CWNA 109 Course Overview

CWNA 109 Course Overview

The CWNA 109 course is a comprehensive program designed to provide learners with a deep understanding of wireless network administration. It covers essential topics such as Radio Frequency (RF) Technologies, WLAN Regulations and Standards, WLAN Protocols and Devices, WLAN Network Architecture and Design Concepts, WLAN Network Security, and RF Validation and WLAN Remediation. Through engaging lessons, the course equips participants with the knowledge required to design, implement, and manage wireless networks effectively. It also prepares individuals for the Certified Wireless Network Administrator (CWNA) certification exam, enhancing their professional credentials. By delving into RF behavior, WLAN standards, security protocols, and network troubleshooting, learners will gain a robust skill set that is highly relevant in today’s technology-driven workplace. This course is ideal for IT professionals who wish to specialize in wireless networking and ensure their skills are up-to-date with current industry practices.

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Course Prerequisites

To ensure the best outcomes from the CWNA 109 course, participants should come prepared with the following minimum prerequisites:


  • Basic understanding of networking concepts, including the OSI and TCP/IP models.
  • Familiarity with the general concepts of data communication and how data moves through the Internet and local networks.
  • Knowledge of Ethernet and TCP/IP networking, as these are foundational to understanding wireless networking.
  • Experience with network configuration and operation, which can include setting up a router, managing IP addresses, and basic troubleshooting.
  • Awareness of basic security concepts, such as encryption, authentication, and authorization practices.
  • Some exposure to radio frequency (RF) theory or experience would be beneficial but is not mandatory.
  • Willingness to engage with technical material and actively participate in hands-on labs and exercises.

These prerequisites are designed to ensure that students have a suitable foundation upon which to build their understanding of wireless networking as taught in the CWNA 109 course. With this foundational knowledge, students will be better equipped to grasp the course material and apply it effectively in real-world scenarios.


Target Audience for CWNA 109

CWNA 109 is a comprehensive course designed for professionals seeking expertise in wireless networking technologies and security.


  • Network Engineers and Architects
  • Wireless Network Administrators
  • Information Technology (IT) Professionals with a focus on network infrastructure
  • System Administrators who oversee wireless networks
  • security-training-courses">Network Security Specialists
  • Technical Support Engineers for WLAN systems
  • IT Consultants who design and implement wireless solutions
  • Network Analysts who need to understand wireless performance and security issues
  • Professionals preparing for the Certified Wireless Network Administrator (CWNA) exam
  • IT Managers responsible for organizational wireless communication systems
  • Wireless Network Designers and Planners
  • Professionals seeking to understand the latest IEEE 802.11 standards


Learning Objectives - What you will Learn in this CWNA 109?

Introduction to CWNA 109 Course Learning Outcomes

The CWNA 109 course provides comprehensive knowledge of wireless networking, focusing on RF technologies, WLAN regulations, protocols, network architecture, security, and RF validation.

Learning Objectives and Outcomes

  • Understand the basic characteristics and behaviors of RF, including concepts of RF mathematics and measurement.
  • Apply knowledge related to RF signal characteristics in the context of antennas and antenna systems.
  • Comprehend the roles and standards set by WLAN and networking industry organizations.
  • Master the IEEE 802.11-2020 standard, including PHY solutions, channel widths, spatial streams, and MCS.
  • Identify and adhere to regulatory domain requirements and understand the use case scenarios for wireless networks.
  • Describe the components, functions, and MAC frame format of an 802.11 wireless service set.
  • Configure and select appropriate WLAN devices and understand the management systems involved.
  • Implement WLAN network design principles, including PoE, and recognize different wireless LAN architectures.
  • Establish effective security mechanisms for WLANs, including WPA3 and OWE, and recognize outdated security practices.
  • Perform post-implementation validation surveys, application testing, and troubleshoot common wireless issues.

Technical Topic Explanation

Radio Frequency (RF) Technologies

Radio Frequency (RF) technologies refer to the use of radio waves to communicate information without wires. These waves, part of the electromagnetic spectrum, are used in various applications including televisions, mobile phones, and radios. RF technology operates by transmitting information through frequency and amplitude modulation of the radio waves, which are then received and decoded by another device. Besides communication, RF technologies are employed in radar systems, satellite links, and medical devices, highlighting their versatility and broad utility in both everyday life and specialized fields.

