Builds upon the foundation laid in Fire Fighting Principles as well as adds new concepts such as vehicle extrication, flammable liquids fire, technical rescue and incident command. This course will meet the requirements of NFPA 1001 for Firefighter 2 level.
The Candidate Physical Ability Test (CPAT) - Full Session includes the orientation, two (2) timed course practices and a CPAT test. During the orientation session, we will explain the testing process and how the equipment works. You will have the chance to ask questions and try the testing equipment. The pass rate of those who attend the orientations is higher than for those who do not, so it is highly recommended that you attend at least one of these orientations. The two practice tests are the same and we attempt to run the practice test under actual testing conditions. If the test is run under actual testing conditions and you successfully complete the test this is considered a PASS and you will not need to attend any further testing.
The Candidate Physical Ability Test (CPAT) - Test Out is for a ONE-TIME try to challenge the CPAT course. Acknowledgment and waiver of CPAT orientation and/or conditioning period and/or timed practice runs will need to submitted.
This 40 hour course prepares the participant to perform fire fighting supervisor/manager functions at a minimum nationally recognized level. The targeted audience is individuals who have completed the training required to meet the Fire Officer 1 JPRs of NFPA 1021, Standard for Fire Fighter Professional Qualifications, Chapter 4, and desire, or are required to increase their knowledge and skills to progress to the Fire Officer II Level. This course is designed to provide the Fire Officer II candidate with the information needed to meet the job performance requirements (JPRs) in National Fire Protection Association (NFPA) 1021, Standard for Fire Officer Professional Qualifications, Chapter 5.
This 96-hour course prepares the participant to be able to perform fire fighting functions at the nationally recognized minimum levels under direct supervision. The targeted audience is individuals who desire to become Wisconsin Certified Fire Fighter I based on the requirements set by SPS 330.08, Employment standards, Wisconsin Department of Safety and Professional Services. This course is designed to provide the Fire Fighter I candidate with the information needed to meet the job performance requirements (JPRs) defined in NFPA 1001, Standard for Fire Fighter Professional Qualifications, Current Edition, Chapters 5.2 through 5.5. The participant must also complete the Hazardous Materials Operation level course in order to meet the remainder of the NFPA Fire Fighter I JPR requirements.
Introduces troubleshooting methods that apply to basic motor control circuits, PLC applications, VFD applications & mechanical system applications. Troubleshooting methods are practiced using hands-on lab activities. Preventive & predictive maintenance techniques are also explored.
This 40-hour course prepares the participant to perform fire instruction duties at a minimum nationally recognized level. (This course was formerly known as Fire Instructor I). This course is designed to provide the Emergency Services Instructor I candidate with the information needed to meet the job performance requirements (JPRs) in National Fire Protection Association (NFPA) 1041, Standard for Fire Service Instructor Professional Qualifications, Chapter 4.
Emphasizes basic fire behavior, techniques used to control structural and related fire emergencies and life safety practices. Learners perform all practical evolutions necessary to control and extinguish fires and otherwise meet all requirements for Firefighter 1 certification with the state of Wisconsin.
This 42-hour course prepares the participant to perform firefighting functions at an advanced nationally recognized level under general supervision. The targeted audience is individuals who have completed the training required to meet the Fire Fighter I JPRs in NFPA 1001, and desire to increase their knowledge and skills base to the next level. This course is designed to provide the Fire Fighter II candidate with the information needed to meet the job performance requirements (JPRs) in NFPA 1001, Standard for Fire Fighter Professional Qualifications, Current Edition.
Prerequisite Courses: 47503720 (Cert FF1) and 47503780 (Haz Mat Operations)
Prepares the participant to perform the minimum hazardous material incident operations associated with firefighting functions. Meets operational level competencies referenced in the JPRs in NFPA 1001 - Standard for Fire Fighter Professional Qualifications
Prepares the participant to be able to perform the minimum hazardous material incident operations associated with firefighting functions at an advanced nationally recognized level under general supervision. The targeted audience is individuals who have completed the training required to meet the Fire Fighter I JPRs in NFPA 1010, and desire to increase their knowledge and skills base to the next level. This course is designed to provide the Fire Fighter II candidate with the information needed to meet the operational level competencies for the hazardous material first responder as referenced in the job performance requirements (JPRs) in National Fire Protection Association (NFPA) 1010, Standard for Fire Fighter Professional Qualifications, Chapter 4, 4-1.1. It is based on the National Fire Academy (NFA) Initial Response to Hazardous Materials Incidents: Basic Concepts and Initial Response to Hazardous Materials Incidents: Concepts Implementation curriculums.
Introduces industrial motors including the most common types of AC and DC motors. The potential dangers of Industrial motors are explored and the application and safety standards related to electric motors are reviewed and implemented. Labs include motor load and efficiency testing utilizing digital power, speed and torque measurement devices.
Introduces industrial motor drives including the most common types of DC and AC variable speed motor drives. Constant speed, torque and power operation modes, as well as the various solid state motor drive power control schemes and applications are discussed. Remote control and monitoring signals and system integration techniques are introduced. Labs include multiple vendor motor drive programming, connection, integration and testing as well as drive network communications, control and monitoring.
Introduces General Industry Safety Practices and is intended to provide an entry level worker’s general awareness on recognizing and preventing hazards in a general industry setting. An OSHA 10 General Industry certification will be obtained with completion of the course. In addition, lab specific safety will be covered. OSHA has some very specific rules for receiving the certification card for OSHA 10. OSHA 10 Cards can only be issued to students in the face-to-face classes who attend every class. OSHA will not allow anyone taking this course in an online/flex format to receive a certification card. If you need the OSHA 10 card upon completion of this course, please be sure you are enrolled in the face-to-face section.
Introduces ladder logic symbols and diagrams used in industrial control circuits. Safety standards and procedures are reviewed and implemented. Discrete industrial devices are also studied including switches, relays, timers, and motor starters.
Develop motor and other actuator control and power circuits. The student will utilize typical industrial manufacturing controls. Basic machine sequence control circuits are developed using computer aided design and simulation software.
Introduces solid state motor controls and proximity and photo sensors. Machine sequence control circuits are developed using programmable logic relays (PLRs) with computer based ladder logic programming and simulation software and then connected and tested in the lab.
Incorporates the detailed study of mechanical power transmission system components. Included are gear, belt, chain and screw drive systems. Lab experiments include the selection, installation and maintenance of mechanical power transmission components and systems.
Introduces PLC hardware setup, software applications and system configuration. Basic industrial control problems are solved using Bit Based Instructions. Various kinds of sensors and other input devices will be applied to the PLC. Output devices will be controlled by the PLC.
