Students should have prior knowledge of:
- Basic computer operations
- Proper use of hand tools
- Electrical Principles
- Basic wiring techniques
- Reading schematic diagrams
- Intepreting a systems operational sequence from a schematic diagram
- Converting schematic diagrams to Ladder diagrams
- NEC usage
- Ampacity calculations
- Psychrometer principles
- Identifying what property each line on a psychrometric chart represents
- The ability to plot any two basic points on the psychrometric chart and evaluate the data
- Define standard air volume, velocity and static pressure
Students must have knowledge of and be able to demonstrate proficiency in DDC Fundamentals:
- Defining the following: range, setpoint, dead band, bias, trending, scheduling, digital, analog, input, output, variable, logic, actuator, positioner, Ethernet, fieldbus
- Reading and interpreting commercial building prints- lighting, electrical, mechanical, plumbing, and HVACR.
- Reading and interpreting commercial building schedules located on prints
- Defining and describing the function of a DDC system
- Describing the functions and advantages of a Building Automation System
- Explaining how DDC systems are used to improve the Energy Management of a building.
- Explaining proportional control theory.
- Explaining Derivative control theory.
- Listing the major NEC articles related to Low-voltage systems/networks.
- Creating flow charts to illustrate the operational sequence of- VAV, AHU, cooling towers, rooftop units, etc.
- Creating and maintain documentation related to a BAS install – to include hardware components and address schematics
Students must have knowledge of and be able to demonstrate proficiency in Building Automation Networks:
- Listing the Layers 1-7 of the OSI Model
- Explaining TCP/IP protocols
- Defining and describing the following network topologies: bus, ring, star
- Describing Ethernet applications and operations
- Explaining RS-485 network standards.
- Explaining RS-232 network standards.
- Comparing different bus architecture used in the BAS industry
- Contrasting open networks to closed networks.
- Listing and contrasting the most common BAS open network protocols: Modbus, LonWorks, BACnet, OPC
- Defining and describing “points” in a DDC control system.
- Creating network diagrams using MS Visio or related software.
- Fabricating of an Ethernet patch-cable
- Demonstrating common cabling practices used in the BAS industry, per NEC requirements.
- Wiring/networking a unit controller to a room operator, per NEC requirements.
- Describing the function and application of a Java Application Control Engine (JACE) controller.
- Describing the function and application of a field controller.
- Describing the function and application of a room operator.
- Describing the function and of a PLC used in refrigeration applications.
- Installing controllers, per NEC requirements.
- Configuring a room operator/controller.
- Adding virtual points to network database.
- Adding network addresses to network database.
Students must have knowledge of and be able to demonstrate proficiency in Building Automation Controllers:
- Describing the function and application of a Java Application Control Engine (JACE) controller.
- Describing the function and application of a field controller.
- Describing the function and application of a room operator.
- Describing the function and of a PLC used in refrigeration applications.
- Installing controllers, per NEC requirements.
- Configuring a room operator/controller.
- Adding virtual points to network database.
- Adding network addresses to network database.
Students must have knowledge of and be able to demonstrate proficiency in Digital Logic and Programming:
- Comparing the following expressions of logic – relay logic, truth tables, ladder logic, Boolean algebra, logic gates.
- Defining and describing the following digital numbering systems- decimal, binary, octal, hexadecimal.
- Contrasting analog and digital communication
- Defining microprocessor control systems.
- Identifying different types of data points: numeric, Boolean, enumerated, string.
- Converting between the different expressions of logic (e.g., relay logic to Truth Tables)
- Developing flow charts for simple programs using MS Visio or related software.
- Connecting a laptop/workstation to a field controller
- Using a laptop to configure a field controller
- Programming controllers using; line-programming, icon-based programming, or block programming.
Students must have knowledge of and be able to demonstrate proficiency in Sensor Installation and Applications:
- Identifying the types of sensors that measure- temperature, humidity, pressure, velocity, level, proximity, co2, motion, photoelectric diode.
- Describing the proper application of sensors that measure – temperature, humidity, pressure, velocity, level, proximity, co2, motion, photoelectric diode
- Wiring sensors to unit controllers, per NEC requirements.
- Addressing points for various input sensors types
- Configuring inputs to unit controllers.
Students must have knowledge of and be able to demonstrate proficiency in Actuator Installation and Applications:
- Identifying the types of the following output components- control valve, regulators, dampers, variable-speed drive, solid-state relay, TRIAC.
- Describing the proper application of the following output components – control valve, regulators, dampers, variable-speed drive, solid-state relay, TRIAC.
- Wiring actuators to unit controllers, per NEC requirements.
- Addressing points for various output devices
- Configuring outputs to unit controllers
- Configuring a VFD to operate with a BAS network.
Students should have knowledge of and be able to describe and demonstrate the following safety requirements:
- Ladder safety procedures
- Fall protection safety procedures
- Lock Out and Tag Out procedures
- Electrical Shock, prevention
- Identifying the safety ground
- Identifying the “Hot” conductor
- Identifying “Neutral” conductor
- Proper PPE requirements
- Emergency First Aid procedures
- Safe use of power tools
Knowledge of the following test instruments and or tools is required:
- Personal Computer
- Digital Voltmeter
- Digital Ohmmeter
- Digiatl Clamp-on Ammeter
- Digital Balometer
- Digital Manometer
- Digital Anemometer
- Digital Psychrometer
- Pressure Gauges