About EET Graduates:

The Electrical Engineering Technology (EET) program is an engaging, rigorous, experiential approach to preparing professionals to be successful in the field of electronics engineering as practitioners. Graduates are fully prepared to accept and succeed in a wide variety of professional positions in companies which include electronic devices in their products or in the manufacture of their products. Employers range from those in Indiana to others around the United States and the world.

Sections below show typical starting salaries and placement information for EET graduates, their career titles, and typical employers. Since many of the graduates are placed into starting positions with the title of ‘engineer’, the last section contains a brief comparison of the EET program and typical engineering degree program characteristics.

Starting Salaries and Placement rates for EET Graduates:

The graph below shows the starting average salaries for EET graduates over the last five years.

ECET Average Starting Salaries 2007 - 2011

Placement rates have exceeded 90% every year for the past 15 years.

Starting Job Titles for the EET Graduating Class of 2010 and 2011

The top five job titles for the EET graduating classes of 2010 and 2011 were:

1. Test Engineer (8)
2. Electrical Engineer (7)
3. Applications Engineer (6)
4. Systems Engineer (5)
5. Engineer (4)

These are the actual starting job titles of the positions filled by EET graduates from the class of 2010 and 2011.

Applications Engineer (6)

Avionics Hardware Engineer

Compliance Engineer

Component Engineer

Control Technician (2)

Controls Engineer (2)

Design Engineer (3)

Digital Engineer

Electrical Engineer (7)

Electrical Engineer I

Electrical Engineering Tech.

Electrical Project Engineer

Electronics Engineer

Engineer (4)

Engineer I

Engineering Leadership Dev.

Engr. Mgmt. Trainee

Failure Analysis Engineer

Field Engineer (2)

Field Support Technologist

Firmware Engineer

Floor Engineer

Grade 28 Associate Engineer

Hardware Developer

Hardware Engineering Technician (2)

Information Mngt. Leader

Junior Electrical Engineer

Network Engineer

Plant Controls Engineer

Process Control Engineer

Process Engineer (2)

Product Develop. Engineer

Product Docum. Specialist

Product Manager

Project Engineer

Quality Engineer

Research Engineer

RF Hardware Test Engineer

RF System Engineer

Sales Engineer (3)

Small Business Owner

Software Design Engineer

Systems Engineer (5)

Tech Support (Engineer)

Technical Consultant

Technical Service Engineer

Test Engineer (8)

Validation Engineer

Employers of EET Graduates from the Classes of 2010 and 2011

The employers listed below employed the graduates of the classes of 2010 and 2011. These companies are located in Indiana and across the United States.

Acuity Brands Lighting

Advanced Compliance Solutions, Inc.

AEP

Alliance Group Technologies

AMX Corportation

AT&T

B&R Industrial Automation

BAE Systems (3)

Ball Systems

BASi

Bats Wireless

Beckman Coulter

Bettis Power Laboratory

Black & Veatch

BNSF Railway

Bucyrus

Butler America (2)

Butler International

Cameron Health

Carrier

Chrysler

Chrysler Casting

Coal Science Labs

Cray, Inc.

Delphi

Dwyer Instruments

Electric Boat

Electrodisc, LLC

Elettric 80

Engineering Innovations

Functional Devices, Inc.

GE Energy

GE Infrastructure

General Dynamics Electric Boat

Girtz Industries

Hamilton County

Hill-Rom

Hoosier Energy REMC, Inc

Horner APG

Idaho National Laboratory

Imperial Electric

Jacobs

John Deere

Kimberly Clark

Koontz-Wagner Custom Controls, LLC

Lafayette Instrument Company

Lenze

LML Automated Systems, Inc. (2)

LumiSource

Martin Yale Industries

Molex

Muncie Power Products, Inc.

N-ASK

Navistar (2)

Newkirk Electric Association

Nuclear Security Services Corp.

ON Semiconductor

Progress Rail

Purdue University

Robert Bosch

Roche Diagnostics

Rockwell Automation

Samsung Telecommunications

Schneider Electric

Schwietzer Engineering Labs

SMC Corporation of America

SpaceX

SRC, Inc.

Staley Communications

Steel Dyanamics, Inc

Tektronix

Texas Instruments

Textron

Thyssendrupp Waupaca

Universal Bearings, LLC

Usach Technologies

Whirlpool

Wonderware North

What makes EET unique from an engineering degree program?

It is apparent that many of the EET graduates are employed as ‘engineers’ of one sort or another. What is not so apparent are the differences (and similarities) in the EET and engineering degree programs and the nature of the successful EET graduates. Some reference to the history of the programs (at least as they have evolved at Purdue University) is required to fully appreciate the current programs.

During the 1950’s and 1960’s the ‘space race’ and similar efforts to be technologically first internationally, caused engineering programs to center on creating graduates who were targeted at making new discoveries for the benefit of mankind and the progress of technology. As a consequence, the engineering programs became more and more conceptually (theoretically) based, or a shift toward engineering science. That is, they relied primarily on a mathematical basis to teach and to learn. After all, if the graduate is expecting to discover that which does not exist, he or she cannot very well work with it as a part of their education. The conceptual basis as the learning methodology continues today.

Only a portion of the engineering positions need conceptually based engineers. As industry continues to progress, more and more engineers are needed with hands-on abilities to create electronic products and industrial control systems based on electronic systems. This type of engineer is often referred to as an “engineer practitioner.”

The College of Technology (CoT) was established in 1964 to fulfill this need by providing engineering practitioners. One of the founding precepts of the CoT is that students learn to put concepts into practice. And so the College of Technology and the EET program were born.

Students in the EET program learn engineering principles on an experiential basis. The courses are lecture/laboratory based with each course including a laboratory component. The application-based, hands-on approach in the laboratory component is what separates the Purdue EET program from a Purdue engineering program.

The learning scenario in EET is as follows:

1. Students attend class lectures that are applications oriented. That is the students learn the engineering principles from the perspective of studying the applications of the principles.

2. Students then attend a laboratory in which they apply the principles to electronic circuits through both simulation studies (as in the work place setting) and through hands-on experience with the electronic devices and systems.

3. As their education progresses, students synthesize the knowledge and principles into working electronic systems that are very similar to those they will create during their careers.

The overall result of this approach is that the graduates are uniquely positioned to be beneficial to a wide range of employers. And, best of all, they are ready to be productive when they ‘walk in the door’.

In summary, EET graduates learn in an applications-based, hands-on approach that allows them to build the knowledge and skills that are needed by employers and, hence, are in high demand upon graduation.