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ISDN
The original version of ISDN employs
baseband transmission. Another version,
called B-ISDN, uses broadband
transmission and is able to support
transmission rates of 1.5 Mbps. B- ISDN
requires fiber optic cables and is not
widely available.
ISDN, which stands for Integrated
Services Digital Network, is a system of
digital phone connections which has been
available for over a decade. This system
allows voice and data to be transmitted
simultaneously across the world using
end-to-end digital connectivity.
ISDN (Integrated Services Digital
Network) is a type of digital phone/data
and Internet service that preceded ADSL
(Asynchronous Digital Subscriber Line)
and has for the most part been
superseded by it.
Normal telephone lines carry analog
signals that must be amplified and
converted to digital signals by the
phone company. This process introduces
not only a slight lag time, but also
distortion in the signal.
Dial-up modems and telephones are
examples of equipment that use analog
signals. ISDN makes use of digital
signals running along existing copper
lines to increase the data throughput,
reduce line noise and enhance signal
quality.
In the mid 1990s, ADSL was very
expensive not widely available.
Companies and individuals wanted a
faster way to connect to the Internet,
but the technology behind dial-up modems
had reached its threshold.
ISDN became a viable alternative to
provide speeds of up to 128 kilobits per
second (kbps), versus the standard
connection of 30-53 kbps with a dial-up
modem.
The most common type of ISDN service
for Internet connection is the Basic
Rate Interface, or ISDN BRI. This
technology creates two B-channels on the
existing copper lines of 64 kbps each,
along with a single 16 kbps D-channel
for the phone line. This separates data
channels from the voice channel,
allowing telephone or fax use while
online.
While ISDN is inexpensive and about
twice as fast as dial-up service, it has
been largely replaced by affordable DSL
service. An inexpensive ADSL service
offers speeds up to 384 kbps, while more
expensive versions are improving in
speed all the time. As of fall 2005,
standard ADSL speeds range between 1.5
and 3.0 mbps (megabits per second), or
1536-3072 kbps.
Although ISDN may not be the best
choice for packet-switching networks
like the Internet, it is still widely
used for professional audio and
broadcast applications where digital
clarity with integrated telephone
services is specifically required.
Small businesses that often use two
voice lines, such as phone and fax, and
only require limited Internet
connectivity of, say, an hour or less
per day, may prefer ISDN. ISDN might
also be a better choice for high-speed
connections to intranets for
video-conferencing, or to remote
networks other than the Internet.
With ISDN, voice and data are carried
by bearer channels (B channels)
occupying a bandwidth of 64 kb/s (bits
per second). Some switches limit B
channels to a capacity of 56 kb/s. A
data channel (D channel) handles
signaling at 16 kb/s or 64 kb/s,
depending on the service type. Note
that, in ISDN terminology, "k" means
1000 (103), not 1024 (210) as in many
computer applications (the designator
"K" is sometimes used to represent this
value); therefore, a 64 kb/s channel
carries data at a rate of 64000 b/s.
A new set of standard prefixes has
recently been created to handle this.
Under this scheme, "k" (kilo-) means
1000 (103), "M" (mega-) means 1000000
(106), and so on, and "Ki" (kibi-) means
1024 (210), "Mi" (mebi-) means 1048576
(220), and so on.
There are two basic types of ISDN
service: Basic Rate Interface (BRI) and
Primary Rate Interface (PRI). BRI
consists of two 64 kb/s B channels and
one 16 kb/s D channel for a total of 144
kb/s. This basic service is intended to
meet the needs of most individual users.
PRI is intended for users with
greater capacity requirements. Typically
the channel structure is 23 B channels
plus one 64 kb/s D channel for a total
of 1536 kb/s. In Europe, PRI consists of
30 B channels plus one 64 kb/s D channel
for a total of 1984 kb/s.
It is also possible to support multiple
PRI lines with one 64 kb/s D channel
using Non-Facility Associated Signaling
(NFAS).
H channels provide a way to aggregate
B channels. They are implemented as:
H0=384 kb/s (6 B channels)
H10=1472 kb/s (23 B channels)
H11=1536 kb/s (24 B channels)
H12=1920 kb/s (30 B channels) -
International (E1) only
To access BRI service, it is
necessary to subscribe to an ISDN phone
line. Customer must be within 18000 feet
(about 3.4 miles or 5.5 km) of the
telephone company central office for BRI
service; beyond that, expensive repeater
devices are required, or ISDN service
may not be available at all.
Customers will also need special
equipment to communicate with the phone
company switch and with other ISDN
devices. These devices include ISDN
Terminal Adapters (sometimes called,
incorrectly, "ISDN Modems") and
ISDN Routers.
The early phone network consisted of
a pure analog system that connected
telephone users directly by a mechanical
interconnection of wires. This system
was very inefficient, was very prone to
breakdown and noise, and did not lend
itself easily to long-distance
connections. Beginning in the 1960s, the
telephone system gradually began
converting its internal connections to a
packet-based, digital switching system.
Today, nearly all voice switching in
the U.S. is digital within the telephone
network. Still, the final connection
from the local central office to the
customer equipment was, and still
largely is, an analog Plain-Old
Telephone Service (POTS) line.
In the early 1990s, an industry-wide
effort began to establish a specific
implementation for ISDN in the U.S.
Members of the industry agreed to create
the National ISDN 1 (NI-1) standard so
that end users would not have to know
the brand of switch they are connected
to in order to buy equipment and
software compatible with it.
However, there were problems agreeing on
this standard. In fact, many western
states would not implement NI-1. Both
Southwestern Bell and U.S. West (now
Qwest) said that they did not plan to
deploy NI-1 software in their central
office switches due to incompatibilities
with their existing ISDN networks.
Most recently, ISDN service has
largely been displaced by broadband
internet service, such as xDSL and Cable
Modem service. These services are
faster, less expensive, and easier to
set up and maintain than ISDN. Still,
ISDN has its place, as backup to
dedicated lines, and in locations where
broadband service is not yet available.
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