tp-link TL-SG2210P JetStream 10-Port Gigabit Smart Switch Installation Guide
- June 9, 2024
- tp-link
Table of Contents
TL-SG2210P JetStream 10-Port Gigabit Smart Switch
Installation Guide
JetStream Gigabit Smart PoE+ Switch
LED | Indication |
---|---|
Power |
On/Off: Power on/off
System|
Flashing: System running normally
On/Off: System running abnormally
Link/Act|
Green On: Running at 1000 Mbps, but no activity
Green Flashing: Running at 1000 Mbps and transmitting or receiving data
Yellow On: Running at 100/10 Mbps, but no activity.
Yellow Flashing: Running at 100/10 Mbps and transmitting or receiving data
Off: No connected device
SFP1/SFP2 (for TL-SG2210P)|
Green/Yellow On: Running at 1000/100 Mbps
Flashing: Transmitting/receiving data
Off: No connected device
PoE Status (For Port 1-4 of TL-SG2008P/
Port 1-8 of TL-SG2210P/
Port 1-8 of TL-SG2016P)|
On: Providing PoE power
Flashing: Current-overload/Short-circuit/Connected to a non-standard PD/Power
exceeded the user-defined value
Off: Not providing PoE Power
PoE Max|
For TL-SG2008P
On: 55 W ≤ Total power supply < 62 W
Flashing: Total power supply keeps ≥ 55 W more than 2 minutes
Off: Total power supply < 55 W
For TL-SG2210P
On: 54 W ≤ Total power supply < 61 W
Flashing: Total power supply keeps ≥ 54 W more than 2 minutes
Off: Total power supply < 54 W
For TL-SG2016P
On: 113 W ≤ Total power supply < 120 W
Flashing: Total power supply keeps ≥ 113 W more than 2 minutes
Off: Total power supply < 113 W
For simplicity, we will take TL-SG2210P for example throughout the Guide.
Connection
Note:
- PoE ports can also connect to non-PoE devices, but only transmit data.
- Maximum PoE power is 30 W for each PoE port, and 62 W (for TL-SG2008P)/61 W (for TL-SG2210P)/120W (for TL-SG2016P) for all PoE ports.
- PoE budget calculations are based on laboratory testing. Actual PoE power budget is not guaranteed and will vary as a result of client limitations and environmental factors.
Configuration
The switch supports two configuration methods:
- Standalone Mode: Configure and manage the switch singly.
- Controller Mode: Configure and manage the network devices centrally. It is recommended in the large-scale network, which consists of mass devices such as access points, switches, and gateways.
Note: When the switch is changed from Standalone Mode to Controller Mode, configurations of the switch will be lost. For details, refer to the related documents on the download center of our official website: https://www.tp- link.com/support/download/.
Method 1: Standalone Mode
In Standalone Mode, use a computer to configure and manage the switch.
-
To access the management page of the switch, open a browser and type the switch’s IP address in the address field, then press the Enter key. If the switch obtains IP address from the DHCP server (typically a router), find the switch’s IP address on the DHCP server.
If not, use the default IP address 192.168.0.1 to launch the switch’s management page.
Note: Make sure the switch and computer are in the same subnet. -
Enter admin for both the username and password in the lower case letters to log in. The first time you log in, change the password to better protect your network and devices.
-
After a successful login, the main page will appear. You can click the menus on the top side and left side to configure the corresponding functions.
For the detailed configurations, refer to the User Guide and CLI Guide. The guides can be found on the download center of our official website: https://www.tp-link.com/support/download/.
Method 2: Controller Mode
Choose from the following two types of Omada Controller:
Type 1: Omada Hardware Controller (OC200/OC300) Omada Hardware Controller
(OC200/OC300) is a good alternative if you have no spare PC to keep running
Omada Software Controller in the network. It needs to be purchased
additionally. For more details, refer to the Installation Guide of
OC200/OC300.
Note: Before you start, be sure to power up and connect your devices according to the topology figure. A DHCP server (typically a router with DHCP function enabled) is required to assign IP addresses to the EAPs and clients in your local network. Omada Controller must have network access to your Omada devices (the router, switch, and EAPs) in order to find, adopt, and manage them.
Type 2: Omada Software Controller
On a PC with Windows OS or Linux OS, download the Omada Software Controller
from https://www.tp-link.com/support/download/omada-software-controller/. Then
run the file and follow the wizard to install and launch the Omada Software
Controller. To manage your devices, Omada Software Controller needs to keep
running on your computer.
Choose from the following two types of Management Interface:
Type 1: Via Web Browser
1. Open the Omada Controller’s web page.
For Omada Software Controller Launch the Omada Software Controller on your PC.
