Ryan Grixti, I. Grech, O. Casha, Jean Marie Darmanin, E. Gatt, J. Micallef
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引用次数: 5
Abstract
The scope of this paper is to underline the design issues of MEMS microphones and presents a test case designed using the PolyMUMPs process with an additional back-etch processing step. Both circular and square (simply supported and clamped) diaphragm designs are considered. The effect of the back chamber volume on the microphone sensitivity is also investigated. The finalized design is based on the clamped square diaphragm with a bottom sound port. The bias voltage is 6 V and the diaphragm has a side-length of 675 μm. The back-plate includes several holes which amount to a perforation ratio of 0.33. The maximum allowable input pressure before pull-in is 139 dB SPL. The microphone with a back-chamber volume of 6 mm3 has a sensitivity of 8.4 mV/Pa at 94 dB SPL at 1 kHz. The complete package size with the ASIC included is targeted to be 3×2.5×1 mm, assuming that the ASIC is of a comparable size to that of the MEMS sensor.
本文的范围是强调MEMS麦克风的设计问题,并提出了一个使用PolyMUMPs工艺设计的测试用例,该工艺具有额外的背蚀刻处理步骤。考虑圆形和方形(简单支撑和夹紧)隔膜设计。研究了后腔体积对传声器灵敏度的影响。最终的设计是基于带底部声音端口的夹持方形膜片。偏置电压为6v,隔膜边长为675 μm。背板包括几个孔,穿孔比为0.33。拉入前的最大允许输入压力为139 dB SPL。后腔体积为6 mm3的麦克风在94 dB SPL、1 kHz时的灵敏度为8.4 mV/Pa。包含ASIC的完整封装尺寸目标为3×2.5×1 mm,假设ASIC与MEMS传感器的尺寸相当。
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