SMD2000-24T 24-Port SHDSL Mini DSLAM
Installation Instructions
Document Number SMD2-A2-GN11-00
July 2005
Contents
Site Selection Criteria ...................................................................................
Tabletop Installation ......................................................................................
Rack Installation ............................................................................................
Verifying the Connection(s) ........................................................................... 13
Connecting the Uplink Lines ......................................................................... 14
Default Settings ............................................................................................. 15
Data Storage ................................................................................................. 17
Reset Button ................................................................................................. 19
LED Indicators .............................................................................................. 20
Pin Assignments ........................................................................................... 23
Technical Specifications ................................................................................ 26
EMI Notices .................................................................................................. 27
ACTA Customer Information ......................................................................... 27
CE Marking ................................................................................................... 28
Japan Notice ................................................................................................. 29
Important Safety Instructions ........................................................................ 30
1
b. ANY AND ALL IMPLIED WARRANTIES, INCLUDING WITHOUT LIMITATION
IMPLIED WARRANTIES OF MERCHANTABILITY, FITNESS FOR A
PARTICULAR PURPOSE AND NON-INFRINGEMENT.
Some states or other jurisdictions do not allow the exclusion of implied warranties
on limitations on how long an implied warranty lasts, so the above limitations may
not apply to you. This warranty gives you specific legal rights, and you may also
have other rights which vary from one state or jurisdiction to another.
6. IN NO EVENT WILL PARADYNE BE LIABLE TO LICENSEE FOR ANY
CONSEQUENTIAL, INCIDENTAL, PUNITIVE OR SPECIAL DAMAGES,
INCLUDING ANY LOST PROFITS OR LOST SAVINGS, LOSS OF BUSINESS
INFORMATION OR BUSINESS INTERRUPTION OR OTHER PECUNIARY LOSS
ARISING OUT OF THE USE OR INABILITY TO USE THE SOFTWARE,
WHETHER BASED ON CONTRACT, TORT, WARRANTY OR OTHER LEGAL OR
EQUITABLE GROUNDS, EVEN IF PARADYNE HAS BEEN ADVISED OF THE
POSSIBILITY OF SUCH DAMAGES, OR FOR ANY CLAIM BY ANY THIRD
PARTY.
7. The rights granted under this Agreement may not be assigned, sublicensed or
otherwise transferred by the Licensee to any third party without the prior written
consent of Paradyne.
8. This Agreement and the license granted under this Agreement shall be terminated
in the event of breach by the Licensee of any provisions of this Agreement.
9. Upon such termination, the Licensee shall refrain from any further use of the
Software and destroy the original and all copies of the Software in the possession of
Licensee together with all documentation and related materials.
10. This Agreement shall be governed by the laws of the State of Florida, without
regard to its provisions concerning conflicts of laws.
Product Documentation Online
Select Support → Technical Manuals. Select:
Command Line Interface for 4000E and 12000E BACs, Micro DSLAMs, and
Network Extenders User's Guide (Document Number CLI-A2-GB20)
Network Management System User's Guide (Document Number NMS-A2-GB20)
SNMP for 12000/4000 BLCs and Micro DSLAMs User's Guide (Document Number
SNMP-A2-GB20)
To order a paper copy of a Paradyne document, or to speak with a sales representative,
please call 1-727-530-2000.
3
Unpacking and Inspecting the Equipment
!
HANDLING PRECAUTIONS FOR STATIC-SENSITIVE DEVICES
This product is designed to protect sensitive components from
damage due to electrostatic discharge (ESD) during normal
operation. When performing installation procedures,
however, take proper static control precautions to
prevent damage to equipment. If you are not sure
of the proper static control precautions, contact
your nearest sales or service representative.
The following components should be included in your package:
1 – SMD2000-24T
4 – Rubber Pads
2 – Rack Mount Brackets
10 – #6 Phillips Bracket Screws
4 – #10 Phillips Rack Screws
4 – #12 Phillips Rack Screws
1 – DB9 Socket to RJ45 Plug Adapter
If there is visible damage, do not attempt to connect the device. Contact your sales
representative.
Site Selection Criteria
In choosing a location for the installation of this product:
Select a restricted access area where admittance is limited to trained and
authorized service personnel.
Ensure that the internal temperature of a rack containing this equipment will not
exceed the maximum recommended ambient temperature of 149° F (65° C).
