Design and Theoretical Analysis of Bit Error Rate (BER)-modulated Inductive-coupling Transceiver Using Dynamic Intermediate Interference Control Technique for Low-power Communication.

MLA

Ge Xu, et al. “Design and Theoretical Analysis of Bit Error Rate (BER)-Modulated Inductive-Coupling Transceiver Using Dynamic Intermediate Interference Control Technique for Low-Power Communication.” Sensors & Materials, vol. 32, no. 8, Part 1, Aug. 2020, pp. 2631–39. EBSCOhost, https://doi.org/10.18494/SAM.2020.2558.

APA

Ge Xu, Kenya Hayashi, Shigeki Arata, Shunya Murakami, Atsuki Kobayashi, & Kiichi Niitsu. (2020). Design and Theoretical Analysis of Bit Error Rate (BER)-modulated Inductive-coupling Transceiver Using Dynamic Intermediate Interference Control Technique for Low-power Communication. Sensors & Materials, 32(8, Part 1), 2631–2639. https://doi.org/10.18494/SAM.2020.2558

Chicago

Ge Xu, Kenya Hayashi, Shigeki Arata, Shunya Murakami, Atsuki Kobayashi, and Kiichi Niitsu. 2020. “Design and Theoretical Analysis of Bit Error Rate (BER)-Modulated Inductive-Coupling Transceiver Using Dynamic Intermediate Interference Control Technique for Low-Power Communication.” Sensors & Materials 32 (8, Part 1): 2631–39. doi:10.18494/SAM.2020.2558.