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Newsgroups: comp.dcom.isdn,comp.answers,news.answers
Path: senator-bedfellow.mit.edu!bloom-beacon.mit.edu!spool.mu.edu!howland.reston.ans.net!noc.near.net!mv!fastball.unimaster.com!cherkus
From: cherkus@UniMaster.COM (Dave Cherkus)
Subject: comp.dcom.isdn Frequently Asked Questions
Nntp-Posting-Host: fastball.unimaster.com
Keywords: ISDN FAQ telecom
Followup-To: comp.dcom.isdn
Approved: news-answers-request@MIT.Edu
Sender: usenet@mv.mv.com (Karl Swartz)
Organization: UniMaster, Inc.
Date: Thu, 28 Oct 1993 21:36:33 GMT
Supersedes: <isdn-faq_701650201@UniMaster.COM>
Message-ID: <CFMMoy.9Jy@mv.mv.com>
Summary: This posting contains a list of Frequently Asked
Questions (and their answers) about ISDN.
Expires: Thu, 11 Nov 1993 00:00:00 GMT
Reply-To: cherkus@UniMaster.COM (Dave Cherkus)
Distribution: world
Lines: 1187
Xref: senator-bedfellow.mit.edu comp.dcom.isdn:3033 comp.answers:2439 news.answers:14014
Archive-name: isdn-faq
Last-modified: 1993/10/28
Version: 2.02
[Ed. Note: Seems like version 2.01 did not get widely seen due to
a mistake in the Expires: header line. Once I install the automatic
faq posting software this should be taken care of automatically.
The faq is approved for posting to news.answers now so 2.02 should be
widely available. There were small textual differences between 2.01
and 2.02, as well.]
-----
Frequently Asked Questions and Answers
comp.dcom.isdn
These questions and answers have (almost entirely) been extracted from
comp.dcom.isdn. Please post any comments or new material that you
have, or email them to the current FAQ editor, cherkus@unimaster.com.
In particular, the vendor equipment chart is incomplete. If you want
to share vendor equipment info, just cut and paste the headers from the
chart below and create a new entry for the new information, and send or
post it.
This FAQ consists almost entirely of information posted to this group.
There are a fair number of holes and some potentially outdated
information in it. There is no claim of completeness or guarantee of
accuracy of any kind, and no warranties for merchantability or fitness
for a particular purpose. If you have some useful information that you
would like to share, email it to me or post it to the group. My goal
is to have the FAQ mirror the information provided to the newsgroup
itself. The next-to-last section of this FAQ gives references that
provide much more information than this FAQ does.
I would like to thank Sean Welch for creating the previous edition
of the FAQ. His work is still responsible for the majority of the
information gathered here. I hope to continue the fine example that
Sean has set. I also wish to publicly apologize for not including
his name on the list of contributors for the draft edition of this
FAQ. This embarassing mistake was due to the way I edited the
file and it will not be repeated again.
Questions with answers:
1) What is ISDN?
2) What does an ISDN network connection look like?
3) What is ATM?
4) Can the existing local loop lines be reused for ISDN?
5) What will Basic Rate (2B+D) ISDN look like in my house/office?
6) How does this compare to regular phone line services?
7) Is caller ID available on ISDN?
8) What do I get above and beyond plain old telephone service?
9) What do ISDN phones cost?
10) Can you use existing telephone equipment with the voice portion?
11) What is BONDING?
12) Data Encapsulation for IP over ISDN
13) Full Motion Video over ISDN
14) How do I find out about getting ISDN in my area?
15) Where can I find what all of these acronyms mean?
16) What are the relevant standards?
17) Who is shipping what?
18) How about that SPARCstation 10?
19) Will an ISDN terminal equipment that works in one country
work properly when it is installed in another country?
20) Will ISDN terminal equipment that works with one vendor's ISDN
switch work properly when it is used with another vendor's switch?
21) Do different manufacturers Terminal Adaptors interoperate when used
asynchronously?
22) Why do I get only about 19.2k throughput from my TA?
23) How long should call setup take when using a TA?
24) Where can I read more?
25) Who do I have to thank for this list?
Questions for which I have not yet put together an answer, but for which I
am accepting suggestions:
a) What is ISDN-1?
b) What is the status of ISDN-1?
c) What is B-ISDN and what does it have to do with ISDN?
Suggestions for additional questions and answers are appreciated.
---
1) What is ISDN?
ISDN stands for "Integrated Services Digital Networks", and it's a
CCITT term for a relatively new telecommunications service package.
ISDN is basically the telephone network turned all-digital end to end,
using existing switches and wiring (for the most part) upgraded so that
the basic "call" is a 64 kbps end-to-end channel, with bit-diddling as
needed (but not when not needed!). Packet and maybe frame modes are
thrown in for good measure, too, in some places. It's offered by local
telephone companies, but most readily in Australia, France, Japan, and
Singapore, with the UK and Germany somewhat behind, and USA
availability rather spotty.
eleskg@nuscc.nus.sg (Winston Seah)
goldstein@carafe.enet.dec.com (Fred R. Goldstein)
paul@suite.sw.oz.au (Paul Antoine)
---
2) What does an ISDN network connection look like?
A Basic Rate Interface (BRI) is two 64K bearer ("B") channels and a single
delta ("D") channel. The B channels are used for voice or data, and the D
channel is used for signaling and/or X.25 packet networking. This is the
variety most likely to be found in residential service.
Equipment known as a Terminal Adapter (TA) can be used to adapt these
channels to existing terminal equipment standards such as RS-232 and
V.35. This equipment is typically packaged in a similar fashion to
modems, either as standalone units or as interface cards that plug into
a computer or various kinds of commmunications equipment (such as
routers or PBXs). TA's do not interoperate with the modem; it replaces
the modem. Another common type of equipment can be used to implement a
bridge between local area networks using the ISDN channel to transport
the data.
