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Laboratories

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The College of Engineering and Engineering Technology provides students with a wealth of hands-on learning opportunities, featuring 35 laboratories where students can get first-hand experience in areas including digital signal processing, robotics, microelectronics and welding.

For information on lab safety, visit our guidelines page.

Electrical Engineering

This lab supports the theory, analysis, and design of biomedical sensors. Projects include biological elements, immobilization of biological components, medical, biological, and chemical sensors and transducers based on electrochemistry, optics, and solid-state devices. Read more >>

In this lab, research focuses on computer intelligence in future networks and smart services over intelligent networks. The general network architecture is Internet of Things, while big data analytics and data fusion based AI entities form the foundation of network managing algorithms and protocols. Application scenarios cover practical topics including vehicular networks, smart grid, e-Health systems, virtual reality and beings in networks, network security and privacy.

Lab Contact Info:
Engineering Building, Room 349A
Wei Li, Ph.D.

This lab enhances learning via hands-on applications related to communications by exploring signals and systems, circuits, active and passive filters, Bode Plot, Fourier transforms, discrete time systems and two-port networks.

Lab Contact Info:
Engineering Building, Room 347
Veysel Demir, Ph.D.

Research emphasis is on real-time DSP applications. The projects being conducted in the lab are primarily based on active noise control (ANC) and active vibration control (AVC) systems. The lab is comprised of a diverse range of signal processing equipment, including a number of TMS320C5510 and TMS320C32x kits, spectrum analyzers, microphones, amplifiers, analog filters and power amplifiers. Read More >>

Lab Contact Info:
Engineering Building, Room 147
Lichuan Liu, Ph.D.

This lab is open to all engineering students for project work and Internet access. To utilize the computers in the Engineering Building, you must obtain either an "e" or "g" account number. To apply for your number, please visit the Associate Dean's Office, EB 331. You will receive your account number approximately 24 working hours after submitting an application. Read more >>

Lab Contact Info:
Engineering Building, Room 125
Mei Chen

The main emphasis of the electrodynamics laboratory is the conversion of electrical power into dynamic mechanical motion. However, the laboratory is set up to develop many aspects of electrical power conversion using electromechanical and power electronic methods.

Students use this lab for the required Electrical Power Systems course. Projects that have used this laboratory relate to power electronic converters, electric drives and electronic lighting ballasts. One major concern is the conversion of power from alternative energy sources.

Lab Contact Info:
Engineering Building, Room 307
Donald Zinger, Ph.D.

The lab is equipped to assist students with designing, constructing, testing and experimenting with both analog and digital circuits. Tools such as SPICE, ISE (digital design tools by Xilinx, Inc.), ModelSim (digital simulator by Mentor Graphics), LASI (layout design tool), and Mentor Graphics are utilized in this lab. The lab is further equipped with FPGA boards and facilities for digital prototyping. The lab emphasis is to provide students with digital and analog design experience, as well as the FPGA-based courses. In addition, the lab supports those who do their senior design projects or MS thesis related to integrated circuit designs.

A recently added feature to this lab is the possibility for remote access. In this facility, the students of FPGA-based design courses may remotely access the lab through the Internet. They can turn the development boards on, implement their designs, reconfigure the FPGA chips and experiment all from distances.

Lab Contact Info:
Engineering Building, Room 301
Reza Hashemian, Ph.D.

The Microelectronics Research and Development Laboratory (MRDL) is a teaching and research facility specializing in semiconductor and hybrid microelectronic device fabrication. The lab is comprised of 4200 sq. ft. of clean room space separated into six work areas. The areas are segregated by cleanliness levels required for fabrication equipment and processes. The fabrication equipment and processes are used in creating integrated circuits, sensors, discrete microelectronic devices and various other devices. Read More >>

Lab Contact Info:
Engineering Building, Room 227
Ibrahim Abdel-Motaleb, Ph.D. and Michael Haji-Sheikh, Ph.D.

The microwaves and electromagnetics laboratory is set up to pursue research on microwaves and RF engineering as well as aid teaching classes such as Antenna Design, Microwave Circuit Design, and Beam Instrumentation. The facility includes an anechoic chamber that can be used to perform antenna pattern measurements and EMC testing. Equipped with microwave training kits, antenna measurement setup, and computers with computational electromagnetics software tools, the laboratory helps students gain hands-on experience in design, simulation, fabrication and measurement of microwave circuit components.

Lab Contact Info:
Engineering Building, Room 309
Veysel Demir, Ph.D.

This lab features control system modeling for electromechanical systems. Students may participate in time and frequency domain analysis and controller design.

Lab Contact Info:
Engineering Building, Room 309

The EE Design Laboratory has 10 computers equipped with some state of the art software tools that can be used to design electrical engineering systems and circuits including:

  • Ansys
  • B2 Spice
  • LASI 7
  • Mathcad
  • Matlab
  • NI Labview
  • Pspice
  • Sonnet

The lab is also equipped with several NI training equipment and a T-Tech Quick Circuit HF prototyping machine.

Lab Contact Info:
Engineering Building, Room 341
Donald Zinger, Ph.D.