Place the chassis such that connecting cables will not become a tripping hazard or
pull loose from the chassis.
Do not block power supply vents or otherwise restrict airflow when installing this
equipment.
Ensure that installation of this equipment in a rack will not cause the rack to become
top-heavy or unstable.
Do not overload the electrical branch circuit of the power source for this equipment.
For tabletop use, attach the enclosed rubber feet to the bottom of the chassis.
For rack installation, attach the enclosed rack mount brackets to the sides of the
chassis with the screws provided.
4
Installing Uplink Interface Modules (Optional)
An SMD2000-24T does not require installation of an Uplink Interface Module (UIM) for
operational purposes. A UIM offers additional upstream network ports to supplement the
two T1 uplink ports already provided. You may wish to install a UIM if your network
requires an Ethernet uplink connection or if you require an additional E1 or T1 backhaul.
The SMD2000-24T supports the following 1-port UIMs only:
UIM-E1
UIM-T1
UIM-10/100
CAUTION:
Disconnect all power sources from the SMD2000 before installing a UIM.
Procedure
To install a UIM:
1. Remove the Chassis Cover. Using a Phillips Screwdriver, remove the eight
flathead screws securing the SMD2000-24T chassis cover and set them aside.
Carefully lift off the chassis cover and set it aside.
Side
Top
Rear
Bottom
Side
5
2. Mount the UIM on the SMD2000-24T Printed Circuit Board (PCB). A
UIM may be installed in either Port 1 or Port 2, or both for redundancy purposes.
Using a Phillips screwdriver, remove the flathead screws from both sides of the
chosen port on the chassis faceplate. Remove the slot cover.
CAUTION:
If a slot cover is removed from Port 1 or Port 2, it must be replaced with a UIM.
Do not operate the SMD2000-24T with an open UIM port.
3. Carefully slide the faceplate of the UIM under the lip of the SMD2000-24T faceplate
at the selected port opening such that the UIM PCB is face down and the UIM label
shows through the port opening with the UIM model name along the right edge.
4. Align and secure the PCBs. Ensure that the connector key pins and the four
mounting holes on the UIM PCB are lined up with the board-to-board connector and
the four corresponding standoffs on the SMD2000-24T PCB. Gently press down
with even pressure on all four corners of the UIM until the board-to-board connector
is fully seated. Using a Phillips screwdriver, secure the UIM PCB to the
SMD2000-24T PCB at the standoffs with the four provided pan-head screws.
UIM Side View
Standoffs
6
5. Secure the faceplate. Using a Phillips screwdriver, secure the UIM faceplate to
the SMD2000-24T faceplate with the two flathead screws included in your UIM
packaging.
6. Replace the chassis cover. Replace the chassis cover and secure with the
Tabletop Installation
Procedure
To install the SMD2000-24T on a table, desk, shelf, or remote cabinet:
1. Affix the four provided rubber pads to the bottom of the chassis for surface grip.
Bottom of Chassis
2. Place the SMD2000-24T such that the cables will not become a tripping hazard or
pull loose from the chassis. Ensure that the air supply vents on the sides of the
chassis are not blocked.
7
Rack Installation
Procedure
To install the SMD2000-24T in a rack:
1. Using a Phillips screwdriver, attach the two provided rack mount brackets to the
sides of the SMD2000-24T with the ten provided bracket screws.
2. Mount the chassis onto the rack and secure the rack mount brackets to the sides of
the rack using one of the two provided sets of four rack mount screws (whichever
size fits the rack being used).
3. Check the rack for stability, ensuring that installation of the SMD2000-24T has not
caused the rack to become top-heavy. Ensure that all cables are secured such that
they will not become a tripping hazard or pull loose from the chassis.
8
Powering Up the SMD2000-24T
CAUTION:
Turn your DC power source off until you have completed connection of the
SMD2000-24T as described below.
Do not operate your SMD2000-24T without a ground connection.
Procedure
To connect the SMD2000-24T to power:
1. Connect a ground wire to the SMD2000-24T. Line up the 2-hole terminal lug of
your ground wire with the two holes on the small, unpainted section on the left side
of the back of the chassis. Secure the terminal lug to the chassis with two #10-32
screws.
2. Connect the other end of the ground wire to a frame ground. This can vary
from location to location, but typically all equipment in a Central Office is grounded
to a common copper bus.
