TP-Link Omada OC200 User Manual
one.one.2 Deploy The OC200 and Eaps in Different Subnets.
one.four.4 Log in the Management Interface.
2.2.1 View the Client Distribution On Ssid.
2.2.2 have a quick look at eaps and clients.
2.3.1 manage the eaps in different status.
2.3.2 View the Detailed Information of Eaps.
2.3.3 manage the eaps in the Action Col.
2.four.1 View the Current Information of Clents.
2.four.2 Manage Clents in the Action Column.
View Clients Statistics During the Specified Period.
2.5.2 View the History Information of Clents.
2.5.3 Manage Clents in the Action Col.
2.6.1 Manage The Untrusted Rogue Aps List.
3.one.2 configure Advanced Wireless Parameters.
5.four.8 Local Lan Port Settings (Only for Eap115-Wall and EAP225-WALL).
Quick Start
OC200 IS A Hardware Omada Cloud Controller, Which is Running with A Built-in Software Controller. OC200 Canage Multiple Eaps Centrally Just As the Software Controller does. The Difference is that the Software Controller Needs to Run in a Management Host, Which is Unnecessary for OC200. You Just Need to Pre-Configure The OC200, TheP It Running in Your Network.
Follow The Steps Below To Complete The Basic Settings of OC200.
one.1 Deploy The OC200
There are Two Kinds of Network Topologies Which Are Sitable for OC200 Deployment:
The OC200 and Eaps are in the Same Subnet.
The OC200 and Eaps are in Different Subnets.
Determine Your Topology According to Your Need and Refer to the Following Introductions to Build You Network Topology.
one.one.1 Deploy The OC200 and Eaps in the Same Subnet
IF YOUR NEED to Deploy The OC200 and Eaps in the Same Subnet, Refer to the Following Network Topology.
A Router ACTS A DHCP Server To Assign IP Addresses to Eaps, Clents and OC200. The OC200 and the Eps are in the Same Subnet.
one.one.2 Deploy The OC200 and Eaps in Different Subnets
IF YOUR NEED to Deploy The OC200 and Eaps in Different Subnets, Refer to the Following Network Topology.
A Router Acts as the Gateway of the Network. A Layer 3 Switch ACTS A DHCP Server To Assign IP Addresses to Eaps, OC200 and Clients. The Eaps are in Subet 1, the Ip Network Segment is 192.168.0.0/24; The OC200 is in Subnet 2, the IP Network Segment is 192.168.one.0/24.
For the Eaps and the OC200 ARE in the Different Networksegment, the Eaps Cannot Find The OC200 Directly. To Help Theps Find The OC200, You NEED To Install An Omada Discover Utility On A Host IS in the Same Subnet with the Eaps. For How to Use Omada Discovery Utility, Refer To Inform the Eaps of the OC200’s Address.
one.2 Determine the Management Method
OC200 Supports Two Flexible Management Methods to Centrally Manage Eaps:
Determine Your Management Method According to Your Need and Refer to the Following Introductions to Build Your Network Toplogy.
one.2.1 Management on the Local Network
To manage eaps locally, please deploy your Management Host on the Local Network. The Following Topology IS an Example for the Deployment of the Management Host. As long as the route for the management to access The OC200, The Management Host Canage to Manage the Eaps. For How to Log in the OC200, Please Refer To on the Local Network.
one.2.2 Management Via Cloud Access
IF YOUNED To Manage EAPS Remotly, For Example, Your Eps are in Your Office But You Want to Manage Them AT Home, You Canage Theaps Via Cloud Accesses.
The Following Topology is a Typical Example. You Just Need to Deploy Yor OC200 and Eaps on your local Network, and Usage a Management Device to Control Them Remotely. On the Management Device, You Can Open a Web Browser to Remotly Launch The OC200 Via Omada Cloud. For Details ABOUT CLOUD Access, Refer To Omada Cloud Service.
one.3 Inform the Eaps of the OC200’s Address
IF your OC200 and Eaps are in the Same Network Subnet, You can skip this space.
