Compaq Scale W25 User Manual

Ericsson W25  
Fixed Wireless Terminal for WCDMA/HSPA Mobile Networks  
Application Note:  
Fax over IP with Ericsson W25  
 
1
Introduction  
This document gives a brief description of the Fax over IP and the  
implementation in the Ericsson W25. It also includes a guidance of how to  
configure the Ericsson W25.  
1.1  
Background  
The Ericsson W25 is intended for residential and SOHO applications. The  
focus for the Ericsson W25 is to enable both broadband data and voice  
calls using existing 3G network. Additionally support for analog Fax  
operation is essential when targeting business users such as SOHO users.  
Fax support in GSM mobile networks is standardized, but not in 3G mobile  
networks. The available options in 3G mobile networks are T.37, store and  
forward mailbox, or T.38 Fax over IP. Since Fax communication is  
considered legally binding when doing business, the demand on Fax  
operation is that the sender of a Fax can get a receipt that the fax has been  
delivered to the recipient in real-time. Therefore, Ericsson has chosen Fax  
over IP (T.38) using packet switched connection in the Ericsson W25 to  
enable Fax operation in 3G mobile networks. This, since it is the only option  
that can guarantee that a fax has been delivered to the recipient in real-  
time. This can be done thanks to HS(D)PA introduced in 3G mobile  
networks with features such as increased data bandwidth and reduced  
delay.  
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2
System Overview  
Fax over IP is based on Voice over IP. The Voice over IP system utilizes IP  
technology over broadband networks and uses SIP for control signaling  
and RTP for media. The differences between Fax and Voice are the  
codecs. For voice the normal voice codecs are G.711, G.729, AMR etc, but  
T.38 is used for fax. The voice and fax media are both sent in RTP packets.  
SIP Server  
W25  
Access Network  
PSTN Networks  
Fax GW  
Analog line  
T.30  
Analog line  
Fax over IP  
T.38  
T.30  
Figure 1 - Typical network for VoIP running Fax (T.38)  
The fax machines still use the analog interface and the T.30 fax protocol. In  
the picture above one fax is connected to the dedicated fax port on the  
Ericsson W25 and the other fax to the PSTN.  
The Ericsson W25 has a SIP User Agent associated to the fax port. The  
User Agent registers in the SIP server. The User Agent originates and  
terminates the FoIP (Fax over IP) calls and use the SIP protocol to manage  
and control the media streams (T.38). T.38 enables real-time facsimile  
communication over an IP network.  
W25 does NOT support fax in clear channel i.e. G.711. This is not feasible  
due to, primarily, lack of phase-synchronization between the endpoints. It  
may be possible to transmit shorter fax messages but the method would  
not be proven robust enough to be useful.  
2.1  
The Fax over IP solution  
To enable a fax call a SIP server and PSTN gateway is required. There is  
actually no need for extra features more than a basic call, i.e. no  
supplementary services are required.  
The SIP server needs to support SIP according to RFC 3261 and the Fax  
gateway needs to support SIP and T.38. In addition to this the operator  
might have requirements on charging etc, which is not taken into account in  
this document. There are several products on the market which fulfill the  
basic requirements.  
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2.2  
VoIP network  
The basic building blocks for Voice and Fax over IP are a SIP server and a  
PSTN gateway with T.38 support. Sometimes the PSTN gateway might  
consist of two units; Media Controller and Media Gateway. Normally a  
Session Border Controller (SBC) is used to handle security.  
SIP Server  
MGC-SG  
W25  
PSTN Networks  
SBC  
MGW  
2.2.1  
2.2.2  
SIP Server  
The SIP server is the heart of VoIP system. It keeps track of the location of  
each User Agent (UA). Calls are routed through the server. Each User  
Agent has to authenticate to the server.  
PSTN Gateway  
The PSTN Gateway can be one single unit or divided in a Media Gateway  
Controller (MGC), including the Signaling Gateway (for SS7/ISUP  
connectivity), and the Media Gateway (MGW). Divided or not the  
functionality is the same.  
To be able to send fax between FWT and Fax machines on PSTN, each  
User Agent in a FWT has an associated E.164 number in the PSTN. The  
interworking between PSTN and VoIP is done in the PSTN gateway. Note  
that the Fax E.164 number is separate from the E.164 number associated  
with the SIM card in the FWT. So there is one E.164 number for fax and  
another for voice.  
2.2.2.1  
Media Gateway Controller (MGC)  
The Media Gateway Controller (MGC) provides interworking between the  
SIP session control signaling and ISUP call control signaling to/from  
external PSTN/PLMN networks. Furthermore, it controls the Media  
Gateway resources.  
The MGC normally provides the following capabilities:  
Handles multimedia session establishment, modification, and  
termination using the SIP protocol in the IP Multimedia domain  
and appropriate ISUP protocol in the circuit switched domain.  
Supports addressing and routing of multimedia sessions to and  
from SIP server and interconnected PSTN nodes.  
Controls one or more Media Gateways.  
Performs mapping of application level signaling (SIP/ISUP).  
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2.2.2.2  
Media Gateway (MGW)  
The Media Gateway (MGW) provides interworking between PSTN and IP  
media streams, i.e. conversion between circuit-switched TDM (Time  
Division Multiplexing) bearer circuits and packet-switched media streams  
(RTP).  
