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Theodore MORICHAU BEAUCHANT

MONTMAGNY

Electionseuropéennes 2024

RETROUVEZ GRATUITEMENTLe résultat des européennes à Paris.

En résumé

Currently in charge of the R&D department of Tweedletech LLC in Berkeley, California. I specialize in Electrical Engineering with a major in Control Systems and advanced software design skills.
I am used to working in very fast paced environments with complex and challenging technical designs. My main EE skills are as follow:
* High speed, high density multilayer PCB design
* Embedded CPUs (ARM, MIPS, PowerPC)
* High-Speed interfaces (DDR2/DDR3/LVDS/...)
* FPGA/CPLD design and VHDL implementation
* Softcore CPU design and implementation
* RFID systems (125KHz and 13.56MHz mainly)
* Radio systems
* Embedded Linux implementation and device driver development
* Analog design and filtering
* Motor control, sensor interfaces
* LCD displays/LCOS based pico-projection devices
* Front-end software development (C/C++/C#)


Mes compétences :
Electronique
Informatique
Gestion de projet
C
Management
MATLAB
Electronique numérique
Electronique embarquée
Automatique
Robotique
FPGA
VHDL
Radiofréquences

Entreprises

  • AEROMAPPER - CTO

    MONTMAGNY 2013 - maintenant

  • Tweedletech LLC - Senior Hardware & Systems Engineer, Co-Founder

    2010 - maintenant Lead engineer in charge of the R&D department.
    My tasks are to design and prepare for mass production an RFID enabled system to be used in the games market. The design notably involves:
    * Embedded ARM CPU
    * Analog design and filtering
    * FPGA implementation/VHDL design
    * LCOS based pico projection technology

    Along with the technical design, I manage the software team, interact with external component sourcers and industrial mechanical design engineers and establish partnerships for volume production with overseas manufacturing companies.

  • Capsule Technologie - Hardware Engineer - Trainee

    Paris-13E-Arrondissement 2009 - 2009 Trainee in the Hardware engineering department.

    My tasks were to design the hardware (PCBs) and software (device drivers, data pipes, communication protocols) associated to an ultra low power, non-standardized, 2.4Ghz radio serial interface.

    The slave modules were specified to achieve less than 1mA mean current consumption with at least 125KBps bandwith per module. Six slave modules were to be simultaneously connected to a single master with noise protection (Frequency Hopping Spread Spectrum), automatic carrier loss recovery, frame synchronisation and data loss safety.

Formations

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