Switches for Surveillance
Switches for Business WiFi
Wireless Networking for Elevators
Omada Cloud-Based Controller
VIGI Security Manager
Omada Cloud Software Defined Networking (SDN)
Omada’s Software Defined Networking (SDN) platform integrates network devices, including access points, switches and gateways, providing 100% centralized cloud management. Omada creates a highly scalable network—all controlled from a single interface. Seamless wireless and wired connections are provided, ideal for use in hospitality, education, retail, offices, and more.
Omada WiFi 6 (802.11ax)
Need to deploy stable Wi-Fi in high-density environment? Try Omada Wi-Fi 6 technology!
Omada Wi-Fi 6 access points greatly improve experiences in high-density environments, and provides faster speed and greater range for more devices.
WPA3, the Newest Security Protocol
Want to enhance the network security in public WiFi and home WiFi? Try TP-Link WPA3 technology!
To maximum the safety of enterprise and your home WiFi, TP-Link is inserting WPA3, the latest encryption technology, into Omada access points, WiFi routers, range extenders, and more devices.
Omada SDN (Software-Defined Networking) offers reliable business Wi-Fi with Facebook check-ins and Instagram follows. Power up your business with Omada business Wi-Fi.
Pharos Long-Range Wireless
Need to transmit network to long range or remote areas? Try Pharos wireless solution!
Pharos is TP-Link's next-generation outdoor product series, providing long-range outdoor wireless networking solutions for applications such as WISP, Enterprise Bridge (P2P), and Wireless Surveillance (PtMP).
Worried about buffering when using outdoor wireless broadband? Try TP-Link MAXtream technology!
MAXtream, the breakthrough TDMA technology, makes outdoor AP smoother and produces more efficient communications.
Facing the annoying latency when multiple devices connected? Try TP-Link MU-MIMO technology!
MU-MIMO solves this problem by creating multiple simultaneous connections to serve several users with multiple data streams at the same time.
Worried about interrupted streaming when moving? Seamless Roaming of TP-Link solves this issue! Omada access points are equipped with 802.11k and 802.11v fast roaming, switching clients automatically to the access point with the optimal signal with a seamless transition when moving.
TP-Link Omada Mesh technology makes wireless deployment more flexible and convenient. Omada EAPs with Mesh Technology, automatically choose the best route to extend your Wi-Fi further and more flexibly.
Power over Ethernet (PoE)
Need to deploy your surveillance cameras in your farm? Try TP-Link PoE technology to transmit power and data through one single Ethernet cable.
LiteWave Unmanaged Switches
Need to work at home or expand your wired connections? Try TP-Link LiteWave Switches!
The TP-Link LiteWave Unmanaged Switches provide the simplest and most affordable way to expand your wired network. Just plug and play!
JetStream 10G Smart Switches
Provide high levels of performance, scalability, and cost-effectiveness that SMBs require from their 10G networking solutions.
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As a stepping stone helping you get started in Omada EAPs, read the instructions and determine an optimal management method in your situation, and then follow the steps provided to set up your network of each method.
1. Determine the network topology
Power up and connect your EAPs according to the typology.
2. Install Omada app
Download the Omada app on your mobile device.
3. Connect to EAP’s Wi-Fi
Connect your mobile device to EAP’s Wi-Fi. The default SSID (format: TPLink 2.4GHz/5GHz_XXXXXX) is printed at the bottom of the EAP.
4. Launch app to manage the EAP
Launch the Omada app and follow the instructions to manage the EAP. Pull down to refresh if your EAP is not in the list.
You can also configure more functions on the PC.
If your PC is connecting to the default Wi-Fi of the EAP…
If your PC is connecting to the Internet via an Ethernet cable…
1. Connect your PC to EAP’s Wi-Fi
Connect your PC to EAP’s Wi-Fi. The default SSID (format: TPLink 2.4GHz/5GHz_XXXXXX) is printed at the bottom of the EAP.
2. Set your PC to obtain an IP address
Set your PC to obtain an IP address automatically. Then, make sure that your PC has got the IP address, default gateway, and DNS server from the DHCP server. (What Can I do If My PC fails to get IP address )
3. Log in to the management page
To log in to the EAP, launch a web browser and enter http://tplinkeap.net in the address bar*. By default, both the username and password are admin. (What Can I Do If I Fail to Log In to the EAP via the Domain Name ).
*You can also enter the IP address of the EAP obtained from the front router to enter the management page.
4. Complete the basic configurations
After login, follow the instructions to complete the basic configurations. Please remember your username and password for later login. You need to reset the device If you forget the username and password.
1. Find the IP address of your EAP
Log in to the front router* and find the IP address of your EAP according to its MAC address, which can be found at the bottom of the EAP.
*When the DHCP server is not available in your network, the EAP has the default DHCP fallback IP address 192.168.0.254.
2. Log in to the management page
To log in to the EAP, launch a web browser and enter http://tplinkeap.net in the address bar*. By default, both the username and password are admin . (What Can I Do If I Fail to Log In to the EAP via the Domain Name ).
*If you fail to log in to the EAP, please check if you have entered the right IP address and make sure you PC and EAP are in the same network subnet.
3. Complete the basic configurations
After login, follow the instructions to complete the basic configurations. Please remember your username and password for later login.
The network topology varies depending on your requirements. The following figure shows a typical topology for a high-availability use case.
Power up your devices and the hardware controller, make sure that they can access the internet. It takes 3 to 5 minutes for the hardware controller to initialize.
2. Log in to the Omada Cloud
Launch a web browser and type https://omada.tplinkcloud.com* in the address bar, then press Enter (Windows) or Return (Mac). Enter your TP-Link ID** and password to log in. (No TP-Link ID? Go to create one)
* With Omada Cloud Service, you can remotely monitor and manage your wireless network.
**A TP-Link ID allows you to manage your network and devices with a single account and enjoy the cloud service.
3. Add hardware controller
Click Controller on the left column, and then click + Add Controller and choose Hardware Controller to add your OC200/OC300.
4. Complete the quick setup and adopt devices
Follow the instructions to complete the quick setup process. Then go to the Devices page and adopt your EAPs.
2. Install Omada Software Controller
Download the Omada Software Controller from the download center. Then follow the instructions to install the controller.
Omada Software Controller is provided for both Windows and Linux operating systems (How to install the Omada Controller on the Linux system).
Ensure that the Java Runtime Environment (JRE) have been installed in your system (How to Install JRE 1.8 ). The controller requires that the system have Java 8 installed.
3. Complete the quick setup and adopt devices
Launch the software controller, and after a while, your web browser will open automatically (What should I do if I cannot start the Omada Controller ).
Follow the instructions to complete the quick setup process. Then go to the Devices page and adopt your EAPs (What should I do when the Omada Software Controller (V4) fails to discover the devices ).
*With Omada Cloud Service, you can enable Cloud Access on the controller and bind a TP-Link ID to your controller, then you can remotely monitor and manage your network.
*With Omada App, you can also manage your Omada Software Controller at a local site and remote site. Note that Omada Software Controller needs to be kept running when using Omada APP.
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