2.2.3  
Session Border Controller (SBC)  
The SBC can also be called outbound proxy, which normally is a SIP aware  
proxy/stateful firewall. If an SBC is used in the network, the User Agent has  
to be configured to use the SBC for all SIP sessions. Usually the SBC is  
placed together with the firewall so the only way in to the SIP server is  
through the SBC. An SBC can also overcome problems with NAT in the  
network.  
2.3  
Fax Call Setup  
The picture below shows the SIP signaling during a fax call.  
When sending a fax from a fax-machine connected to the W25, the off-  
hook status as well as the called number (B-subscriber)is detected by the  
W25. This is included in a INVITE-message which is sent to the SIP server.  
The SIP server forwards the INVITE to the appropriate fax gateway, which  
then calls subscriber B on the PSTN. When the B subscriber answers, a  
voice call is setup using the voice codec G.711. At the same time as the B  
Fax answers, it starts sending out CED (called station identification) tones,  
which is detected by the Fax gateway. Now the Fax gateway sends a re-  
invite to use T.38 protocol instead of voice codec G.711. The normal fax  
training, e.g. negotiating fax transfer speed, is done using the T.38 protocol.  
After the training, the pages are transferred and then the faxes go on-hook,  
which then results in a SIP BYE message.  
W25  
IP  
IP  
SIP Server  
Fax GW  
Dialing  
Invite  
Invite  
Ring signal  
Fax answer  
200 OK  
Detects off-hook  
200 OK  
ACK  
Audio (G.711)  
Fax tones  
detected  
Re-Invite (T.38)  
Re-Invite (T.38)  
200 OK  
200 OK  
ACK  
T.38  
Fax call  
completed  
Bye  
Detects  
on-hook  
Bye  
200 OK  
200 OK  
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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 circuit-switched network.  
T.38 is the protocol that describes the process for sending and receiving  
fax in real-time over a packet network. The protocol makes adjustments for  
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 (PSTN-side),  
converts the data to IP-packets, wraps it in T.38 packets, and sends it to  
the destination, over the IP network.  
The MGW/MGC works the other way round as well, receives the T.38 data  
from the IP-network, un-wraps it to T.30-data, and converts and forwards it  
to the PSTN-side.  
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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3
Ericsson W25  
The Ericsson W25 will work as a gateway, using T.38 protocol. The fax  
terminal shall be connected to the dedicated fax port on the Ericsson W25.  
Associated to this fax port is a SIP User Agent, which manages and  
controls the media streams by using the SIP protocol (RFC 3261) towards  
the SIP server and the PSTN Gateway.  
Depending on configuration, Fax calls between two FWT on the same radio  
networks can be sent directly between the FWT’s not using the PSTN.  
3.1  
Signaling  
The Ericsson W25 conforms to the SIP protocol according to RFC3261.  
3.1.1  
Details over the SIP Implementation  
The Ericsson W25 supports:  
SDP according to RFC 2327.  
SDP usage according to RFC 3264.  
Media “hold” by using destination address 0.0.0.0  
Configuration of SIP message timers T1, T2 and B as defined in  
RFC 3261.  
URI for fax calls, RFC 3966.  
PRACK method according to RFC 3262.  
Session timer, RFC 4028.  
3.2  
3.3  
Security  
The Ericsson W25 authenticates towards the VoIP system using the HTTP  
Digest Authentication mechanism.  
Media Stream  
Due to the procedure of setting up a fax call both G.711 and T.38 is  
supported by the Ericsson W25. The W25 requires that the call is first setup  
as a normal voice connection (using G.711) before a switchover from voice  
to T.38 fax is done with SIP Re-INVITE practices.  
3.3.1  
Jitter Buffer  
One important function in the Ericsson W25 is the jitter buffer, which is  
necessary to have due to the latency and jitter in the IP network. The  
access network contributes with most of the latency and jitter, so to reduce  
this a HSPA connection is recommended.  
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3.3.2  
3.3.3  
Echo Canceller  
To improve the fax transfer the Ericsson W25 also has an echo canceller in  
accordance with G.168.  
QoS  
The outgoing VoIP related traffic will be prioritized before other traffic from  
the Ericsson W25 to reduce the uplink delay and jitter.  
3.4  
Interoperability  
The Ericsson W25 is interoperable with e.g. Broadsoft, which is included in  
Ericsson’s IMT (IMS Multimedia Telephony). Other SIP servers and Fax  
gateways should also work as long as they support SIP v2 (RFC 3261) and  
T.38, but interoperability testing needs to be done to verify this.  
For more information on Ericsson’s IMT see ref [1].  
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4
W25 Configuration  
For configuration purpose, the Ericsson W25 includes a CLI (Command  
Line Interface) and a WUI (web user interface) which are accessible as  
illustrated in the figure below.  
IP  
Please also see the document “Ericsson W25 Administrator’s Guide” for  
more details on Ericsson W25 configuration.  
4.1  
Fax service  
To configure the Fax service in the W25 the CLI is used. It can either be  
done remotely via SSH or via telnet locally with operator or root user  
access.  
Normally two parts need to be configured in the W25:  
IMS User Agent (the local client credential)  
IMS Call server (remote SIP server(s))  
In addition to this it also might be needed to fine tune the T.38 codec  
depending on the remote fax gateway. This is done in “IMS media codec”.  
4.1.1  
IMS User Agent  
The IMS (SIP) User Agent is associated to the fax port on the Ericsson  
W25. This integrated User Agent controls the VoIP sessions and manages  
and controls the media streams by using the SIP protocol towards the SIP  
Server and Media Gateway.  
