TP-LINK T3700G-28TQ is a manageable L3 switch that offers L3 routing, wired connection speed up to 10 Gb/s, possibility of real physical stacking up to 8 units. Detachable power supply and redundant power supply features minimize interruptions to PIM-SM / PIM-DM / IGMP eavesdropping for flexible video use. The switch has 24 Gigabit RJ-45 ports, four Gigabit SFP Combo slots and two 10 Gigabit SFP + ports. Integrated with robust security and numerous management features, the T3700G-28TQ JETSTREAM stackable management switch is a proven and reliable solution for corporate, campus and ISPnetworks.
The T3700G-28TQ supports 2 integrated and 2 optional 10G SFP+slots .
With a separate second power supply available, the RPS150 avoids downtime if one of them fails. Thanks to its ability to be replaced during operation, the JetStream T3700G-28TQswitch is able to operate continuously when replacing a faulty power supply.
Features / filters | |
LAN standard | Gigabit Ethernet 10/100/1000 Mb/s |
Number of LAN ports | 24x [10/100/1000M (RJ45)] , 4x [1G (SFP)] , 2x [10G (SFP+)] , |
10G support | Yes |
AC input frequency | 50 - 60 |
AC input voltage | 110 - 240 |
Basic switching RJ-45 Ethernet ports quantity | 24 |
Basic switching RJ-45 Ethernet ports type | Gigabit Ethernet (10/100/1000) |
Broadcast storm control | Yes |
Certification | CE, FCC, RoHS |
Combo SFP ports quantity | 4 |
Console port | RJ-45 |
Copper ethernet cabling technology | 10BASE-T,100BASE-T,100BASE-TX,1000BASE-TX,1000BASE-T |
Depth | 420 |
DHCP features | DHCP server,DHCP client |
Ethernet LAN data rates | 10,100,1000 |
Fanless | No |
Fiber ethernet cabling technology | 100BASE-FX,10GBASE-LR,10GBASE-SR |
Form factor | 1U |
Forwarding rate | 95.2 |
Heat dissipation | 214.96 |
Height | 44 |
IGMP snooping | Yes |
Jumbo frames support | Yes |
LED indicators | Yes |
MAC address filtering | Yes |
MAC address table | 32 |
Management | Yes |
Management protocols | SNMP, RMON, DHCP/BOOTP, DHCP Snooping, DHCP Option82, CPU, NDP/NTDP, TFTP, Web, VCT |
Multicast support | Yes |
Networking standards | IEEE 802.1D,IEEE 802.1p,IEEE 802.1s,IEEE 802.1w,IEEE 802.1x,IEEE 802.3ab,IEEE 802.3ad,IEEE 802.3ae,IEEE 802.3i,IEEE 802.3u,IEEE 802.3x,IEEE 802.3z |
Number of fans | 4 |
Number of IP interfaces | 128 |
Number of static routes | 256 |
Operating relative humidity (H-H) | 10 - 90 |
Operating temperature (T-T) | 0 - 40 |
Package depth | 590 |
Package height | 120 |
Package weight | 8.23 |
Package width | 580 |
Port mirroring | Yes |
Power (W) | Without PoE |
Power connector | DC-in jack |
Power consumption (typical) | 63 |
Power over Ethernet (PoE) | No |
Product colour | Black |
Quality of Service (QoS) support | Yes |
Rack mounting | Yes |
Security algorithms | 802.1x RADIUS,SSH,SSH-2,SSL/TLS |
SFP+ module slots quantity | 2 |
Spanning tree protocol | Yes |
Stackable | Yes |
Stacking possible | Yes |
Static route | Yes |
Storage relative humidity (H-H) | 5 - 90 |
Storage temperature (T-T) | -40 - 70 |
Switch layer | L3 |
Switch type | Managed |
Switching capacity | 128 |
Switching layer | 3 |
System event log | Yes |
Type of case | Rack (1U), Desktop, |
VLAN support | Yes |
Web-based management | Yes |
Width | 440 |
Equipment features | |
Ports | 24 RJ45 ports 10/100/1000Mbps (Autonegotiation/Auto-MDI/MDIX) 4 Gigabit SFP combo slots Up to 4 10G SFP+ slots (2 integrated and 2 optional 10G SFP+ slots) 1 console port |
Network cabling | 10BASE-T: Cat 3, 4 or 5 UTP cable (up to 100m) 100BASE-TX/1000Base-T: UTP cable cat 5, 5e or higher (up to 100m) 100BASE-FX: MMF, SMF 1000BASE-X: MMF, SMF 10GBASE-LR 10GBASE-SR |
Fanless | No, 1 removable fan |