3. Select a terminal block. Either terminal block on the back of the SMD2000-24T
may be used to power the chassis. Both terminals may be connected if redundancy
(backup) is desired.
9
The two terminal blocks on the SMD2000-24T are independent feeds. Chassis
power is supplied by only one terminal block at a time; the second supply is merely
backup. Likewise, the two terminal blocks do not load-share. Each terminal block
must be supplied with the adequate amperage to run the chassis.
4. Using a Phillips screwdriver, remove the left screw from the chosen terminal block
(labeled "+" on the chassis). Slide the ring terminal of your positive power lead onto
the shaft of the screw and re-insert the screw into the terminal block (same "+"
terminal from which it was removed).
Positive (Return) Lead
5. Remove the right-hand screw (labeled "–") from the same terminal block, slide the
ring terminal of your negative lead onto the shaft of the screw and re-insert the
screw into the terminal block (same "–" terminal from which it was removed).
Negative (Batt) Lead
CAUTION:
Be sure to attach the positive lead to the positive terminal and the nagative
lead to the negative terminal as indicated on your SMD2000-24T terminal
block labels.
6. Attach the other ends of the power leads to a fuse panel. The negative (–) lead
connects to a "Batt" (Battery) terminal and the positive (+) lead connects to a
"Return" terminal on your DC power supply.
10
7. Verify the connection. Turn your power source ON. The PWR (power) LED on
your SMD2000-24T faceplate will illuminate solid green to indicate that the chassis
is receiving power.
Connecting the SHDSL RJ21 Cable
Procedure
To connect the SHDSL cable to the SMD2000-24T RJ21 connector:
1. Configure the SHDSL lines.
No configuration is necessary for the SMD2000-24T to operate at default settings.
However, if you wish to run subscriber lines at settings other than the
SMD2000-24T defaults, configure the subscriber lines prior to connection.
Parameter settings may be changed using the Command Line Interface (CLI),
Simple Network Management Protocol (SNMP), or the web-based management
2. Detach the hook-and-loop fastener strap from the RJ21 socket on the front of the
chassis and pull it upward, leaving it looped under the connector frame at the top.
11
3. Slide the RJ21 plug connector of your SHDSL cable underneath the hook-and-loop
fastener from the right and press it firmly into the RJ21 socket on the chassis.
4. Pull the hook-and-loop fastener strap upward, making sure that it is snug against
the RJ21 connector, and then pull the strap back down over itself such that the
hook-and-loop fastener layers stick to one another.
5. Screw the left side of the RJ21 plug connector into the jack screw on the left side of
the RJ21 socket on the chassis. If you are using a 120 or 180 degree cable, both the
left and right sides of the RJ21 plug connector should be secured to the socket.
Connecting to the Remote SHDSL Modems
A primary feature of the SMD2000-24T is its capability to support multiple loop bonded
SHDSL connections. However, it is equally capable of supporting up to 24 single line
connections, as well as combinations of both single and loop bonded connections.
Loop Bonded SHDSL Connection
Multiple SHDSL ports (consecutive or not) may be connected with a single remote
SHDSL modem as long as the remote modem is also loop bonding capable. Refer to
Product to Product SDSL Loop Bonding Compatibility, (Document Number
COMP-A2-GK42), for a complete list of SDSL loop bonding capable products.
12
The speed and data passing capability of multiple SHDSL lines, as used for one network
connection, is cumulative. For example, loop bonding three SHDSL lines for one
network connection nets three times the speed and data passing capability of a
single-line SHDSL connection. Additionally, use of multiple SHDSL lines for one
connection provides automatic backup should one or more lines in the bonded group
experience problems or become disabled.
NOTE:
Upon connection, all ports in a bonded group will automatically default to the
configurations of the lowest numbered port of the group. Hence, the lowest
numbered port of the group should be configured prior to connection if you intend to
run the group with parameter settings other than the defaults.
Single Line SHDSL Connection
A single line SHDSL subscriber connection may be established with any standard
SHDSL subscriber equipment.
Verifying the Connection(s)
The LK (link) LED for each port connected with a remote modem will flash green to
indicate a connection has been established. An ACT LED flashing amber indicates
SHDSL activity. Link establishment time between the SMD2000-24T and remote SHDSL
modems can vary from one to five minutes depending on the quality, gauge, and length
of the copper cable pairs being used.