IF YOUR OC200 and EAPS ARE In Different Subnets, YOU NEED to Install OMADA DISCOVERY UTILITY ONAT THEAT IS in the Same Network Segment with the Eaps. OMADA DISCOVERY UTILITY CAN HELP EAPS FIND THE OC200.
Install and Use Omada Discovery Utility
Follow The Steps Below to Install Omada Discovery Utility and Use it toForm thes of the OC200’s IP Address:
Download the Installation File from the Website https: // www.TP-Link.COM/EN/Download/EAP- Controller.html#eap_discovery_tool. The Follow The Instructions to Properly Install Omada Discovery Utility.
Open The Omada Discovery Utility and the Following Window Will Pop Up. This Window Shows The Information of All Eaps in the Same Lan.
Click Manage in the Action Column Or Select Multiple Eps and Click Batch Setting.
Enter The Hostname or IP Address of the OC200.
Enter Thep’s Username and Password (Both Are Admin by Default).
Click Apply To Inform the Eap of the OC200’s Hostname or IP Address. And the Connection can be estable between the eap and the OC200.
To Use OC200 to Manage Eaps, You First Need to Log In To OC200. There are two situations:
Login in the OC200 On the Local Network
one.four.1 On the Local Network
Follow The Steps Below to Enter the Management Interface of OC200 On the Local Network: 1. Make Sure That Your Management Device Has the Route to Access The OC200.
Check The DHCP Server (Typically A Router) For OC200’s IP Address. The Default Fallback IP of Address OC 200 is 192.168.0.253.
Tips The Fallback IP Address IS Used When OC200 Fails to Get Dynamic IP Address from the DHCP Server
Launch a Web Browser and Type OC200’s IP Address in the Address Bar, The Press Enter (Windows) Or Return (Mac).
one.four.2 Via Omada Cloud
Follow The Steps Below to Log in OC200 Via Omada Cloud:
Make Sure That Your Management Device and OC200 Can Access The Internet.
Launch a Web Browser and Visit https: // Omada.TPLINKCLOD.com in the Address Bar, The Press Enter (Windows) Or Return (Mac).
Enter Your Tp-Link Id and Password to log in. The Click Add Cloud Controller and Follow the Instructions to Add Your OC200.
Click Launch in the Action Column to Visit the Management Interface of OC200.
one.four.3 Do the Basic Configurations
In the Web Browser You Can See The Configuration Page. Follow The Setup Wizard to Complete The Basic Settings for OC200.
Specify a Name for OC200 and Select the Time Zone. Click Next.
SPECIFYA A Username and Password for the Login Account. Specify themail Address to Receive themails and Reset Your Password if Necessary. Click Next.
After Loging Into OC200, SET A Mail Server SO that You Can Receive Emails and Reset Your Password in Case that Forget the Password. Please Refer to configure mail Server.
The Setup Page Displays All the Detected Eaps in the Network. Select ONE or Eps to be Managed and Click Next.
SET ANSID NAME (Wireless Network Name) and Password for the Eaps to be Managed. OC200 Will Create Two Wireless Networks, A 2.4GHZ One and A 5GHZ One, Both Encrypted in WPA2-PSK Mode. Click Next.
Creating a configuration for a selected place
Go to the section “Offenses” subsection “Places”, then select the place for which you want to configure the authorization portal, and in the upper right corner, click the “Create configuration” button
In the window that opens, select the type of equipment TP-Link Eap Omada Controller version 2.6 and press the “Next” button.
To configure the controller TP-Link Eap Omada Controller version 2.6 with access points EAP245, EAP320, EAP330, EAP225, EAP115, EAP110 Follow the configurator prompts.
Equipment setup
To set up the portal, it is necessary to create the following entities:
Creating Wlan
To create a guest network, you need to go to the Wireless Settings Basic Wireless Setting section and click on the Add button.
In the window that appears, you need to specify the values for the following parameters: SSID NAME. the name of the guest network.
BAND. frequency channels on which broadcasting will occur.
Guest Network. Activation of this parameter prohibits customers of the guest network to contact each other, as well as other subnets of internal infrastructure.
Security Mode. security mode if it is necessary. If the guest network should be open (without a password), then the value of None is necessary.