Another flavor of ISDN is Primary Rate Interface (PRI). Inside North
America and Japan, this consists of 24 channels, usually divided into
23 B channels and 1 D channel, and runs over the same physical
interface as T1. Outside of these areas the PRI has 31 user channels,
usually divided into 30 B channels and 1 D channel. It is typically
used for connections such as one between a PBX and a CO or IXC.
kevinc@aspect.UUCP (Kevin Collins)
keyman@doorway.Eng.Sun.COM (Dave Evans)
turtle@newshub.sdsu.edu (Andrew Scherpbier)
cherkus@UniMaster.COM (Dave Cherkus)
oj@world.std.com (Oliver Jones)
----
3) What is ATM?
ATM (Asynchronous Transfer Mode) is a switching/transmission technique
where data is transmitted in small, fixed sized cells (5 byte header,
48 byte payload). The cells lend themselves both to the time-division-
multiplexing characteristics of the transmission media, and the packet
switching characteristics desired of data networks. At each switching
node, the ATM header identifies a "virtual path" or "virtual circuit"
that the cell contains data for, enabling the switch to forward the
cell to the correct next-hop trunk. The "virtual path" is set up
through the involved switches when two endpoints wish to communicate.
This type of switching can be implemented in hardware, almost essential
when trunk speed range from 45Mb/s to 1Gb/s.
One use of ATM is to serve as the core technology for a new set of ISDN
offerings known as Broadband ISDN (B-ISDN).
For more information, read comp.dcom.cell-relay.
This group has a Frequently Asked Questions list; it is posted
to news.answers and is in various archives as cell-relay-faq.
art@acc.com (Art Berggreen)
cherkus@UniMaster.COM (Dave Cherkus)
--
4) Can the existing local loop lines be reused for ISDN?
The ISDN pairs are the same wires as used for regular telephone
service. If you became an ISDN user at home, the same wire pair that
now provides your telephone service would be used to provide ISDN
(assuming you no longer have the regular line).
Most of the lines do not require any special conditioning. Yes, if
a line has load coils on it they must be removed, BUT load coils
are usually only found on existing lines that are 15,000 feet or
longer. As to lines with bridge taps, the 2B1Q line transmission
scheme (not to be confused with 2B + D channelization) is tolerant
of a certain amount of bridge taps and, therefore it is only a minimal
subset of existing lines (lines with bridge taps whose total length is
greater than 3000 feet for the bridge taps) that would require
special "de-conditioning."
With those things as the criteria, (in North America) we find than
generally around 90% or so of existing telephone lines need no
"de-conditioning" in order to be used for ISDN BRI service.
whs70@cc.bellcore.com (sohl,william h)
---
5) What will Basic Rate (2B+D) ISDN look like in my house/office?
An ISDN BRA U-Loop is 2 conductors from the CO to the customer premises.
At the customer premises the U-loop is terminated by an NT1 (network
termination 1). The NT1 drives a T-bus which is 4 wires. You can only have
one device on the T-bus. If you run the T-bus into a NT2 which has an S-bus
(the passive bus) on the other side, you can connect up to 8 physical devices.
Electrically, the S and T reference points are the same (which is why they are
almost always referred to as the S/T bus).
Some NT1 may include between 24v and 53.5v power on the T-bus (making it 6
wires), however this would be model/vendor dependent. There are also 8 wire
T-bus connection (power + 2 extra?).
Australia and Europe are similar except the NT1 is owned by the PTT. Either
a ECH (Echo Canceling Hybird), like is used in the US, or a form of time
division multiplexing using AMI is used to achieve bidirectional transmission
an a single pair.
+-+ S Bus +-------+ T Bus +-------+ U Loop |
|?|=-=-=-=-=-=| NT2 |===========| NT1 |--------------[| wall
+-+ 4-8 wires +-------+ 4-8 wires +-------+ 2-4 wires |
Some ISDN hardware plugs into the U loop, some with the T Bus, and
some with the S-Bus. In the US (at least) there is a power supply
between the wall and the NT1.
cliff@Berkeley.EDU (Cliff Frost)
curt@kcwc.com (Curt Welch)
dror@digibd.com (Dror Kessler)
glarson@bnr.ca (Greg Larson)
paul@suite.sw.oz.au (Paul Antoine)
pturner@eng.auburn.edu ( Patton M. Turner)
ronnie@cisco.com (Ronnie B. Kon)
---
6) How does this compare to regular phone lines?
The ISDN line may act like two independent phone lines with two numbers.
Depending on the CO equipment, conferencing features etc. may be available
(conferencing in the telephone switch). BRA ISDN phones can support key-set
features such as you would expect to get on an office PBX like:
- multiple DNs / lines.
- conferencing features.
- forwarding features.
- speed call.
- call park.
- call pickup.
- ring again.
curt@kcwc.com (Curt Welch)
glarson@bnr.ca (Greg Larson)
---
7) Is caller ID available on ISDN?
Caller ID (name or number display) may be supported (depending on the
CO setup). The availability of caller ID for residential phones would
depend on the capabilities of the local phone network and legislation
allowing or disallowing caller ID.
curt@kcwc.com (Curt Welch)
glarson@bnr.ca (Greg Larson)
---
8) What do I get above and beyond plain old telephone service?
Plain old telephone service is transmitted between the central office
to your home or office telephone set (or modem, or fax) in analog
form. At the central office, the analog signal is converted to a
series of digital samples at a rate of 8000 samples per second. Each
sample is seven or eight bits in length. As the signals for a
telephone call move around the central office, or between central
offices, they are transmitted in digital form. Thus, a telephone call
consumes a transmission bandwidth of either 56 or 64 kilobits per
second. The theoretical (Nyquist) limit for the frequency response of
a signal sampled 8000 times per second is 4kHz. However, due to
various losses in the telephone system, the frequency response of an
ordinary telephone call is usually quoted as 3.1kHz. Ordinary
modem-based data transmission uses schemes for encoding data in an
analog signal so it fits in this 3.1kHz bandwidth. 14.4kbps is a
commonly available transmission rate at the high end of the scale.
