Deniz Can Dursun M.Sc. Mechatronics · Maintenance & Automation
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M.Sc. Mechatronics Engineer · İzmir

An engineer combining maintenance, automation and technical verification on the production floor.

In maintenance and repair, field automation, commissioning and motor testing, I read problems from the floor and manage the control, measurement and execution sides together. My focus: building solutions that actually run in production and showing technical results clearly.

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§ 01 · PROFILE

Maintenance, motor testing and electromagnetic analysis converge on a single engineering line.

The visible main axis is maintenance and automation. Motor testing experience reinforces measurement and verification discipline; the thesis work strengthens technical depth and analytical confidence.

F = m·a·newton — force always begins on the floor

Working close to the production floor

I treat a fault not just at the component level, but together with operator use, control logic and field conditions.

Measurement and verification discipline

I focus on turning test results, observations and technical data into reportable engineering output.

Reading the design decision

Thesis and lab background let me approach a field problem not only from a maintenance angle but also analytically.

§ 02 · PROJECTS

Selected work in maintenance, testing and analysis.

P = √3·V·I·cosφ·three-phase power — real work hides in the power factor
CASE /01 Active in field
Maintenance & Automation

Hopper scale design and field integration

PLC-controlled hopper scale automation, integrated into two production lines and actively used on the floor.

Fatek PLC Control panel Operator panel Field integration
Case detail
Hopper scale design
FIG.01 · HOPPER FRONT
CASE /02 M.Sc. published
Electromagnetic analysis · Ansys Maxwell

Thesis on SynRM rotor architectures

M.Sc. study on a magnet-free synchronous reluctance motor for washing-machine applications, examining how rotor flux-barrier geometries affect performance.

SynRM Ansys Maxwell Rotor architecture Magnetic flux
Case detail
SynRM rotor architectures
FIG.02 · ROTOR ARCH.
CASE /03 Test & validation
Motor validation practice

Testing and validation on PMSM, BLDC and induction motors

Motor validation experience covering test bench operation, procedure preparation, measurement, and performance interpretation.

PMSM BLDC Induction Test procedure
Case detail
Motor testing and validation
FIG.03 · MOTOR TEST
§ 03 · THESIS

The SynRM thesis stands out as a case with technical depth and decision impact.

The study compares how different rotor flux-barrier geometries affect torque, ripple, and magnetic flux behavior using Ansys Maxwell. Results are read with an eye toward producing technical decisions in a washing-machine context.

∇ × H = J + ∂D/∂t·ampere-maxwell — field follows current, flux follows time
Open thesis case
§ 04 · EXPERIENCE & EDUCATION

Field, test and analysis all feed the same technical view.

MTBF = Σ Tuptime / Nfailures·mean time between failures — reliability is measured in time
EXPERIENCE
  1. May 2025 — Present

    Maintenance & Automation Engineer

    Integrated food production facility · Balıkesir

    Active role in maintenance, repair, and commissioning on the production floor; working on PLC-based control needs, sensor/valve/field equipment issues, and field applications such as the hopper scale.

  2. Sep 2020 — Mar 2021

    Test Engineer

    Bader Motor Technologies · Elazığ

    Worked on test processes for PMSM, BLDC, induction, and submersible-pump motors. Bench preparation, procedure tracking, measurement, and performance interpretation.

  3. Jul — Aug 2018

    Engineering Intern

    Selni Electric Motor · Manisa

    Internship in the design, manufacturing, and testing of washing-machine motors. On-floor observation of the relationship between the production line and product development.

  4. Jun — Jul 2017

    Engineering Intern

    TES Machine Environmental Technologies · Istanbul

    Participated in design and assembly work on the KARSU electric waste-collection vehicle project.

EDUCATION
  1. 2020 — 2023

    M.Sc. · Mechatronics Engineering

    Fırat University · Elazığ

    Thesis focused on SynRM rotor architectures and electromagnetic performance comparisons.

  2. 2014 — 2019

    B.Sc. · Mechatronics Engineering

    Fırat University · Elazığ

    Foundational education combining mechanical, control, electronic, and production components on a single engineering ground.

ACADEMIC PROFILES
§ 05 · TOOLKIT

I use tools by the role they play in the work.

u(t) = Kp·e + Ki·∫e dt·PI controller — control is both now and history

Analysis & Simulation

Ansys Electronics Suite (Maxwell), MATLAB / Simulink, and literature-based comparisons.

Design & Modeling

SolidWorks, Motor-CAD literacy, and an approach that reads electromechanical component relationships.

Control & Automation

Fatek PLC, panel layout, operator panel and field-connection components.

Verification & Reporting

Test procedure, measurement collection, result interpretation, and technical reporting discipline.

§ 06 · CONTACT

Available for collaboration and technical conversations.

ω = 2π·f / p·synchronous speed — let's meet at the same frequency

Reach out for technical conversations on maintenance and automation, motor validation, or electromagnetic analysis.

Email denizcandursun.7@gmail.com
Location İzmir · Bornova, Türkiye
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