This lab provides hands-on applications to enhance and apply classroom knowledge from the following courses: Computer Engineering I (ELE 250), Electronic Circuits (ELE 330), Computer Engineering II (ELE 356), Communications Systems (ELE 360), and Control Systems I (ELE 380).

Lab Contact Info:
Engineering Building, Room 341 

Industrial and Systems Engineering

This lab provides instruction and research on the principles of ergonomics for the understanding of human limitations and capabilities in man-machine systems. This understanding assists the industrial and systems engineer to design better and safer products and work places. Read More >>

Lab Contact Info:
Ehsan Asoudegi, Ph.D.

This lab provides instruction on the principles and tools of lean manufacturing through hands-on simulation games.

Lab Contact Info:
Shi-Jie (Gary) Chen, Ph.D.

 

Supplies computer resources to support research and instruction for both graduate and undergraduate students. Micro-computers, computer workstations, and printers. A large collection of software for simulation, statistical analysis, factory layout and numerical computation.

Lab Contact Info: 
Reinaldo Moraga, Ph.D.

The Baxter Reliability Laboratory is equipped to meet thermal, vibration and functional test requirements. The laboratory is equipped to handle a variety of product validation requirements, product robustness testing (HALT), electrical stress testing, and accelerated life testing. Additional Reliability functions provided include thermal analysis, reliability prediction and warranty calculations. Read More >>

Lab Contact Info:
Engineering Building, Room 265
Purushothaman Damodaran, Ph.D.
 

Mechanical Engineering

The Advanced Research of Material and Manufacturing Laboratory is part of the New, Emerging, & Advanced Technologies (NEAT) Manufacturing Solutions Center at Northern Illinois University's College of Engineering and Engineering Technology. The lab is home to any and all student organizations, projects, and research involving 3D printing or additive manufacturing. Read More >>

Lab Contact Info:
Engineering Building, Room 265
Federico Sciammarella, Ph.D.

This lab is equipped with software like PRO/ENGINEER and ANSYS and provides testing on CNC machines. Stations equipped with advanced mechanical software, CNC machines and CNC lathe.

Lab Contact Info:
Engineering Building, Room 231
Iman Salehinia, Ph.D.

The design and collaboration for this lab was unbridled by one concept: Northern Illinois students do not limit their engineering knowledge to a single field.In this lab students from all reaches of engineering - mechanical, electrical, industrial, systems and technology - gain extensive experience not just learning advanced concepts but working alongside budding engineers from other disciplines. Read More >>

Lab Contact Info:
Brianno Coller, Ph.D. and Ji Chu Ryu, Ph.D.

This lab studies friction losses in pipe apparatus. It is equipped with different pipe sites in parallel loops, fittings, valves and flow meters and pressure gauges. A subsonic wind tunnel is equipped with instruments as well as Reynolds apparatus and hydraulic bench for determining laminar/turbulent flow conditions.

Lab Contact Info:
Engineering Building, Room 254
Nicholas Pohlman, Ph.D.

This lab is equipped with infra-red thermal imaging system, free and forced convection unit, refrigeration cycle machine, thermal conductivity measurement unit, boiling heat transfer unit, air conditioning unit and high energy laser machining unit.

Lab Contact Info:
Engineering Building, Room 254
Nicholas Pohlman, Ph.D.

Three testing machines: tensile, torsion and compression, all of which test a sample until failure occurs. Several microscopes and digital imaging systems help characterize the internal structure of materials. There are 6 student workstations for performing mechanical tests on materials. 

Lab Contact Info:
Engineering Building, Room 143B
Scott Short, Ph.D.

  • Polytec PSV 200 Scanning Laser Vibrometer (stand alone, non-contact, full-field system consisting of a laser doppler vibrometer with a scanning unit involving drive electronics, video camera, and a pair of laser beam mirrors and motors, controller, data management system including FFT and various accessories such as close up attachment, motorized tripods, etc.)
  • LDS 300 lb Shaker (with Amplifier and Power Supply) 
  • Bruel & Kjaer four Channel Input / two Generator Portable Pulse
  • Data Physics DP550Win 3 Channel Controller (Sine, Random and Shock)
  • Modal Shop 50 lb Shaker and Amplifier
  • Bruel and Kjaer 45 N and 10 N Shakers and Amplifiers
  • Data Physics Ace 2 Input, 2 Output FFT Analyzers (in Laptop and Personal Computers)
  • Bruel and Kjaer 3550 4 Channel FFT Analyzer
  • Spectral Dynamics Bobcat 8 Channel FFT Analyzer (in Laptop and Personal Computers)
  • Vibrant Technology ME Scope Structural Dynamics Software 
  • Pulse Operational Modal Software
  • Spectral Dynamics Star Modal Analysis Software
  • Ansys Finite Element Analysis Software
  • FEMAP and Dynaview Modal Analysis Correlation Software
  • Nsoft Fatigue Analysis Software
  • Ncode dAtagate 14 Channel Data Acquisition System
  • Sony 8 Channel DAT
  • PCB Impact Hammers (sledge, general purpose and mini)
  • Accelerometers, Force Transducers and Impedance Heads
  • Omega Digital Stroboscope
  • Spectraquest Machinery Fault Simulator (to study vibration spectra of different defects, learning balancing, alignment etc. associated with rotating machinery)

Lab Contact Info:
Engineering Building, Room 253
Sachit Butail, Ph.D. and Ji-Chul Ryu, Ph.D.