Wireless Password. indicating the password for connecting to the network. Not indicated if for the parameter Security Mode The value is selected None.
After making the changes, press the Apply button to save settings.
Add Portal Authentication
To add Portal Authentication, go to the Wireless Control Portal section and click on the Add a New Portal button.
In the window that appears, you must specify the values for the following parameters:
Portal Name. the name of the created entity.
SSID is the name of the Wi-Fi network that will be a guest.
Authentication Type. Select the External Radius Server value.
Radius Server IP. this value must be filled according to the received configuration in your personal account in step 2 of the Instructions.
Radius port. indicate the value of 1812.
Radius Password. this value must be filled according to the received configuration in your personal account in step 2 of the Instructions.
Authentication Mode. indicate the value of PAP.
Radius Accounting. Install Enable.
Accounting Server IP. this value must be filled according to the received configuration in your personal account in step 2 of the Instructions.
Accounting Server Port. indicate the value of 1813.
Accounting Server Password. this value must be filled according to the received configuration in your personal account in step 2.
Portal Customization. indicate the value of External Web Portal.
External Web Portal URL. this value must be filled according to the received configuration in your personal account in step 2.
HTTPS REDIRECT. Install Enable.
Redirect. Install Enable.
Redirect URL. this value must be filled according to the received configuration in the personal account in step 2 of the Instructions.
After making the changes, keep the settings by clicking on the Apply button.
After saving, the created profile should be displayed in the profile table.
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Part of the OMADA SDN complex
I will dwell on the new TP-Link solution for business networks-Omada SDN. Cloud technology is used for remote tuning and managing the ecosystem of corporate Wi-Fi.
AI and control panel
Artificial intelligence is used for tasks:
Means the definition of non.taxes that have arisen on the network, followed by providing the administrator with information about themselves and the methods of correction.
The control panel is easy to use. Makes it possible to control the state of the network in real time. Provides constant access to information about the loading of the network and the distribution of traffic.
Do not have to configure each device separately
SDN is an abbreviation from Software-Defined Network, which translates as a “software-configured network”. Saves the administrator from the need to separately determine the settings of the network equipment:
A set of network objects is tuned centrally through the “cloud” through the control intensity (controller). Automatic determination of equipment parameters by the OMADA SDN cloud controller:
- reduces the time and efforts of the deployment and configuration of the multi.sized network;
- excludes the need to leave the engineer to objects.
Safety and automation
Service and user traffic with OMADA SDN do not mix. As a result, the traffic of users through the cloud does not pass, which is an additional means of its protection.
Automatic setting of network parameters (Zero-Touch Provisioning) deserves a separate consideration. I get out of the situation when the customer addresses system integrators. When the devices are connected to the network and power, the system integrator is available devices through a cloud controller.
Among the options. sending settings files. The approach makes the command work on setting devices possible. The necessary changes can be made remotely. An important plus. highly qualified specialists will not be needed, which means saving the clients of the client.
Functional
OMADA equipment is applicable for use in various networks thanks to the set of functions (I note the most important):
Access points supporting the sixth generation Wi-Fi do a good job with loads with a significant number of connected devices.
I tell you why you need to think about wi-fi 6
Provides shopping and entertainment centers, hotel complexes, institutions of education and healthcare sector to deploy applications in their networks, the launch of which is not available today and this is mainly due to the use of the wireless technology of the previous generation. The number of devices supporting the new standard will grow. The use of old network technologies by the enterprise will soon lead to the impossibility of using relevant software tools.
High.quality video and dive applications
In 2020, it is obvious. a video with a resolution of 4k is not a curiosity, not uncommon, but everyday life. The second example is the application of virtual reality. recently, they were considered exclusively as game. It is now obvious that doctors, designers, retail managers are also needed.
The main functions
Mu-Mimo. Most of the wireless routers with SU-MIMO at a certain point in time provide data to only one user. Support for MU-MIMO suggests that there will be three or more flows.