After the initiation process, the controller automatically opens its web page.
If not, click Launch a Browser to Manage the Network.
For Omada Hardware Controller As Omada Hardware Controller gets its IP address
from the DHCP server of the router, we don’t know its IP address explicitly.
However, we can find it out on the router’s DHCP client list.
EU Declaration of Conformity TP-Link hereby declares that the device is in
compliance with the essential requirements and other relevant provisions of
directives 2014/30/EU, 2014/35/EU, 2009/125/EC, 2011/65/EU and (EU)2015/863.
The original EU declaration of conformity may be found at https://www.tp-
link.com/en/support/ce/
UKCA Declaration of Conformity TP-Link hereby declares that the device is in
compliance with the essential requirements and other relevant provisions of
the Electromagnetic Compatibility Regulations 2016 and Electrical Equipment
(Safety) Regulations 2016. The original UK declaration of conformity may be
found at https://www.tp-link.com/support/ukca/
a. You need first find the IP address of the router. Open the command line on your PC and enter ipconfig. In the result list, find the Default Gateway, which is also the IP address of the router.
b. Launch a web browser and enter the IP address of the router. Log into the router’s web page, and both the username and password are admin by default. Then go to Network > LAN > DHCP Client List to find the IP address of your controller according to its MAC address.
c. Enter the IP address of your controller in address bar to open its web page.
2. On the Omada Controller’s page, follow the wizard to complete the quick setup.
3. After quick setup, login page appears. Enter the username and password you have created and click Log in. Then you can further configure the controller.
4. (For Remote Management) You can remotely access and manage your
controller via Omada Cloud Service.
Note: Before you start, make sure that both your controller and your PC can access the internet.
For Omada Software Controller, refer to its User Guide For Omada Hardware Controller a. Make sure Cloud Access is enabled on your controller. By default, Cloud Access is enabled. Make sure that the Cloud LED is flashing slowly. b. Launch a web browser and enter https://omada.tplinkcloud.com in the address bar. Enter your TP-Link ID and password to log in. Click + Add Controller and choose Hardware Controller to add your controller.
Type 2: Via Omada App
1. Download the TP-Link Omada App on your mobile device. It can be downloaded
from App Store or Google Play:
2. Launch your Omada App and configure the controller at a local site or
remote site.
Local Management
a. Connect your mobile device to the EAP by using the default SSID (format:
TP-Link_2.4GHz/5GHz_XXXXXX) printed on the label at the bottom of the product.
b. Launch Omada App and go to Local Access, tap the + button on the upper- right corner to add the controller. Then you can further configure the controller.
Remote Management
Note: Before you start, make sure that both your controller and mobile
device can access the internet.
For Omada Software Controller
a. Make sure that Cloud Access is enabled on your controller and your
controller has been bound with your TP-Link ID.
b. Launch Omada App and log in with your TP-Link ID. Then go to Cloud Access. A list of controllers that have been bound with your TP-Link ID will appear. Then you can further configure the controller.
For Omada Hardware Controller
a. Make sure that Cloud Access is enabled on your controller. By default,
Cloud Access is enabled. Make sure that the Cloud LED is flashing slowly.
b. Launch Omada App and log in with your TP-Link ID. Then go to Cloud Access. Tap the + button on the upper-right to add your controller. Then you can further configure the controller.
EU Declaration of Conformity
TP-Link hereby declares that the device is in compliance with the essential
requirements
and other relevant provisions of directives 2014/30/EU, 2014/35/EU,
2009/125/EC,
2011/65/EU and (EU)2015/863.
The original EU declaration of conformity may be found at
https://www.tp-link.com/en/support/ce/
UKCA Declaration of Conformity
TP-Link hereby declares that the device is in compliance with the essential
requirements
and other relevant provisions of the Electromagnetic Compatibility Regulations
2016 and
Electrical Equipment (Safety) Regulations 2016.
The original UK declaration of conformity may be found at
https://www.tp-link.com/support/ukca/
Safety Information
- Keep the device away from water, fire, humidity or hot environments.
- Do not attempt to disassemble, repair, or modify the device. If you need service, please contact us.
- Do not use damaged charger or USB cable to charge the device.
- Do not use any other chargers than those recommended.
- Adapter shall be installed near the equipment and shall be easily accessible.
- Place the device with its bottom surface downward.
- The plug on the power supply cord is used as the disconnect device, the socket-outlet shall be easily accessible.
For technical support and other information, please visit https://www.tp- link.com/support, or simply scan the QR code.
References
Read User Manual Online (PDF format)
Read User Manual Online (PDF format) >>