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CDR Sample for Electrical Engineering Draftsperson

CDR Sample for Electrical Engineering Draftsperson

Electrical Engineering Draftsperson assists electrical engineers in engineering research, design, assembly,  manufacture, construction, operation, and maintenance of electrical equipment, networks, facilities, and distribution systems. To become an Electrical Engineering Draftsperson, a formal qualification in electrical engineering technology is required.

CDR sample for Electrical Engineering Draftsperson includes all the required reports such as Curriculum Vitae (CV), Continuing Professional Development (CPD), three Career Episodes (CE), and Summary Statement. The content of the CDR Report Samples is below:

Curriculum Vitae (CV)

Resume based on a professional template.

Continuing Professional Development (CPD)

The sample of CPD clarifies the Engineering Knowledge of the applicant – 400 words.

Electrical Engineering Draftsperson Career Episode Sample 1

“Emissions Detector for Pinpointing the Urban Environment for Energized Objects” – 1850 words

Electrical Engineering Draftsperson Career Episode Sample 2

“Determination of framework for the reliability of Nano-Scale Semiconductor Device (MOS)” – 1780 words

Electrical Engineering Draftsperson Career Episode Sample 3

“Design, Manufacture, and Assembly of a Flexible Thermoelectric Device” – 2200 words

Electrical Engineering Draftsperson Summary Statement Sample

A detailed explanation of all the competency elements – 1360 words.

Electrical Engineering Draftsperson Career Episode Sample 1

Project Name: Emissions Detector for Pinpointing the Urban Environment for Energized Objects

In the first Career Episode, the author describes his project to partially fulfill the requirements for a Master’s degree in Science in Technology. The project gets titled  “Emissions Detector for Pinpointing the Urban Environment for Energized Objects,” and his responsibilities were:

  • To identify the location and further analyze the emissions to determine the probable cause of the shock hazard.
  • To advance detection technology and create a more capable, production-ready unit.
  • To guess the savings of costs for a contact voltage detector by using projected variables like the number of objects getting probed for contact identification.
  • To determine the energized object's existence within a certain radius.
  • To design the handheld detector to detect two conditions: arcing and false positives created by an electric source like switch-mode power supplies for neon signs.

Electrical Engineering Draftsperson Career Episode Sample 2

Project Name: Determination of framework for the reliability of Nano Scale Semiconductor Device (MOS)

In the second Career Episode, the author demonstrates the engineering skills he used in the project titled “Determination of framework for the reliability of Nano Scale Semiconductor Device (MOS),” which he accomplished for the  Ph.D.  in the Department of Industrial and Management Systems Engineering. He performed the following responsibilities during the project:

  • To develop a reliability framework for Nanoscale dielectric films utilized in Metallic Oxide Semiconductor (MOS) devices.
  • To describe and model the reliability of currently developed gate dielectrics of Si-MOS devices.
  • To determine the failure mechanisms of high-k gates based on Si (stress, material, environmental).
  • To develop a simulation of 3D failure as a way to acquire simulated failure data.
  • To determine the dielectric failure's probability structure using kernel estimation and non-parametric Bayesian schemes.

Electrical Engineering Draftsperson Career Episode Sample 3

Project Name: Design, Manufacture, and Assembly of a Flexible Thermoelectric Device

In the third Career Episode, the author demonstrates the skills he used to accomplish the project he was involved in during his university study. The name of the project was “Design, Manufacture, and Assembly of a Flexible Thermoelectric Device” and his responsibilities were:

  • To design a flexible and wearable thermoelectric device (TED) that can achieve a change of 15o F temperature within 10 seconds at different longitudinal sections of the human-to-device interface.
  • To develop a dimensional heat transfer model to assume performance.
  • To assemble thermoelectric elements manually.
  • To generate and test a full-scale device to evaluate its thermoelectric behavior.
  • To study the perception of humans of multiple dynamic temperature inputs over small and large areas of the body with the help of a thermoelectric device.

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