To configure the User Agent you need:  
authentication id, which is used for authentication and is usually the  
same as user id, but sometimes with domain name e.g.  
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user id , which is the public user identification e.g. the phone  
number xxxxx  
password, which is the password for the user id  
4.1.1.1  
CLI commands  
The W25 has already one User Agent configured by default, so this needs  
to be modified. The commands to modify are:  
cf set ims.user_agent[0].auth_id <auth_id>  
cf set ims.user_agent[0].user_id <user_id>  
cf set ims.user_agent[0].user_password <password>  
The command to save the new configuration is:  
cf commit  
To display the entries in the user account list, use the following command:  
cf show ims.user_agent  
ims.user_agent[0].auth_id "user.grp"  
.user_id "54321"  
.user_password "mysecret"  
.ims_callserver_index 1  
The last parameter “ims_callserver_index” is referring to the configuration  
of IMS Call Server, which will be described below. Normally you do not  
need to change this.  
4.1.2  
IMS Call Server  
Here you configure the IMS/SIP server(s) address (IP or FQDN), and  
possibly an outbound proxy.  
The SIP-server address configuration is mandatory while the outbound  
proxy is optional, depending on network configuration.  
The outbound proxy is usually an SBC (Session Border Controller) e.g. IMS  
P-CFCS  
4.1.2.1  
CLI commands  
The W25 has already one IMS Call Server defined with default values, but  
the SIP proxy and outbound proxy addresses (IP or FQDN) need to be  
modified. The commands for this are:  
cf set ims.callserver.proxy[0].address <sip proxy>  
cf set ims.callserver.outbound_proxy <outbound proxy>  
The command to save the new configuration is:  
cf commit  
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Note if the proxy[x].address is set to “localhost”, the W25 will not register to  
any SIP server.  
To display the entries in the call server, use the following command  
cf show ims.callserver  
ims.callserver[0].domain "server.com"  
.proxy[0].address "host.server.com"  
.port 5060  
.outbound_proxy ""  
.local_ip_interface "ppp0"  
The domain parameter is for future use. The proxy[x].port is by default 5060  
(according to the SIP standard). The port number only needs to be  
changed in special case.  
In a normal scenario the SIP server is accessible via the WAN interface,  
but for test and demo purposes it’s possible to use a SIP server which is  
connected on the LAN interface. To change this you need to modify  
“local_ip_interface” from “ppp0” (WAN) to “br0” (LAN).  
4.1.3  
IMS Media Codec  
The IMS Media Codec commands configure the settings for T.38.  
4.1.3.1  
T.38 Settings  
The settings for T.38 are used for Fax. The following parameters can be  
configured:  
Table 1  
Parameter  
T.38 configuration parameters  
Description  
forward_error_  
correction  
Specifies if FEC (Forward Error Detection) should  
be used or otherwise Redundancy packets will be  
used. (True|False)  
max_bit_rate  
local_tcf  
The max bit rate for fax transmission. Valid values  
are 2400, 4800, 7200, 9600, 12000 and 14400.  
Defines whether the tcf (Training Check Flag)  
should be local i.e. only between the fax machine  
and the W25 T.30-client or end to end (to the  
terminating fax machine). If using UDP (default)  
this parameter should be set to false. (True|False)  
fill_bit_  
removal  
Capability to remove and insert fill bits in Phase C,  
non-ECM data to reduce bandwidth in the packet  
network. (True|False)  
transcoding_mmr  
Specifies whether the ability to convert to/from  
MMR from/to the line format for increasing the  
compression of the data and saving bandwidth in  
the packet network. (True|False)  
transcoding_  
Specifies whether the ability to convert to/from  
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Parameter  
Description  
jbig  
JBIG should be used, (reduces bandwidth).  
(True|False)  
Ecm  
Specifies if ECM should be used or not.  
(True|False)  
extended_  
roundtrip  
Enables the support of dealing with extended  
round trip delays (True|False)  
data_wait_time  
This parameter indicates the time for internal  
buffering appropriate V.21, ECM and non-ECM  
page data in the case if the end of line or the end  
of the HDLC frame is not detected. The value  
range is from 0 up to 100. The default value is to  
set to 50 which is of 500 ms buffering. One unit is  
of 10 ms. After the Data Wait Time T.38 starts with  
the modulation also if not all data is received  
low_rate_  
recovery_  
packets  
This parameter is used for the Redundancy and  
the FEC error Correction Mode on a UDP  
transmission for V.21. The parameter indicates the  
number of additional recovery data packets send  
during a low rate Fax transmission (control data).  
The value can be between 0 and 4.  
high_rate_  
recovery_  
packets  
This parameter is used for the Redundancy and  
the FEC error Correction Mode on a UDP  
transmission for V.17, V.29, and V.27. The  
parameter indicates the number of additional  
recovery data packets send during a high rate Fax  
transmission (image data). The value can be  
between 0 and 4.  
To show the current configuration for T.38, use the following command:  
cf show ims.media.codec.t38  
ims.media.codec.t38.forward_error_correction false  
.max_bit_rate 14400  
.local_tcf false  
.fill_bit_removal false  
.transcoding_mmr false  
.transcoding_jbig false  
.ecm true  
.extended_roundtrip false  
.data_wait_time 500  
.low_rate_recovery_packets 4  
.high_rate_recovery_packets 1  
Depending on radio network characteristics, there might be a need for fine  
tuning T.38.  