With this transmission rate, over three-quarters of the bitrate handled
by the central office is wasted.
Notice that in telephony, 64kpbs means 64000 bits per second, whereas
in computer engineering 64k bytes typically means 65536 bytes.
ISDN brings the digital signal all the way to your home or desktop. With
ISDN, you can place a data call which uses all 56kbps or 64kbps, because
there is no need to convert the signal to analog in your modem and back
to digital at the central office. The availability of the full bandwidth
presents some interesting technological opportunities:
-- transmission of high-fidelity compressed audio
-- transmission of encrypted audio
-- transmission of lots of data
-- transmission of other compressed signals, such as video
Basic-rate ISDN (BRI) offers two channels of this service. In BRI, the
connection between your site and the central office offers 64kbps
bidirectionally on each channel. Each of these channels may be used
for a voice call, for circuit-switched data, or for X.25 packet
switched data. Thus, the existing POTS circuit can be conditioned to
carry two calls at the same time. (Your mileage may vary; you have to
specifically order and pay for the various services from your telephone
company, just as you have to order and pay for Call Waiting for an
ordinary phone line. Also, not all services are available everywhere;
X.25 connectivity between COs is a notable problem in the Greater
Boston area as of 9/93, for example.)
Incidentally, ISDN brings another interesting service to your home or
desktop: a highly reliable 8000Hz clock signal. In most cases, the
central office switches, long-distance carriers, and ISDN terminal
equipment all operate with exactly the same clock frequency. In a
real-time communications environment (like a voice phone call) this
means that there's no need to compensate for differences between the
sampling rates at each end of the call.
One of the other features it that instead of the CO sending an AC ring
signal to activate your bell, it sends a digital package that tells WHO
is calling (if available), WHAT TYPE of call (speech, datacomm?), the
NUMBER DIALED (maybe one of your aliases) and some other stuff. Your
equipment can then analyze this stuff and make an "intelligent" decision
what to do with it. For example, a phone (with speech-only capacity)
would completely ignore a datacomm call while a Terminal Adapter (ISDN
"modem") or a phone with built-in datacom functions would respond to it.
If you have several "aliases" tied to your line, you can program certain
phones to answer calls for certain numbers only. Datacomm calls contain
baud rate and protocol information within the setup signal so that the
connection is virtually instantaneous (no messing around with trying
different carriers until both ends match).
curt@kcwc.com (Curt Welch)
etxorst@eos.ericsson.se (Torsten Lif)
oj@world.std.com (Oliver Jones)
Helge.Oldach@Stollmann.DE (Helge Oldach)
---
9) What do ISDN phones cost?
[Ed. note: this is probably out of date. Does anyone have recent info? ]
The ISDN sets can cost between $180 for an AT&T 8503T ISDN phone from
Pacific Bell up to $1900 depending on what/how many features are needed.
keyman@doorway.Eng.Sun.COM (Dave Evans)
huntting@futureworld.advtech.uswest.com (Brad Huntting)
spike@coke.std.com (Joe Ilacqua)
---
10) Can you use existing telephone equipment with the voice portion?
Terminal Adapters (TA'a) are available that will interface non ISDN terminal
equipment (TE), called TE2 to the S/T interface. At least one RBOC provides
a modem pool to allow for interchange of data with POTS subscribers. Bellcore
may approve a standard to allow a analog pair to interface to POTS sets from
a NT1. Also w/o a NT2 only one set can be connected to a B channel at a time. This prevents 2 sets from participating in the same voice call.
pturner@eng.auburn.edu ( Patton M. Turner)
spike@coke.std.com (Joe Ilacqua)
--------
11) What is BONDING?
An inverse multiplexing method of the Bandwidth ON Demand
INteroperability Group, implemented by most (all?) inverse multiplexor
vendors to interoperate with inverse multiplexors of other vendors.
BONDING is a set of protocols developed by U.S. inverse multiplexor
that supports communication over a set of separate channels as if their
bandwidth were combined into a single coherent channel. For example it
supports a single 384 kb/s data stream over 6 64 kb/s channels.
The specification defines a way of calculating relative delay between
multiple network channels and ordering data such that what goes in one
end comes out the other.
Most (all?) vendors also have their own proprietary methods that
usually add features functions not present in BONDING mode 1. Mode 1
is the mode used for recent interoperability testing between vendors.
Chip Sharp at Teleos has made available electronic copies of the
BONDING (Bandwidth on Demand Interoperability Group) 1.0 and 1.1
specifications. The specs are available via WWW, gopher, anonymous
FTP, DECnet COPY, and AFS (see instructions below).
The following files are available:
- aaareadme-networks help file (in ascii text)
- bdmain.doc main body of BONDING 1.0 specification
(Word for Windows 2.0 format)
- bdmain.ps main body of BONDING 1.0 specification (Postscript)
- bdannex.doc annex of BONDING 1.0 specification (Word
for Windows 2.0 format)
- bdannex.ps annex of BONDING 1.0 specification (Postscript)
- bd_v1_1.doc changes for BONDING 1.1 specification (Word
for Windows 2.0 format)
- bd_v1_1.ps changes for BONDING 1.1 specification (Postscript)
Transfer Instructions:
WWW:
server: www.hep.net
URL: gopher://www.hep.net:70/11/info_center/networks/bonding
Gopher:
server: gopher.hep.net
Bookmark:
Name=Bandwidth on Demand Interoperability Group (BONDING) Documents
Type=1
Port=70
Path=1/info_center/networks/bonding
Host=gopher.hep.net
Anonymous FTP:
server: ftp.hep.net
directory: networks/bonding
DECnet COPY (only for those on HEP-NSI DECnet):
HEPNET::[ANON_FTP.NETWORKS.BONDING]
AFS:
/afs/hepafs1.hep.net/public/anon_ftp/networks/bonding
marc@dumbcat.sf.ca.us (Marco S Hyman)
"Bob Larribeau" <p00136@psilink.com>
"David E. Martin" <dem@hep.net>
---
12) Data Encapsulation for IP over ISDN
A decision was made at the Amsterdam IETF to state that all systems
wishing to guarantee IP interoperability should implement PPP. Such
systems may also implement the Frame Relay or X.25 encapsulations, and
an RFC will be published delineating how, when it is known that the
encapsulations are limited to that set of three, they may be
distinguished by examination of the first correctly checksumed and HDLC
bit-stuffed packet.
