2.4 | T.38 and T30 Protocol |
| There are two protocols used to transfer a fax over IP; T.30 [2] and T.38 [3]. |
| T.30 is the protocol that describes the communication process between two |
| fax machines on a |
| T.38 is the protocol that describes the process for sending and receiving |
| fax in |
| delay, jitter, and dropped packets, which comes with the characteristics of |
| IP networks and radio networks. Since Fax devices are sensitive to timing it |
| would not be reliable to send and receive faxes over an IP network using a |
| normal voice codec e.g. G.711. |
| The gateway (MGW/MGC) receives T.30 data from the fax |
| converts the data to |
| the destination, over the IP network. |
| The MGW/MGC works the other way round as well, receives the T.38 data |
| from the |
| to the |
| Since T.30 data is encapsulated in T.38 packets, the same protocol used |
| for faxing over traditional circuit switched networks, remains for every IP fax |
| connection. Thus it’s important to have a high level of T.30 interoperability |
| to be able to communicate with legacy fax devices. |
| The normal bandwidth for the T.38 protocol is approx 30 kbps, but |
| depending on configuration it can be up to 80 kbps. |
2.5 Access Network
The access network used for transmitting fax pages to and from the Ericsson W25 is the WCDMA/HSDPA Radio access network and belonging core network.
IP packets are sent in packet switch data channels over the radio network. To increase the success rate of fax calls it’s important to have a connection with as little as possible latency and jitter since, despite T.38, Fax devices are sensitive to timing. WCDMA is a minimum requirement, but it’s recommended to have a HSPA connection since this reduce the latency and jitter. Future radio network improvements, mainly regarding QoS, the fax transmission success rate will further improve.
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