Antoine Radet
About
Antoine Radet is from Paris, Île-de-France, France. Antoine works in the following industries: "Medical Equipment Manufacturing". Antoine is currently Hardware Engineer at BioSerenity, located in Paris, Île-de-France, France. In Antoine's previous role as a Hardware Engineer at Retency SAS, Antoine worked in Paris, Île-de-France, France until Apr 2021. Prior to joining Retency SAS, Antoine was a Intern - Electronic Engineering at Schlumberger and held the position of Intern - Electronic Engineering. Prior to that, Antoine was a Final year project - Design and Fabrication of an Electronic Amplifier for Electrophysiology at University of Strathclyde, based in Glasgow, United Kingdom from Oct 2013 to May 2014. Antoine started working as Internship - FPGA development at Thales in Thalès Avionics - Vendôme, France in Jun 2013. From Jun 2012 to Aug 2012, Antoine was Internship - Embedded software development at EMCORES, based in Rennes, France.
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Antoine Radet's current jobs
Antoine Radet's past jobs
- Hardware design (schematic and layout). Mainly digital electronic (microcontrollers, System on Module) with medium speed (SPI, I²C, UART) and high-speed (HDMI, USB, Ethernet) interfaces. - Embedded software development (C or C++ depending on target platform). - Full product development cycle from system-wide specification to unit tests and prototyping. - Production: design for manufacturing, subcontractors management, production planning. - Installation: planning, plans and field constraints analysis. - Software development: backend (PHP) software development for SaaS integration with cloud marketplace.
Reliability improvement and introduction of new digital functionnalities on an existing board. - Hardware design: analyze and improve the electronic design, provide the associated documentation (specification, design justifications) - FPGA design: Specify the architecture, develop and simulate VHDL code, introduce a Nios II processor (use of Qsys software) - Firmware development: Add new features such as communication through CAN bus
Conception and fabrication of a measurement instrument for research on electrophysiology (measurement of very low current, in the range of pico amps). The circuit must be able to generate the proper signals, amplify the acquired signal and process it (using analog circuits only). Main tasks: - Review of past hardware developments. Improvements include better accuracy, noise rejection, shielding and use of better-adapted integrated circuits. - Development of new electronic features - Mechanical conception (CATIA software) - Design of 7 electronic boards : power supply, motherboard, 4 daughter cards, external amplifier with very high gain
Porting a graphic server on a NiOSII-based SOPC : - Prototyping on DE4 evaluation board (FPGA Altera Stratix IV) using Quartus II suite, including the high-level conception tool Qsys. - Porting a software demo (initially for PC) of the graphic server for the designed target. - Performance benchmark and first researches on hardware and software optimisation for the trageted software.
Embedded software development for ARM Cortex M3 processor : - Infrared emitter card for remote control of multimedia devices. Data are received on a SPI bus and transmitted on six different IR channels. - USB sound card for analogue and digital audio signals mixing and amplification. Everything is controlled on a Linux-based motherboard. The development included the embedded software on the USB sound card and some bash scripts for the Linux OS to manage properly up to 16 cards in parallel. C++ development of a GUI for remote configuration of DVB-T modulators. Connexion using serial link or IP protocol. Working in pairs with another intern.