Ofdma (is an orthogonal frequency separation of channels with multiplexing) in Wi-Fi 6 makes it possible to simultaneously connect a larger number of users to a network. I am considering an example. There are many people with phones in the hotel lobby at the same time. Correct on social networks and overload the network, which becomes impossible to use. And the reason is not in low throughput, but in a significant number of connected devices. Theoretical maximum technology. 74 connected to one point of access of devices. It does not mean that it will be comfortable to work, only the potential of the OFDMA.
BSS Color. Methodology for separating access points and customers connected to them, connected on one frequency channel. Access points (BSSS) are associated with various “colors”. For signals with the same “color” BSS, a low RSSI threshold (signal level) for delaying is used. Reduces the likelihood of “linings” as part of one service area.
Signals, “colors” of which differ, use an increased RSSI threshold for delay. The approach increases the total number of simultaneous transmissions. As such, there is no color, this word is understood as a digital code.
After the review, I asked the manufacturer a question about the access point of OMADA EAP660 HD:
-What institutions, organizations and companies are primarily necessary for a network with Wi-Fi 6 support in 2020-2021? Why is it worth changing current equipment that supports the previous generation Wi-Fi wireless communication?
And received a laconic answer:
-For example, in large multi-storey office buildings, where Wi-Fi each company makes itself separately, which is why the high noise of the ether is formed, as well as where the default high density of customers (High Density). Or in scenarios such as conference rooms, stations, airports when there is a high load on the network by customers. Roughly speaking, Wi-Fi 6 will work well where there are a lot of people and the high load on the network by customers General scolding ether. The effectiveness of Internet access for capacious content, type of video, will be higher.
How to Set Up the Whole Network of Gateway Switches and EAPs Using Omada SDN Controller TP-Link
stadiums, sports areas, large conference rooms
Technical characteristics TP-Link OMADA OC200
Below you will find the technical characteristics of the product and operating manual TP-Link OMADA OC200.
| Brand | TP-Link |
| Model | OMADA OC200 | OC200 V1.one |
| Product | Controller |
| Ean | 6935364084233, 6935364083953, 0845973084233 |
| Language | English |
| File type | User Manual (PDF), Technical Specification (PDF) |
| Power consumption (as usual) | 5 w |
| Ethernet power (Poe) power | Yes |
| Incoming direct current voltage | 5 v |
| Input voltage | 5 v |
| Current at the entrance | 1 a |
| Control and indication unit | Not |
| RAM | 1024 MB |
| Flash memory | 4000 MB |
| Type of internal memory | DDR3 |
| Built.in processor | Yes |
| The number of installed processors | one |
| The clock frequency of the processor | 1000 mhz |
| Temperature range during operation | 0. 40 ° C |
| Temperature range during storage | -40. 70 ° C |
| The range of relative humidity during operation | ten. 90 % |
| The range of relative humidity during storage | 5. 90 % |
Frequently asked Questions
You cannot find the answer to your question in the leadership? You can find the answer to your question below, in the section of frequently asked questions about TP-Link Omada OC200.
The product is safe for use after proper cleaning. Remove the battery, putting on gloves and clean the battery compartment with a toothbrush moistened with vinegar. After drying, install new batteries in the device.
Unfortunately, we do not have a guide for TP-Link Omada OC200, available to Russian. This leadership is available to English.
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Need help?
You have a question about TP-Link Omada SDN Controller and there is no answer in the manual? Ask your question here give a comprehensive description of the problem and clearly ask your question. The more detailed the description of the problem or the question, the easier it will be for other TP-Link Omada SDN Controller users to provide you with an exhaustive answer.
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Testing
Testing was carried out with version 1.one.1 Build 20210723 Rev.64359.