ECM (Error Correction Mode) may need to be reconfigured since ECM is  
sensitive for packet loss, it might be necessary to disable this.  
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It’s recommended to not enable “extended_roundtrip”, since it has been  
shown that this cause interoperability problems.  
Not all gateways support recovery packets, but then the recovery packets  
will be ignored. Note that at the same time as the recovery_packets is  
increase, the bandwidth requirement increase as well. For more details see  
[3].  
4.1.4  
VoIP timer  
To avoid that the fax port is used as a telephony port using Voice over IP, it  
is possible to restrict for how long a voice call is allowed. If no fax tones are  
detected i.e. switching over to T.38, within a certain time the call is closed  
by the W25. The time is configurable and default value is 60000 ms (60s). If  
configured to “0”, the timer will never expire, i.e. the call will not be closed  
by the FWT. The parameter name is:  
telephony. pots.line_interface[0].voip_session_timeout 60000  
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5
References  
[1] Internal System Description IMT (IMS Multimedia Telephony)  
3.01551-HSC 113 03/4 Uen  
[2] T.30 Procedures for document facsimile transmission in the  
general switched telephone network  
[3] T.38 Procedures for real-time Group 3 facsimile communication  
over IP networks  
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6
Acronyms and Abbreviations  
CDMA  
POTS  
Code Division Multiple Access  
Plain Old Telephone Service  
CLI  
PSTN  
Command Line Interface  
Public Switched Telephony Network  
DNS  
QoS  
Domain Name System  
Quality of Service  
E.164  
RAB  
International Public Telecommunication  
Numbering Plan as described in the ITU-T  
Recommendation E.164.  
Radio Access Bearer  
RAN  
Radio Access Network  
FoIP  
Fax over IP  
RFC  
Request for Comments  
FWT  
RTP  
Fixed Wireless Terminal  
Real-Time Transfer Protocol  
GSM  
SDP  
Global System for Mobile Communication  
Session Description Protocol  
HSDPA  
SFQ  
High Speed Downlink Packet Access  
Stochastic Fair Queuing  
HSPA  
SIP  
High Speed Packet Access  
Session Initiation Protocol  
HTTP  
SOHO  
Small Office Home Office  
Hypertext Transfer Protocol  
IMT  
SSH  
Secure Shell  
IMS Multimedia Telephony  
IP  
TDM  
Internet Protocol  
Time Division Multiplexing  
ISUP  
ISDN User Part  
UA  
User Agent  
LAN  
URI  
Local Area Network  
Uniform Resource Identifier  
MGC  
VoIP  
Voice over IP  
Media Gateway Controller  
MGW  
Media Gateway  
WCDMA  
Wideband CDMA  
PDP  
WLAN  
Wireless LAN  
Packet Data Protocol  
PLMN  
WUI  
Public Land Mobile Network  
Web User Interface  
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7
Appendix A  
This chapter describes the test results for the End-to-End T.38 interoperability tests  
that has been performed on the T.38 implemented in W25. The list includes all  
successful fax machines  
(The list has the following format: Fax machine, Profile and Speed)  
AT/T PPF200 MMR, ECM, 200x100 V.29 9600  
Brother Fax 190 MH, Non-ECM, 200x100 V.29 9600  
Brother Fax 580 MC MH, ECM, 200x100 V.17 14400  
Brother Intellifax 2500 MH, Non-ECM, 200x100 V.29 9600  
Brother Intellifax 600 MH, Non-ECM, 200x100 V.29 9600  
Brother Intellifax 625 MH, Non-ECM, 200x100 V.29 9600  
Brother Intellifax 950M MH, Non-ECM, 200x100 V.29 9600  
Brother MFC 4600 MH, ECM, 200x100 V.17 14400  
Brother MFC 4650 MH, ECM, 200x100 V.17 14400  
Brother MFC 4550 MH, ECM, 200x100 V.17 14400  
Canon B70 MH, Non-ECM, 200x100 V.29 9600  
Canon Fax 750 MH, ECM, 200x100 V.29 9600  