There is an Internet Draft from the Point-to-Point Protocol Working
Group of the Internet Engineering Task Force that describes the use of
PPP over ISDN. This draft is named draft-ietf-pppext-isdn-NN.txt
in the internet-drafts Shadow Directories on nic.ddn.mil,
nnsc.nsf.net, nic.nordu.net, ftp.nisc.sri.com, munnari.oz.au,
Germany.EU.net and on many, many other mirror archives.
sklower@toe.CS.Berkeley.EDU (Keith Sklower)
cherkus@UniMaster.COM (Dave Cherkus)
--------
13) Full Motion Video over ISDN
In ISDN, video isn't a "service being offered" - at least not for
low/midrange quality. You buy the proper equipment for both
subscribers, plug it in, and place the call. Just like speaking French
on ISDN isn't something being offered - it is something you just do,
yourself. The only requirement is that the ISDN provider must offer 64
kbps unrestricted channels - for the time being, some US providers
won't give you more than 56 kbps usable capacity. Consider that a
temporary limitation (and it often applies to long distance calls
only).
Video telephony over narrowband ISDN is governed by a suite of
TSS (formerly CCITT) interoperability standards. The overall video
telephony suite is known informally as p * 64, and formally as standard
H.320. H.320 is an "umbrella" standard; it specifies H.261 for
video compression, H.221, H.230, and H.242 for communications, control,
and indication, G.711, G.722, and G.728 for audio signals, and
several others for specialized purposes. A common misconception,
exploited by some equipment manufacturers, is that compliance with
H.261 (the video compression standard) is enough to guarantee
interoperability.
Bandwidth can be divided up among video, voice, and data in a
bewildering variety of ways. Typically, 56kbps might be allocated to
voice, with 1.6kbps to signalling (control and indication signals) and
the balance allocated to video.
There is no standard identification format for any other videophone
standard. Of course the data stream may be identified as an
(arbitrary) V.110 coded 56 kbps, the recipient may accept the call,
read the first blocks of data and determine whether it has the
capabilities required to handle it. But this remains a non-ISDN
videophone, only using ISDN as a carrier for some other videophone
standard (or non-standard).
An H.320-compatible terminal can support audio+video in one B channel
using G.728 audio at 16 kb/s. For a 64 kb/s channel, this leaves 46.4
kb/s for video (after subtracting 1.6 kb/s for H.221 framing).
The resolution of a H.261 video image is either 352x288 (known as CIF)
or 176x144 (known as quarter-CIF or QCIF). The frame rate can be
anything from 30 frames/second and down. Configurations typically use
a 2B (BRI) or a 6B (switched-384 or 3xBRI with an inverse multiplexer)
service, depending on the desired cost and video quality. In a 384kbps
call, a video conferencing system can achieve 30 frames/second at CIF,
and looks comparable to a VHS videotape picture. In a 2B BRI call, a
standard video phone can, under laboratory conditions, achieve 15
frames/second at CIF. In practice, 2B video phones achieve a very
usable 7-10 frames per second.
Those who have seen the 1B video call in operation generally agree that
the quality is not sufficient for anything useful like computer based
training - only for the social aspect of being able to *see* Grandma as
well as hear her (sort of like the snapshot pictures you make with that
$5 camera with no controls).
A 2B picture, on the other hand, is for all practical purposes
sufficient for remote education, presentations etc. Rapidly changing
scenes are still not very well handled, but as soon as the picture
calms down, the sharpness and color quality are impressing (considering
that only two plain phone channels are being used). With 2B+D being the
standard BRI, this kind of picturephone will be usable "everywhere"
(including private homes).
However, it should still be noted that 6xB or H0 does allow for dramatic
improvement in picture quality compared to 2xB. In particular, H.320
video/audio applications will often allocate 56kbps for audio, leaving
only 68.8kbps for video when using 2xB. On the other hand, using H0
would get you 326.4kbps for video with 56kbps for audio. Alternative
audio algorithms can improve picture quality over 2xB by not stealing
as many bits. Note that 6B is not identical to H0; the latter is a
single channel which will give you 80kbps above that of six separate B
channels. Inverse multiplexors can be used to combine B channels.
ketil@edb.tih.no (Ketil Albertsen,TIH)
kevin@newshost.pictel.com (Kevin Davis)
oj@world.std.com (Oliver Jones)
mikes2@cc.bellcore.com (Mike Souryal)
---
14) How do I find out about getting ISDN in my area?
[Ed. Note: I would appreciate anyone adding info for this section.
I would hope that the info would be for an ISDN specific operation,
not a generic telephone company office]
Australia:
Telecom: 008 077 222 (voice), (07) 220 0080 (fax)
Germany:
Deutsche Bundespost Telekom
IfN - Ingenierubuero fuer Nachrichtentechnik
Haidelmoosweg 52
D - 78467 Konstanz
Tel: +49 7531 97000-0
FAX: +49 7531 74998
North America:
North American ISDN Users Forum (NIUF) is an org. of ISDN-interested
parties, coordinated by NIST (National Institute of Stds. and Tech.)
Contact:
NIUF Secretariat
National Institute of Standards and Technology
Building 223, Room B364
Gaithersberg, MD 20899
(301) 975-2937 voice
(301) 926-9675 fax
(301) 869-7281 BBS 8N1 2400 bps
United Kingdom:
British Telecom ISDN Helpdesk
0800 181514 from within the UK,
+44 272 217764 from outside.