On the example of this model, we decided to check another tool for measuring network performance. a popular iperf3 package. For the first part. traffic routing between Lan and WAN segments. three cars under the control of Linux (Debian 10). access server with PPPOE/PPTP/L2TP protocols and two clients. One was in the segment of the local network of the router, and the second. behind the access server. At the latter, Iperf3 was launched in server mode, and for tests with simultaneous data transfer in two directions. two copies of the server at once at once. On TP-Link TL-RER7206, the WAN port mode was set up accordingly. All other settings of the test device that can affect speed did not change from default values.
| Lan → Wan (1 stream) | 939 | 931 | 910 | 904 |
| Lan ← Wan (1 stream) | 939 | 933 | 906 | 911 |
| Lan↔wan (2 streams) | 1810 | 1754 | 1509 | 1530 |
| Lan → Wan (8 flows) | 941 | 936 | 854 | 914 |
| Lan ← Wan (8 flows) | 941 | 935 | 913 | 911 |
| Lan↔wan (16 streams) | 1856 | 1837 | 1370 | 1592 |
As testing showed, the device copes with high speeds for all connection options for the provider. So it can be recommended for use on tariffs to gigabit per second inclusive. Note that, judging by the information provided in the web intake, the load on the processor in the PPTP and L2TP modes is quite large and with intense exchange of data the web-intese can even “slow down” a little “. At the same time, the activation of services such as monitoring the passage strip, restriction of the number of sessions and protection against Flood attacks almost do not affect the maximum speed of routing (checked in IPOE mode).
The second group of tests. checking the speed of the VPN servers between a remote client and a server inside the local segment of the router network. Let’s start with PPTP and L2TP protocols. Of course the first is already outdated, and without encryption it should not be used at all, but still we will check this option. The client is a workstation with Windows 10, and a built.in client is used to connect. The type of connection of the router itself to the Internet. IPOE.
| Client → Lan (1 Stream) | 318 | 108 | 126 |
| Client ← LAN (1 stream) | 395 | 175 | 183 |
| Client↔lan (2 streams) | 417 | 180 | 181 |
| Client → LAN (8 flows) | 543 | 149 | 146 |
| Client ← LAN (8 flows) | 401 | 147 | 195 |
| Client↔lan (16 streams) | 415 | 151 | 205 |
The results can hardly be called high, for this class of devices they can be evaluated more likely as medium. The issue of remote access will be determined by the number of customers, the volume of data, speed requirements, and so on.
When using the control through the controller, the adjustment of the remote access server with the OpenVPN protocol is available. The results of testing this scenario on the following schedule. The current version of the official client was used.
| Client → Lan (1 Stream) | 32 |
| Client ← LAN (1 stream) | 31 |
| Client↔lan (2 streams) | 33 |
| Client → LAN (8 flows) | 38 |
| Client ← LAN (8 flows) | thirty |
| Client↔lan (16 streams) | 37 |
At speeds up to 40 Mbit/s, everything looks sad enough. So in our opinion, it is unlikely that this regime will be in demand in practice.
The last test is the performance check with the “pure” IPSEC. For this scenario, we used the customer of Thegreenbow and chose in the AES128 settings. It is no secret that it is possible to ensure high speed in this case only using the assistance of the hardware blocking blocks of the platform.
| Client → Lan (1 Stream) | 224 |
| Client ← LAN (1 stream) | 146 |
| Client↔lan (2 streams) | 163 |
| Client → LAN (8 flows) | 232 |
| Client ← LAN (8 flows) | 155 |
| Client↔lan (16 streams) | 167 |
The average result is 180 Mbps, which is good enough for this segment. Although, of course, and in this case, the loading of processor nuclei was at a very high level (one 100%, the second is about 50%). In addition, it should be noted that the settings/possibilities of implementing this protocol are not very flexible by modern standards. In particular, there is only an option with the key for the first phase, the maximum SHA1-AES256-DH5 for it and ESP-AES256-DH5 for the second phase.
This material examined a specialized solution for a commercial segment, capable of solving characteristic problems. The router has a metal case and passive cooling, which positively affects the service life and reliability. From the point of view of hardware characteristics, we note the presence of the SFP port and the ability to choose a mode of operation in two of the five ports for a copper cable.
In addition to local control through the browser, integration with the OMADA SDN system is provided, which increases the convenience of remote control and flexibility of working with large and/or geographically distributed networks. We also note the presence of a corporate mobile application.
Built-in software supports such functions that are in demand in this segment as multi-Wan, VLAN, control of a bandwidth strip, Policy Routing, VPN (including with IPSEC), an inter-sequeter with DDOS attacks of some types and content filter. At the same time, in general, we can say that setting up and using these capabilities do not require deep knowledge from the administrator, but, of course, the experience in network technologies should be.