Note:
If any of the cable distances are greater than the configured bandwidth will support,
the units may not link up or, if they do achieve link, traffic quality may be affected (for
example, packets may be dropped).
13
Connecting the Uplink Lines
To connect the SMD2000-24T to T1 service:
1. Configure the T1 uplinks.
No configuration is necessary for the SMD2000-24T to operate at default settings.
However, if you wish to run uplinks at settings other than the SMD2000-24T
defaults, configure the uplinks prior to connection. Parameter settings may be
changed using the Command Line Interface (CLI), Simple Network Management
Protocol (SNMP), or the web-based management system. T1 Uplink Parameter
2. Plug your T1 cable into an RJ48C T1 uplink port on the SMD2000-24T faceplate.
For most applications, a straight-through T1 cable is required. A connection to Port
2 is shown.
3. Connect to the remote T1 equipment. The SMD2000-24T requires only one uplink
connection for operational purposes, although a second T1 uplink connection may
be desired for redundancy. Additionally, the two T1 uplink ports may be bonded
together for a single connection as long as the remote T1 equipment is loop
bonding capable. Refer to Product to Product T1 Loop Bonding Compatibility,
(Document Number COMP-A2-GK44) for a list of loop bonding capable products.
Using two T1 lines for one uplink connection nets twice the speed and data passing
capability of a single-line T1 connection. Additionally, use of a second T1 line
provides automatic backup should one of the lines experience problems or become
disabled.
A single line T1 uplink connection may be established between T1 Port 1 or T1
Port 2 and any standard T1 provider equipment.
4. Verify Your Connections. The Port 1 Link (LK) LED flashing or pulsing green
indicates that a T1 Port 1 uplink connection has been established. The Port 2 Link
(LK) LED flashing or pulsing green indicates that a T1 Port 2 uplink connection has
been established.
14
Default Settings
SHDSL Parameter Defaults
Table 1. SHDSL Defaults
Parameter
Default
Backbone-VLAN
0 (off)
Circuit Identification n/a (no default)
Flood
Uplink
IP Range 1
IP Range 2
Protocol
0.0.0.0 – 255.255.255.255
0.0.0.0 – 0.0.0.0
All
Speed
272 kbps
VLAN Priority
VLAN Range
0 (none)
0 - 0 (off)
T1 Uplink Parameter Defaults
Table 2. T1 Defaults
Parameter
Frame Type
Line Attenuation
Line Code
Default
Extended Super Frame (ESF)
0 dB
Bipolar with 8 Zero Substitution (B8ZS)
Speed*
n/a (T1 uplink speed is determined via communication with the
remote T1 provider equipment to which the SMD2000-24T is
connected)
Timing*
Loop
* Speed and timing are non-configurable parameters for the SMD2000-24T T1
uplink ports.
15
System and Management Defaults
No configuration is necessary for an SMD2000-24T to operate at default settings.
Table 3. System and Management Defaults
Parameter
Default
IP Address
192.168.254.252
Subnet Mask
255.255.255.0
Gateway
0.0.0.0
Inband Management
Inband Management VLAN ID
TFTP (Trivial File Transfer Protocol)
Management IP Address Filter Range
Uplink DSLAM Interconnection
disabled
0 (off)
on
0.0.0.0 – 255.255.255.255 (all)
1 (neither/off)
User Access Defaults
Table 4. Username and Password Defaults
Username/Passwords
Access
Username*
superuser
general
Password*
read/write
read only
Password
Password
* Usernames and passwords are case sensitive.
Table 5. SNMP Access Defaults
Community String
Access
Community String*
Password
read/write
read only
Password
* Community strings are case sensitive.
16
Data Storage
Configuration backup is inherent in the SMD2000-24T. Default parameters remain in
place unless changed using the CLI, web management system, or SNMP.
Memory
Parameter configurations are automatically recorded in both Random Access Memory
(RAM) and Non-Volatile Random Access Memory (NVRAM).
Data stored only in RAM, such as traffic statistics and link up/down time, will be erased if
the SMD2000-24T loses power.
Data stored in NVRAM, such as management and port parameter configurations, will
remain intact (even if the SMD2000-24T loses power) unless deliberately cleared or
reconfigured.
Saving to Local Files
SMD2000-24T management and port configurations can be uploaded to a local file on
your PC or local network via the Trivial File Transfer Protocol (TFTP) GET command.