Mercury Data Communication
0500 424194 from within the UK,
+44 81 914 2335 from outside.
United States:
I work in the industry and suggest that you call the local telephone
service center office and ask for the name and number of the Marketing
Product Manager for ISDN services. If the service rep cannot make
heads or tails of your question, ask to speak to the local service
center manager for complex business services. This person should be
able to direct you to the right place. For the Bell companies, this
position is normally part of the telephone company's core marketing
staff at their headquarters location.
Bellcore national ISDN information clearing house hotline:
800 992-4736
You can call Pacific Bell at [800] 995-0346. This is an extensive
menu-driven system (yuck) that allows Pac Bell customers to enter their
area code and prefix to find out what services are available. It
doesn't tell you which switch, though.
GTE has a similar service at [800] 4GTE-SW5.
bharrell@garfield.catt.ncsu.edu (Ben Harrell)
elitman@wam.umd.edu (Eric A. Litman)
marc@Synergytics.COM (Marc Evans)
varney@ihlpf.att.com (Al Varney)
bernot@inf-wiss.uni-konstanz.de (Gerhard Bernot)
jhonan@kralizec.zeta.org.au (Jamie Honan)
dav@genisco.gtc.com (David L. Markowitz)
Peter Ilieve <peter@memex.co.uk>
---
15) Where can I find what all of these acronyms mean?
An archive of telecommunication related files are maintained on
lcs.mit.edu in the telecom-archives sub directory. There is a
glossary of general telecom acronyms, as well as an ISDN specific
list.
jms@romana.Tymnet.COM (Joe Smith) asks:
PMW1@psuvm.psu.edu (Peter M. Weiss)
----
16) What are the relevant standards?
There are numerous CCITT standards on ISDN. References in the book bibliography
(especially Stallings) contain more details.
Q.921
(aka I.441) "ISDN User-Network Interface Data Link Layer Specifications", 1988
The D channel protocol. Found in Blue book Fascicle VI.10
Q.931
(aka I.451) "ISDN User-Network Interface Layer 3 Specification for Call control"
1988. The messages that are sent over the D channel to set up
calls, disconnect calls etc. Found in Blue book Fascicle VI.11
G.711: Pulse Code Modulation (PCM) of Voice Frequencies
G.722: 7-kHz Audio Coding Within 64 kbit/s
G.728: Coding of Speech at 16 kbit/s Using Low-Delay Code Excited
Linear Prediction (LD-CELP)
H.320: Narrow-band Visual Telephone Systems and Terminal Equipment
H.221: Frame Structure for a 64 to 1920 kbit/s Channel in Audiovisual
Teleservices
H.230: Frame Synchronous Control and Indication Signals for Audiovisual Systems
H.242: System for Establishing Communications Between Audiovisual Terminals
Using Digital Channels up to 2 Mbit/s
H.261: Video Codec for Audiovisual Services at p x 64 kbits/s
H.243: Basic MCU Procedures for Establishing Communications Between Three or
More Audiovisual Terminals Using Digital Channels Up to 2 Mbit/s
I.2xy "ISDN Frame Mode Bearer Services", 1990
I.310 ISDN - Network Functional Principles
I.320 ISDN protocol reference model
I.324 ISDN Network Architecture
I.325 Reference configs for ISDN connection types
I.326
I.330 ISDN numbering and addressing principles
I.331 Numbering plan for ISDN (and several more in I.33x relating
to numbering and addressing and routing)
I.340 ISDN connection types
I.350/351/352 refer to performance objectives
I.410-412 refer to user-network interfaces
as do I.420 and 421
I.430/430 Layer 1 specs
I.440/441 Layer 2 specs (Q.921)
I.450-452 Layer 3 specs (Q.931)
I.460-465 Multiplexing and rate adaption
I.470 Relationship of terminal functions to ISDN
V.110
(aka I.463) "Support of DTE's with V Series Type Interfaces by an ISDN"
Terminal rate adaption by bit stuffing. C.f. V120.
V.120
(aka I465) "Support by an ISDN of Data Terminal Equipment with V series
Type Interfaces with Provision for Statistical Multiplexing" 1990
(This has been amended since the blue book). An alternative to
V.110
V.25bis calling mechanism under synchronous.
dave@philips.oz.au
oj@vivo.com
---
17) Who is shipping what?
Equipment by Vendor:
+------------------+----------------------------------+
| | Equipment Type |
| Vendor +----+----+----+----+----+----+----+
| | IF | TA | BR | RO | TE | IC | TS |
+------------------+----+----+----+----+----+----+----+
| AMD | | | | | | x | |
| AT&T | x | x | | | x | x | x |
| Ascend | | | | x | | | |
| AT&T Microelect. | | | | | | x | |
| Combinet | | | x | | | | |
| CPV-Stollmann | x | x | x | x | | | |
| diehl isdn | x | | | | | | |
| DigiBoard | | | x | | | | |
| Digital Eq. | x | | | x | | | |
| Gandalf | x | x | | | | | |
| Hayes | x | x | | | | | |
| IBM | x | | | | | | |
| ISDN Systems | x | | | | | | |
| Motorola UDS | | x | | | | | |
| Network Express | | | x | x | | | |
| Paxdata | | | x | | | | |
| Spider Systems | | | | x | | | |
| Sun Microsystems | | | | | x | | |
| Telrad Telecomm. | | | | | | | x |
+------------------+----+----+----+----+----+----+----+
Key:
IF: Interface Card
TA: Terminal Adapter (Standalone)
BR: Bridge
RO: Router
TE: Telephones
IC: Integrated Circuit
TS: Test Equipment
Vendor Info:
Advanced Micro Devices
901 Thomson place
Mailstop 126
Sunnyvale, CA 94086
(408) 732 2400 (voice)
American Telephone and Telegraph
1-800-222-PART: Quick access to small quanity orders of ISDN products.
