Channel
Bank Operation
Problem
As your company has expanded, more and more services are being
purchased from the local telephone company. With telephone
lines and data connections expanding, the time has come to
consider connecting to the PSN with a digital T1 transmission
line. How can you take your present telephone company connections
and switch them over to one high quality T1 connection?
Solution
Coastcom's D/I Mux III in channel bank mode connects directly
to the PSN with one T1 transmission trunk. D/I Mux III offers
a great variety of channel cards which offer circuits similar
to those supplied by the local telephone company. D/I Mux III
also creates options to use special services from the PSN which
may not be available from the local telephone company.
How Does It Work?
A D/I Mux III in channel bank mode allows one T1 to be terminated.
The T1 is synchronized to the PSN network by recovering the
clock it receives from the PSN T1. In a private network, where
one channel bank communicates directly to another, one of the
channel banks would be the source of timing and the other would
synchronize to the received T1 clock.
Figure s1. Channel Bank Operation
What Actually Occurs?
The law firm of Lee M. Haung is doing brisk business and has
added two new law associates to its staff. Each new employee
requires a telephone and modem line.
The telephone requirements are presently
handled by a key system which allows an operator to switch calls
from three 2-Wire trunks supplied by the local telephone company.
Each modem now requires a separate connection and installation.
With the D/I Mux III, all communications
connections are made at one point. The customer easily adds circuits
as required. The PSN only needs to change software programming
to accommodate the new circuits.
How Do You Set It Up?
FXS channel cards in FXS mode can supply the telephone and modem
requirements. The three 2-Wire trunks are connected to the
FXS circuits. Common 2-Wire modems also connect to FXS circuits.
Coastcom also has 4-Wire channel cards to supply dedicated
4-Wire modem connections.
What Do You Order?
One D/I Mux III multiplexer is required. A quad (four circuit)
or a dual (two circuit) FXS channel card is required to supply
basic telephone service. A ringing generator is also required
to supply ringing to the lines.
Drop and
Insert Backbone Network
Problem
You are the communications manager for a company with several buildings
at a single site. At the site, you have a T1 microwave link to
the downtown corporate center. The T1 link is presently a private
network for company communications. As the company has expanded,
the telephone systems at the various buildings have become antiquated
and inadequate.
Solution
Coastcom D/I Mux IIIs, in drop and insert mode, can extend the
T1 received from the corporate center to the various buildings.
A drop and insert backbone network provides a single connection
to the public network, creates a cost savings, and insures
the high quality of digital T1 service.
How Does It Work?
A D/I Mux III backbone network consists of two D/I Mux IIIs in
channel bank mode communicating with each other. Between the
two D/I Mux IIIs, in channel bank mode, are D/I Mux IIIs in
drop and insert mode.
A D/I Mux III in drop and insert mode allows
information to be dropped (received) and inserted (transmitted)
along a T1 transmission line. If the information is not required
at the drop and insert site, then it can pass through the system
to the next location.
When information passes through the D/I
Mux III, it is received on the T1-1 port and passes through the
system and out of the T1-2 port. Information from the T1-2 port
passes through to the T1-1 port. Information that passes through
a D/I Mux III in drop and insert mode remains digital and maintains
high quality.
Figure s2. Drop and Insert
Backbone Network
What Actually Occurs?
Big Tractor Manufacturing has installed a D/I Mux III in each
of its buildings to create a drop and insert backbone network.
T1 transmission over inexpensive twisted pair cable reaches
one mile, which allows easy connection to all the buildings
at the site. A microwave radio carries the T1 to and from the
corporate center.
The corporate center PBX switches calls
from the PSN and D/I Mux III. The PBX connects to the PSN and
D/I Mux III with common 2-Wire trunks. The T1 from the corporate
center is carried over a microwave link to the manufacturing
site.
From the PSN a call comes in for the frame
manufacturing building. The call rings the PBX which rings an
FXO channel card in the D/I Mux III. The FXO places the call
on a T1 transmission channel which goes to the D/I Mux III at
the frame manufacturing building. An FXS channel card at the
frame manufacturing building then delivers the call to a standard
telephone. The call informs the frame manufacturing supervisor
of a delivery.