Canon Fax B340 MH, ECM, 200x100 V.29 9600  
Canon Fax TF 301 MH, ECM, 200x100 V.29 9600  
Canon L777 MH, ECM, 200x100 V.17 14400  
Canon Multi Pass C2500 MH, ECM, 200x100 V.17 14400  
Canon Multi Pass C530 MH, ECM, 200x100 V.17 14400  
Canon Multi Pass C545 MH, ECM, 200x100 V.17 14400  
Canon Multi Pass C5500 MH, ECM, 200x100 V.17 14400  
Canon Multi Pass C555 MH, ECM, 200x100 V.17 14400  
Canon Multi Pass C560 MH, ECM, 200x100 V.17 14400  
Canon Multi Pass C755 MH, ECM, 200x100 V.17 14400  
Canon Multi Pass L6000 MH, ECM, 200x100 V.17 14400  
Cardinal MH, ECM, 200x100 V.17 14400  
Brother 6650MC MMR, ECM, 200x100 V.17 14400  
Brother 7150C MMR, ECM, 200x100 V.17 14400  
Brother MFC 4600 MMR, ECM, 200x100 V.17 14400  
Brother MFC 4650 MMR, ECM, 200x100 V.17 14400  
Brother MFC 4550 MMR, ECM, 200x100 V.17 14400  
Canon Fax B340 MMR, ECM, 200x100 V.17 14400  
Canon Fax TF 301 MMR, ECM, 200x100 V.29 96001  
Canon L 777 MMR, ECM, 200x100 V.17 14400  
Canon Multi Pass C2500 MMR, ECM, 200x100 V.17 14400  
Canon Multi Pass C530 MMR, ECM, 200x100 V.17 14400  
Canon Multi Pass C545 MMR, ECM, 200x100 V.17 14400  
Canon Multi Pass C555 MMR, ECM, 200x100 V.17 14400  
Canon Multi pass C560 MMR, ECM, 200x100 V.17 14400  
Canon Multi Pass C755 MMR, ECM, 200x100 V.17 14400  
Canon Multi Pass L6000 MMR, ECM, 200x100 V.17 14400  
Hewlett Packard Fax 920 MMR, ECM, 200x100 V.17 14400  
Hewlett Packard Fax 200 MMR, ECM, 200x100 V.29 9600  
Hewlett Packard Laser Jet 3200 MMR, ECM, 200x100 V.17 14400  
Hewlett Packard Office Jet MMR, ECM, 200x100 V.29 9600  
Hewlett Packard Office Jet 350 MMR, ECM, 200x100 V.29 9600  
Hewlett Packard Office Jet 570 MMR, ECM, 200x100 V.17 14400  
Lumina 2096 MMR, ECM, 200x100 V.29 9600  
Mita LDC 750 MMR, ECM, 200x100 V.17 14400  
Compaq 9600 PCMCIA MH, ECM, 200x100 V.29 9600  
Eiger 14.4 PCMCIA MH, Non-ECM, 200x100 V.17 14400  
Gammalink Fax Modem MH, ECM, 200x100 V.17 14400  
Global Village Teleport Bronze II MH, Non-ECM, 200x100 V.27 4800  
Hayes JetFax MH, Non-ECM, 200x100 V.29 9600  
Hayes Optima 14.4 MH, ECM, 200x100 V.17 14400  
Hewlett Packard Fax 920 MH, ECM, 200x100 V.17 14400  
Hewlett Packard Fax 200 MH, ECM, 200x100 V.29 9600  
Hewlett Packard LaserJet 3200 MH, ECM, 200x100 V.17 14400  
Hewlett Packard OfficeJet MH, ECM, 200x100 V.29 9600  
Hewlett Packard OfficeJet 350 MH, ECM, 200x100 V.29 9600  
Hewlett Packard Office Jet 570 MH, ECM, 200x100 V.17 14400  
Intel SatisFAXtion 400e MH, ECM, 200x100 V.29 9600  
Konica 7310 MH, ECM, 200x100 V.29 9600  
Monroe MX 4020 MMR, ECM, 200x100 V.29 9600  
Muratec F150 MMR, ECM, 200x100 V.17 14400  
Muratec F 56 MMR, ECM, 200x100 V.17 14400  
Muratec F 90 MMR, ECM, 200x100 V.17 14400  
NEC Nefax 480 MMR, ECM, 200x100 V.17 14400  
Okidata Okifax 1000 MMR, ECM, 200x100 V.29 9600  
Okidata Okifax 2200 MMR, ECM, 200x100 V.29 9600  
Okidata OkiOffice 84 MMR, ECM, 200x100 V.17 14400  
Panasonic PX 350 MMR, ECM, 200x100 V.29 9600  
Panasonic PX 5 MMR, ECM, 200x100 V.29 9600  
Panasonic UF 880 MMR, ECM, 200x100 V.17 14400  
Panasonic UF V60 MMR, ECM, 200x100 V.29 9600  
Ricoh 180 MMR, ECM, 200x100 V.29 9600  
Ricoh 3500L MMR, ECM, 200x100 V.17 14400  
Lumina 2096 MH, ECM, 200x100 V.29 9600  
Ricoh Fax 240 MMR, ECM, 200x100 V.29 9600  
Megahertz PCMCIA card MH, Non-ECM, 200x100 V.17 14400  
Minolta 3300 MH, Non-ECM, 200x100 V.29 9600  
Mita LDC 570 MH, ECM, 200x100 V.17 14400  
Mita TC 750 MH, ECM, 200x100 V.17 14400  
Mita TC 170 MH, ECM, 200x100 V.29 9600  
Ricoh Fax 3000L MMR, ECM, 200x100 V.29 9600  
Sharp FO 5400 MMR, ECM, 200x100 V.17 14400  
Sharp UX 1400 MMR, ECM, 200x100 V.17 14400  
Sharp UX 3600M MMR, ECM, 200x100 V.17 14400  