There are no issues to the design of questions to the device. For VPN servers, except for the OpenVPN protocol, the results are also good. However, when choosing equipment, do not forget that the capabilities of any finished solution are limited, and you need to correctly choose it for your requirements for scaling, including the number of customers of the local network, the number of remote connections, active services, and so on.
We suggest watching our VPN-Marshrutizer video review TP-Link TL-RER7206:
Review of the cloud controller of the TP-Link OMADA OC200 network
As you have already noticed, we often make reviews of routers from various manufacturers. And in this case, we decided to make an overview of the cloud controller of access points TP-Link Omada OC200. An ordinary user is unlikely to need such a device, but to find out how such devices work and why they are needed will be useful to everyone.
The device is made in the form of a small metal box. As for the size, it is visually 2 times smaller than a regular router, or rather, has a size of 100 × 98 × 25 millimeters. The manufacturer did not bother with the design, since the controller should not pay attention. Still, no one will decorate the server rack for them.(R)
The front side has 2 ports Ethernet, 1 USB, restart button and 2 controller activity indicator. For note, one of the 2 Ethernet ports proposed is supported by Poe. The rear panel offers the Kensington and MicroUSB slot for power supply, that is, the solution in the absence of POE connection.
The controller can simply be installed next to the router or switch, or you can hang on the wall. As you can see at the bottom there are mounts. And since the dimensions and weight are very small, there will be no problems with this.
TP-Link OMADA OC200
We clarify that this controller is designed for medium and big businesses. On the forums we saw records where we manage to manage the OMADA OC200 at once by dozens of access points in a small office or at home. But this is too much. The main purpose is a large office room with more than 10 access points installed in it. After all, setting up and support for each individual access point requires monotony of labor. And to programatically manage all TD, you need a separate PC in the local network. In addition, the software for remote work also needs to be bought and paid annual subscription. And this is all costs.
In order to simplify this process, TP-Link has developed the OMADA OC200 controller. If available, you can control the entire network via Web or using an application for a conventional smartphone.
But do not forget that this controller model can only work with TP-LINK production points. And this assortment is huge. There are also conventional access points and those that are designed to use on the street. You can choose for any tasks.
To check the operation of the OMADA OC200, we used the access point of OMADA EAP225. So far we will only talk about such a pair of device. And the results pleased us. In fact, you only need to connect an access point to the router, since the controller does everything else immediately after connecting to the network and registration.
When connecting the controller to the router, the controller itself must still be activated on a special website. A separate account is created on the site and you need to enter the identification key of the controller, which is written on the case. If you do this through an application for a smartphone, then just use a QR code. As soon as the controller is activated, it will immediately pick up active points in your local network and will create a user to access the settings. Here it will be possible to set ssid and password to the network. By the way, the network will immediately rise. As you can see, to create a network deducted by the installation time, you will need 5-10 minutes. After you can use more accurate settings and set additional parameters.
OMADA OC200 Management and Description of Opportunities
There are 2 ways to obtain access to the controller. Web and the application (Android and iOS). Most tabs in Web demonstrate statistical data and various information about TD, connected by customers, logia and so on. I especially liked the fact that you can download the scheme of the room itself and develop the most effective map of access points with displaying the theoretical power of the signal and the coating zone of each TD.
Router TP-Link Omada Cloud Controller OC200-network control device
TP-Link Omada Cloud Controller OC200 cloud controller provides centralized control of the entire OMADA network. Track the statistics in real time, view the graphic analysis of network traffic, create an intercepting portal, update and reboot your system and easily scale your network to develop your business.
TP-Link Omada Cloud Controller OC200 in packaging
The key feature of the router TP-Link Omada Cloud Controller OC200
Improved hardware design equipped with an advanced hardware design and the latest chipset, OC200 has an impressive computing power to support the mass management of your business network.
Guest network with Wi-Fi and SMS entrance have access to secure Wi-Fi with an intercepting portal and wireless insulation technology. SMS-authentication simplifies the connection process, and authentication in increases the profile of your business on social networks.