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EN00 – Control Systems Engineering PE Exam Review Course

“A good general overview of what to expect on [CSEPE] exam. Good info on how to go about taking test (strategy). Pointed out to me what areas I needed to work on.” -Brian Keene, Plant Engineer

This course reviews the knowledge and skills areas that are included on the Control Systems Engineer (CSE) Professional Engineer (PE) examination produced by the National Council of Examiners for Engineering and Surveying (NCEES) and administered by US state professional license boards each October. The intent of the class is to prepare an engineer with four or more years of experience to take the exam by providing instruction in the broad range of technical areas that will be tested. The content is based on the CSE Exam Specification that went into effect in October 2011.
Length: 3 days
CEU Credits: 2.1
Course Hours: 8:00 a.m.-4:00 p.m.

You will be able to:
◾Follow the guidelines for taking the CSE exam
◾Identify the breadth of the knowledge and skills areas covered
◾Apply recognized standards for symbols and documents
◾Recognize the basic calculation techniques for measurement devices
◾Apply process variable measurements and sensor selection
◾Compare the various final control elements/valves
◾Explain basic process control loops: their configuration, operation, and performance
◾Follow discrete logic in motor and interlock control
◾Describe various signal conversion and wiring arrangements
◾Compare various installation methods and techniques
◾Determine material requirements from physical parameters
◾Use safety instrumented basics
◾Interpret system scope statements and apply to design needs

You will cover:
◾Sensors Technologies Applicable to Various Measurements (Process Variables): Sensor Types | Calibration Ranges | Linearity | Hysteresis | Repeatability | Elevated and Suppressed Zero Ranges
◾Calculations Involved In Process Measurements: Flow | Pressure | Level | Temperature
◾Final Control Elements: Valve Types and Styles | Flow Characteristics | Applications | Sizing | Safety Relief Valves
◾Fluid Properties: Specific Gravity | Pressure and Temperature Conversion | Reynolds Number
◾Signal Types and Transmission Methods: Electronic | Pneumatic | Signal Circuit Design (Type, Grounding, Shielding. and Installation)
◾Control Systems: Loop Tuning Methods | Distributed Control Systems | Ergonomics | Human Machine Interface (HMI) and Graphics | Programming (Ladder Logic, Sequential, Function Block)
◾Safety Systems: Reliability of Devices | Risk Reduction Factors | Probability of Failure on Demand
◾Codes, Standards, and Regulations: Applications and Use | Intrinsic Safety | Hazardous Area Classification

For additional information and to register:


Magda Moreno


1254 Enclave pkwy
Houston, TX 77077 United States
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