Toshiba TF 421 MMR, ECM, 200x100 V.29 9600  
Toshiba TF 671 MMR, ECM, 200x100 V.17 14400  
US Robotics 33.6 Mdl 1172 MMR, ECM, 200x100 V.29 9600  
Xerox 3004 MMR, ECM, 200x100 V.17 14400  
Monroe MX 4020 MH, ECM, 200x100 V.29 9600  
Motorola CELLect 14.4 (FaxTalk) MH, ECM, 200x100 V.17 14400  
Motorola Power 14.4 (FaxTalk) MH, Non-ECM, 200x100 V.17 14400  
Motorola Power 14.4 (BitFax) MH, ECM, 200x100 V.17 14400  
Motorola Power 14.4 (FaxWorks) MH, Non-ECM, 200x100 V.17 14400  
Motorola UDS 14.4 (FaxTalk) MH, ECM, 200x100 V.17 14400  
Muratec F150 MH, ECM, 200x100 V.17 14400  
Xerox 7033 MMR, ECM, 200x100 V.17 14400  
Xerox Work Center 250 MMR, ECM, 200x100 V.29 9600  
Xerox Work Center 470cx MMR, ECM, 200x100 V.17 14400  
Xerox Work Center 480cx MMR, ECM, 200x100 V.17 14400  
Xerox Work Center XK50cx MMR, ECM, 200x100 V.17 14400  
3 COM EtherLink III LAN 33.6 MH, ECM, 200x100 V.17 14400  
AT/T9015PF MH, Non-ECM, 200x100 V.29 9600  
AT/T Data Port MH, Non-ECM, 200x100 V.17 14400  
AT/T PPF200 MH, ECM, 200x100 V.29 9600  
Muratec F56 MH, ECM, 200x100 V.17 14400  
Muratec F90 MH, ECM, 200x100 V.17 14400  
Muratec Imagmate CX MH, ECM, 200x100 V.29 9600  
Muratec M820 MH, Non-ECM, 200x100 V.29 9600  
NEC Nefax 480 MH, ECM, 200x100 V.17 14400  
NEC SilentWriter 95 MH, ECM, 200x100 V.29 9600  
New media 14.4 PCMCIA (FaxTalk) MH, ECM, 200x100 V.17 14400  
Okidata OkiFax 1000 MH, ECM, 200x100 V.29 9600  
Okidata OkiFax 2200 MH, ECM, 200x100 V.29 9600  
Boca MV34E MH, Non-ECM, 200x100 V.17 14400  
Brother 6650MC MH, ECM, 200x100 V.17 14400  
Brother 7150C MH, ECM, 200x100 V.17 14400  
2/221 02-FGB 101 327 Uen B – November 2007  
17  
 
 
Okidata OkiOffice 84 MH, ECM, 200x100 V.17 14400  
Olivetti OFX-1000 MH, ECM, 200x100 V.29 9600  
Olivetti OFX 3100 MH, ECM, 200x100 V.29 9600  
Panasonic KX F1600 MH, Non-ECM, 200x100 V.29 9600  
Panasonic KX F3000 MH, Non-ECM, 200x100 V.29 9600  
Panasonic KX F500 MH, Non-ECM, 200x100 V.29 9600  
Panasonic KX F580 MH, Non-ECM, 200x100 V.29 9600  
Panasonic KX FP 270 MH, Non-ECM, 200x100 V.17 14400  
Panasonic KX FP C95 MH, Non-ECM, 200x100 V.17 14400  
Panasonic PX 150 MH, ECM, 200x100 V.29 9600  
Panasonic PX 350 MH, ECM, 200x100 V.29 9600  
Panasonic PX 5 MH, ECM, 200x100 V.29 9600  
Panasonic UF 880 MH, ECM, 200x100 V.17 14400  
Panasonic UF V60 MH, ECM, 200x100 V.29 9600  
Pitney Bowes 8050 MH, ECM, 200x100 V.29 9600  
Practical Peripherals V.32bis MH, ECM, 200x100 V.17 14400  
Ricoh 180 MH, ECM, 200x100 V.29 9600  
Ricoh 3500L MH, ECM, 200x100 V.17 14400  
Ricoh Fax 240 MH, ECM, 200x100 V.29 9600  
Ricoh Fax 3000L MH, ECM, 200x100 V.29 9600  
Ricoh RF 05 MH, Non-ECM, 200x100 V.29 9600  
Samsung FX 40 MH, Non-ECM, 200x100 V.29 9600  
Sanyo SFX 11 MH, Non-ECM, 200x100 V.29 9600  
Sanyo SPF 301 MH, ECM, 200x100 V.29 9600  
Scout 14.4 PCMCIA MH, ECM, 200x100 V.17 14400  
Sharp FO 145 MH, Non-ECM, 200x100 V.29 9600  
Sharp FO 235 MH, Non-ECM, 200x100 V.29 9600  
Sharp FO 445 MH, Non-ECM, 200x100 V.29 9600  
Sharp FO 5400 MH, ECM, 200x100 V.17 14400  
Sharp UX 104 MH, Non-ECM, 200x100 V.29 9600  
Sharp UX 108 MH, Non-ECM, 200x100 V.29 9600  
Sharp UX 117 MH, Non-ECM, 200x100 V.29 9600  
Sharp UX 1400 MH, ECM, 200x100 V.17 14400  
Sharp UX 256 MH, Non-ECM, 200x100 V.29 9600  
Sharp UX 3600M MH, ECM, 200x100 V.17 14400  
Sharp UX 460 MH, Non-ECM, 200x100 V.29 9600  
Supra 28.8 MacIntosh MH, Non-ECM, 200x100 V.17 14400  
Supra Fax Modem V.32bis (FaxTalk) MH, ECM, 200x100 V.17  
14400  
Zoom Telephonics 9600 Internal (FaxTalk) MH, ECM, 200x100 V.29  
9600  
Zoom Telephonics V.32 bis (FaxTalk) MH, ECM, 200x100 V.17 14400  