Personal Desktop Video or TeleMedia Connection System:
Visual Communications Products
8100 East Maplewood Avenue 1st Floor
Englewood, CO 80111
(800)843-3646 (800)VIDEO-GO Prompt 3
Ascend Communications, Inc.
1275 Harbor Bay Pkwy
Alameda, CA 94501
(510) 769-6001
info@ascend.com
AT&T Microelectronics
Allentown, PA
(800) 372-2447
Distributer: CoSystems at 408.748.2190
mktg: Steve Martinez at 408.748.2194 (steve@cosystems.com)
tech: Gary Martin at 408.748.2195 (gary@cosystems.com)
Combinet
333 West El Camino Real, Suite 310
Sunnyvale, California 94087
(408) 522 9020 (voice)
(408) 732 5497 (fax)
CPV-Stollmann Vertriebs GmbH
Gasstrasse 18 P.O. Box 50 14 03
D-22761 Hamburg D-22714 Hamburg
Germany Germany
Phone: +49-40-890 88-0
Fax: +49-40-890 88-444
Electronic Mail:
Info@Stollmann.DE (general inquiries)
Helge.Oldach@Stollmann.DE (IPX router technical contact)
Michael.Gruen@Stollmann.DE (IP router technical contact)
diehl isdn GmbH
Bahnhofstrasse 63
D-7250 Leonberg
Germany
Tel. 49/7152/93 29 0
Fax. 49/7152/93 29 99
email: bode@diehl.de
DigiBoard
6400 Flying Cloud Drive
Eden Prarie, MN 55344
(612) 943 9020 (voice)
(612) 643 5398 (fax)
Digital Equipment Co
REO2 G/H2
DEC Park
Worton Grange
Reading
Berkshire
England
Gandalf
Cherry Hill Industrial Center
Building 9
Cherry Hill, NJ 08002
(800) GANDALF (voice)
Hayes ISDN Technologies
501 Second St., Suite 300
San Francisco CA 94107
(415) 974-5544 (voice)
(415) 543-5810 (fax)
ISDN Product Manager: Chris Brock (cbrock@hayes.com)
International Business Machines
(800) 426-2255
ISDN Systems Corp.
Vienna VA USA
703-883-0933
Motorola UDS
5000 Bradford Drive
Huntsville, AL 35805
(205) 430 8000 (voice)
Network Express
Andrew Hasley Jim Hietala
VP, Marketing hietala@netcom.com
2200 Green Road 342 Lester Ct.
Ann Arbor, MI 48105 Santa Clara, CA 95051
(313) 761-5005 (voice) Tel. 408-241-5165
(313) 995-1114 (fax) Fax. 408-241-6246
Paxdata Networks Limited
Communications House
Frogmore Road
Hemel Hempstead
HERTS HP3 9RW
UK
0442 236336 (voice)
0442 236343 (fax)
mktg: Jim Fitzpatrick (jim@demon.co.uk)
tech: Giles Heron (giles@demon.co.uk)
Spider Systems
UK France Germany
Spider Systems Limited Spider Systems SA Spider Systems Limited
Spider House Les Algorithmes Schadowstrasse 52
Peach Street Saint Aubin 91194 D-4000 Dusseldorf 1
Wokingham Gif-sur-Yvette Germany
England Paris Cedex
RG11 1XH France
0734 771055 (voice) (1) 69 41 11 36 (voice) (0211) 93 50 120 (voice)
0734 771214 (fax) (1) 69 41 12 27 (voice) (0211) 93 50 150 (fax)
Sun Microsystems Computer Company (SMCC)
Mountain View, CA
(800) USA-4SUN
Telrad Telecommunications, Inc.
135 Crossways Park Drive
Woodbury, New York 11797
(516) 921-8300
1 800 645-1350
kenow@stpaul.ncr.com (TONY KENOW)
garym@netcom.com (Gary Martin)
bob_clemmons@smtp.esl.com (Bob Clemmons)
marc@dumbcat.sf.ca.us (Marco S Hyman)
dav@genisco.gtc.com (David L. Markowitz)
bear@holly.ho.att.com (James J Allen +1 908 834 1713)
giles@paxdata.demon.co.uk (Giles Heron)
---
18) How about that SPARCstation 10?
The hardware on the SS10 supports 2 B channels (64K+64K) and 1 D
channel (16K) for a grand total 144K in marketing speak. Typically you
might use both B channels for data, 1 channel for voice and 1 channel
for data, or 1 channel for data to 1 point and 1 channel for data to
another point. In some parts of the world it's also popular to run
X.25 over the D channel.
Info from the SPARCstation 10 full announcement e-mail:
- What Becomes Available When:
o ISDN
Chip on the motherboard (done)
ISDN Drivers on Solaris 2.1 or greater (done)
Teleservices API Q1 CY93 Solaris 2.x
Wide Area Networking software Q1 CY93 Solaris 2.x
The chip on the motherboard provides a BRI (basic rate interface)
ISDN connection that is integrated with workstation audio.
The drivers provide a low level interface to the hardware.
The Teleservices API enables application development for
workstation/telephony integration - providing functions like
call setup, transfer, hold, confer, etc. The API is hardware
independent so that it will work with third party non-ISDN
telephony hardware and software. The WAN software enables
data communication - running IP over ISDN (in other words,
applications that run over ethernet will run over ISDN).
In the first release, Sun will support data communications
in the US (for the AT&T 5ESS switch), the UK, France, Germany
and Japan. We will support voice services in the US (for
the AT&T 5ESS switch) only.
This is also now available on the SPARCstation LX, and available as an
SBus card for any SBus workstation running Solaris 2.1 or later.
The current set of ISDN drivers for Solaris 2.1 or greater support
the AT&T 5ESS switch; the next release is expected to support
DMS-100 and national standard.