The frame manufacturing supervisor calls
and informs the gate guard of the delivery. The call is made
over the same FX circuit but directed by the PBX to the guard
house over a different FXO channel card. The supervisor then
instructs the gate guard to hold the truck until the shipping
list is compared with the purchase requisition.
When the truck arrives, the gate guard faxes
the shipping list to the purchasing department at the corporate
center. Once again the information is carried over an FX circuit,
but this time it is delivered by the PBX to the purchasing department
at the corporate center. When a discrepancy is discovered, the
purchasing department calls the supplier through the PBX, which
makes the connection to the PSN.
D/I Mux IIIs, in drop and insert mode, allow
several remote sites to use the same PBX. Instead of having the
LEC supply a telephone to every building, the remote telephones
take advantage of the PBX's switching function and PSN connection.
How Do You Set It Up?
The FXO channel cards at the corporate site would be operated
in FXO loop start mode. FXS channel cards connected directly
to telephones require loop start operation.
What Do You Order?
A D/I Mux III is required at each building and at the corporate
center. FXO circuits are installed at the corporate center.
FXS circuits plus ringing generators are required at each building
site.
Dual Channel
Bank Operation
Problem
Your company has continued to grow. Sales administration, customer
service, and purchasing personnel are being added. Your communications
system is already operating at maximum T1 capacity; all 24 channels
on the T1 trunk are being used. However, your manager expects the
D/I Mux III to meet the increased communications requirements.
Solution
Operating D/I Mux III in dual channel bank mode doubles the capacity
of the transmission system by allowing another T1 to be accessed
from the PSN. Dual channel bank mode does not require a new
shelf or system hardware. Only channel cards would be required
for the new circuits. Dual channel bank mode is a selection
in the D/I Mux III system software.
How Does It Work?
A D/I Mux III in dual channel bank mode allows two T1s to be
terminated. The two T1s are synchronized. In dual channel bank
mode the timing comes from one of the T1 lines or is supplied
to both T1 lines from the D/I Mux III's internal clock.
Ports T1-1 and T1-2 on the D/I Mux III connect
to the T1 lines. The T1 lines operate like two separate channel
banks. Information does not pass through the system from one
T1 line to the other T1 line as it does in drop and insert operation.
Figure s3. Dual Channel Bank
Operation
What Actually Occurs?
The Motivational Center sells books, audio tapes, and presents
seminars on motivation and human potential. Sales at the Motivational
Center have increased at an exponential rate. To meet the communications
needs another T1 transmission line is purchased from the PSN.
To work with the latest print technology,
a Switched 56 data circuit will be added so electronic files
can be downloaded to the printer company. A high quality audio
link is installed so material recorded at the Golden Pelican
recording studios can be reviewed on a daily basis. For better
customer service, toll free 800 lines are installed. Customer's
access the PSN and your 800 service switch (PBX 800) when they
dial your 800 number over a standard telephone.
How Do You Set It Up?
FXS channel cards are setup in Megacom 800 mode to supply toll
free 800 customer service lines. The 800 service requires FXS
hardware at the corporate center. Any standard telephone can
access the 800 number.
An OCUDP channel card supplies the network
interface for the Switched 56 service. A Switched 56 data circuit
is required at the printer's location. This is not a dedicated
service; you will only pay for service time used during the call
to the printer.
A receive DPC is required at the corporate
center and a transmit DPC is required at the studio end.
What Do You Order?
A D/I Mux III is required at the Golden Pelican studio and at
the corporate center. Quad or dual 2-Wire FXS channel cards
will supply the 800 service lines at the corporate center.
A ringing generator would also be required for the 800 lines.
An OCUDP is installed with a Switched 56
CSU/DSU at the corporate center. The printer's location would
need a Switched 56 connection and a switched 56 CSU/DSU.
A transmit DPC is required at the Golden
Pelican studio and a receive DPC is required at the corporate
center.
TWIN T1M
/ LAN to WAN Connections
Problem
Your high technology company consists of several LAN networks at
different locations around the country. Your managers need instant
communication between each other, although the facilities are separated
by hundreds of miles.
Solution
Coastcom's TWIN T1M allows several LANs to be connected over
a high speed data link. The TWIN T1M is ideal for linking LANS,
data concentrators, and compressed video.
How Does It Work?
