A RISC-V based medical implantable SOC for high voltage a current tissue stimulus

Arnaud Maceira, Alfredo; Gak Szollosy, Joel; García Ramírez, Ronny; Rimolo Donadio, Renato; Miguez De Mori, Matías Rafael; Puyol, Rafael; Solera Bolanos, Edgar; Castro González, Reinaldo; Molina Robles, Roberto; Chacón Rodríguez, Alfonso

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A_RISC-V_Based_Medical_Implantable_SoC_for_High_Voltage_and_Current_Tissue_Stimulus.pdf (689.1Kb)

Fecha

2020

Autor

Arnaud Maceira, Alfredo

Gak Szollosy, Joel

García Ramírez, Ronny

Rimolo Donadio, Renato

Miguez De Mori, Matías Rafael

Puyol, Rafael

Solera Bolanos, Edgar

Castro González, Reinaldo

Molina Robles, Roberto

Chacón Rodríguez, Alfonso

Metadatos

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URI

https://hdl.handle.net/20.500.12032/46533

Descripción

A RISC-V based System on Chip (SoC) for high voltage and current tissue stimulus, targeting implantable medical devices, is presented. The circuit is designed in a 0.18μm HV-CMOS process, including the RISC-V 32RVI based microcontroller core, called Siwa —which includes SPI, UART and GPIO interfaces, a packet-based bus and memory controller, and 8kB SRAM—, combined with several biological tissue stimulus and sensing circuits. The complete test chip (analog+RISC-V) occupies a 5mm2 area but only 0.82mm2 correspond to the RISCV micro-controller, which operates up to 20MHz, with average energy needs of less than 48 pJ/cycle (3pJ STD), and for which several reliability and safety issues were considered.
Agencia Nacional de Investigación e Innovación

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