JOSE DINIZ NETO
28, Rua Francisco Paulo Simone +55 (83) 996719346
Sorocaba, State of São Paulo - Brazil josediniz.ee@outlook.com
Skype: josedinizneto
SUMMARY
Career objectives:
o Obtain professional experience by applying the acquired knowledge from University, and gather
new professional skills at work experience.
o Ambition to gather sufficient professional years of experience to become a principal engineer for
electrical engineering commissioning projects.
Won National and International Awards. Developed work experiences as an intern of electrical engineering
in Brazil and Australia.
Developed research in Solar Power, Power Generation for Wind Power, and Machines and Drives.
Continue post-graduation studies in regards to power systems.
EDUCATION
Bachelor of Electrical Engineering
Final Project Title: “Permanent Magnet
Synchronous Machine: General
Characterization. A Wind Power Approach”. IFPB-Brazil 2010 – 2016
Final Grade/Mark: 85/100
Electrical Power Engineering – Study abroad Curtin University - Australia 2015
English Bridging course (Academic English) Curtin University - Australia 2014 – 2015
WORK EXPERIENCE
Electrical Engineer at São Paulo Engenharia April 2017-Present
Responsible for accompanying the construction of an Air Traffic Control Tower, as well as its 750kVA
Step Down Substation at the Airport of Sorocaba - SP, Brazil. This work has been executed together with
professionals of the Brazilian Air force, and it also follows strict international standards (FAA).
Supervising and Coordinating the complete execution of 750kVA Step Down Substation (23.1kV/380V):
o 23.1kV Primary Cabin (Metering and Transforming Unit)
23.1 Modular Switchboard (metering and protection)
Two Three-Phase 300 kVA 23.1kV/380V Dry Transformers
o Backup Unit
Two Three-Phase 550kVA 380V Generators
o Uninterruptable Power Supply
Two 60kVA 380V No breaks to feed the most essential loads in the airport
o Accompanying the installation of Constant Current Regulators (CCR’s)
o Installing Electric Panels and Switchboards at both Substation and Air Traffic Control Tower
o Accompanying the execution of low voltage electrical installation of buildings (Substation and Air
Traffic Control Tower
o Supervising the complete installation of the Airport communication system (Fiber-Optics, DIOs,
Patch Panels, and other communication devices)
In Parallel, being responsible for the execution of electrical installation of buildings in a 144-Apartment
construction, as well as designing the project photovoltaic power plants.
Internship at Electric Drives, Automation and Control Laboratory, IFPB June-October 2016
Such work was part of a bilateral cooperation between the Federal Institute of Technology of Paraíba and
WEG Industries.
Carrying out the final project required to conclude the degree of Electrical Engineering at IFPB. Such
project objectives to provide a review about the wind power sector in Brazil in present days. In addition, it
also includes presenting and simulating in Matlab® script the dynamic model (dq0) of permanent magnet
synchronous machine. Simulation and experimental results were collected.
Student work experience at WEG Australia Pty Ltd February 2016
Analysis and specification of induction motors fed by Variable Frequency Drives.
Researching out root cause failure analysis of electric motors.
Studying out equipment catalogues.
Performed two site visits at a company`s client aiming to analyse the installation of two 1MW motors fed
by a WEG variable frequency drive.
Received a recommendation letter at the end of the work experience because of work performance
provided to the company.
Internship at SpringCity Engineering, Power and Strategy December/2015-January/2016
Australian company located in Perth – WA.
Supported the Engineering team for performing out an Arch Flash Mitigation Strategies through the
technical requirements from IEEE 1584 standard.
Assisted the engineering team to solve problems in relation to cost-effective analysis to select both power
equipment and personal protection equipment (PPE)
Developed power system models and protection devices grading in Power Tools for Windows (PTW) by
consulting technical guides, and the experienced co-workers to achieve power flow analysis and short-
circuit analysis, as well as selecting suitable equipment.
Received a recommendation letter at the end of the internship.
Undergraduate Student Researcher at Brazilian National Council of Scientific and Technological
Development 2011-2014
Assisted to develop a low cost single-phase power generations system connected to the grid that
contributed to reduce the price of U$/kW of the system. Such research had a publication in the IEEE IAS
annual meeting in 2013. The tittle of the article was “Low cost single-phase grid-tie generator”
WON AWARDS
Employability Award – Curtin University 2016
Such award was provided after two modules:
Performing out online modules about behaviour at work, professional career prospection analysis, and how
to synthetise and write a proper resume.
Carrying out a professional experience at course-related area during a significant time. After that
experience analyse the company`s feedback about the performed work
Further information may be find out in: http://life.curtin.edu.au/careers/employability-award.htm
Science Without Borders Scholarship – Brazilian Ministry of Education 2014
Such scholarship aimed to benefit students of key technological sectors with the opportunity of carrying out a study
abroad programme in the selected country and institution chosen by the student. The selection was merit based, and
was necessary to have a strong academic background, as well as language proficiency. It was included an English
academic course, one year of study in a related-degree at the chosen university, and an internship in a related-
course company.
WEG Technological Innovation Award, Undergraduate Category 2012
Award provided to a work regarding wind power generation system, where all Brazilian Universities were allowed
to participate. The work contribution was proposing a new topology to single-phase power generation systems
connected to the grid. Such topology used a three-phase induction generator as a single-phase generator by using
the Steinmetz connection to minimise the voltages unbalance. In addition, the three-leg inverter topology used
permitted the connection of the generator to the power grid. As a final result, the cost of the system had fallen by
half price per generated kW.