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For implanted neural-sensing devices, one of the remaining challenges is to transmit stable power/data (P/D) transmission for high spatiotemporal resolution neural data. This paper presents a miniaturized implantable 128-channel wireless neural-sensing microsystem using TSV-embedded dissolvable μ-needle array, a flexible interposer and 4 dies by 2.5D/3D TSV heterogeneous SiP technology. The 4 dies...
Heterogeneously integrated and miniaturized neural sensing microsystems are crucial for brain function investigation. In this paper, a 2.5D heterogeneously integrated bio-sensing microsystem with -probes and embedded through-silicon-via (TSVs) is presented for high-density neural sensing applications. This microsystem is composed of -probes with embedded TSVs, 4 dies and a silicon interposer...
Highly integrated neural sensing microsystems are crucial to capture accurate signals for brain function investigations. In this paper, an energy-efficient configurable lifting-based discrete wavelet transform (DWT) is proposed for a high-density neural sensing microsystems to extract the features of neural signals by filtering the signals into different frequency bands. Based on the lifting-based...
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