Devices, utilities and technologies that have revolutionized today’s world, as cell phones, internet, laser, hybrid cars, and many more, are the inventions and creations of electrical engineers. Daily routines, lifestyles and habits, have been changed by revolutionary technologies developed by electrical engineers. The world should be thankful to electrical engineers for the modern virtual reality; they have imparted to it. All the technologies today, are of no means, if there is no “power”. Due to the ever increasing demands of electrical engineers, this profession has turned in to one of the most lucrative profession with a greater financial prospective. Signal processing, telecommunications, multimedia, and electric power are the examples of few areas where electrical engineers work. Today’s physicians, health care professionals and pharmaceutical scientists rely on the electrical engineers for the development of new high-tech devices for the purpose of diagnosis and treatment.
Electrical Engineers are involved with broad spectrum of jobs
You are very lucky if you have earned a degree in electrical engineering. You can find many prospective jobs in a vast range of industrial fields. These can be related to construction industry (lighting, heating and aeration), chemical production units, aerospace related projects, automobile production units. It can be a job related to some defense production industries, electronics’ industry, telecommunication systems, railway networks, power generation companies, oil and gas production, processing and distribution related works, marine projects, many consumer goods, fast transport projects.
In fact, electrical engineering degree graduates find a diverse range of prospective jobs. Project engineers administer the manufacturing procedure, whereas test engineers ensure proper and intended working of the device. Design engineers employ software to create proposals for novel products. Broadcast engineers generate, assessment and fix electronic machineries for telecommunications corporations. Computer motherboards and virtual networks are the area of circuit engineers. In addition to these, electrical engineers might get many other jobs.
Job description of an electrical engineer
As an electrical engineer, your job usually demands from you, designing, development and maintenance of electrical control systems. An electrical engineer is also related to components of essential provisions, concentrating on budget, security, consistency, excellence and sustainability. Electrical engineers work in different projects from the conception and detailed description of the plan till the execution, analysis and delivery. Sometimes electrical engineers also work in maintenance related jobs. Optimum project management skills and knowledge of multitasking are considered to be necessary traits of an electrical engineer, in addition to his technical knowledge and skills. Awareness about needs of market, commercial economy is also expected from an electrical engineer. Ability to work with teams and lead a team, skills in management are the additional attributes for a rapid and perfect growth in this field
How much an electrical engineer can earn?
A fresh electrical engineer, who recently got a degree, can in a year, earn minimum of $40,000 and a maximum of about $50,000. As you get experienced, you can have nice increments in salaries, maybe up to $70,000 if you’re well experienced and well reputed in the industry. A Chartered engineer can earn about $80,000 or even more.
Create an effective resume, get what you really deserve
An electrical engineer involves with job duties that are extensively versatile and different from other sorts of jobs. So the resume needs to be potentially different and diverse from other jobs in various aspects like achievements and the done projects. Electrical engineering related vocational internship or training; you have undertaken. An analogously and beautifully crafted and presented resume makes you able to open the horizons of jobs you dream. So it is of utmost importance to create a good resume for an ideal electrical engineer job. As you have gained much information about the basics, now let’s have a view of some valuable hints and tips to make the best resume for your coming electrical engineering job position.
Your resume should be attractive and appealing
While taking the initial stages to secure yourself for fresh employment position in electrical engineering, you must be able to grasp the approach of the reader in the first minute. If you are truly worthy, that duration will prolong afar one minute. In spirit, the accomplishment of your electrical engineering job exploration rest on the efficiency of your resume. Electrical engineering resumes can be additionally challenging text to produce than ordinary resume, particularly since electrical engineering jobs are often methodological. Most electrical engineers can get the fundamentals of their previous jobs and skills down on paper in a sequential and practical style. However, many of them run into difficulties when trying sell themselves to the company. So it is imperative to concentrate on your energies.
Although it certainly takes extra time to write a custom resume, yet you should do it instead of using a template. It is especially significant when you are applying for electrical engineering jobs that perfectly match to your education, trainings, qualifications and experience.