TWIN T1M would be used for connecting to three or four T1s. D/I
Mux III or the T1M CSU/DSU could be used if connecting to only
one or two T1s. With high-speed SDCUs installed in the TWIN
T1M, connection to several high speed LAN bridges is made simple.
Figure s4. TWIN T1M LAN Connections
What Actually Occurs?
The Overall Insurance Company has seen a lot of growth with its
quick response to changing client requirements. New approaches
to operating the business are brought up on a daily basis.
In order to avoid lawsuits, Overall Insurance Company must
provide the same services to all their clients throughout the
country. A WAN allows the whole company to communicate instantly
and to make decisions in a timely manner.
Agent Tom Wright has a client that wants
to insure his home, business, and helicopter with Overall Insurance
if the coverage and price are agreeable. Tom has done calculations
on the risk involved with the various properties and has come
up with a figure for the three items.
Tom sends the information on the LAN to
the underwriters group for approval. The underwriter's database
does not show any similar type situations, so the approval must
come from a senior underwriter with executive approval. The files
are easily transferred over the LAN to both parties and approved.
The case is then entered into the underwriter's database for
future reference.
How Do You Set It Up?
Install four SDCUs in a TWIN T1M at the corporate center. Each
SDCU operates at its maximum data rate of either 1.536 Mbps
(with B8ZS T1 line coding) or 1.344 Mbps (with standard T1
line coding) to fully utilize each of the four T1s. Each SDCU
is routed on a different T1 path. Both of the internal multiplexers
within the TWIN T1M are set to operate in dual channel bank
mode to supply the four T1 lines.
The network file server located at the corporate
center is where the shared files are kept and traded. A T1M CSU/DSU
at each of the other offices connects the LAN to the corporate
center LAN, easily creating a WAN.
What Do You Order?
Dedicated leased or private T1 lines are required to transport
the information whenever the LANs request. One TWIN T1M with
four SDCUs is required at the corporate center. Four T1M CSU/DSUs
with one SDCU installed in each is required at the other offices.
FDLP / High
Quality T1 transmission
Problem
Communications is critical to the success of your business and
T1 transmission lines must maintain their high quality to transfer
digital data. With high speed digital data, every bit of data must
reach its destination or the information will be resent. Your network
has some radio hops which suffer degradation during adverse weather
conditions. Your boss is concerned about the slow down of data
and possible network failures. You need some way of checking the
quality of the transmission line in order to know when to switch
to a backup system.
Solution
The D/I Mux III can generate a minor alarm when a frame error
rate or CRC error rate threshold is passed. When the D/I Mux
III is in ESF mode, the FDLP option can log the transmission
quality into an error history report. You can deploy a backup
T1 transmission system when the primary system fails or experiences
a high error rate.
How Does It Work?
The LIUs detect T1 transmission errors and report them to the
CCU and FDLP. The CCU will send a minor alarm to the D/I Mux
III control system when a user selectable error threshold is
passed. The FDLP registers the errors in the form of errored
seconds and failed seconds, then logs the errors into 15 minute,
hour, and day reports. The FDLP can also be configured to print
out error reports.
Figure s5. High Quality T1
Transmission
What Actually Occurs?
When a big snow storm hits, the T1 transmission paths between
the microwave towers is degraded, the error rate on the primary
path then passes the threshold of acceptable errors. A minor
alarm is reported to the D/I Mux III control terminal, computer,
or NCC. The network manager, seeing that the storm is predicted
to last, decides to switch over to the backup T1 transmission
line.
How Do You Set It Up?
Any intelligent Coastcom multiplexer (the D/I Mux III, the T1M
CSU/DSU, or the TWIN T1M) will perform the error rate alarm
function. To observe the error rate threshold, enter the Set
ERT Alarm screen using the SB command from the system control
menu. Select an error rate threshold and enable the alarm.
If using ESF and an FDLP is installed, the
Performance Monitor screen guides the selection of various error
monitoring, reports, and printer options. Enter the Performance
Monitor screen with the PM command from the system control menu.
What Do You Order?
A D/I Mux III is required at both ends of the network as described
in Figure 5. An A/B switch is required to switch the T1 transmission
paths in a timely manner.
FDLP is required to collect CRC error reports.
A printer is also required to keep an ongoing record of CRC errors.
