ZigBee Training Advanced

ZigBee Training Advanced


ZigBee Training Advanced Course Project-Based

ZigBee is a short range wireless technology targeted at telemetry, measurement, control and monitoring. It is very low power and ideally suited for this marketplace. This ZigBee Training Advanced course examines the use of ZigBee and it’s application.

Customize It:

With onsite Training, courses can be scheduled on a date that is convenient for you, and because they can be scheduled at your location, you don’t incur travel costs and students won’t be away from home. Onsite classes can also be tailored to meet your needs. You might shorten a 5-day class into a 3-day class, or combine portions of several related courses into a single course, or have the instructor vary the emphasis of topics depending on your staff’s and site’s requirements.

ZigBee Training AdvancedRelated Courses:

Duration: 3 days


Summarise, compare and contrast WLAN and WPAN technologies
List the features and benefits of 802.15.4/ZigBee.
Describe in overview the operation of 802.15.4/ZigBee.
Describe the applications for 802.15.4/ZigBee.
Describe the security issues and solutions for ZigBee. By the end of the course delegates will be able to:
Define the key features and benefits of 802.15.4.
Describe the 802.15.4 standard and technologies employed by ZigBee.
Install and configure an 802.15.4 device.
Plan and Design 802.15.4 networks.
Create 802.15.4 applications.
Secure an 802.15.4 network

Course Content:

ZigBee Evolution
◾Current 802.15.4 standards
◾Review of Wireless standards
◾Wireless networking basics
◾What is ZigBee/802.15.4?
◾Networking capabilities
◾Data rates, ranges
◾11b vs ZigBee
◾Bluetooth vs ZigBee
◾Target markets and applications
◾ZigBee demonstrations

802.15.4 Standards
◾Overview of IEEE WPAN standards
◾Features and services
◾15.4 / ZigBee

802.15.4 Radio
◾Frequencies and modulation
◾Power output
◾DSSS spread spectrum
◾Modulation: BPSK/O-QPSK
◾Symbols, chips and bit rates
◾RF Channels

802.15.4 PHY
◾Review of the OSI 7 Layer Model
◾PHY data transfer primitives
◾The PHY packet
◾PHY PIB management
◾PHY primitives
◾Hands on lab: Working with PHY primitives

802.15.4 MAC layer: Data
◾The MAC layer overview
◾CSMA/CA MAC scheme
◾MAC Addresses
◾Frame types
◾Super frames
◾Overview of 802.15.4 data transfer
◾Data transfer primitives
◾Data frame analysis
◾Hands on lab: Practical networking with ZigBee

802.15.4 MAC layer: Data control
◾Data acquisition management
◾Service primitives
◾Command frames
◾Hands on lab: Using RX-ENABLE and POLL primitives

802.15.4 MAC layer: scan and join
◾Scan types
◾Hands on lab: Joining and leaving a coordinated network

802.15.4 MAC layer: PAN maintenance
◾Starting beacons
◾Beacon frames and primitives
◾Orphan and synchronisation primitives
◾Hands on lab: Starting and synchronising with a beaconing network

802.15.4 MAC layer: PIB
◾Hands on lab: Using PIB primitives

802.15.4 Network topologies
◾Peer to peer topology
◾Star topology
◾Cluster tree
◾Roaming and bridging to other networks

Application development
◾Upper layer protocols
◾Sockets system interface
◾Other APIs

ZigBee Security
◾Wireless security issues
◾Security modes
◾Data encryption

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Time Frame: 0-3 Months4-12 Months

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