VMG1312 Vs VMG3925: Difference between revisions
(BVM -> BCM) |
mNo edit summary |
||
Line 8: | Line 8: | ||
*VMG3925 has a dedicated WAN Ethernet port, the VMG1312 has a shared LAN/WAN Ethernet port |
*VMG3925 has a dedicated WAN Ethernet port, the VMG1312 has a shared LAN/WAN Ethernet port |
||
*VMG3925 has a better wall mount |
*VMG3925 has a better wall mount |
||
In terms of hardware differences between the router: |
|||
The main difference, is the addition of an additional 5GHz wireless |
|||
radio alongside the existing 2.4GHz band one. This is of benefit to |
|||
customers in areas where the 2.4GHz band is heavily congested. |
|||
5GHz does NOT have a "longer reach" than 2.4GHz, so it will not help in cases of signal attenuation. |
|||
It does however help in cases where the 2.4GHz band has too many other devices on it. |
|||
This router also has a dedicated WAN port, for FTTP. No configuration is |
|||
necessary to turn this on, or off. It is enabled by default. |
|||
The other difference is that instead of 100MBit/sec LAN ports on the |
|||
router, it has 1GBit/sec LAN ports. This may be beneficial for FTTP |
|||
customers as to not have the LAN ports becoming a bottleneck. |
|||
== Detailed differences == |
== Detailed differences == |
Revision as of 14:16, 26 March 2018
Thais page describes the differences between the ZyXEL VMG1312-B10D and the ZyXEL VMG3925-B10B routers.
The main differences are:
- VMG3925 is more expensive
- VMG3925 has 2.4 and 5G WiFi radio, the VMG1312 has only 2.4G
- VMG3925 has Gigabit Ethernet ports, the VMG1312 has 100M ports
- VMG3925 is physically larger, even though they are a similar shape
- VMG3925 has a dedicated WAN Ethernet port, the VMG1312 has a shared LAN/WAN Ethernet port
- VMG3925 has a better wall mount
In terms of hardware differences between the router:
The main difference, is the addition of an additional 5GHz wireless radio alongside the existing 2.4GHz band one. This is of benefit to customers in areas where the 2.4GHz band is heavily congested.
5GHz does NOT have a "longer reach" than 2.4GHz, so it will not help in cases of signal attenuation. It does however help in cases where the 2.4GHz band has too many other devices on it.
This router also has a dedicated WAN port, for FTTP. No configuration is necessary to turn this on, or off. It is enabled by default.
The other difference is that instead of 100MBit/sec LAN ports on the router, it has 1GBit/sec LAN ports. This may be beneficial for FTTP customers as to not have the LAN ports becoming a bottleneck.
Detailed differences
VMG1312-B10D | VMG3925-B10B | |
---|---|---|
Dimensions with stand (mm) | 160Wx115Hx60D | 185Wx147Hx85D |
Wall mountable | Suboptimal | Yes |
PSU Rating | 12V 1A | 12V 2A |
CPU/SoC | Broadcom BCM63381 | Broadcom BCM63168 |
Architecture | BMIPS4350 | BMIPS4350 |
CPU Cores | 2 | 2 |
CPU Frequency | 600MHz | 400MHz |
RAM | 64MB | 128MB |
Flash | 128MB | 128MB |
Switch chipset | Onboard the BCM63381 SoC | BCM53125(Discrete) |
LAN Ethernet | 4 Ports 10/100M (To SoC) |
4 Ports 10/100/1000M (To Switchchip) |
WAN Ethernet | Virtual port from LAN 4 | Dedicated 10/100/1000M port (To Switchchip) |
Wireless Protocols | 802.11 b/g/n | 802.11 a/b/g/n/ac |
2.4GHz Wireless | Yes | Yes |
2.4GHz radio chains | 2 | 2 |
2.4GHz chipset | BCM43227 (Discrete) | BCM6362 (On BCM63168 SoC) |
5GHz Wireless | No | Yes |
5GHz radio chains | N/A | 3 |
5GHz chipset | N/A | Broadcom BCM43602 (Discrete) SKY85712-21 RF Front-End |
xDSL Chipset | Broadcom BCM6303 ADSL/VDSL | Broadcom BCM6302 ADSL/VDSL |
USB | Yes, 2.0 | Yes, 2.0 |
You may note that the VMG3925-B10B has a slower CPU, however it also contains more dedicated hardware for packet processing compared to the VMG1312-B10D which needed the extra CPU clock cycles to deal with processing packets.
The VMG3925-B10B's SoC contains 1 Gigabit PHY, which connects to the Switch chip for the WAN and LAN ports. Radios are connected to the SoC, so packets passing through WAN/LAN<>WLAN would be limited to the bandwidth of the single Gigabit PHY inside assuming no other limiting factors ie WAN speed, WLAN radio bandwidth.