ZyXEL U-1496E (FaxTalk) MH, Non-ECM, 200x100 V.17 14400  
T.30 Synthesized Profile MH, ECM, 200x100 V.17 14400  
AT/T PPF200 MR, ECM, 200x100 V.29 9600  
Brother 6650MC MR, ECM, 200x100 V.17 14400  
Brother 7150C MR, ECM, 200x100 V.17 14400  
Brother MFC 4600 MR, ECM, 200x100 V.17 14400  
Brother MFC 4650 MR, ECM, 200x100 V.17 14400  
Brother MFC 4550 MR, ECM, 200x100 V.17 14400  
Canon B70 MR, Non-ECM, 200x100 V.29 9600  
Canon Fax 750 MR, ECM, 200x100 V.29 9600  
Canon Fax B340 MR, ECM, 200x100 V.29 9600  
Canon Fax TF 301 MR, ECM, 200x100 V.29 9600  
Canon L777 MR, ECM, 200x100 V.17 14400  
Canon Multi Pass C2500 MR, ECM, 200x100 V.17 14400  
Canon Multi Pass C530 MR, ECM, 200x100 V.17 14400  
Canon Multi Pass C545 MR, ECM, 200x100 V.17 14400  
Canon Multi Pass C5500 MR, ECM, 200x100 V.17 14400  
Canon Multi Pass C555 MR, ECM, 200x100 V.17 14400  
Canon Multi Pass C560 MR, ECM, 200x100 V.17 14400  
Canon Multi Pass C755 MR, ECM, 200x100 V.17 14400  
Canon Multi Pass L6000 MR, ECM, 200x100 V.17 14400  
Cardinal MR, ECM, 200x100 V.17 14400  
Compaq 9600 PCMCIA MR, ECM, 200x100 V.29 9600  
Gammalink Fax Modem MR, ECM, 200x100 V.17 14400  
Hayes Optima 14.4 MR, ECM, 200x100 V.17 14400  
Hewlett Packard Fax 920 MR, ECM, 200x100 V.17 14400  
Hewlett Packard Fax 200 MR, ECM, 200x100 V.29 9600  
Hewlett Packard LaserJet 3200 MR, ECM, 200x100 V.17 14400  
Hewlett Packard OfficeJet MR, ECM, 200x100 V.29 9600  
Hewlett Packard OfficeJet 350 MR, ECM, 200x100 V.29 9600  
Hewlett Packard Office Jet 570 MR, ECM, 200x100 V.17 14400  
Intel SatisFAXtion 400e MR, ECM, 200x100 V.29 9600  
Konica 7310 MR, ECM, 200x100 V.29 9600  
Lumina 2096 MR, ECM, 200x100 V.29 9600  
Minolta 3300 MR, Non-ECM, 200x100 V.29 9600  
Mita LDC 570 MR, ECM, 200x100 V.17 14400  
Supra Fax Modem V.32bis (WinFax) MH, Non-ECM, 200x100 V.17  
14400  
Mita TC 750 MR, ECM, 200x100 V.17 14400  
Monroe MX 4020 MR, ECM, 200x100 V.29 9600  
Motorola CELLect 14.4 (FaxTalk) MR, ECM, 200x100 V.17 14400  
Motorola Power 14.4 (FaxTalk) MR, ECM, 200x100 V.17 14400  
Motorola UDS 14.4 (FaxTalk) MR, ECM, 200x100 V.17 14400  
Muratec F150 MR, ECM, 200x100 V.17 14400  
Telecom AM 11 MH, Non-ECM, 200x100 V.29 9600  
Telecom NP 80 MH, Non-ECM, 200x100 V.29 9600  
Toshiba TF 231 MH, Non-ECM, 200x100 V.29 9600  
Toshiba TF 421 MH, ECM, 200x100 V.29 9600  
Toshiba TF 501 MH, ECM, 200x100 V.29 9600  
Toshiba TF 671 MH, ECM, 200x100 V.17 14400  
US Robotics Sportster (Quicklink) MH, Non-ECM, 200x100 V.17  
14400  
US Robotics Sportster 14.4 (FaxTalk) MH, ECM, 200x100 V.17  
14400  
US Robotics Sportster 28.8 (MacIntosh) MH, Non-ECM, 200x100  
V.17 14400  
US Robotics WorldPort PCMCI(FaxTalk) MH, ECM, 200x100 V.17  
14400  
US Robotics 33.6 Mdl 1172 (FaxTalk) MH, ECM, 200x100 V.17  
14400  
US Robotics 33.6 Mdl 1172 (Microsoft) MH, ECM, 200x100 V.29  
9600  
US Robotics 33.6 Mdl 1172 (WinFax) MH, ECM, 200x100 V.17  
14400  
Muratec F56 MR, ECM, 200x100 V.17 14400  
Muratec F90 MR, ECM, 200x100 V.17 14400  
NEC Nefax 480 MR, ECM, 200x100 V.17 14400  
New media 14.4 PCMCIA (FaxTalk) MR, ECM, 200x100 V.17 14400  
Okidata OkiFax 1000 MR, ECM, 200x100 V.29 9600  
Okidata OkiFax 2200 MR, ECM, 200x100 V.29 9600  
Okidata OkiOffice 84 MR, ECM, 200x100 V.17 14400  
Olivetti OFX-1000 MR, ECM, 200x100 V.29 9600  
Olivetti OFX 3100 MR, ECM, 200x100 V.29 9600  
Panasonic KX F1600 MR, Non-ECM, 200x100 V.29 9600  
Panasonic KX F3000 MR, Non-ECM, 200x100 V.29 9600  
Panasonic KX F500 MR, Non-ECM, 200x100 V.29 9600  
Panasonic KX F580 MR, Non-ECM, 200x100 V.29 9600  
Panasonic PX 150 MR, ECM, 200x100 V.29 9600  
Panasonic PX 350 MR, ECM, 200x100 V.29 9600  
Panasonic PX 5 MR, ECM, 200x100 V.29 9600  