Get API_xtel* from sunsite.unc.edu:/pub/sun-info/white-papers for
more information on the API itself. The XTel libraries, etc., are
not bundled with either Solaris 2.x or SunLink ISDN at this time.
dank@blacks.jpl.nasa.gov (Dan Kegel)
kessler@Eng.Sun.COM (Tom Kessler)
Greg.Onufer@Eng.Sun.COM
dav@genisco.gtc.com (David L. Markowitz)
---
19) Will ISDN terminal equipment that works in one country
work properly when it is installed in another country?
There are three major problem areas.
The first has to do with voice encoding, and is only a problem if the
equipment is a telephone. Equipment designed for use in North America
and Japan uses mu-law encoding when converting from analog to digital,
whereas the rest of the world uses A-law. If the equipment can be
switched, then there will not be a problem with the voice encoding.
The second has to do with the way the equipment communicates with the
telephone exchange. There are interoperability problems because there
are so many different services (and related parameters) that the user
can request and because each country can decide whether or not to allow
the telephone echange to offer a given service and because the
specifications that describe the services are open to interpretation in
many different ways. So, as with other interoperability problems,
you must work with the vendors to determine if the equipment will
interoperate. This is a basic problem; it impacts all ISDN
equipment, not just voice equipment.
The third has to do with homologation, or regulatory approval. In most
countries in the world the manufacturer of telephone equipment must
obtain approvals before the equipment may be connected to the network.
So, even if the equpipment works with the network in a particular
country, it isn't OK to hook it up until the manufacturer has jumped
through the various hoops to demonstrate safety and compliance. It is
typically more expensive to obtain world-wide homologation approvals
for a newly-developed piece of ISDN equipment than it is to develop it
and tool up to manufacture it.
There are attempts to remidy this situation, particularly for BRI
ISDN. In North America, the National ISDN User's Forum is coming
up with standards that increase the uniformity of ISDN services.
In Europe, a new standard called NET3 is being developed.
msun@ntmtv.com (Ming Sun)
marc@dumbcat.sf.ca.us (Marco S Hyman)
jwb@capek.rdt.monash.edu.au (Jim Breen)
keyman@Eng.Sun.COM (Dave Evans)
oj@world.std.com (Oliver Jones)
wmartin@nsa.bt.co.uk (William Martin)
--------
20) Will ISDN terminal equipment that works with one vendor's ISDN
switch work properly when it is used with another vendor's switch?
[Ed. Note: The title is edited from the previous faq to try to fit in
with the preceding question]
[Also, this seems to imply that there are only two implementations
to worry about and it is very US-centric. This section needs to be
reworked]
Before National ISDN-1 is implemented, the ATT 5ESS switches and
Northern Telecom DMS100 switches speak different call setup dialogues.
That's why you will see ISDN TE listed as 5ESS, DMS100 or both.
Jim.Rees@umich.edu (Jim Rees)
jerry@watchman.sfc.sony.com (Jerry Scharf)
--------
21) Do different manufacturers Terminal Adaptors interoperate when used
asynchronously?
There is a standard up to 19.2k (V.110) but above that there is no real
standard implemented. However, in practice there is a fair degree of
interoperability (even when the TA's manual tells you otherwise)
because many TAs use the same chip set (supplied by Siemens) which
happily goes up to 38.4. TAs from different suppliers that are using
the Siemens chips have a fair chance of interoperating at up to 38.4k.
wmartin@nsa.bt.co.uk (William Martin)
--------
22) Why do I get only about 19.2k throughput from my TA?
The problems in using TA's are the same as those in using fast modems.
You only get the throughput that your serial port can handle. The
serial ports of many machines struggle to receive at 19.2k. Sending
seems to be easier. Many machines that will happily chuck data at a TA
at 38.4, but choke down to around 19.2k or l ower when receiving (with
lots of retries on ZMODEM file transfer).
wmartin@nsa.bt.co.uk (William Martin)
--------
23) How long should call setup take when using a TA?
The "less than a second" call setup sometimes claimed seems to be rare.
TAs have a negotiation phase and it typically takes around 4 seconds
to get through to the remote site.
wmartin@nsa.bt.co.uk (William Martin)
--------
24) Where can I read more?
"ISDN In Perspective"
Fred R. Goldstein
Addison-Wesley
ISBN 0-201-50016-7
[Ed. Note: the second edition is new...]
"ISDN: Concepts, Facilities, and Services, Second Edition"
Gary Kessler
ISBN 0-07-034247-4
"Sensible ISDN Data Applications"
Jeffrey Fritz
jfritz@wvnvm.wvnet.edu
West Virginia University Press
"ISDN and Broadband ISDN" (2nd edition)
William Stallings
Macmillan
ISBN 0-02-415475-X
"Networking Standards: A Guide to OSI, ISDN, LAN and MAN Standards"
William Stallings
Addison-Wesley
The 1990 ISDN Directory and Sourcebook
Phillips Publishing Inc.
7811 Montrose Road
Potomac, MD 20854
(301) 340-2100
ISDN Sourcebook
Information Gatekeepers Inc.
214 Harvard Ave,
Boston, MA 02134
(617) 232-3111
1 800 323-1088
Bellcore National ISDN Specifications
SR-NWT-001953
SR-NWT-002361
800 521 2673
Bellcore ISDN Availability Report
WR-NWT-2102 ($103)
800 521 2673
AT&T Technical Journal special issue on ISDN
(Volume 65, Issue 1) January/February 1986
[If anyone can tell me how to get ahold of the next two documents in terms
of either ISBN, a publishing company, or an ftp site, I'd appreciate it.]
