Motor Instrumentation and Power Engineer

Motor Instrumentation and Power Engineer

General Qualifications:

  • Graduated from Electrical, Electronics, Electrical-Electronics, Electronics and Communication, or Mechatronics Engineering departments of universities.
  • Experienced in the creation of hardware architecture for aircraft electrical power generation systems, and knowledgeable in internal combustion engine sensors and actuators.
  • Familiarity with tests related to the electronics and electronic components of gas turbine and piston engines.
  • Knowledgeable in sensor electronics and applications for internal combustion engine sensors.
  • Understanding of electric machines (Lundell Type Alternator, Synchronous Generator, and Brushed & Brushless DC Generator) used in aircraft electrical power architecture, along with testing and system knowledge.
  • Proficient in test data collection and analysis systems.
  • Experienced in sensor selection, integration, and calibration.
  • Proficient in simulation software such as MATLAB, Spice, PSIM, etc.
  • Strong communication skills.
  • Ability to adapt to testing, fault detection, and fieldwork.
  • Analytical thinking and problem-solving skills.

Job Description: 

In unmanned aerial vehicle projects with piston/gas turbine engines:

  • Design of electrical power generation system architecture.
  • Design, testing, and management of the electrical system related to electric machines (Motor-Generator).
  • Integration and testing of sensors and actuators with avionic systems of internal combustion engines on the test bench.
  • Troubleshooting and problem-solving for faults related to the engine, electrical power system, and instrumentation equipment arising during test activities and in the field.
  • Analysis and reporting of data after aircraft operations, fault situations, and motor test bench activities.
  • Process management by collaborating with authorized personnel from the motor manufacturer for troubleshooting and technical issues.
  • Effective coordination with other software, mechanical, production, integration, and system management units.
  • Creation of the most optimal design by evaluating reports from other design disciplines.
  • Conducting method development studies related to innovative data collection systems.