采用线性电源管理方法,将功率级的功耗降至5mw以下。整个控制器实现在$21.3 \ \mathbf{mm}\乘以$21.3 $ mm $10.84^{\prime\prime} \乘以0.84^{\prime\prime})$ PCB上。
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2018 IEEE International Frequency Control Symposium (IFCS)
2018 IEEE International Frequency Control Symposium (IFCS)
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