WLAN Regulations and Standards

WLAN, or Wireless Local Area Network, lets devices connect and communicate wirelessly within a limited area using radio waves. Regulations and standards ensure that these networks operate safely, efficiently, and do not interfere with other wireless services. Standards like IEEE 802.11 define the communication rules and parameters, while regulations vary by country but generally include frequency use, power limits, and allowed devices. These ensure compatibility between devices and maintain network integrity and security. Professionals maintaining WLANs often seek certification, such as CWNA (Certified Wireless Network Administrator), to demonstrate expertise in managing wireless networks effectively.

WLAN Protocols and Devices

WLAN (Wireless Local Area Network) protocols and devices enable computers and other devices to communicate over a wireless signal. Common protocols like IEEE 802.11 specify how devices connect and communicate securely and efficiently. Key devices include routers, which distribute internet access to connected devices, and access points, which extend the coverage area. Together, they facilitate a network that helps users to access the internet, share files, and conduct digital communication wirelessly within a designated area. Understanding these can enhance network design and operational efficiency in personal and professional settings.

WLAN Network Architecture and Design Concepts

WLAN Network Architecture and Design Concepts focus on structuring and managing wireless local area networks. The architecture involves arranging network components like routers, access points, and devices for optimal connectivity and performance. Design concepts encompass choosing the right topology - whether centralized or distributed - and ensuring network security, scalability, and manageability. Effective WLAN design also includes considering the physical environment to minimize signal interference and maximize coverage, thus facilitating stable and efficient wireless communication.

WLAN Network Security

WLAN network security involves protecting wireless local area network (WLAN) connections from unauthorized access or harm. This includes securing data transmitted over WiFi networks. Techniques such as WPA2 or WPA3 encryption are commonly used to enhance security by encrypting network traffic. Additionally, strong passwords, updated firmware, and using a firewall also help fortify WLAN security. Educating users about secure practices like recognizing phishing attempts can further safeguard the network. Effective WLAN security prevents data breaches and maintains user trust by ensuring that sensitive information remains confidential and accessible only to authorized users.

RF Validation

RF Validation involves testing radio frequency hardware and systems to ensure they meet specific standards and function correctly in their intended environments. This includes checking frequencies, signal strengths, bandwidth utilization, and interference issues. Validation ensures that the RF equipment can handle anticipated loads and perform reliably without disruption or degradation of service, critical in communications technology, where consistent and accurate transmission is vital.

WLAN Remediation

WLAN remediation involves identifying and resolving issues that affect the performance and security of a wireless local area network (WLAN). This process helps maintain optimal network efficiency and safe, reliable connectivity for all users. Remediation tasks may include updating hardware, enhancing signal coverage, changing configurations, securing access points, and addressing any interference sources. This ensures the WLAN meets current operational standards and business requirements effectively.

Target Audience for CWNA 109

CWNA 109 is a comprehensive course designed for professionals seeking expertise in wireless networking technologies and security.


  • Network Engineers and Architects
  • Wireless Network Administrators
  • Information Technology (IT) Professionals with a focus on network infrastructure
  • System Administrators who oversee wireless networks
  • security-training-courses">Network Security Specialists
  • Technical Support Engineers for WLAN systems
  • IT Consultants who design and implement wireless solutions
  • Network Analysts who need to understand wireless performance and security issues
  • Professionals preparing for the Certified Wireless Network Administrator (CWNA) exam
  • IT Managers responsible for organizational wireless communication systems
  • Wireless Network Designers and Planners
  • Professionals seeking to understand the latest IEEE 802.11 standards


Learning Objectives - What you will Learn in this CWNA 109?

Introduction to CWNA 109 Course Learning Outcomes

The CWNA 109 course provides comprehensive knowledge of wireless networking, focusing on RF technologies, WLAN regulations, protocols, network architecture, security, and RF validation.

Learning Objectives and Outcomes

  • Understand the basic characteristics and behaviors of RF, including concepts of RF mathematics and measurement.
  • Apply knowledge related to RF signal characteristics in the context of antennas and antenna systems.
  • Comprehend the roles and standards set by WLAN and networking industry organizations.
  • Master the IEEE 802.11-2020 standard, including PHY solutions, channel widths, spatial streams, and MCS.
  • Identify and adhere to regulatory domain requirements and understand the use case scenarios for wireless networks.
  • Describe the components, functions, and MAC frame format of an 802.11 wireless service set.
  • Configure and select appropriate WLAN devices and understand the management systems involved.
  • Implement WLAN network design principles, including PoE, and recognize different wireless LAN architectures.
  • Establish effective security mechanisms for WLANs, including WPA3 and OWE, and recognize outdated security practices.
  • Perform post-implementation validation surveys, application testing, and troubleshoot common wireless issues.