Configuration files can also be downloaded from a local file to an SMD2000-24T with a
TFTP PUT command. Refer to your TFTP program’s help for further instructions.
SMD2000-24T Backup
An SMD2000-24T backup file records all management and port configurations.
Table 6. Backup Criteria
Item
Data Needed for Backup
Example
Host Name DSLAM_IP Address (xxx.xxx.xxx.xxx)
193.166.254.98
nvr_backup.bin.Password
Remote
NVR_BACKUP.BIN.[superuser password]
user preference
Filename
Local
smd4_backup.bin
Filename
17
SMD2000-24T Template
An SMD2000-24T template file records all management and port configurations except
IP Address.
Table 7. Template Criteria
Item
Data Needed for Backup
Example
Host Name DSLAM_IP Address
(xxx.xxx.xxx.xxx)
193.166.254.98
Remote
Filename
NVR_CFG.BIN.[superuser
password]
nvr_cfg.bin.Password
Local
user preference
smd2000_template.bin
Filename
SHDSL Port Template
A SHDSL port configuration file records all of one port's configurations except Circuit ID.
Table 8. Template Criteria
Item
Data Needed for Backup
Example
Host Name DSLAM_IP Address
(xxx.xxx.xxx.xxx)
193.166.254.98
Remote
Filename
NVR_PORTCFG.BIN.[superus nvr_portcfg.bin.Password.[1][4]
er password].[1][port]
Local
user preference
shdsl_servicelevel4_template.bin
Filename
A previously saved port configuration file can be downloaded to multiple ports on your
SMD2000-24T simultaneously by entering the port value [port] as:
A comma separated list:
nvr_portcfg.bin.Password.[1][4,6,8]
A dash indicated range:
nvr_portcfg.bin.Password.[1][6-12]
Or using the keyword "all"
nvr_portcfg.bin.Password.[1][all]
18
Reset Button
The reset button is a small, unmarked button just to the right of the T1 uplink LEDs on
the chassis faceplate. The button is recessed and you need a paper clip, mechanical
pencil, or similar tool to press it.
Reset Button
System Reset
A system reset will clear all statistical data (stored in RAM) and restart the
SMD2000-24T. It will not clear NVRAM; management settings and port configurations
will remain unchanged.
To perform a system reset, press the Reset Button for one second. The reset takes
approximately one minute to complete.
System Clear
A system clear will erase both RAM and NVRAM and restart the SMD2000-24T,
restoring all management and port configurations to their original default settings. To
clear the system, press the Reset Button for one second, release, and, within five [5]
seconds, press the Reset Button again for one second.
After the first pressing of the Reset Button, the passage of five seconds is indicated by
the successive flashing of the SHDSL Link (LK) LEDs for Ports 1-5; if you do not press
the Reset Button a second time within the allotted five seconds, the SMD2000-24T will
clear takes approximately one minute to complete.
CAUTION:
Clearing NVRAM to restore original default settings includes restoring the default IP
Address, Subnet Mask and Gateway. Additionally, Inband Management will revert to
its original default setting (OFF) and you will be required to establish a direct PC to
SMD2000-24T connection for any subsequent configurations. Refer to the
19
Command Line Interface for 4000E and 12000E BACs, Micro DSLAMs, and
Network Extenders User's Guide (Document Number CLI-A2-GB20) or the Network
Management System User's Guide (Document Number NMS-A2-GB20) for further
information.
LED Indicators
For purposes of the following descriptions, a pulsing LED blinks steadily at a rate of
once per second. A flashing LED blinks at a more rapid, less constant rate.
Table 9. LEDs (1 of 3)
State
Indication
Additional Information
PWR
(power)
Solid green SMD2000-24T is receiving
power
Both power terminals are
connected.
Solid
amber
SMD2000-24T is receiving
power
One of the two power
terminals is connected.
No
illumination
No power
If the SMD2000-24T is not
receiving power, none of the
LEDs will be illuminated.
FAN
Solid green All four fans are fully
functional
Solid
amber
Fan failure
At least one of the four
chassis fans is not
functioning properly.
No
Total fan failure
None of the four chassis
illumination
fans is functioning properly.
20
Table 9. LEDs (2 of 3)
State
Indication
Additional Information
LNK
Flashing
green
100 Mbps management
connection is established
and active
Traffic is flowing at 100
Mbps.