Organize your resume optimally
Maximum resumes are written chronologically putting the latest job at the topmost, followed by the previous and so on. Important here is to keep in your mind is that it is not practical the best for you as a candidate of an electrical engineering job. Time line does not necessarily and inevitably take into consideration of stuffs such as your abilities, accomplishments, managerial progress, etc. A blend of chronology of your work positions with your profound skills might be more suitable.
Give the required and important details only
Employers expect to see the minutiae of your electrical engineering work and experiences, but keep in mind that they don’t need your biography. Keep material exactly in accordance to the job and with a single objective in mind of preparing for an interview. That means everything; you have completed in previous employments and that is not important to this job is not needed.
Format and review your resume
Make certain, you have completely no inaccuracies in your resume. Even if you’ve checked it previously, making minor revises here and there be likely to make it much better. Completely review the entire resume, as a blunder in your resume can be the decisive cause of losing your job. So it will aid you are competing with other candidates.
Always concentrate on the positives
Certainly, not everything you have done previously has been a marvelous achievement. There is no place on a resume of an electrical engineer resume; for why you left your previous job, disastrous initiatives or whatsoever else that is commonly negative. So try to highlight your passion for the job position, how you can contribute to the company and how you efficaciously accomplished the same
Things to consider while emailing your resume
If you need to send a resume in an email, it is much important to comply with the instructions given by the employer relevant to method to send your resume. The employer possibly may want your resume attached to the email and to be sent in a particular layout, design or format like in a Word document or as a PDF.
In the end, do always keep in mind that resumes are not awarded the jobs, instead persons are awarded jobs. Resume is a step that leads to a successful interview, so you also need spend quality time on preparation of interview for the success.
Here is a Sample Resume for reference
321 King Court Ln, Dayton, OH 44465. firstname.lastname@example.org
Experienced Professional with focus in Electrical Engineering; seeking a challenging position in a Semiconductor Company which allows me to contribute my independent thoughts in an enthusiastic team, and actively add value to the growth of the company
Electrochemical Techniques: Electroplating, Electrochemical Machining (ECM), Electrochemical Etching/Polishing, Rotating Disk Electrode, Fountain Cell, Pulse Processes, Voltammetry (Limited)
Industrial Tools: Hands on Experience on SemiTool Raider ECD System
Thin Film Deposition Techniques: Electrochemical Methods, Evaporation, and Sputtering
Thin Film Characterization: Scanning Electron Microscopy (SEM) with Energy Dispersive Spectroscopy (EDX), Ellipsometer, Alpha-Step Profilometer, Optical Microscope, X-Ray Diffraction Spectroscopy (XRD)
Soft Skills: Technical Presentation, Report Writing, and Time Management
Senior Scientist at Laker Inc., Dayton, OH, March 2011 – Present
- Applying Pulse and Pulse Reverse processes for
- Electroplating process development of Copper (Interconnect and Via)
- Electroplating of copper for from Additive free chemistry as well as proprietary client chemistry
- Process optimization by customizing shield/mask designs (cathode & anode) and flow schemes to minimize and maintain the coefficient of variation below 6%
- Regular bath maintenance using customized titrations for Acid, Copper, and PEG
- System Design and Process development for plating Trivalent Chrome in Internal surface of landing gear
- Electroplating of Co-Mn alloys (Solid Oxide Fuel Cell Interconnects)
- Electrochemical Machining (ECM) of Inconel and Molybdenum (Turbine Blades)