Standards and protocols | IEEE 802.3i, IEEE 802.3u, IEEE 802.3ab, IEEE802.3z, IEEE 802.3ae, IEEE 802.3ad, IEEE 802.3az, IEEE 802.3x, IEEE 802.1d, IEEE 802.1s, IEEE 802.1w, IEEE 802.1q, IEEE 802.1x, IEEE 802.1p |
Physical security | No |
Power supply | 100~240VAC, 50/60Hz |
Dimensions (S x G x W) | 440*330*44 mm (17.32*13*1.73 inches) |
Installation | Wardrobe rack |
Max. energy consumption | 47 W (220V/50Hz) |
Amount of heat generated | 160.36 BTU/h |
Physical Stacking | |
SFP+ converters and copper cables (DAC) | TXM431-SR TXM431-LR TXC432-CU1M TXC432-CU3M |
Maximum number of Stacking ports | 2 SFP+ |
Number of units in the stack | 8 |
Stowage port capacity | 20 Gb/s (Full-Duplex) |
Performance | |
Switching efficiency | Up to 128Gbps for a standalone switch |
Capacity | Up to 320 Gb/s with 8 units in the protocol stack |
Speed of packet redirection | Up to 95.2 Mp/s for a standalone switch |
MAC address plate | 32K |
Package buffer | 32 Mb |
Jumbo frames | 12 KB |
Number of routes | 8K |
Number of static routes | 256 |
Number of interfaces with IP addresses | 128 |
Software function | |
Quality of Service function | Prioritization of CoS/DSCP traffic based on the 802.1p standard Support for 8 priority queues Prioritization queue: SP, WRR, SP+WRR Port and data flow related data transfer limit Voice VLAN |
Features of the layer 2 switch | IGMP Snooping V1/V2/V3 Support for LACP protocol, according to 802.3ad standard (Up to 32 aggregation groups, with 8 ports per group) Spanning Tree STP/RSTP/MSTP protocol BPDU filtering/protection TC/Root Protect Feedback loop detection function Data flow control in 802.3x standard |
VLANs | Support up to 4K VLAN at the same time (from among 4K VLAN identifiers) IEEE 802.1Q VLAN/MAC VLAN/Protocol VLAN/QinQ/Private VLAN/GVRP |
Access control lists | Packet filtering, based on source and destination MAC addresses (L2~L4), IP address, TCP/UDP ports, 802.1p standard, DSCP, protocol and VLAN ID Fixed time frame |
Transmission security | IP-MAC-Port-VID binding Authentication based on IEEE 802.1X standard (depending on MAC port/address), Radius,Guest VLAN Protection against DoS attacks Dynamic protection against ARP (DAI) attacks SSH v1/v2 SSL v2/v3/TLSv1 Port security Broadcast/Multicast/Unknown-unicast Storm Control |
Features of the L3 switch | Maximum speed for IP address forwarding Static Routing RIP v1, v2 OSPF v2 ECMP PIM-SM/PIM-DM/IGMP DHCP/DHCP Relay server ARP Proxy VRRP |
Management | GUI browser interface, CLI command line interface SNMP v1/v2c/v3, compatible with TP-LINK public and private MIB databases RMON (groups 1, 2, 3, 9) Customer DHCP/BOOTP, DHCP Snooping, DHCP Option82 CPU monitoring Port Mirroring SNTP time synchronization Firmware update: via TFTP protocol and web browser Diagnostics: VCT test System logos and public MIBs Duplicate image function |
Certificates | CE, FCC, RoHS |
Package contents | Switch Power Cable Quick Installation Guide CD Mounting elements Rubber coasters Console cable MicroUSB cable |
System requirements | Microsoft® Windows® 98SE, NT, 2000, XP, Vista™ or Windows 7, 8, 10, MAC® OS, NetWare®, UNIX® or Linux. |
Working environment | Permissible operating temperature: 0℃~40℃ (32℉~104℉); Permissible storage temperature: -40℃~70℃ (-40℉~158℉) Permissible air humidity: 10%~90%, non-condensing Permissible storage humidity: 5%~90%, non-condensing |
Introduction
Voice traffic is usually more time sensitive and may be more affected by packet loss than data traffic. You can configure Voice VLAN to optimize the transmission of voice traffic. Voice VLAN can change the priority of 802.1p voice packets and transmit packets in the desired VLAN.
