Antilock braking system: prevents a car's wheels from locking up as the brakes are applied.
Speed sensor: sends wheel speed measurement to the ABS computer.
ABS computer: analyzes wheel speed data from sensor to determine when a wheel is locked up and beginning to skid.
Differentials: lets the two wheels rotate at different speeds while receiving power from the car's engine and transmission
Early differentials: provide power to one wheel only on turns (traction wheel)
Posi-traction differentials: clutches inside the differential engage when the traction wheel begins to spin as the non-traction wheel receives some of the drivetrain's power.
Active traction control:
Wheel speed sensors: monitor how fast the wheel is rotating.
Non-rotating sensor: as reluctor teeth move past it, the sensor generates a voltage signal sent to the
Reluctor: a small toothed wheel that rotates at the same speed as the nearby wheel.
Traction Control
Slide 2
The Internet
Infrastructure
Routers: designed to send high volumes of network traffic. Maintain large tables of IP addresses.
Switches: optimized to forward information to many small destinations.
Servers: contain the content of the web.
Protocols: communications using the Internet that utilize computer languages called protocols to create messages that remote devices can understand.
TCP & IP: the most basic protocol on the internet. The building blocks for network traffic.
HTTP: hypertext transfer protocol. Used for browsing the internet.
Slide 3
Fire Alarm Systems
Operations
Sequence of operations: the detailed plan of the order of system actions to be performed.
Supervised systems: the integrity of everything connected to the system is constantly monitored
Polling: every few seconds, FACP asks a device if is is functioning correctly.
Feedback loop: informs the Fire Alarm Control Panel (FACP) of a specific condition that must occur before a follow-up action can occur.
Types:
Addressable systems: the FACP can determine which devices are indicating fire conditions.
Analogue / Addressable systems: devices are able to send & receive 2-way communications with the FACPLayout
Single-line diagram: simplified layout of the fire system components only.
Floor plans: the fire system layout as incorporated into the construction floor plan layout.
Slide 4
Fire Alarm Systems - Components
Field Devices: system devices installed throughout the structure capable of communicating with the FACP.Initiating Device
Photoelectric smoke sensor: smoke particles enter the sensor and scatter light onto the photocell, tripping the alarm.
Manual pull-station
Notification Appliance: audio or visual signaling device
Dedicated device: serves no other purpose outside fire control
Non-dedicated devices: devices and systems that receive inputs from the FACP whose main purpose is not fire control.
Components
Remote annunciator: the systems 'face.' Mimics the Fire Alarm Control Panel in a summarized display.
Fire Alarm Control Panel: the brains of the fire alarm system
Slide 5
Chemical Processing Plant
EquipmentHeat exchangers
Mixers: mixes or combines different materials. Can be active or static.
Separators: separates different materials (i.e. centrifuge, settling tank).
Instrumentation: devices in industrial environments that monitor operating conditions (gauging)
Reactor: tank or other piece of equipment where a chemical reaction takes place
Process documents:Block flow diagram: high-level process flow diagram
Lines: represent movement of product from unit to unit. Also called process streams.
Blocks: represent pieces of equipment
Piping and instrumentation diagram: shows all the connections between process equipment and also includes specifications.General equipment layout: plant's physical configuration and equipment locations.Isometric drawings: show 3D object information
Slide 6
Electric Power Generation
Types
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