- Electrochemical Etching of Titanium (Through mask for HPLC), Stainless Steel (Through mask for HPLC) and Nitnol (Medical stents)
- Electro-polishing of Niobium (Nuclear Reactor Cavities and Microwave applications)
- Serving as a Project Manager for Developing Novel Features in Flow Batteries
- Optical and Material characterization of films, coatings, and surface finishing with key Root Cause Analysis for failure
- Implementing Design of Experiment (DOE) to structure experiments; and applying statistical data analysis (ANOVA) to quantify and modify trends
- Scale up of processes from bench scale to alpha scale to industrial scale for commercial and government projects
- Determination of manufacturing and economic feasibility of scaled up processes
- Pivotal role in interacting between Design and Process Engineers to conceptualize system design
- Working in Class 1000 Cleanroom on site
Research Engineer at Nanomaterial Synthesis Group, University of Hampton, TX, Jan 2009 – Jan 2011
- Built a state of art optical bench to measure stress in-situ by wafer bending method on electro-deposit Permalloy films and created a Data Acquisition System in LabVIEW
- Supported the installation of SemiTool Raider System and employed statistical design techniques to scale the Ni-Fe plating process to on 6” Silicon Wafers
- Modeling of Stress in Magnetic (Ni-Fe, Co-Fe) Films and during annealing of Permalloy (Ni-Fe) films
Master of Science in Electrical Engineering, GPA 3.79/4, University of Hampton, December 2010
Relevant courses: Integrated Circuit Engineering, Material Science of Thin Films, Nano-scale design and fabrication, Experimental methods in Chemical Engineering, Advanced Microelectronics, Fundamental of Ferromagnetism, Physical Metallurgy
Bachelor of Engineering in Electronics, University of Hampton, 2008
- Working on ‘DATA ANALYSIS OF A MULTI-SENSOR GYRO ARRAY FOR INDOOR MOBILE DEVICE TRACKING’, Intel sponsored.
- Built a prototype of an INTELLIGENT GARBAGE COMPACTOR, using PIC in sync with a GSM module, that would alert the authorities regarding the extent of overflow from bins across the city. Also, conceptualized the use of solar panels to run the system module as an energy efficient solution.
- Laboratory Safety & Hazardous Materials Certification, University of Hampton, 2010
HONORS AND AFFILIATIONS
- Corporate Member of Electrochemical Society (ECS), 2011
- Awarded Student Member of Electrochemical Society (ECS), 2010
- Recipient of Graduate Fellowship Award, 2009 and 2010
- Program Committee Head, Institute of Electrical and Electronic Engineers (IEEE) 2007-08
- LabVIEW, MATLAB
- Microsoft Office Suite, MINITAB, JMP, Adobe Photoshop
- Good leadership skills, while being able to follow orders systematically.
- Capable of handling stress constructively while multitasking.
- Confident public speaker
PATENTS AND PUBLICATIONS
- “Electrodeposition of Chromium from Trivalent Chromium Using Modulated Electric Fields”, Provisional Patent Application submitted
- “Stress Control in Electrodeposited CoFe Films – Experimental Study and Analytical Model”, manuscript submitted to Electrochimica Acta, Feb 2012
- “Electrodeposition of CoMn onto stainless steels interconnects for increased lifetimes in SOFCS”, ECS Transactions, Vol 41.
- “Functional Trivalent Chromium Electroplating of Internal Diameters”, Sur/Fin, Las Vegas NV, 2012
- “Electropolishing of Nitinol in HF-Free Aqueous Electrolytes”, ECS, Seattle WA, May 2012
- “Stress Control in Electrodeposited 2.4 T CoFe Films”, ECS, Seattle WA, May 2012
- “Electrodeposition of CoMn onto Stainless Steel Interconnects for Increased Lifetimes in SOFCs“, ECS, Boston, Oct 2011
- “The Science and Art of Additives for Electrodeposition of 2.4 T CoFe Alloys” ECS, Montreal CA, May 2011
- “Additive Effect on Magnetic, Corrosion and Mechanical Properties of 2.4 T CoFe Alloys”, ECS, Las Vegas, Oct 2010
- “Stress Control in Ni-Fe Films”, Las Vegas, Oct 2010
- “Additive Effect on Magnetic, Corrosion and Mechanical Properties of 2.4 T CoFe Alloys, ISE, Sept 2010
- “Evolution of Stress in Thin Films”, TcSUH Conference, Houston, May 2010
- “Stress Control in Electrodeposited Permalloy Films”, Graduate Research Conference, Houston, April 2010