"A subnetwork control protocol for ISDN circuit switching"
Leifer, Gorsline, & Sheldon
"Multiprotocol Interconnect on X.25 and ISDN in the Packet Mode"
Malis, Robinson, & Ullmann
EFFector. Issue 2.01, Issue 2.06, Issue 2.08
ftp.eff.org:pub/EFF
AT&T Documents
--------------
"5ESS(rg.tm) Switch National ISDN Basic Rate Interface
Specification - 5E8 Software Release"
AT&T document number 235-900-341
"5ESS(rg.tm) Switch ISDN Basic Rate Interface
Specification - 5E7 Software Release" {Custom BRI}
AT&T document number 235-900-331
"5ESS(rg.tm) Switch ISDN Primary Rate Interface
Specification - 5E7 Software Release"
AT&T document number 235-900-332
"5ESS(rg.tm) Switch Interface Specification to a
Packet Switched Public Data (X.75) Network -
5E8 Software Release" [as in CCITT X.75]
AT&T document number 235-900-317
"5ESS(rg.tm) Switch X.75' Intranetwork Interface
Specification - 5E8 Software Release"
[as in Bellcore's TR-000310]
AT&T document number 235-900-325
"5ESS(rg.tm) Switch Documentation Description
and Ordering Guide"
[list/description of 5ESS documents]
AT&T document number 235-001-001
AT&T documents ordering:
1-800-432-6600 USA
1-800-225-1242 Canada
+1 317 352-8557 elsewhere
AT&T Customer Information Center
Order Entry
2855 N. Franklin road
Indianapolis, IN 46219
(317) 352-8484 (fax)
Northern Telecom Documents
--------------------------
NTP 297-2401-100 ISDN System Description
NTP 297-2401-010 ISDN Product Guide
---
25) Who do I have to thank for this list?
Lots of people, in one way or another.
"Bob Larribeau" <p00136@psilink.com>
Greg.Onufer@Eng.Sun.COM
Helge.Oldach@Stollmann.DE (Helge Oldach)
Jim.Rees@umich.edu (Jim Rees)
PMW1@psuvm.psu.edu (Peter M. Weiss)
SYSGAERTNER@cygnus.frm.maschinenbau.th-darmstadt.de (Mathias Gaertner)
apsteph@cs.utexas.edu (Alan Palmer Stephens)
art@acc.com (Art Berggreen)
awillis@athena.mit.edu (Albert Willis)
bernot@inf-wiss.uni-konstanz.de (Gerhard Bernot)
bharrell@garfield.catt.ncsu.edu (Ben Harrell)
blsouth!klein@gatech.edu (Michael Klein)
bob_clemmons@smtp.esl.com (Bob Clemmons)
cherkus@UniMaster.COM (Dave Cherkus)
cliff@Berkeley.EDU (Cliff Frost)
craig@aland.bbn.com (Craig Partridge)
curt@kcwc.com (Curt Welch)
dank@blacks.jpl.nasa.gov (Dan Kegel)
dav@genisco.gtc.com (David L. Markowitz)
dave@philips.oz.au
dem@hep.net (David E. Martin)
dror@digibd.com (Dror Kessler)
dwight@hyphen.com (Dwight Ernest)
earle@poseur.JPL.NASA.GOV (Greg Earle - Sun JPL on-site Software Support)
eleskg@nuscc.nus.sg (Winston Seah)
elitman@wam.umd.edu (Eric A. Litman)
etxorst@eos.ericsson.se (Torsten Lif)
garym@netcom.com (Gary Martin)
giles@paxdata.demon.co.uk (Giles Heron)
glarson@bnr.ca (Greg Larson)
goldstein@carafe.enet.dec.com (Fred R. Goldstein)
huntting@futureworld.advtech.uswest.com (Brad Huntting)
jerry@watchman.sfc.sony.com (Jerry Scharf)
jfritz@wvnvm.wvnet.edu (Jeffrey Fritz)
jhonan@kralizec.zeta.org.au (Jamie Honan)
jik@pit-manager.MIT.EDU (Jonathan I. Kamens)
jms@romana.Tymnet.COM (Joe Smith)
jwb@capek.rdt.monash.edu.au (Jim Breen)
kenow@stpaul.ncr.com (TONY KENOW)
kessler@Eng.Sun.COM (Tom Kessler)
ketil@edb.tih.no (Ketil Albertsen,TIH)
kevin@newshost.pictel.com (Kevin Davis)
kevinc@aspect.UUCP (Kevin Collins)
keyman@Eng.Sun.COM (Dave Evans)
keyman@doorway.Eng.Sun.COM (Dave Evans)
kph@cisco.com (Kevin Paul Herbert)
lmarks@vnet.ibm.com (Laurence V. Marks)
marc@dumbcat.sf.ca.us (Marco S Hyman)
marc@Synergytics.COM (Marc Evans)
mikes2@cc.bellcore.com (Mike Souryal)
msun@ntmtv.com (Ming Sun)
oj@world.std.com (Oliver Jones)
paul@suite.sw.oz.au (Paul Antoine)
peter@memex.co.uk (Peter Ilieve)
pturner@eng.auburn.edu ( Patton M. Turner)
pturner@eng.auburn.edu (Patton M. Turner)
rachelw@spider.co.uk (Rachel Willmer)
rdavies@janus.enet.dec.com (Rob Davies)
rjl@fawlty1.eng.monash.edu.au (Russell Lang)
rogers@eplrx7.es.dupont.com (Wade T. Rogers)
ronnie@cisco.com (Ronnie B. Kon)
sanjay@media.mit.edu (Sanjay Manandhar)
scott@labtam.labtam.oz.au (Scott Colwell)
sklower@toe.CS.Berkeley.EDU (Keith Sklower)
sorflet@x400gate.bnr.ca (Winston WL Sorfleet)
spike@coke.std.com (Joe Ilacqua)
tnixon@microsoft.com (Toby Nixon)
turtle@newshub.sdsu.edu (Andrew Scherpbier)
varney@ihlpf.att.com (Al Varney)
wb8foz@scl.cwru.edu (David Lesher)
welch@watchtower.Berkeley.EDU (Sean N. Welch)
whs70@cc.bellcore.com (sohl,william h)
wmartin@nsa.bt.co.uk (William Martin)
----
Dave Cherkus UniMaster, Inc. cherkus@unimaster.com
