CDR Sample for Electrical Engineering Draftsperson
You can get 100% genuine CDR Sample for Electrical Engineering Draftsperson written by our professional and skilled engineering writers. The samples we provide are the report which have already been submitted and positively assessed by the Engineers Australia for Skilled Migration Visa. Please use the sample for reference purpose only and do not copy and paste from the sample.
CDR Report Sample: Electrical Engineering Draftsperson ANZSCO Code: 312311
CDR Sample for Electrical Engineering Draftsperson includes all the necessary reports such as Three Career Episodes, Continuing Professional Development, Curriculum Vitae and Summary Statement. The Content of the CDR Report Sample is as follows:
- Curriculum Vitae: Resume based on a professional template.
- Continuing Professional Development Sample: CPD Sample clearly explains the author’s Engineering Knowledge- 1000 words.
- Electrical Engineering Draftsperson Career Episode Sample – 1: “New Handheld Emissions Detector for Pinpointing the Location of Inadvertently Energized Objects in Urban Environments”- 1850 words.
- Geotechnical Engineer Career Episode Sample – 2: “A Framework for Determining the Reliability of Nanoscale Metallic Oxide Semiconductor (MOS) Devices”- 1700 words.
- Geotechnical Engineer Career Episode Sample – 3: “Design, Manufacturing and Assembly of a Flexible Thermoelectric Device”- 2100 words.
- Geotechnical Engineer Summary Statement Sample:Detail explanation of all the competency element- 1500 words.
Electrical Engineering Draftsperson Career Episode Report: Sample 1
Project Name: New Handheld Emissions Detector for Pinpointing the Location of Inadvertently Energized Objects in Urban Environments
In first career episode, the author describes the project he did in partial fulfillment of the requirements for the degree Master of Science in Technology. The project’s name was “New Handheld Emissions Detector for Pinpointing the Location of Inadvertently Energized Objects in Urban Environments”. The responsibilities of the author were:
- To pinpoint the location and further analyzes the emissions to
determine the likely cause of the shock hazard. - To advance detection technology and create a more capable, production-ready unit.
- To estimate cost savings for a contact voltage detector can be using projected variables, such as the number of objects being probed for contact identification.
- To determine the existence of an energized object within a certain radius.
- To design the handheld detector to detect two additional conditions: arcing, and false positives—created by an electronic source such as switch-mode power supplies for neon signs.
Electrical Engineering Draftsperson Career Episode Report: Sample 2
Project Name: A Framework for Determining the Reliability of Nanoscale Metallic Oxide Semiconductor (MOS) Devices
In the second Career Episode, the writer explains the engineering skills he used in the project he was involved in for the degree of Doctor of Philosophy in the Department of Industrial and Management Systems Engineering. His duties and responsibilities in the project “A Framework for Determining the Reliability of Nanoscale Metallic Oxide Semiconductor (MOS) Devices” were:
- To construct a reliability framework for nanoscale dielectric films used in Metallic Oxide Semiconductor (MOS) devices.
- To characterize and model reliability of recently developed gate dielectrics of Si-MOS devices.
- To identify the failure mechanisms of Si-based high-k gates (stress, material, environmental).
- To develop a 3-D failure simulation as a way to acquire simulated failure data.
- To identify the dielectric failure probability structure using both kernel estimation and nonparametric Bayesian schemes.
Electrical Engineering Draftsperson Career Episode Report: Sample 3
Project Name: Design, Manufacturing and Assembly of a Flexible Thermoelectric Device
In third Career Episode, the author demonstrates his technical skills he used to complete the project he was involved in as an assignment project during his university study. The project was “Design, Manufacturing and Assembly of a Flexible Thermoelectric Device”. The key responsibility of the writer was:
- To design a flexible (bending diameter of 2 inches about a single axis) and wearable (currently as a scientific instrument but with future alternatives as an accessory or integrated into apparel) thermoelectric device (TED) that can achieve a 15 °F temperature change within 10 seconds at different longitudinal sections of the human to device interface.
- To develop dimensional heat transfer model to estimate performance.
- To assemble thermoelectric elements were manually.
- To produce and test a full scale device to assess its thermoelectric behavior.
- To study the human perception of multiple dynamic temperature inputs over small and large areas of the body with the help of thermoelectric device
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