T1 Interface
Options
Problem
Your network is very diverse with connections to the public network,
a private fiber optic network, and a digital cross connect. You
need to use the same type of multiplexer throughout your network.
The public network requires T1 interfaces with CSU capability.
The private network requires loopback testing capability for DSX-1
interfaces. Basic DSX-1 interfaces are adequate to connect to your
digital cross-connect.
Solution
D/I Mux III offers a variety of T1 interfaces to meet all of
your network's requirements.
The CSU functionality, a requirement of
the public network, is contained in the Dual CSU Interface. A
Dual CSU Interface also has the ability to perform loopback tests,
which meet the requirement for the fiber optic portion of the
network. A Dual Standard DSX-1 Interface supplies a basic connection
to the digital cross-connect.
How Does It Work?
There are three varieties of Dual CSU Interface; the T1/DSX-1
with one CSU interface and one DSX-1 interface, DSX-1/DSX-1
with two DSX-1 interfaces, and the T1/T1 with two CSU interfaces.
Dual CSU Interfaces offer test and loopback capabilities for
the network and the end user. The Dual Standard DSX-1 Interface
supplies two standard DSX-1 interfaces.
T1 Interface Options Table
T1
Interface Type |
T1-1
Port Interface |
T1-2
Port Interface |
T1-1
Equalization (EQ) or Line Build Out (LBO) |
T1-2
Equalization (EQ) or Line Build Out (LBO) |
Loopback
Testing |
Dual
T1/T1 CSU |
CSU |
CSU |
LBO
0, 7.5, 15 dB |
LBO
0, 7.5, 15 dB |
Software
- Hardware |
Dual
T1/DSX-1 CSU |
CSU |
DSX-1 |
LBO
0, 7.5, 15 dB |
EQ 750,
450, 150 ft. |
Software
- Hardware |
Dual
DSX-1/DSX-1 CSU |
DSX-1 |
DSX-1 |
EQ 750,
450, 150 ft. |
EQ 750,
450, 150 ft. |
Software
- Hardware |
Dual
Enhanced DSX-1 Interface |
DSX-1 |
DSX-1 |
EQ 750,
450, 150 ft. |
EQ 750,
450, 150 ft. |
Hardware
Only |
Dual
Standard DSX-1 Interface |
DSX-1 |
DSX-1 |
EQ 150
ft. |
EQ 150
ft. |
Not
Available |
Figure s6. T1 Interface Options
What Actually Occurs?
Every T1 interface option is used in the network, as shown in
Figure 6. To supply the PBX Center with a connection to the
PSN, a Dual CSU Interface with T1/T1 connections is used. This
allows 48 DS0 voice channels to easily connect to the public
network.
At the Data Center, the D/I Mux III connects
to the DXC II with a Dual Standard DSX-1 Interface. The DXC II
then routs the data channels to the corporate centers and the
PSN.
Corporate Center One receives the information
on a Dual CSU Interface with DSX-1/DSX-1 connections. Both the
DXC II system and fiber optic system surrounding Corporate Center
One require DSX-1 interfaces. The Dual CSU Interface functionality
makes testing of the fiber optic link easy.
At the other side of the fiber optic link
is Corporate Center Two with the required DSX-1 interface to
the fiber optic network and a T1 interface to the PSN.
How Do You Set It Up?
The D/I Mux III at the PBX Center is installed with a Dual CSU
Interface (T1/T1) and placed in the dual channel bank mode
of operation.
The D/I Mux III at the Data Center is installed
with a Dual Standard DSX-1 Interface and placed in channel bank
mode.
The D/I Mux III at Corporate Center One
is installed with a Dual CSU Interface (DSX-1/DSX-1) and placed
in drop and insert mode.
The D/I Mux III at Corporate Center Two
is installed with a Dual CSU Interface (T1/DSX-1) and placed
in drop and insert mode.
What Do You Order?
-
Dual CSU Interface (T1/T1)
-
Dual Standard DSX-1 Interface
-
Dual CSU Interface (DSX-1/DSX-1)
-
Dual CSU Interface (T1/DSX-1)
Any intelligent D/I Mux III product (D/I
Mux III, TWIN T1M, or the T1M CSU/DSU) accepts these T1 interfaces.
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