(10/100
Ethernet
Manage-
ment
Solid green 100 Mbps management
connection is established
No current traffic flow.
Link)
Flashing
amber
10 Mbps management
connection is established
and active
Traffic is flowing at 10 Mbps.
Solid
10 Mbps management
No current traffic flow.
amber
connection is established
No
illumination
No management connection NOTE: The LNK LED
pertains only to direct
connections between the
SMD2000-24T and your PC;
it does not pertain to remote
network access of the
SMD2000-24T.
LK: T1
Uplink
Port 1
and 2
Flashing
green
T1 uplink connection is
established and active
The uplink port has received
valid data from the remote
T1 provider equipment
within the last second.
Solid green T1 uplink connection is
established
A T1 uplink connection
exists and the port may be
transmitting but it has not
received any data from the
remote T1 provider
equipment within the last
second.
No
Red Alarm: The T1 uplink's
If the T1 uplink's outgoing
connection has also been
lost then the remote T1
provider equipment is in Red
Alarm as well.
illumination incoming connection has
been lost; no data is being
received.
21
Table 9. LEDs (3 of 3)
State
Indication
Additional Information
AL: T1
Alarm
Port 1
and 2
No
T1 uplink connection is
An established T1 uplink
connection has no alarm
indications and is
operational UNLESS the T1
LK LED remains unlit as
well, in which case the T1
uplink connection is in Red
Alarm.
illumination operational
Solid
Yellow Alarm: The T1
The remote T1 provider
amber
uplink's outgoing connection equipment has lost its
has been lost; no data is
being transmitted.
incoming connection and is
in Red Alarm.
Pulsing
amber
Blue Alarm: An indirect
connection has been lost;
the T1 uplink port may no
longer be receiving data
The remote T1 provider
equipment has lost a
connection with an
intermediate device and is in
from the remote T1 provider Red or Yellow Alarm.
equipment.
SHDSL
LK: Ports green
1-24
Flashing
SHDSL connection is
established and active
The port has received valid
data from the remote
SHDSL modem within the
last second.
Solid green Problematic SHDSL
connection
A connection exists but there
is indication of a problem
with the SHDSL line.
No
No SHDSL connection
illumination
SHDSL
ACT:
Flashing
amber
SHDSL connection is
established and active
Traffic is flowing.
Ports
1-24
Solid
amber
Heavy traffic
The port is receiving
unusually large amounts of
data from, and/or
transmitting unusually large
amounts of data to, the
remote SHDSL modem.
No
illumination
No activity
A link may exist but no data
is being transmitted to the
remote SHDSL modem.
22
Pin Assignments
SHDSL RJ21 Pinouts
Table 10. SHDSL RJ21 Pinouts
Connector Pins
(Ring, Tip)
Connector Pins
(Ring, Tip)
Port
Port
Port 1
Port 2
Port 3
Port 4
Port 5
Port 6
Port 7
Port 8
Port 9
Port 10
Port 11
Port 12
1, 26
2, 27
3, 28
4, 29
5, 30
6, 31
7, 32
8, 33
9, 34
10, 35
11, 36
12, 37
Port 13
Port 14
Port 15
Port 16
Port 17
Port 18
Port 19
Port 20
Port 21
Port 22
Port 23
Port 24
13, 38
14, 39
15, 40
16, 41
17, 42
18, 43
19, 44
20, 45
21, 46
22, 47
23, 48
24, 49
Pins 25 and 50 are not used.
23
10/100BaseT RJ45 Pinouts
Table 11. Ethernet RJ45 Connection
Pin
1
Connection
Rx+
2
Rx–
3
Tx+
4
not used
not used
Tx–
5
6
7
not used
not used
8
T1 RJ48C Pin Assignments
Table 12. T1 RJ48C Pin Assignments
Pin
Function
Rx Ring
Rx Tip
Pin 1
Pin 2
Pin 3
Pin 4
Pin 5
Pin 6
Pin 7
Pin 8
not used
Tx Ring
Tx Tip
not used
not used
not used
24
DB9 to 8-Pin Modular Adapter Pinouts
To connect the COM port to the DB9 serial port of a PC, use an adapter wired as shown:
Table 13. DB9 to 8-Pin Modular Adapter Pinouts
Pin 8-Pin Modular Port
Direction PC RS232 Serial Port
Pin
2
1
2
4
5
6
Transmit Data
Data Set Ready
Receive Data
Ground
TxD
→
←
←
↔
→
RxD Receive Data
RTS Request to Send
TxD Transmit Data
GND Ground
DSR
RxD
GND
7
3
5
Data Terminal Ready DTR
CTS Clear to Send
8
Pins not shown are unused.
