@article{BhattacharyyaGruenwaldJansenetal.2018, author = {Mayukh Bhattacharyya and Waldemar Gr{\"u}nwald and Dirk Jansen and Leonhard Michael Reindl and Jasmin Aghassi-Hagmann}, title = {Design of a Programmable Passive SoC for Biomedical Applications Using RFID ISO 15693/NFC5 Interface}, series = {Journal of Low Power Electronics and Applications}, volume = {8}, number = {1}, publisher = {MDPI AG}, address = {Basel}, issn = {2079-9268}, doi = {10.3390/jlpea8010003}, url = {https://nbn-resolving.org/urn:nbn:de:bsz:ofb1-opus4-31607}, pages = {1 -- 31}, year = {2018}, abstract = {Low power, low cost inductively powered passive biotelemetry system involving fully customized RFID/NFC interface base SoC has gained popularity in the last decades. However, most of the SoCs developed are application specific and lacks either on-chip computational or sensor readout capability. In this paper, we present design details of a programmable passive SoC in compliance with ISO 15693/NFC5 standard for biomedical applications. The integrated system consists of a 32-bit microcontroller, a sensor readout circuit, a 12-bit SAR type ADC, 16 kB RAM, 16 kB ROM and other digital peripherals. The design is implemented in a 0.18 µm CMOS technology and used a die area of 1.52 mm × 3.24 mm. The simulated maximum power consumption of the analog block is 592 µW. The number of external components required by the SoC is limited to an external memory device, sensors, antenna and some passive components. The external memory device contains the application specific firmware. Based on the application, the firmware can be modified accordingly. The SoC design is suitable for medical implants to measure physiological parameters like temperature, pressure or ECG. As an application example, the authors have proposed a bioimplant to measure arterial blood pressure for patients suffering from Peripheral Artery Disease (PAD).}, language = {en} }