Network requirements
As shown in the figure below, two IP phones are connected to port 1/0/1 and port 1/0/2 of the switch. The PC is connected to port 1/0/3 of the switch. The switch is connected to the Internet through a router via port 1/0/4. IP phones transmit voice traffic while the computer transmits data traffic. Voice traffic requires higher priority than data traffic.
Configuration diagram
To implement this requirement, you can configure it as follows:
1) Create a VLAN 2 and add port 1/0/1, port 1/0/2 and port 1/0/4 to your VLAN.
2) Configure VLAN 2 as Voice VLAN and set the voice traffic priority to 7.
3) Switch on the Voice VLAN on ports 1/0/1 and 1/0/2.
Configuration steps
For the T2600G-28TS, the following sections describe the configuration procedure.
Step 1
Select the L2 FUNCTIONS> VLAN> 802.1Q VLAN> VLAN Configuration menu and click Add to load the next page. Create a VLAN 2 for voice traffic. Enter the name of the VLAN as Voice_VLAN. There is no need to add ports that are connected to IP phones. Just add the uplink port 1/0/4 to your VLAN 2, for example, set it here as an un-tagged port. Click Create.
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Step 2
Select the QoS> Voice VLAN> Global Config menu to load the next page. Enable Voice VLAN around the world. Set the VLAN ID to 2 and set the priority to 7 . Click Apply .
Step 3
Select the QoS> Voice VLAN> Config Port menu to load the next page. Enable Voice VLAN on ports 1/0/1 and 1/0/2. Click Apply .
Step 4
Select the QoS> Voice VLAN> OUI Config menu to load the next page. Check the OUI table. Make sure that the OUI address of the voice device is in this table. If the source MAC address of the packet matches the OUI address in the OUI list, the switch identifies the packet as a voice packet and processes it based on the voice VLAN configuration.
Virtual Local Area Network configuration is based on logical network topology settings rather than physical network connections. Computers in the same VLAN communicate with each other if they are connected to the local network. They cannot connect to computers on other VLANs.
The following describes how to configure VLAN tags on L2 managed switches.
Network topology:
This example uses TL-SG5428E and TL-SG3424.
Connect the network cable to port 1 of the TL-SG3424. To access the Internet, connect the TL-R480T+ to port 9 of TL-SL5428E.
Connect group A computers to port 2-3 of TL-SL5428E and port 2-3 of TL-SG3424. Group B computers use ports 4-8 of the TL-SL-SL5428T+.
This can be found at celu:.
1 Enabling communication between Group A computers.
2 Enabling communication between computers in Group B.
3 Enabling communication between the computers in Group A and Group B.
4 Enabling the computers in Group A and Group B to access the Internet through a TL-R480T+ router.
Configuring VLAN parameters:
VLAN 100 | VLAN 101 | VLAN 102 | |
TL-SG2424 | 1-3,9 | 1,4-9 | 1-9 |
TL-SG2216 | 1-3 | 1,4-8 | 1-8 |
PART I: Defining connection types for ports:
TRUNK: The trunk port can be operated by multiple VLANs and used for cascading network devices (e.g. two switches). The default option for Egress rule is TAG.
GENERAL: General ports can also be provided for multiple VLANs. The default option for Egress rule is UNTAG (computers usually accept only untagged frames).
ACCESS: This port can be assigned to a single VLAN identifier.
The following figure shows how to configure the Link Type option for port 1, for example:
Other ports can be configured in a similar way (see below).
Part II: Creating VLANs:
According to the first table, it is necessary to create 3 vlan networks: VLAN100, VLAN101, VLAN102.
Select 802.1Q VLAN->VLAN Config and press Create. In a new window, you can create a new VLAN (see below).
Then create another 2 VLANs (see below).
Part III: PVID setting
The PVID (VLAN port identifier) is the default VID of the port. If the switch receives unlabeled frames, VLAN tags will be added according to the PVID of the port before forwarding them.
For example, the PVID for port 2 is 100. When the switch receives an untagged frame on port 2 of the computer, the switch will tag a network frame with an identifier of 100. This frame will therefore only be transmitted to ports that belong to VLAN 100.
Settings have been made. To save the settings, select Saving Config.