The M3 Lab combines equipment available within the College of Engineering and Engineering Technology with cutting edge technology in macro/micro manufacturing to support local industry as well as develop the future leaders in the field.

Technology

The Automation Laboratory features the latest technology in automation that affords students the opportunity to work hands-on with equipment, applying classroom-learned principles while acquiring real world skills. In this laboratory, instruction is centered around the understanding of equipment application and use, as well as the important overriding need for integration of all components. This modern lab contains the following equipment: 

  • Six axis Denso robot (two stations)
  • LC trainer stations – to allow the students to develop I/O and timing routines for PLC control (13 stations)
  • Four axis Denso robot (two stations)
  • Pneumatic test stand connected to the PLC used to simulate sequencing in PLC Lab (13 stations)
  • Assembly cell details showing vision system integrated with robotics and used in an automated assembly and sorting cell
  • DVT vision system mounted on a modular conveyor used for part identification in part sortingc
  • Integrated automation cell using conveyor unit, vision system, PLC, and actuators for parts sorting (6 stations)
  • Computer systems used to program PLC’s (13 stations)
  • Z-Corp rapid prototyping system

The BEEEAM lab was developed to research issues related to light, including biomedical and environmental impacts of artificial light, energy efficiency, and human centric intelligent building control systems. Read More >>

The laboratory facilitates various laboratory courses and research projects covering the areas of digital logic design, communication, microprocessor and microcontroller, FPGA and CPLD prototyping using VHDL, digital signal processing, system modeling and simulation, and mechatronics. 

There are a total of nine workstations which are used for laboratory classes. Each workstation is equipped with a PC, oscilloscopes, function generators, spectrum analyzer, microprocessor and microcontroller boards, application board, FPGA prototyping board and power supplies. In addition, there are two more workstations with high speed computers, which are used for computing intensive projects.

Lab Contact Info:
Still Hall 204

This lab supports the Fluids course (Tech 326)

Equipment:

  • Hydraulics Work Stations
  • Wind Tunnel
  • Pneumatics Work Stations
  • Computer Workstations
  • Pneumatic Components
  • Pipe Flow / Friction Loss Test Stand
  • Airflow Testing Equipment

The general purpose electronics lab supports a wide variety of CEET courses and enhance students understanding of electrical/electronics circuits and devices. It's equipped with modern equipment including digital scopes, analog /digital circuits trainers, power supplies, function generators and all types of AC and DC measuring equipment.

This lab's equipment includes:

  • Surface grinder
  • Bridgeport vertical milling machines
  • Material cut-off saws
  • 16 inch x 40 inch engine lathe
  • Bridgeport CNC mill
  • 8 inch x 48 inch engine lathe

The metrology laboratory has been developed to instruct the students in the art and science of measurement.

This lab includes the following measurement equipment:

  • Surface profilometer
  • Micrometers
  • Gage blocks
  • Scales
  • Diameter Gages

In addition to the following equipment, the department is using SURF-CAM Software:

  • Haas Automation CNC lathe
  • Haas Automation CNC Mill
  • Tabletop CNC Mill

Students in the Department of Technology plastics area use the software Moldflow to study to the molding process. They also use the following equipment:

  • Composite Processing Center
  • Plastic regrind capability
  • Charpy Impact Machine

The Power Systems Lab stresses student familiarity and experience with electrically-operated equipment and devices and the wide variety and use of electric motors, generators, speed drive control, transformers and electrical power distribution. Read More >>

The Rapid Prototyping Laboratory features the latest technology in Prototyping and reverse engineering that affords students the opportunity to work hands-on with equipment, applying classroom-learned principles while acquiring real world skills.

In this laboratory, instruction is centered on the understanding of equipment application and use, as well as the important overriding need for integration of all components.

In addition, students utilize Computer-Aided-Design and 3D modeling concepts, as well as advanced Metrology concepts to develop and construct new designs.

This lab contains the following equipment:

  • DTM Sinter Station 2500 plus – SLS Nylon Prototyping Machine
  • Z-Corp prototyping printer
  • Prometal R1 Rapid Prototyping Machine – Develops parts in stainless steel and bronze
  • Epilog Laser Cutting Machine
  • Roland 3-D Scanner
  • Stratasys Dimension BST 768 – Plastic Rapid Prototyping Machine

Equipment includes:

  • SAB Gas Metal Arc Welder
  • Lincoln Electric Gas Metal Arc Welder
  • Aluminum Gas Metal Arc Welder
  • Flux Core Arc Welder
  • Plasma Cutter

 

Contact Us

College of Engineering and Engineering Technology
Engineering Building
590 Garden Rd, DeKalb, IL
815-753-1442
ceet@niu.edu

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