EDS-510A Series User’s Manual
Featured Functions
3-58
Sample Applications of VLANs using Moxa EDS-510A
Port 3 (Trunk Port, PVID 1)
VLAN 5 Untagged Device
VLAN 3 Untagged
Device
VLAN 4 Untagged
Device
VLAN 5 Untagged Device
VLAN 2 Untagged
Device
VLAN 4 Tagged Device, VID 4
VLAN 3 Tagged Device, VID 3
VLAN 2 Untagged
Device
VLAN 2 Untagged
Device
Device A
Switch A
Switch B
Device C
Device B
Device D
Device E
Device F
Device G
Device H
Device I
Port 1 (Access Port
PVID 5)
Port 7 (Access Port
PVID 4)
Port 5 (Access Port
PVID 3)
Port 4 (Access
Port PVID 2)
Port 2 (Trunk Port PVID 2,
Fixed VLAN (Tagged)=3,4)
Port 6 (Access Port PVID 5)
HUB
In this application,
Port 1 connects a single untagged device and assigns it to VLAN 5; it should be configured as
“Access Port” with PVID 5.
Port 2 connects a LAN with two untagged devices belonging to VLAN 2. One tagged device
with VID 3 and one tagged device with VID 4. It should be configured as “Trunk Port” with
PVID 2 for untagged device and Fixed VLAN (Tagged) with 3 and 4 for tagged device. Since
each port can only have one unique PVID, all untagged devices on the same port can only
belong to the same VLAN.
Port 3 connects with another switch. It should be configured as “Trunk Port.” GVRP protocol
will be used through the Trunk Port.
Port 4 connects a single untagged device and assigns it to VLAN 2; it should be configured as
“Access Port” with PVID 2.
Port 5 connects a single untagged device and assigns it to VLAN 3; it should be configured as
“Access Port” with PVID 3.
Port 6 connect a single untagged device and assigns it to VLAN 5; it should be configured as
“Access Port” with PVID 5.
Port 7 connects a single untagged device and assigns it to VLAN 4; it should be configured as
“Access Port” with PVID 4.
After proper configuration:
Packets from device A will travel through “Trunk Port 3” with tagged VID 5. Switch B will
recognize its VLAN, pass it to port 6, and then remove tags received successfully by device G,
and vice versa.
Packets from device B and C will travel through “Trunk Port 3” with tagged VID 2. Switch B
recognizes its VLAN, passes it to port 4, and then removes tags received successfully by
device F, and vice versa.
Packets from device D will travel through “Trunk Port 3” with tagged VID 3. Switch B will
recognize its VLAN, pass to port 5, and then remove tags received successfully by device H.
Packets from device H will travel through “Trunk Port 3” with PVID 3. Switch A will