25
Technical Specifications
Table 14. SMD2000-24T Technical Specifications
Specification
Criteria
Bandwidth and Distance
Capabilities – SHDSL
Ports
Default is 272 kbps at up to 20,200 ft (6,157 m)
Maximum distance is up to 24,000 ft (18,000 m) at
144 kbps
Maximum bandwidth is 2320 kbps at up to 11,300 ft
(3,444 m)
Bandwidth and Distance
Capabilities – T1 Uplinks
Maximum bandwidth is 1,536 kbps with all 24 timeslots
Maximum distance is 5,000 ft (1,524 m)
Compliance
NEBS: GR-63-CORE, GR-1089-CORE
EMC: FCC Part 15; CSA/C108.8; EN55022; EN55024
Safety: UL 1950, CSA C22.2 No. 950; EN60950
CE Marking
Environment
Operating Temperature: –40° F to 149° F (–40° C to
65° C)
Storage Temperature: –40° F to 158° F (-40° C to 70° C)
Humidity: 5 % to 95 %, Non-condensing
Altitude: –200 ft to 16,500 ft (–60 m to 5,000 m)
Interfaces
24 SHDSL ports (1 RJ21 50-pin Telco)
2 fixed RJ48C T1 uplink ports
1 RJ45 10/100BaseT management interface
1 RJ45 RS-232 COM port
2 Uplink Interface Module (UIM) slots supporting
10/100BaseT, E1, and T1
Power
–48V DC
1 amp minimum / 1.6 amp maximum
(Actual power draw depends on chassis configuration)
Size
1.75" High x 17" Wide x 14" Deep
(4.4 cm High x 43.2 cm Wide x 35.6 cm Deep)
Weight
12.5 lbs (5.73 kg)
26
EMI Notices
United States – EMI Notice
This equipment has been tested and found to comply with the limits for a Class A digital
device, pursuant to Part 15 of the FCC rules. These limits are designed to provide
reasonable protection against harmful interference when the equipment is operated in a
commercial environment. This equipment generates, uses, and can radiate radio
frequency energy and, if not installed and used in accordance with the instruction
manual, may cause harmful interference to radio communications. Operation of this
equipment in a residential area is likely to cause harmful interference in which case the
user will be required to correct the interference at his own expense.
The authority to operate this equipment is conditioned by the requirements that no
modifications will be made to the equipment unless the changes or modifications are
expressly approved by Paradyne Corporation.
If the equipment includes a ferrite choke or chokes, they must be installed as described
in the installation instructions.
Canada – EMI Notice
This Class A digital apparatus complies with Canadian ICES-003.
Cet appareil numérique de la classe A est conforme à la norme NMB-003 du Canada.
ACTA Customer Information
This equipment complies with Part 68 of the FCC rules and the requirements adopted
by the Administrative Council for Terminal Attachments (ACTA). On the bottom of the
network extender is a label that contains, among other information, a product identifier in
the format US:AAAEQ##TXXXX. If requested, this number must be provided to the
telephone company.
The T1 network connections should be made using a Universal Service Order Code
(USOC) type RJ48C jack. The Service Order Code 6.0F should be specified to the
telephone company when ordering the T1 line. In addition, the proper Facility Interface
Code must be specified to the Telephone Company. The network extender can be
configured to support any of the following framing format and line signaling techniques.
The network extender's configuration must correspond to the T1 line's parameters.
Facility Interface Codes Code Description
04DU9-BN
04DU9-DN
04DU9-1KN
04DU9-1SN
1.544 Mbps superframe format (SF) without line power
1.544 Mbps SF and B8ZS without line power
1.544 Mbps ANSI ESF without line power
1.544 Mbps ANSI ESF and B8ZS without line power
27
A plug and jack used to connect this equipment to the premises wiring and telephone
network must comply with the applicable FCC Part 68 rules and requirements adopted
by the ACTA. See installation instructions for details.