Viva 14.4 Fax Modem MH, Non-ECM, 200x100 V.17 14400  
Xerox 3004 MH, ECM, 200x100 V.17 14400  
Xerox 7021 MH, ECM, 200x100 V.29 9600  
Xerox 7024 MH, ECM, 200x100 V.17 14400  
Xerox 7033 MH, ECM, 200x100 V.29 9600  
Xerox Work Center 250 MH, ECM, 200x100 V.29 9600  
Xerox Work Center 470cx MH, ECM, 200x100 V.17 14400  
Xerox Work Center 480cx MH, ECM, 200x100 V.17 14400  
Xerox Work Center XE90cx MH, ECM, 200x100 V.17 14400  
Xerox Work Center XK50cx MH, ECM, 200x100 V.17 14400  
Zoom Telephonics 14.4 Internal (FaxTalk) MH, ECM, 200x100 V.17  
14400  
Panasonic UF 880 MR, ECM, 200x100 V.17 14400  
Panasonic UF V60 MR, ECM, 200x100 V.29 9600  
Pitney Bowes 8050 MR, ECM, 200x100 V.29 9600  
Practical Peripherals V.32bis MR, ECM, 200x100 V.17 14400  
Ricoh 180 MR, ECM, 200x100 V.29 9600  
Ricoh 3500L MR, ECM, 200x100 V.17 14400  
Ricoh Fax 240 MR, ECM, 200x100 V.29 9600  
Ricoh Fax 3000L MR, ECM, 200x100 V.29 9600  
Sanyo SFX 11 MR, ECM, 200x100 V.29 9600  
Sanyo SPF 301 MR, ECM, 200x100 V.29 9600  
Scout 14.4 PCMCIA MR, ECM, 200x100 V.17 14400  
Sharp FO 5400 MR, ECM, 200x100 V.17 14400  
Sharp UX 108 MR, Non-ECM, 200x100 V.29 9600  
18  
2/221 02-FGB 101 327 Uen B – November 2007  
 
Sharp UX 1400 MR, ECM, 200x100 V.17 14400  
Sharp UX 3600M MR, ECM, 200x100 V.17 14400  
Sharp UX 460 MR, Non-ECM, 200x100 V.29 9600  
Supra 28.8 MacIntosh MR, ECM, 200x100 V.17 14400  
Telecom AM 11 MR, Non-ECM, 200x100 V.29 9600  
Telecom NP 80 MR, Non-ECM, 200x100 V.29 9600  
Toshiba TF 231 MR, Non-ECM, 200x100 V.29 9600  
Toshiba TF 421 MR, ECM, 200x100 V.29 9600  
Toshiba TF 671 MR, ECM, 200x100 V.17 14400  
US Robotics Sportster 14.4 (FaxTalk) MR, ECM, 200x100 V.17  
14400  
US Robotics WorldPort PCMCI (FaxTalk) MR, ECM, 200x100 V.17  
14400  
US Robotics 33.6 Mdl 1172 (FaxTalk) MR, ECM, 200x100 V.17  
14400  
US Robotics 33.6 Mdl 1172 (WinFax) MR, ECM, 200x100 V.17  
14400  
Xerox 3004 MR, ECM, 200x100 V.17 14400  
Xerox 7021 MR, ECM, 200x100 V.29 9600  
Xerox 7024 MR, ECM, 200x100 V.17 14400  
Xerox 7033 MR, ECM, 200x100 V.29 9600  
Xerox Work Center 250 MR, ECM, 200x100 V.29 9600  
Xerox Work Center 470cx MR, ECM, 200x100 V.17 14400  
Xerox Work Center 480cx MR, ECM, 200x100 V.17 14400  
Xerox Work Center XK50cx MR, ECM, 200x100 V.17 14400  
Zoom Telephonics 14.4 Internal (FaxTalk) MR, ECM, 200x100 V.17  
14400  
Zoom Telephonics 9600 Internal (FaxTalk) MR, ECM, 200x100 V.29  
9600  
Zoom Telephonics V.32 bis (FaxTalk) MR, ECM, 200x100 V.17  
14400  
2/221 02-FGB 101 327 Uen B – November 2007  
19  
 
© Ericsson AB 2008 – All Rights Reserved  
This document contains proprietary information, which is protected by  
copyright. No part of this document may be reproduced or transmitted in any  
form or by any means, electronic or mechanical, including photocopying,  
recording, or by any information storage and retrieval system, or translated  
into another language, without prior written consent of Ericsson AB,  
Stockholm, Sweden.  
NOTICE  
The information in this document is subject to change without notice.  
ERICSSON MAKES NO WARRANTY OF ANY KIND WITH REGARD TO  
THIS MATERIAL, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED  
WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A  
PARTICULAR PURPOSE. Ericsson shall not be liable for errors contained  
herein nor for incidental or consequential damages in connection with the  
furnishing, performance or use of this material.  
Ericsson AB  
SE-131 89 Stockholm  
Telephone +46 8 568 67 000, Telefax +46 8 719 65 60  
20  
2/221 02-FGB 101 327 Uen B – November 2007  
 

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