If the network extender causes harm to the telephone network, the telephone company
will notify you in advance that temporary discontinuance of service may be required. But
if advance notice isn't practical, the telephone company will notify the customer as soon
as possible. Also, you will be advised of your right to file a complaint with the FCC if you
believe it is necessary.
The telephone company may make changes in its facilities, equipment, operations or
procedures that could affect the operation of the equipment. If this happens the
telephone company will provide advance notice in order for you to make necessary
modifications to maintain uninterrupted service.
If trouble is experienced with this equipment, please contact your local sales
representative, service representative, or distributor directly for any help needed. For
additional information concerning warranty, sales, service, repair, installation,
documentation, training, distributor locations, or Paradyne worldwide office locations,
use one of the following methods:
Telephone: Call our automated system to receive current information by fax or to
speak with a company representative.
—
—
Within the U.S.A., call 1-800-870-2221
Outside the U.S.A., call 1-727-530-2340
If the equipment is causing harm to the telephone network, the telephone company may
request that you disconnect the equipment until the problem is resolved.
The customer may make no repairs to the equipment.
Connection to party line service is subject to state tariffs. Contact the state public utility
commission, public service commission or corporation commission for information.
CE Marking
When the product is marked with the CE mark on the equipment label, a supporting
Declaration of Conformity may be downloaded from the Paradyne World Wide Web site
28
Japan Notice
Class A ITE
This is a Class A product based on the standard of the Voluntary Control Council for
interference by Information Technology Equipment (VCCI). If this equipment is used in a
domestic environment, radio disturbance may arise. When such trouble occurs, the user
may be required to take corrective actions.
29
!
Important Safety Instructions
1. Read and follow all warning notices and instructions marked on the product or
included in the manual.
2. Slots and openings in the cabinet are provided for ventilation. To ensure reliable
operation of the product and to protect it from overheating, these slots and
openings must not be blocked or covered.
3. Do not allow anything to rest on the power cord and do not locate the product where
persons will walk on the power cord.
4. Do not attempt to service this product yourself, as opening or removing covers may
expose you to hazardous voltage or to other risks. Refer all servicing to qualified
service personnel.
5. General purpose cables are used with this product for connection to the network.
Special cables, which may be required by the regulatory inspection authority for the
installation site, are the responsibility of the customer. Use a UL Listed, CSA
certified, minimum No. 26 AWG line cord for connection to the Digital Subscriber
Line (DSL) network.
6. When installed, the product must comply with the applicable Safety Standards and
regulatory requirements of the country in which it is installed. If necessary, consult
with the appropriate regulatory agencies and inspection authorities to ensure
compliance.
7. A rare phenomenon can create a voltage potential between the earth grounds of
two or more buildings. If products installed in separate buildings are
interconnected, the voltage potential may cause a hazardous condition. Consult a
qualified electrical consultant to determine whether or not this phenomenon exists
and, if necessary, implement corrective action prior to interconnecting the products.
8. Input power to this product must be provided by one of the following: (1) a UL
Listed/CSA certified power source with a Class 2 or Limited Power Source (LPS)
output for use in North America, or (2) a certified power source, with a Safety Extra
Low Voltage (SELV) output having a maximum of 240 VA available, for use in the
country of installation.
9. In addition, since the equipment is to be used with telecommunications circuits, take
the following precautions:
—
—
Never install telephone wiring during a lightning storm.
Never install telephone jacks in wet locations unless the jack is specifically
designed for wet locations.
—
Never touch uninsulated telephone wires or terminals unless the telephone line
has been disconnected at the network interface.
—
—
Use caution when installing or modifying telephone lines.
Avoid using a telephone (other than a cordless type) during an electrical storm.
There may be a remote risk of electric shock from lightning.
—
Do not use the telephone to report a gas leak in the vicinity of the leak.
Copyright 2005 Paradyne Corporation. Printed in U.S.A.
30
Warranty, Sales, Service, and Training Information
Contact your local sales representative, service representative, or distributor directly for
any help needed. For additional information concerning warranty, sales, service, repair,
installation, documentation, training, distributor locations, or Paradyne worldwide office
locations, use one of the following methods:
Telephone: Call our automated system to receive current information by fax or to
speak with a company representative.
—
—
Within the U.S.A., call 1-800-870-2221
Outside the U.S.A., call 1-727-530-2340
31
*SMD2-A2-GN11-00*
*SMD2-A2-GN11-00*
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